| Q263 1st measuring point in 1st axis? Coordinate of the first touch point in the main axis of the working plane. The value has an absolute effect. Input: –99999.9999...+99999.9999 |
Q264 1st measuring point in 2nd axis? Coordinate of the first touch point in the secondary axis of the working plane. The value has an absolute effect. Input: –99999.9999...+99999.9999 |
Q294 1st measuring point in 3rd axis? Coordinate of the first touch point in the touch probe axis. The value has an absolute effect. Input: –99999.9999...+99999.9999 |
Q581 Surface-normal in ref. axis? Enter here the surface normal in the direction of the main axis. The surface normal of a point is normally output by a CAD/CAM system. Input: –10...+10 |
Q582 Surface-normal in minor axis? Enter here the surface normal in the direction of the secondary axis. The surface normal of a point is normally output by a CAD/CAM system. Input: –10...+10 |
Q583 Surface-normal in tool axis? Enter here the surface normal in the direction of the tool axis. The surface normal of a point is normally output by a CAD/CAM system. Input: –10...+10 |
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 |
| QS400 Tolerance value? Specify a tolerance band that will be monitored by the cycle. The tolerance defines the deviation permitted along the surface normal. This deviation is determined between the nominal coordinate and the actual coordinate of the workpiece. (The surface normal is defined by Q581 to Q583, and the nominal coordinate is defined by Q263, Q264, and Q294.) The tolerance value is distributed over the axes, depending on the normal vector (see examples). - Examples
- QS400 ="0.4-0.1" means: 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 ="0.4" means: Upper dimension = nominal coordinate +0.4; lower dimension = nominal coordinate. The following tolerance band thus results for the cycle: "nominal coordinate +0.4" to "nominal coordinate".
- QS400 ="–0.1" means: Upper dimension = nominal coordinate; lower dimension = nominal coordinate –0.1. The following tolerance band thus results for the cycle: "nominal coordinate" to "nominal coordinate -0.1".
- QS400 =" " means: No tolerance band.
- QS400 ="0" means: No tolerance band.
- QS400 ="0.1+0.1" means: No tolerance band.
Input: Max. 255 characters |
Q309 Reaction to tolerance error? Define whether in the event of a violation of tolerance limits the control will interrupt program run and output an error message: 0: Do not interrupt program run when tolerance is exceeded; do not output an error message 1: Interrupt program run when tolerance is exceeded and output an error message 2: If the value of the measured actual coordinate along the surface normal vector is less than the nominal coordinate, the control displays a message and interrupts the NC program run. However, there will be no error message if the value of the measured actual coordinate is greater than the nominal coordinate. Input: 0, 1, 2 |