Technical data
Table Of Contents
- General Information
- Safety
- 3. Transport and Storage
- Product Features
- Technical Data
- Configuration and Functions
- 6.1. Elements
- 6.2. Menu, sections and parameters
- Machine setting
- If the same analog measuring system which is used for the angle also used for the angle Cutting length, then it is necessary, set the values for the cutting length calculation.
- Setting values with minimum angle: Place the cursor in the first row and first column of the table (line: min; column: S. Beg). Now, enter the smallest possible cut angle. Let down the cutting blade to beginning of the cut (till the point, where the upper beam and lower beam of the scissors just touch) and press the F2 key. Now place the cursor on the field in the first row and second column (row: Min; column: S. End) and let down the cutting blade to the end of the cut. Now press the F2 key again. Thus the values for the minimum angle are set up.
- Setting values with maximum angle:
- Place the cursor in the second row and second column of the table (line: max; column: S. Beg). Now, enter the biggest possible cut angle. Let down the cutting blade to beginning of the cut (till the point, where the upper beam and lower beam of the scissors just touch) and press the F2 key. Now place the cursor on the field in the first row and second column (row: Max; column: S. End) and let down the cutting blade to the end of the cut. Now press the F2 key again. Thus the values for the maximum angle are set up.Configuration of inputs and outputs
- 7. Operation
- 8. Interferences
- Maintenance
- Type Designation
- Accessories
Configuration and Functions
-30-
Mode reference
The mode for referencing is defined in this parameter.
Mode 1 = Calibration through reference parameter
Mode 2 = Calibration through demand value
Mode 3 = Reference run positive with index impuls
Mode 4 = Reference run negative with index impuls
Mode 5 = Reference run positive to input “reference point”
Mode 6 = Reference run negative to input “reference point”
Backlash compensation
The different types of backlash compensation (loop) are defined in this parameter.
No spindle compensation
Negative spindle compensation
Positive spindle compensation
With backlash by positioning in negative direction
With backlash by positioning in positive direction
Software-end position
Software-end positions can be activated or deactivated in this parameter.
All end positions active
End position min deactivated
End position max deactivated
All end positions deactivated
Hardware-end position
Hardware-end positions can be activated or deactivated in this parameter.
All end positions active
End position min (defined input) deactivated
End position max (defined input) deactivated
All end positions deactivated
Retract function
The type of descent is defined in this parameter.
Mode 1 = Descent/retract to actual value + adjusted value*
Mode 2 = Descent/retract to adjusted value*
Mode 3 = Descent/retract positive to actual value for the adjusted time period**
Mode 4 = Descent/retract to actual value + adjusted value* without return
Mode 5 = Descent/retract to adjusted value* without return
Mode 6 = Descent/retract positive to actual value for the adjusted time period** without return
Mode 7 = Descent/retract to actual value – adjusted value*
Mode 8 = Descent/retract negative to actual value for the adjusted time period**
Mode 9 = Descent/retract to actual value – adjusted value* without return
Mode 10 = Descent/retract negative to actual value fort he adjusted time period** without return
* see parameter descent/retract distance
** see parameter time descent
Relative error compensation
If activated the controller compensates for errors that may add up doing a lot of drives.
active
not active