| Q1100 1st noml. position of ref. axis? Absolute nominal position at which the inclined edge begins in the main axis. Input: –99999.9999...+99999.9999 or optionally ?, +, -, @ |
Q1101 1st noml. position of minor axis? Absolute nominal position at which the inclined edge begins in the secondary axis. Input: –99999.9999...+99999.9999 or optional input (see Q1100) |
Q1102 1st nominal position tool axis? Absolute nominal position of the first touch point in the tool axis Input: –99999.9999...+9999.9999 or optional input (see Q1100) |
QS400 Tolerance value? Tolerance band monitored by the cycle. The tolerance defines the deviation permitted for the surface normals along the inclined edge. This deviation is determined between the nominal coordinate and the actual coordinate of the workpiece. - Examples:
- QS400 ="0.4-0.1": Upper dimension = nominal coordinate +0.4; lower dimension = nominal coordinate –0.1. The following tolerance band thus results for the cycle: "nominal coordinate +0.4" to "nominal coordinate –0.1"
- QS400 =" ": No tolerance band.
- QS400 ="0": No tolerance band.
- QS400 ="0.1+0.1" : No tolerance band.
Input: Max. 255 characters |
| Q1130 Nominal angle for 1st line? Nominal angle of the first straight line Input: -180...+180 |
Q1131 Probing direction for 1st line? Probing direction for the first straight line: +1: The control rotates the probing direction by +90° with respect to the nominal angle Q1130 -1: The control rotates the probing direction by –90° with respect to the nominal angle Q1130 Input: –1, +1 |
Q1132 First distance on 1st line? Distance between the beginning of the inclined edge and the first touch point. This value has an incremental effect. Input: -999.999...+999.999 |
Q1133 Second distance on 1st line? Distance between the beginning of the inclined edge and the second touch point. This value has an incremental effect. Input: -999.999...+999.999 |
Q1139 Plane for object (1-3)? Plane in which the control construes the nominal angle Q1130 and the probing direction Q1131. 1: The nominal angle is in the YZ plane. 2: The nominal angle is in the ZX plane. 3: The nominal angle is in the XY plane. Input: 1, 2, 3 |
| Q320 Set-up clearance? Additional distance between touch point and ball tip. Q320 is in addition to the SET_UP column in the touch probe table. This value has an incremental effect. Input: 0...99999.9999 or PREDEF |
Q260 Clearance height? Coordinate in the tool axis at which no collision between touch probe and workpiece (fixtures) can occur. The value has an absolute effect. Input: –99999.9999...+99999.9999 or PREDEF |
| Q1125 Traverse to clearance height? Positioning behavior between the touch points: –1: Do not move to clearance height. 0: Move to clearance height before and after the cycle. Pre-positioning occurs at FMAX_PROBE. 1: Move to clearance height before and after each object. Pre-positioning occurs at FMAX_PROBE. 2: Move to clearance height before and after each touch point. Pre-positioning occurs at FMAX_PROBE. Input: –1, 0, +1, +2 |
| Q309 Reaction to tolerance error? Reaction when tolerance is exceeded: 0: Do not interrupt program run when tolerance is exceeded. The control does not open a window with the results. 1: Interrupt program run when tolerance is exceeded. The control opens a window with the results. 2: The control opens a window with the results if the actual position is in the scrap range. Program run is interrupted. The control does not open a window with the results if rework is necessary. Input: 0, 1, 2 |
Q1126 Align rotary axes? Position the rotary axes for inclined machining: 0: Retain the current position of the rotary axis. 1: Automatically position the rotary axis, and orient the tool tip (MOVE). The relative position between the workpiece and touch probe remains unchanged. The control performs a compensating movement with the linear axes. 1: Automatically position the rotary axis, and orient the tool tip (MOVE). The relative position between the workpiece and touch probe remains unchanged. The control performs a compensating movement with the linear axes. Input: 0, 1, 2 |
Q1120 Transfer position? Define which touch point will be used to correct the active preset: 0: No correction 1: Correction based on the 1st touch point 2: Correction based on the 2nd touch point 3: Correction based on the averaged touch point position Input: 0, 1, 2, 3 |
Q1121 CONFIRM ROTATION? Define whether the control will use the determined misalignment as a basic rotation: 0: No basic rotation 1: Set basic rotation: The control transfers the misalignment to the preset table as basic transformations. 2: Rotate the rotary table: The control transfers the misalignment to the preset table as offset. Input: 0, 1, 2 |