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Operation and Maintenance Instructi ons
ZX-Series Large Bore Lathes
Models GH-1440ZX
GH-1640ZX/1660ZX
GH-1860ZX/1880ZX
GH-2280ZX
* For ZX-Series Lathes Parts List & Electrical Diagrams, see document M-321910-1
JET
427 New Sanford Road
LaVergne, TN 37086 Part No. M-321910
Ph.: 800-274-6848 Revision J2 08/2018
www.jettools.com Copyright © 2017 JET
Model GH-1440ZX shown
1
1.0 IMPORTANT SAFETY
INSTRUCTIONS
1. Read and understand the entire owner’s manual
before attempting assembly or operation.
2. Read and understand the warnings posted on the
machine and in this manual. Failure to comply with
all of these warnings may cause serious injury.
3. Replace the warning labels if they become
obscured or removed.
4. This lathe is designed and intended for use by
properly trained and experienced personnel only. If
you are not familiar with the proper and safe
operation of a lathe, do not use until proper training
and knowledge have been obtained.
5. Do not use this lathe for other than its intended
use. If used for other purposes, JET disclaims any
real or implied warranty and holds itself harmless
from any injury that may result from that use.
6. Always wear approved safety glasses/face shields
while using this lathe. Everyday eyeglasses only
have impact resistant lenses; they are not safety
glasses.
7. Before operating this lathe, remove tie, rings,
watches and other jewelry, and roll sleeves up past
the elbows. Remove all loose clothing and confine
long hair. Non-slip footwear or anti-skid floor strips
are recommended. Do not wear gloves.
8. Wear ear protectors (plugs or muffs) during
extended periods of operation.
9. Do not operate this machine while tired or under
the influence of drugs, alcohol or any medication.
10. Make certain the switch is in the OFF position
before connecting the machine to the power
supply.
11. Make certain the machine is properly grounded.
12. Make all machine adjustments or maintenance with
the machine unplugged from the power source.
13. Remove adjusting keys and wrenches. Form a
habit of checking to see that keys and adjusting
wrenches are removed from the machine before
turning it on.
14. Keep safety guards in place at all times when the
machine is in use. If removed for maintenance
purposes, use extreme caution and replace the
guards immediately.
15. Check damaged parts. Before further use of the
machine, a guard or other part that is damaged
should be carefully checked to determine that it
will operate properly and perform its intended
function. Check for alignment of moving parts,
binding of moving parts, breakage of parts,
mounting and any other conditions that may
affect its operation. A guard or other part that is
damaged should be properly repaired or
replaced.
16. Provide for adequate space surrounding work
area and non-glare, overhead lighting.
17. Keep the floor around the machine clean and
free of scrap material, oil and grease.
18. Keep visitors a safe distance from the work
area. Keep children away.
19. Make your workshop child proof with padlocks,
master switches or by removing starter keys.
20. Give your work undivided attention. Looking
around, carrying on a conversation and “horseplay” are careless acts that can result in serious
injury.
21. Maintain a balanced stance at all times so that
you do not fall or lean against moving parts. Do
not overreach or use excessive force to perform
any machine operation. Never force the cutting
action.
22. Use the right tool at the correct speed and feed
rate. Do not force a tool or attachment to do a
job for which it was not designed. The right tool
will do the job better and safer.
23. Use recommended accessories; improper
accessories may be hazardous.
24. Maintain tools with care. Keep cutting tools
sharp and clean for the best and safest
performance. Follow instructions for lubricating
and changing accessories.
25. Do not attempt to adjust or remove tools during
operation.
26. Turn off the machine and disconnect from
power before cleaning. Use a brush to remove
shavings or debris — do not use your hands.
27. Do not stand on the machine. Serious injury
could occur if the machine tips over.
28. Never leave the machine running unattended.
Turn the power off and do not leave the
machine until it comes to a complete stop.
29. Remove loose items and unnecessary work
pieces from the area before starting the
machine.
2
WARNING: This product can expose you to
chemicals including lead and cadmium which are
known to the State of California to cause cancer
and phthalates which are known to the State of
California to cause birth defects or other
reproductive harm. For more information go to
http://www.p65warnings. ca.gov.
Familiarize yourself with the following safety
notices used in this manual:
This means that if precautions are
not heeded, it may result in minor injury and/or
possible machine damage.
This means that if precautions are
not heeded, it may result in serious injury or possibly
even death.
WARNING: Some dust, fumes and gases
created by power sanding, sawing, grinding,
drilling, welding and other construction activities
contain chemicals known to the State of California
to cause cancer and birth defects or other
reproductive harm. Some examples of these
chemicals are:
• lead from lead based paint
• crystalline silica from bricks, cement and other
masonry products
• arsenic and chromium from chemically treated
lumber
Your risk of exposure varies, depending on how
often you do this type of work. To reduce your
exposure to these chemicals, work in a wellventilated area and work with approved safety
equipment, such as dust masks that are
specifically designed to filter out microscopic
particles. For more information go to
http://www.p65warnings.ca.gov/ and http://www.
p65warnings.ca.gov/wood.
2.0 Dimensions and mounting hole centers
Figure 1
3
3.0 Warranty and service
JET warrants every product it sells against manufacturers’ defects. If one of our tools needs service or repair, please
contact Technical Service by calling 1-800-274-6846, 8AM to 5PM CST, Monday through Friday.
Warranty Period
The general warranty lasts for the time period specified in the literature included with your product or on the official
JET branded website.
• JET products carry a limited warranty which varies in duration based upon the product. (See chart below)
• Accessories carry a limited warranty of one year from the date of receipt.
• Consumable items are defined as expendable parts or accessories expected to become inoperable within a
reasonable amount of use and are covered by a 90 day limited warranty against manufacturer’s defects.
Who is Covered
This warranty covers only the initial purchaser of the product from the date of delivery.
What is Covered
This warranty covers any defects in workmanship or materials subject to the limitations stated below. This warranty
does not cover failures due directly or indirectly to misuse, abuse, negligence or accidents, normal wear-and-tear,
improper repair, alterations or lack of maintenance.
Warranty Limitations
Woodworking products with a Five Year Warranty that are used for commercial or industrial purposes default to a
Two Year Warranty. Please contact Technical Service at 1-800-274-6846 for further clarification.
How to Get Technical Support
Please contact Technical Service by calling 1-800-274-6846. Please note that you will be asked to provide proof
of initial purchase when calling. If a product requires further inspection, the Technical Service representative will
explain and assist with any additional action needed. JET has Authorized Service Centers located throughout the
United States. For the name of an Authorized Service Center in your area call 1-800-274-6846 or use the Service
Center Locator on the JET website.
More Information
JET is constantly adding new products. For complete, up-to-date product information, check with your local distributor
or visit the JET website.
How State Law Applies
This warranty gives you specific legal rights, subject to applicable state law.
Limitations on This Warranty
JET LIMITS ALL IMPLIED WARRANTIES TO THE PERIOD OF THE LIMITED WARRANTY FOR EACH PRODUCT.
EXCEPT AS STATED HEREIN, ANY IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE ARE EXCLUDED. SOME STATES DO NOT ALLOW LIMITATIONS ON HOW LONG AN
IMPLIED WARRANTY LASTS, SO THE ABOVE LIMITATION MAY NOT APPLY TO YOU.
JET SHALL IN NO EVENT BE LIABLE FOR DEATH, INJURIES TO PERSONS OR PROPERTY, OR FOR
INCIDENTAL, CONTINGENT, SPECIAL, OR CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF OUR
PRODUCTS. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR
CONSEQUENTIAL DAMAGES, SO THE ABOVE LIMITATION OR EXCLUSION MAY NOT APPLY TO YOU.
JET sells through distributors only. The specifications listed in JET printed materials and on official JET website are
given as general information and are not binding. JET reserves the right to effect at any time, without prior notice,
those alterations to parts, fittings, and accessory equipment which they may deem necessary for any reason
whatsoever. JET
Product Listing with Warranty Period
90 Days – Parts; Consumable items
1 Year – Motors; Machine Accessories
2 Year – Metalworking Machinery; Electric Hoists, Electric Hoist Accessories; Woodworking Machinery used
for industrial or commercial purposes
5 Year – Woodworking Machinery
Limited Lifetime – JET Parallel clamps; VOLT Series Electric Hoists; Manual Hoists; Manual Hoist
Accessories; Shop Tools; Warehouse & Dock products; Hand Tools; Air Tools
NOTE: JET is a division of JPW Industries, Inc. References in this document to JET also apply to JPW Industries,
Inc., or any of its successors in interest to the JET brand.
®
branded products are not sold in Canada by JPW Industries, Inc.
4
4.0 Table of Contents
1.0 IMPORTANT SAFETY INSTRUCTIONS ....................................................................................................... 2
2.0 Dimensions and mounting hole centers ......................................................................................................... 3
3.0 Warranty and service ..................................................................................................................................... 4
4.0 Table of Contents ........................................................................................................................................... 5
5.0 Specifications ................................................................................................................................................. 6
5.1 Specifications: 14-inch lathe ....................................................................................................................... 6
5.2 Specifications: 16-inch lathe ....................................................................................................................... 7
5.3 Specifications: 18-inch lathe ....................................................................................................................... 8
5.4 Specifications: 22-inch lathe ....................................................................................................................... 9
6.0 General Description and Nomenclature ....................................................................................................... 10
7.0 Unpacking .................................................................................................................................................... 12
7.1 Contents of shipping container ................................................................................................................. 12
8.0 Installation .................................................................................................................................................... 13
8.1 Leveling the lathe ..................................................................................................................................... 13
8.2 Completing installation ............................................................................................................................. 13
8.3 Chuck preparation (three-jaw) .................................................................................................................. 14
8.4 Break-in period ......................................................................................................................................... 14
9.0 Maintenance/Lubrication
10.0 Coolant preparation .................................................................................................................................... 16
11.0 Electrical connections ................................................................................................................................ 16
11.1 Conversion to 460 volt operation
12.0 Controls ...................................................................................................................................................... 17
13.0 Operation ................................................................................................................................................... 19
13.1 Tool setup ............................................................................................................................................... 20
13.2 Feed and thread selection ...................................................................................................................... 20
13.3 Thread cutting ........................................................................................................................................ 20
14.0 Adjustments ............................................................................................................................................... 20
14.1 Chuck jaw reversal ................................................................................................................................. 20
14.2 Gib adjustments ..................................................................................................................................... 21
14.3 Tailstock off-set ...................................................................................................................................... 21
14.4 Removing gap bridge ............................................................................................................................. 21
14.5 Installing gap bridge ............................................................................................................................... 22
14.6 Belt replacement/adjustment .................................................................................................................. 22
14.7 Aligning tailstock to headstock ............................................................................................................... 22
14.8 Cross slide nut adjustment ..................................................................................................................... 22
14.9 Shear pin replacement ........................................................................................................................... 22
14.10 Steady rest adjustment ......................................................................................................................... 22
14.11 Follow rest adjustment ......................................................................................................................... 23
14.12 Carriage stops ...................................................................................................................................... 23
15.0 Lubrication schedule and general maintenance ......................................................................................... 24
16.0 Reference tables ........................................................................................................................................ 25
16.1 Inch Lead And Feed ............................................................................................................................... 25
............................................................................................................................... 15
............................................................................................................. 17
5
Specifications were current at the time this manual was published, but because of our policy of continuous
improvement, JET reserves the right to change specifications at any time and without prior notice, without
incurring obligations.
5.0 Specifications
5.1 Specifications: 14-inch lathe
Model Number ...................................................................................................................................... GH-1440ZX
Stock Number ............................................................................................................................................. 321910
Capacities:
Swing over Bed (in.) ............................................................................................................................................ 14
Swing over Cross Slide (in.) ............................................................................................................................ 7-5/8
Swing Through Gap (in.) ............................................................................................................................... 23-5/8
Length of Gap (in.) .............................................................................................................................................. 12
Distance between Centers (in.) ........................................................................................................................... 40
Headstock:
Spindle Bore (in.) ............................................................................................................................................ 3-1/8
Spindle Mount ................................................................................................................................................. D1-8
Spindle Taper with Sleeve ................................................................................................................... MT-7(MT-5)
Number of Spindle Speeds ................................................................................................................................. 12
Range of Spindle Speeds (RPM) ........................................................................................................... 42 to 1800
Gearbox:
Number of Longitudinal and Cross Feeds ...................................................................................................... 46/31
Range of Longitudinal Feeds (in./rev.) ......................................................................................... 0.0015 to 0.0900
Range of Cross Feeds (in./rev.) ................................................................................................... 0.0010 to 0.0360
Number of Inch Threads ..................................................................................................................................... 61
Range of Inch Threads (in.) ................................................................................................................... 1-5/8 to 72
Number of Metric Threads .................................................................................................................................. 24
Range of Metric Threads (mm) ............................................................................................................ 0.50 to 20.0
Number of Diametral Threads ............................................................................................................................. 45
Range of Diametral Threads ............................................................................................................. 3-1/4 – 96DP
Number of Module Threads ............................................................................................................................... 20
Range of Module Threads .................................................................................................................. 0.25 – 10MP
Compound and Carriage:
Maximum Compound Slide Travel (in.) ........................................................................................................... 5-1/8
Maximum Cross Slide Travel (in.) ......................................................................................................................... 9
Carriage Travel (in.) ............................................................................................................................................ 36
Tailstock:
Tailstock Spindle Travel (in.) ................................................................................................................................. 6
Tailstock Taper ................................................................................................................................................ MT-4
Steady Rest Capacity (in.) .......................................................................................................................... 3/8 to 7
Follow Rest Capacity (in.) ..................................................................................................................... 1/2 to 3-1/2
Width of Bed (in.) .......................................................................................................................................... 13-1/8
Overall Dimensions (in.)(LxWxH) ................................................................................ 91-5/16 x 41-5/16 x 50-5/16
Motor ..................................................................................................... 7-1/2HP, 3PH, 230/460V (prewired 230V)
Approximate Net Weight (lbs.) ........................................................................................................................ 4667
6
5.2 Specifications: 16-inch lathe
Model Number ............................................................................... GH-1640ZX................................... GH-1660ZX
Stock Number .......................................................................................321930.......................................... 321940
Capacities:
Swing over Bed (in.) ......................................................................................16.................................................. 16
Swing over Cross Slide (in.) ..........................................................................10.................................................. 10
Swing Through Gap (in.) ...............................................................................25.................................................. 25
Length of Gap (in.) ........................................................................................12.................................................. 12
Distance between Centers (in.) .....................................................................40.................................................. 60
Headstock:
Spindle Bore (in.) ..................................................................................... 3-1/8.............................................. 3-1/8
Spindle Mount ........................................................................................... D1-8.............................................. D1-8
Spindle Taper with Sleeve ............................................................ MT-7(MT-5)................................... MT-7(MT-5)
Number of Spindle Speeds ...........................................................................12.................................................. 12
Range of Spindle Speeds (RPM) .....................................................25 to 1800..................................... 25 to 1800
Gearbox:
Number of Longitudinal and Cross Feeds ................................................46/31............................................. 46/31
Range of Longitudinal Feeds (in./rev.) ...................................0.0015 to 0.0900........................... 0.0015 to 0.0900
Range of Cross Feeds (in./rev.) .............................................0.0010 to 0.0360........................... 0.0010 to 0.0360
Number of Inch Threads ...............................................................................61.................................................. 61
Range of Inch Threads (in.) ............................................................ 1-5/8 to 72..................................... 1-5/8 to 72
Number of Metric Threads ............................................................................24.................................................. 24
Range of Metric Threads (mm) ......................................................0.50 to 20.0................................... 0.50 to 20.0
Number of Diametral Threads .......................................................................45.................................................. 45
Range of Diametral Threads ....................................................... 3-1/4 – 96DP................................. 3-1/4 – 96DP
Number of Module Threads ..........................................................................20.................................................. 20
Range of Module Threads ............................................................ 0.25 – 10MP .................................. 0.25 – 10MP
Compound and Carriage:
Maximum Compound Slide Travel (in.) .................................................... 5-1/8.............................................. 5-1/8
Maximum Cross Slide Travel (in.) ...................................................................9.................................................... 9
Carriage Travel (in.) ......................................................................................36.................................................. 55
Tailstock:
Tailstock Spindle Travel (in.) ...........................................................................6.................................................... 6
Tailstock Taper ......................................................................................... MT-4.............................................. MT-4
Steady Rest Capacity (in.) ....................................................................3/8 to 7.......................................... 3/8 to 7
Follow Rest Capacity (in.) .............................................................. 1/2 to 3-1/2.................................... 1/2 to 3-1/2
Width of Bed (in.) ................................................................................... 13-1/8............................................ 13-1/8
Overall Dimensions (in.)(LxWxH) .......................... 91-5/16 x 41-5/16 x 50-5/8.......... 111-3/8 x 41-5/16 x 50-5/8
Motor ........................................................................ 7-1/2HP, 3Ph, 230/460V*.............. 7-1/2HP, 3Ph, 230/460V*
Approximate Net Weight (lbs.) ..................................................................4689.............................................. 5218
*pre-wired 230V
7
5.3 Specifications: 18-inch lathe
Model Number ............................................................................... GH-1860ZX................................... GH-1880ZX
Stock Number .......................................................................................321960.......................................... 321970
Capacities:
Swing over Bed (in.) ......................................................................................18.................................................. 18
Swing over Cross Slide (in.) ..........................................................................11.................................................. 11
Swing Through Gap (in.) ...............................................................................27.................................................. 27
Length of Gap (in.) ........................................................................................12.................................................. 12
Distance between Centers (in.) .....................................................................60.................................................. 80
Headstock:
Spindle Bore (in.) ..................................................................................... 3-1/8.............................................. 3-1/8
Spindle Mount ........................................................................................... D1-8.............................................. D1-8
Spindle Taper with Sleeve ............................................................ MT-7(MT-5)................................... MT-7(MT-5)
Number of Spindle Speeds ...........................................................................12.................................................. 12
Range of Spindle Speeds (RPM) .....................................................25 to 1800..................................... 25 to 1800
Gearbox:
Number of Longitudinal and Cross Feeds ................................................46/31............................................. 46/31
Range of Longitudinal Feeds (in./rev.) ...................................0.0015 to 0.0900........................... 0.0015 to 0.0900
Range of Cross Feeds (in./rev.) .............................................0.0010 to 0.0360........................... 0.0010 to 0.0360
Number of Inch Threads ...............................................................................61.................................................. 61
Range of Inch Threads (in.) ............................................................ 1-5/8 to 72..................................... 1-5/8 to 72
Number of Metric Threads ............................................................................24.................................................. 24
Range of Metric Threads (mm) ......................................................0.50 to 20.0................................... 0.50 to 20.0
Number of Diametral Threads .......................................................................45.................................................. 45
Range of Diametral Threads ....................................................... 3-1/4 – 96DP................................. 3-1/4 – 96DP
Number of Module Threads ..........................................................................20.................................................. 20
Range of Module Threads ............................................................ 0.25 – 10MP .................................. 0.25 – 10MP
Compound and Carriage:
Maximum Compound Slide Travel (in.) .................................................... 5-1/8.............................................. 5-1/8
Maximum Cross Slide Travel (in.) ...................................................................9.................................................... 9
Carriage Travel (in.) ......................................................................................55.................................................. 74
Tailstock:
Tailstock Spindle Travel (in.) ...........................................................................6.................................................... 6
Tailstock Taper ......................................................................................... MT-5.............................................. MT-5
Steady Rest Capacity (in.) ............................................................. 3/8 to 7-3/4.................................... 3/8 to 7-3/4
Follow Rest Capacity (in.) .............................................................. 1/2 to 3-1/2.................................... 1/2 to 3-1/2
Width of Bed (in.) ................................................................................... 13-1/8............................................ 13-1/8
Overall Dimensions (in.)(LxWxH) ........................ 111-3/8 x 41-5/16 x 51-7/8......... 130-5/8 x 41-5/16 x 51-7/8
Motor ........................................................................7-1/2HP, 3PH, 230/460V*............. 7-1/2HP, 3PH, 230/460V*
Approximate Net Weight (lbs.) ..................................................................5320.............................................. 5949
*pre-wired 230V
8
5.4 Specifications: 22-inch lathe
Model Number ...................................................................................................................................... GH-2280ZX
Stock Number ............................................................................................................................................. 321980
Capacities:
Swing over Bed (in.) ............................................................................................................................................ 22
Swing over Cross Slide (in.) ................................................................................................................................ 13
Swing Through Gap (in.) ..................................................................................................................................... 29
Length of Gap (in.) .............................................................................................................................................. 12
Distance between Centers (in.) ........................................................................................................................... 80
Headstock:
Spindle Bore (in.) ............................................................................................................................................ 3-1/8
Spindle Mount ................................................................................................................................................. D1-8
Spindle Taper with Sleeve ................................................................................................................... MT-7(MT-5)
Number of Spindle Speeds ................................................................................................................................. 12
Range of Spindle Speeds (RPM) ........................................................................................................... 25 to 1800
Gearbox:
Number of Longitudinal and Cross Feeds ...................................................................................................... 46/31
Range of Longitudinal Feeds (in./rev.) ......................................................................................... 0.0015 to 0.0900
Range of Cross Feeds (in./rev.) ................................................................................................... 0.0010 to 0.0360
Number of Inch Threads ..................................................................................................................................... 61
Range of Inch Threads (in.) ................................................................................................................... 1-5/8 to 72
Number of Metric Threads .................................................................................................................................. 24
Range of Metric Threads (mm) ............................................................................................................. 0.50to 20.0
Number of Diametral Threads ............................................................................................................................. 45
Range of Diametral Threads ............................................................................................................. 3-1/4 – 96DP
Number of Module Threads ............................................................................................................................... 20
Range of Module Threads .................................................................................................................. 0.25 – 10MP
Compound and Carriage:
Maximum Compound Slide Travel (in.) ........................................................................................................... 5-1/8
Maximum Cross Slide Travel (in.) ....................................................................................................................... 12
Carriage Travel (in.) ............................................................................................................................................ 74
Tailstock:
Tailstock Spindle Travel (in.) ................................................................................................................................. 6
Tailstock Taper ................................................................................................................................................ MT-5
Steady Rest Capacity (in.) .................................................................................................................... 3/8 to 7-3/4
Follow Rest Capacity (in.) ..................................................................................................................... 1/2 to 3-1/2
Width of Bed (in.) .......................................................................................................................................... 13-1/8
Overall Dimensions (in.)(LxWxH) ............................................................................. 130-5/8 x 42-5/16 x 53-5/16
Motor ..................................................................................................... 10HP, 3PH, 230V/460V (pre-wired 230V)
Approximate Net Weight (lbs.) ........................................................................................................................ 6421
9
6.0 General Description a nd Nomenclature
Figure 2 – General Description of ZX Lathes
Bed and stand
The lathe bed (A) is made of cast iron with low
vibration and high rigidity. Two precision-ground vslideways (B), reinforced by supersonic frequency
hardening, offer precision guidance for the
carriage. The main drive motor is mounted in the
stand (C) below the gearbox.
Headstock
The headstock (D) is cast from high grade, low
vibration cast iron. In the head, the spindle is
mounted in precision taper roller bearings. See
section 12.0 for detailed explanation of controls.
The electrical box is mounted to the rear of the
headstock.
A 3-Jaw scroll chuck (E) is included.
Feed gearbox
The gearbox (F) is made from high quality cast iron
and is mounted to the left side of the machine bed.
Carriage
The carriage assembly is composed of the Apron,
the Saddle, the Cross Slide, the Compound Rest,
and the four-way Tool Post.
Apron (G). Quick travel of the Apron for
positioning is accomplished by means of a bedmounted rack and pinion, operated manually by
the handwheel on the front of the apron, or
automatically by the feed direction handle.
Saddle (H). The saddle is made from high
quality cast iron and rides along the v-ways.
Cross Slide (
the saddle and used for cross feed operations. It
moves on a dovetailed slide which can be
adjusted for play by means of the gibs.
Compound Rest (J). The compound rest, which
is T-slotted and mounted on the cross slide, can
be rotated 360°, allowing tapers to be turned.
The compound rest travels on dovetailed ways,
with adjustable gibs.
I). The cross-slide is mounted on
10
Four-Way Tool Post (K). The tool post is a
turret design, mounted to the compound rest. It
holds up to four tools simultaneously, and
includes an indexing function. (Always use a
minimum of two clamping screws when installing
a cutting tool.)
Tailstock
The tailstock (L) slides on a v-way and can be
locked at any location by a clamping lever. The
tailstock has a heavy duty quill with a No. 4 Morse
Taper or No. 5 Morse Taper (18” and 22” models)
and etched graduation scale. The tailstock can be
offset for taper cutting.
Leadscrew and feed rod
The leadscrew (M) and feed rod (N) are mounted
on the front of the machine bed. They are
connected to the gearbox at the left and are
supported by bearings on both ends. Both are
equipped with shear pins.
Spindle direction control axle (O)
Spindle rotation can be reversed by simply moving
the control lever (P) mounted at the right of the
carriage. (Allow spindle to come to a stop before
reversing.)
Travel setting rod (Q)
The stops can be moved and tightened into
position at any point along the rod, to limit travel of
the carriage.
Thread chaser (R)
Simplifies the process of setting leadscrew/carriage
positions in relation to the workpiece, by indicating
the point on the leadscrew where the half nut can
be reengaged to continue threading.
Steady rest (S)
The steady rest serves as a support for s hafts on
the free tailstock end. The steady rest is mounted
on the bedway and secured from below with a bolt,
nut and locking plate.
Follow rest (T)
The traveling follow rest is mounted to the saddle,
and thus follows the movement of the turning tool.
Only two fingers are required as the place of the
third is taken by the turning tool. The follow rest is
used for turning operations on long, slender work
pieces. It prevents the work piece from flexing
under the pressure of the cutting tool.
Work lamp (U)
Adjustable halogen lamp with independent on/off
switch.
Coolant nozzle (V)
Fully adjustable gooseneck; flow is regulated
through a valve lever at its base.
Foot brake (W)
Activates a braking strap at the motor for
emergency stopping of all lathe functions.
Chuck guard (X)
Hinged, with upper and front windows.
Micro stop (Y)
Used for manual carriage operation.
11
7.0 Unpacking
Open shipping container and check for shipping
damage. Report any damage immediately to your
distributor and shipping agent. Do not discard any
shipping material until the Lathe is assembled and
running properly.
Compare the contents of your container with the
following parts list to make sure all parts are intact.
Missing parts, if any, should be reported to your
distributor. Read the instruction manual thoroughly
for assembly, maintenance and safety instructions.
7.1 Contents of shipping container
1 Lathe
1 Steady Rest (mounted on Lathe)
1 Follow Rest (mounted on Lathe)
1 10” Three Jaw Chuck (mounted on Lathe)
1 Face Plate (12” Face Plate for 14” & 16”
lathes; 16” Face Plate for 18” & 22” lathes)
1 Tool Box containing:
1 Open End Wrench Set
1 Hex Wrench Set
1 Morse Reduction Sleeve
1 Center
6 Leveling Bolts with Hex Nuts
2 Hex Screws with Washers
6 Leveling Pads
1 Flat Blade Screwdriver
1 Cross Point Screwdriver
1 Chuck Wrench
1 Cam Wrench
1 Adjustable Wrench
1 Round Nut Wrench
1 Oil Gun
1 Cross Feed Handle (not shown)
2 Shear Pins
1 Paint Can
4 Tool Holder
3 Sliding Sleeve(for 14” lathes )
1 Indicate Bulb
1 Key for Cam Locks
1 Gear
1 Gap Bridge Pin Driver
1 Live Center (MT4 for 14” & 16” lathes;
MT5 for 18” & 22” lathes)
1 Operating Instructions Manual
1 Parts List Manual
1 Test Record
1 Warranty Card
Figure 3 - Contents of tool box
12
Read and understand the
entire contents of this
manual before attempting set-up or operation!
Failure to comply may cause serious injury.
8.0 Installation
1. Finish removing all crate material from around
the lathe.
2. Unbolt lathe from shipping pallet.
3. Choose a location for the lathe that is dry and
has sufficient illumination (consult OSHA or
ANSI standards for recommended lighting
levels in workshop environments).
4. Allow enough room to service the lathe on all
four sides, and to load and off-load work
pieces. In addition, if bar work is to be
performed, allow enough space for stock to
extend out the headstock end. If used in
production operations, leave enough space for
stacking unfinished and finished parts.
5. The foundation must be solid to support the
weight of the machine and prevent vibration,
preferably a solid concrete floor.
6. Sling the lathe as shown in Figure 4; either
below the bed at center of gravity area, or
around steel rods or pipes of sufficient strength
inserted through the holes in the bed casting.
Do not lift lathe by the spindle. With
adequate lifting equipment, slowly raise the
lathe off the shipping pallet. Make sure lathe is
balanced before moving.
8.1 Leveling the lathe
It is imperative that the lathe be on a level plane;
that is, where headstock and tailstock center points
remain aligned throughout the tailstock travel, with
the bed ways absent of twist and thus parallel to
the operational center line.
A lathe which is not properly leveled will be
inaccurate, producing tapered cuts. Also, the
center point of the tailstock will vary as it is
positioned along the bed, thus requiring constant
readjustment of the set of the tailstock.
8. Use a machinist’s precision level on the bed
ways both front to back and side to side, as
shown in Figure 5. Take the reading in one
direction every ten inches. Make sure the ways
are clean and free of any debris before placing
a level upon them.
9. Deviation over bed length (see Figure 5):
a) Maximum 0.02/1000mm
b) Maximum 0.04/1000mm
Figure 5: Leveling
10. Tighten foot screw nuts evenly to avoid
distortion.
11. Leveling should be inspected occasionally,
and especially if the accuracy of the lathe
begins to diminish.
Figure 4: Lifting the lathe
Confirm that all suspension
equipment is properly rated and in good
condition for lifting la the. Do not allow anyone
beneath or near load while lifting.
7. The lathe can be placed upon the cast iron
leveling pads under each foot hole, and
adjusted using the adjusting bolts with hex
nuts. Or, it may be secured to the floor using
bolts placed head-down in the concrete, and
using shims where needed to level the
machine. Refer to Figure 1 for mounting hole
dimensions.
8.2 Completing installation
12. Clean all rust protected surfaces using a mild
commercial solvent, kerosene or diesel fuel.
Do not use paint thinner, gasoline, or lacquer
thinner. These will damage painted surfaces.
Cover all cleaned surfaces with a light film of
20W machine oil.
13. Open the end gear cover. Clean all
components of the end gear assembly and
coat all gears with a heavy, non-slinging
grease. Close the end gear cover.
13
8.3 Chuck preparation (three-jaw)
Read and understand all
directions for chuck preparation. Failure to
comply may cause serious personal injury
and/or damage to the lathe.
The three-jaw scroll chuck is shipped pre-installed
on the lathe. It can be used for clamping cylindrical,
triangular and hexagonal stock, and has reversible
jaws.
Note: An optional 12-inch, 4-jaw chuck is available
(part no. ZX-OP-2A). See your dealer to order.
Before removing a chuck, place a flat piece of thick
plywood across the bedways under the chuck to
prevent damage to the bedways should the chuck
fall from your hands. Alternatively, many users
make a wood chuck cradle that sits atop the ways
and accepts the specific diameter of chuck, for
easier installing and removal. Figure 6 shows an
example.
• If the index mark (A) is not between the two
arrows, i.e. the cam turns beyond the
indicator arrows, then remove the chuck and
turn the camlock stud IN one full turn.
• If a camlock will not engage, remove the
chuck and turn the camlock stud OUT one
full turn.
Figure 7: Camlock
6. Make sure chuck is secure on the spindle with
the camlocks correctly engaged.
Figure 6: Chuck cradle
To remove the chuck:
1. Support the chuck while turning six camlocks
1/4 turn counterclockwise with the chuck
wrench from the tool box.
2. Carefully remove the chuck from the spindle
and place on an adequate work surface.
3. Inspect the camlock studs. Make sure they
have not become cracked or broken during
transit. Clean all parts thoroughly with solvent.
Also clean the spindle and camlocks.
4. Cover all chuck jaws and scroll inside the
chuck with #2 lithium tube grease. Cover the
spindle, camlocks, and chuck body with a light
film of 20W oil.
5. Lift the chuck up to the spindle nose and press
onto the spindle. Tighten in place by turning
the camlocks 1/4 turn clockwise. The index
mark (A, Figure 7) on the camlock should be
between the two indicator arrows (B) when
tight, as shown in Figure 7.
8.4 Break-in period
Do not run the lathe above 560 RPM for the first six
hours of operation, to allow gears and bearings to
adapt and run smoothly.
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9.0
Maintenance/Lubrication
Lathe must be serviced at all
lubrication points and all reservoirs filled to
operating level before the lathe is put into
service. Failure to comply may cause serious
damage to the lathe.
The ZX series lathe is shipped with oil in the
reservoirs. Coolant is not included.
Use clean lubricants and check levels often,
including before each working shift. To ensure
proper lubrication, oil levels should not be less than
the center of the oil sight glass. Try not to overfill,
as this may cause leakage.
A chart is supplied in section 15.0 for quick
reference to all lubrication points.
Unless specified otherwise, the lubrication points
require a non-detergent, ISO 68, SAE 20W oil. The
recommended brand for this lathe is Mobil DTE
Oil Heavy Medium.
1. Headstock – Oil must be up to indicator mark
in oil sight glass (A, Figure 9). Top off with
SAE 20W. Fill by removing the plug on top of
the headstock. To drain, remove drain plug on
the left side of the headstock at the lower rear
corner. Drain oil completely and clean out all
metal shavings. Refill after the first month of
operation. Then change the oil in the
headstock every two months.
2. Gearbox – Oil must be up to indicator mark in
oil sight glass (B, Figure 9). Top off with SAE
20W. To add oil to the gearbox, remove two
screws on the top cover and remove cover. To
drain, remove drain plug (C, Figure 9) on the
left side of the gearbox. Drain oil completely
and refill after the first three months of
operation. Then change oil in the gearbox
every six months.
®
3. Apron – Oil must be between indicator marks
in the oil sight glass (A, Figure 10). Top off
with SAE 20W. Remove oil plug (B, Figure 10)
to fill. To drain, remove drain plug on bottom of
apron.
Drain oil completely and refill after the first
three months of operation. Then, change oil in
the apron annually. Pull knob (C, Figure 10) on
the one-shot lube system and hold for several
seconds to allow oil to fill the pump. When the
knob is released, oil will flow through various
oil lines to lubricate the ways and cross slide
surface. Perform this twice daily or as needed.
When the oil level is below the indicator mark,
oil must be added.
Figure 9
Figure 10
4. Leadscrew and Feed Rod – Daily lubricate
two ball oilers on the right side bracket (A,
Figure 11) with SAE 20W once or twice per
shift.
15
Figure 11
Saddle – Daily lubricate ball oiler (A, Figure
12) on handwheel shaft with SAE 20W.
The anti-dust felt on both ends of the saddle
where it contacts the ways should be cleaned
weekly with kerosene. If the felt becomes
damaged, replace it.
5. Compound Rest – Daily lubricate two ball
oilers (B, Figure 12) on top of compound rest
with SAE 20W.
6. Cross Slide – Daily lubricate one ball oiler (C,
Figure 12 – opposite side) with SAE 20W.
Figure 13
8. V-Belts – Regularly check and adjust the
tightness of the v-belts to prolong their service
life. See section 14.6, Belt replacement and
adjustment.
10.0 Coolant preparation
Follow coolant manufacturer’s
recommendations for use, care and disposal.
1. Remove access cover on tailstock end at the
rear base of the lathe. Make sure coolant
pump has not shifted during transport.
2. Pour four gallons (approx imate) of coolant mix
into the chip pan.
3. After machine has been connected to power,
turn on coolant pump and check to see that
coolant is cycling properly.
4. Replace access cover.
11.0 Electrical connections
Figure 12
7. Tailstock – Daily lubricate one ball oiler (A,
Figure 13) on top of tailstock with SAE 20W.
Electrical connections must be
made by a qualified electrician in compliance
with all relevant codes. This machine must be
properly grounded while in use to help protect
the operator from electrical shock and possible
fatal injury.
The main motor is rated at 7-1/2 HP (or 10HP for
model 2280ZX), 230/460V and comes from the
factory prewired at 230V. Confirm that power
available at the lathe’s location is the same rating
as the lathe.
Power is connected properly when rotation of the
forward-reverse knob (see E, Figure 15) to the left
position causes the spindle to rotate
counterclockwise as viewed from the tailstock. If
the chuck rotates in the clockwise direction,
disconnect the lathe from the power source, switch
any two of the three power leads (not the green
ground wire), and re-connect the lathe to the power
source.
16
11.1
Conversion to 460 volt operation
Disconnect machine from
power source. Failure to do so may cause
serious injury.
Main Motor: Change the wires according to the
diagram on the outside of the motor junction box.
Transformer: Open electrical panel on rear of
machine on the headstock side. Switch wire from
230V terminal to 460V terminal as outlined on the
transformer.
Coolant Pump: Open access panel on the base at
the tailstock end. Change wires in coolant pump
junction box according to diagram on the outside of
the junction box cover.
Main Power Switch (A, Figure 14): Turns power to
machine on and off.
Power Source Cable Receiver (B, Figure 14).
Make sure the lathe is properly grounded.
12.0 Controls
Figure 15 – Headstock controls
1. Control Panel: located on front of headstock.
Figure 14: Power input
• Coolant On-Off Switch (A, Figure 15)
turns coolant pump on and off.
• Power Indicator Light (D, Figure 15) is lit
whenever lathe is receiving power.
• Emergency Stop Switch (C, Figure 15)
stops all machine functions (Caution:
Lathe will still have power). Twist
clockwise to re-set.
• Jog Switch (B, Figure 15). Quickly press
and release to rotate the spindle.
2. Headstock Gear Change Levers (F, Figure
15): Move levers left or right to desired spindle
speed, according to accompanying chart.
3. Leadscrew/Feed Rod Directional Dial (E,
Figure 15): Changing knob changes direction
of feed.
while machine is running.
4. Feed/Lead Selector Levers (G, Figure 15):
Used conjunctively to set up for threading or
feeding, according to the accompanying chart
, Figure 15).
(G
1
Do not move knob (E)
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Figure 16 – Carriage controls and settings
5. Carriage Handwheel (H, Figure 16): Located
on apron assembly. Rotate handwheel
clockwise to move carriage toward tailstock
(right). Rotate handwheel counterclockwise to
move carriage toward headstock (left).
6. Feed Engagement Lever (J, Figure 16):
Located on front of apron assembly. Pull lever
up to engage. Push lever down to disengage.
7. Adjustable Feed Clutch (K, Figure 16): W hen
the machine is overloaded, it can slip. Then
cutting rate must be reduced. Note: This
setting has been calibrated at the factory and
should not need adjustment. If adjustment ever
becomes necessary, follow the diagram on the
front of the apron.
8. Longitudinal/Cross Feed Selector Le ver (L,
Figure 16): Can be pushed to upper, middle
and lower three positions. Push the lever up,
cross feed is effected. Push the lever down,
longitudinal feed is effected. When the lever is
in the middle position, screws can be cut by
engaging the half nut.
9. Half Nut Lever (M, Figure 16): Located on
front of apron assembly. Used for threading.
10. Spindle Direction Control Lever (N, Figure
16). Move lever to the right so that its tab
clears the notch, then downward for forward
spindle rotation, or upward for reverse spindle
rotation. Allow spindle to come to a stop
before changing directions. Position lever in
neutral position (tab in notch) before shutting
off the lathe.
11. Cross Slide Handwheel (P, Figure 16):
Located above the apron assembly. Clockwise
rotation moves cross slide toward rear of
machine.
12. Cross Slide Lock (Q, Figure 16): Lever
located on left side of cross slide. Turn
clockwise to lock and counterclockwise to
unlock.
13. Carriage Lock (R, Figure 16): Located on top
right of carriage. Turn clockwise to lock,
counterclockwise to unlock.
Carriage lock must be
loose before moving carri age or damage to
lathe may occur.
14. Compound Rest (S, Figure 16) is located on
top of cross slide and can be rotated 360°.
There are calibrations in degrees (T, Figure
16) below the rest to assist in placement of the
compound rest to the desired angle.
15. Compound Rest Handle (U, Figure 16):
Located on end of compound slide. Rotate
clockwise or counterclockwise to position.
16. Compound Lock (not shown): Lever located
on back of compound rest. Turn clockwise to
lock and counterclockwise to unlock.
17. Tool Post Clamping Lever (V, Figure 16):
Located on top of tool post. Rotate counterclockwise to loosen and clockwise to tighten.
18. Thread Chaser (W , Figure 16): Indicates the
point on the leadscrew where the half nut can
be re-engaged to continue inch threading.
19. Tailstock Quill Clamping Lever (A, Figure
17): Located on the tailstock. Rotate clockwise
to lock the sleeve. Rotate counterclockwise to
unlock.
Figure 17 – Tailstock controls
20. Tailstock Clampin g Lever (B, Figure 17): Lift
up to lock. Push down to unlock. If the tailstock
has a heavy load, tighten the hexagon head at
right side of tailstock for auxiliary locking.
21. Tailstock Quill Handwheel (C, Figure 17):
Rotate clockwise to advance quill and
counterclockwise to retract it.
18
22. Tailstock Off-Set Adjustment (D, Figure 17):
Two hex socket cap screws located on the
tailstock base are used to off-set the tailstock
for cutting tapers. Loosening one screw while
tightening the other will off-set the tailstock. Do
not clamp the tailstock lock handle when
adjusting.
Figure 18 – Other controls
23. Foot Brake (A, Figure 18): T he connec ting rod
mechanism is in the bed stand. The braking
device is in the pulley of the headstock. Press
the pedal to stop all lathe functions. (Caution:
Lathe still has power.)
24. Micro Carriage Stop (B, Figure 18): can be
used during manual feed operation. The dial
can be turned for fine tuning the position of the
stop. The micro carriage stop can be moved
along the bed by loosening the two socket
head cap screws underneath the stop.
25. Bed Cover (C, Figure 18): can be easily
removed to clean out the stand.
• Never exceed maximum speed limitation of the
work holding device.
• Before starting spindle, check that each handle
or lever is at correct position to ensure normal
engagement of gears. The spindle direction
control lever should be at neutral position.
• If the brake becomes ineffective, turn off
machine and adjust brake immediately.
• W hen operating spindle direction control lever,
always turn it to correct position; never use
“pre-position” for cutting at a reduced speed.
• Jaw teeth and scroll must be fully engaged, to
prevent the jaws from breaking and being
thrown from chuck (see Figure 19).
Figure 19 – Insufficient jaw tooth engagement
• Avoid long workpiece extensions, as parts may
bend or fly off (see figure 20). Use rests or the
tailstock for support.
13.0 Operation
The operator should consult shop manuals such as
“Machinery’s Handbook” for cutting speeds and
feeds appropriate to specific workpieces. Correct
feed depends upon material to be cut, cutting
operation, tool type, chucking rigidity, depth of cut,
and desired surface quality.
IMPORTANT: Allow a break-in period for the new
lathe so that gears and bearings can adapt; do not
run the lathe above 560 RPM for the first six hours
of operation.
The following points must be
observed when operating the lathe:
• Never turn any handles or levers when spindle
is at high speed.
• Change spindle speed only after spindle stops.
• Change feed rate only when spindle is at low
speed or is stopped.
Figure 20 – Improper setups
• Avoid short clamping contact (Figure 21, A) or
clamping on a minor part diameter (Figure 21,
B). Face-locate the workpiece for added
support.
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Figure 21 – Improper setups
13.1 Tool setup
The cutting angle is correct when the cutting edge
is in line with the center axis of workpiece. Use the
point of the tailstock center as a gauge and shims
under the tool to obtain correct center height.
Use a minimum of two clamping screws to secure
each tool.
3. Select desired thread using levers (B/C/D/E,
Figure 22).
4. Set selector lever (A, Figure 23) to correct
position (neutral).
5. Engage the half nut lever (B, Figure 23).
6. Make a test cut with scrap material and check
results before cutting regular material.
13.2 Feed and thread selection
1. Reference the feed and thread chart (A, Figure
22).
2. Move levers and knobs (B/C/D/E, Figure 22) to
the appropriate position according to the feed
and thread chart.
Figure 23
14.0 Adjustments
Adjustments to the lathe,
especially those involving alignments of
bearings, spindle, leadscrew, clutch, etc.,
should only be performed by qualified
personnel, as improper alignments can dama ge
the machine and/or create a safety hazard.
Turn off main switch and press
emergency stop button before making
adjustments to lathe.
14.1 Chuck jaw reversal
The three jaws on the scroll chuck are reversible,
to hold stock with larger diameters. See Figure 24.
Loosen two screws with the provided hex key,
remove jaw, and rotate it 180-degrees. Re-install
jaw, and tighten each screw in increments until fully
tightened.
Figure 22
13.3 Thread cutting
1. Set forward/reverse lever (F, Figure 22) to
desired direction.
2. Set selector levers (G/H, Figure 22) to desired
R.P.M.
20
Figure 24 – Chuck jaw reversal
14.2 Gib adjustments
After a period of time, some moving components
may need adjustment for play (or “backlash”) due
to wear. Do not overtighten gib screws as this can
hasten wear to components.
14.2.4 Half Nut
Gib screws are located on right side of apron (C,
Figure 26). Loosen the jam nuts and rotate the
screws clockwise until any backlash is corrected.
Then re-tighten nuts.
Figure 26 – Half nut gib adjustment
14.2.1 Saddle
Turn gib screws on either side of the saddle at the
rear to adjust the drag on the saddle.
14.2.2 Cross slide
Gib screws are located at front and rear of slide
opposite to one another (A, Figure 25). To adjust
drag, loosen rear gib screw one turn, and tighten
front gib screw a quarter turn. Rotate handwheel to
check play. Repeat as needed until slide moves
freely without play. Gently tighten rear gib screw.
14.2.3 Compound rest
Gib screws are located at front and rear of
compound rest (B, Figure 25). To adjust, use same
method as for Cross Slide.
14.3 Tailstock off-set
Follow the procedure below to off-set the tailstock
to cut shallow tapers:
1. Loosen tailstock in position by lowering locking
handle (B, Figure 27) and loosening hexagon
head eccentric shaft at back of tailstock.
2. Alternately loosen and tighten front and rear
screws (D, Figure 27). Note: Front screw is
shown.
The scale on the end of the tailstock base indicates
amount of offset, and helps when re-centering.
If clamping force needs to be adjusted, use the hex
nut beneath the tailstock body.
Figure 25 – Gib adjustments, slide and rest
Figure 27 – Tailstock offset
14.4 Removing gap bridge
1. To remove the gap bridge, remove four hex
socket cap screws, and two hex cap bolts.
2. Tighten the hex nuts on the tapered alignment
pins to loosen the pins. Once loosened, they
can be removed.
3. Gap bridge can now be removed.
21
14.5 Installing gap bridge
1. Clean the bottom and the ends of the gap
bridge thoroughly.
2. Set gap bridge in place and align the ends.
3. Loosen the nuts on the locating pins and push
down through the gap into the lathe bed.
4. Replace four hex socket cap screws and
tighten alternately until all are snug.
14.6 Belt replacement/adjustment
1. Disconnect machine from power source.
2. Open end gear cover, remove lower rear cover
and lower side cover. This will expose the
motor and v-belts.
3. Loosen upper hex nut (A, Figure 28). Place
scrap piece of wood under motor to act as
lever. Lift motor up and block temporarily.
4. Remove belts. Install new belts onto pulleys.
5. Lift up on motor and remove temporary
blocking.
6. Tension belts by loosening lower nut (B,
Figure 28) and tightening upper nut (A, Figure
28) until light finger pressure causes
approximately 3/4” deflection on each belt.
7. Install covers and connect lathe to the power
source.
Figure 29 – Tailstock/Headstock alignment
14.8 Cross slide nut adjustment
The cross slide moves via a lead screw which
drives a nut. This can be adjusted if backlash
develops. Backlash is identified by turning the
cross slide handwheel left and right – if there is a
delay before any cross slide movement, the nut
needs adjusting.
Tighten or loosen the two screws shown in Figure
30 until backlash is adjusted out.
Figure 30 – Cross slide nut adjustment
Figure 28 – Belt adjustment
14.7 Aligning tailstock to headstock
1. Fit a 12” ground steel bar between centers of
the headstock and tailstock (Figure 29).
2. Fit a dial indicator to the top slide and traverse
the center line of the bar.
If adjustment is needed, align the tailstock using
the off-set screws (D, Figure 27) until the tailstock
is aligned.
14.9 Shear pin replacement
The lead screw and feed shaft are equipped with
shear pins, which are designed to break in order to
protect the drive system against overload. A
broken shear pin must be replaced.
Knock out the broken pin; line up the holes and
insert new pin.
14.10 Steady rest adjustment
Always lubricate the fingers with grease before
using the steady rest. The point at which the
fingers contact the workpiece require continuous
lubrication to prevent premature wear.
To set the steady rest (see Figure 31):
1. Loosen hex nut (A) to slide steady rest along
the ways.
2. Loosen knurled handle (B) until it can be
pivoted out of the slot.
3. Loosen three lock knobs (C), and back off the
fingers (D) using knurled handles (E).
22
4. Pivot the collar on its hinge and position
steady rest around workpiece.
5. Firmly tighten hex nut (A).
6. Set the fingers snugly to work piece and
secure by tightening locking knobs. Fingers
should be snug but not overly tight.
Always lubricate the fingers sufficiently with grease
before operating.
14.12 Carriage stops
Adjust each stop (Figure 32) by loosening two set
screws, and sliding it along the rod. Rotate the stop
so that the raised area is upward to contact the
carriage. Tighten both set screws securely.
Position the raised area downward when the stop
is not being used.
Figure 32
Figure 31 – Steady rest adjustment
14.11 Follow rest adjustment
The follow rest mounts to the saddle with two
socket head cap bolts. The follow rest should be
mounted so that locking knobs point away from
chuck.
The sliding fingers are set similar to those on the
steady rest – free of play, but not binding.
23
15.0 Lubrication schedule and general maintenance
Regularly scheduled maintenance is crucial to ensure a long service life for your machine. The schedule below shows
general cleaning, lubrication points and coolant replacement information for the ZX Series Lathes. Push stop button
and power off before lubricating. Follow local regulations for disposal of used coolant/lubricants. Minimize direct
skin contact with lubricants and coolants, and wear eye protection when pouring coolant in case of splash.
Mobile DTE® Oil Heavy Medium is recommended for the SAE-20W machine oil.
If the brand of oil is ever changed, it is recommended that you flush and clean the reservoir first to prevent any
compatibility issues.
Table 1
Section Element Action Lubricant Frequency
8.3 Chuck Grease jaws and scroll #2 lithium t ube grea se periodically
8.3
9.0 Headstock Drain and fill SAE-20W machine oil
9.0 Gearbox Drain and fill SAE-20W machine oil
9.0 Apron and Saddle Drain and fill SAE-20W machine oil
9.0
Travel Setting Rod Fill at (1) ball oiler SAE-20W machine oil as needed
9.0
9.0
9.0
9.0 Anti-dust felt on v-ways Clean kerosene Inspect weekly
10.0 Coolant reservoir
14.10 Steady Rest
14.11 Follow Rest
14.6 V-belts
Spindle/cam locks/
chuck body
All exposed metal
surfaces
Leadscrew; Feed Rod;
Spindle Direction
Control Axle
Cross slide Fill at (2) ball oilers SAE-20W machine oil daily
Compound rest Fill at (2) ball oilers SAE-20W machine oil daily
Tailstock Fill at (1) ball oiler SAE-20W machine oil daily
light coat of oil SAE-20W machine oil periodically
light coat of oil SAE-20W machine oil frequently
- after 30 days,
- every 2 months
- after first 3 months,
- every 6 months
- after first 3 months,
- then annually
Fill at ball oilers SAE-20W machine oil
(follow coolant
manufacturer’s
directions)
Lubricate finger shafts
and contact points
Lubricate finger shafts
and contact points
Inspect and tighten if
needed
Coolant of choice,
approx. 4 gallons
Lead-based grease before each use
Lead-based grease before each use
periodically
daily (1 or 2 times per
shift)
(follow coolant
manufacturer’s
directions)
24
16.0 Reference tables
16.1 Inch Lead And Feed
Table 2
FEED IN/REV
LONGITUDINAL
TRANSVERSE
25
THREADING CHART
I N
INCH
26
THREADING CHART
m m
M E T R I C
M P
M O D U L E P I T C H
27
THREADING CHART
D P
D I A M E T R A L P I T C H
427 New Sanford Road
LaVergne, Tennessee 37086
Phone: 800-274-6848
www.jettools.com
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