Nakanishi E3200 series User manual

'09.05.003 A

NE260

E3200 SERIES CONTROL UNIT

OM-K0581E

1 2

WARNING !

When using electric tools, basic safety precautions should always be followed to reduce the risk of fire, electrical

shock and personal injury, including the following.

Read all these instructions before operating this product and save these instructions.

A. GROUNDING INSTRUCTIONS

1. In the event of a malfunction or breakdown, grounding provides a path of least resistance for electric current

to reduce the risk of electric shock. This tool is equipped with an electric cord with a grounding conductor

and a grounding plug. The plug must be plugged into a matching outlet that is properly installed and

grounded in accordance with all local codes and ordinances.

2. Do not modify the plug provided - if it will not fit the outlet, have the proper outlet installed by a qualified

electrician.

3. Improper connection of the grounding conductor can result in electric shock. The conductor with insulation

having an outer surface that is green with or without yellow stripes is the grounding conductor. If repair or

replacement of the electric cord or plug is necessary, do not connect the grounding conductor to a live

terminal.

4. Check with a qualified electrician or service person if the grounding instructions are not completely

understood, or if in doubt as to whether the tool is properly grounded.

5. Use only 3-wire extension cords that have 3-prong grounding plugs and 3-pole receptacles that accept the

tool's plug.

6. Repair or replace damaged or worn cord immediately.

7. This tool must be used on a circuit that has an outlet that looks like the one illustrated in Sketch A in Figure

(

below

)(

115V

)

. The tool has a grounding plug that looks like the plug illustrated in Sketch A in Figure

(

below

)

8. FOR Installation in Machine Electrical Cabinet or when wiring

directly to machine internal power terminal strip:

1) Please refer to the pin diagram below for the proper wiring

configuration. The plug shown is the female plug that attaches

to the NE260 main power inlet.

2) Make sure you test each individual wire to verify proper circuit

prior to attaching any wire to the terminal block. Do not assume

wire colors are the same for all power cords.

9. Install an over current protective device of maximum 10 Amp on

the NE260 main power circuit.

IMPORTANT INSTRUCTIONS AND WARNING - Electric Devices

B. OTHER WARNING INSTRUCTIONS

1. For your own safety read instruction manual before operating tool.

2. Wear eye protection.

3. Replace cracked wheel immediately.

4. Always use guards and eye shields.

5. Do not overtighten wheel nut.

6. Use only flanges furnished with the grinder.

7. REMOVE ADJUSTING KEYS AND WRENCHES. Get in the habit of checking to see that keys and adjusting

wrenches are removed from tool before turning it on.

8. KEEP WORK AREA CLEAN. Cluttered areas and benches invite accidents.

9. DON'T USE IN DANGEROUS ENVIRONMENT. Don't use power tools in damp or wet locations, or expose

them to rain. Keep work area well lighted.

10. Risk of injury due accidental starting. Do not use in an area where children may be present.

11. DON'T FORCE TOOL. It will do the job better and safer at the rate for which it was designed.

12. USE RIGHT TOOL. Don't force tool or attachment to do a job for which it was not designed.

13. WEAR PROPER APPAREL. Do not wear loose clothing, gloves, neckties, rings, bracelets, or other jewelry

that might get caught in moving parts. Nonslip footwear is recommended. Wear protective hair covering to

contain long hair.

14. ALWAYS USE SAFETY GLASSES. Everyday eyeglasses only have impact resistant lenses, they are NOT

safety glasses. Also use face or dust mask if cutting operation is dusty.

15. SECURE WORK. Use clamps or a vise to hold work when practical. It's safer than using your hand and it

frees both hands to operate tool.

16. MAINTAIN TOOLS WITH CARE. Keep tools sharp and clean for best performance and to reduce the risk of

injury to persons. Follow instructions for lubricating and changing accessories.

17. DISCONNECT TOOLS before servicing; when changing accessories, such as blades, bits, cutters, and like.

18. REDUCE THE RISK OR UNINTENTIONAL STARTING. Make sure switch is in off position before plugging in.

19. USE RECOMMENDED ACCESSORIES. Consult the owner's manual for recommended accessories. The use

of improper accessories may cause risk of injury to persons.

20. NEVER LEAVE TOOL RUNNING UNATTENDED. TURN POWER OFF. Don't leave tool until it comes to a

complete stop.

21. For recommended operating speed for various applications, please follow the instructions of bur

manufacturers.

GROUNDING

PIN (A)

COVER OF GROUND

OUTLET BOX

Grounding Method

IMPORTANT INSTRUCTIONS AND WARNING-Electric Devices

..........P.1

CAUTIONS FOR HANDLING AND OPERATION

........P.3

FEATURES ...................................................P.5

SPECIFICATIONS .........................................P.6

SYSTEM CHART ..........................................P.8

TORQUE CHARACTERISTICS ....................P.10

NOMENCLATURE ......................................P.11

CHANGING FUSES.....................................P.13

BRACKET INSTALLATION ..........................P.14

POWER CORD CONNECTION ....................P.16

MOTOR CORD CONNECTION ....................P.16

AIR HOSE CONNECTION............................P.17

CHANGING CUTTING TOOLS .....................P.18

REPLACING THE COLLET ..........................P.19

FIXTURING THE MOTOR/SPINDLE.............P.19

OPERATION PROCEDURES .......................P.21

EXTERNAL INPUT/OUTPUT CONTROL SIGNAL SPECIFICATIONS

........P.23

PROTECT FUNCTION.................................P.31

BREAK-IN PROCEDURE ............................P.33

CUTTING TOOL CAUTIONS........................P.34

TROUBLE SHOOTING ................................P.35

SETTING OF OPERATING PARAMETERS

..........P.35

10. USE PROPER EXTENSION CORD. Make sure your extension cord

is in good condition. When using an extension cord, be sure to use

one heavy enough to carry the current your product will draw.

An undersized cord will cause a drop the line voltage resulting in

loss of power and overheating.

Table

(

below

)

shows the correct size to use depending on cord

length and nameplate ampere rating.

If in doubt, use the next heavier gage. The smaller the gage

number, the heavier the cord.

Minimum gage for cord

Ampere Rating Volts Total length of cord

120V

240V

Than

Not

Than

Only the applicable parts of the Table need to be included. For instance,

a 120-volt product need include the 240-volt heading.

Not Recommended

7.5m (25ft.)15m (50ft.)30m (100ft.)45m (150ft.)

15m (50ft.)30m (100ft.)60m (200ft.)90m (300ft.)

L : Line

N : Neutral

E : Earth

LEN

Power cord connector

CONTENTS

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3 4

Thank you for purchasing the Ultra-Precision, High-Speed spindle system, E3200.

The E3200 system was designed for use on CNC lathes, robots, NC lathes and special

purpose machines. The motor, spindle and control unit are designed to work as an integrated

system capable of 80,000 min-1. This system utilizes air to cool the motor and protect the

spindle, please use an air line kit to ensure clean, dry, properly regulated air is supplied to the

motor and spindle.

The E3200 system is capable of being used with coolants and cutting lubricants.

Please read this Operation Manual carefully prior to use.

Read these cautions carefully and only use in the manner intended.

Safety instructions are intended to avoid potential hazards that could result in

personal injury or damage to the device. Safety instructions are classified as

follows in accordance with the seriousness of the risk.

CAUTIONS FOR HANDLING AND OPERATION

Class

DANGER Existence of a hazard that could result in personal death or serious injury, if

the safety precautions are not followed.

CAUTION A hazard that could result in light or moderate bodily injury or damage to the

device if the safety instructions are not followed.

Degree of Risk

WARNING

1. The E3200 is not a hand tool. It is designed to be used on a NC lathe or special

purpose machine.

2. In the event of a malfunction or breakdown, grounding provides a path of least

resistance for electric current, reducing the risk of electric shock. This system is

equipped with an electric cord with a grounding conductor and a grounding plug.

The plug must be plugged into a matching outlet that is properly installed and

grounded in accordance with all local codes and ordnances.

3. Don't use in dangerous environments. Protect the control unit from moisture and

other contaminants. Failure to protect the control unit can result in damage to

internal components and injury to the operator.

4. Always wear safety glasses. Everyday eyeglasses only have impact resistant

lenses, they are not safety glasses. Also use a dust or face mask whenever the

motor is running.

CAUTION

1. Motor cooling and Spindle purge air is required to operate the system.

Air hose must be connected to the Air in joint on the front of the control unit.

Between 0.25MPa-0.3MPa air must be supplied.

2. Do not disassemble, modify or attempt to repair the unit or motor as it will

damage internal components and there are no user serviceable parts.

3. When errors occur and error lamp flashes, check and correct the cause of the

malfunction before continuing use. Failure to correct the problem will result in

damage to the unit and motor.

4. When the Warning Lamp on the control unit lights conditions exist that could

result in dangerous operation. Check operating conditions and continue use

only after correcting the problem.

5. Do not hit, drop or subject motor, spindle or control unit to shock as this will

cause damage to internal components and result in malfunctions.

6. Check the tool shank and collet prior to use to ensure they are clean and free of

burs. The introduction of foreign particles or metal chips into the collet or

spindle can cause damage and loss of precision.

7. Make sure that the collet chuck is firmly tightened prior to rotating the spindle.

If the collet chuck and chuck nut are not firmly tightened the tool may be

ejected during rotation resulting in injury.

8. The electric motor and spindle require air for cooling and protection : ensure

that this supply is clean, dry air. Introduction of dust, moisture or other

contaminants into the motor and spindle will cause damage to internal

components.

9. Do not place anything on top of the control unit or block cooling vents.

10. Do not install system next to RF noise sources as malfunctions can occur. If

smoke, noise or strange odors emanate from the unit or motors immediately

turn off the power switch, disconnect and take to a NAKANISHI dealer for

evaluation.

WARNING A hazard that could result in bodily injury or damage to the device if the safety

instructions are not followed.

DANGER

Do not rotate the machining center's main spindle with the HES installed.

Rotating the machining center's main spindle with the HES installed can cause the

motor cord to become tangled and pull the Control Unit off its mounting.

5. Never touch the motor, spindle or cutting tools when the spindle is rotating.

6. Reduce the risk of unintentional starting. Make sure the power switch is in the

Off position before connecting the control unit or plugging the system in.

7. Do not apply excessive force. This may cause tool slippage or tool damage.

8. Do not exceed the maximum allowable tool speed. For your safety, use tools

below the maximum allowable speed.

9. Do not use bent, broken, chipped, out of round or sub-standard tools. They

can shatter or explode, and may cause injury.

10. Ensure that the earth wire is properly grounded; failure to follow this warning

may result in electric shock or fire.

11. Check to ensure that the supply voltage is the same as the control unit's rated

voltage.

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5 6

(1) The E3200 system is designed to be mounted in a CNC lathe, robot, NC lathe or special

purpose machine for drilling, milling, slitting, grinding or other similar application.

(2) A high-speed brushless motor is used to achieve a maximum speed of 80,000 min-1 and

eliminate the nuisance of brush maintenance.

(3) Speed control and protection functions utilize a high performance microprocessor.

(4) Automatic control and monitoring of spindle functions are possible.

(5) Wide speed range, 1,000-80,000 min-1 makes high precision machining possible.

(6) Compact control unit design allows easy installation in space restricted machines.

Connectors and control panel are front mounted for easy access.

(7) Control Unit is capable of being connected to AC100V to 240V power sources.

(8) Two types of control units are available. Standard type NE260 and NE260-OP1 which

conforms to European standards for safe, automatic machine operation.

(9) Gear Mode Select Switch installed. Set Gear Mode to display the rotating speed at the

cutting tool when using an angle spindle or speed reducer.

*Note2 <NE211-OP1 Features>

• The installed Safety Relay is designed to comply with EN standards, ‘a’ contacts switch the Motor Power Line

and ‘b’ contacts switch the external outputs to the machining center’s controller.

• The Safety Relay utilizes Normally Open contacts. The Emergency Stop Signal lines must be supplied with

power to hold the Safety Relay contacts closed and allow the control unit to supply power to the motor. Any

system errors, trouble with the machining center or the connections between the E3000 control unit and the

machining center’s controller will cause the relay contacts to open and the E3000 motor to stop.

• The Emergency Stop Signal Input can be connected to any and all portions of the machine’s safety systems to

stop the E3000 motor any time that stoppage of the spindle and motor is required.

• The ‘b’ contact outputs can be used to detect an open circuit on the motor line and integrated with the

machines safety systems to stop the machine in case of trouble. If the ‘a’ contacts of the Safety Relay are

welded together by an over load or short circuit the ‘b’ contacts’ separation is maintained at more than 0.5mm

spacing by the relay’s spring release mechanism.

*Note3 <Motor Speed Limited Area>

Limit motor speed depend on motor types. Before using it, check the specifications of the motor & the motor

spindle.

• Control to limit motor speed from 1,000 to 80,000 min-1 for EM-3080J and HES810. Using Cutting Capacity

Motor Speed Area is from 20,000 to 80,000 min-1.

• Control to limit motor speed from 1,000 to 60,000 min-1 for EM-3060, EM-3060J, EM30-S6000, EM25-S6000

and EM20-S6000.

• Control to limit motor speed from 1,000 to 50,000 min-1 for EM25N-5000 and HES510.

• Control to limit motor speed from 1,000 to 32,000 min-1 for EM-3030J, EMA-3020K and EMA-3020S.

FEATURES

11. Use only tools with shank diameter tolerance similar to the chuck I.D. tolerance.

12. Check if tools, chucks or chuck nuts are damaged before working.

13. When using NE260 continuously, refer to Continuous Area on Torque

Characteristics or check LOAD meter maximum (3 Green Lamps).

14. Attach the provided connector cover when not using Input/Output Connector

A/B or Selector Communication Connector.

15. Stop working immediately when abnormal rotations or unusual vibration are

observed.

16. Do not over tighten the chuck. This may cause spindle damage.

17. Select suitable products or tools for the applications. Do not exceed the

capabilities of the spindles or cutting tools.

18. When using Selector Unit with Control Unit NE260, please use E3200 Series

Selector Unit NE261.

19. Please don't touch the heat sink of Control Unit NE260. This may avoid scalding

yourself.

20. When using the Air Bearing Spindle, please need to supply the regulated air

pressure to the Air Bearing. When rotating the spindle with less the regulated air

pressure, this may make you damage to the spindle or the control unit.

(1) Control Unit

SPECIFICATIONS

3-1 Specifications

*Note1 : Protectively Separated

Model NE260 NE260-OP1 *Note2

Input AC100V-240V, 50/60Hz, 1PHASE, 1.8A

Output AC33V, 0-1KHz, 3PHASE, 2.4A

Operating Temperature 0-40°C

Ambient Humidity MAX. 85%

Over Voltage Category 2

Pollution Degree 2

Speed Range 1,000-80,000 min-1 *Note3

Control Signal

Input

*Note1

Transistor Activation Connections : 6

Analog Connections : 1

Transistor Activation Connections,

MOS Relay Contact Connections : 9

Analog Connections : 1

Output

*Note1

Transistor Activation Connections,

MOS Relay Contact Connections : 9

Analog Output Connections : 3

Transistor Activation Connections : 9

Relay Contact Connections : 2

Analog Output Connections : 3

Protection Circuits

Over-Voltage, Over-Current,

Over Load, Sensor Malfunction,

Overheat, Brake Malfunction,

Spindle Lock, Low Air Pressure,

Start-Up Error, Over-Speed

Over-Voltage, Over-Current,

Over Load, Sensor Malfunction,

Overheat, Spindle Lock,

Brake Malfunction, Low Air Pressure,

Start-Up Error, Over-Speed,

Emergency Stop Circuit

Weight 2.8kg

Dimensions W88 x D138 x H238 mm

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7 8

Model Standard Equipment •Accessories

NE260

• Power Cord 2m •Air Hose with filter

•Reducer •Connector Cover (Provided)

•Connector Cap (Provided) •Bracket

•Nylon Tension Relief •Screw

•Rubber Pad •Fuse (T6.3AL) : 2pcs.

•Operation Manual

3-3 Standard Equipment

3-2 Diagrams

168

246

138

188

M4x0.7

Stepped Bracket

86.2

4.5

NE260 Control Unit

Fig. 1 Bottom Mounting

236

138

144

271

251

4.5

M4x0.7

Stepped Bracket

Fig. 2 Back Mounting

100V~240V

Selector Unit NE261

Control Unit

NE260

NE260-OP1

Single motor can only be

operated at the same time.

No simultaneous operation.

20,000

80,000min-1

Air Line Kit AL-982

Brushless Motor

(Cord with Quick Disconnect)

EM-3080J

Air Bearing Spindle

NRAF-5080

Spindle

NR-3080S

Air Line Kit AL-0201

Air Line Kit AL-A0611

80,000min-1

Brushless Motor Spindle

HES800

Compressor

Air Line Kit

60,000min-1

21,300min-1

8,000min-1 50,000min-1

Brushless Motor Spindle

EM30-S6000

Brushless Motor Spindle

EM25-S6000

Brushless Motor Spindle

EM20-S6000

Brushless Motor Spindle

EMS-3060A

Brushless Motor Spindle

EMS-3060K

Brushless Motor Spindle

EMR-3008K

Motor Cord

(Cord with Quick Disconnect)

EMCD-3000J

Motor Cord

(Cord with Quick Disconnect)

EMCD-3000J

Motor Cord

(Cord with Quick Disconnect)

EMCD-3000J

Motor Cord

(Cord with Quick Disconnect)

EMCD-3000J

Motor Cord

(Cord with Quick Disconnect)

EMCD-3000J

Motor Cord

EMCD-3000

Motor Cord

EMCD-3000

Motor Cord

EMCD-3000

90º Angle

Brushless Motor Spindle

EMA-3020S

90º Angle

Brushless Motor Spindle

EMA-3020K

Compressor

100V~

240V

100V~

240V

Air Line Kit

AL-0201

Selector Unit

NE261

Control Unit

NE260

NE260-OP1

Brushless Motor Spindle

HES510

Cooled-air is supplied.

Single motor can only be

operated at the same time.

No simultaneous operation.

SYSTEM CHART

4-1 Motor Speed 80,000min-1

4-2 Motor Speed 60,000min-1 / 50,000min-1 / 32,000min-1

(1) One Piece Type

Fig. 3

Fig. 4

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910

TORQUE CHARACTERISTICS

Spindle NR-2551

Speed Reducer

ARG-2516N (1 / 16 Reduction)

Speed Reducer

ARG-2504N (1 / 4 Reduction)

Brushless Motor

(Cord with Quick Disconnect)

EM25N-5000-J4

Lever Type

Spindle

NRR-2651

50,000min-1

(NR-453E)

40,000min-1

(NR-403E)

20,000min-1

(RAX-271E)

5,000min-1

(RAX-71E)

1,000

60,000min-1

1,000

60,000min-1

1,000

50,000min-1

1,000

32,000min-1

60,000min-1

7,490min-1

13,330min-1

50,000min-1

60,000min-1

Spindle

NR-453E / NR-403E

Spindle NR-3060S

Motor Cord

EMCD-3000

90º Angle Spindle

RAS-151E

(1/2.67)

90º Angle Spindle

RAX-271E (1/1.5)

RAX-71E (1/6)

90º Angle Spindle

RA-271E (1/1.5)

90º Angle Spindle

RA-151E (1/2.67)

Automatic Tool

Replacement Spindle

NR50-5100 ATC

Automatic Tool

Replacement Spindle

NR40-5100 ATC

Brushless Motor

EM-3060

Brushless Motor

EM-3060J

EM-3060J-2M

Motor Cord

(Cord with Quick

Disconnect)

EMCD-3000J

Brushless Motor

EM-3030J

EM-3030J-2M

Motor Cord

(Cord with Quick

Disconnect)

EMCD-3000J

Speed Reducer

ARG-011E (1 / 4 Reduction)

Speed Reducer

ARG-021E (1 / 16 Reduction)

Lever Type

Spindle

NRR-3060

Open and Close Lever

Open and

Close Lever

30,000min-1

(

7,500min-1

(

30,000min-1

(

1,870min-1

(

30,000min-1

(

7,500min-1

(

30,000min-1

(

1,870min-1

(

Compressor

100V~

240V

100V~

240V

Air Line Kit

AL-0201

Selector Unit

NE261

Control Unit

NE260

NE260-OP1

Cooled-air is supplied.

Single motor can only be

operated at the same time.

No simultaneous operation.

1 : Maximum rotating speed at the cutting tool.

2 : Maximum allowable motor speed for the spindle.

(2) Modular Type

323020100

450

400

350

300

250

200

150

100

1Continuous Duty Area

Output (W)

Torque (cN.m)

Speed ( x 103min-1)

Torque

Output

(4) 32,000min-1

Fig. 10

50403020100

450

400

350

300

250

200

150

100

Output (W)

Torque (cN.m)

Speed ( x 103min-1)

Continuous Duty Area

Torque

Output

(3) 50,000min-1

EM25N-5000 HES510

0510 3515 2520 30 40 45 50

100

200

150

250

Output

Torque

Torque (cN.m)

Output (W)

Speed ( x 103

min

-1)

Fig. 9Fig. 8

Output (W)

20 30 40 50 60 70 80

300

350

400

250

200

150

100

Output

Continuous Duty Area

Torque

Torque (cN.m)

Speed ( x 103 min-1)

(1) 80,000min-1

6050403020100

450

400

350

300

250

200

150

100

Output (W)

Torque (cN.m)

Speed ( x 103min-1)

Continuous Duty Area

Torque

Output

(2) 60,000min-1

Fig. 7Fig. 6

Fig. 5

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[1]Unit (NE260)

[2]Control Panel

Refer to Control Panel details.

[3]Input/Output Connector A

Connector for automatic control and monitoring of motor/spindle system. When not in use please

install the connector cover to prevent damage or contamination of connector or pins.

[4]Input/Output Connector B

Connector for automatic monitoring of emergency conditions. The pin configurations of this

connector are different on the NE260 and NE260-OP1. Please refer to page 27 for a complete

description of the pin input and output signals. When not in use please install the connector cover

to prevent damage or contamination of connector or pins.

[5]Communication Connector for NE261 Selector Unit

When not in use please install the connector cover to prevent damage or contamination of

connector or pins.

[6]Motor Connector

[7]Air Input Joint

Supply clean, dry, regulated air for motor cooling. Regulate air to between 0.25MPa-0.3MPa.

Air Consumption 30NR/min. Air must be supplied to operate the system.

[8]Air Output Joint

Connect Air Hose to supply clean, dry, regulated air for motor cooling.

[9]Power Switch

[

]Main Power Inlet

Insert the Plug for Power Cord (Provided). Fuse (T6.3AL 250V) : 2pcs.

[

]Digital Speed Indicator (SPEED)

Preset Speed, Actual Speed, Warning and Error Codes are displayed to 2 digits. When the motor is

stopped the Preset Speed is displayed, when the motor is rotating the actual speed is displayed.

The display also displays the error codes when an error has occurred.

And displays the gear ratio setting when the gear mode is set.

[

]Load Monitor LED (LOAD)

The motor/spindle load is displayed by 6 LED’s (3 Green, 2 Yellow and 1 Red). Continuous

operation is possible with up to all 3 green LED’s lit. If one of the yellow LED’s is lit the

motor/spindle can only be run for a short time. Please refer to PROTECT FUNCTION of this

manual for allowable duration of high load operation. When any of the yellow or red LED’s are lit

the warning LED (Warning) [

]will flash, if this condition is continued beyond the allowable interval

the error LED (Error) [

]will flash and the motor/spindle will be shut down.

[

]Motor Speed Adjustment Switch (SPEED)

Steplessly adjustable speed control. Pushing the UP button will increase motor speed. Speed is

adjustable from 1,000-80,000 min-1.

[

]Start Switch (START)

Starts and stops motor rotation

[

]Rotation Direction Switch (FWD./REV.)

Right hand rotation (FWD.) and left hand rotation (REV.) are as viewed with the cutting tool facing

the operator. With the cutting tool facing the operator right hand rotation (FWD.) will be clockwise

rotation.

[

]Controller Switch (AUTO-MANUAL)

This switch selects motor/spindle control from the Control Panel or from an external source.

Manual : Control Panel

Auto : External control through the input/output connector.

[

]Gear Mode Select Switch (GEAR)

Set Gear Mode to display the rotating speed at the cutting tool when using an angle spindle or

speed reducer. Select the gear ratio by [

] Motor Speed Adjustment Switch. When setting gear

mode, the gear ratio will be displayed in [

] Digital Speed Indicator.

[

]Error Reset Switch (RESET)

This switch resets and allows restarting of the motor/spindle after an error has been corrected.

Some error codes will not allow the unit to be reset until after the power switch has been turned off.

11 12

NOMENCLATURE

Fig. 12

[

]

[

]

[

]

[

]

[

]

[

]

[9]

[6]

Fig. 11

[2]

[3]

[4]

[5]

[7]

[8]

[

]

[

]

[

]

[

]

[

]

[1]

[

]

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WARNING

•Before removing fuse make sure that the main power switch is in the off position

and the power cord is disconnected from the power supply.

•Make sure and use only the properly rated and type of fuse.

•Failure to use the proper type and rated fuse will result in fire, injury, electric

shock and/or product damage.

CHANGING FUSES

Fig. 13

8-1 Bottom Mounting

8-2 Back Mounting

Fig. 14

Fig. 15

Attach the 2 brackets using the 4 hole on the bottom of the unit using the provided screws.

Attach the 2 brackets using the 4 holes on the back of the unit using the provided screws.

Bracket

Cap

Bracket

[

]Error LED (ERROR)

When a serious problem with the system is detected this LED blinks, the motor/spindle is

shut down and the Digital Speed Indicator [

]displays the error code.

[

]Warning LED (WARNING)

The operating and working conditions of the system are constantly monitored and the

warning LED blinks when a hazardous condition has been detected. When a hazardous

condition is detected the warning LED blinks and the Digital Speed Indicator [

]alternates

between the warning code and the actual or preset speed, depending on whether or not the

motor/spindle is rotating.

[

]Rotating LED (RUN)

When the motor is rotating this LED will flash.

(1)

Push on the clips on the top and bottom of the fuse holder and remove the fuse holder and

fuses.

(2) Remove the bad fuse or fuses and replace with the proper type and rating of fuse as listed

below and determined by the input voltage being used.

Fuse : T6.3AL (250V)

(3) Replace the fuse holder containing the fuses into the fuse inlet box and make sure it

snaps in place.

(1) Two mounting brackets are provided with the system.

(2) The brackets can be installed on the bottom or on the back of the control unit.

(3)

After installing the brackets you can use the screw cutouts to mount the control unit.

BRACKET INSTALLATION

CAUTION

•If there is a threat to fall the control unit from the desk, be sure to place it with the

provided brackets for safety.

•Never install the unit in such a manner as to block the air vents on the side of the

control unit. This manner of installation will cause heat buildup and damage to the

internal components of the control unit.

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15 16

POWER CORD CONNECTION

WARNING

Only use grounded power sources. Failure to properly ground the unit may result

in electric shock, injury, fire and/or damage to the system components.

(1) Insert the female plug into the main power inlet box [

] on the front of the unit.

(2) A screw hole is provided on the lower, right side of the control unit for attaching the

tension relief. Use the provided Nylon Tension Relief to attach the power cord to the side

of the control unit.

Fig. 20

MOTOR CORD CONNECTION

(1) Align the guide pin A on the motor plug with the key way B on the motor socket on the

front of the control unit.

(2) Screw in the coupling nut C of the motor plug to the motor socket D on the front of the

control unit.

Fig. 22Fig. 21

8-3 Rubber Pad Installation

When placing the control unit horizontally, the Rubber Pad (Provided) is installed at the side

of the air vents. Install the control unit so the air vents are underneath the control unit.

When installing horizontally, remove the 4 screws on the Control Panel and remount the

panel at a 90° Angle.

Before removing the control panel be sure the Power Switch is OFF and remove the Power

Inlet Cord.

8-4 Proper Clearance

When installing 2 or more control units in the machine cabinet make sure to check that each

single control unit has the proper clearance on all sides.

Fig. 16 Fig. 17

Fig. 18

Vertical mounting

Horizontal mounting

min.30mm min.20mm

min.30mm min.30mm

Rubber Pad

Control Panel

Screw

CAUTION

Never install the air vents upward when installing the control unit horizontally.

This may cause damage to control unit.

[

]

CAUTION

Before connecting the motor cord, make sure the power source is switched off.

Nylon Tension Relief

Fig. 19

min.30mm min.20mm

min.30mm min.30mm

DIR

DIR START

STOP

CTRLGEARRESET

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CHANGING CUTTING TOOLS

17 18

The spanner size and the cutting tool replacement varies depends on the spindle types. Be sure

to check the operation manual on the spindle or the motor spindle about the details.

(1) Set the provided wrench on the spindle.

(2) Place the provided wrench on the chuck nut and turn it counterclockwise to loosen the

collet and remove the cutting tool. (The first turn will loosen the chuck nut, but the tool will

not release and turning will become stiff. Keep turning through the stiffness and the collet

will open.)

(3) Insert the new tool and tighten the collet by turning clockwise.

Loosen

Tighten

Spindle

Tool

Chuck Nut

Fig. 24

CAUTION

Never install a collet into the spindle quill without first assembling it in the chuck

nut. Do not tighten the collet without mounting a cutting tool or dummy bur as this

will result in damage to the collet, spindle and chuck nut and make it impossible to

remove the collet.

AIR HOSE CONNECTION

(1) Insert the provided ø6mm filtered air hose from the AL-0201 air line kit into the inlet joint

[7]on the front of the control unit. (If you are not using the AL-0201 air line kit make sure

that the incoming air supply is dry, clean air.)

(2) Insert one end of the provided ø3.2mm cooling air hose into the back of the motor.

(3) Insert the other end of the ø4mm cooling air hose into the air output joint [8]on the front

of the control unit using the provided ø6mm to ø4mm adaptor.

(4) Regulate air pressure between 0.25-0.3MPa.

The system can be set to operate without cooling air. Please see parameter setting

to set this option. Maximum speed is 30,000min-1 when not using cooling air.

Note : It is not recommended to use the system in this manner for general machining.

This setting is only for light cutting and not for use with coolants.

Fig. 23

CAUTION

1. Regulate the air supply between 0.25-0.3MPa. If the air pressure is too low the

control unit will not operate.

2. The cooling air provides two functions, to cool the electric motor and to protect

the spindle from contaminants. If air supply is shut off do not subject the spindle

to direct coolant spray or use in dusty areas.

3. Do not bend the air hose in any sharp bends or pull on the hose this can cause

the hose to break, cut off the air supply or weaken the hose over time resulting in

deterioration of the motor and spindle.

4. Attach the connector cover (provided) for safety, when not using Input/Output

Connector A/B and communication connector.

5. Never supply over the regulated air pressure. There is a threat to damage to the

air detect sensor inside the control unit.

6. The air detect function with the control unit is the detector of the input only.

When damaging to the air hose of the output of the control unit, can't be able to

detect no air supply to the motor spindle.

Reducer

(ø6–ø4

Adaptor)

[8]

[7]

Air Hose with filter

Air Joint

[9]

11 12

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19 20

(2) The installation shown in Fig. 28 is the recommended fixturing method. If this is not

possible, install as shown in Fig. 29. Do not use set screws directly in contact with the

motor or spindle body as shown in Fig. 30, this will result in damage to the housing and

internal components. When mounting the spindle take care not to fixture over the bearings

as this will result in bearing damage.

Fastening Bolt

Slit

Bushing with Slit

Fastening Bolt

Slit of Bushing

Fastening Bolt

Fig. 28 Fig. 29 Fig. 30

CAUTION

•Caution about tightening the bolt

Do not over tighten the bolt. This may cause damage to the spindle’s precision.

Tighten the bolt until the spindle body can not be turned by hand within the Fixture.

Apply working force and check that the spindle is tight before use.

•Caution about split type Holder

Insert a shim into the holder bore, and tighten the bolt with the specified torque.

Manufacture the holder with roundness and cylindrical tolerance of less than 5µm.

Insert a thin shim into the split in the holder and reduce the shim size in 5µm

increments until the spindle is held firmly.

Tighten the clamping bolt to the torque specified for that size and type of bolt.

The final responsibility for ensuring a product’s suitability for use in a given

application is left to the designer of the equipment in which NAKANISHI’s spindle is

installed. NAKANISHI offers spindles with a wide variety of capabilities and

specifications. Please carefully check the product’s specifications against the

requirements of your application and verify suitability and safety prior to initial use.

WARNING

When installing a motor/spindle to a fixed base, make sure the fixed base is

grounded in order to avoid the risk of an electric shock.

REPLACING THE COLLET

The spanner size and the chuck replacement varies depends on the spindle types. Be sure to

check the operation manual on the spindle or the motor spindle about the details.

(1) Remove the cutting tool according to the “ CHANGING CUTTING TOOLS” procedure

above and remove chuck nut assembly. (Fig. 25)

(2) The collet and chuck nut are held together by a groove in the collet and a flange in the

chuck nut. To remove the collet hold the chuck nut in one hand and push diagonally down

on the collet. The collet should pop out. (Fig. 25)

(3) Install the new collet in the chuck nut by positioning the collet in the chuck nut and

pressing down on a flat surface. (Fig. 26)

Loosen

Spindle

Chuck Nut

Fig. 25 Fig. 26

Spanner Seat

Collet Chuck

Push

Chuck Nut

FIXTURING THE MOTOR/SPINDLE

(1) When mounting the motor/spindle, refer to the recommended clamping area. (Fig. 27)

If the motor/spindle is mounted incorrectly, this will cause and damage to the spindle.

(The recommended clamping area varies depends on the spindle types. Please check the

operation manual on the spindle or the motor spindle about the details.)

Fig. 27

a b

Recommended

Clamping Area

(

)

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[

]

(5) Setting Motor Speed

Set the speed by pushing the Motor Speed Adjustment Switch [

•Motor Speed Range is 1,000-80,000 min-1 .

If the air pressure is too low the control unit will not operate.

•The motor speed is displayed in 1,000 min-1 . 80 equals 80,000 min-1.

•During Gear Mode operation the speed change rate of the Motor Speed Adjustment

Switch will change.

Fig. 32

2-2 Setting Auto Mode

(1) Set motor rotating direction

Input the motor rotating direction signal to Pin No. 2 : DIR_IN

Right hand rotation is OFF ‘Open’ (“FWD.” LED will light)

Left hand rotation is ON ‘Closed’ (“REV.” LED will light)

(2) Set 500 min-1 rotation

Input the centering rotation signal to Pin No. 16 : 500 min-1

500 min-1 LED will light

Never use 500 min-1 centering rotation for cutting

(3) Setting Gear Ratio

Push Gear Ratio Switch [

]. Check the spindle/reducer gear ratio, select the gear ratio by

pushing the Motor Speed Adjustment Switch [

Display Indicator [

]will display the gear ratio as follows 1.0, 1.5, 2.7, 4.0, 16.

If you are not using the straight type speed reducer or an angle type spindle, you do not need

to set Gear Ratio Mode. (Use Gear Ratio 1.0)

(4) Motor Start/Stop

Input the motor start signal to Pin No. 14 : START

Motor rotating is ON ‘Closed’ (START LED will light)

Motor stopped is OFF ‘Open’ (START LED is Off)

(5) Setting Motor Speed

Input the motor speed signal to Pin No. 23 : VR

•Motor Speed Range is 1,000-80,000 min-1

If the air pressure is too low the control unit will not operate.

•The motor speed is displayed in 1,000 min-1. 80 equals 80,000 min-1

All the functions of the system can be controlled by input control signals to Input/Output

Connector A [3] (Except setting gear ratio)

[

]

[

][

]

OPERATION PROCEDURES

1. Select Control Mode (Manual/Auto)

Fig. 31

2. Setting motor rotating direction, gear ratio (GEAR), Motor Start/Stop, Motor Speed

2-1 Setting Manual Mode

(1) Set motor rotating direction

Push the motor rotating direction switch [

Select FWD. Right hand rotation

Select REV. Left hand rotation

(2) Set 500 min-1 centering rotation

To select 0.5 (500 min-1), stop the motor and push Motor Speed Adjustment Switch [

]to

lower the motor speed. The Display Indicator will show 5 then 0.5. Never attempt to cut

while rotating in the centering mode.

(3) Setting Gear Ratio

Push Gear Mode Switch [

]. Check the spindle or gear reducer gear ratio, select the

correct gear ratio by pushing Motor Speed Adjustment Switch [

Display Indicator [

]will show the selected gear ratio. 5 possible gear ratios can be

selected as the follows 1.0, 1.5, 2.7, 4.0, 16.

If you are not using the straight type speed reducer or an angle type spindle, you do not

need to set Gear Ratio Mode. (Use Gear Ratio 1.0)

When Gear Mode is active the dot after the second digit on the Display Indicator will flash.

(4) Motor Start/Stop

Push Start Switch [

]and START LED will illuminate.

(1) Using the control switch [

] you can select between Manual (Front Panel Control) or Auto

(External Signal Source) modes. External Signal Source can be used to control Motor

Start/Stop, Rotational Direction, Motor Speed, and etc.

(2) Manual Mode-Front Panel Operation.

Auto Mode-Control by External Signal Source.

[

]

[

]

[

]

[

]

[

]

[

]

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23 24

Pin No.

Pin Name Description

Input/Output

Signal Function

500 min-1

SEL0

COM_2

PULSE

—

UD-IN

WARNING

COIN

LOAD

SPEED_V

Rotates Motor at

‘Centering’ Speed

Motor Selection

Signal 0

Power Source for

External Outputs

Rotating Pulse

Not Used

UP/DOWN Signal for

Motor Speed Signal

Warning Signal

Speed Achievement

Signal

Motor Speed Control

Signal

Torque Load Monitor

Rotating Speed

Monitor Voltage

Input

Output

—

Input

Output

Input

Output

ON (Closed) : 500 min-1

OFF(Open) : Normal

Operation

OFF (Open)

ON (Closed)

0V or +24V DC

1 pulse/rotation

—

ON (

Closed

) : Speed Up

OFF (

Open

) : Speed Down

OFF (Open) : Normal

Operation

ON (Closed) : Warning

ON (Closed) : Ordered

Speed Achieved

OFF (Open) : Ordered

Speed Not Achieved

0-10V DC

0V : 1,000 min-1

8V+: 80,000 min-1

0-10V DC

0V : 0%

10V : 200%

0-10V DC

1V : 10,000 min-1

8V : 80,000 min-1

Maintains constant 500

min-1

motor speed for centering.

Select Motor (Refer to Table 1)

Input when using Selector Unit NE261.

Power Source to be used for External Output Signals.

1 revolution of the motor generates one pulse. Duty 50%

(*2)

When Cut-IN Signal is in, 1,000 min-1 speed up.

This output shows a Warning has occurred. The

Warning Code is shown on the Digital Speed Indicator.

Voltage output shows that the motor has achieved

more than 90% of the set speed.

Sets rotating speed of Motor.

Voltage output shows the torque being applied to the

motor. Load monitor voltage x 20 equals the torque

load %. 20V=Load%

Voltage Output is proportional to the motor speed.

EXTERNAL INPUT/OUTPUT CONTROL SIGNAL SPECIFICATIONS

1. Connector A

(1) Input/Output Connector A

•Error Output Signal.

•Front Panel or External Signal Speed Control during Auto Mode Operation.

•Fix the Motor Rotation Speed.

•Set the maximum motor speed.

•Auto Control Mode Speed Adjustment Method.

•Motor Start Command Signal Method.

•Air Input monitoring override.

•Setting Motor Speed Control Signal.

•Confirmation of Parameter Settings.

If an error occurs an error signal is output to the Input/Output Connectors. The default setting

is ON (‘Closed’) and OFF (‘Open’), this setting can be reversed if desired. Please refer to the

Setting of Parameters section of this manual for details on reversing these signals.

3. Setting other Motor Speed Parameters

The following Motor Speed Parameters can also be preset.

Pin No.

Pin Name Description

Input/Output

Signal Function

COM_1

DIR_IN

CNT_IN

RESET

SEL1

RUN

DIR_OUT

ERR

—

GND

External Power

Source for External

Inputs

Rotating Direction

Signal

Count Pulse Signal

for setting Motor

Speed

Error Release Signal

Motor Select Signal 1

Rotating Signal

Rotating Direction

Signal

Error Signal

Not Used

Internal GND

Input

Output

—

Output

0V or +24V DC

OFF (Open) : FWD.

ON (Closed) : REV.

OFF (Open) ON (Closed)

ON (Closed) OFF (Open)

OFF (Open)

ON (Closed)

ON (Closed) : Motor Rotating

OFF (Open) : Motor Stopped

OFF (Open) : FWD.

ON (Closed) : REV.

ON (Closed) : Normal

OFF (Open) : Error

—

Internal GND

Power Source to be used for External Inputs.

Controls the direction of rotation of the motor.

Count Pulse for setting Motor Speed.

(Need to set parameter)

Error code can be released and the system restarted

by switching this signal OFF and ON.

Select Motor (Refer to Table 1)

Input Signal when using Selector Unit NE261.

Voltage output shows that the motor is rotating.

Voltage output shows the direction the motor is

rotating.

Error has occurred. (*1)

Error Code is displayed on the Digital Speed Display.

(*2)

This GND to be used for motor speed control circuit.

(Refer to Fig.37)

CAUTION

Never use the pins marked NOT USED.

*1 The error signal output can be reversed. Please refer to the setting of parameters section

of this manual.

Table 1 Motor Selection Signal

*Table 1 Motor Selection Signal is effective when using Selector Unit NE261.

Select Motor SEL1 (Pin No. 5) SEL0 (Pin No. 17)

Motor 1 OFF (Open) OFF (Open)

Motor 2 OFF (Open) ON (Closed)

Motor 3 ON (Closed) OFF (Open)

Motor 4 ON (Closed) ON (Closed)

VCC

MOTOR_1

GND

START

Internal Power Source

for Analog Signal

Motor Current

Monitor

Internal GND

Rotate Command

Signal

Output

Input

+10V DC

0-10V DC

0V : 0A

10V : 20A

Internal GND

ON (Closed) : Rotation

OFF (Open) : Stop

Power Source for VR

Output +10V DC

Voltage Output shows the motor current consumption.

Output voltage is proportional to the motor current

consumption.

This GND to be used for analog outputs (12, 24 and

25) circuit. (Refer to Fig.40)

Starts and Stops motor rotation.

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25 26

(3) Input/Output Signal

(2) Input/Output Diagram

+24V or 0V

Load

6,7,8,20,21

(COM_2)

0V or +24V

The side of unit

(COM_1)

0V or +24V

+24V or 0V

The side of unit

(COM_2)

+24V or 0V

0V or +24V

(PLUSE)

Load

Fig. 36

Output Signal2

Refer to Fig. 36 for about the Output Signal of Rotating Pulse. The output current can be

connected to both the sink and the source.

Voltage and Current Specifications

• Applied Voltage (V max) 30VDC • Working Current (Ip) 50mA

Input Signal

There are 8 kinds of input signals : rotation command, rotation direction, error release,

speed up-down signal, speed command pulse signal, motor selection signal 0, motor

selection signal 1,500 min-1 speed command. These signals are +24VDC signals from an

external signal source.

Output Signal1

There are 5 kinds of output signals : rotating, rotating direction, error, warning and rotating

speed achieved. There signals are MOSS Relay Contact Connections. The output current

can be connected to both the sink and the source.

Voltage and Current Specifications

• Applied Voltage (V max) 30VDC • Working Current (Ip) 100mA

Use an external power source for output circuits.

It is recommended to use the same 24VDC power source used for input signals. Please

refer to Fig. 35 for connections.

Fig. 34

Fig. 33

Fig. 35

COM_1

START

(+24V

0V)

(0V

+24V)

DIR_IN

RESET

500min

SEL0

SEL1

UD_IN

CNT_IN

Potentionmeter

COM_2

RUN

DIR_OUT

ERR

WARNING

COIN

PULSE

MT-CNA

MT-CNB

AUTO+

AUTO-

PWON+

PWON-

EMG-IN+

EMG-IN-

GND

MOTOR_1

+10VDC

LOAD

SPEED_V

SAFE-1A

SAFE-1B

SAFE-2A

SAFE-2B

SAFETY RELAY CONTACT

Connector A

(D-Sub25)

Connector B

(D-Sub15)

NE260 UNIT

*NE260-OP1 use Pin No. 1, 3, 4, 9, 11, 12

NE260-OP1 UNIT

Please use a separate power source that is capable of supplying 24VDC±10 %, 100mA.

Refer to Figures below for connections.

*When using NE261, input signal : Motor Selection Signal 0, Motor Selection Signal 1.

*By setting parameter, Motor Speed change is possible by pulse signal.

If input “Speed up-down signal” “Speed Command pulse signal”.

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27 28

Pin No. Pin Name

Description

Input/Output

Signal Function

EMG-IN+

MT-CNA

SAFE-1A

SAFE-2A

AUTO+

PWON+

–—

EMG-IN-

MT-CNB

SAFE-1B

SAFE-2B

AUTO-

PWON-

–—

Emergency Stop

Signal

Motor Signal

Connect Contact A

Safety Relay

Contact 1A

Safety Relay

Contact 2A

AUTO Mode

Signal (+)

Unit Power Source

Monitor (+)

Not Used

Emergency Stop

Signal (-)

Motor Signal

Connect Contact B

Safety Relay

Contact 1B

Safety Relay

Contact 2B

AUTO Mode

Signal (-)

Unit Power Source

Monitor (-)

Not Used

Input

Output

–—

Input

Output

–—

External Power Source

input for Emergency Stop

Signal or Emergency

Stop Signal OFF (Open)

Continuity, OFF (Open),

between PIN2 and PIN10

the motor is connected.

PIN3 and PIN11

continuity ON (Closed)

Safety Relay is OFF

PIN4 and PIN12

continuity ON (Closed)

Safety Relay is OFF

ON (Closed) : Main Power

Supply is connected

OFF (Open) : Main Power

Supply is disconnected

External Power Source

input for Emergency Stop

Signal or Emergency

Stop Signal OFF (Open)

Continuity, OFF (Open),

between PIN2 and

PIN10 the motor is

connected.

PIN3 and PIN11

continuity ON (Closed)

Safety Relay is OFF

PIN4 and PIN12

continuity ON (Closed)

Safety Relay is OFF

Auto Mode Operation

ON (Closed)

ON (Closed) : Main Power

Supply is connected

OFF (Open) : Main Power

Supply is disconnected

–—

Auto Mode Operation

PIN5 and PIN13

ON (Closed)

External Power Source input for Emergency Stop

Signal or Emergency Stop Signal. Normal Operation

ON (Closed), Emergency OFF (Open).

When there is continuity, OFF, between PIN2 and

PIN10 the selected motor is connected, if no

continuity the motor is disconnected or the motor

cord is broken.

When there is continuity between PIN3 and PIN11 ON

(Closed) Safety Relay is OFF (System Stopped), no

continuity Safety Relay is OFF (Open) Normal Operation.

When there is continuity between PIN4 and PIN12 ON

(Closed) Safety Relay is OFF (System Stopped), no

continuity Safety Relay is OFF (Open) Normal Operation.

When AUTO Mode is being used this Pin5 & PIN13

is ON (Closed).

If the main power supply to the unit is connected

this output is ON (Closed).

External Power Source input for Emergency Stop

Signal or Emergency Stop Signal. Normal Operation

ON (Closed), Emergency OFF (Open).

When there is continuity, OFF, between PIN2 and

PIN10 the selected motor is connected, if no

continuity the motor is disconnected or the motor

cord is broken.

When there is continuity between PIN3 and PIN11 ON

(Closed) Safety Relay is OFF (System Stopped), no

continuity Safety Relay is OFF (Open) Normal Operation.

When there is continuity between PIN4 and PIN12 ON

(Closed) Safety Relay is OFF (System Stopped), no

continuity Safety Relay is OFF (Open) Normal Operation.

When AUTO Mode is being used this Pin is ON

(Closed).

If the main power supply to the unit is connected

this output is ON (Closed).

–—

CAUTION

When using 0V DO NOT connect to PIN10 or 13 (Internal Ground) of Input/Output

Connector A.

Monitoring Signals

There are 3 kinds of monitoring signals : Motor Current, Torque Load Monitor and Rotating

Speed Monitor. Please refer to Fig. 40 for connections.

• Motor Current Monitor

• Torque Load Monitor

• Rotating Speed Monitor Voltage

Fig. 40

12 1K

The side of unit

Motor Current Monitor

Torque Load Monitor

Rotating Speed

Monitor Voltage

0.1

12345678910

0.1

Control Signal(DCV)

60,000min-1

80,000min-1

50,000min-1

32,000min-1

Motor Speed (x10,000min-1)

Motor Speed (min

-1

) = Control Signal (V) x 10,000

For the motor with the maximum speed 60,000min

-1

, this will be come to 60,000min

-1

with over the Motor Speed Control Signal 6V.

For the motor with the maximum speed 50,000min

-1

, this will be come to 50,000min

-1

with over the Motor Speed Control Signal 5V.

For the motor with the maximum speed 32,000min

-1

, this will be come to 32,000min

-1

with over the Motor Speed Control Signal 3.2V.

Fig. 39

2. Connector B

If you use NE260-OP1 connected to a machine tool, connect the signal line of SAFE-1A,

SAFE-1B, SAFE-2A, SAFE-2B to the safety circuit at the side of the machinery in order to build

a safety shutdown system with higher reliability.

(1) Input/Output Connector B

CAUTION

NE260 does not use PIN No. 1, 3, 4, 9, 11, 12.

NE260-OP1 use PIN No. 1, 3, 4, 9, 11, 12.

Motor Speed Control Signal

Refer to Fig. 37, 38, 39 for connections.

*When applying the voltage, never input over 10VDC. This will avoid damaging to the

control unit.

11 10VDC Power Source for

External Control Inputs

Motor Speed Control

Potentiometer

The side of unit

Motor Speed Control

Control

Signal

Fig. 37 Fig. 38

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29 30

Safety Relay Signal

PIN No. 3-11, 4-12

• The Safety Relay will be ON or OFF depending on the state of the Emergency Stop Signal

PIN1-9.

• When there is continuity between PIN3 (SAFE-1A) and PIN11 (SAFE-1B) or between PIN4

(SAFE-2A) and PIN12 (SAFE-2B) the motor is off. If there is no continuity between these

pairs of pins then the system is operating normally.

• If the Emergency Stop Signal is OFF (Open) the Safety Relay will be OFF (Open) and the

motor power will be interrupted and the motor will stop.

• If the ‘a’ contacts of the Safety Relay are welded together by an over load or short circuit

the ‘b’ contacts’ separation are maintained with more than 0.5mm spacing by the relay’s

recoil mechanism.

• The voltage/current specifications of PIN3-11 & PIN4-12.

Applied Voltage (V max) 30VDC

Working Current (Ip) 2A

Fig. 43

3 (SAFE-1A)

4 (SAFE-2A)

12 (SAFE-2B)

11 (SAFE-1B)

The side of unit

Safety Relay

Contact

Motor

output part

Motor

output line

Input/Output Connector A

Plug Part Number : XM2A-2501 OMRON (or other similar high-quality product)

Cover Part Number : XM2S-2511 OMRON (or other similar high-quality product)

Input/Output Connector B

Plug Part Number : XM2A-1501 OMRON (or other similar high-quality product)

Cover Part Number : XM2S-1511 OMRON (or other similar high-quality product)

• The Plug and Cover are not provided with the system. Please purchase the specified plug

and cover from local suppliers.

• Use only shielded cables to minimize RF interference and noise. Connect the shield to

the plug cover.

• Different makers use different names for the cover.

CAUTION

To minimize RF interference and noise please keep the length of the cables as short as

practical and route separate from power cables.

3. Input/Output Signal Connector Specifications

Output Signal

PIN No. 2-10, 5-13, 6-14

There are 3 kinds of output signals : “Motor Connection Monitoring”, “AUTO MODE” and

“Unit Power Source Monitoring”.

These signals are MOSS Relay Contact Connections. The output current can be connected

to both the sink and the source

Voltage and Current Specifications

• Applied Voltage (V max) 30VDC

• Working Current (Ip) 100mA

Use an external power source for output circuits. It is recommended to use a separate

power from the one used for Input/Output Connector A. Please refer to Fig. 41 for

connections.

(2) Input/Output Signals

Emergency Stop Signal Input

PIN No. 1-9

This signal is a switched 24V DC output.

Please use a separate power source that is capable of supplying 24VDC±10%,

50mA. Refer to Fig. 42 below for connections.

Normal Operation circuit is ON (Closed) Emergency Stop circuit is OFF (Open).

If the Emergency Stop Signal is OFF (Open) the Safety Relay is OFF and the power supply

to the motor is interrupted and the motor stops.

Fig. 42

Fig. 41

10(MT-CMB)

5(AUTO+)

13(AUTO-)

6(PWON+)

14(PWON-)

2(MT-CNA)

+24V or 0V

0V or +24V

+24V or 0V

Load

0V or +24V

The side of unit

+24V

(or 0V)

(or +24V)

The side of unit

+24V

(or 0V)

(or +24V)

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31 32

3. Resetting System after Error Codes

There are 2 methods of releasing error codes.

(1) Push Error Reset Switch [

] RESET on the front panel.

(2) Switch the signal on PIN4 (RESET) of Input/Output Connector A OFF (Open) ON

(Closed) OFF (Open).

When releasing Error using the Motor Start/Stop (Pin No. 14 : START) is ON (Closed),

OFF (Open) Motor Start/Stop before resuming operation.

Error Code Problem Area Trouble

Excess Current

Over voltage

Motor Sensor

Control Unit Overheat

Brake Circuit Trouble

Rotor Lock

Low Air Pressure

Torque Overload

External Control Signal

Error

Over Speed

Emergency Stop Error

Internal Memory Error

Trouble with the sensor signal in the motor

Internal Temperature of the Control Unit too High

Trouble with the motor brake circuit

Motor stalled for more than 3 seconds

Inadequate air supplied for more than 4 seconds during rotation

or inadequate air supply when motor start commanded.

Torque limits exceeded for too long a period of time.

External control sequencing problem

E9 Communication

Interception Intercept communication with Selector Unit (NE261)

(Only if using NE260 connect to NE261)

Rotating speed is beyond the set speed for too long

Safety Relay has been activated and the Emergency Stop

System has stopped the motor

Trouble with memory (EEPROM)

Motor Current beyond safe limits

Motor Voltage beyond safe limits

EL Incompatible Motor Incompatible motor is connected to the system.

Table 3

2. Detection of unsafe operating conditions

Always check the control unit, motor, spindle and the condition of the cooling air prior to

use. This will help prevent system errors that will result in undesired operating conditions.

When an Error Occurs the following events happen :

(1) Motor stops

(2) The Error LED [

]will flash.

(3) Error Code (listed in Table 3) will be displayed on the Digital Speed Indicator [

(4) An Error signal is output to the Error Signal (PIN No. 8 : ERR) of Input/Output Connector.

CAUTION

When the Warning LED [

]flashes, please check the Warning code.

Fig. 44

Connector A

4. Input/Output Connector A, B Pin Configuration

Connector B

1. Warning Function

Always check the control unit, motor, spindle and the condition of the cooling air prior to

use. This will help prevent system errors that will result in undesired operating conditions.

(1) The Warning LED [

]will flash.

(2) The Warning Code (listed in Table 2) will be displayed on the Digital Speed Indicator [

(3) A Warning Signal is output to the Warning Signal (PIN No. 20 : WARNING) of

Input/Output Connector A.

PROTECT FUNCTION

Warning Code Warning Function Trouble

Motor Cord

Low Air Pressure

Control Unit Overheat

Over Load

Internal Temperature of the Control Unit too High

Motor Torque load exceeding safe limits

Emergency Stop

Over Air Pressure

Emergency Stop system activated

Over Air Supply

Motor Cord or Connector is disconnected or misaligned

Low Air Pressure

Table 2

CAUTION

•When using the Input/Output Connector and external monitoring please check

and resolve the source of the trouble anytime a Warning Code is displayed.

•

When the error occurs for the damage to the internal of the control unit, can not

release the error. Please send to Nakanishi repairs.

NE260K0581Ee090509.9.221:16AMページ31

33 34

(1) The proper surface speed for vitrified grindstones is 600-1800m/min.

(2) Do not exceed 13mm overhang for mounted grindstones. In case overhang must exceed

13mm reduce the motor speed in accordance with Fig. 45 and Table 5.

(3) Do not use tools with bent or broken shanks, cracks or excessive runout.

(4) Dress the grindstone prior to use.

(5) For grinding the maximum depth of cut should not exceed 0.01mm radially or axially.

Reciprocate the tool several times after each in feed step.

(6) Always operate tools within the tool manufacturer’s recommended speed limits. Use of a

tool outside of the manufacturer’s recommended speed limits could cause damage to the

spindle and injury to the operator.

CUTTING TOOL CAUTIONS

3.14 x Diameter (mm) x rotation speed min-1

1,000

Surface Speed (m/min)=

CAUTION

Do not exceed a surface speed of 2,000m/min for grinding.

Overhang (mm) Speed (min-1)

25 N x 0.3

50 N x 0.1

Table 5. Overhang and Speed

N=Max. operating speed at 13mm overhang.

Fig. 45

N x 0.5

The E3200 Series is a high-precision, high-speed motor-spindle, the following procedure

must be followed to ensure proper operation and longevity.

During transportation, storage or installation the grease inside the bearings will settle. If the

motor-spindle is suddenly run at high-speed excessive heat will cause bearing damage. After

installation, repair, initial operation, or long periods of non operation please follow the break-

in procedure detailed in Table 4.

123

min-1

Running Time

Items to Check

15,000

15 Min

No Abnormal

Noises

30,000

10 Min

40,000

10 Min

456

50,000

15 Min

60,000

10 Min

80,000

10 Min

Spindle Housing less than

20°C.

BREAK-IN PROCEDURE

Table 4

Steps

Spindle Housing no hotter than 20°C. If hotter

than 20°C stop for at least 20 minutes, check

installation and restart Break-In procedure.

(7) Keep the tool shank and collet clean. If contaminants are left in the collet they can cause

excessive runout and damage the tool and spindle.

(8) Do not drop or hit spindle.

4. Torque Overload

When the Load Monitor LED (Load) [

] lights 4 or more LEDs (3 green LEDs and 1 or more

yellow LEDs) an overload condition exists. During overload operation the follow occurs.

(1) Warning LED (Warning) [

] flashes

(2) Warning Code A3 is displayed on the Digital Speed Indicator [

]

(3) Warning Signal is output to the Warning Signal (Warning) of Input/Output Connector

Overload operation is considered short term operation mode. The allowable operation time

depends on the number of lighted LEDs on the Load Monitor LED (Load).

The allowable time is detailed below.

(1) Load Monitor LED 4 LEDs : 30 Seconds

(2) Load Monitor LED 5 LEDs : 10 Seconds

(3) Load Monitor LED 6 LEDs : 5 Seconds

When the allowable time is exceeded the motor will stop and the following occurs.

(1) Error LED (Error) [

] flashes

(2) Error Code E8 is displayed in the Digital Speed Indicator [

(3) Error Signal is output to the error signal PIN8 (ERR) of Input/Output Connector A.

CAUTION

If you operate the system in short term operation for long periods of time the

control unit will overheat and damage to the motor and spindle is possible.

NAKANISHI recommends only continuous duty operation (Load LED has 3 LEDs lit :

Torque Load Monitor (Load) voltage is less than 5V.

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Setting the Error Output Mode

When an operating error occurs, an error signal will be output to Input/Output Connector A.

This output can be set to normally ON (Closed) or normally OFF (Open).

Check operating parameter settings

35 36

(1) The following operating parameters can be preset depending on the application

requirements. The operating parameter presets are retained in non-volatile memory and

will be maintained even if power is disconnected.

SETTING OF OPERATING PARAMETERS

0.1

12345678910

0.1

E3200 SERIES (NE260)

Control Signal(DCV)

60,000min-1

80,000min-1

50,000min-1

32,000min-1

Motor Speed (x10,000min-1)

Motor Speed (min

-1

) = Control Signal (V) x 10,000

For the motor with the maximum speed 60,000min

-1

, this will be come to 60,000min

-1

with over the Motor Speed Control Signal 6V.

For the motor with the maximum speed 50,000min

-1

, this will be come to 50,000min

-1

with over the Motor Speed Control Signal 5V.

For the motor with the maximum speed 32,000min

-1

, this will be come to 32,000min

-1

with over the Motor Speed Control Signal 3.2V.

0.1

12345678910

0.15

Motor Speed (min-1) = Control Signal (V) x 10,000 / 1.5

E3000 SERES (NE211)

Control Signal (DCV)

Motor Speed (x10,000min-1)

Fig. 47Fig. 46

The Characteristics when the Parameter is OFF

The Characteristics when the Parameter is ON

Setting AUTO Mode Motor Speed Control

Control Mode is set to AUTO

• Motor Speed can be controlled by the Motor Speed Adjustment Switch on the Control

Panel.

• When using Selector Unit NE261, Motor Speed can be adjusted on the NE261 control

panel.

Setting Fixed Motor Speed for Motor #1 and #2 and #3 and #4

• Single Motor Speed is desired.

• Machine Operator can not change motor speed.

Setting the Maximum Motor Speed for Motor #1 and #2 and #3 and #4

• Set maximum motor speed to the maximum allowable speed for the cutting tools being

used.

• Set the maximum motor speed to the maximum recommended speed for the spindle

being used.

Selection of external Input/Output Signal Speed

During Auto mode operation, you can select variable voltage DC or pulse signal to control

motor Speed.

Selection of the type of external signal for motor start method

Allows selection of Start signal and Direction Signal or REV. Start and FWD. Start signals.

Air Input monitoring override

The system can be configured to operate without cooling air, maximum speed is

30,000 min-1.

Setting Motor Speed Control Signal

There is the compatibility with E3000C Control unit about Motor Speed Control Signal.

When setting the Motor Speed Control Signal, the maximum motor speed is 60,000min-1.

When connecting to the motor spindle with the maximum motor speed 80,000min-1, be

sure to control to limit the motor speed less than 60,000 min-1. When the Parameter

is OFF or ON, the relation with external motor speed control signal and motor speed

shows Fig. 46 & Fig. 47.

TROUBLE SHOOTING

Trouble Cause

Power is not supplied.

Motor Cord or Connector Disconnected.

Controller Switch is set to Manual but

trying to start with an external command

signal through Input/Output Connector A.

Controller Switch is set to Auto but trying

to start with the Start Switch on the

Control Panel.

Motor Cord is connected to the wrong Motor Connector

on NE261. Emergency Stop Signal on Input/Output

Connector B is OFF (Open) NE260-OP1 Only.

Error Code Indicated.

Low Air Pressure

Motor Fixed Speed is set in the or

parameters.

Set Gear Mode except “1.0”.

Foreign Particles stuck in the collet chuck

or spindle.

Collet Nut is not properly positioned.

Ball Bearings Worn.

Foreign Particles in the ball bearings.

Ball Bearings Worn.

Tool out of Balance.

Motor Does Not Run

Motor Speed is not

displayed correctly

High Run-Out

Abnormal Vibration or

Noise during Operation

•Check the Main Power Inlet connection

on the front of the unit.

•Insert the Power Plug correctly.

•Check if the fuse is short.

Connect the Motor Cord to the connector

or check the Motor Cable.

Start with the Start Switch on the Control

Panel, or set the Controller Switch to Auto.

Start with an external command signal or

set the Controller Switch to Manual.

Check the Motor Cord connection and correct if necessary.

Check the source of the Emergency Stop Signal and correct

the problem. After correcting the problem, restart the system.

Check and correct the source of the Error

Code.

Adjust air pressure to between

0.25MPa-0.3MPa.

Check the and parameter

settings and adjust as needed.

Check the gear ratio.

Clean the inside of the collet chuck and

spindle.

Position the collet nut properly.

Send to NAKANISHI for Repair.

Change the tool.

Inspect/Corrective Action

NE260K0581Ee090509.9.221:16AMページ35

Setting Error Output Mode

• Allows setting of the output signal on PIN No. 8 : ERR of Input/Output Connector A.

• When an error occurs the output can be set to ON (Closed) or OFF (Open).

Procedure

1. Push the Start Switch.

2. is displayed. This indicates that when an error occurs the output will be

OFF (Open).

3. Push the Start Switch.

4. is displayed. This indicates that when an error occurs the output will be

ON (Closed).

5. You can cycle through the choices by pushing the Start Switch.

6. Push the Reset Switch to send the settings to memory will be displayed

depending on the parameter being set.

7. If you desire to set other parameters push the Motor Speed Adjustment Switch to

select the parameter to be set.

8. If you are finished setting parameters, turn the Power Switch off.

If the Error Output Mode has been changed from the default setting, that setting will be

displayed the next you enter Parameter Setting Mode.

Setting AUTO Mode Motor Speed Control

• Allows the setting of the manner in which motor speed can be controlled when the

system is being used in AUTO mode (External Command Signal Control).

• This parameter selects between speed control with the Motor Speed Adjustment Switch

or by External Command Signal through Input/Output Connector A.

Procedure

1. Push the Start Switch.

2. is displayed. This indicates that speed control is by External Command Signal

Control and the Motor Speed Adjustment Switch are Disabled.

3. Push the Start Switch.

4. is displayed. This indicates that speed control is by the Motor Speed Adjustment

Switch and the External Command Signal Control for speed is disabled.

5. You can cycle through the choices by pushing the Start Switch.

6. Push the Reset Switch to send the settings to memory will be displayed

depending on the parameter being set.

7. If you desire to set other parameters push the Motor Speed Adjustment Switch to

select the parameter to be set.

8. If you are finished setting parameters, turn the Power Switch off.

Setting Fixed Motor Speed

• Allows the motor speed to be fixed.

• Fixes the motor speed in both MANUAL and AUTO modes.

Procedure

1. Push the Start Switch.

2. is displayed. This indicates that Fixed Motor Speed cannot be set.

3. Push the Start Switch.

4. is displayed. This indicates that Fixed Motor Speed can be set.

5. The Digital Speed Indicator will oscillate between and the selected motor speed.

The motor speed can be set by pushing the Motor Speed Adjustment Switch. The

speed control range is 1,000-80,000 min-1.

6. Push the Reset Switch to send the settings to memory will be displayed

depending on the parameter being set.

7. If you desire to set other parameters push the Motor Speed Adjustment Switch to

select the parameter to be set.

8. If you are finished setting parameters, turn the Power Switch off.

37 38

(2) Entering Parameter Setting Mode

(3) Setting Procedure

While pushing and holding the Error Reset Switch [

]turn the Power Switch [9]On. Hold the

Reset Switch down for 3 seconds, the buzzer will ‘beep’ 3 times, release the Reset button

and Parameter Setting Mode will start. The Start LED flashes to indicate Parameter Setting

Mode is active.

• After entering Parameter Setting Mode the parameters to be set can be selected by

pushing the Motor Speed Adjustment Switch.

Error Output Mode

AUTO Mode Motor Speed Control

Fixed Motor Speed

Maximum Motor Speed

External Speed Control Mode

External Motor Start Signal Control Mode

Air Input monitoring override

Setting Motor Speed Control Signal

- Confirm settings of parameters -

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