5] tension operation, Chapter 3 operation – IAI America SCON-CA User Manual

Chapter 3 Operation

116

[5] Tension Operation

Warning: Do not perform tension operation by pressing operation using force sensor.

The pressing operation using force sensor requires an actuator applicable

for dedicated loadcell and pressing operation using force sensor.

The tension operation by using an actuation equipped with loadcell causes

the loadcell to be damaged.

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Image diagram

No.

Position

[mm]

Velocity

[mm/s]

Accele-

ration

[G]

Decele-

ration

[G]

Pressing

[%]

Thresh-

old

[%]

Positioning

width

[mm]

Zone+

[mm]

Zone-

[mm]

Acceleration/

Deceleration

mode

Incre-

mental

Gain

set

Stop

mode

0

1

100.00

250.00

0.20

0.20

0

0

0.10

0.00

0.00

0

0

0

0

2

80.00

250.00

0.20

0.20

50

0

–50.00

0.00

0.00

0

0

0

0

3

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Control method

The method of controlling the tension operation is the same as that described in [4] Pressing

operation. The control method is explained below by using the sample position table shown

above.

1) Position No.2 indicates the settings of tension operation. The settings of “Position” and

“Positioning width” show the tension start position and the tension quantity, respectively.

Attach – (minus sign) to the tension quantity. Specify the upper limit of the torque required

for tension in percent (limited current value) in “Pressing”. The speed, acceleration, and

deceleration are the conditions of positioning to the coordinate value (80mm) set in

“Position”.

2) Position No.1 indicates the tension start preparation position. Specify a value larger than

the coordinate value at which the tension provided by position No.2 ends (80 – 50 = 30mm)

in “Position”.

3) First define the positioning in position No.1. Next, the operation in position No.2 moves the

actuator to the position of 80mm at the setting speed and rating torque and change to the

tension operation. The actuator moves by 50mm in the negative direction in the tension

operation. The upper limit of the tensile force is the torque set in percent.

CSTR

Tension Operation

CSTR

Approach operation

Tension Operation

CSTR: Start position

Tension start position

80mm

Tension end position

80 – 50 = 30mm

Position No.1

Position No.2