Itm Trademaster WE-350DSA User Manual

Contents
Chapter 1

ACCIDENT PREVENTION AND SAFETY
REGULATION

1.1 Advice for the operator

1.2 The electrical equipment according to European
Standard" CENELEC EN 60 204-1" (1992)

1.3 Emergencies according to European Standard
“CENELEC EN 60 204-1 (1992)”

2
2
2

Chapter 2

MACHINE DIMENSIONS TRANSPORT
INSTALLATION DISMANTLING

2.1 Machine dimensions

2.2 Transportation of your machine

2.3 Minimum requirements for housing the machine

2.4 Anchoring the machine

2.5 Instructions for assembly of the loose parts and
accessories

2.6 Disactivation of machine

2.7 Dismantling 3

2
3
3
3

3

3

Chapter 3

THE MACHINE’S FUNCTIONAL PARTS

3.1 The saw arm

3.2 Controls

3.3 Vice adjustment

3.4 Cutting angle adjustment

3.5 The base

3.6 The operation cycle

3
4
4
5
5
5

Chapter 4

ADVICE ON USING YOUR BANDSAW

4.1 Recommendations and advice for using the
machine

Chapter 5

ADJUSTING YOUR MACHINE

5.1 Blade tension assembly

5.2 Adjusting the blade guide

5.3 Changing the blade

5.4 Saw frame return stroke-limiting device

5.5 Adjusting the blade to the flywheels

5.6 Replacing the saw frame return spring

6

7
7
7
7

8
8

Chapter 6

ROUTINE AND SPECIAL MAINTENANCE

6.1 Daily maintenance

6.2 Weekly maintenance

6.3 Monthly maintenance

6.4 Six-monthly maintenance

6.5 Oils for lubricating coolant

6.6 Oils disposal

6.7 Coolant system

6.8 The gear box

6.9 Special maintenance

8
8
9
9
9
9
9
9
9

Chapter 7

TECHNICAL CHARACTERISTICS

7.1 Table of cutting capacity and technical details

10

Chapter 8

MATERIAL CLASSIFICATION AND CHOICE OF
TOOL

8.1 Definition of materials

8.2 Selecting blade

8.3 Teeth pitch

8.4 Cutting and advance speed

8.5 Blade running-in

8.6 Blade structure

8.7 Blade type

10
10
11
11
11
11
11

Chapter 9

NOISE TESTS 12

Chapter 10

WIRING DIAGRAM 13

Chapter 11

TROUBLESHOOTING

11.1 Electrical components diagnosis

11.2 Blade and cut diagnosis

15

17

Chapter 12

MACHINE COMPONETS

12.1 Parts list

12.2 Explosion drawings

21
24

- 1 -

1 ACCIDENT PREVENTION AND
SAFETY REGULATION

This machine has been designed to comply with
national and community accident-prevention
regulations. Improper use and/or tampering with the
safety devices will relieve the manufacturer of all
responsibility.

1.1 Advice for the operator

- Check that the voltage indicated on machine motor is
the same as the line voltage.

- Check the efficiency of your electric supply and
grounding system; connect the power cable of the
machine to the socket and the ground lead
(yellow-green in color) to the grounding system.

- When the saw frame is in suspended mode (or raised)
the blade must not move.

- Only the blade section used for cutting must be kept
unprotected. To remove guards operate on the
adjustable head.

- It is forbidden to use the machine without its shields

- Always disconnect the machine from the power
socket before blade change or carrying out any
maintenance job, even in the case of abnormal
machine operation.

- Always wear suitable eye protection.

- Never put your hands or arms into the cutting area
while the machine is operating.

- Do not shift the machine while it is cutting.

- Do not wear loose clothing like: shirts with sleeves
that are too long, gloves that are too big, bracelets,
chains or any other object that could get caught in the
machine during operation. Tie back long hair.

- Keep the area free of equipment, tools, or any other
object.

- Perform only one operation at a time. Never have
several objects in your hands at the same time.
Keep your hands as clean as possible.

- All internal operations, maintenance or repairs, must
be performed in a well-lit area or where there is
sufficient light from extra sources so as to avoid the
risk of even slight accidents

1.2 The electrical equipment according to

European Standard" CE NELEC EN 60 204-1" which
assimilates, with some integrating modifications,
the publication "IEC 204-1 (1992)"

- The electrical equipment ensures protection against
electric shock as a result of direct or indirect contact.
The active parts of this equipment are housed in a
box to which access is limited by screws that can only
be removed with a special tool; the parts are fed with
alternating current as low voltage (24V). The
equipment is protected against splashes of water and
dust.

- Protection of the system against short circuits is
ensured by means of rapid fuses and grounding; in
the event of a motor overload, protection is provided
by a thermal probe.

- In the event of a power cut, the specific start-up
button must be reset.

- The machine has been tested in conformity with point
20 of EN 60204

1.3 Emergencies according to European Standard
“CENELEC EN 60 204-1 (1992)”

- In the event of incorrect operation or of danger
conditions, the machine may be stopped immediately
by pressing the red mushroom button.

- The casual or voluntary removal of the protection
shield of the flywheels causes the stepping-in of a
microswitch that automatically stops all machine
functions.

NOTE: Resetting of machine operation after each
emergency stop requires specific restart button.

2 MACHINE DIMENSIONS
TRANSPORT INSTALLATION
DISMANTLING

2.1 Machine dimensions

Assembling the control box to the saw

- Att ach the control box to the saw with two provided

set screws

.

- 2 -

2.2 Transportation of your machine

To move the machine, the machine needs to be moved
in its own packing, use a forklift truck or sling it with
straps as illustrated in the drawing above.

2.3 Minimum requirements for housing the
machine

- Main voltage and frequency must comply with the
machine’s motor requirements.

- Environment temperature should fall within –10 ºC to
+50 ºC.

- Relative humidity cannot be over 90%.

2.4 Anchoring the machine

Position the machine on a firm cement floor,
maintaining, at the rear, a minimum distance of 800
mm from the wall; anchor it to the ground as shown in
the diagram, using screws and expansion plugs or tie
rods sunk In cement, ensuring that it is sitting level.

2.5 Instructions for assembly of the loose parts

and accessories

Fit the components supplied:
Detail 1 Mount bar-stop rod

Moun

Detail 2
the counter-vice table.

2.6 Disactivation of machine

- If the sawing machine is to be out of use for a long
period, it is advisable to proceed as follows:

I) Detach the plug from the electric supply panel

2) Loosen blade

3) Release the saw arm return spring

t and align the roll-supporting arm as per

4) Empty the coolant tank

5) Carefully cl

6) If necessary, cover the machine.

2.7 Dismantling (due to deterioration and/or
(obsolescence)

General rules

If the machine is to be permanently demolished and/or
scrapped, divide the material to be disposed of
according to type and composition, as follows:

1) Cast iron or ferrous materials, composed of metal
are secondary raw materials, so they may be

alone,
taken to an iron foundry for re-smelting after having
removed the contents (classified in point 3).

2) Electrical components, including the cable and

electronic material (magnetic cards, etc.), fall within the
category of material classified as being assimilated to
urban waste according to the laws of your lo
or fede
collection by the public waste disposal service;

3) Old mineral and synthetic and/or mixed oils,

emulsified oils and greases are considered hazardous
or special refuse, so they must be collected,
transported and disposed of at a special waste
disposal service.

NOTE: The standards and legislation concerning
refuse is in a constant state of evolution, therefore is
subject to changes. The user must keep informed of
the regulations at the time of disposal as these may
differ from those described above.

ean an

ral government, so they may be set aside for

d grease the machine

cal, state,

3 THE MACHINE’S FUNCTIONAL
PARTS

3.1 The saw arm

Machine part consisting of drive members (gear motor
or variable speed motor, flywheels), tightening and
guide (blade tightening slide, blade guide blocks) of
tool.

- 3 -

3.2 Controls

K

2 3

A

1

D C

7

B

13

G

12

16

14

A~G Control Switches
A. Speed selector
B. Main connect switch
C. Saw bow up switch
D. Saw bow down switch
E. Hand/foot pedal operation selector
F. Cycle start switch
G. Start switch (hydraulic flow control)
H. Emergency button
I. Footpad emergency button
J. Footpad switch
K. Flow regulator

H

1~17 Indicator lights
Red- Warning indicator
Yellow- Selection indicator
Green- Operation indicator

17

15

4

6

E

F

11

10

J

1. Power supply ON, indicator lights

2. Saw bow up, indicator light

3. Saw bow down, indicator light

4. Hand operation, indicator light

5. Foot pedal operation, indicator light

5

8

9

I

6. Cycle start switch indicator light

7. Start switch (hydraulic flow control), indicator light

8. Saw bow maximum height, indicator light

9. Saw bow lowest height, indicator light

10. Open blade cover, warning indicator light

11. Improper speed selection, warning indicator light

12. Motor overload, warning indicator light

13. Broken blade, warning indicator light

14. Emergency button indicator light

15. Hydraulic motor overload, warning indicator light

16. Foot pad’s emergency button indicator light

17. Foot pad, operation indicator light

3.3 Vice adjustment

Clamping the Work Piece

- Place work piece between the jaws.

- Use the hand wheel to close the vise jaw. For

multiple cuts of a same size material, leave a small gap
between the work piece and vise jaw. Push cycle start
button (F). The vise will automatically clamp the work
piece while going through the operation cycle. When
the operation cycle is finished, the vise will open and
the work piece can be adjusted or replaced.

Operation of the Vise

When cutting angles, it may require the adjustment of
the vise jaw’s position so that the saw blade’s path is
not impeded. Follow the procedures below.

- Release the track support by turning handle (1)

counter-clockwise.

- Release the vise by moving the lever (2) to the left.

- The vise may now be moved to right position or left

position by pushing with one hand on the adjustable
vise jaw and the other hand on the track handle (1).

- Once in position, move the lever (2) to the right to

lock it into position. If the lever (2) is not between
the vise/bed mounts and facing the user, then the

1

- 4 -

vise will not be able to lock. If the vise lever (2) has
gone beyond or is obstructed by a vise/bed mount,
then use the following procedures.

- Adjust the lever (2) by grasping at the pivot point (P)
and lowering it, which may assist in the adjustment.
The lever can now be freely rotated into a more
convenient position. Some movement of the vise
jaw may be required. Raise the lever (2) then move to
the right to lock.

- Lock the track support (1) by turning handle
clockwise.

3.4 Cutting angle adjustment

Cutting at angles

- Angle can be cut up to 60°.

- Unlock lever (L) by pushing it to the left side.

- Rotate the saw arm to the desired angle by

following the index on the scale.

- Lock lever (L) by pushing to the right side.

3.5 The base

- A structure supporting the SAW ARM (revolving arm

for gradual cutting and respective blocking system),
the VICE, the BAR STOP, the ROLLER, and the
coolant return plate for the support of the material. The
base houses the cooling liquid TANK and PUMP.

L

J

The main connect switch is designed with a lock hole.
A lock can be attached to the lock hole to prevent
machine operation for safety and security purposes.

- To use the f ootpad switch (J), first use the side of the
foot to push aside the plastic clip that blocks the foot
pad. Be careful not to damage the clip by using
excessive force or stomping on the footpad. Next,
step down on the footpad to start operation.

3.6 The operation cycle

- Make sure the voltage indicated on machine motor is
the same as power source voltage. Connect the
machine to the power source, and Press the main
connect switch (B). If power indicator light (1) is on,
it means the voltages are okay.

-Select the cutting speed on switch (A).

*Note: While selecting the cutting speed indicator

light will blink.

-Press hydraulic flow control start switch (G). *Note: If
the hydraulic flow control fails to activate, then switch
(C), (D), and (F) cannot operate. Indicator light (7)
will blink if any are pressed, indicating that start switch
(G) has failed to activate.

-Check the hydraulic oil level. If oil rises up, it means
the motor is running in the right direction. If not,
rewire the plug.

- Check that the saw arm is properly set. Press saw
bow switches (C) or (D) to adjust the bow height to
help when setting the workpiece.

-Place the workpiece in the vise and clamp securely.

-Select the speed using speed selector switch (A).
The turtle indicates low speed and the rabbit indicates
high speed. “O” is for neutral.

-Be sure to stand in a safe location while operating.­There are two ways to start the machine. Press the
switch (C) to let the saw how return to the highest
position and then using the first method, select hand
operation on selector (E) and press cycle start switch
(F) to start operation. Using the second method,
Select footpad operation on selector (E) and step on
start footpad (J) to start operation.

- In general, start cuts by slightly turning hydraulic flow
regulation switch (K) counter-clockwise from 2 to 3 to
control the saw arm descent rate. If the arm
descends too quickly, turn hydraulic flow regulation
switch (K) clockwise all the way back to stop its
descent - When cutting different material use the
hydraulic flow regulation switch (K) to control saw
arm’s rate of descent.

*Note: A saw arm dropping too quickly can cause the

blade to stall on the work piece and the machine will
shut off. If so, push down on either emergency push
buttons (I or H) to immediately stop all machine
functions.

- During the operation cycle, the hydraulic vise will
automatically close on the work piece for a distance
up to 8mm. The hydraulic vise will then open
maximum 8mm on end of operation. Now it is ready
for the next operation. Therefore, it is not necessary
to manually lock down the vise jaws on the work piece
for every operation. Allowing a gap of 4-5mm
between jaws and the work piece will suffice.

- 5 -

-The saw bow will return to the bow’s maximum height

A

upon completion of operation.

- In case of Emergency or problem during the
operation cycle, press the emergency push button (H
or I) down to shut off all functions.

-To release the emergency push button (H or I), rotate
the mushroom shaped button clock-wise. The button
will pop up and then the cutting cycle can be
restarted.

-The hydraulic flow control (G) will automatically
shut-off after 5 minutes of non-operation.

*Note: If the hydraulic flow control fails to activate, then

switch (C), (D), and (F) cannot operate. Indicator
light (7) will blink if any are pressed, indicating that
start switch (G) has failed to activate.

-If the hand operation is selected and the foot pad is
used, then the hand operation indicator light (4) will
blink. And vice versa, If the foot pad operation is
selected and the hand switches are used, then the
foot operation indicator light (5) will blink. They
indicate improper selection.

-The appropriate indicator light will blink to indicate
which part of the machine has gone out of order.

1. Indicator light 14 indicates the emergency button

is pressed. Indicator light 16 indicates the
emergency button on foot pad is pressed.

2. Indicator light 13 indicates the band saw blade

has broken.

3. Indicator light 10 indicates the blade cover is

open.

4. Indicator light 12 indicates the motor has

overloaded.

5. Indicator light 15 indicates the hydraulic motor

has overloaded.

6. Indicator light 11 indicates the speed is not

properly selected.

-If the saw bow up/down switches are out of order then
indicator lights 2 and 3 will blink at the same time.

BLADE CUTTING DIRECTION

4 ADVICE ON USING YOUR BANDSAW

4.1 Recommendations and advice for using the

machine

The machine has been designed to cut metal building
materials of various shapes and profiles for use in
workshops, turner's shops and general mechanical
structural work.

Only one operator is needed to use the machine, that
must stand as shown in the picture.

- Before starting each cutting operation, ensure that
the part is firmly clamped in the vice and that the end
is suitably supported.

- These figures below show examples of suitable
clamping of different section bars, bearing in mind the
cutting capacities of the machine in order to achieve a
good efficiency and blade durability.

- Do not use blades of a different size from those
stated in the machine specifications.

- If the blade gets stuck in the cut, press the cycle start
switch or emergency button immediately to switch off
the machine, open the vice slowly, remove the part
and check that the blade or its teeth are not broken.
If they are broken, change the blade.

- Before carrying out any re
consult the dealer.

pairs on

the machine,

5 ADJUSTING YOUR MACHINE

5.1 Blade tension assembly

The ideal tension of the blade is achieved rotating the
handwheel until the needle reaches the poper blade
tension on the tension gauge (A).

The machine will not operate if the microswitch does
not actuate by contacting the touch plate (C).

B

D

C

- 6 -

If the tension is set properly, but the microswitch (B)
does not contact or trigger properly, make this
adjustment.

- Loosen the setscrews (D).

- Push the microswitch (B) towards the touch plate (C).
Make sure that the plunger is pressed properly.

- Tighten down the setscrews (D) to secure the
microswitch (B) in place.

5.2 Adjusting the blade guide

L

M

- Disconnect the machine from the power source.

- Loosen hex screw (L) on the guide bar clamp.

- Hold the handle (M) and slide blade guide bar so that

the blade guide is as close as possible to the material
without interfering with the cut.

- Tighten hex screw (L).

- Reconnect the machine to power source.

Blade guide blocks

The blade is guided by means of adjustable pads set in
place during inspection as per the thickness of the
blade with minimum play as shown.

When replacing the blade use a 0.9mm thick blade for
which the blade guides have been pre-set. For of
blades of another thickness, the adjustment should be
carried out as follows:

- Loosen nut (C), screw (B) and loosen dowel (D)
widening the passage between the pads.

- Loosen the nuts (H) and the dowels (I) and rotate the
pins (E - G) to widen the passage between the
bearings (F).

- To mount the new blade: place the pad (A) on the
blade, loosening the dowel, allow a play of 0.04 mm
for the sliding of the toothed blade, lock the relative
nut and screw (B), Rotate the pins (E - G) until the
bearings rest against the blade as indicated in the
figure and then secure the dowels (I) and nut (H).

re t

- Make su
teeth of the pad (L) this is at least 0.2 - 0.3 mm of
play; if necessary, loosen the screws that fasten the
blocks and adjust accordingly.

hat between the blade and the upper

BEFORE PERFORMING THE FOLLOWING
OPERATIONS, THE ELECTRIC POWER SUPPLY
AND THE POWER CABLE MUST BE COMPLETELY
DISCONNECTED.

5.3 Changing the blade

N

To change the blade:

- Lift the saw arm.

- Loosen the blade with the blade tension hand wheel,
remove the blade-guards, open the blade box cover
and remove the old blade from the flywheels and the
blade guide blocks.

- Place the new blade in between the blade guide pads
and on the race of the flywheels. Check the cutting
direction of the teeth.

- Tension the blade. Check that it is seated properly
on the flywheels.

- Replace and fasten the blade guards and the
flywheel guard. Check the safety interlock switch (N)

herwi

is activated ot

WARNING: Always use blades with the same
thickness as specified by this manual to match the
blade guide’s factory setting; otherwise, see chapter

5.4 Saw frame return stroke-limiting device

It consists in a mechanical adjustment system,
mounted parallel to the saw frame rise cylinder, to
reduce the passive phases of the operating cycle. In
other words to eliminate the idle stroke that takes place
when the size of the part to be cut is much smaller
than the maxi
adjust the starting position of the blade in proximity of
the part, independently of its dimensions.

Operate as follows:

- Slightly open the flow regulation valve(K).

- Bring the blade as near as 10mm from the work piece
with the bow up/bow down switches (C and D).

- Loosen handle (7) to release the adjustable stop (8)
against the limit switch (9).

- Lock the handle (7)

ATTENTION:

- It is necessary to adju
every time; bring the blade near the workpiece by
means of bow switch (D) and then start the automatic
cutting cycle (F) which will begin operation from this
position of the blade.

mum c

se the machine will not start.

utting capacity. Practically, you

st the mechanical

stop (8)

- 7 -

- The bow will return to the upper endstroke.

blade to

y

5.5 Adjusting the blade to the flywheels

TOP

Set screw D

1. Loosen the hex nut scre ws A, B, and C.

2. Use an Allen wrench on set screw D to adjust the
tilt of the flywheel.

-Turning the set screw D clockwise will tilt flywheel so

that the blade will ride closer to the flange.

-Turning the set screw D counter-clockwise with tilt the

flywheels that the blade will ride away from the flange.
If the blade rides away too far then it will come off.

After the adjustment is finished, fasten the hex nut
screws in this order: A, B, and C.

A Tilt in this direction will cause the

ride towards the flange

A Tilt in this direction will cause the
blade to ride awa

Top view

B

A

C

from the flange

Set screw D

Checking the adjustment of the blade

Use a strip of scrap paper and slide it between the
blade and the flywheel while it is running.

-if the paper is cut then the blade is riding too close to
the flange. Re-adjust.

-if you notice that the blade is riding away from the
flange. Then re-adjust.

paper

flywheel

Blade direction

WARNING: Always assemble blades having

dimensions specified in this manual and for which the
blade guide heads have been set; otherwise, see
chapter on "Description of the operating cycle" in the
section Starting-up.

5.6 Replacing the saw frame return spring

- When performing this operation it is necessary to
support saw arm using the lifting device.

- Replace the spring by loo
rod and releasing it from the lower tie-rod.

sening the up

per coupling

6 ROUTINE AND SPECIAL
MAINTENANCE

THE MAINTENANCE JOBS ARE LISTED BELOW,
DIVIDED INTO DAILY, WEEKLY,
SIX-MONTHLY
OPERATIONS ARE NEGLECTED, THE RESULT
WILL BE PREMATURE WEAR OF THE MACHINE
AND POOR PERFORMANCE.

6.1 Daily maintenance

- General cleaning of the machine to remove
accumulated shavings.

- Clean the lubricating coolant drain hole to avoid
excess fluid.

- Top off the level of lubricating coolant.

- Check blade for wear.

- Rise of saw frame to top position and partial
slackening of the blade to avoid useless yield stress.

- Check functionality of the shields and emergency
stops.

6.2 Weekly maintenance

- Thorough cleaning of the machine to remove
shavings, especially from the lubricant fluid tank.

- Removal of pump from its housing, cleaning of the
suction filter and suction zone.

- Clean the filter of the pump suction head and the
suction area.

- Use compressed air to clean the blade guides (guide
bearings and drain hole of the lubricating cooling).

- Cleaning flywheel housings and blade sliding
surfaces on flywheels.

INTERVALS. IF THE FOLLOWING

MONTHLY AND

- 8 -

6.3 Monthly maintenance

- Check the tightening of the motor flywheel screws.

- Check that the blade guide bearings on the heads are
perfect running condition.

- Check the tightening of the screws of the gear motor,
pump, and accident protection guarding.

6.4 Six-monthly maintenance

- Continuity test of the equipotential protection circuit.

6.5 Oils for lubricating coolant

Considering the vast range of products on the market,
the user can choose the one most suited to their own
requirements, using as reference the type SHELL
LUTEM OIL ECO. THE MINIMUM PERCENTAGE
OF OIL DILUTED IN WATER IS 8 - 10 %.

6.6 Oil disposal

The disposal of these products is controlled by strict
regulations. Please see the Chapter on "Machine
dimensions Transport - Installation" in the section
on Dismantling.

6.7 Coolant system

Cleaning the tank

- Use hex wrench to open the drain plug to allow the

coolant to drain out.

- Remove the hose and filter (N).

- Remove the pump (P) by loosening the 2 set

screws.

- Use a vacuum cleaner to vacuum chips and debris

from the tank.

-

Replace the drain plug. Thoroughly clean the
pump (P) and replace.

- Fill tank with coolant to a level about 25mm below

the filter.

- Replace the hose and filter.

P

N

6.8 The gear box

The gear box requires periodic changing of oil. The
oil must be changed by the first 6 months of a new
machine and every year thereafter.

To change the gear box oil

- Disconnect the machine from the power source.

- Raise the saw arm to vertical position

- Release the drain hold (R) to draw off gear oil by

loosening the hex socket screw (S).

- Replace the screw (S) after oil completely flows
off.

- Place the saw arm back to horizontal position.

- Fill Gear box with approximately .3 liter of gear oil

through the hole of the vent screw (Q)

For reference, use SHELL type gear oil or Mobile gear
oil #90.

6.9 Special maintenance

Special maintenance must be conducted by skilled
personnel. We advise contacting your nearest dealer
and/or importer. Also the reset of protective and safety
equipment and devices (of the reducer), the motor, the

ctrical components requires

motor pump, and othe
special maintenance.

r ele

Q

- 9 -

7 TECHNICAL CHARACTERISTICS

7.1 Table of cutting capacity and technical details

8 MATERIAL CLASSIFICATION AND

CHOICE OF TOOL

Since the aim is to obtain excellent cutting quality, the
various parameters such as hardness of the material,
shape and thickness, transverse cutting section of the
part to be cut, selection of the type of cutting blade,
cutting speed and control of saw frame lowering.
These specifications must therefore be harmoniously
combined in a single operating condition according to
practical considerations and common sense, so as to
achieve an optimum condition that does not require
countless op
there are many variations in the job to be performed.

erations to prepa

re the machine when

The various problems that crop up from time to time
will be solved more easily if the operator has a good
knowledge of these specifications.

8.1 Definition of materials

The table above lists the characteristics of the
materials to be cut. So as to choose the right tool to
use.

8.2 Selecting

First of all the
other words, the number of teeth per inch (25,4 mm)
suitable for the material to be cut, according to these
criteria:

- 10 -

blade

pitch of the teeth must be chosen, in

- Parts with a thin and/or variable section such as
profiles, pipes and plate, fine toothing is needed, so
that the number of teeth used simultaneously while
cutting is from 3 to 6;

- Parts with large transverse sections and solid
sections need widely spaced toothing to allow for the
greater volume of the shavings and better tooth
penetration;

- Parts made of soft material or plastic (light alloys,
mild bronze, Teflon, wood, etc.) also require widely
spaced toothing;

- Pieces cut in bundles require combo tooth design.

8.3 Teeth pitch

As already stated, this depends on the following
factors:

- Hardness of the material

- Dimensions of the section

- Wall thickness.

8.5 Blade running-in
When cutting for the first time, it is good practice
to run in the tool making a series of cuts at a low
advance speed (= 30-35 cm

2

/min on material of
average dimensions with respect to the cutting
capacity and solid section of normal steel with R =
410-510 Nimm

2

). Generously spraying the cutting

area with lubricating coolant.

8.6 Blade structure

Bi-metal blades are the most commonly used. They
consist of a silicon-steel blade backing by a laser
welded high speed steel (HHS) cutting edge. The type
of stocks are classified in M2, M42, M51 and differ
from each other because of their major hardness due
to the increasing percentage of Cobalt (Cc) and

) co

molybdenum (Mo

ntained in the metal alloy.

8.7 Blade type

They differ essentially in their constructive
characteristics, such as:

- Shape and cutting angle of tooth

- Pitch

- Set

Shape and angle of tooth
REGULAR TOOTH: Oº rake and constant pitch.

8.4 Cutting and advance speed

The cutting speed (m/min) and the advance speed

2

/min =area traveled by the disk teeth when

(cm
removing shavings) are limited by the development of
heat close to the tips of the teeth.

- The cutting speed is subordinate to the resistance of
the material (R = N/mm

2

), to its hardness (HRC) and

to the dimensions of the widest section.

- Too high an advance speed (= lowering of the saw
frame) tends to cause the disk to deviate from the
ideal cutting path, producing non rectilinear cuts on
bath the vertical and the horizontal plane.

The best combination of these two parameters ca

n directly examining the chips.

see

n be

Long spiral-shaped chips indicate ideal cutting.
Very fine or pulverized chips indicate lack of feed

and/or cutting pressure.
Thick and/or blue chips indicate overload of the blade.

Most common form for transversal or inclined cutting of
solid small and average cross-sections or pipes, in
laminated mild steel and gray iron or general metal.

POSITIVE RAKE TOOTH: 9º - 10º positive rake and
constant pitch.

Particular use for crosswise or inclined cuts in solid
sections or large pipes, but above all harder materials
(highly alloyed and stainless steels, special bronze and
forge pig iron).

COMBO TOOTH: pitch varies between teeth and
consequently varying teeth size and varying gullet
depths. Pitch varies between teeth, which ensures a
smoother, quieter cut and l

onger blade li

fe owing to the

lack of vibration.

Another advantage offered in the use of this type of
blade in the fact that with an only blade it is possible to
cut a wide range of different materials in size and type.

COMBO TOOTH: 9º - 10º positive rake.

- 11 -

This set is associated with very fine teeth and it is
mainly used for the cutting of pipes and thin section
bars (from 1 to 3 mm).

This type of blade is the most suitable for the cutting of
section bars and large and thick pipes as well as for
the cutting of solid bars at maximum machine capacity.
Available pitches: 3-4/4-6.

SETS

Saw teeth be
resulting in a wide cut in the workpiece.

REGULAR OR RAKER SET: Cutting teeth right and
left, alternated by a straight tooth.

Of general use for materials with dimensions superior
to 5 mm. Used for the cutting of steel, castings and
hard nonferrous materials.

WAVY SET: Set in smooth waves.

nt out of the plane of the sa

w body,

ALTERNATE SET (IN GROUPS): Groups of cutting
teeth right and left, alternated by a straight tooth.

This set is associated with very fine teeth and it is used
for extremely thin materials (less than 1mm).

ALTERNATE SET (INDIVIDUAL TEETH): Cutting
teeth right and left.

This set is used for the cutting of nonferrous soft
materials, plastics and wood.

9 NOISE TESTS

The test was held under environmental noise levels of 65db. Noise measurements with the machine operating
unload was 71db. Noise level during the cutting of mild carbon steel was 73db.
NOTE: with the machine operating, the noise level will vary according to the different materials being processed.
The user must therefore assess the intensity and if necessary provide the operators with the necessary personal
protection, as required by Law 277/1991.

- 12 -

10 WIRING DIAGRAMS

- 13 -

- 14 -

11 TROUBLESHOOTING

This chapter lists the probable faults and malfunctions that could occur while the machine is being used and
suggests possible remedies for solving them.
The first paragraph provides diagnosis for TOOLS and CUTS the second for ELECTRICAL COMPONENTS.

11.1 - Electrical components diagnosis

FAULT

1. No Power Blown fuse If a fuse is blown, check the related components for an

A. No operation on three-phase Check the power supply and fuses No. FU4, FU5, FU6
B. No DC24V (The white

C. No DC5V (The rest of

D. No AC24V power a. Check the transformer’s inputs FU1 and FU2(1A)

2. Hydraulic pump Failure a. Check on hydraulic motor M1, and see if it works.

Pump works but low pressure a. Check the hydra ulic motor M1 wiring for correct

3. Saw bow No operation a. Check the hydraulic pump.

4. Vise (Front, back) No operation a. Check the hydraulic pump.

PROBABLE CAUSE REMEDY

over-load or short-circuit.
for normal condition.

a. Check the transformer’s inputs FU1 and
indicator light is failed on the
panel)

indicator lights are failed.) l

FU2(1A/1.6A) for normal condition.

b. Check fuse F U1(1A) on PCB1 for normal

condition.

a. Check the transformer’s inputs FU1 and FU2(1A)

for normal condition.

b. Check fuse F U2(1A) on PCB1 for normal

condition.
for normal condition.

b. Check fuse F U3(4A) on the distributor board for

normal condition.

c. Check the connection points of the safety limit

switches at their locations on the machine for
normal condition

-refer to the wire diagram No: WT/M3/C-01,
connection wire No. 4, 5, 6, 7, 8, 19, and 20.

b. Check the pu mp for normal condition.

c. Check AC co ntactor K1 for normal condition or

over-load (FS1).

d. Check the distributor board for voltage flow to Coil

K1(Wire No. 9 and 15).
three phase connections.

b. Check the hydraulic flow for normal condition-

without staleness, shortage, or leaking.

b. Check the hydra ulic flo w for normal condition.

c. Check the distributor board for voltage flow to Coil

K1(Wire No. 9 and 15).

d. Check the sig nal of the hydraulic magnetic valve

for normal condition ( Bow up wire No. 9 and 21;
bow down wire No. 9 and 17.)

b. Check the hydra ulic flo w for normal condition.

c. Check the control panel for voltage flow to Coil

K1(Wire No. 9 and 15).

d. Check the sig nal of the hydraulic magnetic valve

for normal condition ( Vise close wire No. 9 and
31; vise open wire No. 9 and 35.)

- 15 -

FAULT

PROBABLE CAUSE REMEDY

5. Saw blade Doesn’t work a. Check sa w blade motor M2 for normal condition
b. Check the motor’s speed-exchanging switch for

normal condition..

c. Check the AC contactor K2 for normal condition or

over-load (FS2).

d. Check on the distributor board for voltage flow to

Coil K2 (Wire No. 9 and 14).

Reversing Check the blade motor M2 the wiring of motor phases.

6. Control panel No operation a. Check DC24V and DC5V (check the related

components for an over-load or short-circuit.)

b. Check the switches and see if each one is

correctly positioned.(Refer to page 4: Other
functions descriptions.)

7. Speed-exchanging

switch’s

Indicator light blinking a. Check the speed-exchange switch position.

b. Check the speed-exchange switch for working

order.

c. Check the DC24V power supply for normal

condition.

8. Saw Blade Blade-broken indicator light

blinking

a. Check the blade for damage or improper

placement on flywheels.

b. Check the limit switches for normal conditions

(Check connection for wire No. 61 and 67.)

9. Blade cover Indicator light blinking a. Check the blade covers, and see if both are

properly located and closed.

b. Check the limit switches for normal condition

(Check the connection for wire No. 61 and 68.)

10. Motor M1, M2 Over-loaded indicator light

blinking

a. Check the motor-loading for normal condition

(neither over-loaded or short-circuited.)

b. Check the wire connections for normal condition

(Check the connection points for wire No. 61, and
70 on FS1, No. 61, 69 on FS2.)

11. Saw bow Up & Down Limit switches indicators

blinking at the same time

This means the both limit switches are being pressed
at the same time.
a. Check the DC24V p ower supply for normal

condition.

b. Check co nnections for each limit switch and that

the wires are correctly connected (Check the Up
limit switch, wires No. 61, 73; Down limit switch,
wires No. 61, 71.)

12. Emergency button Indicator light blinking a. See if the emergency switch is stuck.
b. Check the wire connections ( Wires No. 61, 66 in

the emergency switch on saw body; wires No. 61,
65 for the emergency switch on the food pad
control.)

13. Foot pad Switch not working a. Check the Hand/foot pad control operation

selector (E) is properly switched.
b. Check for foot pad switch is in working order.
c. Check the wire No. 61, 72 for OK signal.

14. Other indicator lights Warning signal Refer to page4: Other functions descriptions.

- 16 -

11.2 - Blade and cut diagnosis
FAULT

TOOTH BREAKAGE

PROBABLE CAUSE

Too fast advance

Wrong cutting speed

Wrong tooth pitch

Chips sticking onto teeth and in the
gullets or material that gums

Defects on the material or material too
hard

Ineffective gripping of the part in the
vise

The blade gets stuck in the material

Starting cut on sharp or irregular
section ba

Poor qu
Previously broken tooth left in the cut
Cutting resumed on a groove made

previously
Vibrations
Wrong tooth pitch or shape

Insufficient lubricating, refrigerant, or
wrong emulsion

Teeth positioned in the direction
opposite the cutting direction.

rs

ality blade

REMEDY

Decrease advance, exerting less cutting
pressure. Adjust the braking device.

Change speed and/or type of blade.
See chapter on "Material classification
and blade selection", in the section

Blade selection table according to
cutting and feed speed.

Choose a suitable blade. See Chapter
"Material classification and blade
selection".

Check for clogging of coolant drain
holes on the blade-guide blocks and
that flow is plentiful in or
the removal of chips from the blad

Material surfaces can be oxidized or
covered with impurities making them,
at the beginning of the cut, harder that
the blade itself, or have hardened
areas or inclusions inside the section
due to productive agents used such as
casting sand, welding wastes, etc.
Avoid cutting these materi
situation a cut has to be made use
extreme care, cleaning and remove
any such impurities as quickly as
possible.

Check the gripping of the part.

Reduce feed and exert less cutting
pressure.

Pay more attention when you start
cutting.

Use a superior quality blade.
Accurately remove all the parts left in.
Make the cut elsewhere, turning the

part.
Check gri
Replace blade with a more suitable

one. See "Material classification and
blade selection" in the Blade Types
section. Adjust blade guide pads.

Check level of liquid in the tank.
Increase the flow of lubricating
refrigerant, checking that the hole and
the liquid outlet pipe are not blocked.
Check the emulsion percen

Turn teeth to correct direction.

der to facilitate

e.

als or in a

pping of the part.

tage.

- 17 -

FAULT

g

PREMATURE BLADE WEAR

BLADE BREAKAGE

PROBABLE CAUSE

Faulty running-in of blade

Teeth positioned in the direction
opposite the cutting direction

Poor quality blade
Too fast advance

Wrong cutting speed

Defects on the material or material too
hard

Insufficient lubricating refrigerant or
wrong emulsion

Faulty welding of blade

Too fast advance

Wrong cutting speed
Wrong tooth pitch

Ineffective gripping of the part in the
vice

Blade touching material at beginning
of cut

Remedy

REMEDY

See "Material classification and blade
selection" in the Blade running-in
section.

Turn teeth in correct direction.

Use a superior quality blade.
Decrease advance, exerting less

cutting pressure. Adjust the braking
device.

Change speed and/or type of blade.
See chapter on "Material classification
and blade selection,” in the section

Blade selection table according to
cutting and feed speed.

Material surfaces can be oxidized or
covered wi
the beginning of the cut, harder that the
blade itself, or have hardened areas or
inclusions inside the section due to
productive agents used such as casting
sand, welding wastes, etc. Avoid
cutting these materials or perform
cutting with extreme care, cleaning and
remove such impurities as quickly as
possible.

Check level of liquid in the tank.
Increase the flow of lubr
checking that the coolant nozzle and
pipe are not blocked. Check the
emulsion percentage.

th impurities making them, at

icating coolant,

The welding of the blade is of utmost
importance. The meeting surfaces must
perfectly match and once they are
welded they must have no inclusions or
bubbles; the welded part must be
perfectly smooth and even. They must
be evenly thick and have no bulges that
can cause dents or instant breakage
when sliding between the blade guide
pads.

Decrease adv
cutting pressure. Adjust the braking
device.

Change speed and/or type of blade.
See chapter on "Material classification

and blade selection", in the section

Blade selection table according to
cutting and feed speed.

Choose a suitable blade. See Chapter
"Material classification and blade
selection.”

Check the gripping of the part.

At the beginning of the cutting process,
never lower the sa
startin

ance, exerting less

w bow bef

the blade motor.

ore

- 18 -

FAULT

STEAKED OR ETCHED
BANDS

CUTS OFF THE STRAIGHT

PROBABLE CAUSE

Blade guide pads not regulated or
dirty because of lack of maintenance

Blade guide block too far from
material to be cut

Improper position of blade on
flywheels

Insufficient lubricating coolant or
wrong emulsion

Damaged or chipped blade guide
pads

Tight or slackened blade guide
bearings.

Blade not parallel as to the counter
service

Blade not perpendicular due to the
excessive play between the guide
pads and maladjustment of the blocks

Too fast advance

Worn out blade

Wrong tooth pitch

REMEDY

Check distance between pads (see
"Machine adjustments" in the Blade
Guide Blocks section): extremely
accurate guiding may cause cracks and
breakage of the tooth. Use extreme
care when cleaning.

Approach head as near as possible to
material to be cut so that only the blade
section employed in the cut is free, this
will prevent deflections that would
excessively stress the blade.

The back of blade rubs aga
support due to deformed or poorly
welded bands (tapered), causing
cracks and swelling of the back
contour.

Check level of liquid in the tank.
Increase the flow of lubricating
refrigerant, checking that the hole and
the liquid outlet pipe are not blocked.
Check the emulsion percentage.

inst the

Replace them.

Adjust them (see Chapter "Machine
adjustments" in Blade guide section).

Check fastenings of the blade guide

blocks as to the counter-vice so that
they are not too loose and adjust blocks
vertically; bring into line the position of
the degrees and if necessary adjust the
stop screws of the degree cuts.

Check and vertically re-adjust the blade
guide blocks; reset proper side guide
play (see Chapter "Machine
adjustments" In Blade guide section).

Decrease advance, exerting less
cutting pressure. Adjust the braking
device.

Approach it as near as possible to
material to be cut so that only the blade
section employed in the cut is free, this
will prevent deflections that would
excessively stress the blade.

Replace it. Blade with major density of
teeth is being used, try using one with
less teeth (see
classification and blade selection" in the
Blade Types section).

Chapter "Material

- 19 -

FAULT

FAULTY CUT

STREAKED CUTTING
SURFACE

NOISE ON GUIDE BLOCKS

PROBABLE CAUSE

Broken teeth

Insufficient lubricating refrigerant or
wrong emulsion

Worn out flywheels

Flywheel housing full of chips

Too fast advance

Poor quality blade
Worn out blade or with chipped

and/or broken teeth
Wrong tooth pitch

Blade guide block too far from
material to be cut

Insufficient lubricating coolant or
wrong emulsion

Chipped bearings
Worn out or damaged pads

REMEDY

Irregular work of the blade due to the
lack of teeth can cause deflection in the
cut; check blade and if necessary
replace it.

Check level of liquid in the tank.
Increase the flow of lubricating coolant,
checking that the hole and the liquid
outlet pipe are not blocked. Check the
emulsion percentage.

The support and guide flange of the
band are so worn out that they

cannot ensure the alignment of the
blade, causing faulty cutting; blade
rolling and drawing tracks can have

become tapered. Replace them.

Clean with compressed air.

Decrease advance, exerting less
cutting pressure. Adjust the braking
device.

Use a superior quality blade.
Replace it.

Blade used probably has too large
teeth, use one with more teeth (see

"Material classification and blade
selection" in the Blade Types

section).
Approach it as near as possible to

material to be cut so that only the
blade section employed in the cut is
free, this will prevent deflections
that would ex
blade.

Check level of liquid in the tank.
Increase the flow of lubricating
coolant, checking that the hole and
the liquid outlet pipe are not
blocked. Check the emulsion
percentage.

ssively stress the

ce

Dirt and/or chips between blade
and guide bearings. Replace them.
Replace them.

- 20 -

Part

No.

1
2
2-1
3
4
4-1
4-2
5
6
8
8-1
9
10
11
12
13
14
15
16
17
18
18-1
22
23
23-1
24A
24-1
24-2
24-3
24-4A
25
26
27
28
29
29-1
30
31
32
33
34
35
36
37
38
39
40
40-1
40-2
41
42
43
44
45
46
46-1
47

PART LIST

Description Size No. Q’ty

Base (Bottom Plate) 1
Base (Left Part) 1
Nut M8 4
Base (Right Part) 1
Base (Front Part) 1
Hex. Cap Bolt M8x16 4
Washer M8 8
Hex. Cap Bolt M12x40 2
Nut M12 2
Hex. Cap Bolt M8x16 6
Washer M8 6
Plate 1
Hex. Socket Cap Screw M5x8 4
Coolant Tank 1
Hex. Cap Bolt M8x16 2
Coolant Gauge 1
Hex. Cap Bolt M10x30 2
Tank Cover 1
Filter 1
Pump 1
Hex. Socket Cap Screw M6x25 2
Washer M6 2
Hose Clamp 13mm 1
Hose 5/16”x235cm 1
Hose 1”x45cm 1
Coolant and Chip Tray 1
Plate 4
Hex. Cap Bolt M10x20 4
Nut M10 4
Block Plate 1
Mounting Bracket 2
Spring Washer M10 4
Hex. Socket Cap Screw M10x20 4
Washer M10 4
Hex. Cap Bolt M10x20 4
Washer M10 4
Hex. Cap Bolt M12x40 2
Nut M12 2
Scale 1
Round Head Screw M5x10 2
Nut 1
Switch 1
Emergency Switch 1
Grommet 2
Grommet 1
Track 1
Hex. Socket Cap Screw M8x35 2
Nut M8 2
Spring Washer M8 2
Set Screw M6x12 4
Washer 1
Handle M8x25 1
Roller Stand 1
Hex. Cap Bolt M12x25 2
Spring Washer M12 2
Washer M12 2
Roller 1

Part

No.

48
48-1
49
50
51
53
53-1
54
55
56A
56-1
57-1
58
58-1
59A
60
60-1
60-2
61
61-1
63
63-1
64
64-1
65
65-1
65-3
65-4
65-5
66A
68
68-1
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86A
87
88A
88-1
88-2
89
89-1
92A

Description Size

Ball Bearing 6004ZZ 2
C-Ring S-20 2
Roller Shaft 1
Hex. Socket Cap Screw M10x20 2
Pedal Plate 1
Pedal Switch 1
Micro Switch 1
Round Head Screw M4x10 4
Hex. Socket Cap Screw M6x8 1
Emergency Switch Box 1
Pipe 1
Flat Head Cross Screw 4
Hex. Socket Cap Screw M5x8 4
Nut M4 4
Emergency Switch 1
Handle 1
Hex. Socket Cap Screw M8x20 2
Nut M8 2
Handle 1
Nut M12 1
Locking Lever 1
Set Screw M10x16 1
Hex. Socket Cap Screw M10x35 1
Spring Washer M10 1
Shaft Nut 1
Oil Seal 1
Disk 1
Spring Washer M8 4
Hex. Socket Cap Screw M8x35 4
Shaft 1
Swivel Arm 1
Hex. Cap Bolt M10x35 1
Scale 1
Rivet 2.3x4 3
Pin 1
Hollow Pin
Spring 1
Bushing 1
Bracket 1
Spring Washer M8 2
Hex. Socket Cap Screw M8x25 2
Knob 1
Jam Nut M40 1
Star Washer M40 1
Anti-Dust Cover M40 2
Ball Bearing 32008 2
Shaft 1
Hex. Cap Bolt M10x45 1
Nut M10 2
Pointer 1
Hex. Socket Cap Screw M5x8 1
Cover 1
Hollow Pin
Set Screw M8x10 1
Hex. Socket Cap Screw M8x35 5
Spring Washer M8 5
Table 1

No. Q’ty

∅ 2.5x16

∅ 6x20

1

2

970522

- 21 -

Part

No.

92-1
92-2
92-3
94
95A
95-1
95-2
96
97
98
99
100
102
103
104
105
106
107
108A
109
110
111
112A
112-1
112-2
113
114
115
116
117
117-1
117-2
117-3
118
120A
122
123
124
125
127
128
129
130
130-1
131
132
133
135
136
138
138-1
139
140-5
140-6
140-8

140-11

142
143
146
147-2

PART LIST

147-5
151
152
152-1
153
153-1
154
155
156
157
157-1
158
159
160
161
162
163
164
164-1
165
166
167
168
169
170
170-1
171
172
173
174A
175
176
177
178
179
180
181
182
183
183-1
184
185
185-1
186
186-1
187
188
189A
190
191
192
193B
194
194-1
195
195-1
196
197
197-1
198

- 22 -

Part

No.

Description Size

Speed Selector 1
Reduction Unit 1
Key 8x8x30 1
Vent Screw 1
Hex. Cap Bolt M8x25 4
Spring Washer M8 4
Motor 1
Key 8x7x35 1
Anchoring Dowel 1
Hex. Socket Cap Screw M8x25 4
Spring Washer M8 4
Hollow Pin Ø6x20 2
Coupling Fork 1
Pin on Fork 1
C-Ring S-20 2
Nut 1
Rod Supporting Block 1
Hex. Socket Cap Screw M10x30 1
Spring Washer M10 2
Nut M10 1
Hex. Socket Cap Screw M10x40 1
Adjustable Stop 1
Handle M8x25 1
Stop Bar 1
Adjustable Stop 1
Set Screw M8x10 1
Hydraulic Cylinder (Arm) 1
Bushing 2
Hex. Socket Cap Screw M12x20 2
Limit Switch Plate 1
Spring Washer M8 4
Nut M8 4
Spring Washer M6 2
Hex. Socket Cap Screw M6x12 2
Limit Switch 2
Hex. Socket Cap Screw M6x25 4
Spring Holder 1
Nut M8 2
Hex. Cap Bolt M12x25 2
Spring Washer M12 2
Cylinder Guard 1
Hex. Socket Cap Screw M6x60 2
Hex. Socket Cap Screw M5x8 1
Hex. Socket Cap Screw M10x35 4
Spring Washer M10 4
Cylinder Coupling 1
Spring Hook 3/8” 1
Spring 1
Setting Bushing 1
Washer M8 1
Hex. Socket Cap Screw M8x35 1
Saw Arm 1
Hex. Socket Cap Screw M10x35 4
Spring Washer M10 4
Limit Switch 1
Switch Pin 1
Hex. Socket Cap Screw M4x35 2
Hex. Socket Cap Screw M10x35 4
Spring Washer M10 4
Pipe Fitting Seat 1

Description Size No. Q’ty

Set Screw M6x12 1
Changeable Plate 1
Hex. Socket Cap Screw M8x20 4
Bar-Stop-Rod 1
Bar-Stop 1
Hex. Cap Bolt M10x50 1
Nut M10 1
Handle M10x35 1
Scale 1
Rivet 3
Chip Gutter 1
Hex. Socket Cap Screw M6x8 2
No-Burr Jaw 1
Hex. Socket Cap Screw M6x15 2
Counter Vise Jaw 1
Hex. Socket Cap Screw M6x15 2
Vise Jaw 1
Flat Head Machine Screw M6x15 2
Vise 1
Dovetail Plate 1
Nut M5 3
Set Screw M5x25 3
Vise Screw for Hydraulic Drive 1
Hex. Socket Cap Screw M8x16 1
Washer M8 1
Key 5x5x15 1
Hydraulic Cylinder (Vise) 1
Spring Washer M8 4
Hex. Socket Cap Screw M8x25 4
Hand Wheel 1
Spring Washer M6 1
Hex. Socket Cap Screw M6x25 1
Bushing 1
Set Screw M8x10 1
Vise Seat 1
Vise Setting Plate 1
Hex. Socket Cap Screw M10x30 2
Setting Washer 1
Lock Lever Device 1
Handle 1
Setting Plate 1
Bushing 1
Hex. Socket Cap Screw M8x20 2
Spring Washer M8 2
Electric Box Holder 1
Spring Washer M8 4
Hex. Socket Cap Screw M8x20 4
Hex. Socket Cap Screw M10x25 2
Spring Washer M10 2
Hex. Socket Cap Screw M6x25 2
Washer M6 2
Nut M6 2
Magnetic Switch C09/C12 2
Overload Relay 1
Hex. Cap Bolt M6x15 3
Overload Relay 1
Hex. Socket Cap Screw M5x8 10
Nut M5 4
Round Head Screw M5x10 4
Main Connect Switch 1

No. Q’ty

970522

Part

No.

199
200
201
203
204
205
206
207
207-1
208
209A
210
211
212
212-1
213
214
215A
216B
216A-1
216A-2
217
219
220
222
223
223-1
223-2
223-3
224
225
229
230
231
232
239
240A
240A-1
240A-2
240A-3
244
245
246
247
248
249
249-1
250
251
252
253
254
256
258
259
260

PART LIST

261
262
263
264
265
265-1
266
267
268
269
270
271
272
272-1
273
274
275
276
277
279
280
281
282
283
284
285
326A
327A
328A
329A
330A
331A
332A
333A
334A
335A
336A
337A
337A-1
338A
339A
340A
341A
P01
P01-1
P02
P03
P04
P04-1
P04-2
P04-3
P04-4
P05
P05-1
P05-2

- 23 -

Part

No.

Description Size

Blade Guard 1
Set Screw M6x20 2
Nut M6 2
Centric Shaft 2
Ball Bearing 608ZZ 8
Ball Bearing 608ZZ 2
E-Ring E-7 8
Blade Guide 2
Hex. Socket Cap Screw M6x25 2
Eccentric Shaft 2
Hex. Socket Cap Screw M6x8 2
Blade Guard 1
Guide Bracket 1
Hex. Socket Cap Screw M6x8 2
Pipe Fitting 2
Blade Guide 2
Ball Bearing Bracket 1
Set Screw M6x12 4
Hex. Socket Cap Screw M10x20 2
Hex. Socket Cap Screw M8x20 2
Brush 1
Brush Clamp 1
Set Screw M5x5 1
Set Bushing 1
Hex. Cap Bolt M6x12 2
Washer M6 2
Flow Control 1
Hose 2.5 meters 1
Hose 2.0 meters 1
Hose 2.0 meters 1
Hose 2.0 meters 1
Hose 1.5 meters 1
Manifold 1
Motor 1
Pump 1
Oil Gauge 1
Solenoid 2D2 1
Solenoid 3C4 1
Pilot Check 1
Reducing 1
Oil Fill Port 1
Tank Cover 1
Tank 1
Control Panel 1
Main Board 1
Electrical Box Cover 1
Electric Box Platform 1
Electric Parts Plate 1
Transformer 1
Fuse Block 3
Power in Fuses 3
Grounding Plate 1
Electric Parts Plate (Rear) 1
Dual Terminal Connector 1
Connector PC Board 1

Description Size No. Q’ty

Hex. Socket Cap Screw M5x30 2
Coolant Switch 2
Hose Clamp 13mm 1
Pipe Fitting 1/4Px5/16 1
Hose 5/16”x40cm 1
Hose 5/16”x90cm 1
Drive Flywheel 1
Washer 1
Spring Washer M10 1
Hex. Cap Bolt M10x25 1
Idle Flywheel Shaft 1
Roller Bearing 32007 2
Idle Flywheel 1
Star Washer M35 1
Anti-dust Cover M35 2
Jam Nut M35 1
Oil Inlet 1/16 1
Saw Blade 1
Blade Cover 1
Extension 1
Round Head Screw M6x8 2
Plum Screw M6x10 4
Round Head Screw M4x8 2
Nut M4 2
Handle 2
Handle Wheel 1
Thrust Bearing 51103 1
Blade Tension Gauge 1
Plate 1
Special Spring Washer 10
Tension Shaft 1
Plate 1
Hex. Socket Cap Screw M6x12 2
Limit Switch 1
Hex. Socket Cap Screw M4x25 2
Nut M16 1
Slide Bracket 1
Spring Washer M10 3
Hex. Socket Cap Screw M10x45 3
Set Screw M10x25 1
Cover Plate 1
Hex. Socket Cap Screw M6x8 2
Gib 2
Spring Washer M8 6
Hex. Socket Cap Screw M8x20 6
Blade Guide Movable Rod 1
Hex. Socket Cap Screw M6x8 1
Set Screw M6x12 4
Hex. Socket Cap Screw M8x20 2
Setting Bracket 1
Hex. Socket Cap Screw M12x50 1
Handle 1
Guide Bracket 1
Nut M10 2
Bolt 2
Hex. Socket Cap Screw M6x8 1

No. Q’ty

970522

- 24 -

- 25 -

- 26 -

)
2
(
5
8
2

)
4
(
6
7
2

5
7
2

)
2
(
3
7
2

)
2
(
9
7
2

0
8
2

)
2
(
4
8
2

3
8
2

2
8
2

1
8
2

)
4
(
0

9

5

4

2

2

)
2
(
1
5
2

4

2
7
2

)
2
(
1

-
2
7
2

)
2
(
4
7
2

1
7
2

)
2
(
0
7
2

6
5
2

)
2
(
8
5
2

)
4
/
4
(

-
A
S
D
5
3
W

)
2
(
9
5
2

0
6
2

)

)

2

2

(

(

3

2

6

6

2

2

1
6
2

)
2
(
4
6
2

)

)

8

8

(

(

6

5

6

6

2

2

)
2
(
7
6
2

)
2
(
8
6
2

)

)

2

2

(

(

9

1

6

-
2

5
6
2

5
2

1

-
9
4
2

- 27 -

+

Vise pressure ADJ

Z

c

327A

171

p

329A

326A

114

328A

159

_

332A

ADJ Pressure 15-30kg/cm

331A

330A

337A-1

336A

337A

341A

340A

335A

332A

Semi Auto and Vise Hydraulic System

Z

338A

333A

339A

334A

- 28 -