MODEL G0764Z
14" SLIDING TABLE SAW
OWNER'S MANUAL
(For models manufactured since 05/18)
COPYRIGHT © AUGUST, 2016 BY GRIZZLY INDUSTRIAL, INC. REVISED MAY, 2018 (BL)
WARNING: NO PORTION OF THIS MANUAL MAY BE REPRODUCED IN ANY SHAPE
OR FORM WITHOUT THE WRITTEN APPROVAL OF GRIZZLY INDUSTRIAL, INC.
#MN17972 PRINTED IN TAIWA N
V3 . 0 5 .1 8
This manual provides critical safety instructions on the proper setup,
operation, maintenance, and service of this machine/tool. Save this
document, refer to it often, and use it to instruct other operators.
Failure to read, understand and follow the instructions in this manual
may result in fire or serious personal injury—including amputation,
electrocution, or death.
The owner of this machine/tool is solely responsible for its safe use.
This responsibility includes but is not limited to proper installation in
a safe environment, personnel training and usage authorization,
proper inspection and maintenance, manual availability and comprehension, application of safety devices, cutting/sanding/grinding tool
integrity, and the usage of personal protective equipment.
The manufacturer will not be held liable for injury or property damage
from negligence, improper training, machine modifications or misuse.
Some dust created by power sanding, sawing, grinding, drilling, and
other construction activities contains chemicals known to the State
of California to cause cancer, birth defects or other reproductive
harm. Some examples of these chemicals are:
• Lead from lead-based paints.
• Crystalline silica from bricks, cement and other masonry products.
• Arsenic and chromium from chemically-treated lumber.
Your risk from these exposures varies, depending on how often you
do this type of work. To reduce your exposure to these chemicals:
Work in a well ventilated area, and work with approved safety equipment, such as those dust masks that are specially designed to filter
out microscopic particles.
Table of Contents
INTRODUCTION ............................................... 2
Machine Description
Contact Info.................................................... 2
Manual Accuracy
Controls & Components
Glossary Of Terms
Sliding Table Saw Capacities
Machine Data Sheet
SECTION 1: SAFETY
Safety Instructions for Machinery
Additional Safety for Sliding Table Saws
Additional Safety for Sliding Table Saws
Preventing Kickback
Protecting Yourself From Kickback.............. 14
SECTION 2: POWER SUPPLY
440V Conversion
SECTION 3: SETUP
Needed for Setup
Unpacking
Hardware Recognition Chart
Inventory
Cleanup
Site Considerations
Lifting & Placing Saw
Assembly
Dust Collection
Power Connection........................................ 39
Test Run
Recommended Adjustments
SECTION 4: OPERATIONS
Operation Overview
Workpiece Inspection................................... 44
Through & Non-Through Cuts
Blade Guard
Riving Knife
Blade Requirements
Blade Selection
Changing Speed
Changing ..................................................... 50
Main Blade
Replacing & Aligning Scoring Blade
Setting Up
Crosscut Fence
Rip Cutting
Crosscutting
Miter Cutting................................................. 61
Dado Cutting
Rabbet Cutting
Narrow-Rip Auxiliary Fence & Push Block
.................................................... 18
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.. 64
SECTION 5: ACCESSORIES
SECTION 6: MAINTENANCE
Schedule
Cleaning & Protecting
Lubrication
SECTION 7: SERVICE
Troubleshooting
Belt Service
Blade Tilt Calibration
Sliding Table Parallel Adjustment
Sliding Table Movement Adjustment
Squaring Crosscut Fence to Blade
Riving Knife Mounting Block
Calibrating Rip Fence
SECTION 8: WIRING
Wiring Safety Instructions
Wiring Overview
Component Location Index
Control Panel Wiring
220V Electrical Panel Wiring
440V Electrical Panel Wiring
Scoring Motor Wiring
Main Motor Wiring ....................................... 89
Master Power Switch Wiring
SECTION 9: PARTS
Body
Main Tables
Control Panel
Blade Enclosure
Main Motor
Main Blade Arbor
Blade Tilt System
Blade Elevation System
Scoring Blade Arbor
Scoring Blade Adjustment System
Scoring Blade Motor
Crosscut Swing-Arm
Crosscut Table
Crosscut Fence
Rip Fence................................................... 106
Sliding Table
Blade Guard
Sliding Table Accessories
Electrical
Labels & Cosmetics
WARRANTY & RETURNS
...................................................... 69
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INTRODUCTION
We are proud to provide a high-quality owner’s
manual with your new machine!
We
instructions, specifications, drawings, and photographs
in this manual. Sometimes we make mistakes, but
our policy of continuous improvement also means
that
you receive is
slightly different than shown in the manual
If you find this to be the case, and the difference
between the manual and machine leaves you
confused or unsure about something
check our
website for an updated version. W
current
manuals and
on our web-
site at
Alternatively, you can call our Technical Support
for help. Before calling, make sure you write down
the
from
the machine ID label (see below). This information
is required for us to provide proper tech support,
and it helps us determine if updated documentation is available for your machine.
We stand behind our machines! If you have questions or need help, contact us with the information
below. Before contacting, make sure you get the
serial number
machine ID label. This will help us help you faster.
We want your feedback on this manual. What did
you like about it? Where could it be improved?
Please take a few minutes to give us feedback.
Machine Description
A sliding table saw is primarily used to rip and
crosscut sheet stock or panels in a production
setting. The sliding table saves time and increases
accuracy by removing the burden of sliding large
and heavy panels over a stationary table surface.
This saw can also be used as a traditional table
saw for most types of through-cuts.
The Model G0764Z is equipped with a scoring blade, which is a smaller circular saw blade
located in front of the main blade. It makes a shallow cut in the workpiece in the opposite direction
of the main blade, greatly reducing tearout and
chipped edges.
When using the sliding table saw as a traditional
table saw, the sliding table is locked in place and
the rip fence is then used to guide the workpiece
through the cut.
Contact Info
Email: techsupport@grizzly.com
and manufacture date from the
Grizzly Technical Support
1815 W. Battlefield
Springfield, MO 65807
Phone: (570) 546-9663
Manual Accuracy
made every effort to be exact with the
sometimes the machine
.
,
e post
manual updates for free
www.grizzly.com.
Manufacture Date and Serial Number
Manufacture Date
Serial Number
-2-
Grizzly Documentation Manager
P.O. Box 2069
Bellingham, WA 98227-2069
Email: manuals@grizzly.com
Model G0764Z (Mfd. Since 05/18)
Controls & Components
Refer to Figures 1–5 and the following descriptions to become familiar with the basic controls and components of this machine. Understanding these items and how they work will help you understand the rest of
the manual and stay safe when operating this saw.
E
C
D
F
B
A
K
Main Blade Not Included
Figure 1. Model G0764Z overview.
A. Crosscut Table. Provides a wide, stable
platform for supporting full-size panels during
crosscutting operations. This is where you
put panels when you are going to cut them
using the sliding table.
B. Crosscut Fence. Used during crosscutting
operations to keep panels at the desired
angle to the blade. Features a scale and flipstyle stop blocks.
C. Flip Stops. Used for quick, precise measure-
ments for repeatable cuts when using crosscut fence.
D. Sliding Table. Ball-bearing rollers make it
quicker and easier to guide large, heavy panels through the cut.
E. Blade Guard. Fully enclosed, adjustable
blade guard maintains maximum protection
around the saw blade with a 4" dust port
extending from the guard support that effectively extracts dust from the cutting operation.
G
I
J
F. Rip Fence. Fully adjustable with micro-
adjustment knob for precision cuts of smaller
workpieces. Fence face can be positioned for
standard cutting operations, or in the lower
position for blade guard clearance during narrow ripping operations.
G. Hold-Down. Quickly clamps one end of
workpiece to sliding table.
H. Edge Shoe. Used with hold-down, keeps
the other end of workpiece secured to sliding
table.
I. Control Panel. Features push-button con-
trols for operating saw.
J. Blade Angle Handwheel. Adjusts angle of
main and scoring blades for beveled cuts.
K. Blade Elevation Handwheel. Adjusts height
of the main saw blade.
H
Model G0764Z (Mfd. Since 05/18)
-3-
Rip Fence
To reduce your risk of
serious injury, read this
entire manual BEFORE
M
L
O
N
Q
P
Figure 2. Rip fence controls.
L. Rip Fence Scale. Helps you measure the cut
when rip cutting.
M. Slide Lock Handle. Secures the aluminum
fence face on its forward/backward slide
track to support the workpiece.
P. Rip Fence Lock Handle. Secures the rip
fence assembly into position along the fence
rail so that the workpiece is stable when cutting.
Q. Micro-Adjust Lock Knob. Enables the use
of the micro-adjust knob for precise positioning of the rip fence.
Saw Blades
S
T
R
N. Micro-Adjust Knob. Provide precise adjust-
ments of the fence along the rail. Tighten
micro-adjust lock knob to use this feature.
O. Rip Fence Rail. Provides a stable side-to-
side path for sliding the rip fence assembly
toward or away from blade.
using machine.
Figure 3. Saw blades.
R. Riving Knife. Maintains kerf opening during
cutting operations. This function is crucial to
preventing kickback caused by the kerf closing behind the blade.
S. Main Blade. Performs the cutting operation.
T. Scoring Blade. Rotates in the opposite
direction of the main blade and pre-cuts the
surface of the workpiece before the actual
cutting operation is performed to reduce
tearout or chipping. The scoring blade is
adjustable for kerf thickness and alignment
with the main blade.
-4-
Model G0764Z (Mfd. Since 05/18)
Front Controls Rear Controls
U V W
X Y
AB
AE
AF
AG
Z
Figure 4. Front controls.
U. Main Blade Elevation Handwheel. Raises
and lowers the main blade. The lock knob in
the center secures the handwheel to prevent
blade from moving during operation.
V. Tilt Scale. Displays the tilt angle of blades in
degrees.
W. Blade Tilt Handwheel. Adjusts the tilt angle
of both blades. The lock knob in the center
secures the handwheel to prevent blade from
moving during operation.
X. Main Blade ON Button.
Y. Main Blade OFF Button.
Z. Scoring Blade ON Button.
AA
AC
AD
Figure 5. Rear controls.
AD. Master Power Switch. Enables power flow
to the machine.
AE. Scoring Blade Elevation Knob. Raises
and lowers the scoring blade to change the
kerf thickness. The knurled wheel behind the
knob secures the setting to prevent blade
from moving during operation.
AF. Scoring Blade Alignment Knob. Adjusts
the alignment of scoring blade to the main
blade. The knurled wheel behind the knob
secures the setting to prevent blade from
moving during operation.
AG. Emergency Stop Button. Turns both motors
OFF. Twist clockwise until it pops out to reset.
AA. Scoring Blade OFF Button.
AB. Power Lamp. When lit, provides a visual
indicator that power is enabled to the saw.
AC. Emergency Stop Button. Turns both motors
OFF. Twist clockwise until it pops out to reset.
Model G0764Z (Mfd. Since 05/18)
-5-
Glossary Of Terms
The following is a list of common definitions, terms and phrases used throughout this manual as they relate
to this sliding table saw and woodworking in general. Become familiar with these terms for assembling,
adjusting or operating this machine. Your safety is VERY important to us at Grizzly!
Arbor: Metal shaft extending from the drive
mechanism, to which saw blade is mounted.
Bevel Edge Cut: Tilting the arbor and saw blade
to an angle between 0° and 45° to cut a beveled edge onto a workpiece.
Blade Guard: Metal or plastic safety device that
mounts over the saw blade. Its function is to
prevent the operator from coming into contact
with the saw blade.
Crosscut: Cutting operation in which the cross-
cut fence is used to cut across the grain, or
across the shortest width of the workpiece.
Dado Blade: Blade or set of blades that are used
to cut grooves and rabbets.
Dado Cut: Cutting operation that cuts a flat bot-
tomed groove into the face of the workpiece.
Featherboard: Safety device used to keep the
workpiece against the rip fence and against the
table surface.
Kerf: The resulting cut or gap in the workpiece
from the saw blade passing through it while
cutting.
Kickback: A dangerous event that happens if
the blade catches on the workpieces while
cutting. The force of the blade then throws the
workpiece back toward the operator with what
sounds like a horrible explosion. The danger
comes from flying stock striking the operator or
bystanders. The operator’s hands may also be
pulled into the blade during the kickback. Refer
to Preventing Kickback on Page 14 for additional information.
Parallel: When two objects are spaced an equal
distance apart at every point along two given
lines or planes (I.e. the rip fence face is parallel
to the face of the saw blade).
Non-Through Cut: A sawing operation in which
the workpiece is not completely sawn through.
Dado and rabbet cuts are considered NonThrough Cuts because the blade does not
protrude above the top face of the wood stock.
Perpendicular: Lines or planes that intersect
and form right angles. I.e. the blade is perpendicular to the table surface.
Push Stick: Safety device used to push the
workpiece through a cutting operation. Used
most often when rip cutting thin workpieces.
Rabbet: Cutting operation that creates an
L-shaped channel along the edge of the
workpiece.
Riving Knife: Metal plate located behind the
blade maintains the kerf opening in the wood
when cutting, and helps reduce the risk of
injury from a kickback that otherwise would
result in amputation.
Straightedge: A tool with a perfectly straight
edge used to check the flatness, parallelism,
or consistency of a surface(s).
Through Cut: A sawing operation in which the
workpiece is completely sawn through.
Rip Cut: Cutting operation in which the rip fence
is used to cut with the grain, or cut across the
widest width of the workpiece.
-6-
Model G0764Z (Mfd. Since 05/18)
SLIDING TABLE
SAW CAPACITIES
Customer Service #: (570) 546-9663 • To Order Call: (800) 523-4777 • Fax #: (800) 438-5901
MODEL G0764Z 14" SLIDING TABLE SAW
134"
124"
Ripping Width
42"
Miter Cut 90º
(push cut)
Miter Cut 45º
134"
90"
511/4"
134"
126"
Cross Cut
134"
Miter Cut 45º
(push cut)
Cross Cut
(fence not extended)
58"
124"
731/4"
731/4"
Miter Cut 45º
(push cut, fence not extended)
Model G0764Z (Mfd. Since 05/18)
731/4"
58"
126"
Miter Cut 45º
(fence not extended)
-7-
MACHINE DATA
SHEET
Customer Service #: (570) 546-9663 · To Order Call: (800) 523-4777 · Fax #: (800) 438-5901
MODEL G0764Z 14" SLIDING TABLE SAW
Product Dimensions:
Weight............................................................................................................................................................ 1410 lbs.
Width (side-to-side) x Depth (front-to-back) x Height....................................................................... 133 x 202 x 65 in.
Footprint (Length x Width)............................................................................................................... 74-1/2 x 35-1/2 in.
Space Required for Full Range of Movement (Width x Depth)................................................................ 279 x 203 in.
Shipping Dimensions:
Carton #1
Type................................................................................................................................................ Wood Crate
Content................................................................................................................................................. Machine
Weight.................................................................................................................................................. 1397 lbs.
Length x Width x Height............................................................................................................. 83 x 45 x 44 in.
Must Ship Upright......................................................................................................................................... Yes
Carton #2
Type................................................................................................................................................ Wood Crate
Content.......................................................................................................................................... Sliding Table
Weight.................................................................................................................................................... 246 lbs.
Length x Width x Height............................................................................................................. 130 x 17 x 9 in.
Must Ship Upright......................................................................................................................................... Yes
Electrical:
Power Requirement..................................................................................................... 220V or 440V, 3-Phase, 60 Hz
Prewired Voltage.................................................................................................................................................. 220V
Full-Load Current Rating............................................................................................... 29.2A at 220V, 14.6A at 440V
Minimum Circuit Size.......................................................................................................... 40A at 220V, 20A at 440V
Connection Type........................................................................................... Permanent (Hardwire to Shutoff Switch)
Switch Type................................................................................................. Magnetic w/Thermal Overload Protection
Voltage Conversion Kit.............................................................................................................. P0764Z1814 for 440V
Recommended Phase Converter....................................................................................................................... G7978
-8-
Motors:
Main
Type........................................................................................................................................... TEFC Induction
Horsepower.............................................................................................................................................. 10 HP
Phase.................................................................................................................................................... 3-Phase
Amps......................................................................................................................... 26A at 220V, 13A at 440V
Speed................................................................................................................................................ 3450 RPM
Power Transfer .................................................................................................................................. Belt Drive
Bearings........................................................................................................ Sealed & Permanently Lubricated
Scoring Blade
Type........................................................................................................................................... TEFC Induction
Horsepower................................................................................................................................................ 1 HP
Phase.................................................................................................................................................... 3-Phase
Amps....................................................................................................................... 3.2A at 220V, 1.6A at 440V
Speed................................................................................................................................................ 3450 RPM
Power Transfer .................................................................................................................................. Belt Drive
Bearings........................................................................................................ Sealed & Permanently Lubricated
Model G0764Z (Mfd. Since 05/18)
Main Specifications:
Operation Information
Main Blade Size......................................................................................................................................... 14 in.
Main Blade Arbor Size................................................................................................................................. 1 in.
Scoring Blade Size................................................................................................................................ 4-3/4 in.
Scoring Blade Arbor Size........................................................................................................................ 20 mm
Main Blade Tilt.................................................................................................................................. 0 – 45 deg.
Main Blade Speed......................................................................................................... 3000, 4000, 5000 RPM
Scoring Blade Tilt............................................................................................................................. 0 – 45 deg.
Scoring Blade Speed......................................................................................................................... 8000 RPM
Cutting Capacities
Max Depth of Cut At 90 Deg.................................................................................................................. 4-1/8 in.
Max Depth of Cut At 45 Deg.................................................................................................................. 2-7/8 in.
Rip Fence Max Cut Width.................................................................................................................... 51-1/4 in.
Sliding Table w/Crosscut Fence Max Cut Width...................................................................................... 134 in.
Sliding Table w/Crosscut Fence Max Cut Length.................................................................................... 124 in.
Miter Fence Max Cut Width at 45 Deg..................................................................................................... 126 in.
Table Information
Floor To Table Height.......................................................................................................................... 34-1/2 in.
Table Size Length................................................................................................................................ 39-1/2 in.
Table Size Width................................................................................................................................. 21-1/2 in.
Table Size Thickness.......................................................................................................................... 2-5/16 in.
Table Size With Ext Wings Length...................................................................................................... 35-1/4 in.
Table Size With Ext Wings Width........................................................................................................ 59-1/8 in.
Table Size With Ext Wings Thickness................................................................................................... 2-1/2 in.
Sliding Table Length................................................................................................................................ 126 in.
Sliding Table Width.................................................................................................................................... 14 in.
Sliding Table Thickness......................................................................................................................... 6-3/4 in.
Sliding Table T-Slot Top Width................................................................................................................. 5/8 in.
Sliding Table T-Slot Height....................................................................................................................... 5/8 in.
Sliding Table T-Slot Bottom Width......................................................................................................... 1-1/2 in.
Fence Information
Crosscut Fence Type.......................................................................................................... Extruded Aluminum
Crosscut Fence Size Length...................................................................................................................... 73 in.
Crosscut Fence Size Width................................................................................................................... 2-3/8 in.
Crosscut Fence Size Height.................................................................................................................. 2-3/8 in.
Crosscut Fence Number of Stops.................................................................................................................... 2
Rip Fence Type................................................................................................................. Single Lever Locking
Rip Fence Size Length........................................................................................................................ 39-3/8 in.
Rip Fence Size Width.................................................................................................................................. 2 in.
Rip Fence Size Height........................................................................................................................... 3-1/2 in.
Construction Materials
Table.................................................................................................................................................... Cast Iron
Cabinet..................................................................................................................................................... Steeel
Rip Fence Rails.......................................................................................................................... Chromed Steel
Guard............................................................................................................................ Sheet Steel and Plastic
Spindle Bearing Type.................................................................................... Sealed & Permanently Lubricated
Cabinet Paint Type/Finish.......................................................................................................... Powder Coated
Other Related Information
No of Dust Ports............................................................................................................................................... 2
Dust Port Size.......................................................................................................................................... 4, 5 in.
Model G0764Z (Mfd. Since 05/18)
-9-
Other Specifications:
Country of Origin .............................................................................................................................................. Taiwan
Warranty ........................................................................................................................................................... 1 Year
Approximate Assembly & Setup Time ............................................................................................................. 3 Hours
Serial Number Location .................................................................................................. ID Label on Side of Machine
ISO 9001 Factory .................................................................................................................................................. Yes
Certified by a Nationally Recognized Testing Laboratory (NRTL) .......................................................................... No
Features:
Micro-Adjustable Rip Fence
Scoring Saw Blade for Tear-Out Free Cutting
Sliding Table on Steel Ball Guide System with Heat-Treated Steel Ways
Alloy Crosscut Fence for Miter Cutting 45 Deg. Right and Left
Miter Fence with Two Swing Stops for Repetitive Cutting
Adjustable Riving Knife
Overhead Blade Guard with Built-In Dust Port
Safety Limit Switch for Blade Cover
-10 -
Model G0764Z (Mfd. Since 05/18)
SECTION 1: SAFETY
For Your Own Safety, Read Instruction
Manual Before Operating This Machine
The purpose of safety symbols is to attract your attention to possible hazardous conditions.
This manual uses a series of symbols and signal words intended to convey the level of importance of the safety messages. The progression of symbols is described below. Remember that
safety messages by themselves do not eliminate danger and are not a substitute for proper
accident prevention measures. Always use common sense and good judgment.
Indicates an imminently hazardous situation which, if not avoided,
WILL result in death or serious injury.
Indicates a potentially hazardous situation which, if not avoided,
COULD result in death or serious injury.
Indicates a potentially hazardous situation which, if not avoided,
MAY result in minor or moderate injury. It may also be used to alert
against unsafe practices.
This symbol is used to alert the user to useful information about
NOTICE
proper operation of the machine.
Safety Instructions for Machinery
OWNER’S MANUAL. Read and understand this
owner’s manual BEFORE using machine.
TRAINED OPERATORS ONLY. Untrained operators have a higher risk of being hurt or killed.
Only allow trained/supervised people to use this
machine. When machine is not being used, disconnect power, remove switch keys, or lock-out
machine to prevent unauthorized use—especially
around children. Make your workshop kid proof!
DANGEROUS ENVIRONMENTS. Do not use
machinery in areas that are wet, cluttered, or have
poor lighting. Operating machinery in these areas
greatly increases the risk of accidents and injury.
MENTAL ALERTNESS REQUIRED. Full mental
alertness is required for safe operation of machinery. Never operate under the influence of drugs or
alcohol, when tired, or when distracted.
ELECTRICAL EQUIPMENT INJURY RISKS. You
can be shocked, burned, or killed by touching live
electrical components or improperly grounded
machinery. To reduce this risk, only allow qualified
service personnel to do electrical installation or
repair work, and always disconnect power before
accessing or exposing electrical equipment.
DISCONNECT POWER FIRST.
nect machine from power supply BEFORE making
adjustments, changing tooling, or servicing machine.
This prevents an injury risk from unintended startup
or contact with live electrical components.
EYE PROTECTION. Always wear ANSI-approved
safety glasses or a face shield when operating or
observing machinery to reduce the risk of eye
injury or blindness from flying particles. Everyday
eyeglasses are NOT approved safety glasses.
Always discon-
Model G0764Z (Mfd. Since 05/18)
-11-
WEARING PROPER APPAREL. Do not wear
clothing, apparel or jewelry that can become
entangled in moving parts. Always tie back or
cover long hair. Wear non-slip footwear to reduce
risk of slipping and losing control or accidentally
contacting cutting tool or moving parts.
HAZARDOUS DUST. Dust created by machinery
operations may cause cancer, birth defects, or
long-term respiratory damage. Be aware of dust
hazards associated with each workpiece material. Always wear a NIOSH-approved respirator to
reduce your risk.
HEARING PROTECTION. Always wear hearing protection when operating or observing loud
machinery. Extended exposure to this noise
without hearing protection can cause permanent
hearing loss.
REMOVE ADJUSTING TOOLS. Tools left on
machinery can become dangerous projectiles
upon startup. Never leave chuck keys, wrenches,
or any other tools on machine. Always verify
removal before starting!
USE CORRECT TOOL FOR THE JOB. Only use
this tool for its intended purpose—do not force
it or an attachment to do a job for which it was
not designed. Never make unapproved modifications—modifying tool or using it differently than
intended may result in malfunction or mechanical
failure that can lead to personal injury or death!
AWKWARD POSITIONS. Keep proper footing
and balance at all times when operating machine.
Do not overreach! Avoid awkward hand positions
that make workpiece control difficult or increase
the risk of accidental injury.
CHILDREN & BYSTANDERS. Keep children and
bystanders at a safe distance from the work area.
Stop using machine if they become a distraction.
GUARDS & COVERS. Guards and covers reduce
accidental contact with moving parts or flying
debris. Make sure they are properly installed,
undamaged, and working correctly BEFORE
operating machine.
FORCING MACHINERY. Do not force machine.
It will do the job safer and better at the rate for
which it was designed.
NEVER STAND ON MACHINE. Serious injury
may occur if machine is tipped or if the cutting
tool is unintentionally contacted.
STABLE MACHINE. Unexpected movement during operation greatly increases risk of injury or
loss of control. Before starting, verify machine is
stable and mobile base (if used) is locked.
USE RECOMMENDED ACCESSORIES. Consult
this owner’s manual or the manufacturer for recommended accessories. Using improper accessories will increase the risk of serious injury.
UNATTENDED OPERATION. To reduce the
risk of accidental injury, turn machine OFF and
ensure all moving parts completely stop before
walking away. Never leave machine running
while unattended.
MAINTAIN WITH CARE. Follow all maintenance
instructions and lubrication schedules to keep
machine in good working condition. A machine
that is improperly maintained could malfunction,
leading to serious personal injury or death.
DAMAGED PARTS. Regularly inspect machine
for damaged, loose, or mis-adjusted parts—or
any condition that could affect safe operation.
Immediately repair/replace BEFORE operating
machine. For your own safety, DO NOT operate
machine with damaged parts!
MAINTAIN POWER CORDS. When disconnecting cord-connected machines from power, grab
and pull the plug—NOT the cord. Pulling the cord
may damage the wires inside. Do not handle
cord/plug with wet hands. Avoid cord damage by
keeping it away from heated surfaces, high traffic
areas, harsh chemicals, and wet/damp locations.
EXPERIENCING DIFFICULTIES. If at any time
you experience difficulties performing the intended operation, stop using the machine! Contact our
Technical Support at (570) 546-9663.
-12-
Model G0764Z (Mfd. Since 05/18)
Additional Safety for Sliding Table Saws
Serious injury or death can occur from getting cut or having body parts, such as fingers,
amputated by rotating saw blade. Workpieces thrown by kickback can strike operators or
bystanders with deadly force. Flying particles from cutting operations or broken blades can
cause eye injuries or blindness. To minimize risk of getting hurt or killed, anyone operating
machine MUST completely heed hazards and warnings below.
HAND & BODY POSITIONING. Keep hands
away from saw blade and out of blade path during operation, so they cannot slip accidentally into
blade. Stand to side of blade path. Never reach
around, behind, or over blade. Only operate at
front of machine.
BLADE GUARD. Use blade guard for all cuts
that allow it to be used safely. Make sure blade
guard is installed and adjusted correctly. Promptly
repair or replace if damaged. Re-install blade
guard immediately after operations that require its
removal.
RIVING KNIFE. Use riving knife for all cuts. Make
sure riving knife is aligned and positioned correctly. Promptly repair or replace it if damaged.
KICKBACK. Kickback occurs when saw blade
ejects workpiece back toward operator. Know how
to reduce risk of kickback. Learn how to protect
yourself if it does occur.
FENCE ADJUSTMENTS. Make sure rip fence
remains properly adjusted and parallel with blade.
Always lock fence before using.
PUSH STICKS/BLOCKS. Use push sticks or
push blocks whenever possible to keep your
hands farther away from blade while cutting. In
event of an accident these devices will often take
damage that would have happened to hands/
fingers.
BLADE ADJUSTMENTS. Adjusting blade height
or tilt during operation increases risk of crashing blade and sending metal fragments flying
with deadly force at operator or bystanders. Only
adjust blade height and tilt when blade is completely stopped and saw is OFF.
CHANGING BLADES. Always disconnect power
before changing blades. Changing blades while
saw is connected to power greatly increases
injury risk if saw is accidentally powered up.
WORKPIECE CONTROL. Feeding workpiece
incorrectly increases risk of kickback. Make sure
workpiece is in stable position on tables and
supported by rip fence or crosscut fence during
cutting operation. Never start saw with workpiece
touching blade. Allow blade to reach full speed
before cutting. Only feed workpiece against direction of main blade rotation. Always use some type
of guide to feed workpiece in a straight line. Never
back workpiece out of cut or move it backwards
or sideways after starting a cut. Feed cuts all the
way through to completion. Never perform any
operation “freehand”. Turn OFF saw and wait
until blade is completely stopped before removing
workpiece.
Model G0764Z (Mfd. Since 05/18)
DAMAGED SAW BLADES. Never use blades
that have been dropped or otherwise damaged.
CUTTING CORRECT MATERIAL. Never cut
materials not intended for this saw. Only cut natural and man-made wood products, laminate covered wood products, and some plastics. Cutting
metal, glass, stone, tile, etc. increases risk of
operator injury due to kickback or flying particles.
-13-
Preventing Kickback
Do the following to prevent kickback:
• When rip cutting, only cut workpieces that
have at least one smooth and straight edge.
DO NOT cut excessively warped, cupped or
twisted wood. If workpiece warpage is questionable, always choose another workpiece.
• Never attempt freehand cuts. If the workpiece
is not fed parallel with the blade, kickback
will likely occur. Always use the rip fence or
crosscut fence to support the workpiece.
Statistics show that the most common accidents among table saw users can be linked
to kickback. Kickback is typically defined as
the high-speed expulsion of stock from the
table saw toward the operator. In addition to
the danger of the operator or others in the
area being struck by the flying stock, it is
often the case that the operator’s hands are
pulled into the blade during the kickback.
Protecting Yourself
• Make sure the riving knife is properly aligned
with the blade. A misaligned riving knife can
cause the workpiece to catch or bind, increasing the chance of kickback. If you think that
your riving knife is not aligned with the blade,
stop operations, and check it immediately!
• Ensure sliding table slides parallel with the
blade; otherwise, the chances of kickback are
extreme. Take the time to check and adjust
the sliding table before cutting.
• Always use the riving knife whenever possible. It reduces risk of kickback and reduces
your risk of injury if it does occur.
• Always keep blade guard installed and in
good working order.
• Feed cuts through to completion. Any time
you stop feeding a workpiece in the middle
of a cut, the chance of kickback is greatly
increased.
• Ensure rip fence is adjusted parallel with the
blade; otherwise, the chances of kickback are
extreme. Take the time to check and adjust
the rip fence before cutting.
From Kickback
Even if you know how to prevent kickback, it
may still happen. Here are some precautions
to help protect yourself if kickback DOES
occur:
• Stand to the side of the blade path when
cutting. If a kickback does occur, the thrown
workpiece usually travels directly towards the
front of the blade.
• Wear safety glasses or a face shield. In the
event of a kickback, your eyes and face are
the most vulnerable parts of your body.
• Never, for any reason, place your hand behind
the blade path. Should kickback occur, your
hand will be pulled into the blade.
• Use a push stick or push block to keep your
hands farther away from the moving blade. If
a kickback occurs, these safety devices will
most likely take the damage that your hand
would have received.
• Use featherboards or anti-kickback devices
to prevent or slow down kickback.
-14-
Model G0764Z (Mfd. Since 05/18)
SECTION 2: POWER SUPPLY
Before installing the machine, consider the availability and proximity of the required power supply
circuit. If an existing circuit does not meet the
requirements for this machine, a new circuit must
be installed. To minimize the risk of electrocution,
fire, or equipment damage, installation work and
electrical wiring must be done by an electrician or
qualified service personnel in accordance with all
applicable codes and standards.
or equipment damage
may occur if machine is
not properly grounded
and connected to power
The full-load current rating is the amperage a
machine draws at 100% of the rated output power.
On machines with multiple motors, this is the
amperage drawn by the largest motor or sum of all
motors and electrical devices that might operate
at one time during normal operations.
The full-load current is not the maximum amount
of amps that the machine will draw. If the machine
is overloaded, it will draw additional amps beyond
the full-load rating.
If the machine is overloaded for a sufficient length
of time, damage, overheating, or fire may result—
especially if connected to an undersized circuit.
To reduce the risk of these hazards, avoid overloading the machine during operation and make
sure it is connected to a power supply circuit that
meets the specified circuit requirements.
This machine is prewired to operate on a power
supply circuit that has a verified ground and meets
the following requirements:
This machine can be converted to operate on a
power supply circuit that has a verified ground
and meets the requirements listed below. (Refer
to Voltage Conversion instructions for details.)
For your own safety and protection of
Note: Circuit requirements in this manual apply to
a dedicated circuit—where only one machine will
be running on the circuit at a time. If machine will
be connected to a shared circuit where multiple
machines may be running at the same time, consult an electrician or qualified service personnel to
ensure circuit is properly sized for safe operation.
A power supply circuit includes all electrical
equipment between the breaker box or fuse panel
in the building and the machine. The power supply circuit used for this machine must be sized to
safely handle the full-load current drawn from the
machine for an extended period of time. (If this
machine is connected to a circuit protected by
fuses, use a time delay fuse marked D.)
Availability
Electrocution, fire, shock,
supply.
Full-Load Current Rating
Circuit Information
property, consult an electrician if you are
unsure about wiring practices or electrical
codes in your area.
Full-Load Current Rating at 220V .. 29.2 Amps
Full-Load Current Rating at 440V
Model G0764Z (Mfd. Since 05/18)
.. 14.6 Amps
Circuit Requirements for 220V
Nominal Voltage ................... 220V, 230V, 240V
..........................................................60 Hz
Cycle
Phase
Power Supply Circuit
.................................................... 3-Phase
......................... 40 Amps
Circuit Requirements for 440V
Nominal Voltage ............................. 440V, 480V
..........................................................60 Hz
Cycle
Phase
Power Supply Circuit
.................................................... 3-Phase
......................... 20 Amps
-15-
Connection Type
A permanently connected (hardwired) power supply is typically installed with wires running through
mounted and secured conduit. A disconnecting
means, such as a locking switch (see following
figure), must be provided to allow the machine
to be disconnected (isolated) from the power
supply when required. This installation must be
performed by an electrician in accordance with all
applicable electrical codes and ordinances.
Since this machine must be permanently connected to the power supply, an extension cord
cannot be used.
In the event of a malfunction or breakdown,
grounding provides a path of least resistance
for electrical current to reduce the risk of electric
shock. A permanently connected machine must
be connected to a grounded metal permanent wiring system; or to a system having an equipmentgrounding conductor. All grounds must be verified
and rated for the electrical requirements of the
machine. Improper grounding can increase the
risk of electric shock!
440V Conversion
The Model G0764Z can be converted for 440V
operation. This conversion job consists of: 1)
Disconnecting the saw from the power source, 2)
moving the fuse to the 440V holder, 3) replacing
the overload relays, and 4) rewiring the main and
scoring blade motors for 440V operation. Refer to
Page 86 for a detailed 440V wiring diagram
Locking
Disconnect Switch
Power
Source
ConduitConduit
Ground
Figure 6. Typical setup of a permanently
connected machine.
Grounding Instructions
Machine
Ground
All wiring changes must be inspected by a qualified electrician or service personnel before the
saw is connected to the power source. If, at any
time during this procedure you need help, call
Grizzly Tech Support at (570) 546-9663.
Contact the Grizzly Order Desk at (800) 523-4777
to purchase the 440V Conversion Kit, Part No.
P0764Z1814.
To convert G0764Z for 440V operation:
DISCONNECT MACHINE FROM POWER!
1.
2. Using a 4mm hex wrench, remove electri-
cal panel cover (see Figure 7) from back of
frame.
Electrical Panel
Cover
Serious injury could occur if you connect
machine to power before completing setup
process. DO NOT connect to power until
instructed later in this manual.
Extension Cords
-16 -
Figure 7. Electrical panel cover location.
Model G0764Z (Mfd. Since 05/18)
3. Remove fuse from “220V” holder and insert it
5
4
7
12
5
5
5
7
1L1
5L3
13NO
3L2
2T1
6T3
4T2
14NO
A2
A1
A2
A1
S-P11
KS
Shihlin
1L1
5L3
13NO
3L2
21NC
2T1
6T3
4T2
22NC
14NO
Shihlin
S-P21
KM
A2
A1
1L1
5L3
13NO
3L2
21NC
2T1
6T3
4T2
22NC
14NO
Shihlin
S-P21
KY
A2
A1
1L1
5L3
13NO
3L2
21NC
2T1
6T3
4T2
22NC
14NO
Shihlin
S-P21
KD
654
3
781
2
220V
440V
220V
STAR-DELTA TIMER
TYPE TRD-N
ANLY
SECONDS
0
5
101520
25
30
RST
0
1
1
4
5
5
4
7
T
220
220
440
Ground
Ground
0
E
E
10
10
12
R
12
R
R
R
S
7
7
9
9
T
T
5
5
5RS
R
S
88T
T
0
5
13
13
0
220
440
0
24
0
220
440
0
24
0
11
11
0
0
0
W1
014
5
7
RST
E
E
U
V
W
440
0
LCE
TBSM-100040
U1
V1
XYZ
XYZ
into “440V” holder (see illustration in Figure 8).
5.
Replace right overload relay with Shihlin
TH-P20 overload relay, and set amperage
dial to 15A (see Figure 9).
220V Fuse
6 5 4 3
10
5
0
15
Fuse
SECONDS
Holder
20
25
30
R
220V
220V
440V Fuse
R
Holder
440V
TIMER
FOTEK
H3-TRD-30S
7 8 1 2
220
440
0
Figure 8. Moving fuse to “440V” fuse holder.
4.
Replace left overload relay with TH-P12
overload relay, and set amperage dial to 1.7A
(see Figure 9).
Open motor cabinet door on back of saw.
6.
7. Rewire main blade and scoring blade motors
to 440V. Refer to wiring diagrams on Pages
88–89.
Close motor cabinet door and replace electri-
8.
cal panel cover.
After Setup and Assembly procedures are
9.
completed, connect machine to power, as
instructed on Page 39.
1L1
TH-P20
Overload
Relay
5L3
3L2
12
TH-P20
RCA
96
TH-P12
Overload
Relay
RESET TRIP
H A
U V W
2.1
1.3
1.7
RCA
96959798
Figure 9. Overload relays for 440V.
TRIP
18
15
RESET
95
Model G0764Z (Mfd. Since 05/18)
-17-
SECTION 3: SETUP
get help from other people
This machine was carefully packaged for safe
transport. When unpacking, separate all enclosed
items from packaging materials and inspect them
for shipping damage.
,
please
IMPORTANT:
you are completely satisfied with the machine and
have resolved any issues between Grizzly or the
shipping agent. You MUST have the original pack-
aging to file a freight claim. It is also extremely
helpful if you need to return your machine later.
Keep children and pets away
from plastic bags or packing
materials shipped with this
Needed for Setup
This machine presents
serious injury hazards
to untrained users. Read
through this entire manual to become familiar with
the controls and operations before starting the
machine!
Wear safety glasses during
the entire setup process!
HEAVY LIF T!
Straining or crushing injury
may occur from improperly
lifting machine or some of
its parts. To reduce this risk,
The following are not included, but needed to
properly complete the setup process.
Description Qty
• Additional People ....................................... 4
• Safety Glasses ........................ 1 Per Person
• Cleaner/Degreaser (Page 22) .... As Needed
• Disposable Shop Rags ............... As Needed
• Forklift (Rated for at least 2000 lbs.) .......... 1
• Straightedge 4' ........................................... 1
• Level ........................................................... 1
• Screwdriver Phillips #2 ............................... 1
• Screwdriver Flat Head #2 ........................... 1
• Saw Blade 14" (Page 66) ........................... 1
• Dust Collection System w/4" Branch Line . . 1
• Dust Hose 4" (Page 38) ............................. 1
• Hose Clamp 4" (Page 38) .......................... 1
• Dust Hose 5" (Page 38) ............................. 1
• Hose Clamp 5" (Page 38) .......................... 1
and use a forklift (or other
lifting equipment) rated for
weight of this machine.
-18-
Unpacking
If items are damaged
call us immediately at (570) 546-9663.
Save all packaging materials until
SUFFOCATION HAZARD!
machine. Discard immediately.
Model G0764Z (Mfd. Since 05/18)
5mm
Hardware Recognition Chart
Model G0764Z (Mfd. Since 05/18)
-19 -
Inventory
These are the “loose” components shipped with
the machine. Before setup, lay them out to make
sure you have everything listed below.
If any non-proprietary parts are missing (e.g. a
nut, bolt, or washer), we will gladly ship them upon
verification of order. For the sake of expediency,
you can also get replacement parts at your local
hardware store.
Inventory (Figure 10) Qty
A. Small Extension Table ................................ 1
— Set Screws M10-1.5 x 20 ........................ 2
— Hex Nuts M10-1.5 ................................... 2
Large Extension Table ............................... 1
B.
— Set Screws M10-1.5 x 20 ........................ 3
— Hex Nuts M10-1.5 ................................... 3
Crosscut Table ........................................... 1
C.
D. Crosscut Fence .......................................... 1
E. Crosscut Table Brace ................................. 1
F. Rip Fence Rail w/Fasteners ....................... 1
Rip Fence Scale ......................................... 1
G.
H. Rip Fence ................................................... 1
Cabinet Door .............................................. 1
I.
Inventory (Figure 11) Qty
J. Rip Fence Body Assembly ......................... 1
Push Handle Assembly .............................. 1
K.
— Push Handle ........................................... 1
— T-Nut M12-1.75 ........................................ 1
— Flat Washer 12mm .................................. 1
— Flat Washer 12mm (Copper) .................. 1
Crosscut Fence Flip Stops ......................... 2
L.
M. Edge Shoe Assembly ................................. 1
N. Push Stick .................................................. 1
Riving Knife ................................................ 1
O.
Hold-Down Assembly ................................ 1
P.
Q. Blade Guard Cover (Straight) ..................... 1
Blade Guard Connection Plate Assembly . . 1
R.
Blade Guard Cover (Wide) ......................... 1
S.
Blade Guard Dust Hood ............................. 1
T.
Dust Port Connection ................................. 1
U.
End Plate w/Handle (Sliding Table) ............ 1
V.
Arm Support Base ...................................... 1
W.
Arm Support Pedestal ................................ 1
X.
Upper Support Arm .................................... 1
Y.
End Cap (Sliding Table) .............................. 1
Z.
Dust Hose ................................................... 1
ZZ.
J
K
L
A
C
I
B
D
E
F
G
H
N
O
U
X
Q
S
Y
P
V
W
Z
M
R
T
ZZ
-20-
Figure 10. G0764Z Inventory 1.
Figure 11. G0764Z Inventory 2.
Model G0764Z (Mfd. Since 05/18)
AA. Arbor Locking Pin ....................................... 1
T-bolts M12-1.75 x 50.................................. 3
AB.
Rip Fence Rail Stop Ring w/Set Screw ...... 1
AC.
Locking Handles M10-1.5 x 12 ................... 2
AD.
Knob Bolt M10-1.5 x 70 .............................. 1
AE.
Rip Fence End Stop ................................... 1
AF.
Adjustable Lock Handle M12-1.75 x 55 ...... 1
AG.
T-Nut Plate M12-1.75 .................................. 1
AH.
T- Nuts M8 -1.25 ........................................... 5
AI.
90° Stop Block............................................ 1
AJ.
T-Bolt M8-1.25 x 35 .................................... 1
AK.
Pivot Bolt M8-1.25 ...................................... 1
AL.
AM. T-Slot Plate M8-1.25 ................................... 1
AN. Long Knobs M8-1.25 .................................. 2
AO. Knob Bolt M8-1.25 x 50 .............................. 3
Knob Bolt M8-1.25 x 25 w/Nylon Tip .......... 1
AP.
Wire Clamps 3" .......................................... 2
AQ.
Dust Hood Return Spring ........................... 1
AR.
Dust Port Adapter 4" .................................. 1
AS.
AA
AD
AB
AE
AF
AH
AC
AI
Component Hardware (not shown) Qty
—Combo Wrenches 30mm (Toolbox) ............... 2
—Open-End Wrench 19/22mm (Toolbox)
—Open-End Wrench 36mm (Toolbox)
—Lock Washers 12mm (Sliding Table)
—Flat Washers 12mm (Sliding Table)
—Hex Nuts M12-1.75 (Sliding Table)
—B.H. Cap Screws M6-1 x 12 (Fence Scale)
—Flat Washers 6mm (Rip Fence Scale)
—Hex Nut M6-1 (Rip Fence Scale)
—Cap Screw M8-1.25 x 15 (Fence Rail)
—Lock Washer 8mm (Fence Rail)
—Flat Washer 12mm (Crosscut Table)
—Flat Washers 8mm (Crosscut Brace)
—Cap Screw M8-1.25 x 35 (Crosscut Fence)
—Lock Washer 8mm (Crosscut Fence)
—Flat Washer 8mm, Fiber (Crosscut Fence)
—Fender Washer 8mm (Crosscut Fence)......... 2
—Fender Washers 20mm (Lower Guard Arm)
—Hex Nuts M20-2.5 (Lower Guard Arm)
—Hex Bolt M12-1.75 x 70 (Lower Guard Arm)
—Hex Nut M12-1.75 (Lower Guard Arm)
—Cap Screws M8-1.25 x 25 (Arm Support)
—Flat Washers 8mm (Arm Support)
—Lock Washers 8mm (Arm Support)
—Hex Bolt M10-1.5 x 30 (Arm Support)
—90° Mounting Bracket (Arm Support)
—B.H. Cap Screws M6-1 x 12 (Dust Coupler)
—Flat Washers 6mm
—Lock Washers 6mm
—Cap Screws M6-1 x 20 (Guard Cover)
—Lock Washers 6mm (Guard Cover)
—Flat Washers 6mm (Guard Cover)
—Toolbox
........................................................... 1
......................................... 5
....................................... 6
.................... 1
......... 1
.............. 1
............. 3
............... 3
................. 3
... 3
........... 4
................... 2
........... 1
............. 1
............. 2
... 1
............ 1
.... 1
. 2
.......... 2
.. 1
........... 1
...... 4
................. 4
............... 4
............ 1
............ 1
. . 4
.......... 5
............... 3
................. 3
AG
AJ
AL
AK
AO
AN
AQ
AR
Figure 12. G0764Z Inventory 3.
Model G0764Z (Mfd. Since 05/18)
AP
AM
AS
NOTICE
If you cannot find an item on this list, carefully check around/inside the machine and
packaging materials. Often, these items get
lost in packaging materials while unpacking or they are pre-installed at the factory.
-21-
The unpainted surfaces of your machine are
coated with a heavy-duty rust preventative that
prevents corrosion during shipment and storage.
This rust preventative works extremely well, but it
will take a little time to clean.
Be patient and do a thorough job cleaning your
machine. The time you spend doing this now will
give you a better appreciation for the proper care
of your machine's unpainted surfaces.
There are many ways to remove this rust preventative, but the following steps work well in a wide
variety of situations. Always follow the manufacturer’s instructions with any cleaning product you
use and make sure you work in a well-ventilated
area to minimize exposure to toxic fumes.
Before cleaning, gather the following:
• Disposable rags
• Cleaner/degreaser (WD•40 works well)
• Safety glasses & disposable gloves
• Plastic paint scraper (optional)
Basic steps for removing rust preventative:
1.
2.
3.
4.
Many cleaning solvents
work in a well-ventilated
Avoid chlorine-based solvents, such as
Cleanup
Gasoline and petroleum
products have low flash
points and can explode
or cause fire if used to
clean machinery. Avo id
using these products
to clean machinery.
Put on safety glasses.
Coat the rust preventative with a liberal
amount of cleaner/degreaser, then let it soak
for 5–10 minutes.
Wipe off the surfaces. If your cleaner/degreas-
er is effective, the rust preventative will wipe
off easily. If you have a plastic paint scraper,
scrape off as much as you can first, then wipe
off the rest with the rag.
are toxic if inhaled. Only
area.
NOTICE
acetone or brake parts cleaner, that may
damage painted surfaces.
T23692—Orange Power Degreaser
A great product for removing the waxy shipping
grease from your machine during clean up.
Figure 13. T23692 Orange Power Degreaser.
Repeat Steps 2–3 as necessary until clean,
then coat all unpainted surfaces with a quality
metal protectant to prevent rust.
-22-
Model G0764Z (Mfd. Since 05/18)
Site Considerations
Weight Load
Refer to the
of your machine. Make sure that the surface upon
which the machine is placed will bear the weight
of the machine, additional equipment that may be
installed on the machine, and the heaviest workpiece that will be used. Additionally, consider the
weight of the operator and any dynamic loading
that may occur when operating the machine.
Space Allocation
Consider the largest size of workpiece that will
be processed through this machine and provide
enough space around the machine for adequate
operator material handling or the installation of
auxiliary equipment. With permanent installations,
leave enough space around the machine to open
or remove doors/covers as required by the maintenance and service described in this manual.
See below for required space allocation.
Physical Environment
Extreme conditions for this type of machinery are
Place this machine near an existing power source.
other hazards. Make sure to leave enough space
Shadows, glare, or strobe effects that may distract
or impede the operator must be eliminated.
Machine Data Sheet for the weight
Children or untrained people
may be seriously injured by
this machine. Only install in an
access restricted location.
133"
The physical environment where the machine is
operated is important for safe operation and longevity of machine components. For best results,
operate this machine in a dry environment that is
free from excessive moisture, hazardous chemicals, airborne abrasives, or extreme conditions.
generally those where the ambient temperature
range exceeds 41°–104°F; the relative humidity
range exceeds 20%–95% (non-condensing); or
the environment is subject to vibration, shocks,
or bumps.
Electrical Installation
Make sure all power cords are protected from
traffic, material handling, moisture, chemicals, or
around machine to disconnect power supply or
apply a lockout/tagout device, if required.
Lighting
Lighting around the machine must be adequate
enough that operations can be performed safely.
Model G0764Z (Mfd. Since 05/18)
203"
Figure 14. Minimum working clearances.
279"
-23-
Lifting &
get help from other people
Placing Saw
HEAVY LIF T!
Straining or crushing injury
may occur from improperly
lifting machine or some of
its parts. To reduce this risk,
and use a forklift (or other
lifting equipment) rated for
weight of this machine.
To lift and place saw:
Position crate as close to installation location
1.
as possible.
Remove small items packed around saw and
3.
unbolt saw from pallet.
DO NOT lift saw any higher than necessary
to clear pallet. Serious personal injury and
machine damage may occur if safe moving
methods are not followed.
4. With an assistant holding each end to help
stabilize load, lift saw with forklift just high
enough to clear pallet, and move it to your
predetermined location.
Lower saw onto ground and back forklift
5.
away.
Remove top of crate. Position forklift forks as
2.
wide as they can be while still fitting under
center opening (see Figure 15).
Figure 15. How to insert forks for lifting table
saw off pallet.
-24-
Model G0764Z (Mfd. Since 05/18)
Assembly
The sliding table weighs nearly 200 pounds. It
must be lifted and carefully positioned onto saw
frame during assembly. If you are using a forklift
to lift and place it, you'll need to use lifting slings
around table to prevent scratching the aluminum
surface.
If you are not able to use the described forklift
method, the sliding table can be lifted into place
by four strong people—with one lifting from each
corner.
2. Insert (3) M12-1.75 x 50 T-bolts into T-slot
along bottom of sliding table (see Figure 17),
and space them the same distance apart as
mounting holes in cabinet frame.
T-Bolt
(1 of 3)
The only other part of the assembly that requires
additional help is installation of the extension
tables and blade guard arm. It takes approximately two hours to assemble the saw and make
the required adjustments to prepare the saw for
the test run.
To assemble sliding table saw:
Turn sliding table upside down, as shown in
1.
Figure 16.
Figure 16. Sliding table turned upside down.
Figure 17. T-slot along bottom of table.
Lift sliding table over saw and lower T-bolts
3.
into mounting holes on frame, as shown in
Figure 18.
Note: Make sure cap screw shown in Figure
18 is on outside of cabinet frame and against
mount edge.
T-Bolt
(1 of 3)
Cap Screw
Figure 18. Inserting T-bolt into mounting hole on
saw frame.
Lifting heavy machinery
or parts without proper
assistance or equipment
may result in strains, back
injuries, crushing injuries,
or property damage.
Model G0764Z (Mfd. Since 05/18)
-25-
4. Install end plate with handle, as shown in
Figure 19, using the screws pre-installed in
this location on the sliding table.
End Plate
w/Handle
Figure 19. Slide table control end handle.
5. Position sliding table against parallelism
adjustment bolts at each end (see Figure 20).
Parallelism Adjustment Bolt
(1 of 2)
Sliding Table T-bolt
Figure 22. Sliding table T-bolt access on rear
side at front of saw.
Sliding Table T-bolt
(Middle)
Cabinet Access Hole
Figure 23. Sliding table middle T-bolt access.
Sliding Table
Figure 20. Sliding table parallelism adjustment
bolt (1 of 2).
6. Remove access covers on each side of the
frame to reach the T-bolts on the ends of the
sliding table (Figures 21–22). Reach through
cabinet access hole to reach middle sliding
table T-bolt (Figure 23).
Sliding Table T-Bolt
7. Put (3) M12-1.75 hex nuts, (3) 12mm lock
washers, and (3) 12mm flat washers on end
of each T-bolt and tighten to secure sliding
table to frame (as shown in Figures 21–23).
8. Attach end cap (as shown in Figure 24) with
Phillips screws already threaded into those
same holes on the sliding table.
End Cap
Phillips Screws
Figure 24. End cap secured on sliding table with
Phillips screws.
Figure 21. Sliding table T-bolt access on rear
side at back of saw.
-26-
Model G0764Z (Mfd. Since 05/18)
9. Slide M12-1.75 T-nut of push handle assembly into T-slot at front end of sliding table, as
shown in Figure 25. It may be necessary to
loosen T-nut first.
Note: Make sure 12mm flat washer and
12mm copper washer are positioned in front
of T-slot, as shown in Figure 25.
Washers
Push Handle
Attach large extension table to cast iron table
11.
using (3) pre-installed M10-1.5 x 25 cap
screws, 10mm lock washers, and 10mm flat
washers (see Figure 27). Only hand tighten
cap screws for now. They will be fully tightened in a later step.
T-nut
Figure 25. Push handle attached to sliding table.
10. Attach the cabinet door by sliding hinge
sleeves over pins of already attached hinge
(see Figure 26).
Hinge Sleeves
& Pins
Figure 26. Cabinet door attached on hinges.
Figure 27. Underside view of large extension
table attached to cabinet.
12. Place a straightedge across cast-iron table
and large extension table to see if tables are
parallel.
—If entire length of straight edge is parallel
with both tables move on to Step 14.
—If both tables are not parallel with straight
edge, loosen hex nuts on set screws
shown in Figure 28. Adjust set screws
to align top of extension table with top of
cast-iron table, then retighten hex nuts to
secure setting.
Hex Nut
Set Screw
Model G0764Z (Mfd. Since 05/18)
Figure 28. Location of set screws and hex nuts
used to level extension table.
-27-
13. Fully tighten cap screws from Step 12.
Rail Studs
16. Fully tighten cap screws from Step 15.
. Attach small extension table to cast iron
14
table using (2) pre-installed M10-1.5 x 25 cap
screws, 10mm lock washers, and 10mm flat
washers (see Figure 29). Only hand tighten
cap screws for now. They will be fully tightened in a later step.
Figure 29. Underside view of large extension
table attached to cabinet.
Attach rip fence scale flush along top edge of
17.
cast iron table and large extension table (see
Figure 31) with (3) M6-1 x 12 button head
cap screws, (4) 6mm flat washers, and (1)
M6-1 hex nut.
x 2
x 1
Rip Fence
Scale
Figure 31. Rip fence scale attached flush with
top edge of cast-iron table and large extension
table.
15
. Place a straightedge across cast-iron table
and large extension table to see if tables are
parallel.
—If entire length of straight edge is parallel
with both tables move on to Step 17.
—If both tables are not parallel with straight
edge, loosen hex nuts on set screws
shown in Figure 30. Adjust set screws
to align top of extension table with top of
cast-iron table, then retighten hex nuts to
secure setting.
Hex Nut
Set Screw
18. The rip fence rail is pre-assembled with
four rail studs and accompanying hardware.
Remove (1) hex nut, (1) flat washer, and (1)
lock washer from end of each stud, as shown
in Figure 32.
Figure 32. Removing rip fence rail hardware to
prepare for installation.
Figure 30. Location of set screws and hex nuts
used to level extension table.
-28-
Model G0764Z (Mfd. Since 05/18)
19. Insert studs into tables as shown in Figure 33,
and re-install hardware removed in Step 20.
Slide rip fence onto clamping plate, as shown
22.
in Figure 35, and lock it with slide lock
handle.
Slide Lock
Handle
Rip
Fence
Figure 35. Rip fence attached to rip fence base.
23. Move sliding table all the way forward to
expose blade cover. Pull blade cover toward
front of machine to disengage magnetic
catches (see Figure 36).
Clamping
Plate
Figure 33. Installing the rip fence rail.
20. Slide rip fence base onto fence rail as shown
in Figure 34.
Thread (2) M10-1.5 x 12 lock handles and
21.
M10-1.5 x 70 lock knob bolt into rip fence
base, as shown in Figure 34.
Fence Base
Knob
Bolt
Lock
Handles
Figure 34. Rip fence attached with lock handles
and lock knob installed.
Magnetic Catch
(1 of 2)
Figure 36. Location of magnetic catches that
secure blade cover.
The Model G0764Z does not ship with a 14"
main blade. Refer to Blade Requirements
and Blade Selection beginning on Page 47
when purchasing the main blade.
Model G0764Z (Mfd. Since 05/18)
-29-
24. Insert arbor locking pin into access hole
shown in Figure 37.
Note: Main blade is shown here only for illus-
trative purposes.
Main Arbor
Access Hole
Arbor
Nut
Figure 37. Loosening main blade arbor nut.
25.
Push down on locking tool with one hand as
you rotate arbor nut clockwise with wrench.
This will force blade locking tool into arbor
indent and prevent arbor from rotating in next
steps.
Before proceeding with the next steps, wear
gloves to protect your hands when handling
and installing the blade.
27. Slide main blade (not included) over arbor
with teeth facing to the right, then install
flange (see Figure 39).
Upper Teeth
Facing Right
Flange
Arbor
Nut
Figure 39. Main blade component assembly.
Arbor
26. Continue unthreading arbor nut clockwise (it
has left-hand threads) until you can remove
flange (see Figure 38).
Arbor Nut Wrench
Flange
Arbor Locking Pin
Figure 38. Main blade arbor parts and tools for
changing blade.
Thread arbor nut on counterclockwise and
28.
fully tighten it to secure the blade (see Figure
40).
Figure 40. Main blade installed on arbor.
-30-
Model G0764Z (Mfd. Since 05/18)
29. Install and align riving knife (refer to Riving
Knife Alignment beginning on Page 46 for
detailed information).
. Close blade cover. Center sliding table and
30
lock in place.
Position rip fence 1⁄8" away from main blade.
31.
Slide rip fence stop ring onto end of rail
32.
and tighten set screw to secure it in place
(see Figure 41). When installed correctly,
this ring will prevent rip fence from contacting
blade.
33. Install rip fence end stop on opposite end of
rip fence rail with (1) M8-1.25 x 15 cap screw
and (1) 8mm lock washer (see Figure 42).
Rip Fence
End Stop
Rip Fence
Stop Ring
w/Set Screw
Figure 41. Rip fence stop ring attached to rail.
Figure 42. Rip fence end stop attached to rail.
34. Adjust rip fence to main blade and tables as
instructed in Calibrating Rip Fence on Page
80.
Thread M12-1.75 x 55 adjustable lock handle
35.
with a 12mm flat washer through hole in short
side of crosscut table and into a M12-1.75
T-nut plate, as shown in Figure 43.
Flat Washer
Lock
Handle
T-Nut
Plate
Model G0764Z (Mfd. Since 05/18)
Figure 43. Crosscut lock handle installed on
crosscut table.
-31-
36. With assistance from other people, place
crosscut table on swing arm pivot rod and
slide T-nut plate into sliding table T-slot, as
shown in Figure 44.
38. Secure table brace by threading (2) M8-1.25
x 50 knob bolts with (2) 8mm flat washers into
brace T-nuts (see Figure 45).
Turn crosscut fence onto its side.
39.
Crosscut Table
T-Slot
Figure 44. Attaching crosscut table to machine
frame.
Slide (2) M8-1.25 T-nuts into crosscut table
37.
brace T-slots, and align them with center
holes in crosscut table (see Figure 45).
Swing Arm
Pivot Rod
T-Nut Plate
40. On crosscut fence end nearest blade:
Insert (1) M8-1.25 T-nut into T-slot, then
a.
loosely thread M8-1.25 pivot bolt with
8mm fiber flat washer into T-nut (see
Figure 46).
End Cap
T-Nut, Pivot Bolt,
& Fiber Flat Washer
Figure 46. Crosscut fence hardware near to
blade.
Position crosscut fence so edge cap (see
b.
Figure 46) is close to but not touching
main blade.
Long Knob
& Fender Washer
Pivot
Hole
Crosscut Table Brace
Figure 45. Example of table brace attached to
crosscut table.
-32-
Align the pivot bolt with pivot hole (see
c.
Figure 46), then fully tighten pivot bolt.
Note: Long knob and fender washer will
help secure crosscut fence in later step.
Model G0764Z (Mfd. Since 05/18)
41. In middle of crosscut fence:
a. Insert M8-1.25 x 35 T-bolt into T-slot (see
Figure 47).
43. Without moving previously installed hard-
ware, flip crosscut fence over and insert pivot
bolt and T-slot bolt into appropriate hole/slot.
. Secure crosscut fence to crosscut table by:
44
Long Knob w/ Fender Washer & T-Slot Plate
Scale
T-Bolt
Figure 47. Crosscut fence hardware in the
middle.
Align T-slot bolt with slot in pre-installed
b.
scale bar (see Figure 47).
Note: Long knob and fender washer will
help secure crosscut fence in later step.
On end of crosscut fence farthest from blade:
42.
Bar
a. From underneath left side of crosscut
fence, threading M8-1.25 long knob with
8mm fender washer onto pivot bolt.
From underneath middle of crosscut
b.
fence, positioning M8-1.25 T-slot plate
in scale bar slot, then threading M8-1.25
long knob with 8mm fender washer onto
previously installed T-slot bolt.
On the right side of crosscut fence, mak-
c.
ing sure 90° stop block is against stop
bolt, then securing fence by threading
M8-1.25 x 50 knob bolt into threaded hole
on stop block.
. Slide crosscut fence extension out, as shown
45
in Figure 49.
Attach flip stops onto long side of crosscut
46.
fence by sliding T-nuts into T-slots on fence
and tightening the knob bolts (see Figure 49).
a. Insert M8-1.25 T-nut into T-slot
b. Attach 90° stop block to T-nut with
M8-1.25 x 35 cap screw and 8mm lock
washer so that it is aligned with stop bolt
(see Figure 48).
Note: Make sure threaded hole in stop
block is on the right of cap screw.
T-Nut, 90° Stop Block,
Cap Screw, & Lock Washer
Stop
Bolt
Stop Block
Knob Bolt
Fence Extension
Flip Stop T-Nut
Figure 49. Flip stop attached to crosscut fence.
Figure 48. 90° stop block installed.
Model G0764Z (Mfd. Since 05/18)
-33-
47. From underneath right end of crosscut fence,
insert M8-1.25 T-nut into crosscut fence
T-slot, then thread M8-1.25 x 25 knob bolt
with nylon tip through T-nut and into placement hole (see Figure 50). This secures
crosscut fence extension in place.
Knob
Bolt w/
Nylon Tip
49. Remove hex nuts from pre-installed armsupport studs (see Figure 51), and install
support-arm base onto arm-support studs, as
shown in Figure 52.
Arm-Support Base
Placement Hole
Figure 50. Knob bolt and placement hole
(viewed from underneath crosscut fence).
48. Thread (1) M12-1.75 x 70 arm-leveling bolt
with M12-1.75 jam nut into bracket connected to rear of machine body, as shown in
Figure 51.
Arm-Leveling Bolt
M12-1.75 Jam Nut
Bracket
Arm-Support Studs
Figure 52. Installing arm-support base.
Adjust arm-leveling bolt until arm support
50.
base is parallel with floor (see Figure 53 on
Page 35).
Tip: Check this position by using a tape to
measure the distance between each end of
the arm-support base and the floor.
Note: This parallel position helps ensure the
blade guard is parallel with the table once it is
installed. For now, this positioning should be
very close. It will be checked, and if necessary, fine-tuned in a later step.
Arm-
Support
Studs
Figure 51. Arm-support studs installed in body
and arm-leveling bolt installed in bracket.
-34-
Model G0764Z (Mfd. Since 05/18)
51. Tighten jam nut against bracket (see Figure
53) to secure arm-leveling bolt.
54. Insert upper support arm through top of arm-
support pedestal, as shown in Figure 55.
Secure arm-support base with (2) M20-2.5
52.
hex nuts and (2) 20mm fender washers (see
Figure 53).
M20-2.5 Hex Nut
w/Fender Washer
(1 of 2)
Figure 53. Securing arm support base.
53. Install arm-support pedestal onto arm-support
base, using (4) M8-1.25 x 25 cap screws, (4)
8mm lock washers, and (4) 8mm flat washers
(see Figure 54).
Bracket
Jam Nut
Arm-Leveling
Bolt
Install (1) M10-1.5 x 30 hex bolt into location
55.
shown in Figure 55. Do not tighten yet.
Upper
Support Arm
Figure 55. Installing upper support-arm.
56. Install dust hose coupler onto upper support
arm, using (2) M6-1 x 12 button head cap
screws, (2) 6mm lock washers, and (2) 6mm
fender washers (see Figure 56).
Top of Arm
Support Pedestal
x 1
Arm-Support
Pedestal
x 4
Figure 54. Installing arm-support pedestal.
x 2
Dust Hose Coupler
Figure 56. Installing dust hose coupler.
Model G0764Z (Mfd. Since 05/18)
-35-
57. Attach connection plate assembly to
blade guard using (2) M6-1 lock nuts (see
Figure 57).
Blade
Guard
Assembly
Connection Plate
Assembly
59. Slide upper support arm until at least one
blade guard roller is centered over blade (see
Figure 59), then tighten hex bolt from Step
52 to secure upper support arm.
Blade Guard
Roller (1 of 2)
Figure 57. Installing blade guard connection
plate assembly onto blade guard assembly.
58. Attach connection plate assembly to end of
upper support arm, using (3) M6-1 x 20 cap
screws, (3) 6mm lock washers, and (3) 6mm
fender washers (see Figure 58).
x 3
Connection Plate
Assembly
Blade
Figure 59. Blade guard rollers centered over
blade.
60. Ensure front and rear blade guard rollers are
parallel with blade (see Figure 59).
— If rollers are parallel with blade, proceed to
Step 62.
— If rollers are not parallel with blade, loosen
cap screws shown in Figure 60, adjust
arm-support pedestal until rollers are parallel with blade, then re-tighten cap screws
to secure. Check to make sure both blade
rollers are centered over blade, and if
necessary, loosen hex bolt from Step 55
on Page 35, slide upper support arm until
rollers are centered over blade, then retighten hex bolt to secure.
Figure 58. Connection plate assembly attached
to upper support arm.
-36-
Cap Screws
that Secure
Arm Support
Pedestal
Figure 60. Adjusting alignment of arm-support
pedestal.
Model G0764Z (Mfd. Since 05/18)
Arm Support
Pedestal
61. Make sure rollers are parallel with table. If
necessary, loosen M20-2.5 hex nuts from
Step 52, repeat Steps 50–51 until rollers are
parallel with table, then re-tighten hex nuts.
63. Attach dust hose to blade guard and upper
support arm dust ports, and secure with hose
clamps (see Figure 62).
Install dust port on upper support arm, using
62.
(2) M6-1 x 12 button head cap screws and (2)
6mm lock washers (see Figure 61).
Dust Port
x 2
Upper
Support Arm
Figure 61. Installing dust port onto upper
support-arm.
Hose Clamps
Dust Hose
Figure 62. Dust hose attached to blade guard
and upper support arm.
Tug hose to make sure it is secure. If it pulls
64.
off easily, re-install it and tighten hose clamps
until it is secure.
Changing Blade Guard For Angled
Cuts
The Model G0764Z blade guard comes with two
assemblies—a "flat" insert for 90° cuts, and a
"bubble" insert for angled cuts. To switch between
these two inserts, remove the lock knob shown
in Figure 63, slide the insert out and replace it
with the appropriate insert, then re-install the lock
knob to secure the insert.
Model G0764Z (Mfd. Since 05/18)
"Flat" Insert
Lock
Knob
Figure 63. Removing blade guard insert.
-37-
Dust Collection
This machine creates a lot of wood chips/
dust during operation. Breathing airborne
dust on a regular basis can result in permanent respiratory illness. Reduce your risk
by wearing a respirator and capturing the
dust with a dust collection system.
Minimum CFM at 5" Dust Port: 615 CFM
Minimum CFM at 4" Dust Port: 400 CFM
Do not confuse this CFM recommendation with
the rating of the dust collector. To determine the
CFM at the dust port, you must consider these
variables: (1) CFM rating of the dust collector,
(2) hose type and length between the dust collector and the machine, (3) number of branches
or wyes, and (4) amount of other open lines
throughout the system. Explaining how to calculate these variables is beyond the scope of
this manual. Consult an expert or purchase a
good dust collection "how-to" book.
To connect dust collection hoses:
Fit 5" dust hose over dust port on rear side of
1.
cabinet, as shown in Figure 64, and secure
with hose clamp.
Figure 64. 5" dust hose attached to dust port.
2. Connect 4" dust hose to end of horizontal
arm, then attach it to a single dust collection
branch line.
Horizontal Arm
Hose Clamp
Dust
Hose
Figure 65. Dust hose attached to blade guard.
3.
Tug on dust hoses to make sure they do not
come off. A tight fit is necessary for proper
performance.
-38-
Model G0764Z (Mfd. Since 05/18)
Before the machine can be connected to the
power source, an electrical circuit and connection device must be prepared per the POWER
SUPPLY
setup instructions in this manual must be complete to ensure that the machine has been assembled and installed properly. The disconnect switch
installed by the electrician (as recommended) is
the primary means for disconnecting or connecting the machine to the power source.
Move the disconnect switch handle to the ON
position, as illustrated below. The machine is now
connected to the power source.
Move the disconnect switch handle to the OFF
position, as illustrated below. The machine is now
disconnected from the power source.
Note:
Lock the switch in the OFF position to
restrict others from starting the machine.
or equipment damage
not properly grounded
Power Connection
Electrocution, fire, shock,
may occur if machine is
section in this manual; and all previous
and connected to power
supply.
Note About Phase Converters: Due to the start-
up load from this machine, we do not recommend
using a static phase converter to create 3-phase
power—as it can quickly decrease the life of electrical components on this machine. If you must
use a phase converter, only use a rotary phase
converter. Only connect the manufactured leg or
"wild wire" to the S terminal (see location on Page
82). The S terminal can handle power fluctuation
because it is wired directly to the motor.
To connect saw to power:
1. Remove power junction box cover (see
Figure 68).
Power Junction
Box
Figure 66. Connecting power to machine.
Figure 67. Disconnecting power from machine.
Model G0764Z (Mfd. Since 05/18)
Strain Relief
Figure 68. Location of junction box.
2. Insert incoming power wires through strain
relief in bottom of power junction box.
-39-
3. Connect ground wire, then connect incoming
power wires to bottom terminals shown in
Figure 69.
Incoming Power
Terminals
Figure 69. Terminal locations to connect
incoming power wires and ground wire.
Ground
Terminal
Make sure incoming ground wire is connected to right-most terminal post in the
power junction box so machine is properly
grounded. An ungrounded or improperly
grounded machine may have an electrified
frame which could cause electrocution
when touched.
4. Make sure wires have enough slack so they
are not pulled tight or stretched.
5. Re-install junction box cover, and perform
Test Run in following section to check phase
polarity.
-40-
Model G0764Z (Mfd. Since 05/18)
Test Run
Once assembly is complete, test run the machine
to ensure it is properly connected to power and
safety components are functioning correctly.
If you find an unusual problem during the test run,
immediately stop the machine, disconnect it from
power, and fix the problem BEFORE operating the
machine again. The
table in the
SERVICE section of this manual can help.
DO NOT start machine until all preceding
setup instructions have been performed.
Operating an improperly set up machine
ed results that can lead to serious injury,
Troubleshooting
Verify saw is operating correctly by pushing
5.
Main Blade and Scoring Blade ON buttons
(refer to Figure 4 on Page 5).
—When operating correctly, machine runs
smoothly with little or no vibration or rubbing noises.
— Investigate and correct strange or unusu-
al noises or vibrations before operating
machine further. Always stop machine and
disconnect it from power before investigating or correcting potential problems.
The test run consists of verifying the following:
1) The motors power up and run correctly, 2) the
safety features of the Emergency Stop buttons
work correctly, and 3) the main blade turns forward (clockwise when viewed from front of saw)
and the scoring blade turns opposite main blade.
may result in malfunction or unexpect-
death, or machine/property damage.
To test run machine:
1. Make sure you understand all safety instruc-
tions at the beginning of manual and that
machine is set up properly.
Verify main blade is rotating clockwise (as
6.
standing in front of machine) and scoring
blade is rotating counterclockwise (opposite
direction as main blade).
Note: You may need to stop the blade rota-
tion and watch them come to a stop to determine which direction they are rotating.
— If blades are rotating in wrong direction,
stop machine and DISCONNECT FROM
POWER! Polarity of incoming power supply is reversed. Swap “R” and “T” wire
positions inside junction box (see Figure
71), then replace junction box cover, and
reconnect machine to power.
Power Junction
Box
Make sure all tools and objects used during
2.
setup are cleared away from machine.
Connect saw to power.
3.
4. Push Emergency Stop button, then twist it
clockwise so it pops out. When button pops
out, switch is reset and will allow operation
(see Figure 70).
Figure 70. Resetting Emergency Stop button.
Model G0764Z (Mfd. Since 05/18)
R and T
Connections
Figure 71. Up-close view of power supply
terminal inside junction box.
Ground
-41-
Recommended
Do not swap "R" or "T" wires with ground
wire inside power supply junction box. Doing
so will electrify machine frame, which could
cause electrocution. Make sure incoming
ground wire is only connected to right-most
terminal post in the power supply junction
box so machine is properly grounded.
7. Press Emergency Stop button on front of
machine to turn machine OFF.
WITHOUT resetting Emergency Stop button,
8.
press either ON button. Machine should not
start.
—If machine does start (with Emergency Stop
button pushed in), immediately disconnect
power to machine. Emergency Stop button
safety feature is not working correctly. This
safety feature must work properly before
proceeding with regular operations. Call
Tech Support for help.
Adjustments
The following list of adjustments were performed
at the factory before the machine was shipped:
• Riving Knife Alignment ................... Page 46
• Aligning Scoring Blade ................... Page 53
• Blade Tilt Calibration .......................Page 75
• Sliding Table Parallel Adjustment ....Page 76
• Sliding Table Movement Adjustment
....................................................... Page 77
• Squaring Crosscut Fence to Blade
....................................................... Page 77
• Calibrating Rip Fence ..................... Page 80
Be aware that machine components can shift
during the shipping process. Pay careful attention to these adjustments during operation of the
machine. If you find that the adjustments are not
set according to the procedures in this manual or
your personal preferences, re-adjust them.
Reset Emergency Stop button on front of
9.
machine.
Repeat Steps 7–9 with Emergency Stop but-
10.
ton on side of cabinet. Congratulations. Test
Run is complete!
-42-
Model G0764Z (Mfd. Since 05/18)
SECTION 4: OPERATIONS
The purpose of this overview is to provide the novice machine operator with a basic understanding
of how the machine is used during operation, so
the
discussed later
in this manual
Due to the generic nature of this overview, it is
not intended to be an instructional guide. To learn
more about specific operations, read this entire
manual,
training from experienced
machine operators
outside of this manual by reading "how-to" books,
trade magazines, or websites.
To reduce your risk of
serious injury, read this
entire manual BEFORE
ing loss can occur while operating this
Operation Overview
machine controls/components
are easier to understand.
seek additional
, and do additional research
To complete a typical operation, the operator
does the following:
Examines workpiece to make sure it is suit-
1.
able for cutting.
Adjusts blade tilt, if necessary, to correct
2.
angle of desired cut.
Adjusts blade height approximately 1⁄4" higher
3.
than thickness of the workpiece.
Adjusts fence to desired width of cut then
4.
locks it in place.
5. Adjusts blade guard for workpiece height.
Checks outfeed side of machine for proper
6.
support and to make sure the workpiece can
safely pass all the way through the blade
without interference.
using machine.
Eye injuries, respiratory problems, or hear-
tool. Wear personal protective equipment to
reduce your risk from these hazards.
The Model G0764Z does not ship with a 14"
main blade. Refer to Blade Requirements
and Blade Selection beginning on Page 47
when purchasing the main blade.
Puts on safety glasses and a respirator.
7.
Locates push sticks if needed.
Feeds the workpiece all the way through
8.
blade while maintaining firm pressure on
workpiece against table and fence.
Turns machine OFF immediately after cut is
9.
complete and waits for blades to completely
stop before removing workpieces.
If you are not experienced with this type
of machine, WE STRONGLY RECOMMEND
that you seek additional training outside of
this manual. Read books/magazines or get
formal training before beginning any projects. Regardless of the content in this section, Grizzly Industrial will not be held liable
for accidents caused by lack of training.
Model G0764Z (Mfd. Since 05/18)
-43-
Workpiece
• Material Type: This machine is intended for
cut metal, glass, stone, tile, etc.; cutting these
•
t
•
•
Cutting wood with a
sary wear on the blades, increases the risk of
•
Workpieces with exces-
•
Slightly cupped workpieces
pieces supported on the bowed side will rock
during the cut, which could cause kickback.
A non-through cut is a sawing operation where
the blade does not protrude above the top face of
the wood stock, as shown in the Figure below.
A through cut is a sawing operation in which the
workpiece is completely sawn through, as shown
in the
. Examples of through cuts are
rip cuts, cross cuts, miter cuts, and beveled cuts.
The blade guard assembly MUST be used when
performing through cuts.
Through &
Inspection
Some workpieces are not safe to cut on this
machine or may need to be modified before they
can be safely cut. Before cutting, inspect all
workpieces for the following:
cutting natural and man-made wood products, laminate-covered wood products, and
some plastics. Cutting drywall or cementitious backer board creates extremely fine
dust and may reduce the life of the motor
bearings. This machine is NOT designed to
materials with a table saw greatly increases
the risk of injury and damage to the saw or
blade.
Foreign Objects: Nails, staples, dirt, rocks
and other foreign objects are often embedded in wood. While cutting, these objects
can become dislodged and hit the operator,
cause kickback, or break the blade, which
might then fly apart. Always visually inspect
your workpiece for these items. If they can’
be removed, DO NOT cut the workpiece.
Large/Loose Knots: Loose knots can
become dislodged during the cutting operation. Large knots can cause kickback and
machine damage. Choose workpieces that
do not have large/loose knots or plan ahead
to avoid cutting through them.
Non-Through Cuts
Through Cuts
Figure below
Figure 72. Example of a through cut (blade
guard not shown for illustrative clarity).
Non-Through Cuts
A non-through cut is a sawing operation where
the blade does not protrude above the top face
of the wood stock, as shown in the Figure below.
The blade guard assembly MUST be used when
performing all non-through cuts, except when the
guard will not safely accommodate the workpiece.
Wet or “Green” Stock:
moisture content over 20% causes unneces-
kickback, and yields poor results.
Excessive Warping:
sive cupping, bowing, or twisting are dangerous to cut because they are unstable and
may move unpredictably when being cut.
Minor Warping:
can be safely supported with cupped side
facing the table or fence; however, work-
-44-
Figure 73. Example of a non-through cut.
Model G0764Z (Mfd. Since 05/18)
Blade Guard
The term "blade guard" refers to the assembly
shown in Figure 74.
Lock Handle
Hex Bolt
Guard
Arm
Guard
Adjusting Blade Guard
Loosen the hex bolt securing the guard arm (see
Figure 74), and adjust the guard so the distance
between the blade and both side covers is equal.
For stock up to 1" thick, loosen the (4) lock nuts
securing guard to guard arm, (see inset image
in Figure 74),
moves smoothly up and down with the workpiece.
For stock thicker than 1", set the guard to rest on
the workpiece, then tighten the (4) lock nuts.
IMPORTANT: Every time the blade guard is reinstalled, you must verify that it functions correctly
before making a cut.
To test blade guard operation, lift the front end
all the way up, then release it. The blade guard
should freely drop down and both wheels should
contact table surface.
1
⁄4-turn each so the blade guard
Figure 74. Blade guard assembly.
Understanding & Using Blade Guard
The blade guard MUST be installed on the saw
for all cuts (see Page 14). The guard encloses the
top of the blade to reduce the risk of accidental
blade contact and contain flying chips or dust.
When installed and properly maintained, it is an
excellent tool for reducing the risk of injury when
operating the table saw.
Sometimes the guard or its components can get
in the way when cutting very narrow workpieces
or other specialized cuts. Use the lock handle
shown in Figure 74 to move the guard out of the
way. The blade guard MUST remain installed on
saw. If blade guard is removed for specific operations, always replace it immediately after those
operations are complete.
As the workpiece is pushed into the blade,
the guard lifts and remains in contact with the
workpiece during the cut, then returns to a resting position against the table when workpiece is
pushed completely past the guard.
If blade guard remains in the same position where
you released it, loosen lock nuts securing blade
guard upper guard arm, and re-test operation until
guard freely drops all the way down.
Guard Covers
The G0764Z features two dust hood assemblies
for either straight cuts or angled cuts. Use the flat
blade cover when performing straight (90°) cuts
or the bubble cover for angled cuts. To change
between covers, remove lock knob (see Figure
75) then secure the guard assembly to the dust
hood, install the other cover, and re-tighten the
lock knob.
Dust Hood
Guard
Assembly
Lock Knob
To ensure that the guard does its job effectively,
it MUST be centered over blade and properly
adjusted so it moves up and down to accommodate workpieces, yet properly maintains blade
after the workpiece exits.
Model G0764Z (Mfd. Since 05/18)
Figure 75. Removing blade guard assembly.
-45-
Riving Knife
Secure the riving knife 1–5mm below the top level
of the blade, as shown in Figure 78.
The riving knife (see Figure 76) is a metal plate
that prevents freshly cut pieces of workpiece from
pinching the backside of the blade and causing
kickback. It also acts as a barrier behind the blade
to shield hands from being pulled into the blade if
a kickback occurs while the operator is reaching
behind the blade. (Reaching behind the blade is a
major safety risk and should never be done.) Use
the riving knife for all operations.
Riving Knife
Figure 76. Riving knife location.
To ensure riving knife works safely, it MUST
be aligned with and correctly adjusted to
blade.
Riving Knife Installation & Removal
The riving knife must be correctly installed, adjusted, and aligned in order to provide the maximum
safety benefit.
The riving knife attaches to the mounting block as
shown in Figure 77. Always firmly tighten the hex
nut when securing the riving knife in place.
Minimum 1mm
Maximum 5mm
Figure 78. Height difference between riving knife
and blade.
The height difference between the riving knife and
the blade allows the workpiece to pass over the
blade during non-through cuts (those in which the
blade does not cut all the way through the thickness of the workpiece).
The riving knife also prevents the freshly cut sides
of the workpiece from pinching the blade and
causing kickback. For maximum effectiveness of
this safety design, the riving knife must be positioned within 3–8mm of the blade, as shown in
Figure 79.
Top Distance
Minimum 3mm
Maximum 8mm
Bottom Distance
Minimum 3mm
Maximum 8mm
Figure 79. Allowable top and bottom distances
between riving knife and blade.
Height Difference
1
2
3
Figure 77. Installing riving knife on mounting
block.
-46-
Model G0764Z (Mfd. Since 05/18)
Once the riving knife is properly positioned at the
correct distance from the blade, verify that it is
aligned with the blade by checking the alignment
with a straightedge in the top and bottom locations shown in Figure 80.
Top Alignment
Bottom Alignment
Figure 80. Checking top and bottom riving knife
alignment with blade.
The riving knife should be parallel with the blade
along its length at both positions and should be in
the "Alignment Zone" shown in Figure 81.
Blade Requirements
The riving knife included with this machine is 0.10"
(2.5mm) thick and is only designed for 14" diameter blades.
When choosing a main blade, make sure the
blade size meets the requirements listed below.
The thickness of the blade body and teeth can be
measured with calipers or any precision measuring device.
Blade Size Requirements:
• Body Thickness: 0.079"–0.094"
(2.0mm–2.4mm)
• Kerf (Tooth) Thickness: 0.102"–0.126"
(2.6mm–3.2mm)
Alignment
Zone
Spreader
Blade
Figure 81. Verifying that riving knife is in the
alignment zone behind the blade.
If the riving knife is not aligned or parallel with the
blade, refer to Riving Knife Mounting Block on
Page 79.
Straightedge
Blade Selection
This section on blade selection is by no means
comprehensive. Always follow the saw blade
manufacturer's recommendations to ensure safe
and efficient operation of your table saw.
Ripping Blade Features:
• Best for cutting with the grain
• 30-40 teeth
• Flat-top ground tooth profile
• Large gullets for large chip removal
Flat
Top
Blade
Model G0764Z (Mfd. Since 05/18)
Figure 82. Ripping blade.
-47-
Crosscut blade features:
• Best for cutting across the grain
• 80–100 teeth
• Alternate top bevel tooth profile
• Small hook angle and a shallow gullet
Laminate blade features:
• Best for cutting plywood or veneer
• 100–120 teeth
• Triple chip tooth profile
• Very shallow gullet
Alternate
Top
Bevel
Figure 83. Crosscutting blade.
Combination blade features:
• Designed to cut both with and across grain
• 50–80 teeth
• Alternate top bevel and flat, or alternate top
bevel and raker tooth profile
• Teeth are arranged in groups
• Gullets are small and shallow (similar to a
cross-cut blade), then large and deep (similar
to a ripping blade
Triple
Chip
Blade
Figure 85. Laminate blade.
Thin Kerf Blade: A blade with thinner kerf than
a standard blade. Since the spreader/riving knife
included with this table saw is sized for standard
blades, thin kerf blades cannot be used on this
saw.
-48-
Alternate
Top
Bevel
and
Flat
Figure 84. Combination blade.
Model G0764Z (Mfd. Since 05/18)
Changing Speed
The Model G0764Z has three main blade
speeds—3000, 4000, and 5000 RPM. These
speeds are selected by repositioning the main
motor belts on the pulleys.
Items Needed Qty
Wrench 22mm ................................................... 1
To change main blade speed:
3. Rotate motor adjustment lever clockwise to
release belt tension.
Inspect the belt. If there is any evidence of
4.
damage or excessive wear, replace it.
Position belt on correct arbor and motor pul-
5.
ley set for desired speed (refer to Figure 87
for pulley identification).
DISCONNECT MACHINE FROM POWER!
1.
2. Open motor cabinet door and locate motor
adjustment lever shown in Figure 86.
Adjustment
Lever
Figure 86. Location of main motor adjustment
lever.
Arbor
Pulley
4000
5000
Figure 87. Belt positions for each speed.
Rotate motor adjustment lever clockwise to
6.
retension belt.
Close motor cabinet door before reconnect-
7.
ing machine to power.
3000
Motor
Pulley
Model G0764Z (Mfd. Since 05/18)
-49-
Changing
Main Blade
The Model G0764Z performs best when using
sharp, high-quality blades. Whenever the main
blade starts to get dull, resharpen it or replace it
with a new blade.
The Model G0764Z does not ship with a 14"
main blade. Refer to Blade Requirements
and Blade Selection beginning on Page 47
when purchasing the main blade.
Tools Needed Qty
Wrench 36mm ................................................... 1
Blade Locking Tool
To change the main blade:
DISCONNECT MACHINE FROM POWER!
1.
............................................ 1
Always wear leather gloves
when working around the
blades to protect your
hands.
6. Insert arbor locking tool into table hole shown
in Figure 89.
Main Arbor
Locking Hole
Arbor
Nut
Figure 89. Loosening the main blade arbor nut.
2. Adjust main blade tilt to 0° and raise blade all
the way up.
Raise blade guard up.
3.
4. Move sliding table all the way forward to
expose blade cover.
Pull blade cover away from blade to disen-
5.
gage magnetic catches (see Figure 88).
Main Blade Cover
7.
Push down on locking pin with one hand as
you rotate blade clockwise with wrench on
arbor nut. This will force blade locking pin into
arbor indent and prevent blade from rotating.
Continue unthreading arbor nut clockwise
8.
(left-hand threads) until you can remove the
nut, flange, and blade (see Figure 90).
Arbor Nut Wrench
Flange
Arbor Locking Pin
Figure 90. Main saw blade and arbor parts.
Figure 88. Main blade cover in closed position.
-50-
Slide replacement blade over arbor with teeth
9.
facing to the right, then replace flange.
Model G0764Z (Mfd. Since 05/18)
Thread arbor nut on counterclockwise and
10.
fully tighten it to secure the assembly (see
Figure 91 for order of assembly).
Figure 91. Order of assembly for main blade.
11. Recheck the riving knife alignment with blade,
as instructed in next subsection.
Replacing & Aligning
Scoring Blade
The scoring blade rotates in the opposite direction
from the main blade and makes a shallow cut into
the workpiece surface. This prevents workpiece
tearout.
The scoring blade included with the Model G0764Z
has wedge-shaped teeth that narrow at the top,
as shown in Figure 92. With this style of scoring
blade, the kerf thickness is adjusted by changing
the height of the scoring blade. Raising the scoring blade higher increases the kerf thickness.
12. Close blade cabinet door, close blade cover,
reposition blade guard over blade, then move
sliding table back to center of machine.
Scoring Blade
Tooth
Figure 92. Scoring blade tooth that narrows at
the top.
Replacing Scoring Blade
Tools Needed Qty
Wrench 19mm ................................................... 1
Blade Locking Tool
To replace scoring blade:
DISCONNECT MACHINE FROM POWER!
1.
2. Adjust blade tilt to 0° and raise blade all the
way up.
............................................ 1
Model G0764Z (Mfd. Since 05/18)
Raise blade guard up and move it away from
3.
blade.
Move sliding table all the way forward to
4.
expose blade cover.
Pull blade cover toward front of machine to
5.
disengage magnetic catch.
-51-
6. Slide arbor wrench behind scoring blade (see
Figure 93) to prevent blade from spinning.
Arbor
Wrench
Scoring Blade
Hex Bolt
Figure 93. Inserting arbor wrench behind scoring
blade to prevent blade from spinning.
8.
Slide replacement scoring blade over arbor
with teeth facing to the left, then replace
flange.
Thread arbor hex bolt on clockwise and fully
9.
tighten it to secure the assembly (see Figure
95 for order of assembly).
7. Use 19mm wrench to unthread arbor hex bolt
counterclockwise (left-hand threads), and
remove arbor hex bolt, flange, and blade (see
Figure 94).
Hex Bolt
Arbor
Wrench
Flange
19mm Wrench
Figure 94. Scoring blade, flange, arbor hex bolt,
19mm wrench, and arbor wrench.
Figure 95. Scoring blade order of assembly.
10. Adjust scoring blade to main blade, as
instructed in the next subsection.
-52-
Model G0764Z (Mfd. Since 05/18)
Aligning Scoring Blade
1. DISCONNECT MACHINE FROM POWER!
2. Adjust main blade tilt to 0° and raise blade all
the way up.
Raise blade guard up and move it away from
3.
blade.
Align scoring blade body horizontally to main
4.
blade body by:
a. Rotating knurled lock collar shown in
Figure 96 counterclockwise to loosen it.
Lock
Collar
5. Align scoring blade kerf to main blade kerf by:
Positioning straightedge on one side of
a.
main blade flat on table and against main
blade and scoring blade teeth.
Rotating knurled lock collar behind height
b.
adjustment knob (see Figure 96 on previous page) counterclockwise to loosen
it.
Using height adjustment knob to adjust
c.
scoring blade so that the edge of scoring
blade teeth are aligned with main blade
teeth.
Note: Rotating knob clockwise lowers
scoring blade and counterclockwise raises it.
Tightening lock collar clockwise to secure
d.
setting.
Height
Adjustment Knob
Figure 96. Scoring blade adjustment controls.
Positioning straightedge against the
b.
flat of main blade body (not teeth) and
extending it over scoring blade body.
Rotating horizontal adjustment knob to
c.
align bodies of blades.
Note: Rotating knob clockwise moves
scoring blade to the left and counterclockwise moves it to the right.
Tightening lock collar clockwise to secure
d.
setting.
Horizontal
Adjustment Knob
Repeat Step 5 for other side of blades to
6.
verify kerf thickness matches and scoring
blade is aligned with main blade.
Close blade cover, properly reposition blade
7.
guard, and slide table back to center of
machine.
Perform a test cut and check for chip-out.
8.
— If there is chip-out, repeat this procedure
until corrected.
Model G0764Z (Mfd. Since 05/18)
-53-
Setting Up
Crosscut Fence
Before using the crosscut fence to perform
cutting operations, it must be setup properly.
This includes positioning the crosscut fence on
the crosscut table, adjusting the support bar,
adjusting the crosscut fence distance from the
blade, and positioning the crosscut table along
the sliding table.
Positioning Crosscut Fence
The crosscut fence can be mounted in the front
or rear position (see Figure 97) depending upon
the size of the workpiece and which position will
provide the safest operation. The support bar
is adjusted accordingly for maximum workpiece
support.
Front
Position
The support bar can also be installed in either the
inside or outside positions (see Figure 98).
Crosscut
Fence
Crosscut
Table
Inside
Position
Crosscut
Table
Outside
Position
Figure 98. Inside and outside support bar
positions.
Crosscut
Table
Crosscut
Table
Rear
Position
Figure 97. Crosscut fence front and rear table
mounting positions.
Whenever the crosscut fence is moved between
the front and rear positions, you must verify the
fence is square to the blade, and the 0° stop bolts
are properly adjusted before using the fence.
Refer to Squaring Crosscut Fence to Blade on
Page 77 for further details.
Support
Bar
Support
Bar
To position crosscut fence:
DISCONNECT MACHINE FROM POWER!
1.
2. Unthread and remove knob bolts shown in
Figure 99.
Knob Bolts
Figure 99. Locations of knob bolts securing
crosscut fence.
-54-
Model G0764Z (Mfd. Since 05/18)
3. Lift fence up and loosen pivot bolt (see
Figure 100).
Pivot Bolt &
Rear Hole
Front Hole
Figure 100. Crosscut fence pivot bolt and nut.
4. Re-insert pivot bolt into front hole or rear
hole, and re-insert angle scale bolt into angle
scale slot.
Rotate fence so stop block is against 0° stop
5.
bolt (see Figure 101).
Nut
Angle
Scale Bolt
Adjusting Crosscut Fence Distance
from Blade
To accurately use the crosscut fence scale and
ensure the end block does not contact the blade,
the distance between the crosscut fence and the
blade must be properly adjusted.
To adjust distance between crosscut fence
and blade:
DISCONNECT MACHINE FROM POWER!
1.
2. Perform "To Position Crosscut Fence" proce-
dure starting on Page 54.
Move crosscut table (refer to Positioning
3.
Crosscut Table Along Sliding Table on
Page 56 for instructions) so fence end block
is aligned with center of blade (see Figure
103).
0° Stop Bolt
& Block
Figure 101. Stop block against 0° stop bolt.
Loosen support bar knob bolts shown in
6.
Figure 102, slide support bar into position
required for operation, then tighten knob
bolts.
Support Bar
Knob Bolts
3" Mark
Figure 103. End block aligned with blade.
4. Place precision ruler against a blade tooth,
as shown in Figure 103, then adjust fence so
that 3" mark on fence scale is exactly 3" from
blade tooth.
Without disturbing pivot bolt position, lift
5.
fence up (see Figure 100), tighten pivot bolt
nut, then re-insert pivot bolt into hole.
Repeat measurement in Step 3.
6.
— If measurement is not exactly 3", repeat
Steps 2–10 until it is.
End Block
Figure 102. Locations of knob bolts for adjusting
support bar position.
Model G0764Z (Mfd. Since 05/18)
Re-install knob bolts removed earlier to
7.
secure setting.
-55-
Positioning Crosscut Table Along
Sliding Table
The crosscut table can be positioned as necessary along the sliding table (see Figure 104).
Figure 104. Crosscut table positions along
sliding table.
3.
Loosen crosscut table lock lever shown in
Figure 106.
Lock Lever
Figure 106. Location of crosscut table lock lever.
Position crosscut table along sliding table
4.
T-slot to desired position, then retighten lock
lever to secure table.
To position crosscut table along sliding table:
DISCONNECT MACHINE FROM POWER!
1.
2. Use sliding table lock lever (see Figure 105)
to secure table in position.
Sliding Table
Lock Lever
Figure 105. Location of sliding table lock lever.
-56-
Model G0764Z (Mfd. Since 05/18)
Rip Cutting
Determine which cutting operation will be best
suited for the workpiece to be ripped.
The Model G0764Z has the capability of rip cutting large panels (see Figure 107). The sliding
table removes the burden of sliding a large and
heavy panel over a stationary table surface.
Edge Shoe
Workpiece
Crosscut
Fence
Figure 107. Rip cut with sliding table and
crosscut fence.
The edge shoe (see Figure 107) is used to
stabilize the front end of a workpiece when
otherwise unsecured.
This saw also has the capability of rip cutting
smaller boards, using the machine as a traditional
table saw (see Figure 108). Smaller, lighter boards
are easier to slide across the stationary cast iron
table surface to the right of the saw blade.
• To use the sliding table, read the instructions
titled “Rip Cutting with Sliding Table.”
• To use the machine as a traditional table saw,
skip ahead to “Rip Cutting with Rip Fence.”
Rip Cutting with Sliding Table
1. Position crosscut fence on crosscut table,
and rotate it until fence touches 0° stop bolt
(Figure 109).
0° Stop Bolt
& Block
Figure 109. Stop block against 0° stop bolt.
2. Check to make sure fence is at 0°, and if
necessary, adjust it as described in Squaring
Crosscut Fence to Blade on Page 77.
Adjust distance between crosscut fence and
3.
blade (refer to Page 55 for further details).
Set a flip stop to desired width of cut.
4.
Rip
Fence
Workpiece
Figure 108. Traditional rip cut with rip fence.
Model G0764Z (Mfd. Since 05/18)
5. Position blade guard according to height of
workpiece. (Refer to Understanding Blade
Guard on Page 45.)
Load workpiece onto table saw. The setup
6.
should look similar to Figure 107 on Page
56.
Take all necessary safety precautions, then
7.
perform cutting operation.
-57-
Rip Cutting with Rip Fence
1. Move crosscut table and fence to front of slid-
ing table, and lock them in place with crosscut table lock lever (see Figure 110).
Crosscut
Table Lock
Lever
Figure 110. Location of crosscut table lock lever.
2. Lock sliding table in place with table lock
lever (see Figure 111).
Vertical
Horizontal
Figure 113. Rip fence positions.
Position leading edge of rip fence so it
5.
extends across extension wing, as shown in
Figure 114, then retighten lock lever.
Micro-Adjust
Lock Knob
Rip Fence
Sliding Table
Lock Lever
Figure 111. Location of sliding table lock lever.
Loosen slide lock lever shown in Figure 112.
3.
Slide Lock
Lever
Figure 112. Location of slide lock lever.
4.
Place fence in vertical position (see Figure
113) for thicker workpieces, or in horizontal
position for thinner workpieces and for angled
cuts where blade is tilted over the fence.
Micro-Adjust
Knob
Rip Fence
Lock Lever
Figure 114. Proper position of rip fence.
6. Lift rip fence lock lever (see Figure 114) and
adjust fence to approximate width of cut.
7.
Tighten micro-adjust lock knob (see Figure
114), then turn micro-adjust knob to fine tune
width of cut.
Push rip fence lock lever down to secure
8.
fence assembly in position.
Load workpiece onto table saw. The setup
9.
should look similar to Figure 108 on Page 57.
Take all necessary safety precautions, then
10.
perform cutting operation.
-58-
Model G0764Z (Mfd. Since 05/18)
Crosscutting
The Model G0764Z can crosscut full-size panels with the fence in the front or rear position,
although it is easier to load full-size panels with
the crosscut fence mounted in the front position
(see Figure 115).
Workpiece
When set up properly, the crosscut fence can
support workpieces while using the rip fence as a
cut-off gauge, as shown in Figure 117.
Support
Bar
Crosscut Fence
Figure 117. Crosscutting using the rip fence as
Determine which cutting operation will be best
suited for the workpiece to be crosscut.
Edge
Shoe
Workpiece
Rip
Fence
a cut-off gauge.
Figure 115. Crosscut with fence mounted in
front position.
Mounting the crosscut fence in the rear position
(Figure 116) gives greater stability for crosscut-
ting smaller panels.
Edge Shoe
Workpiece
Crosscut Fence
Figure 116. Crosscut with fence mounted in rear
position.
— If you will be crosscutting full-size panels,
then skip ahead to Crosscutting Full-Size
Panels.
— If you will be crosscutting smaller panels,
then skip ahead to Crosscutting Smaller
Panels.
— If you will be crosscutting workpieces using
the rip fence as a cut-off gauge, then skip
ahead to Crosscutting Using Rip Fence
as Cut-Off Gauge.
To understand how to move the crosscut table,
read Positioning Crosscut Table Along Sliding
Table on Page 56.
The edge shoe (see Figure 116) is used to
stabilize the front end of the workpiece when
otherwise unsecured.
Model G0764Z (Mfd. Since 05/18)
-59-
Crosscutting Full-Size Panels
1. Install crosscut fence in front mounting loca-
tion shown in Figure 118.
Load workpiece onto table saw in rear mount-
4.
ing location, shown in Figure 118. If necessary, use edge shoe to secure workpiece to
sliding table.
Rear Mounting
Location
Front Mounting
Location
Figure 118. Crosscut fence mounting locations.
2. Check to make sure fence is at 0°, and if
necessary, adjust it as described in Squaring
Crosscut Fence to Blade on Page 77.
Adjust distance between crosscut fence and
3.
blade (refer to Page 55 for further details).
Set either flip stop to the desired width of cut.
4.
Note: Extend the crosscut fence slide if the
workpiece is more than 73".
5. Take all necessary safety precautions, then
perform cutting operation.
Crosscutting Using Rip Fence as
Cut-Off Gauge
1. Install crosscut fence in rear position of
crosscut table, as illustrated in Figure 117 on
Page 59.
2. Perform Steps 2 & 3 in Crosscutting FullSize Panels.
Set rip fence to desired width of cut.
3.
4. Slide leading end of rip fence behind front
edge of blade (see Figure 119 for an example).
Important: This step is critical to reducing
the risk of blade binding and kickback.
Rip Fence
Load workpiece onto table saw in forward
5.
mounting location shown in Figure 115.
6. Take all necessary safety precautions, then
perform cutting operation.
Crosscutting Smaller Panels
1. Install crosscut fence in rear mounting loca-
tion shown in Figure 115 and lock it in place.
2. Perform Steps 2 & 3 in Crosscutting FullSize Panels.
Set either flip stop to the desired width of cut.
3.
Note: Extend the crosscut fence slide if the
workpiece is more than 73".
Front Edge
of Blade
Figure 119. Example photo of correct rip fence
position when using it as a cut-off gauge
(blade guard removed for clarity).
5.
Load workpiece onto table saw and against
rip fence. The setup should look similar to
Figure 119.
Take all necessary safety precautions, then
6.
perform cutting operation.
Leading Edge
of Rip Fence
-60-
Model G0764Z (Mfd. Since 05/18)
Miter Cutting
The crosscut fence can be positioned for miter
cuts from 0° to 45° (see Figure 120) using the
front or rear crosscut table holes. The angle scale
on top of the crosscut table has a resolution of 1°.
Rear Hole
Angle
Scale
Front Hole
Figure 120. Crosscut fence positioned for miter
cut.
Front Hole
Workpiece
Figure 122. Crosscut fence mounted in front
hole for miter cuts from 0° to 45°.
4. Install knob bolts shown in Figure 123.
To perform a miter cut:
DISCONNECT MACHINE FROM POWER!
1.
2. Position crosscut table to provide the great-
est amount of workpiece support, then lock it
in place.
Install fence pivot bolt into front or rear holes
3.
shown in Figure 120 to position table for
desired angle of cut (see Figures 121–122).
Workpiece
Rear Hole
Figure 121. Crosscut fence mounted in rear hole
for miter cuts from 0° to 45°.
Knob Bolts
Figure 123. Locations of knob bolts.
Pivot crosscut fence to desired angle, making
5.
sure fence end block is clear of blade so it will
not be cut during operation.
Tighten both knob bolts to secure setting.
6.
If the crosscut fence moves during cutting,
kickback could occur and cause serious
personal injury. Always make sure crosscut
fence is properly secured before using it.
7. Set flip stop according to length of workpiece
you want to cut off to left of blade.
Load workpiece onto crosscut table. The
8.
setup should look similar to Figures 121–122.
Take all necessary safety precautions, con-
9.
nect saw to power, then perform cutting
operation.
Model G0764Z (Mfd. Since 05/18)
-61-
Dado Cutting
Commonly used in furniture joinery, a dado is a
straight channel cut in the face of the workpiece.
Typ ic al ly, d adoes can be cut using either a
dedicated dado blade or a standard saw blade.
However, since the Model G0764Z cannot accept
dado blades, a standard blade must be used.
7.
Repeat cutting operation on other side of
dado channel, as shown in Figure 125.
Cut 2
Workpiece
Blade
Fence
To use standard saw blade to cut a dado:
DISCONNECT MACHINE FROM POWER!
1.
2. Mark width of dado cut on workpiece. Include
marks on edge of workpiece so cut path can
be aligned when workpiece is lying on table.
Raise blade to desired depth of dado chan-
3.
nel.
Align workpiece with blade to cut one of dado
4.
sides, as shown in Figure 124, then align rip
fence with workpiece.
Cut 1
Workpiece
Blade
Fence
Figure 125. Second cut for a single-blade dado.
Make additional cuts (see Figure 126) in
8.
center of dado to clear out necessary material. Dado is complete when channel is completely cleared out.
Cuts 3+
Fence
Workpiece
Figure 126. Additional single-blade dado cuts.
Adjust rip fence to properly support
workpiece for each of the dado cuts. This
will reduce likelihood of kickback and injury.
Figure 124. First cut for a single-blade dado.
5.
Reconnect saw to power and turn saw ON.
Allow blade to reach full speed, then perform
6.
the cutting operation.
-62-
Model G0764Z (Mfd. Since 05/18)
Rabbet Cutting
15
30
45
Commonly used in furniture joinery, a rabbet is an
L-shaped groove cut in the edge of the workpiece.
Typically, rabbets can be cut with either a dado
blade or a standard saw blade. However, because
the Model G0764Z cannot accept dado blades,
rabbets must be cut with a standard saw blade
only.
Stand workpiece on edge, as shown in
5.
Figure 127, then adjust rip fence so blade is
aligned with inside of rabbet channel.
Blade
Workpiece
Fence
A ripping blade is typically the best blade to use
for cutting rabbets when using a standard blade
because it removes sawdust very efficiently. (See
Page 47 for blade details.) Also, a sacrificial fence
is not required when cutting rabbets with a standard blade.
To cut rabbets with standard blade:
DISCONNECT MACHINE FROM POWER!
1.
2. Mark width of rabbet cut on workpiece.
Include marks on edge of workpiece so cut
path can be aligned when workpiece is lying
on table.
If workpiece is too tall to safely use blade
3.
guard, position blade guard up and away
from main blade.
Always use push sticks, featherboards,
push paddles, and other safety accessories
whenever possible to increase safety and
control during operations which require
removal of blade guard. ALWAYS replace
blade guard after operation is complete.
Figure 127. First rabbet cut.
DO NOT place a tall board on edge when
cutting a rabbet. Overly tall workpieces cannot be properly supported with the fence
and can easily shift during operation, causing kickback or loss of control. Instead, use
another tool to cut these types of rabbets.
6.
Reconnect saw to power source, then per-
form cut.
Lay workpiece flat on table, as shown in
7.
Figure 128, adjust saw blade height to inter-
sect with first cut, then perform second cut to
complete rabbet.
4. Raise blade to desired depth of rabbet channel desired.
Model G0764Z (Mfd. Since 05/18)
Blade
Fence
Workpiece
Figure 128. Second cut to create a rabbet.
-63-
Narrow-Rip Auxiliary
Fence & Push Block
Pre-drill and countersink eight pilot holes 3⁄8"
2.
in from
boards together with eight #6 x 1
edge of 5 1⁄4" wide board, then secure
1
⁄2" wood
screws, as shown in Figure 130.
There are designs for hundreds of specialty jigs
that can be found in books, trade magazines,
and the internet. These types of jigs can greatly
improve the safety and consistency of cuts. They
are particularly useful during production runs
when dozens or hundreds of the same type of cut
need to be made.
The narrow-rip auxiliary fence and push block
system shown in this section is an example of
a specialty jig that can be made to increase the
safety of very narrow rip cuts.
Making a Narrow-Rip Push Block for
an Auxiliary Fence
1. Cut a piece of 1⁄2" thick plywood 5 1⁄4" wide
and as long as your table saw rip fence; cut
a piece of
as long as your table saw rip fence (see
Figure 129).
Length of Table
Saw Rip Fence
3"
51⁄4"
3
⁄4" thick hardwood 3" wide and
3
⁄4" Hardwood
3
⁄4" Plywood
Length of Table
Saw Rip Fence
#8 x 1
1
⁄2"
Wood Screw
3
⁄4" Hardwood
3
⁄4" Plywood
Completed
Fence
Figure 130. Location of pilot holes.
Using 1⁄2" material you used in previous steps,
3.
cut out pieces for push block per the dimensions shown in Figure 131; for handle, cut a
piece 10" long by 5"–9" high and shape it as
desired to fit your hand.
5
5
⁄8"
15"
1
⁄2"
2
3
1
⁄4"
5
12
⁄8"
1
⁄2"
5
⁄8"
Handle
Lip
1
2
3
⁄8"
Figure 131. Push block dimensions and
construction.
⁄2"
Figure 129. Auxiliary fence dimensions.
Note: We recommend cutting hardwood
board oversize, then jointing and planing it
to the correct size to make sure the board
is square and flat. Only use furniture grade
plywood or kiln dried hardwood to prevent
warping.
-64-
Attach handle to base with #8 x 11⁄2" wood
4.
screws, and attach lip to base with cyanoacrylate type wood glue.
Model G0764Z (Mfd. Since 05/18)
Using the Auxiliary Fence and Push
Block
1. Place auxiliary fence on table and clamp it to
rip fence at both ends, then adjust distance
between the auxiliary fence and blade—this
determines width of rip cut (see Figure 132).
Auxilliary Fence
Blade
4. Turn saw ON, wait for blade to reach full
speed, then begin ripping the workpiece
using a push stick for side support.
As the workpiece nears end of cut, place
5.
push block on auxiliary fence with lip directly
behind workpiece, then release push stick
just before blade.
Guide workpiece rest of the way through cut
6.
with push block, as shown in Figure 134.
Workpiece
Cutting Width
Figure 132. Example illustration of adjusting
ripping distance between blade and auxiliary
fence.
Whenever possible, keep blade guard in the
proper position over blade when using jigs
of this nature. This will reduce risk of injury
from kickback or contact with blade.
Install blade guard.
2.
3. Place workpiece 1" behind blade and evenly
against table and auxiliary fence.
Release
Push Stick
Before Blade
Lip
Blade Path
Figure 134. Example illustration of ripping with
push block.
Turn saw OFF and wait for blade to
completely stop before removing cut off
piece. This will reduce risk of injury from
kickback or contact with blade.
Push
Block
Auxilliary Fence
Blade
Workpiece
Push Stick
for Side
Support
Blade Path
Figure 133. Example illustration of push block in
position to push workpiece through blade.
Model G0764Z (Mfd. Since 05/18)
Push
Block
-65-
ACCESSORIES
order online at www.grizzly.com or call 1-800-523-4777
Installing unapproved accessories may
SECTION 5: ACCESSORIES
cause machine to malfunction, resulting in
serious personal injury or machine damage.
To reduce this risk, only install accessories
recommended for this machine by Grizzly.
NOTICE
Refer to our website or latest catalog for
additional recommended accessories.
G0777—1.5 HP Ultra-Quiet Cyclone Dust Collector
Where most dust collectors this size operate at a
minimum of 80-82 dB, the G0777 can collect even
the biggest shavings without exceeding 70–72 dB
due to its slow-speed motor and large impeller.
Features a compact profile on a sturdy mobile
frame, a pleated filter system, an internal filtercleaning brush system, 880 CFM airflow, a builtin remote control switch, and a mobile 35-gallon
collection drum.
H3388
H3389—14" Carbide Tipped Saw Blade, 100T
These blades are designed especially for sliding
table saws and manufactured for heavy-duty use.
T23037—Scoring Blade Replacement
—14" Carbide Tipped Saw Blade, 80T
Figure 135. 14" carbide tipped saw blade.
Figure 137. G0777 Ultra-Quiet Cyclone
Dust Collector.
Figure 136. Model T23037 Scoring Blade
-66-
Model G0764Z (Mfd. Since 05/18)
order online at www.grizzly.com or call 1-800-523-4777
T20501—Face Shield Crown Protector 4"
T20502—Face Shield Crown Protector 7"
T20503—Face Shield Window
T20451—“Kirova” Clear Safety Glasses
T20452—“Kirova” Anti-Reflective S. Glasses
H7194—Bifocal Safety Glasses 1.5
H7195—Bifocal Safety Glasses 2.0
H7196—Bifocal Safety Glasses 2.5
D4218—Black Flexible Hose 5" x 10'
1
D4212—Black Flexible Hose 2
⁄2" x 10'
W1318—Wire Hose Clamp 5"
1
W1314—Wire Hose Clamp 2
⁄2"
W1008—Plastic Blast Gate 5"
We've hand picked a selection of commonly
used dust collection components for the Model
G0764Z.
T20502
T20452
T20503
H7194
T20451
Figure 138. Eye protection assortment.
W1732—Adjustable Roller Table
Specifications:
• Roller size: 19 1⁄2" long x 2" dia., 9 each
• Minimum stand length: 19 1⁄2"
• Maximum stand length: 54"
• Minimum stand height: 24 1⁄2"
• Maximum stand height: 38"
• Casters: Polyurethane, 4 1⁄4" dia., locking
• Legs: Independently adjustable
Multiple stands can be connected for unlimited
rolling capacity
W1008
D4218
W1318
Figure 140. Recommended dust collection
accessories.
H8029—5-Piece Safety Kit
This kit has four essential jigs. Includes two
push blocks, push stick, featherboard, and combination saw and router gauge. Featherboard
3
⁄8" x 3⁄4" miter slots. Made of high-visibility
fits
yellow plastic.
Figure 141. H8029 5-Piece Safety Kit.
Figure 139. W1732 Adjustable Roller Table.
Model G0764Z (Mfd. Since 05/18)
-67-
G5562—SLIPIT® 1 Qt. Gel
order online at www.grizzly.com or call 1-800-523-4777
®
G5563—SLIPIT
G2871—Boeshield
G2870—Boeshield
H3788—G96
H3789—G96
12 Oz. Spray
®
T-9 12 Oz. Spray
®
®
Gun Treatment 12 Oz. Spray
®
Gun Treatment 4.5 Oz. Spray
T-9 4 Oz. Spray
Figure 142. Recommended products for protect-
ing unpainted cast iron/steel parts on machinery.
H2499—Small Half-Mask Respirator
H3631—Medium Half-Mask Respirator
H3632—Large Half-Mask Respirator
H3635—Cartridge Filter Pair P100
Wood dust has been linked to nasal cancer and
severe respiratory illnesses. If you work around
dust everyday, a half-mask respirator can be a
lifesaver. Also compatible with safety glasses!
T26419—Syn-O-Gen Synthetic Grease
Formulated with 100% pure synthesized hydrocarbon basestocks that are compounded with special
thickeners and additives to make Syn-O-Gen
non-melt, tacky, and water resistant. Extremely
low pour point, extremely high temperature oxidation, and thermal stability produce a grease that is
unmatched in performance.
Figure 143. T26419 Syn-O-Gen Synthetic
Grease.
Figure 144. Half-mask respirator with disposable
cartridge filters.
G0572—Hanging Air Filter with Remote
This Hanging Air Filter has a convenient remote
control and features a three-speed motor, automatic shutoff timer, 1-micron secondary filter, and
5-micron primary filter. Air flow is 556, 702, and
1044 CFM. Overall size is 26" long x 19 1⁄4" wide x
15" high. Approximate shipping weight is 58 lbs.
Figure 145. G0572 Hanging Air Filter with
Remote.
-68-
Model G0764Z (Mfd. Since 05/18)
SECTION 6: MAINTENANCE
accidental startup, always
disconnect machine from
Cleaning &
To reduce risk of shock or
power before adjustments,
maintenance, or service.
Schedule
For optimum performance from your machine,
follow this maintenance schedule and refer to any
specific instructions given in this section.
Daily Check:
• Loose mounting bolts.
• Damaged saw blade.
Worn or damaged wires.
•
Any other unsafe condition.
•
Weekly Maintenance:
• Clean sliding table surface and grooves.
• Clean and protect cast iron table.
• Clean rip fence and slide ways.
Protecting
Cleaning the saw is relatively easy. Vacuum
excess wood chips and sawdust, and wipe off the
remaining dust with a dry cloth. If any resin has
built up, use a resin-dissolving cleaner to remove
it.
Protect the unpainted cast iron table by wiping it
clean after every use—this ensures moisture from
wood dust does not remain on the bare metal
surface. Keep the table rust-free with regular
applications of products like G96
SLIPIT
G5562—SLIPIT
G5563—SLIPIT
G2871—Boeshield
G2870—Boeshield
H3788—G96
H3789—G96
®
, or Boeshield® T-9 (see Page 146).
®
1 Qt. Gel
®
12 Oz. Spray
®
T-9 12 Oz. Spray
®
®
Gun Treatment 12 Oz. Spray
®
Gun Treatment 4.5 Oz. Spray
T-9 4 Oz. Spray
®
Gun Treatment,
Monthly Maintenance:
• Clean/vacuum dust buildup from inside cabi-
net and off motors.
• Check/replace belts for proper tension, dam-
age or wear (Page 73).
Every 6–12 Months:
• Lubricate slide shafts (Page 70).
• Lubricate elevation chain (Page 70).
• Lubricate tilt leadscrew (Page 70).
Model G0764Z (Mfd. Since 05/18)
Figure 146. Recommended products for protecting unpainted cast iron/steel parts on machinery.
-69-
Lubrication
To reduce risk of shock or
accidental startup, always
disconnect machine from
An essential part of lubrication is cleaning the
components before lubricating them. This step
is critical because dust and chips build up on
lubricated components, which makes them hard
to move. Simply adding more lubrication to builtup grime will not result in smooth-moving parts.
Clean the components in this section with an oil/
grease solvent cleaner or mineral spirits before
applying lubrication.
All bearings are sealed and permanently lubricated. Leave them alone until they need to be
replaced. Refer to Page 66 for NLGI#2 grease
(T23964) available from Grizzly.
Elevation Chain
Lubrication Type .......... G4682 Dry Coating Lube
Amount
Lubrication Frequency
Clean the chain links (see Figure 148) with a
brush and mineral spirits, then apply a light coat
of lubricant.
.................................................Thin Coat
.....................6–12 Months
Elevation
Chain
Figure 148. Location of elevation chain.
power before adjustments,
maintenance, or service.
Slide Shafts
Lubrication Type ...T23964 or NLGI#2 Equivalent
Amount
Lubrication Frequency
The blades and motors move up and down on
slide shafts that require adding lubricant to the
grease fittings shown in Figures 147–149.
.............................................. 1–2 Pumps
.....................6–12 Months
Sliding
Shafts
Tilt Leadscrew
Lubrication Type ...T23964 or NLGI#2 Equivalent
Amount
Lubrication Frequency
Clean the threads of the tilt leadscrew (see
Figure 149) with a stiff brush and mineral spirits.
When dry, apply a thin coat of lubricant into the
threads with a brush and tilt the blade back and
forth a few times to distribute the grease.
.................................................Thin Coat
.....................6–12 Months
Tilt
Leadscrew
Grease
Fittings
Figure 147. Sliding shafts and grease fittings.
-70 -
Figure 149. Tilt leadscrew.
Model G0764Z (Mfd. Since 05/18)
Review the troubleshooting procedures in this section if a problem develops with your machine. If you need
the
serial number and manufacture date of your machine before calling.
SECTION 7: SERVICE
replacement parts or additional help with a procedure, call our Technical Support. Note: Please gather
Troubleshooting
Symptom Possible Cause Possible Solution
Machine does not
start or a breaker
trips.
Machine stalls or is
underpowered.
1. Emergency Stop button is engaged/faulty.
2. Master power switch turned OFF or is at
fault.
3. Power supply switched OFF or is at fault.
4. Blade guard limit switch engaged/at fault.
5. Cabinet door is open/door safety switch is
at fault.
6. Motor connection wired incorrectly.
7. Thermal overload relay has tripped.
8. Wall fuse/circuit breaker is blown/tripped.
9. Contactor not getting energized/has burnt
contacts.
10. Wiring is open/has high resistance.
11. Motor ON button is at fault.
12. Set incorrectly or fault.
13. Motor is at fault.
1. Feed rate/cutting speed too fast for task.
2. Workpiece material is not suitable for this
machine.
3. Worn or damaged belts.
4. Motor connection is wired incorrectly.
5. Motor bearings are at fault.
6. Start timer module is at fault.
7. Motor is at fault.
1. Rotate clockwise slightly until it pops out/replace it.
2. Turn master power switch ON; replace.
3. Ensure power supply switch is on; ensure power
supply has correct voltage.
4. Move blade guard to working position; replace faulty
limit switch.
5. Close door/replace faulty safety switch.
6. Correct motor wiring connections.
7. Turn cut-out dial to increase working amps and
push reset pin. Replace if tripped multiple times
(weak relay).
8. Ensure circuit size is suitable for this machine;
replace weak breaker.
9. Test for power on all legs and contactor operation.
Replace unit if faulty.
10. Check for broken wires or disconnected/corroded
connections, and repair/replace as necessary.
11. Replace faulty ON button.
12. Adjust to correct delay; replace module.
13. Test/repair/replace.
1. Decrease feed rate/cutting speed.
2. Only cut wood products; make sure moisture
content is below 20% and there are no foreign
materials in the workpiece.
3. Replace bad belts (Page 73).
4. Correct motor wiring connections.
5. Test by rotating shaft; rotational grinding/loose shaft
requires bearing replacement.
6. Adjust to correct delay; replace module.
7. Test/repair/replace.
Model G0764Z (Mfd. Since 05/18)
-71-
Symptom Possible Cause Possible Solution
Machine has vibration or noisy
operation.
Blades rotate in the opposite
direction as they should.
Workpiece has burned edges,
binds, or kicks back.
Workpiece has chip out on the
bottom edge.
Sliding table saw does not cut
square.
Rip fence hits table top when
sliding across table.
Blade does not reach 90˚, or
blade does not reach 45˚.
The rip fence scale is not
accurate.
Tilt or blade height handwheels
difficult to turn.
1. Motor or component is loose.
2. Blade is at fault.
3. Worn or damaged belts.
4. Pulley is loose.
5. Motor mount loose/broken.
6. Machine is incorrectly mounted or
sits unevenly.
7. Arbor pulley is loose.
8. Motor fan is rubbing on fan cover.
9. Arbor bearings are at fault.
10. Motor bearings are at fault.
1. Two of the power wires are
reversed.
1. Sliding table is not parallel to blade.
2. Riving knife is not aligned with
blade.
3. Blade is warped.
1. Scoring blade height is incorrect.
2. Scoring blade is not aligned with
main blade.
3. Scoring blade kerf does not match
the main blade.
1. Sliding table is not parallel to blade.
2. Crosscut fence is not perpendicular
to blade.
1. Rail is too low.
2. Rip fence roller is too low.
1. Blade tilt stop nuts are out of
adjustment.
1. The rip fence scale is out of
calibration or was not set up
correctly.
1. Lock knob is tight.
2. Leadscrews caked with dust.
1. Inspect/replace stripped or damaged bolts/
nuts, and retighten with thread locking fluid.
2. Replace warped, bent, or twisted blade;
resharpen dull blade.
3. Replace bad belts (Page 73).
4. Re-align/replace shaft, pulley, set screw, and
key as required.
5. Tighten/replace.
6. Tighten/replace anchor studs in floor;
relocate/shim machine.
7. Retighten/replace arbor pulley with shaft and
thread locking liquid.
8. Replace dented fan cover; replace loose/
damaged fan.
9. Replace arbor housing bearings; replace
arbor.
10. Test by rotating shaft; rotational grinding/
loose shaft requires bearing replacement.
1. Reverse R & T incoming power connections
in junction box (Page 41).
1. Make sliding table parallel to blade (Page 76).
2. Align riving knife with main blade (Page 46).
3. Replace blade.
1. Adjust height of scoring blade (Page 53).
2. Align scoring blade (Page 53).
3. Adjust scoring blade kerf (Page 53).
1. Make sliding table parallel to blade (Page 76).
2. Adjust crosscut fence perpendicular to blade
(Page 77).
1. Raise front rail (Page 80).
2. Adjust rip fence roller (Page 80).
1. Adjust stop nuts (Page 75).
1. Adjust the rip fence scale (Page 80).
1. Release lock knob.
2. Clean off dust and lubricate leadscrews/gears.
-72-
Model G0764Z (Mfd. Since 05/18)
Belt Service
Over time, belts will stretch and wear. To maintain
efficient power transfer to the blades, make sure
the belts are properly tensioned and in good condition. If belts show any glazing, fraying, or cracking, replace them.
To reduce risk of shock or
accidental startup, always
disconnect machine from
power before adjustments,
maintenance, or service.
Tensioning Scoring Motor Belt
Proper tension of the scoring motor flat belt is
automatically maintained by a spring on the motor
pivot rod (see Figures 150 and 151).
Replacing Scoring Motor Belt
To replace the scoring motor belt, have an assistant lift the scoring motor up to relieve the belt tension, then replace the belt with a new one. When
the motor is lowered, proper belt tension will be
applied by the spring.
Tensioning Main Motor Belt
Proper tension of the main motor V-belt is automatically maintained by a cam lock attached
to the motor mounting plate and arbor support
bracket (see Figure 152).
Cam Lock
Main Motor
V-Belt
Scoring Motor
Flat Belt
Figure 150. Location of scoring motor flat belt.
Figure 152. Location of main motor V-belt and
cam-lock (table removed for photo clarity).
Spring
Figure 151. Location of scoring motor spring.
Model G0764Z (Mfd. Since 05/18)
-73 -
Replacing Main Motor Belt
A V-belt transfers power from the main motor to
the main blade.
Tool Needed Qty
Wrench 22mm ................................................... 1
To replace main motor belt:
DISCONNECT MACHINE FROM POWER!
1.
2. Open cabinet door and locate motor adjust-
ment lever shown in Figure 153.
Rotate adjustment lever clockwise to raise
3.
motor and release belt tension (see Figure
154). The cam will lock the motor in place.
Cam Lock
Pulley
Belt
Adjustment
Lever
Figure 153. Main motor V-belt tension controls
(table removed for photo clarity).
Adjustment
Lever
Figure 154. Rotating motor position using motor
adjustment lever.
Carefully position belt onto desired pulleys
4.
(see Change Speed on Page 49 for additional information).
Rotate adjustment lever counterclockwise to
5.
lower motor and retension belt.
Note: The cam lock will automatically posi-
tion motor for correct belt tension.
Close cabinet door before reconnecting
6.
machine to power.
-74 -
Model G0764Z (Mfd. Since 05/18)
Blade Tilt Calibration
The blade tilt stops are calibrated at the factory,
but they can be recalibrated if they change during
the life of the machine. The 0° stop positions the
blade square to the table.
Tools Needed Qty
Hex Wrench 3mm .............................................. 1
Machinist's Square, 90° & 45°
........................... 1
4.
Use machinist's square to check if main blade
is square to table (see Figure 156).
Blade
Table
90° Square
0° Stop
1. DISCONNECT MACHINE FROM POWER!
2. Move blade tilt to 0° and raise main blade as
high as it will go.
Open cabinet door and identify the stop nuts
3.
shown in Figure 155.
45° Stop
Nut
0° Stop
Nut
Figure 155. Blade tilt stop nuts.
Figure 156. Machinist's square against blade
and table.
a. If main blade is not square to table,
loosen the two set screws on 0° stop
nut, then loosen stop nut away from
leadscrew collar.
b. Adjust main blade tilt angle so that it is
square to table.
Thread 0° stop nut against leadscrew col-
c.
lar and retighten set screws.
45° Stop
Use a similar procedure for the 45° stop nut
shown in Figure 155, as previously instructed for
the 0° stop nut.
Tilt Scale Calibration
If necessary, the blade tilt scale on the front of the
saw can be adjusted by using the hex nuts shown
on the tilt scale cable in Figure 157. These are
accessed inside the cabinet.
Model G0764Z (Mfd. Since 05/18)
Tilt Scale
Cable Hex Nuts
Figure 157. Tilt scale cable hex nuts.
-75-
Sliding Table Parallel
Adjustment
The sliding table is adjusted parallel with the main
blade at the factory, but it can re-adjusted if necessary.
Tools Needed Qty
Felt Tip Pen ....................................................... 1
90° Square
Precise Measuring Tool
Phillips Screwdriver #2
Wrench or Socket 17mm
........................................................ 1
..................................... 1
...................................... 1
................................... 1
5. Rotate blade 180°, move sliding table all the
way back, then measure distance “B” shown
in Figure 158.
— If “A” and “B” measurements are same or
difference is 0.004" or less, no adjustments
to table parallelism need be made.
— If difference is greater than 0.004", then
sliding table parallelism must be adjusted.
Proceed to Step 6.
Loosen hex nuts on sliding table T-bolts to
6.
allow sliding table to move in next step (refer
to Figures 21–23 on Page 26 for hex nut
locations).
To adjust sliding table parallel with main
blade:
1. DISCONNECT MACHINE FROM POWER!
Raise main blade as high as it will go and
2.
adjust tilt angle to 0° (verify with square).
Mark one blade tooth with felt tip pen. This
3.
will be your reference point when taking measurements in following steps.
Move sliding table all the way forward, and
4.
measure distance “A” shown in Figure 158,
which is between marked blade tooth and
edge of sliding table miter slot.
Marked Tooth
Blade
Miter Slot
A
Adjust adjustment bolts underneath each end
7.
of sliding table (see Figure 159) to make sliding table parallel with main blade.
Adjustment Bolt
(1 of 2)
Figure 159. Sliding table parallelism adjustment
bolt (1 of 2).
Once sliding table parallelism is within 0.004"
8.
from one end to the other, retighten hex nuts
and re-install access panels.
Marked Tooth
B
Figure 158. Measuring distance between miter
slot and blade at each end of sliding table.
-76-
Model G0764Z (Mfd. Since 05/18)
Sliding Table
Squaring Crosscut
Movement
Adjustment
The sliding table features an adjustment bar with
bolts that control how easily the sliding table
moves across the base (see Figure 160). These
adjustment bolts are factory set and should not
be adjusted unless absolutely necessary. They
can only be accessed by removing the end covers from both ends of the sliding table base and
sliding the thin plate that is over the bolts out of
the way.
Important: Before making any adjustments to the
factory setting, make sure it is necessary. This is
a major adjustment that, if not done properly, can
adversely affect the movement of the sliding table
saw.
Fence to Blade
Squaring the crosscut fence to the blade ensures
that cuts made with the crosscut fence will be
square. This procedure can be done by using a
32" x 32" piece of scrap plywood as a test piece
and making five test cuts, then adjusting the fence
as necessary.
Note: Getting accurate results with this procedure
is a matter of trial-and-error and patience.
To square crosscut fence with the blade:
Make sure sliding table is parallel with
1.
main blade (refer to Sliding Table Parallel
Adjustment on Page 76 for detailed instruc-
tions).
Loosen crosscut fence pivot lock knob to
2.
allow fence to pivot.
Adjustment
Bolt
Figure 160. Adjustment bolt access location.
Increasing pressure between the rails (turning
bolts counterclockwise) reduces table movement inaccuracies, which increases accuracy,
but makes it harder to slide the table. Decreasing
pressure between the rails (turning bolts clockwise) makes it easier to slide the table, but
increases table movement inaccuracies, which
reduces accuracy.
Adjusting this part of the sliding table correctly is
a matter of trial-and-error by making adjustments,
moving the sliding table, making additional adjustments, and repeating the process until the sliding
table moves smoothly and easily but without any
inaccuracies.
Move crosscut fence stop block against 0°
3.
stop bolt (see Figure 161), then retighten
pivot lock knob to secure fence in place.
0° Stop Bolt
& Block
Figure 161. Stop block against 0° stop bolt.
Model G0764Z (Mfd. Since 05/18)
-77-
Test
Piece
1
2
3
4
Test
Piece
1
2
3
4
4.
Prepare scrap test piece by cutting it to 32"
x 32" square, then number all four sides 1–4
(see Figure 162).
Figure 162. Fence adjustment test piece.
5.
Use crosscut fence to cut 1⁄2" off of each side
of test piece, then cut side 1 again (make five
cuts total).
Loosen crosscut fence pivot lock knob to
7.
allow fence to pivot.
Loosen hex nut on the 0° stop bolt shown
8.
in Figure 161 on the previous page, rotate
0° stop bolt to square crosscut fence, then
retighten hex nut.
Move crosscut fence stop block against 0°
9.
stop bolt, then retighten pivot lock knob to
secure fence in place.
Repeat Steps 5–6.
10.
Measure test piece diagonally from corner-to-
6.
corner, as shown in Figure 163.
— If both measurements are within 1⁄16", then
you are finished with this procedure.
— If both measurements are not within 1⁄16",
then crosscut fence needs to be adjusted.
Proceed to Step 7.
Figure 163. Diagonals to measure on test piece.
-78 -
Model G0764Z (Mfd. Since 05/18)
Riving Knife
Mounting Block
Tools Needed Qty
Straightedge ...................................................... 1
Wrench 19mm
Hex Wrench 4mm
................................................... 1
.............................................. 1
The riving knife must be aligned with the blade
when installed. If the riving knife is not aligned
with the blade, then the workpiece will be forced
sideways during the cut, which will increase the
risk of kickback.
The riving knife mounts to a block that can be
repositioned to correctly align the riving knife to
the blade. The mounting block adjusts by turning
the set screws in each corner of the block. Figure
164 shows the set screws associated with controlling the mounting block position. Have patience
when adjusting the mounting block, because it
requires trial-and-error to perform with accuracy.
Mounting Block
Face View
Top Control
Side
Control
Side
Control
To adjust riving knife mount block:
1. DISCONNECT MACHINE FROM POWER!
2. Raise blade guard and move it away from
blade, then adjust blade tilt to 0° and raise
blade all the way up.
Move sliding table all the way forward to
3.
expose blade cover, then lock it in place.
Use blade locks to open cover (see Figure
4.
88 on Page 50) and gain access to riving
knife mounting block.
Loosen hex nut that secures riving knife to
5.
mounting block, and remove riving knife.
Adjust each pair of set screws that controls
6.
the direction required to move mounting
block so riving knife can be aligned with
blade. Make sure to move both set screws in
even increments.
Bottom Control
Figure 164. Riving knife mounting block
adjustment controls.
All adjustment and alignment positions for the
riving knife are covered on Page 46 in the subsection Riving Knife Installation & Removal;
the mounting block should not be adjusted unless
you have been unable to mount the riving knife as
instructed by these procedures.
Re-install riving knife and check alignment
7.
with blade. Repeat Step 6 as necessary until
riving knife is properly aligned with blade.
Note: If you discover that riving knife is bent
and cannot be properly aligned with the
blade, it is possible to bend it into alignment,
but make sure that the final result is precisely aligned so the risk of kickback is not
increased. If the riving knife is bent, and you
cannot easily bend it back into alignment, we
recommend replacing it with a new one.
Properly re-install riving knife as described on
8.
Page 46, close blade cover, properly reposi-
tion blade guard, and move sliding table back
to center position.
Model G0764Z (Mfd. Since 05/18)
-79 -
Calibrating Rip
Fence
There are three adjustments that affect the accuracy and operation of the rip fence: 1) Height
above the table, 2) parallelism with the blade,
and 3) rip fence scale position. If your cuts are
not square when using the rip fence, check these
adjustments. Parallelism is an important safety
adjustment and the rip fence MUST be parallel
with blade to minimize the risk of kickback.
Parallelism To Blade
Parallelism is an important safety adjustment. Rip fence MUST be parallel with
blade to minimize risk of kickback.
Tool Needed Qty
Wrench 19mm ................................................... 1
To adjust rip fence parallel to main blade:
DISCONNECT MACHINE FROM POWER!
1.
Height Above Table
The rip fence and base should ride as close to the
table surface as possible without touching it and
with an even gap along the length. This is accomplished by adjusting the rip fence rail and the roller
at the end of the fence base.
Tools Needed Qty
Hex Wrench 6mm .............................................. 1
Wrench 13mm
Wrench 19mm
To adjust rip fence height above table:
Observe gap between fence base and table
1.
along entire length.
— If rail end of fence body is too low, loosen
hex nuts that secure rail, raise rail until
fence body gap is even, then retighten rail
hex nuts.
................................................... 2
................................................... 1
2. Raise main blade all the way up and tilt to 0°.
3. Slide rip fence as close to main blade as pos-
sible and check the gap that remains.
— If gap between rip fence and main blade is
not even at both ends, loosen rail hex nuts
and adjust one end in or out until fence is
parallel with blade, then retighten hex nuts.
Calibrating Rip Fence Scale
Tool Needed Qty
Hex Wrench 4mm .............................................. 1
To calibrate rip fence scale:
DISCONNECT MACHINE FROM POWER!
1.
2. Make sure rip fence is parallel with main
blade, then move it against blade so that it
just touches teeth.
— If far end of fence base is too low, remove
rail end cap, and slide fence base off rail.
Loosen acorn nut shown in Figure 165,
adjust wheel position, retighten acorn nut,
and re-install fence base on rail.
Wheel
Acorn Nut
Figure 165. Rip fence base roller controls.
-80-
Observe reading on scale underneath rip
3.
fence (see Figure 166 for an example).
— If scale is not zero, loosen cap screws that
secure it to table, adjust it so it reads zero,
then retighten cap screws.
Fence Scale
Zero Mark
Figure 166. Rip fence scale zero mark.
Model G0764Z (Mfd. Since 05/18)
These pages are current at the time of printing. However, in the spirit of improvement, we may make changes to the electrical systems of future machines. Compare the manufacture date of your machine to the one
number and manufacture date of your
machine before calling. This information can be found on the main machine label.
machine
SECTION 8: WIRING
stated in this manual, and study this section carefully.
If there are differences between your machine and what is shown in this section, call Technical Support at
(570) 546-9663 for assistance BEFORE making any changes to the wiring on your machine. An updated
wiring diagram may be available. Note: Please gather the serial
Wiring Safety Instructions
SHOCK HAZARD. Working on wiring that is con-
nected to a power source is extremely dangerous.
Touching electrified parts will result in personal
injury including but not limited to severe burns,
electrocution, or death. Disconnect the power
from the machine before servicing electrical components!
MODIFICATIONS. Modifying the wiring beyond
what is shown in the diagram may lead to unpredictable results, including serious injury or fire.
This includes the installation of unapproved aftermarket parts.
WIRE CONNECTIONS. All connections must
be tight to prevent wires from loosening during
machine operation. Double-check all wires disconnected or connected during any wiring task to
ensure tight connections.
CIRCUIT REQUIREMENTS. You MUST follow
the requirements at the beginning of this manual
when connecting your machine to a power source.
WIRE/COMPONENT DAMAGE. Damaged wires
or components increase the risk of serious personal injury, fire, or machine damage. If you notice
that any wires or components are damaged while
performing a wiring task, replace those wires or
components.
MOTOR WIRING. The motor wiring shown in
these diagrams is current at the time of printing
but may not match your machine. If you find this
to be the case, use the wiring diagram inside the
motor junction box.
CAPACITORS/INVERTERS. Some capacitors
and power inverters store an electrical charge for
up to 10 minutes after being disconnected from
the power source. To reduce the risk of being
shocked, wait at least this long before working on
capacitors.
EXPERIENCING DIFFICULTIES. If you are experiencing difficulties understanding the information
included in this section, contact our Technical
Support at (570) 546-9663.
The photos and diagrams
included in this section are
best viewed in color. You
can view these pages in
color at www.grizzly.com.
Model G0764Z (Mfd. Since 05/18)
-81-
Wiring Overview
23
24
11
12
1 2 3 4
EMERGENCY
STOP
1
2 1
R T E
Ground
Hot
Hot
Hot
DISCONNECT
SWITCH
(as recommended)
3-PHASE
220V or 440V
S
23
24
11
12
R9COLVN
Figure 169. Emergency stop.
Figure 167. Door limit
switch.
Door
Limit Switch
Control Panel
Page 84
Electrical Panel
Pages 85–86
Scoring Motor
Page 88
Main Motor
Page 89
Figure 170. Blade
guard limit switch.
Blade Guard
Limit Switch
Figure 168. Power
supply junction box.
-82-
Master Power Switch
Page 90
= For phase
converter wild
wire (if used)
READ ELECTRICAL SAFETY
ON PAGE 80!
Power Supply Junction Box
Model G0764Z (Mfd. Since 05/18)
Component Location Index
Control Panel
Figure 171. Front view of sliding table saw.
Page 84
Master Power
Switch
Page 90
Electrical Panel
Page 85–86
Figure 172. Rear view of sliding table saw.
Model G0764Z (Mfd. Since 05/18)
Emergency Stop
Button
Page 82
Power Supply Junction
Box Page 82
• Main Motor Page 89
• Scoring Motor Page 88
• Door Limit Switch Page 82
• Blade Guard Limit Switch
Page 82
READ ELECTRICAL SAFETY
ON PAGE 80!
-83-
Control Panel Wiring
To Emergency Stop
Page 82
RENY
R9C01VN
1
NC
2
EMERGENCY
STOP
1
KEYON
KE22DS
POWER
LIGHT
To Electrical Panel
Pages 85–86
0
0
X1X2
1
NC
2
SCORING
MOTOR OFF
7
RENY
R9C01VN
5
41
7
RENY
R9C01VN
3
4
SCORING
MOTOR ON
RENY
R9C01VN
1
NCNO NO
2
MAIN MOTOR
OFF
RENY
R9C01VN
3
MAIN
MOTOR ON
4
3
4
5
Control Panel Wiring Photo
Figure 173. Control panel wiring.
-84-
READ ELECTRICAL SAFETY
ON PAGE 80!
Model G0764Z (Mfd. Since 05/18)
220V Electrical Panel Wiring
To Master Power Switch Page 90 To Control Panel Page 84
E
R
T
S
E
Ground
0 1 4
5
7
TBSM-100040
R
1L1
2T1
R S T
LCE
Ground
9
S
R
A1
4T2
E
5L39613NO 3L2
6T3
0 1
4
5
7
12
10
6 5 4 3
15
10
0
0
24
440
220
0
0
24
440
220
T
1
440
0
E
220
7 8 1 2
0
5
T
7
T
5
A2
8
S
R
A1
T
A2
S
R
11
0
A2
A1
5
5
0
SECONDS
TIMER
T
20
25
30
FOTEK
H3-TRD-30S
5
R
0
A1
2A
220V
220V
220V
R
440V
440V
13
A2
4
1L1 5L3 13NO 3L2
1L1 5L3 13NO 3L2
12
1L1 5L3 13NO 3L2
10
S-P11KS
Shihlin
14NO
21NC
S-P21KM
22NC
Shihlin
4T2
6T3
2T1
7
14NO
2T1
4T2
S-P21KY
Shihlin
6T3
21NC
22NC
14NO
21NC
S-P21KD
22NC
Shihlin
13
2T1
4T2
6T3
11
14NO
Set to 3.2
2.5
3.3
H A
U V W
U1
V1
U1
U1
RESET TRIP
4.1
RCA
959798
0
9
W1
V1
W1
V1
W1
E
To Scoring Motor Page 88 To Main Motor
Model G0764Z (Mfd. Since 05/18)
1L1
E
U
Ground
3L2
5
Set to 26
TRIP
28
34
22
TH-P20
0
RESET
RCA
95
96
97
5L3
V
W
Y
Z
Y ZX
X
8
U
V
V
U
W
W
X Y Z
X Y Z
Ground
E
To Main Motor
Page 89
READ ELECTRICAL SAFETY
Thermostat Page 89
-85-
ON PAGE 80!
440V Electrical Panel Wiring
To Master Power Switch Page 90 To Control Panel Page 84
E
R
T
S
E
Ground
0 1 4
5
7
TBSM-100040
R
R
1L1
2T1
R S T
LCE
Ground
9
S
A1
4T2
E
5L39613NO 3L2
6T3
0 1
4
5
7
12
10
6 5 4 3
15
10
0
0
24
440
220
0
0
24
440
220
T
1
440
0
E
220
7 8 1 2
0
8
7
T
5
A2
S
R
5
T
T
A2
A1
S
R
11
0
A2
A1
5
5
0
SECONDS
TIMER
T
20
25
30
FOTEK
H3-TRD-30S
R
5
0
220V
220V
220
A1
R
2A
440V
440
13
A2
4
1L1 5L3 13NO 3L2
1L1 5L3 13NO 3L2
12
1L1 5L3 13NO 3L2
10
S-P11KS
Shihlin
14NO
21NC
S-P21KM
22NC
Shihlin
4T2
6T3
2T1
7
14NO
2T1
4T2
S-P21KY
Shihlin
6T3
21NC
22NC
14NO
21NC
S-P21KD
22NC
Shihlin
13
2T1
4T2
6T3
11
14NO
RESET TRIP
H A
U V W
U1
V1
U1
V1
U1
V1
To Scoring Motor Page 88
-86-
READ ELECTRICAL SAFETY
1.6
2.1
1.3
RCA
959798
0
9
W1
W1
W1
E
ON PAGE 80!
1L1
U V
Ground
E
3L2
5L3
5
X
TRIP
13
18
12
RESET
RCA
TH-P20
95
96
W
97
0
Z
Y
X
Z
Y
8
W
U
V
X
Z
Y
Ground
E
U
W
V
To Main Motor
Page 89
X
Z
Y
To Main Motor
Thermostat Page 89
Model G0764Z (Mfd. Since 05/18)
Electrical Panel Wiring Photo
Model G0764Z (Mfd. Since 05/18)
Figure 174. Electrical panel wiring.
READ ELECTRICAL SAFETY
ON PAGE 80!
-87-
Scoring Motor Wiring
220V 440V
5
8
7
1
2
1 2 3 4
U1
To Electrical Panel
Pages 85–86
5
8
6
9
7
6
9
4
3
W1
V1
5
Ground
1
1 2 3 4
3
2
V1
W1U1
W
4
Ground
7
(Rewired for 440V operation)
Scoring Motor Wiring Photo
-88-
Figure 175. Scoring motor wiring.
READ ELECTRICAL SAFETY
ON PAGE 80!
Model G0764Z (Mfd. Since 05/18)
Main Motor Wiring
220V
440V
5
11
4
10
6
12
3
9
7
U
1
8
V
2
9
W
3
W
U
To Electrical Panel
Pages 85–86
8
5
9
6
12
X
6
10
Y
4
11
Z
Z
V
5
Y
X
Gnd
7
4
U
1
V
2
W
3
W
V
U
12
X
Gnd
10
Y
11
Z
Y
X
(Rewired for 440V operation)
Main Motor Wiring Photo
Model G0764Z (Mfd. Since 05/18)
Figure 176. Main motor wiring.
READ ELECTRICAL SAFETY
-89-
ON PAGE 80!
Master Power Switch Wiring
6
8
2
4
5
7
1
3
KONCAR
07-40U06
R
T
S
R
T
S
Right Side
Left Side
E
To Electrical Panel
Pages 85–86
To Power Supply
Junction Box
Page 82
Master Power Switch Photo
Figure 177. Master power switch right side. Figure 178. Master power switch left side.
-90-
READ ELECTRICAL SAFETY
ON PAGE 80!
Model G0764Z (Mfd. Since 05/18)
SECTION 9: PARTS
We do our best to stock replacement parts when possible, but we cannot guarantee that all parts shown
are available for purchase. Call (800) 523-4777 or visit www.grizzly.com/parts to check for availability.
Body
76
46
17
21
18
54
47
19
22
7
48
20
16-1
20-1
28
24
43
42
20-2
92
91
50
10
34
5
11
6
6
41
51
33
32
31
60
59
58
55
40
36
12
39
38
90
37
35
63
62
64
13
57
56
71
71-7
71-1
71-2
71-3
71-4
71-5
71-5
71-6
4
3
2
1
89
78
89
77
71-8
71-9
71-10
71-11
71-12
71-13
71-14
34
33
32
31
9
8
12
83
13
14
82
79
99
52
44
80
81
45
49
53
16
23
87
86
27
95
65
96
66
67
68
69
30
29
97
72
73
88
84
89
61
75
74
93
Model G0764Z (Mfd. Since 05/18)
-91-
Body Parts List
REF PART # DESCRIPTION REF PART # DESCRIPTION
1 P0764Z0001 FRONT PANEL 55 P0764Z0055 STRAIN RELIEF M20 TYPE-6 ST
2 P0764Z0002 HEX BOLT M10-1.5 X 40 56 P0764Z0056 CONDUIT FITTING PGN21-28 LT STRAIGHT
3 P0764Z0003 HEX NUT M10-1.5 57 P0764Z0057 STRAIN RELIEF PG20 LT STRAIGHT
4 P0764Z0004 MACHINE FRAME 58 P0764Z0058 STRAIN RELIEF PLATE
5 P0764Z0005 CAP SCREW M12-1.75 X 80 59 P0764Z0059 LOCK WASHER 6MM
6 P0764Z0006 FLAT WASHER 12MM 60 P0764Z0060 CAP SCREW M6-1 X 12
7 P0764Z0007 PLATE 62 P0764Z0062 COVER PLATE (RH)
8 P0764Z0008 LOCK WASHER 6MM 63 P0764Z0063 COVER PLATE (LH)
9 P0764Z0009 CAP SCREW M6-1 X 16 64 P0764Z0064 FLANGE SCREW M6-1 X 10
10 P0764Z0010 LOCK NUT M12-1.75 65 P0764Z0065 ELECTRICAL MOUNTING PLATE
11 P0764Z0011 LOCK WASHER 12MM 66 P0764Z0066 ELECTRICAL PANEL
12 P0764Z0012 ATTACHMENT ACCESS PANEL 67 P0764Z0067 FLAT WASHER 6MM
13 P0764Z0013 BUTTON HD CAP SCR M6-1 X 12 68 P0764Z0068 FLANGE NUT M6-1
14 P0764Z0014 FLANGE BOLT M5-.8 X 10 69 P0764Z0069 GASKET 2 X 300 X 7.5MM
16 P0764Z0016 HINGE POST 71 P0764Z0071 TILT INDICATOR ASSEMBLY
16-1 P0764Z0016-1 HINGE 71-1 P0764Z0071-1 FLAT WASHER 5MM
17 P0764Z0017 CAP SCREW M4-.7 X 30 71-2 P0764Z0071-2 PHLP HD SCR M5-.8 X 10
18 P0764Z0018 LOCK WASHER 4MM 71-3 P0764Z0071-3 POINTER
19 P0764Z0019 FLAT WASHER 4MM 71-4 P0764Z0071-4 SUPPORT PLATE
20 P0764Z0020 DOOR LIMIT SWITCH ASSEMBLY 71-5 P0764Z0071-5 FLAT WASHER 6MM
20-1 P0764Z0020-1 LIMIT SWITCH SHINOZAK AZD-S11 71-6 P0764Z0071-6 STEEL WIRE
20-2 P0764Z0020-2 LIMIT SWITCH CORD 20G 2W 16" 71-7 P0764Z0071-7 CAP SCREW M5-.8 X 10
21 P0764Z0021 LOCK WASHER 12MM 71-8 P0764Z0071-8 SET SCREW M5-.8 X 10
22 P0764Z0022 FLAT WASHER 12MM 71-9 P0764Z0071-9 POINTER MOUNT
23 P0764Z0023 PLATE 71-10 P0764Z0071-10 CAP SCREW M6-1 X 12
24 P0764Z0024 FLANGE BOLT M5-.8 X 6 71-11 P0764Z0071-11 LOCK WASHER 6MM
27 P0764Z0027 PANEL PLUG 71-12 P0764Z0071-12 SHAFT
28 P0764Z0028 MASTER POWER SWITCH KONCAR 07-40U06 71-13 P0764Z0071-13 FLAT WASHER 6MM
29 P0764Z0029 ELECTRICAL BOX ACCESS PANEL 71-14 P0764Z0071-14 COMPRESSION SPRING
30 P0764Z0030 FLANGE SCREW M6-1 X 10 72 P0764Z0072 FLANGE SCREW M4-.7 X 20
31 P0764Z0031 TRUNNION 73 P0764Z0073 TILT SCALE
32 P0764Z0032 FLAT WASHER 10MM 74 P0764Z0074 FLAT WASHER 4MM
33 P0764Z0033 LOCK WASHER 10MM 75 P0764Z0075 HEX NUT M4-.7
34 P0764Z0034 CAP SCREW M10-1.5 X 35 76 P0764Z0076 LOCK NUT M5-.8
35 P0764Z0035 TAP SCREW M5 X 20 77 P0764Z0077 SET SCREW M8-1.25 X 30
36 P0764Z0036 E-STOP BUTTON RENY R2-PNR4-1B-R 78 P0764Z0078 SET SCREW M8-1.25 X 40
37 P0764Z0037 SWITCH BOX GASKET 79 P0764Z0079 BLOCK
38 P0764Z0038 SWITCH BOX 80 P0764Z0080 TRUNNION PLATE
39 P0764Z0039 STRAIN RELIEF PG21 LT STRAIGHT 81 P0764Z0081 FLAT WASHER 5MM
40 P0764Z0040 DOOR KNOB ASSEMBLY 82 P0764Z0082 LOCK WASHER 6MM
41 P0764Z0041 DOOR W/HINGE ASSEMBLIES 83 P0764Z0083 CAP SCREW M6-1 X 12
42 P0764Z0042 LOCK WASHER 4MM 84 P0764Z0084 TILT SCALE WINDOW
43 P0764Z0043 PHLP HD SCR M4-.7 X 12 86 P0764Z0086 HEX BOLT M16-2 X 50
44 P0764Z0044 BUTTON HD CAP SCR M6-1 X 20 87 P0764Z0087 HEX NUT M16-2
45 P0764Z0045 JUNCTION BOX 88 P0764Z0088 SET SCREW M8-1.25 X 25
46 P0764Z0046 TERMINAL BAR 4P PB2504 89 P0764Z0089 HEX NUT M8-1.25
47 P0764Z0047 PHLP HD SCR M5-.8 X 8 90 P0764Z0090 CORD CONNECTOR
48 P0764Z0048 BUTTON HD CAP SCR M5-.8 X 12 91 P0764Z0091 TAP SCREW M4 X 16
49 P0764Z0049 STRAIN RELIEF PG20 LT STRAIGHT 92 P0764Z0092 TOOL HANGER
50 P0764Z0050 CAP SCREW M6-1 X 45 93 P0764Z0093 TOOLBOX
51 P0764Z0051 DOOR LATCH 95 P0764Z0095 WRENCH 24 X 27MM OPEN-ENDS
52 P0764Z0052 CAP SCREW M6-1 X 30 96 P0764Z0096 WRENCH 19MM COMBO
53 P0764Z0053 LOCK WASHER 6MM 97 P0764Z0097 WRENCH 30MM COMBO
54 P0764Z0054 HEX BOLT M12-1.75 X 25 99 P0764Z0099 CAP SCREW M5-.8 X 16
61 P0764Z0061 PANEL PLUG
-92-
Model G0764Z (Mfd. Since 05/18)
103
104
108
107
Main Tables
104
107
108
105
101
REF PART # DESCRIPTION REF PART # DESCRIPTION
101 P0764Z0101 SET SCREW M10-1.5 X 20 108 P0764Z0108 LOCK WASHER 10MM
102 P0764Z0102 HEX NUT M10-1.5 109 P0764Z0109 BUTTON HD CAP SCR M6-1 X 12
103 P0764Z0103 EXTENSION TABLE (LH) 110 P0764Z0110 TABLE INSERT
104 P0764Z0104 CAP SCREW M10-1.5 X 25 111 P0764Z0111 STUD-FT M16-2 X 100
105 P0764Z0105 MAIN TABLE 112 P0764Z0112 LOCK NUT M16-2
106 P0764Z0106 EXTENSION TABLE (RH) 113 P0764Z0113 FLAT WASHER 16MM
107 P0764Z0107 FLAT WASHER 10MM 114 P0764Z0114 HEX NUT M16-2
102
109
106
110
111
112
113
114
Model G0764Z (Mfd. Since 05/18)
-93-
Control Panel
201
202
202
203
206
205
203
204
207
209
208
REF PART # DESCRIPTION REF PART # DESCRIPTION
201 P0764Z0201 BUTTON DUST COVER (PLASTIC) 206 P0764Z0206 CONTROL PANEL PLATE
202 P0764Z0202 ON BUTTON RENY R9C01VN 22MM GRN 207 P0764Z0207 LOCK WASHER 6MM
203 P0764Z0203 OFF BUTTON RENY R9C01VN 22MM RED 208 P0764Z0208 CAP SCREW M6-1 X 16
204 P0764Z0204 POWER LAMP KEYON KE22DS 209 P0764Z0209 E-STOP BUTTON RENY R9C01VN 22MM
205 P0764Z0205 CONTROL PANEL LABEL
-94-
Model G0764Z (Mfd. Since 05/18)
308
337
307
306
302-3
Blade Enclosure
302-1
302-2
303
304
305
318
320
319
336
302
302-5
302-4
335
331
329
317
301
330
314
310
309
321
315
316
311
312
322
313
321
334
333
324
325
326
323
REF PART # DESCRIPTION REF PART # DESCRIPTION
301 P0764Z0301 BLADE COVER 317 P0764Z0317 MAGNET
302 P0764Z0302 BLADE COVER LIMIT SWITCH ASSY 318 P0764Z0318 BLADE SHROUD
302-1 P0764Z0302-1 BLADE LIMIT SWITCH SHINOZAK AZD-1112 319 P0764Z0319 CAP SCREW M12-1.75 X 45
302-2 P0764Z0302-2 STRAIN RELIEF PG11 320 P0764Z0320 SLIDE SHAFT
302-3 P0764Z0302-3 PHLP HD SCR M4-.7 X 35 321 P0764Z0321 FLAT WASHER 5MM
302-4 P0764Z0302-4 LIMIT SWITCH BRACKET 322 P0764Z0322 CAP SCREW M5-.8 X 16
302-5 P0764Z0302-5 LIMIT SWITCH CORD 20G 2W 9FT 323 P0764Z0323 LOCK WASHER 5MM
303 P0764Z0303 CAP SCREW M5-.8 X 12 324 P0764Z0324 HEX NUT M5-.8
304 P0764Z0304 LOCK WASHER 5MM 325 P0764Z0325 CAP SCREW M6-1 X 10
305 P0764Z0305 FLAT WASHER 5MM 326 P0764Z0326 LOCK WASHER 6MM
306 P0764Z0306 CUSHION STRIP 327 P0764Z0327 FLAT WASHER 6MM
307 P0764Z0307 FLANGE BOLT M8-1.25 X 12 328 P0764Z0328 BLADE SHROUD L-BRACKET
308 P0764Z0308 DUST PORT 5" 329 P0764Z0329 LOCK WASHER 12MM
309 P0764Z0309 BLADE COVER HINGE 330 P0764Z0330 LOCK NUT M6-1
310 P0764Z0310 FLAT WASHER 5MM 331 P0764Z0331 CAP SCREW M6-1 X 25
311 P0764Z0311 LOCK WASHER 5MM 333 P0764Z0333 HEX BOLT M8-1.25 X 75
312 P0764Z0312 CAP SCREW M5-.8 X 8 334 P0764Z0334 HEX NUT M8-1.25
313 P0764Z0313 L-BRACKET 335 P0764Z0335 SET SCREW M8-1.25 X 50
314 P0764Z0314 FLAT WASHER 5MM 336 P0764Z0336 HEX NUT M8-1.25
315 P0764Z0315 LOCK WASHER 5MM 337 P0764Z0337 DUST GASKET
316 P0764Z0316 CAP SCREW M5-.8 X 10
328
327
Model G0764Z (Mfd. Since 05/18)
-95-
Main Motor
409-3
401
402
409-1
409-4
403
409-2
409-5
405
404
406
414
404
407
415
408
418
419
409
421
422
429
423
427
428
427
430
425
424
426
413
412
420
411
410
REF PART # DESCRIPTION REF PART # DESCRIPTION
401 P0764Z0401 FLANGE CAP SCREW M10-1.5 X 20 413 P0764Z0413 SHAFT
402 P0764Z0402 PULLEY FLAT WASHER 10MM 414 P0764Z0414 BUTTON HD CAP SCR M8-1.25 X 25
403 P0764Z0403 MOTOR PULLEY 415 P0764Z0415 LOCK WASHER 8MM
404 P0764Z0404 THRUST WASHER BEARING 32 X 54 X 1.5MM 418 P0764Z0418 SET SCREW M8-1.25 X 20
405 P0764Z0405 MAIN MOTOR PLATE 419 P0764Z0419 KEY 8 X 8 X 35
406 P0764Z0406 MAIN MOTOR SHAFT 420 P0764Z0420 COLLAR
407 P0764Z0407 SPACER 421 P0764Z0421 CAP SCREW M6-1 X 12
408 P0764Z0408 LOCK NUT M30-3.5 422 P0764Z0422 HEX NUT M10-1.5
409 P0764Z0409 MAIN MOTOR 10HP 220V/440V 3-PH 423 P0764Z0423 ADJUSTING LEVER
409-1 P0764Z0409-1 MOTOR FAN COVER 424 P0764Z0424 FLAT WASHER 10MM
409-2 P0764Z0409-2 MOTOR FAN 425 P0764Z0425 HEX BOLT M10-1.5 X 35
409-3 P0764Z0409-3 MOTOR JUNCTION BOX 426 P0764Z0426 ADJUSTING SHAFT
409-4 P0764Z0409-4 BALL BEARING 6206ZZ (FRONT) 427 P0764Z0427 LOCK NUT M10-1.5
409-5 P0764Z0409-5 BALL BEARING 6205ZZ (REAR) 428 P0764Z0428 EYE BOLT M10-1.5 X 60
410 P0764Z0410 CAP SCREW M6-1 X 20 429 P0764Z0429 SHAFT
411 P0764Z0411 GAS SPRING 25KG, 60L 430 P0764Z0430 TEMPERATURE CORD
412 P0764Z0412 HEX NUT M6-1
-96-
Model G0764Z (Mfd. Since 05/18)
Main Blade Arbor
RIVING KNIFE 350-400
531
532
537
533
528
519
530
518
520
534
527
525
526
523
524
536
522
521
501
503
505
504
502
506
508
529
507
512
516
517
514
515
535
513
509
REF PART # DESCRIPTION REF PART # DESCRIPTION
501 P0764Z0501 ARBOR NUT WRENCH 36MM 521 P0764Z0521 STANDOFF HEX FF M6-1
502 P0764Z0502 HEX NUT M12-1.75 522 P0764Z0522 LOCK NUT M6-1
503 P0764Z0503 FENDER WASHER 12MM 523 P0764Z0523 WAVE WASHER 47 X 60MM
504 P0764Z0504 SET SCREW M5-.8 X 10 524 P0764Z0524 BALL BEARING 6007LLB
505 P0764Z0505 FIX BLOCK 525 P0764Z0525 MAIN BLADE PULLEY
506 P0764Z0506 FIX BLOCK BRACKET 526 P0764Z0526 PULLEY FLAT WASHER 10MM
507 P0764Z0507 CARRIAGE BOLT M12-1.75 X 40 527 P0764Z0527 CAP SCREW M10-1.5 X 25
508 P0764Z0508 FLAT HD SCR M6-1 X 16 528 P0764Z0528 FLANGE BOLT M6-1 X 12
509 P0764Z0509 ARBOR NUT M24-3 529 P0764Z0529 LOCK WASHER 6MM
510 P0764Z0510 MAIN BLADE FLANGE 530 P0764Z0530 CAP SCREW M6-1 X 30
511 P0764Z0511 MAIN BLADE ARBOR 25.4MM 531 P0764Z0531 BALL BEARING LM30UU
512 P0764Z0512 KEY 10 X 8 X 40 532 P0764Z0532 LEVER SHAFT M8-1.25 X 15, 12 X 166
513 P0764Z0513 HEX BOLT M6-1 X 20 533 P0764Z0533 BALL KNOB M8-1.25
514 P0764Z0514 LOCK WASHER 6MM 534 P0764Z0534 V-BELT 5V X 31.5 RIBBED
515 P0764Z0515 ARBOR PLATE 535 P0764Z0535 PUSH STICK
516 P0764Z0516 SPACER 536 P0764Z0536 SET SCREW M6-1 X 25
517 P0764Z0517 BUSHING 537 P0764Z0537 ZERK FITTING 1/4-28
518 P0764Z0518 BEARING HOUSING 538 P0764Z0538
519 P0764Z0519 ARBOR SUPPORT BRACKET 539 P0764Z0539
510
511
RIVING KNIFE 300-350
Model G0764Z (Mfd. Since 05/18)
-97-
Blade Tilt System
614
613
606-6
606-4
606-5
606-2
606-8
609
610
606-7
612
611
602
603
604-1
604
606-1
605
607
606
606-3
608
601
REF PART # DESCRIPTION REF PART # DESCRIPTION
601 P0764Z0601 LOCK KNOB M10-1.5 606-6 P0764Z0606-6 UNIVERSAL JOINT
602 P0764Z0602 LOCK WASHER 10MM 606-7 P0764Z0606-7 SET SCREW M6-1 X 6
603 P0764Z0603 FENDER WASHER 10MM 606-8 P0764Z0606-8 ROLL PIN 6 X 26
604 P0764Z0604 HANDWHEEL TYPE-12 203D X 10B-K X M6-1 607 P0764Z0607 SPACER
604-1 P0764Z0604-1 FOLDING HANDLE 110L, M6-1 X 12 608 P0764Z0608 FLAT WASHER 8MM
605 P0764Z0605 KEY 7 X 7 X 20 609 P0764Z0609 CAP SCREW M8-1.25 X 20
606 P0764Z0606 TILT HANDWHEEL SHAFT ASSY 610 P0764Z0610 LOCK WASHER 8MM
606-1 P0764Z0606-1 HANDWHEEL SHAFT 611 P0764Z0611 SET SCREW M6-1 X 6
606-2 P0764Z0606-2 BALL BEARING 6902LLU 612 P0764Z0612 LOCK COLLAR
606-3 P0764Z0606-3 SHAFT BRACKET 613 P0764Z0613 TILT LEADSCREW
606-4 P0764Z0606-4 EXT RETAINING RING 28MM 614 P0764Z0614 TILT LEADSCREW NUT
606-5 P0764Z0606-5 THRUST BEARING NTB1528+AS
612
611
-98-
Model G0764Z (Mfd. Since 05/18)
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