Laser alignment apparatus for rotary spindles

US 8,647,170 B2
Filed: 01/17/2012
Issued: 02/11/2014
Est. Priority Date: 10/06/2011
Status: Expired due to Fees

First Claim

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1. An at least three-point, fixed-spindle floating-platen abrading machine alignment apparatus comprising:

a) at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops, each of the spindle-tops having a respective spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;

b) each of the at least three workpiece spindle-tops having a respective axis of rotation perpendicular to the respective spindle-tops'"'"' flat surface;

c) an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;

d) a workpiece spindle alignment spindle having a flat-surfaced rotary spindle-top, the workpiece spindle alignment spindle-top having an axis of rotation at the center of the workpiece spindle alignment spindle-top;

e) a distance measurement arm device mounted on or attached to the workpiece spindle alignment spindle-top;

f) at least one distance measurement sensor attached to the distance measurement arm device;

g) wherein the at least one distance measurement sensors is attached at respective positions on the distance measurement arm to provide distance measurements to be made from the respective at least one distance measurement sensors to selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or to selected target points on the machine base top surface; and

h) the workpiece spindle alignment spindle is configured to allow the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops used to co-planar align the flat surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops.

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Abstract

There are three flat-surfaced rotary workpiece abrasive lapping spindles that are spaced apart from each other in a circle and are attached to the flat surface of a granite lapping machine base. Flat-surfaced workpieces are attached to the flat rotary surfaces of the workpiece spindles. Flexible abrasive disks are attached to the annular abrading surface of a rotary platen that is positioned to be concentric with the three spaced workpiece spindles. The platen is moved where the disk abrasive surface contacts the workpieces that are attached to the workpiece spindles. Both the platen and the workpieces spindles are rotated at high speeds to flat lap the exposed surfaces of the workpieces. Laser alignment devices are attached to an alignment rotary spindle that is positioned at the center of the workpiece spindle circle. These laser alignment distance sensors are used to co-planar align the top flat surfaces of the workpiece spindles.

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21 Claims

1. An at least three-point, fixed-spindle floating-platen abrading machine alignment apparatus comprising:
- a) at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops, each of the spindle-tops having a respective spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;
  
  b) each of the at least three workpiece spindle-tops having a respective axis of rotation perpendicular to the respective spindle-tops'"'"' flat surface;
  
  c) an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;
  
  d) a workpiece spindle alignment spindle having a flat-surfaced rotary spindle-top, the workpiece spindle alignment spindle-top having an axis of rotation at the center of the workpiece spindle alignment spindle-top;
  
  e) a distance measurement arm device mounted on or attached to the workpiece spindle alignment spindle-top;
  
  f) at least one distance measurement sensor attached to the distance measurement arm device;
  
  g) wherein the at least one distance measurement sensors is attached at respective positions on the distance measurement arm to provide distance measurements to be made from the respective at least one distance measurement sensors to selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or to selected target points on the machine base top surface; and
  
  h) the workpiece spindle alignment spindle is configured to allow the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops used to co-planar align the flat surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The apparatus of claim 1 further comprising:
    - a) the at least three rotary workpiece spindles being located with nominally-equal spacing between the respective at least three rotary workpiece spindles where the respective at least three spindle-tops'"'"' axes of rotation intersect the machine base spindle-circle and where the respective at least three rotary workpiece spindles are mechanically attached to the machine base top surface;
      
      b) the at least three workpiece spindle-tops'"'"' flat surfaces being configured to be adjustably alignable to be co-planar with each other;
      
      c) wherein the axis of rotation of the workpiece spindle alignment spindle-top is perpendicular to the workpiece spindle alignment spindle-top'"'"'s flat surface;
      
      d) wherein the workpiece spindle alignment spindle is positioned on the machine base top surface where the axis of rotation of the workpiece spindle alignment spindle-top is nominally concentric with the machine base spindle-circle whereby the at least three rotary workpiece spindles surround the workpiece spindle alignment spindle; and
      
      e) wherein the flat surface of the workpiece spindle alignment spindle-top is aligned to be parallel to the top surface of the abrading machine base.
  - 3. The apparatus of claim 1 wherein the machine base comprises a structural material selected from the group consisting of granite, epoxy-granite, and metal and wherein the machine base structural material and the machine base structural material is either a non-porous solid or is a solid material that is temperature controlled by a temperature-controlled fluid that circulates in fluid passageways internal to the machine base structural materials.
  - 4. The apparatus of claim 1 wherein the at least three rotary workpiece spindles are air bearing rotary workpiece spindles.
  - 5. The apparatus of claim 1 wherein the distance measurement sensors are selected from the group consisting of laser distance sensors, capacitance sensors, eddy current sensors, mechanical measurement devices, dial-indicator measurement devices, air-gap sensors and ultrasonic distance sensors.
  - 6. The apparatus of claim 2 wherein the workpiece spindle alignment spindle is configured to allow the workpiece spindle alignment spindle-top and the mounted or attached distance measurement arm device to be rotated to fixed locations where the at least one distance measurement sensors are positioned to measure the distances from the respective at least one distance sensors to respective selected target points on the surface of the machine base wherein the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the surface of the machine base are used to align the flat surface of the workpiece spindle alignment spindle-top parallel to the surface of the machine base.
  - 7. The apparatus of claim 2 wherein the selected distance measurement sensors target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or the selected target points on the machine base top surface are target areas or the selected distance measurement sensors target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or the selected target points on the machine base top surface are reflective target devices.
  - 8. The apparatus of claim 2 wherein the distance measurement arm device is mounted on or attached to the workpiece spindle alignment spindle-top by a technique selected from the group consisting of vacuum attachment, adhesives attachment, mechanical fastener attachment or using the weight of the distance measurement arm device to provide attachment.
  - 9. The apparatus of claim 2 wherein the distance measurement arm device is a dual-arm device where two distance measurement arms extend out in two opposed directions from the workpiece spindle alignment spindle wherein at least one distance measurement sensor is attached to each of the dual-arm distance measurement arm device distance measurement arms.

10. A process of providing alignment of an at least three-point, fixed-spindle floating-platen abrading machine alignment apparatus comprising:
- a) providing at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops that each have a spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;
  
  b) providing that the at least three workpiece spindle-tops'"'"' axes of rotation are perpendicular to the respective workpiece spindle-tops'"'"' flat surfaces;
  
  c) providing an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;
  
  d) positioning the at least three rotary workpiece spindles in locations with nominally-equal spacing between the respective at least three of the rotary workpiece spindles where the respective at least three workpiece spindle-tops'"'"' axes of rotation intersect the machine base spindle-circle and where the respective at least three rotary workpiece spindles are mechanically attached to the machine base top surface;
  
  e) providing a rotary workpiece spindle alignment spindle having a flat-surfaced rotary spindle-top having a workpiece spindle alignment spindle-top axis of rotation at the center of the workpiece spindle alignment spindle-top;
  
  f) providing that the axis of rotation of the workpiece spindle alignment spindle-top is perpendicular to the workpiece spindle alignment spindle-top'"'"'s flat surface;
  
  g) providing that the workpiece spindle alignment spindle is positioned on the machine base top surface where the axis of rotation of the workpiece spindle alignment spindle-top is nominally concentric with the machine base spindle-circle whereby the at least three rotary workpiece spindles surround the workpiece spindle alignment spindle;
  
  h) aligning the flat surface of the workpiece spindle alignment spindle-top to be parallel to the top surface of the abrading machine base;
  
  i) providing a distance measurement arm device where the distance measurement arm device is mounted on or attached to the workpiece spindle alignment spindle-top;
  
  j) providing at least one distance measurement sensor that is attached to the distance measurement arm device;
  
  k) attaching the at least one distance measurement sensors at respective positions on the distance measurement arm to provide that distance measurements are made from the respective at least one distance measurement sensors to selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or to selected target points on the machine base top surface;
  
  l) aligning the at least three workpiece spindle-tops'"'"' flat surfaces so that they are co-planar with each other by use of the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The process of claim 10 wherein the at least three rotary workpiece spindles are air bearing rotary workpiece spindles.
  - 12. The process of claim 10 wherein the distance measurement sensors are selected from the group consisting of laser distance sensors, capacitance sensors, eddy current sensors, mechanical measurement devices, dial-indicator measurement devices, air-gap sensors or ultrasonic distance sensors.
  - 13. The process of claim 10 wherein the workpiece spindle alignment spindle-top and the mounted or attached distance measurement arm device is rotated to fixed locations where the at least one distance measurement sensors from which the distances are measured from the respective at least one distance sensors to respective selected target points on the surface of the machine base wherein the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the surface of the machine base are used to align the flat surface of the workpiece spindle alignment spindle-top parallel to the surface of the machine base.
  - 14. The process of claim 10 wherein the selected distance measurement sensors target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or the selected target points on the machine base top surface are target areas or the selected distance measurement sensors target points on the respective surfaces of the at least three workpiece spindle'"'"'s rotary spindle-tops or the selected target points on the machine base top surface are reflective target devices.
  - 15. The process of claim 10 wherein the distance measurement arm device is mounted on or attached to the workpiece spindle alignment spindle-top by a technique selected from the group consisting of vacuum attachment, adhesives attachment, mechanical fastener attachment or using the weight of the distance measurement arm device to provide attachment.

16. A process of providing alignment of an at least three-point, fixed-spindle floating-platen abrading machine alignment apparatus comprising:
- a) providing at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops that each have a spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;
  
  b) providing that the at least three workpiece spindle-tops'"'"' axes of rotation are perpendicular to the respective workpiece spindle-tops'"'"' flat surfaces;
  
  c) providing an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;
  
  d) positioning the at least three rotary workpiece spindles in locations with nominally-equal spacing between the respective at least three of the rotary workpiece spindles where the respective at least three workpiece spindle-tops'"'"' axes of rotation intersect the machine base spindle-circle and where the respective at least three rotary workpiece spindles are mechanically attached to the machine base top surface;
  
  e) providing a rotary workpiece spindle alignment spindle having a flat-surfaced rotary spindle-top having a workpiece spindle alignment spindle-top axis of rotation at the center of the workpiece spindle alignment spindle-top;
  
  f) providing that the axis of rotation of the workpiece spindle alignment spindle-top is perpendicular to the workpiece spindle alignment spindle-top'"'"'s flat surface;
  
  g) providing that the workpiece spindle alignment spindle is positioned on the machine base top surface where the axis of rotation of the workpiece spindle alignment spindle-top is nominally concentric with the machine base spindle-circle whereby the at least three rotary workpiece spindles surround the workpiece spindle alignment spindle;
  
  h) providing a distance measurement arm device where the distance measurement arm device is mounted on or attached to the workpiece spindle alignment spindle-top;
  
  i) providing at least one distance measurement sensor that is attached to the distance measurement arm device;
  
  j) with the at least one distance measurement sensors attached at respective positions on the distance measurement arm to provide that distance measurements are made from the respective at least one distance measurement sensors to selected target points on the machine base top surface, aligning the flat surface of the workpiece spindle alignment spindle-top to be parallel to the top surface of the abrading machine by use of the at least one distance measurement sensors measurement distances from the respective at least one distance sensors to respective selected target points on the machine base top surface.

17. An at least three-point, fixed-spindle floating-platen abrading machine laser alignment apparatus comprising:
- a) at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops, each of the spindle-tops having a respective spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;
  
  b) wherein a respective axis of rotation for each of the at least three workpiece spindle-tops'"'"' is perpendicular to the respective spindle-tops'"'"' flat surface;
  
  c) an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;
  
  d) the at least three rotary workpiece spindles are located with nominally-equal spacing between the respective at least three rotary workpiece spindles where the respective at least three spindle-tops'"'"' axes of rotation intersect the machine base spindle-circle and where the respective at least three rotary workpiece spindles are mechanically attached to the machine base top surface;
  
  e) a rotary laser beam source device having a laser beam axis of rotation that is perpendicular to the abrading machine base nominally-flat top surface wherein the laser beam forms a laser beam plane as the laser beam source device is rotated about the laser beam axis of rotation and where the rotary laser beam source device is mounted on the abrading machine base nominally-flat top surface;
  
  f) at least one stationary laser beam reflective devices that is respectively mounted on the respective at least three rotary workpiece spindles rotatable flat-surfaced spindle-tops wherein the rotary laser beam source device laser beam is reflected by the at least one stationary laser beam reflective devices to a laser beam position indicator that indicates the parallel alignment of the respective rotary workpiece rotatable flat-surfaced spindle-tops with the laser beam plane; and
  
  g) the rotary laser beam source device and the at least one stationary laser beam reflective devices are configured to allow alignment of the at least three workpiece spindle-tops'"'"' flat surfaces so that they are co-planar with each other.
- View Dependent Claims (18, 19, 21)
- - 18. The apparatus of claim 17 wherein the rotary laser beam source device axis of rotation is nominally concentric with the machine base spindle-circle whereby the at least three rotary workpiece spindles surround the rotary laser beam source device.
  - 19. The apparatus of claim 17 wherein the at least three rotary workpiece spindles are air bearing rotary workpiece spindles.
  - 21. The apparatus of claim 19 wherein the rotary laser beam source device axis of rotation is nominally concentric with the machine base spindle-circle whereby the at least three rotary workpiece spindles surround the rotary laser beam source device.

20. A process of providing alignment of an at least three-point, fixed-spindle floating-platen abrading machine alignment apparatus comprising:
- a) providing at least three rotary workpiece spindles having rotatable flat-surfaced spindle-tops that each have a spindle-top axis of rotation at the center of a respective rotatable flat-surfaced spindle-top for each respective rotary workpiece spindles;
  
  b) providing that the at least three workpiece spindle-tops'"'"' axes of rotation are perpendicular to the respective workpiece spindle-tops'"'"' flat surfaces;
  
  c) providing an abrading machine base having a horizontal, nominally-flat top surface and a spindle-circle where the spindle-circle is coincident with the machine base nominally-flat top surface;
  
  d) positioning the at least three rotary workpiece spindles in locations with nominally-equal spacing between the respective at least three of the rotary workpiece spindles where the respective at least three workpiece spindle-tops'"'"' axes of rotation intersect the machine base spindle-circle and where the respective at least three rotary workpiece spindles are mechanically attached to the machine base top surface;
  
  e) providing a rotary laser beam source device having a laser beam axis of rotation that is perpendicular to the abrading machine base nominally-flat top surface wherein the laser beam forms a laser beam plane as the laser beam source device is rotated about the laser beam axis of rotation and where the rotary laser beam source device is mounted on the abrading machine base nominally-flat top surface;
  
  f) providing at least one stationary laser beam reflective devices that are respectively mounted at various positions on the respective at least three rotary workpiece spindles rotatable flat-surfaced spindle-tops wherein the rotary laser beam source device laser beam is reflected by the at least one stationary laser beam reflective devices to a laser beam position indicator that indicates the parallel alignment of the respective rotary workpiece rotatable flat-surfaced spindle-tops with the laser beam plane;
  
  g) aligning the at least three workpiece spindle-tops'"'"' flat surfaces so that they are co-planar with each other by use of the rotary laser beam source device and positioning the respective stationary laser beam reflective devices that are mounted on the respective rotary workpiece rotatable flat-surfaced spindle-tops.

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Current Assignee
Wayne O. Duescher
Original Assignee
Wayne O. Duescher
Inventors
Duescher, Wayne O.
Primary Examiner(s)
ROSE, ROBERT A

Application Number

US13/351,415
Publication Number

US 20130090038A1
Time in Patent Office

756 Days
Field of Search

451/5, 451/11, 451/28, 451/36, 451/37, 451/41, 451/59, 451/64, 451/259, 451/260, 451/270, 451/271, 451/280, 451/283, 451/285, 451/287, 451/288, 451/6
US Class Current

451/6
CPC Class Codes

B24B 37/005   Control means for lapping m...

B24B 37/04   designed for working plane ...

B24B 49/00   Measuring or gauging equipm...

B24B 49/12   involving optical means

B24B 7/22   for grinding inorganic mate...

Laser alignment apparatus for rotary spindles

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Laser alignment apparatus for rotary spindles

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