Mitsubishi GM-SHY2 Motor Instruction Manual PDF

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Summary of Content for Mitsubishi GM-SHY2 Motor Instruction Manual PDF

SAFETY PRECAUTIONS

Carefully operate the Geared Motor. An operation error may cause injury or electric shock.

To ensure operator safety, the safety precautions are ranked as DANGER and CAUTION In this instruction manual. When a dangerous situation may occur if handling is mistaken leading to fatal or

major injuries.

When a dangerous situation may occur if handling is mistaken leading to medium

or minor injuries or physical damage.

Note that some items described as may lead to major results depending on the situation. In any case,

important information that must be observed is described.

General

Before starting use of this Geared Motor always read this manual and the nameplate.

Operation conditions and ambient conditions Do not place any object inflammable near the geared motor. Failure to observe this warning may case fire or

explode. If you have to place an organic solvent or explosive powder near the geared motor for some reasons, use

the explosion-proof geared motor.

Do not use the geared motor as elevator for human transport. Use of a geared motor for such a purpose is prohibited

by the Building Standard Law of Japan.

If the equipment is to be used with an elevator, be sure to burnish with a safety device to prevent the elevator from

accidental falling. Failure to observe this warning may cause physical injury and damage to the equipment.

Wiring Be sure to ground the geared motor, and install a circuit breaker for each motor. Without grounding or circuit

breaker, you may get an electric or physical injury.

To wire the geared motor, be sure to observe the technical standards for electric equipment or interior wiring code by

the corresponding electric power company.

Install an optimum motor protector on each motor. Without any protector, the motor may cause a fire at the time of a

problem.

Be sure to supply the specified voltage to the geared motor. If the voltage is too high, a fire may be caused.

Always follow the connection drawing in the terminal Box or the instruction manual when connecting the power cable.

Operation

If a load is lifted up, do not release the brake using the manual brake release unit. The load may be dropped

During inverter operation ,be sure to observe the specified frequency range. If the frequency is out of the specified

range. the motor may be damaged.

Failure observe this warning may cause physical injury and or damage to the equipment.

Never go near or touch the rotating parts(shaft, etc)during operation, Failure to observe this could load to

entanglement or injuries.

Operate under the specified rotation speed described in Outline drawings, Specifications, or Catalogue. Otherwise,

geared motor may explode or damage.

DANGER

CAUTION

CAUTION

DANGER

1

General:

If the geared motor is equipped with a hoisting accessory, be sure to use the hoisting accessory to lift and transfer a

load.

Operation conditions and ambient conditions:

If the geared motor malfunctions, the grease may leak from the motor. To protect the environment from the grease,

place an oil pan at the leak point. Be sure to attach safety covers to the belts, chains, gears, etc.

Operation: To operate the geared motor, observe the allowable loading torque range and the allowable starting frequency range.

During operation, if the motor generates an abnormal noise, vibrates extremely, or shows abnormal characteristics,

be sure to stop the motor, and inspect or overhaul the motor.

During operation, keep your body away from the geared motor. If you touch the geared motor during operation, you

may be injured or get burned.

If the geared motor is equipped with a one-touch manual brake release lever, be sure to lock the brake release lever in

the lever holder before starting operation.

Maintenance and modification:

Do not modify the geared motor.

Be sure to turn off the power before inspection or repairing the motor.

Disposal

Treat the motor as general industrial waste when disposing of it.

Contents

1.Product Check 3

2.Operation Conditions Ambient Condition 3

3.Installation and Adjustment 3

4.Connection 4

5.Guidelines for replacing the old geared motor 5

6.Wiring 5

7.Motor Wiring and Output Shaft Rotational Direction Viewed Output Shaft End 6

8.Brake Wiring 7

9.Brake(0.10.4kW) 9

10. Brake(0.752.2kW) 11

11.DustWaterproof type 13

12.Operation 15

13.Maintenance 15

14.Troubleshooting 16

15.Contact Us 17

16.Labeling(product name)based on the Marking for the Restriction of the Use of Certain Hazardous

Substances in Electrical and Electronic Equipment:Geared Motor 18

CAUTION

2

General:

If the geared motor is equipped with a hoisting accessory, be sure to use the hoisting accessory to lift and transfer a

load.

Operation conditions and ambient conditions:

If the geared motor malfunctions, the grease may leak from the motor. To protect the environment from the grease,

place an oil pan at the leak point. Be sure to attach safety covers to the belts, chains, gears, etc.

Operation: To operate the geared motor, observe the allowable loading torque range and the allowable starting frequency range.

During operation, if the motor generates an abnormal noise, vibrates extremely, or shows abnormal characteristics,

be sure to stop the motor, and inspect or overhaul the motor.

During operation, keep your body away from the geared motor. If you touch the geared motor during operation, you

may be injured or get burned.

If the geared motor is equipped with a one-touch manual brake release lever, be sure to lock the brake release lever in

the lever holder before starting operation.

Maintenance and modification:

Do not modify the geared motor.

Be sure to turn off the power before inspection or repairing the motor.

Disposal

Treat the motor as general industrial waste when disposing of it.

Contents

1.Product Check 3

2.Operation Conditions Ambient Condition 3

3.Installation and Adjustment 3

4.Connection 4

5.Guidelines for replacing the old geared motor 5

6.Wiring 5

7.Motor Wiring and Output Shaft Rotational Direction Viewed Output Shaft End 6

8.Brake Wiring 7

9.Brake(0.10.4kW) 9

10. Brake(0.752.2kW) 11

11.DustWaterproof type 13

12.Operation 15

13.Maintenance 15

14.Troubleshooting 16

15.Contact Us 17

16.Labeling(product name)based on the Marking for the Restriction of the Use of Certain Hazardous

Substances in Electrical and Electronic Equipment:Geared Motor 18

CAUTION

- 3 -

1.Product Check (1) Check that the model number, output, speed, etc. you specified are written on the nameplate.

(2) Check that the product is not damaged during transportation.

(3) Check the screws and bolts for looseness.

2.Operation Conditions and Ambient Conditions (1) Do not place any object inflammable near the geared motor. Failure to observe this warning may case fire or explode.

(2) Do not use the geared motor as elevator for human transport. Use of a geared motor for such a purpose is prohibited by the Building Standard

Law.

(3) If the equipment is to be used with an elevator, be sure to burnish with a safety device to prevent the elevator from accidental falling. Failure

to observe this warning may cause physical injury and damage to the equipment.

(4) Do not rotate the geared motor at a high speed from the load side. The motor may be exploded.

(5) Be careful when a small power low gear ratio model raises operation frequency to 60Hz or more, rotation speed may not rise because of the

influence of a machine loss.( Example: When 120Hz operation is performed by 0.1kW gear ratio 1/5,1/7.5 etc.)

(6) Don't use an inside-of-a-house type on a moist place and the outdoors. Generating of rust and the fall of insulation resistance may be caused by

dew condensation or permeation of water. Use an outdoor type, when you use under such environment.

(7) Keep in mind that it may result in allophone generating or bearing breakage by electric corrosion if career frequency is highly set up by inverter

operation.

3.Installation and Adjustment (1) If the geared motor is equipped with a hoisting accessory, be sure to use the hoisting accessory to lift and transfer a load.

(2) If the geared motor malfunctions, the grease may leak from the motor. To protect the environment from the grease, place an oil pan at the

leak point.

(3) Be sure to attach safety covers to the belts, chains, gears, etc.

(4) The grease lubrication method is adopted for all the motor models. The grease lubrication type geared motors can be installed in any direction.

(The grease is full at the time of factory shipment.)

(5) Install the motor at an appropriate place that ensures low humidity and little dust. Check that the ambient temperature is between 15

and +40 , and the relative humidity is 90% or less. Check that the motor cannot be frozen at the installation place. In addition, check the

motor cooling condition of the installation place. The motor should not be extremely heated.

(6) Install the motor on a rigid and thermal conductive base using bolts having strength of 8.8 or above. Adjust the flatness of the installation

surface to 0.2mm or less. Moreover, put in an attachment pitch into the tolerance shown in Table 2 in the GM-SSY type.

(7) To mount a flange mounting (face mounting) type or foot mounting type geared motor, be sure to use the bolts of the corresponding size as

shown in Table 1.

(8) The installation of GM-SSY type must use the size shown in Table 2 respectively bolt. Please use a special washer of the attachment at the

flange installation.

Table 1. Various Gear Sizes and Corresponding Bolt Sizes

Size of bolt Deceleration

ratio

Output

1/5

1/7.5

1/10

1/60

1/80

1/240

1/300

1/1440

Size of

gear Foot mounting type Flange mounting face mounting type

0.1kW CT Hexagon socket head bolt M8 Hexagon (socket head) bolt M8

0.2kW DT Hexagon socket head bolt M10 Hexagon (socket head) bolt M10

0.4kW DT(* ) Hexagon socket head bolt M12 Hexagon (socket head) bolt M12

0.75kW C C DT D DT Hexagon socket head bolt M12 Hexagon (socket head) bolt M16

1.5 W DT D ET E,ET Hexagon socket head bolt M16 Hexagon (socket head) bolt M20

2.2 W ET E E *2

(*1)The range of the gear ratio of 0.4kW shows 1/300 1/480.(*2) The range of the gear ratio of 2.2kW shows 1/80 1/120.

Table 2. Various Gear Sizes and Corresponding Bolt Sizes

Flange installation Face mount installation Output Deceleration ratio

Size of

gear Size of bolt Installation pitch allowance Size of bolt

0.1kW 1/7.5 1/60

0.2kW 1/7.5 1/30 20 Hexagon socket head bolt M6 0.4 Hexagon (socket head) bolt M8

0.2kW 1/40 1/60

0.4kW 1/7.5 1/30 25 Hexagon socket head bolt M8 0.4 Hexagon (socket head) bolt M10

0.4kW 1/40 1/60

0.75kW 1/7.5 1/30 30 Hexagon socket head bolt M10 0.4 Hexagon (socket head) bolt M12

0.75kW 1/40 1/60

1.5 W 1/7.5 1/30 35 Hexagon socket head bolt M12 0.5 Hexagon (socket head) bolt M16

2.2 W 1/7.5 1/30 45 Hexagon socket head bolt M16 0.5 Hexagon (socket head) bolt M20

3

4.Connection

4.1 When using it as a solid shaft

(1) To properly connect the Geared Motor to the machine, reduce the

eccentricity between the motor and machine to 0.05mm or less.

Use the flexible coupling to easily connect the motor to the

machine.

(2) Adjust deflection amount of the chain to 4% of the span(refer to

Fig.1). If the deflection amount is too large, a great shock may

be applied at starting, and the geared motor may be damaged by

the shock.

(3) To prevent damage caused by the overhang load, adjust the

positions of the sprocket, gear, pulley, etc. so that the loading

position can be closer to the joint of the output shaft and the gear

case (refer to Fig. 2).

(4) The tolerance for the holes of the sprocket, coupling, etc.

should be H8. Smoothly install the sprocket, coupling etc. using

the tap on the output shaft (refer to Fig. 3). (5) Do not use any hammer for installation. Application of a large

force may damage the bearing, gear, etc.

4.2 For hollow shaft Prepare the parts shown in Fig. 4 to easily connect the motor. We cannot supply any tools necessary for attachment or removal. Please prepare these

tools by yourself.

Attach an attached protective cover in an opposite drive side.Insert striking lightly into the slot processed on the case flange face.

1.Connection to hollow shaft

Before connection, Please insert it after spreading the printing prevention

medicine (molybdenum disulfide etc.) on the driven shaft and the inside

diameter of the hollow shaft when you insert driven shaft

If the shafts are too tight to be engaged each other, tap the hollow shaft

(output shaft) with a shock-less hammer. If you use the jigs and tools shown

in the figure, you can connect the shafts more easily.

The inner diameer of the hollow shaft is machined while observing the H8

tolerance grade. For general engagement, the tolerance of h7 is recommended

for the driven shaft. If a large shock or a large radial load is to be applied to

the shafts, tightly engage the shafts.

2.Fixing of hollow shaft

(a) If driven shaft has steps (b) If driven shaft does not have any steps

Firmly fix the driven shaft to the hollow

shaft.

3.Removal from hollow shaft

If you manufacture the tools shown in the

figure, the shaft can be smoothly removed.

Fig. 4 Hollow shaft and driven shaft

Spacer

Bearing

Nut

Bolt

SpacerSpacer

Bolt Snap ring Snap ring Bolt

Snap ring

Bolt

Spacer

Cross section of spacer

0.04 L or less

L Fig. 1 deflection amount of chain

Fig.2 Sprocket position Fig. 3 Sprocket installation

d

3 d o

r m ore

4

4.Connection

4.1 When using it as a solid shaft

(1) To properly connect the Geared Motor to the machine, reduce the

eccentricity between the motor and machine to 0.05mm or less.

Use the flexible coupling to easily connect the motor to the

machine.

(2) Adjust deflection amount of the chain to 4% of the span(refer to

Fig.1). If the deflection amount is too large, a great shock may

be applied at starting, and the geared motor may be damaged by

the shock.

(3) To prevent damage caused by the overhang load, adjust the

positions of the sprocket, gear, pulley, etc. so that the loading

position can be closer to the joint of the output shaft and the gear

case (refer to Fig. 2).

(4) The tolerance for the holes of the sprocket, coupling, etc.

should be H8. Smoothly install the sprocket, coupling etc. using

the tap on the output shaft (refer to Fig. 3). (5) Do not use any hammer for installation. Application of a large

force may damage the bearing, gear, etc.

4.2 For hollow shaft Prepare the parts shown in Fig. 4 to easily connect the motor. We cannot supply any tools necessary for attachment or removal. Please prepare these

tools by yourself.

Attach an attached protective cover in an opposite drive side.Insert striking lightly into the slot processed on the case flange face.

1.Connection to hollow shaft

Before connection, Please insert it after spreading the printing prevention

medicine (molybdenum disulfide etc.) on the driven shaft and the inside

diameter of the hollow shaft when you insert driven shaft

If the shafts are too tight to be engaged each other, tap the hollow shaft

(output shaft) with a shock-less hammer. If you use the jigs and tools shown

in the figure, you can connect the shafts more easily.

The inner diameer of the hollow shaft is machined while observing the H8

tolerance grade. For general engagement, the tolerance of h7 is recommended

for the driven shaft. If a large shock or a large radial load is to be applied to

the shafts, tightly engage the shafts.

2.Fixing of hollow shaft

(a) If driven shaft has steps (b) If driven shaft does not have any steps

Firmly fix the driven shaft to the hollow

shaft.

3.Removal from hollow shaft

If you manufacture the tools shown in the

figure, the shaft can be smoothly removed.

Fig. 4 Hollow shaft and driven shaft

Spacer

Bearing

Nut

Bolt

SpacerSpacer

Bolt Snap ring Snap ring Bolt

Snap ring

Bolt

Spacer

Cross section of spacer

0.04 L or less

L Fig. 1 deflection amount of chain

Fig.2 Sprocket position Fig. 3 Sprocket installation

d

3 d o

r m ore

- 5 -

4.3 Installation of torque arm The torque arm is normally used for fixing of the hollow shft type geared motor. This is because the torque arm can prevent unexpected rotation of the geared motor that may be caused by the reaction force of the driven machime,

Considering the shock that may be applied at starting or braking, be sure to select a plate thickness and bolt type that can ensure enough strength (refer to Fig. 5).

Move the end face of the hollow shaft close to section A (torque arm whirl-stop) as far as possible. Check that forces unnecessary for stopping the whirl cannot be applied to the torque arm whirl-stop.. Elongate dimension r of the torque arm ad long as possible (refer to Fig. 6).

5. Guidelines for replacing the old geared motor When replacement of the old geared motor, please note the following. (1) There is mounting compatible, but the total length will be longer. When installation, please check the interference of surrounding devices.

Also, consider ventilation for the motor cooling, please keep a distance between the fan cover and the wall, as in Figure 5 and Table 1. Dimensions FC2 is minimum dimensions of the wall-to-fan cover in consideration of ventilation for motor cooling, however, we recommend to set the wall-to-fan distance so that when conducting brake maintenance or etc, the fan cover can be removed.

(2) Please reconsiders the design of the wiring equipment of the breakers and etc since starting current may increase. (3) Since the rotation speed may increase and the power consumption increase, please consider the necessity of countermeasures such as setting the

rotational speed of the load machine to the same as previous one by changing the sprocket ratio or the output frequency of the inverter. (4) Please reconsider the acceptable number of starts and the acceptable number of starts per hour, since moment of inertia may increase. (5) When using non-brake geared motors, period of free-run may be longer. Also, when it comes to brake-in geared motors, especially when

simultaneous braking method, brake holding period may be longer. Therefore according to necessity, please adopt separated braking method or Direct current (quick) braking method.

Fig.7 Dimension of the wall-to fan cover 6.Wiring (1) Be sure to ground the geared motor, and install a circuit breaker on each motor. Without grounding or circuit breaker, you may get an

electric shock. (2) To wire the geared motor, use high-quality wiring parts, and be sure to observe the technical standards for electric equipment and the

regulations for internal wiring specified by the corresponding electric power company. The outline is shown in Table 1. If the wiring distance is long, adjust the voltage drop to 2% or less.

(3) Install an optimum motor protector on each motor. Without any protector, the motor may cause a fire at the time of a problem. (4) Be sure to supply the specified voltage to the geared motor. If the voltage is too high, a fire may be caused. (5) To remove the terminal cover, lift the cover while pulling the cover in the arrow direction shown on the cover.(0.1 to 0.4kW)

Motor type

Output (kW)

Minimum wire thickness(mm) (See Note 1)

Maximum wire line length(m) (See Note 2)

Overcurrent breaker(A) (Note3)

Over scale ammeter(A)

Minimum grounding wire thickness(mm) Full-voltage

starting 200V 400V 200V 400V 200V 400V 200V 400V 200V 400V

SSY, SSY2 SHY, SHY2

0.1,0.2 1.6 1.6 144 580 15 15 5 5 1.6 1.6 0.4 1.6 1.6 81 326 15 15 5 5 1.6 1.6

SSYP, SHYP

0.75 1.6 1.6 54 217 15 15 5 5 1.6 1.6 1.5 1.6 1.6 32 130 30 15 10 5 1.6 1.6 2.2 1.6 1.6 23 94 30 15 10 5 1.6 1.6

Note1: The minimum wire thickness is for when three wires are place in a conduit. Note2: Maximum wire line length is a measure that voltage drop is 2% or less. Note3: Overcurrent breaker is for power distribution. Motor breakre for motor protection, please select the ones that conform to the motor rated

output.

Output (kW) FC1(mm) FC2(mm) 0.75 64(127) 20 1.5 73(145)

40 2.2 83(150) 3.7 95(170) 5.5 117(197) 7.5

Fig. 5

Driven shaft Torque arm Torque arm

Special bolt

Detailed drawing of section A Fig. 6

Flat washer

Spacer

Section A

5

- 6 -

7.Motor Wiring and Output Shaft Rotational Direction Viewed from Output Shaft To rotate the 3-phase motor in the opposite direction, exchange the connected terminals between 2 wires(2 of 3 wires, R, S, and T). For the single-phase motor, select connection 1 or 2 from the following table to determine the rotational direction.

Output (kW) Terminal connection Wire connection method

0. 1

0. 4

Si ng

le p

ha se

Co nn

ec tio

n di

ag ra

m

Main coil Start coil Centrifugal switch Operation capacitor Start capacitor

Co nn

ec tio

n

m et

ho d

0. 1

2. 2

Th re

e ph

as e

Co nn

ec tio

n di

ag ra

m

Co nn

ec tio

n

m et

ho d

The rotation direction of GM-SSY model

The rotation direction of GM-SHY model

0.10.4kW 1.5,2.2kW

Reduction ratio 1/5,1/7.5,1/80 1/240 Rotational direction

0.10.4kW 1.5,2.2kW

Reduction ratio 1/5,1/7.5,1/801/240 Rotational direction

Reduction ratio 1/101/60 1/3001/1440(*) Rotational direction

Reduction ratio 1/101/60 1/3001/1440(*)

Rotational direction

0.75kW Reduction ratio 1/51/60 Rotational direction 0.75kW Reduction ratio 1/51/240 Rotational direction

Reduction ratio 1/801/240 Rotational direction (*)The range of the deceleration ratio of 0.4kW becomes 1/3001/480.

Z Z U U

Z Z U U

Connection 2 Connection 1

(0.1k (0.2,0.4k

connection

SSY,SHY(0.10.4kW) SSY2,SHY2(0.20.4kW) SSYP,SHYP(0.752.2kW)

Power source

Power source

U1 Z1 U2Z2

Foot mounting type motor Flange/face mounting type motor

Hollow shaft

Caution Please warn 0.75kW of GM-SHY in a model partly because rotatory direction is different from GM-HY2.

6

- 7 -

8.Brake Wiring (1) The brake motion delay time (the time before brake start to operate after turning off the power) depends on brake connection method and load

specifications. Select appropriated connection method by considering the functions of machine that attached to motor. (2) Braking wires are connected to simultaneous braking method from factory shipment, for the other braking method, please open the terminal box

to change braking connection circuit as shown below.

Motor Connection condition at delivery Simultaneous braking Separate braking

Direct current(immediate

braking) Input Output

Si ng

le p

ha se

0. 1

0. 4k

W

Ci rc

ui t

Co

nn ec

tio n

te rm

in al

s

Inertia time 0.20.55 sec. 0.10.3 sec. 0.010.03 sec.

Th re

e- ph

as e

0. 1

2. 2k

W

Ci rc

ui t

Co nn

ec tio

n te

rm in

al s

Inertia time 0.20.55 sec. 0.10.3 sec. 0.010.03 sec.

Notes: 1) Speaking sound, generated from brake lining, is not malfunction and does not affect to performance. 2) For elevator or high accuracy positioning drive, please use direct current (quick) braking method. 3) For simultaneous braking method or direct current (quick) braking method, be sure to connect lead wire (marked with )

to the terminals U and B2. And, for separated braking method, be sure to disconnect it. 4) For separated braking method or direct current (quick) braking method, remove one of the connection bar as shown above. 5) For 0.1kW to 2.2kW model, terminal block has 2 lines of terminals (upper and lower line). Be sure to connect power supply

wires to upper line terminals. If connect to the lower line, brake will not be released. 6) Motion delay time may slightly vary from load specification or from brake torque. 7The single phase motor cannot produce the outdoor type. 8) Please select the switch in the brake part by the current of 200V class:DC110V400VclassDC220V and the DC13(L/R=10ms) class ratings

when you switch off direct current.

B3

B2

B1

Terminal board

upper Conductor (upper

B3

B2

B1

B3

B2

B1

B1

B3 B2 Brake

Motor

P o w

e r

s o u u rs

e

B3 B2 B1

Brake

Motor

B3 B2 B1

Brake

Motor

V

X Y

B3 B2 B1

Brake

Motor

Internal wiring

L o w

e r

li n e

U

p p e r

li n e

upper line

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

Conductor

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

Conductor

Terminal board Terminal board

Conductor

R a d Y e l l o w B l a c k W h i t e

B3 B2 B1

Brake

Moto

B3 B2 B1

Brake

Moto

B1

B3 B2 Brake

Moto

B3 B2 B1

Brake

Moto

B3

B2

B1

B3

B2

B1

B3

B2

B1

upper line

SSY,SHY0.10.4kW

SSY2,SHY20.20.4kW

SSYP,SHYP0.752.2kW

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

P o w

e r

s o u u rs

e

Terminal boardTerminal board Terminal board

Conductor Conductor Conductor upper lineupper line

Internal wiring

Internal wiring

U

p p e r

li n e

U

p p e r

li n e

L o w

e r

li n e

L o w

e r

li n e

Conductor

Z2

Z1

U1

U2

Z2

Z1

U1

U2

Z2

Z1

U1

U2

7

- 8 -

Motor

Connection condition at delivery Simultaneous braking Separate braking Direct current

(immediate) braking Input Output

In ve rt er -d riv

in g

0 .1

2 .2

C ir c u it

C

o n n ec

te d

po in

ts

Inertia

time 0.1-0.3 sec. 0.01-0.03 sec.

Notes: 1) Braking wires are connected as simultaneous braking method from factory shipment. For inverter driving, please open terminal box to change

braking connection circuit to those are shown above. And be sure to disconnect lead wire (marked with ) 2) For separated braking method or direct current (quick) braking method, remove the connection bar as shown above. 3) Terminal block has 2 lines of terminals (upper and lower line). Be sure to connect power supply wires to upper line terminals. If connect to the

lower line, brake will not be released. 4) For inverter driving, connect braking wires directly from power source. do not connect through inverter. 5) When use inverter drive, at low frequency, the noise may be slightly louder. This noise is not malfunction and does not affect to performance. 6) For inverter driving, the power factor improving capacitor cannot be connected to the motor circuit. Brake usage precautions 1. Connect only brake power without power the motor may deteriorate the motor. 2. If power-factor improving capacitor is attached, be sure to use separated braking method. For inverter driving, the power factor improving

capacitor cannot be connected to the motor circuit. 3. To drive the motor with an inverter or to control the input power, please connect the brake to the power source side of the inverter. (Connecting

to the output side of the inverter may deteriorate the power source equipment) 4. In the inverter-driving mode, the noise may be slightly louder in the low-frequency zone. However, this type of noise will not deteriorate any

motor functions. 5. To operate motor at frequency of 25Hz or less, observe the rate time of 1 hour or 25% ED. 6. To use inverter-driving for 400V class motor, surge voltage from wiring fixed number may occur between the terminal,and this voltage may

deteriorate the insulation of motor. Please use the method below for solution. (1) Insulation strengthening method

Please use 400V class inverter-driving insulation strengthening geared motor. In Mitsubishi geared motor, insulation strengthening motor are shown below. - Standard geared motor ---0.12.2kW

(2) Inverter side surge voltage controlling method At the secondary side of inverter, please connect the filter for control surge voltage of the motor which decrease within 850V. For Mitsubishi inverter-driving, please connect optional surge voltage controlling filter (FR-ASF-H) at the secondary side of inverter.

W

U

V

B3

B2

B1

Brake

Motor

B3 B2 B1

Brake

Moto

B3 B2 Brake

Moto

P o w

e r

In v e rt

e In

v e rt

e r

B3

B2

B1

W

U

V

Terminal board

Conducto

B3

(Upper

B2

B1

W

U

V

*

*

SSY,SHY0.10.4kW

U1 Z1 Z2 U2

Red White Black

Conductor

Conductor

Red White Black

Conductor

Internal

(U p p e r

(L o w

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SSY2,SHY20.20.4kW

SSYP,SHYP0.752.2kW

Internal

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In v e rt

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Terminal board

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8

9. Brake(0.10.4kW)

1) Structure and operation

Fig.8 shows the structure of the brake. The non-excitation braking method (spring-driven braking method) is used for all the models

Item DESCRIPTION 1 Brake cover 2 Seal washer 3 screw 4 spring 5 Hexagon nut 6 -ring 7 Fan cover 8 Clamp screw 9 Field core 10 Armature 11 Brake lining 12 Side plate 13 End-face V seal

(out door type) 14 Fan

2)Gap adjustment procedure (Refer to the structural drawing of the brake (Fig.8).

If the brake is abraded due to long use, the gap between the field core and Armature will be

larger than the limit gap specified in Table 3. Such a large gap may cause a braking operation

error or brake releasing error. For this reason, if the gap is larger than the limit gap, adjust the

gap by following the procedure below.

Step Loosen the fan cover clamp screws (4 screws), and then remove the fan cover.

The fan is fixed by a C-shaped snap ring. Remove the fan and End-face V

seal(outdoor type), and then loosen screws (item 3) to remove the brake cover

(item 1).

Step Equally adjust the gap (A) between the field core and Armature to the initial gap

(refer to Table 3) by tightening the outer hexagon nut (item 5).

Step Use the specified thickness gauge (initial thickness gauge) to measure the gap. If

the lower limit thickness gauge can be inserted into the gap but the upper limit

thickness lower limit thickness gauge cannot be inserted into the gap at any point

around the cores, judge that gap is properly adjusted.

Step Attach the brake cover, and then tighten the screws (item 3) through the seal

washers (item 2).

Notes: To adjust the gap, observe the following items.

Adjust the gap so that the gap difference (difference between the maximum gap and

minimum gap) is reduced to 0.05 mm or less.

Periodically check the gap.

Be careful not to damage the O-ring (item 6) during adjustment. The waterproofing or

soundproofing function may be deteriorated.

If the thickness of the brake lining is reduced to the limit value specified in Table3,

replace the lining.

Fig.8

Step

Step

Step

The brake cover depth size of 0.1kW and

0.2kW differs from 0.4kW.

9

3 Brake specifications

Table3 shows the standard specifications for the brake.

Table 3 Standard Specifications for Brake

Brake

model

Output

(kW)

Number

of poles

(P)

Brake power

supply

Voltage(V)

Braking

voltage

DC(V)

Braking

Current

(A)

Braking torque

(Nm)

*Note 1 and 2

Gap(mm) Lining thickness

Initial gap

Limit

gap

Initial

thickness

Limit

thickness

SBM 80 0.1,0.2 4 200 90 0.16 1.91 0.15(inserted)-0.25 (not inserted) 0.4 6.0 5.3

SNB 0.4 0.4 4 200 90 0.18 3.82 0.15(inserted)-0.25 (not inserted) 0.4 5.9 4.9

Note 1: The braking torque values shown in the above table are the static friction torque values. Dynamic friction torque values will be

approximately 80% of the static friction torque values.

Note 2: At starting first operation or after replacing the brake lining, the braking torque may be less than the specified torque. In this case, fit the

friction surfaces of the brake by applying the brake several times with a light load

4 Rectifier specifications

Table 4 shows the standard specifications for the rectifier (for the 200V type).

Table 4 Standard specifications for Rectifier

Output

(kW)

Power supply

voltage (V)

Output voltage

DC(V)

Control method Rating

Ambient temperature

and humidity

Installation

0.1,0.2 200 90 Half wave

rectification method

Continuous

-15+40C

90%RH or less

On terminal block

0.4 200 90

5 Manual brake releasing procedure

a) Simplified manual brake releasing

Step Loosen the fan cover clamp screws (4 screws), and then remove the fan cover. After that,

remove the fan and End-face V seal.(outdoor type)The fan is fixed by a C-shaped snap ring.

Step Loosen the screws (item 3), and then remove the brake cover (item 1). Screw the machine

screws into the threaded holes of the side plate. The machine screws will push the Armature

to release the brake. At the completion of manual brake releasing, be sure to reset the brake.

Notes: To manually release the brake, observe the following items:

Be sure to check that the brake is properly released.

Basically, reducing the gap to zero will release the brake. To check whether the brake is released,

manually turn the motor shaft. If you can turn the shaft, judge that the brake is released.

If a large tightening force is applied to the simplified manual brake release bolt, the Armature or

side plate may be distorted or damaged, and normal operation may not be possible. For this reason,

carefully tighten the manual release bolt.

If the manually released brake is not reset, do not operate the motor. Before starting full-scale

operation, be sure to check that the brake functions properly.

For simplified manual brake releasing, up to 50 times of releasing is allowable.

b One-touch manual brake releasing (optional)

On the top of the fan cover, there is a brake release lever.

Turn the lever 90to release the brake. (Do not turn the lever

more than 90. The brake may not be released.) At the

completion of manual brake releasing, be sure to return the

lever to the initial position.

.For one-touch manual brake releasing, up to 100 times of

releasing is allowable.

The gap adjustment (maintenance) point of one-touch

manual brake releasing

The resolution point at the time of the gap adjustment

Open a manual lever and exclude combination with the

pin of right and left.

Each right and left pulls up pin.

Please refer to the gap adjustment point for the following

work.

The point to reassemble after the maintenance

Confirm it so that a D cut parallelism department of the

manual lever combination department turns to the slowdown

machine side and insert it from a fan cover hole.

Open a manual lever and combined with the pin of right and left.

Attention

Of the manual lever please be careful to be able to spread too much.

A wobble occurs in the combination with the pin when I open too much it,

and a manual lever is easy to come to come off.

Step

Step

initial position

Position of manual lever releasing Manual lever

Lever fixation

pinBoth side

Pin

View of B View of C

side of Reduction side of Reduction

Insert direction

Connection of manual lever

10

10. Brake0.752.2kW

1) Structure and operation

Fig. 9 shows the structure of the brake. The non-excitation braking method (spring-driven braking method) is used for all the models

Item DESCRIPTION

1 Brake cover

2 Flat washer

3 screw

4 Locknut

5 Hexagon nut

6 -ring

7 Fan cover

8 Clamp screw

9 Field core

10 Armature

11 Brake lining

12 Side plate

13 End-face V seal

(Outdoor type)

2) Gap adjustment procedure (Refer to the structural drawing of the brake (Fig.9).

If the brake is abraded due to long use, the gap between the field core and Armature will be

larger than the limit gap specified in Table 5. Such a large gap may cause a braking operation

error or brake releasing error. For this reason, if the gap is larger than the limit gap, adjust the

gap by following the procedure below.

Step Loosen the fan cover clamp screws (4 screws), and then remove the fan cover.

The fan is fixed by hexagon socket head set screws. Remove the fan and End-face

V seal(Outdoor type), and then loosen the screws (item 3) to remove the brake

cover (item 1).

Step Inside the brake cover, loosen 3 locknuts(item 4), and then equally adjust the

gap(A) between the field core and Armature to the initial gap (refer to Table 5) by

tightening the outer hexagon nut(item 5).

Step Use the specified thickness gauge (initial thickness gauge) to measure the gap. If

the lower limit thickness gauge can be inserted into the gap but the upper limit

thickness gauge cannot be inserted into the gap at any point around the cores,

judge that gap is properly adjusted.

Step Tighten 3 locknuts(item 4)

Step Finally check the gap(A) in the same way as step 3.

Step Attach the brake cover, and then tighten the screws (item 3) through the flat

washers (item 2).

Notes: To adjust the gap, observe the following items.

After adjusting the gap, be sure to tighten al the nuts.

After tightening the locknuts (item 4) at step 4, the gap may be slightly changed. For

this reason, be sure to check the gap at step 5.

Adjust the gap so that the gap difference (difference between the maximum gap and

minimum gap) is reduced to 0.05 mm or less.

Periodically check the gap.

Be careful not to damage the O-ring (item 6) during adjustment. The waterproofing or

soundproofing function may be deteriorated.

If the thickness of the brake lining is reduced to the limit value specified in Table5,

replace the lining.

Fig.9

11

3 Brake specifications

Table 5 shows the standard specifications for the brake.

Table 5 Standard Specifications for Brake

Brake

model

Output

(kW)

Number

of poles

(P)

Brake power

supply

Voltage(V)

Braking

voltage

DC(V)

Braking

Current

(A)

Braking torque

(Nm)

*Note 1 and 2

Gap(mm) Lining thickness

Initial gap

Limit

gap

Initial

thickness

Limit

thickness

SNB 0.8 0.75

4

200

90

0.24 7.16 0.15(inserted)-0.25 (not inserted) 0.5 7.7 6.7

SNB1.5 1.5 200 0.25 14.3 0.20(inserted)-0.30 (not inserted) 0.5 10.0 8.5

SNB2 2.2 200 0.37 21.0 0.20(inserted)-0.30 (not inserted) 0.5 10.0 8.5

Note 1: The braking torque values shown in the above table are the static friction torque values. Dynamic friction torque values will be

approximately 80% of the static friction torque values.

Note2: At starting first operation or after replacing the brake lining, the braking torque may be less than the specified torque. In this case, fit the

friction surfaces of the brake by applying the brake several times with a light load

4 Rectifier specifications

Table6 shows the standard specifications for the rectifier .

Table6 Standard specifications for Rectifier

Output

(kW)

Power supply

voltage (V)

Output voltage

DC(V)

Control method Rating

Ambient temperature and

humidity

Installation

0.75 2.2

200 90

Half wave

rectification method

Continuous

-15+40C

90%RH or less

On terminal block

.

5 Manual brake releasing procedure

a) Simplified manual brake releasing

For this brake releasing method, prepare the brake release bolts shown in Table 7

Step Loosen the fan cover clamp screws (4 screws), and then remove the fan cover. After

that, remove the fan and End-face V seal(outdoor type). (The fan is fixed by hexagon

socket head setscrews.)

Step Loosen the screws (item 3), and then remove the brake cover (item 1). Screw the machine

screws into the threaded holes of the side plate. The machine screws will push the

Armature to release the brake. At the completion of manual brake releasing, be sure to

reset the brake.

Table 7 Simplified manual brake release bolt

Brake model Simplified manual brake release bolt

SNB0.8 M425

SNB1.5

M6 40

SNB2

b One-touch manual brake releasing (optional)

The written contents of one-touch manual brake releasing(optional) are the same as that of 0.1

0.4kW.

Please refer to P9

Notes: To manually release the brake, observe the following items:

Be sure to check that the brake is properly released.

Basically, reducing the gap to zero will release the brake. To check whether the brake is released,

manually turn the motor shaft. If you can turn the shaft, judge that the brake is released.

If a large tightening force is applied to the simplified manual brake release bolt, the Armature or

side plate may be distorted or damaged, and normal operation may not be possible. For this reason,

carefully tighten the manual release bolt.

If the manually released brake is not reset, do not operate the motor. Before starting full-scale

operation, be sure to check that the brake functions properly.

For simplified manual brake releasing, up to 50 times of releasing is allowable.

aSimplified manual brake releasingpattern 1

bSimplified manual brake releasingpattern 2

12

11Dust&Waterproof type

Please confirm the following notes when waterproof GM uses it.

Labyrinth Plate for output shaft

Labyrinth plate that rotates with the shaft is installed in the output shaft. Please do not touch Labyrinth board while rotating

Washing(W type or P type)

Turn off the supply when you wash it.

Washing by hard thing like a metal brush should avoid. It becomes the cause of paint peeling.

Please make washing temperature into 80 or less degrees.

Washing(W type only)

Do not carry out washing by medicine.

Do not carry out high-pressure washing. It becomes the cause of paint peeling.

Washing(P type only)

Do not use acid or alkaline solution as much as possible. Rubber parts deteriorate.

Do not carry out high-pressure(1MPa or more) washing. It becomes the cause of paint peeling.

Connecting wires The cable must use water-proof type. Water might go into it.

Do the installation and tightening Water proof connector surely. Water might go into it.

Labyrinth board

a) Labyrinth plate is installed in the output shaft. Note the rotation with the shaft.

Refer to a catalog or externals dimensional drawing for details.

b) Do not add the outside power to Labyrinth plate. It comes in contact with the

case and it is likely to damage it.

c) Do not bite the foreign body between Labyrinth plate and the case and do not

drive in a crowded state.

Inverter driving

In W type, the standard and the range of a low torque are different for the

magnetic flux vector control method

Magnetic flux vector control

Standard type W type P type

360Hz 2060Hz 360Hz

Wiring work

a) The cable wiring must use water-proof one that is.

b) It must not be confirmed that Packing is installed, When you tighten terminal box

cover.

c) The terminal box cable taking out part installs Water proof connector

OA-W1611-13L(Made of ohm electric Ltd.), and note the following.

The acceptable electric wire diameter is 8.5-11.5.

Water is infiltrated when the electric wire not suited is used, and there is a possibility of

electric breakdown.

Tighten the Water proof connector surely.(recommended tightening torque 1.2-1.5Nm)

Paint the seal medicine (Three bond # 1211 etc.) between the entrance of Water

proof connector and the cable.

CAUTION

Terminal box

Water proof connector

Labyrinth plate

(Rotation)

Output Shaft

(Rotation)

13

.

Brake gap adjustment

a)W type (IP65)

a-1) Structure and operation

The figure below shows the structure of the brake. The standard and the shaft seal structure are different.

a-2) Resolution and assembly

The resolution and the assembly when the brake gap is adjusted are the same to standard points. Part only for the

waterproof type are installed and note the following point.

Refer to the attached paper manual for the gap adjustment points.

Resolution

Detach the Fan cover and the Fan. Loose the pan small screw. And detach the Brake cover together with Drainer

Water proof connector and Seal support.

Assembly

It is confirmed that Spacer is installed in the shaft and after installing the brake cover, push the Rotation board at

Spacer.

When starting and stopping, End-face V seal sound might be generated.(There is no problem on the function. Please

spread grease on End-face V seal.)

b) P type (IP67)

b-1) The brake is stored in the brake cover.

Execute it after detaching the bolt and the brake cover when the brake gap adjustment is necessary.

b-2) After adjusting the brake gap, paint the seal medicine (Three Bond # 1211 etc.) on seal side of the brake of the

cover and the bracket. Three Bond is a registered trademark of ThreeBond Holdings Co.,Ltd.

Others

a) It asks for the maintenance of the output shaft and the output shaft oil seal and motor axis part at our factory or our

service center.

b) Please confirm there is not loosening in Capcon in the periodical inspection.

1

3

6

4

5

2

Item Name of articles

Drainer Water proof connector

Spacer

End-face V seal

Seal support

Pan small screw

Brake cover

Fan

Fan cover

7

8

14

12. Operation If a load is lifted up, do not release the brake using the manual brake release unit. The load may be dropped.

During inverter operation, be sure to observe the frequency range specified in the catalog. If the frequency is out of the specified range,

the motor may be damaged.

Before turning on the switch

(1) Check the bolt tightening condition at each section.

Check that the foundation bolts, sprocket bolts, coupling bolts, etc. are tightened properly.

(2) Check the electric system.

Check that the electric system is properly wired, and the terminal box cover is closed. Also check that the breaker capacity and over

current protective relay values are properly set.

Operation

(1) To operate the geared motor, observe the allowable loading torque range and the allowable starting frequency range,

(2) During operation, if the motor generates an abnormal noise, vibrates extremely, or shows abnormal characteristics, be sure to stop the

motor, and inspect or overhaul the motor.

(3) During operation, keep your body away from the geared motor. If you touch the geared motor during operation, you may be injured or get

burned.

Others

(1) At starting, apply a light load. When the motor speed is increased to the full speed, apply the specified load.

(2) To stop operation, be sure to turn off the power switch.

13. Maintenance

Do not modify the geared motor.

Be sure to turn off the power before inspecting or repairing the motor.

(1) Daily check

Check item Check method Description

Current Using ammeter

Check that the actual current value is equal to the rated current value specified on the

nameplate or less.

Noise Hearing

Directly check the noise with your ear using a noise detector bar. The motor should

not generate any abnormal noise.

Surface temperature Thermometer

Obtain the motor frame surface temperature rise value by subtracting the ambient

temperature value from the motor frame surface temperature value. The temperature

rise should be 55 to 65.

Vibration Vibration meter

Check the vibration of the gear case and frame. The obtained vibration values should

be 4.9m/s 2

or less.

Lubricant leak Visual check Check that no grease or oil leaks from the geared motor.

Chain Visual check

Check that the chain is not extremely sagging or too tight. Also check that the chain

moves smoothly.

(2) Periodical inspection

Periodically check the motor and replace the damaged parts while referring to the table below (the table show the standard values

determined for daily operation of 8 hours,300days/year):

Check item Schedule Description

* Grease replacement

Every10000Hours

4 years

Replace the grease every 10,000 hours of operation or every 4 or 5 years,

whichever is earlier.

0.1~0.4kW : NLGI NO.00 of Lithium Complex Grease

0.75~2.2kW : NLGI NO.000 of Urea Grease

With Extreme Pressure manufactured by JX Nippon Oil & Energy Corporation

* Oil seal replacement

Every 8000Hours

( 3 years)

If the grease leaks from the seal, replace the oil seal.

Chain tension Every 6 months If the chain is loose, readjust the tension.

Looseness of foundation bolts Every 6 months If the foundation bolts are loose, retighten the bolts.

* Bearing replacement

Every8000Hours

(3 years)

If the bearing generates an abnormal noise, replace the bearing.

Motor coil insulation resistance Every 6 months

Check the insulation resistance of the motor coil using a 500V megger. The

insulation resistance should be 1 M, dry the coil at 90 or less in a drying

furnace.

Brake

Gap adjustment Every 6 months Adjust the gap to the range specified in Table 3.

Brake lining

thickness

Annually

If the lining thickness is less than the limit thickness specified in Table 3,

replace the brake lining.

O-ring replacement

(For brake cover)

Every 8000Hours

(3 years)

Periodically check the O-ring. If the O-ring is damaged, replace the O-ring.

For the item marked with an asterisk *, please contact our system service department.

Notes: Just after replacement of the brake lining, the braking torque may be less than the specified torque. In this case, fit the friction surfaces

of the brake by applying the brake several times with a light load.

(3) Others

When oil oozes from set field of motor, if it does not develop, it can be used as it is because there is no problem on a performance. When oil

poses a problem, use after wiping off oil. This oil is a grease ingredient applied to very small quantity at the time of the assembly in a factory.

15

14. Troubleshooting

If the geared motor has a problem, determine the cause and solve the problem while referring to the table below:

Problem Cause Remedy

Grease leak from oil seal Damaged oil seal. *Replace the oil seal..

Oil leak from mating face

of gear case etc.

(1)Loose clamp bolt

(2) Damaged O-ring

(1) Tighten the clamp bolt

(2) Replace the O-ring

Abnormal noise of bearing Dust or foreign material is in the bearing. *Replace the bearing.

*Other problems

(1) Resonance is caused because the motor

installation base is not rigid.

(2) The vibration of the machine is

transferred to the motor to cause the

problem.

(3) The eccentricity between the machine and

the motor is too large.

(1) Increase the rigidity of the motor installation base.

(2) Increase the rigidity of the motor installation base

(3) Readjust the eccentricity to 0.05 mm or less.

*Non-rotating output shaft

(1) Power source connection error.

(2) Damaged gear or shaft.

(1) Check the power source.

(2) Contact our system service department.

Extreme rise of

temperature

(1) Overloaded operation.

(2) The starting frequency is too high.

(3) The ambient temperature is 40 or above.

(1) Reduce the load by lowering the current to the rated

current value.

(2) Lower the frequency.

(3) Ventilate the room to reduce the ambient temperature.

Abnormal noise of motor

(1) Foreign material.

(2) Damaged bearing.

(3) Brake gap adjustment error.

(4) Abraded brake lining.

(5) Seized brake coil.

(6) Broken rectifier.

(7) Defective centrifugal (governor) switch.

(1) Remove the foreign material.

(2) Contact our system service department.

(3) Adjust the brake gap.

(4) Adjust the brake gap, or replace the brake lining.

(5) Replace the entire brake unit.

(6) Replace the rectifier.

(7) Contact our system service department.

Brake malfunction

(1) Foreign material on brake lining.

(2) Abraded brake lining.

(3) Unevenly adjusted brake gap.

(4) Overload.

(5) The manually released brake is not reset.

(1) Remove the foreign material.

(2) Adjust the brake gap, or replace the brake lining.

(3) Adjust the brake gap.

(4) Reduce the load by lowering the current to the rated

current value.

(5) Reset the brake to the initial condition.

For the items marked with an asterisk *, please contact our system service department.

16

15. Contact us

When you contact us, let us know the following items

(1) SERIAL No

(2) Model number

(3) Output

(4) Reduction ratio or speed

(5) Part name(see the construction)

(6) Quantity

(7) Desired delivery date

Warranty 1Warranty term and scope of warranty

When failure by the responsibility by the side of our company occurs for a product during the term of a warranty, our company will fix a

product gratuitously through the store or the service company of our company which purchased. However, when the business trip repair to

overseas from domestic is required, or when the business trip repair to the remote place according to a detached island and this is required, I

do the cost price which engineer dispatch takes as onerousness.

Warranty term

The warranty term for the product shall be 18 months after the date of delivery or 12 month from the product starting operation, whether be

shorter. Moreover, the term of warranty of a repair products does not become long more than the term of warranty before repair.

Scope of warranty

(1)Inspection

Please inspect your product by yourself. Our service personal, however, can inspect your product at your request with change to you. If a

problem is detected by the inspection ,we will discuss with you to determine whether we are responsible for the problem. If we are

responsible for the problem, we will repair your product free of charge.

(2)Repair

In the following cades (,,,, and ),we will charge the repair expense, parts replacement expense, and traveling

expense to you. In the other cases, we will repair your product free of charge.

The problem is caused due to inappropriate storage or handling of your product, carelessness, negligence , or operation in inappropriate

facility or with inappropriate machine, etc

The problem is caused because you have modified our product without our approval.

The problem is caused because you have used lubricating oil other than recommendation of our products.

The problem is caused because periodical inspection is not performed

The problem is caused because you have used our product while ignoring the product specifications.

The problem is caused because you have used accepted that the consumable parts (Bearing, oil seal, etc.) specified as the instructions

manual etc. even if it was a normal operating condition were able to protect when performed maintenance and inspection normally.

The problem is caused because natural disasters, such as an external factor by inevitability, such as a fire and unusual voltage, and an

earthquake, thunder, and storm and flood damages.

The problem is caused because the reason which was not able to be foreseen with the level of the technology at the time of our company

shipment.

Other cases where you are responsible for the problem

2Exclusion

Even if a problem of our product causes damage of other manufacturers machine, etc., we will not compensate any loss caused by the

problem of our product or damaged other manufacturers machines (loss of your company or your customer), even in the warranty period

Since it may change without a notice, please give beforehand the specification indicated to a catalog, an instructions manual, or technical data

every knowledge.

3Repair after stopping production

Even if production of the same model is stopped, we will repair your product for 7 years from the date of production stoppage.

However, the parts manufactured by casting and mold have a case where allowed to consider it as the alternative parts which have the same

function.

The product supply after production stoppage cannot respond including spare parts.

4. Change of Product specifications

Specifications listed in our catalogs, manuals or technical documents may be changed without notice.

5. Application and use of the Product

(1) For the use of the product, its applications should be those that may not result in a serious damage even if any failure or malfunction

occurs in the product, and a backup or fail-safe function should operate on an external system to the product when any failure or

malfunction occurs.

(2)The product is designed and manufactured as a general purpose product for use at general industries. Therefore, applications

substantially influential on the public interest for such as atomic power plants and other power plants of electric power companies,

and also which require a special quality assurance system, including applications for railway companies and government or public

offices are not recommended, and we assume no responsibility for any failure caused by these applications when used. In addition,

applications which may be substantially influential to human lives or properties for such as airlines, medical treatments, railway

service, incineration and fuel systems, man-operated material handling equipment, entertainment machines, safety machines, etc. are

not recommended, and we assume no responsibility for any failure caused by these applications when used. We will review the

acceptability of the abovementioned applications, if you agree not to require a specific quality for a specific application. Please

contact us for consultation.

See the nameplate

17

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