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v1.0

Major VersionM

Approved General Content Updates

by Ron Davis

Introduction

PPE:

Please make sure you have the following PPE:

  • Gloves
  • Helmet
  • Hat
  • Eye Protection
  1. Check that the probe system and connections to the machine are  functioning correctly. Parts Required for this Step: 12133, 13131, 43121, 48382, 28392, 28210, 1111. Reminder: Make sure to remove the spindle before starting the process.
    • Check that the probe system and connections to the machine are functioning correctly.

    • Parts Required for this Step: 12133, 13131, 43121, 48382, 28392, 28210, 1111.

    • Reminder: Make sure to remove the spindle before starting the process.

    • Before beginning this procedure check to see if the fuse is dead. If the fuse is dead go here.

    • Note: View the Ring Gauge item page for more detailed part information.

    • Refer to the Wiring Diagram prior to starting step 4.

  2. In MDI, enter: M59 P1134. Hold the Work Probe within range of the OMI. Press and Hold CYCLE START.
    • In MDI, enter: M59 P1134.

    • Hold the Work Probe within range of the OMI. Press and Hold CYCLE START.

    • Gently depress the stylus, the control pendant will beep indicating the probe is activated.

    • View MSDS here

    • Contact Supervisor is there is a problem

    • Rotate the probe by hand to check runout.

    • If runout exceeds 0.0005" or 0.013 mm, adjustment is required.

    • Enter the runout reading.

  3. Gently loosen the second set of two opposite screws.
    • Gently loosen the second set of two opposite screws.

    • These will be used to push the stylus mount into alignment.

    • Tighten the screw ON THE SAME SIDE as the highest indicator reading.

    • This moves the stylus tip away from the indicator.

    • As you tighten the “pushing” screw you will need to loosen the opposite adjustment screw and locking screw slightly to allow movement.

  4. Insert the Work Probe into the spindle. Place the magnetic base on the table and align the indicator tip to the probe's stylus. Jog the axes in 0.001 inch increments until the indicator touches the stylus.
    • Insert the Work Probe into the spindle.

    • Place the magnetic base on the table and align the indicator tip to the probe's stylus.

    • Jog the axes in 0.001 inch increments until the indicator touches the stylus.

    • With the indicator tip set against the stylus press E-STOP, so the probe isn’t accidentally ejected during adjustment.

  5. Magnetic Base to mount the Indicator "Calibration Bar", generally consisting of a 1/2" or 12 mm gauge pin clamped in a collet style toolholder. Test Indicator accurate to 0.0005" or 0.013 mm
    • Magnetic Base to mount the Indicator

    • "Calibration Bar", generally consisting of a 1/2" or 12 mm gauge pin clamped in a collet style toolholder.

    • Test Indicator accurate to 0.0005" or 0.013 mm

    • An accurately bored hole in a part or fixture can also be used in place of the Ring Gauge fixture.

  6. On the probe body, loosen the two upper LOCKING set screws slightly, and then lightly tighten them. WARNING: The four lower sets of screws adjust the position of the stylus mount. Very small adjustments have a large effect on the stylus runout. Decide which dirsdfgsdfgn the stylus needs to be adjusted to reduce runout.
    • On the probe body, loosen the two upper LOCKING set screws slightly, and then lightly tighten them.

    • WARNING: The four lower sets of screws adjust the position of the stylus mount. Very small adjustments have a large effect on the stylus runout.

    • Decide which dirsdfgsdfgn the stylus needs to be adjusted to reduce runout.

    • Loosen and then slightly tighten the two opposing screws that are NOT inline with this direction to add some friction.

  7. The WIPS Calibration Menus are explained in the Haas VMC Operator's Manual. Press MDI/DNC.
    • The WIPS Calibration Menus are explained in the Haas VMC Operator's Manual.

    • Press MDI/DNC.

    • Press PRGRM/CONVRS.

    • Select the SETUP tab.

    • Select the TOOL PROBE CALIBRATION tab.

    • Insert the Calibration Bar into the spindle.

  8. With the Indicator mounted on the table, measure the runout of the Calibration Bar gauge pin.
    • With the Indicator mounted on the table, measure the runout of the Calibration Bar gauge pin.

    • If runout exceeds 0.0005 inches or 0.013 mm the bar will need to be adjusted or replaced.

  9. Using the Z-axis and an indicator, check the distance from the face of the spindle to the tip of the gauge pin. This is NOT a Gauge Line measurement.
    • Using the Z-axis and an indicator, check the distance from the face of the spindle to the tip of the gauge pin.

    • This is NOT a Gauge Line measurement.

    • Use this method consistently to measure the Calibration Bar and the results will always be repeatable for quality work.

    • GAUGE PIN FACE

    • TOOL HOLDER GAUGE LINE

    • SPINDLE FACE

  10. Continue to adjust inward with each set of screws to reduce the runout as close to zero as possible. When runout is below 0.0005" or 0.013 mm, carefully tighten each upper locking screw while at the same time tightening the opposite lower adjustment screw.
    • Continue to adjust inward with each set of screws to reduce the runout as close to zero as possible.

    • When runout is below 0.0005" or 0.013 mm, carefully tighten each upper locking screw while at the same time tightening the opposite lower adjustment screw.

    • Then do the other set.

  11. Note the on-screen Z-axis value, this is your Calibration Bar length. Write this value on a piece of paper.
    • Note the on-screen Z-axis value, this is your Calibration Bar length.

    • Write this value on a piece of paper.

  12. Use a micrometer to find the diameter of the gauge pin used in the Calibration Bar and write this number down. Follow the on-screen prompts. Jogging Z-axis, bring the calibration bar just above the tool probe, and press F1.
    • Use a micrometer to find the diameter of the gauge pin used in the Calibration Bar and write this number down.

    • Follow the on-screen prompts. Jogging Z-axis, bring the calibration bar just above the tool probe, and press F1.

    • Then Jog the X axis to center the bar over the tool probe and press F1 again. Do the same for the Y axis.

    • Enter the tool number you will use for the Calibration Bar.

    • Press CYCLE START to execute the automatic calibration routine.

    • The Calibration Bar will touch off the top of the Tool Probe, and in four places on the side of the probe.

  13. When the program is finished, the CALIBRATION status box will display COMPLETED. Calibration of the Work Probe can begin. Press CANCEL and select the Work Probe Calibration tab.
    • When the program is finished, the CALIBRATION status box will display COMPLETED. Calibration of the Work Probe can begin.

    • Press CANCEL and select the Work Probe Calibration tab.

    • Clamp the Ring Gauge to the table within reach of the probe.

    • Enter the Work Offset to be used for Work Probe calibration.

  14. Remove the calibration bar from the spindle and insert the Work Probe in its place. Measure the Work Probe length with a machinist’s scale (accuracy of 1/16 inch or 1.5 mm).
    • Remove the calibration bar from the spindle and insert the Work Probe in its place.

    • Measure the Work Probe length with a machinist’s scale (accuracy of 1/16 inch or 1.5 mm).

    • Note that the standard Renishaw probe uses a 0.2362 inch or 6 mm diameter ball.

    • Now enter the length of the Work Probe as well as the diameter of the indicating ball.

  15. Measure the ring gauge with an inside micrometer or bore gauge. If the Inside Diameter is etched on the Gauge, that number can be used.
    • Measure the ring gauge with an inside micrometer or bore gauge.

    • If the Inside Diameter is etched on the Gauge, that number can be used.

    • Next enter the diameter of the Ring Gauge and press WRITE/ENTER.

    • Next enter the diameter of the Ring Gauge and press WRITE/ENTER.

    • Next enter the diameter of the Ring Gauge and press WRITE/ENTER.

  16. Now enter the Calibration Bar length. Use the value you wrote down in Step 15.
    • Now enter the Calibration Bar length. Use the value you wrote down in Step 15.

    • Next, enter the micrometer reading previously noted in Step 16.

    • WARNING: THIS MUST BE A DIAMETER AND NOT A RADIUS MEASUREMENT.

  17. In MDI Mode, enter: M59 P1133; G04 P1.0: M59 P1134. With the doors open, press and hold CYCLE START.
    • In MDI Mode, enter: M59 P1133; G04 P1.0: M59 P1134.

    • With the doors open, press and hold CYCLE START.

    • After the program has run, gently tap the Tool Probe with your finger.

    • The control pendant will beep each time the Tool Probe is depressed. The Tool Probe is activated.

    • Press RESET to end the activation.

    • Press Start!

  18. With the locking screws tight, check the runout at the stylus one more time. Now that the work probe stylus is centered, calibration of both probes can begin.
    • With the locking screws tight, check the runout at the stylus one more time.

    • Now that the work probe stylus is centered, calibration of both probes can begin.

  19. With the calibration bar in the spindle, position the pin above the edge of the ring gauge. Place a shim, feeler gauge, or slip of paper over the gauge.
    • With the calibration bar in the spindle, position the pin above the edge of the ring gauge.

    • Place a shim, feeler gauge, or slip of paper over the gauge.

    • Press the .0001/.1 button. Jog the Z-axis so the tip of the bar slightly contacts the paper. Press F1.

    • Enter the length of the calibration bar from Step 15. Press the WRITE/ENTER button.

    • Enter the thickness of the shim used, in this case a piece of paper at 0.003 inch. Press WRITE/ENTER again.

Finish Line

One other person completed this guide.

Dozuki System

Member since: 09/24/2009

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