3. NEVER LEAVE THE SAW RUNNING UNATTENDED. TURN POWER OFF.
4. DO NOT OPERATE THE SAW UNDER THE INFLUENCE OF DRUGS,
ALCOHOL, OR ANY PERSCRIPTION MEDICATION
5. ALWAYS KEEP HANDS AWAY FROM THE CUTTING AREA
6. STOP THE SAW BLADE BEFORE CLEANING CHIPS OUT OF THE PAN.
7. KEEP ALL GUARDS IN PLACE & IN WORKING ORDER.
C) MACHINE SAFETY:
1. REMOVE ADJUSTING KEYS AND WRENCHES. Form a habit of checking
to see that keys and adjusting wrenches are removed from tool before turning
it "on".
2. DON'T FORCE THE SAW. It will do the job better and be safer at the rate for
which it was designed.
3. PROPER USE OF ATTACHMENTS. Do not use attachment to do a job for
which they were not designed.
4. SECURE WORK. Use clamps or the saw vise to hold work.
5. MAINTAIN SAW BLADES IN TOP CONDITION. Keep saw blades sharp &
clean for best performance. Follow instructions for lubricating and changing
saw blades.
6. AVOID ACCIDENTAL STARTING. Make sure switch is in “OFF” position
before plugging in power cord.
7. ADJUST AND POSITION the blade guide arm before starting the cut.
8. KEEP BLADE GUIDE ARM TIGHT, A loose blade guide arm aill affect
sawing accuracy.
9. MAKE SURE blade speed is set correctly for the material being cut.
10. CHECK for proper blade size and type.
11. STOP the machine before putting material in the vise. ALWAYS have stock
firmly clamped in vise before starting cut.
3
12. REMOVE ADJUSTING KEYS AND WRENCHES. Form a habit of checking
to see that keys and adjusting wrenches are removed from tool before turning
it "on".
13. DON'T FORCE THE SAW. It will do the job better and be safer at the rate for
which it was designed.
14. PROPER USE OF ATTACHMENTS. Do not use attachment to do a job for
which they were not designed.
15. SECURE WORK. Use clamps or the saw vise to hold work.
16. MAINTAIN SAW BLADES IN TOP CONDITION. Keep saw blades sharp &
clean for best performance. Follow instructions for lubricating and changing
saw blades.
17. AVOID ACCIDENTAL STARTING. Make sure switch is in “OFF” position
before plugging in power cord.
18. ADJUST AND POSITION the blade guide arm before starting the cut.
19. KEEP BLADE GUIDE ARM TIGHT, A loose blade guide arm aill affect
sawing accuracy.
20. MAKE SURE blade speed is set correctly for the material being cut.
21. CHECK for proper blade size and type.
22. STOP the machine before putting material in the vise.
23. ALWAYS have stock firmly clamped in vise before starting cut.
D) WORK ENVIRONMENT SAFETY:
1. KEEP WORK AREA CLEAN. Cluttered, dirty work areas invite accidents.
2. DON'T USE IN DANGEROUS ENVIRONMENTS. Don't use power tools in
damp or wet locations, or expose them to rain. Keep work area well-lighted.
3. DON’T install & use this machine in explosive, dangerous environment.
E) PROPER MAINTENANCE:
1. DISCONNECT machine from power source when making repairs.
2. CHECK FOR DAMAGED PARTS. Before further use of the saw, a guard or
other part that is damaged should be carefully inspected to ensure that it will
operate properly and perform its intended function. Check for alignment of
moving parts, binding of moving parts, broken parts, mountings, and any
other conditions that may affect the saw’s operation. Any guard or other part
that is damaged should be properly repaired or replaced.
3. DISCONNECT TOOLS before servicing and when changing accessories
4
such as blades, bits, cutters, etc.
4. MAKE SURE that blade tension and blade tacking are properly adjusted.
5. RE-CHECK blade tension after initial cut with a new blade.
6. CHECK COOLANT DAILY Low coolant level can cause foaming and high
blade temperatures. Dirty or weak coolant can clog the pump, cause crooked
cuts, rust, low cutting rate and permanent blade failure. Dirty coolant can
cause the growth of bacteria with ensuing skin irritation.
7. WHEN CUTTING MAGNESIUM NEVER use soluble oils or
emulsions(oil-water mix) as water will greatly intensify any accidental
magnesium chip fire. See your industrial coolant supplier for specific coolant
recommendations when cutting magnesium.
8. TO PREVENT CORROSION of machined surfaces when a soluble oil is used
as coolant, pay particular attention to wiping dry the surfaces where fluid
accumulates and does not evaporate quickly, such as between the machine
bed and vise.
F) SPECIFIED USAGE:
1. This machine should be used only for general metal cutting within the range
of cutting capacity..
H) SAFETY FEATURES:
1. Interlock switch on pulley cover.
2. As soon as the pulley cover is open, machine will stop with the function of
this switch. Do not remove this switch from machine for any reason, and
check it's function frequently.
Interlock switch on cutting area as soon as the cover of cutting area is open,
machine will stop at once witch the function of this switch. Do not remove this switch
from machine for any reason, and check it's function frequently.
5
3.SPECIFICATIONS
MOTOR 2HP
60Hz 98 ~ 393 FPM
Saw Blade Speed Variable Speed
Blade Size(mm) 27x0.9x3810
Dimension LxWxH (mm) 2030x700x1100
N.W / G.W (kgs) 550 / 600
Packing
Cutting
Capacity
Measurement 2223x990x1150
Sets per 20’ CTNR 10 sets
(mm/inch) 330 / 13 “
0
+/- 45
- 60
(mm/inch) 127x483 / 5“x19“
(mm/inch) 305 / 12 “
(mm/inch) 229x305 / 9“x12“
(mm/inch) 204 / 8“
(mm/inch) 178x204 / 7“x8“
50Hz 81 ~ 327 FPM
4.FEATURES
1. This machine is ideal for cutting normal steel, steel pipe, and provides
opposable miter cutting at + 60 degrees and -45 degrees through the
utilization of a swiveling saw head.
2. Variable speed control gives convenient selection of speeds.
4. Easy sliding the working table back and forth by loosing and fixing only two
bolts.
5. Quick positioning vise for clamping all sizes of work piece.
6. Chip pan underneath the working table prevents coolant fluid leaking and
helps keep the work area clean.
7. Hydraulic unit is to rise up the saw arm automatically for easy handling.
(1319A only)
8. Self contained coolant system.
6
5.TRANSPORTATATION & INSTALLATION
5-1.Unpacking
1. Transportation to desired location before unpacking; use powered lifting jack.
(Fig. B)
2. Transportation after unpacking; please use heavy duty fiber straps to lift the
machine.
Fig. B
ALLWAYS KEEP PROPER FOOTING & BALANCE WHILE MOVING THIS
MACHINE.
5-2.TRANSPORTATION OF MACHINE
As this machine weights 470kgs(1036lbs) it is recommended that the machine be
transported with help of lifting jack.
Transportation Recommendation:
1. Tighten all locks before operation.
2. Always keep proper footing & balance
while moving this machine, and only use
a heavy duty of fiber belt to lift the
machine as per Fig. 1.
3. TURN OFF the power before wiring & be
sure machine is properly grounded.
Overload & circuit breaker are
recommended for safety wiring.
4. Tighten 4 bolts to base holes after
machine is balanced.
5. Check carefully if the saw blade is running in counter-
clockwise direction if not, reverse the wiring per circuit
diagram, then repeat the running test.
6. Keep out of direct intense sunlight, excessively dusty areas and exposure to
rain.
Fig. 1
7
5-3.Installation
(1) Always Keep proper footing & balance while
moving this 470kgs machine. And only use
heavy-duty fiber belt to lift the machine as per Fig.
(A).
(2) Hang the machine up, away from the floor, take
away the 4 pads and assemble them on the
auxiliary stand. Fix the machine on the auxiliary
stand and lock the connection nut.
(3) Finish removing this wooden case/crate from the
machine. Unbolt the machine from the crate
bottom.
(4) Position & tighten 4 bolts into base holes properly
after machine in balance.
(5) Turn off the power before wiring & be sure
B Fig. A
machine is in proper grounding. Overload & circuit
breaker is recommended for safety wiring.
(6) Keep machine always out from sun, dust, wet, raining area.
5-4.CLEANING & LUBRICATING
(1) Your machine has been coated with a heavy grease to protect it in shipping.
This coating should be completely removed before operating the machine.
Commercial degreaser, kerosene or similar solvent may be used to remove
the grease from the machine, but avoid getting solvent on belts or other
rubber parts.
(2) After cleaning, coat all bright work with a light lubricant
6.MINIMUM SPACE FOR MACHINE OPERATION
140”125”
80”
8
7. PROPER TOOTH SELECTION
For maximum cutting efficiency and lowest cost per cut, it is important to select the
blade with the right number of teeth per
inch (TPI) for the material being cut. The
material size and shape dictate tooth
selection.
You need to consider: The width of the
cut - That is, the distance in the cut that
each tooth must travel from the point it
enters the work-piece until it leaves the
work-piece, and
1.The shape of the work-piece.
Squares, Rectangles, Flats
(Symbol : )
Locate the width of cut on the
chart. (Inches on the outer
circle and millimeters on the inner circle.) Select the tooth pitch on the ring
marked with the square shape which aligns with the width of cut.
EXAMPLE: 6" (150mm) square, use a 2/3 Vari-Tooth.
Round Solids (Symbol : )
Locate the diameter of your work-piece on the chart. Select the tooth pitch
on the ring marked with the round shape which aligns with the size of stock
you are cutting.
EXAMPLE: 4" (100mm) round, use a 3/4 Vari-Tooth.
Tubing, Pipe, Structural ( Symbol : O H ^ )
Determine the average width of cut by dividing the area of the work-piece
by the distance the saw blade must travel to finish the cut. Locate the
average width of cut on the chart. Select the tooth Ditch on the ring marked
with the tubing and structural shape, which aligns with the average width
you are cutting.
EXAMPLE: 4"(100mm) outside diameter, 3"(75mm) inside diameter tubing.
4"(100mm) OD =12.5 sq.ln. (79cm
3"(75 mm ) ID = 7.0 sq.ln. (44cm
Area = 5.5 sq.ln. (35cm
5.5 sq.ln. (35cm
2
) / 4" (100mm) distance =1.38(35mm) average width
2
2
2
)
)
)
1.38" (35mm), use a 4/6 Vari-Tooth
NOTE: The band speed and cutting rate recommendations presented
on this chart are approximations and are to be used as a starting
point for most applications. For exact sawing parameters' consult
your saw blade supplier.
9
8. BI-METAL SPEEDS AND FEEDS
These figures are a guide to cutting 4"(100mm) material (with a 314 Vari-Tooth)
when using a cutting fluid.
Increase Band Speed: 15% When cutting 1/4"(6.4mm) material (l0/l4 Vari-Tooth)
12% When cutting 3/4"(19 mm) material (6/10 Vari-Tooth)
10% When cutting 1-1/4"(32 mm) material(5/8 Vari-Tooth)
5% When cutting 2-1/2" (64 mm) material(4/6 Vari-Tooth)
Decrease Band Speed:12% When cutting 8"(200mm) material(2/3 Vari-Tooth)
Chips are the best indicators of correct feed force. Monitor
chip information and adjust feed accordingly.
Thin or powdered chips – increase feed rate or reduce
band speed.
Burned heavy chips – reduce feed rate and/or band
speed.
Curly silvery and warm chips – optimum feed rate and
band speed.
420 189 58
430 149 46
410,502 140 43
414 115 35
431 95 29
440C 80 24
304,324 120 36
304L 115 35
347 110 33
316,316L 100 30
416 189 58
11
9.USE OF MAIN MACHINE PARTS
9-1.POWER SYSTEM AND CONTROL PANEL
Before connecting your machine to an electrical power system, be sure the
motor rotation is in the proper direction.
We recommend that 1.5mm² fused with a 10 amp, dual element, time lag fuse, to
be used to supply power to all machines regardless of their electrical rating.
Refer to the electrical wiring diagram supplied with your machine for instructions
on how to connect saw to power source. Power must be cut off when wheel
cover is opened or during repairing.
9-2.STARTING AND STOPPING MACHINE
1. Light (D) will be on when power is connected.
Please open the Hydraulic Unit System button
before any operation to make sure all machines’
operation is in the right procedure. Open hydraulic
feed valve (I) when in operation.
2. Button (C) raises the saw head away from the
saw base. If saw head can not be raised, please
check for proper power connection.
3. Start the motor by pushing the start button (A),
Coolant switch (G) ( 0-close,1-open) to open the
coolant system when saw blade is approaching
work piece. When the cut is complete, turn off the
coolant system (G)
4. Check if the upper limit switch is in proper position.
Adjust handle (J) to move the up-down position.
5. Push button (B) to begin desent of the saw head
and control the desent rate by adjusting feed
valve (I).
6. To begin sawing start the blade motor, then
depress button (B), saw head will automatically
begin it’s desent and start cutting the work piece.
When the cutting is finished, saw head will
return to the upper position. The motor will stop
when saw head makes contact with the upper
limit switch. Push button (F) to stop the machine,
if needed.
7. When stopping a cut or resetting the saw is
necessary, close the cylinder feeding valve (H),
then push the stop button (F)
8. Press emergency button (E) to shut-off the motor
when in an emergeny situation.
9. An automatic shut-off limit switch is provided to
stop the motor when the cut is completed. The
limit switch (K) is controlled by button (L)(figure 3),
B C A F D P
E I H G
K L M J
Fig. 3
12
which contacts the rear arm (M) for shutting off the motor and coolant system.
9-3.ADJUSTING SAW HEAD LOWER STOP
The downward travel of the saw head should be
adjusted so that when the saw arm is in the bottom
position, the teeth of the blade will not touch the table
surface. The stop screw (A) (Fig.4) is used to adjust
the distance between blade and table surface. After
the distance is adjusted, tighten lock nut.
9-4.CHANGING SPEEDS AND ADJUSTING BELT TENSION
If the belt (B) (Fig 6) is too loose, Loosen screw nut (A)(Fig5) adjust the screw to
proper tension and lock the screw nut.
The cutting speed is controlled by speed change C (Fig 6). Turn it clockwise to
decrease the blade speed and increase the blade speed by turning
counter-clockwise.
Always be sure the motor is running before changing blade speed.
9-5.ADJUSTING BLADE TENSION AND BLADE TRACKING
To tension the blade, turn the blade tension
handle (A) (fig. 7) clockwise. A pointer and tension
scale (B) is located underneath the wheel. The
scale is graduated to indicate blade tension of
20,000, 30.000 and 35,000 pounds per square
inch (psi). For carbon blades, the blade should be
tensioned at 20,000 psi. For bi-metal blades
(similar to the one supplied with the machine), the
blade should be tensioned at 30,000 or 35,000 psi.
Always release blade tension at the end of each
working day to prolong blade life. Make sure the
A Fig.5 C Fig.6 B
C B Fig.7 A
A Fig.4
13
blade is tensioned correctly before checking or adjusting tracking. The blade is
tracking correct when the back of the blade just lightly touches the wheel flanges of
both wheels while the machine is running. If the blade is not touching the wheel
flanges, tighten or loosen screw C (fig. 7) until the blade tracks properly.
9-6.ADJUSTING CUTTING WIDTH
First loosen clamp knob (A) (fig. 8). Move the left blade guide bar to
the suitable position. Then tighten clamp knob (A).
A
Fig.8
9-7.ADJUSTING BLADES AND CLEARING THE CUTTING CHIP
Before making the following adjustments, make sure the
blade is tracking and tensioned properly:
1. The back of the blade (A) (fig. 9) should ride
against the backup bearing (B)
2. To adjust, loosen set screw (C) and move
the guide block (D) up or down, until it lightly
touches the back of the blade. The saw blade (A)
should also ride between and lightly touch the two
blade guide roller bearings (E) and (F) (fig. 9) The
front bearing (E) (fig. 9) is mounted C on
an eccentric, and can easily be adjusted to suit
blade thickness by loosening setscrew (G) and
turning shaft (E).
3. The carbide blade guides (H) (fig 9)
should also be adjusted so they lightly touch
the blade by loosening screw (K).
4. The blade guide roller bearings, carbide guides
and backup bearing on holder (fig 9 and 10)
should be adjusted in the same manner.
5. Cutting chips on the blade will be cleared by the
steel brush.
9-8.CLEARING THE CUTTTNG CHIP
Please use steel brush to clear the chip on the blade
teeth (fig 11)
Fig.9
Fig.10 C D
G
F
B
E
H
K
A
14
9-9.BLADE AND COOLING SYSTEM
The use of proper cutting fluid is essential to
obtain maximum efficiency from a band saw blade.
The main cause of tooth failure is excessive heat
build-up. This is the reason that cutting fluid is
necessary for long blade life and high cutting rates.
cutting area and blade wheels should be kept
clean at all times.
The rate of coolant flow is controlled by the stop
valve lever (A) (fig 12), which directs the coolant
on to the blade. The lever (A) is shown in the off
position.
9-10.OPERATING AND ADJUSTING VISE
The work-piece is placed between the vise jaws with the
amount to be cut-off extending out past the blade. Your
machine is equipped with a "quick action" Vise jaw which
allows you to instantly position the moveable vise jaw (B)
(fig, 14).
Simply turn the hand-wheel (A) counterclockwise 1/2 turn
and move the vise jaw( B) to the desired position.
Lift the rack hook (C) to open the vise jaw (B).
A Fig.12 A
Then tighten the vise jaw (B) against the work-piece by
turning hand-wheel clockwise. If the same cutting length
can be used repeatedly on many work-pieces, distance set rod can he used to set a
fix cutting length. Proceed as follows:
1.Pull the length setting
rod (H) (fig 15) to a
desired position. Loosen
the fix screw. (K)
2 Let the top of the
work-piece touch the
length setting rod. Lock
the fix screw.(K)
9-11.VARIABLE CUTTING ANGLE SELECTION
Please proceed as follows to obtain desired
cutting angle. The swivel range is from 60 degrees
clockwise to 45 degrees counter-clockwise.
Before swinging the base, make sure there is
nothing in the way, or any interference.
C B Fig.14
A Fig.13
K Fig.15 H
15
1. Loosen grip (A) (fig. 16). Pull out the bar (B) (fig. 16) swing and hold the bar.
2. Push to turn the swivel base to desired angle.
Refer to scale on (D) for degree.
3. Lock the grip (A), then start the cutting.
The swivel range is from 60 degrees clockwise
to 45 degrees counter-clockwise.
For front or rear cutting, move
the sliding vise table by direct
pushing. Be sure to put your hand on top of (C)
to prevent injury by contact with the coolant
pump.
9-12.REMOVING AND INSTALLING THE BLADE
When it is necessary to change the blade, proceed as follows:
1. Raise the saw frame about 6" and
close the feed on/off knob by turning it
clockwise as far as it will go (fig 18).
2. Move the blade guide arm to the
right.
3. Loosen cover screw, remove cover
(A), open the cover (B), remove
cover (C) and (D), then clean the chips
and dirt inside the machine.
4. Release blade tension (F) (fig 19)
by turning the blade tension hand-wheel
counterclockwise.
5. Remove the blade from both wheels and
out of each blade guide. But remove side (B)
saw blade. When totally released, then
remove the side (A).
6. Make sure the teeth of the new blade are
pointing in the right direction. If necessary,
turn the blade inside out.
7. Place the new blade on the wheels. In the
blade guides and adjust blade tension and
blade guides.
Fig.17 C
B D E Fig.18 C A
A B Fig.16 D
F Fig.19
16
9-13.HYDRAULIC SYSTEM (OPTIONAL FOR 1PH)
A). The hydraulic system on the 1319A consists of a
hydraulic cylinder, which is operated by a needle valve.
The saw frame is raised automatically by the hydraulic
cylinder, and as this is done, oil passes to the underside of
the piston. The feed valve (D) regulates the feed rate
control knob and governs the desent of the saw head. (fig
20) To stop the desent of the head the operator can turn
the stop valve (E).
9-14.GEAR BOX
The gearbox should be drained and refilled after the
first 50 hours of use and thereafter every 5 months,
with Mobil Synthetic Gear Oil, SHC-636, ISO
Viscosity Grade 680. This oil meets or exceeds
American Gear Manufacturers Association (AG.M.A.)
#8 compounded Cylinder Oil specifications. This oil
is available through Grainger's in 1 quart bottles as
number SW061.
To change the gear oil, proceed as follows:
1. Run the machine for 10 minutes to warm up the
gearbox.
2. Raise the saw arm to its maximum position and
close the feed rate control knob.
3. Drain the gearbox by removing the screw away
from the oil-out hole (A) (fig. 21).
4. Replace a screw and lower the saw arm to its
lowest position.
5. Open the oil-in hole and fill the gearbox with oil
6. Close the oil-in hole.
9-15.PIVOT
Occasionally lubricate the pivot using waterproof
grease at the fittings ( C) (fig 22)
Fig.22
Fig.21 A
D Fig.20 E G
17
9-16. HOW TO OPERATE HYDRAULIC UNIT (FOR 330A)
1. This hydraulic unit is using (Esso,H15)
oil. Change first oil after 50 hours use.
Then change oil every 6 months after.
2. Run the hydraulic unit for at least 10
minutes before changing oil, this will let
the oil flow smoother and easier to
change.
3. Open the oil outpour door with tool
when changing the oil. Let the used oil
out completely.
4. Close the outpour door firmly, open the
input door (A) and pour in the oil by 3 liter
(will be 80%full).
9-17. HOW TO USING CLEAN EQUIPMENT
When you have finished cutting, you can clean the
chips by using wash down hose. Adjust the screw
(on the end of spray nozzle) to control the volume
of coolant fluid.
Clean the work area floor immediately when
coolant fluid leaks on the floor.
Fig.23
Fig. 24
Always keep the floor around the saw dry to prevent slipping.
10.MAINTAINING
That's easier to keep machine in good condition or best performance by means of
maintaining it at any time than remedy it after it is out of order.
(1) Daily Maintenance (by operator)
(a) Check lubricant before starting the machine everyday.
(b) If the temperature of the spindle begins over-heating or making strange
noises, stop machine immediately to check for damage.
(c) Keep work area clean; clean chips from machine and follow instructions for
lubrication and rust proof oil before leaving.
(2) Weekly Maintenance
(a) Clean and coat the cross leading screw with oil.
(b) Check to see if sliding surface and turning parts lack lubricant. If lubricant is
insufficient, fill it.
(3) Monthly Maintenance
18
(a) Check all machine parts for proper adjustment and function.
(b) Lubricate bearing worm, and worm shaft to avoid the wear.
(4) Yearly Maintenance
(a) Adjust table to horizontal position for accuracy.
(b) Check electric cord, plugs, switch, at least once a year to avoid chance of
electrical damage.
11.TROUBLE SHOOTING
Symptom Possible Cause(s) Corrective Action
Excessive Blade
Breakage
Premature
Blade Dulling
1. Materials loosen in vise.
2. Incorrect speed or feed
8. Blade teeth spacing too large
9. Material too coarse
5. Incorrect blade tension
6.Teeth in contact with material before saw
is started
7. Blade rubs on wheel flange
8. Miss-aligned guide bearings
9. Blade too thick
10 Cracking at weld
1. Teeth too coarse
2. Too much speed
3. Inadequate feed pressure
4.Hard spots or scale on material
5. Work hardening of material.
6.Blade twist
7. Insufficient blade
8. Blade slide
1. Clamp work securely
2. Adjust speed or feed
3. Replace with a small teeth spacing
blade
4. Use a blade of slow speed and small
teeth spacing
5. Adjust to where blade just does not slip
on wheel
6. Place blade in contact with work after
motor is starred
7. Adjust wheel alignment
8. Adjust guide bearings
9. Use thinner blade
10. Weld again, note the weld skill.
1. Use finer teeth
2. Decrease speed
3. Decrease spring tension on side of saw
4. Reduce speed, increase feed pressure
5. Increase feed pressure by reducing
spring tension
6. Replace with a new blade, and adjust
blade tension
7. Tighten blade tension adjustable knob
8. Tighten blade tension
Unusual Wear on
Side/Back of
Blade
Teeth Ripping
from
1. Blade guides worn.
2. Blade guide bearings not adjust properly
3. Blade guide bearing bracket is loose
1. Tooth too coarse for work
2. Too heavy pressure; too slow speed.
19
1. Replace.
2. Adjust as per operators manual
3. Tighten.
1. Use finer tooth blade.
2. Decrease pressure, increase speed
Blade. 3. Vibrating work-piece.
4. Gullets loading
3. Clamp work piece securely
4. Use coarser tooth blade or brush to
remove chips.
Motor running too
hot
Bad Cuts
(Crooked)
1. Blade tension too high.
2. Drive belt tension too high.
3. Blade is too coarse for work
4. Blade is too fine for work
5. Gears aligned improperly
6. Gears need lubrication
7. Cut is binding blade
1. Feed pressure too great.
2. Guide bearings not adjusted properly
3. Inadequate blade tension.
4. Dull blade.
5. Speed incorrect.
6. Blade guides spaced out too much
7. Blade guide assembly loose
8. Blade truck too far away from wheel
flanges
1. Reduce tension on blade.
2. Reduce tension on drive belt.
3. Use finer blade.
4. Use coarse blade.
5. Adjust gears so that worm is in center of
gear.
6. Check oil path.
7. Decrease reed anti speed
1. Reduce pressure by increasing spring
tension on side of saw
2. Adjust guide bearing, the clearance can
not greater than 0.001.
3. Increase blade tension by adjust blade
tension
4. Replace blade
5. Adjust speed
6. Adjust guides space.
7. Tighten
8. Re-track blade according to operating
instructions.
Bad Cuts
(Rough)
Blade is twisting 1. Cut is binding blade.
1. Too much speed or feed
2. Blade is too coarse
3. Blade tension loose
2. Too much blade tension.
1. Decrease speed or feed.
2. Replace with finer blade.
3. Adjust blade tension.
1. Decrease reed pressure.
2. Decrease blade tension.
20
21
12. CIRCUIT DIAGRAM
22
13 Parts Lists
23
24
25
26
Loading...
+ hidden pages
You need points to download manuals.
1 point = 1 manual.
You can buy points or you can get point for every manual you upload.