Linear compensator tool for drill countersinking and seal groove machining

US 8,585,332 B2
Filed: 07/31/2008
Issued: 11/19/2013
Est. Priority Date: 07/31/2008
Status: Active Grant

First Claim

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1. A linear compensator tool for attachment to a machining apparatus having a rotatably driven spindle that can be advanced along an axis to a selected point in space comprising:

a compensator member with first and second ends, the first end having a coupling for mounting to the spindle for axial movement therewith, the compensator member being mounted to the machining apparatus for non rotation with the spindle;

a nose piece having a bore with an axis into which a machining tool is inserted and retained, the nose piece being mounted to the second end for axial movement of the compensator member relative to the nose piece between first and second positions, the nose piece being non rotatable relative to the compensator member;

a shaft carried by the coupling for rotation in unison with the spindle whenever the spindle is rotating, the shaft being configured to carry a machining tool that extends through the nose piece for performing a machining operation on the workpiece;

a bias member mounted between first and second ends that urges the compensator member toward the first position; and

a stop member non rotatably carried by the nose piece for contacting the surface of the workpiece and preventing further movement of the nose piece and the second end toward the workpiece, so that if the contact occurs before the spindle reaches the selected point in space, continued axial movement of the compensator member toward the point in space causes the compensator member to overcome the bias member and move from the first position toward the second position.

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Abstract

A drill countersinking and seal groove machining tool to accommodate an accurate drill countersinking and seal groove machining operation. The linear compensator tool applies sufficient force to react to the drilling or seal groove machining process, but not so much force as to distort the work piece being drilled or machined. The tool ensures that the reactant force does not exceed the machine force override allowances. Varying spring rates and/or air pressures on the linear compensator system will accommodate most applications. The tool absorbs over travel of the machining tool, in order to ensure that the surface to be machined is always in contact with the machining tool.

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15 Claims

1. A linear compensator tool for attachment to a machining apparatus having a rotatably driven spindle that can be advanced along an axis to a selected point in space comprising:
- a compensator member with first and second ends, the first end having a coupling for mounting to the spindle for axial movement therewith, the compensator member being mounted to the machining apparatus for non rotation with the spindle;
  
  a nose piece having a bore with an axis into which a machining tool is inserted and retained, the nose piece being mounted to the second end for axial movement of the compensator member relative to the nose piece between first and second positions, the nose piece being non rotatable relative to the compensator member;
  
  a shaft carried by the coupling for rotation in unison with the spindle whenever the spindle is rotating, the shaft being configured to carry a machining tool that extends through the nose piece for performing a machining operation on the workpiece;
  
  a bias member mounted between first and second ends that urges the compensator member toward the first position; and
  
  a stop member non rotatably carried by the nose piece for contacting the surface of the workpiece and preventing further movement of the nose piece and the second end toward the workpiece, so that if the contact occurs before the spindle reaches the selected point in space, continued axial movement of the compensator member toward the point in space causes the compensator member to overcome the bias member and move from the first position toward the second position.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The linear compensator tool of claim 1 wherein the bias member is a spring.
  - 3. The linear compensator tool of claim 1 wherein the bias member is a pressurized air chamber.
  - 4. The linear compensator tool of claim 1 wherein the bias member is a pressurized fluid chamber.
  - 5. The linear compensator tool of claim 1 wherein the compensator member further comprises:
    - an outer casing, connected to and axially extending from the coupling; and
      
      an inner casing axially disposed within the outer casing and capable of limited axial movement.
  - 6. The linear compensator tool of claim 1 wherein the compensator member further comprises:
    - an upper plate, connected to and axially extending from the coupling; and
      
      a lower plate, connected to the upper plate by at least one linear bearing and capable of limited axial movement.
  - 7. The linear compensator tool of claim 1, wherein the nose piece comprises:
    - an upper tubular member having external threads;
      
      a collar having teeth on a lower end, the collar being nonrotatably carried on the upper tubular member for axial movement;
      
      a lower member having internal threads that engage the external threads on the upper tubular member, the lower member having teeth on an upper end that engage the teeth of the collar to prevent rotation of the lower member relative to the collar, the stop member being located on a lower end of the lower member; and
      
      a lock member having internal threads that engage the external threads, the lock member bearing against an upper end of the collar to maintain the teeth in engagement with each other.
  - 8. The linear compensator tool of claim 1, wherein the stop member is fixed to the nose piece for axial movement therewith, and the shaft assembly is configured to cause the machining tool to protrude a constant distance past the stop member while the second end is moving toward the second position.

9. A linear compensator tool for connection with a machining apparatus capable of repeatedly moving a spindle in a direction toward a workpiece to a fixed point in space, the linear compensator tool comprising:
- a tool holder for connecting the compensator tool to the spindle of the machining apparatus;
  
  an outer casing connected to and axially extending from the tool holder;
  
  an inner casing axially disposed within the outer casing and capable of limited axial movement relative to the outer casing between an extended and a contracted position;
  
  a bias member located between the inner casing and outer casing for biasing the inner casing toward extended position relative to the outer casing;
  
  a nose piece connected to and axially extending from the inner casing for axial movement in unison with the inner casing relative to the outer casing;
  
  a shaft assembly mounted to the tool holder for rotation in unison with the spindle at all times the spindle is rotating and extending through the outer casing, the inner casing and into the nose piece;
  
  a clocking ring cooperatively associated with the tool holder and the inner and outer casings for preventing rotation of the inner and outer casings and the nose piece with the spindle and the shaft;
  
  a stop member on an end of the nose piece for contacting a surface of the workpiece and preventing further movement of the nose piece toward the workpiece;
  
  a machining tool connected to the shaft assembly for rotation therewith relative to the inner and outer casings and the nose piece and extending axially from the stop member; and
  
  wherein if the stop member contacts the surface of the workpiece prior to the machining apparatus moving the spindle to the fixed point in space, continued movement of the machining apparatus toward the fixed point in space causes the inner casing to move toward the contracted position while the machining tool continues to protrude past the stop member a constant distance.
- View Dependent Claims (10, 11, 12)
- - 10. The linear compensator tool of claim 9 further comprising:
    - a pressure port located on and extending through the outer casing for pressurizing an annulus with air between the inner casing and the outer casing;
      
      a downward facing shoulder on the interior surface of the outer casing; and
      
      a flange section on the exterior surface of the inner casing, for limiting the axial movement of the inner casing within the outer casing.
  - 11. The linear compensator tool of claim 9, wherein the shaft assembly comprises an upper portion fixed axially to the outer casing and a lower portion fixed axially to the inner casing, the upper and lower portions of the shaft assembly being axially movable relative to each other while the inner casing is moving toward the contracted position.
  - 12. The linear compensator tool of claim 9, wherein the nose piece comprises:
    - an upper tubular member having external threads;
      
      a collar having teeth on a lower end, the collar being nonrotatably carried on the upper tubular member for axial movement;
      
      a lower member having internal threads that engage the external threads on the upper tubular member, the lower member having teeth on an upper end that engage the teeth of the collar to prevent rotation of the lower member relative to the collar, the stop member being located on a lower end of the lower member; and
      
      a lock member having internal threads that engage the external threads, the lock member bearing against an upper end of the collar to maintain the teeth in engagement with each other.

13. A method of machining a workpiece with a machining apparatus comprising:
- (a) mounting a nose piece with a stop member to a compensator member with first and second ends, the compensator member being capable of movement relative to the nosepiece between first and second positions, and the stop member carried by the nose piece for contacting the surface of a work piece;
  
  (b) determining a point in space for advancing a spindle of the machining apparatus to complete a machining operation on a workpiece having a surface profile a selected maximum distance from the point in space;
  
  (c) mounting the compensator member to the spindle of the machining apparatus;
  
  (d) inserting a machining tool into the nose piece;
  
  (e) urging the compensator member to the first position by introducing fluid between the first and second ends of the compensator member;
  
  (f) rotating the tool, moving the spindle toward the point in space, and thereby moving the tool into the workpiece;
  
  (g) engaging the stop member with the surface of the workpiece;
  
  (h) if the point in space has not yet been reached by the spindle when the stop member engages the surface profile of the workpiece due to the surface profile of the workpiece being closer to the point in space than the maximum distance, continuing movement of the spindle toward the point in space and the compensator member toward the workpiece while the nose piece and the machining tool are prevented by the stop member from further axial movement, thereby causing the compensator member to move from the first position toward the second position; and
  
  (i) in step (h) if the point in space is reached simultaneously with the stop member engaging the surface profile of the workpiece, immediately stopping further movement of the compensator member toward the workpiece.
- View Dependent Claims (14, 15)
- - 14. The method of claim 13, wherein step (c) comprises mounting the compensator member to the spindle for non rotation with the spindle.
  - 15. The method according to claim 13 wherein step (e) further comprises urging the compensator member to the first position by placing a spring between the first and second ends of the compensator member.

Specification

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Litigation Campaign Assessment

Current Assignee
Lockheed Martin Corporation (Martin Marietta Corporation)
Original Assignee
Lockheed Martin Corporation (Martin Marietta Corporation)
Inventors
Luepke, Richard A., Smith, Jamie M.
Primary Examiner(s)
Howell, Daniel
Assistant Examiner(s)
VITALE, MICHAEL J

Application Number

US12/183,892
Publication Number

US 20100028097A1
Time in Patent Office

1,937 Days
Field of Search

408/1.R, 408/95, 408/97, 408/110, 408/112, 408/113, 408/141, 408/202
US Class Current

408/1.R
CPC Class Codes

B23B 31/083   axially

B23B 49/005   Attached to the drill

B23B 51/104   with stops

B23C 3/28   Grooving workpieces tread-c...

Y10T 408/03   Processes

Y10T 408/56245   including tool-guide [or bu...

Y10T 408/5653   with means to bias Tool awa...

Y10T 408/8595   Pivotable tool-support

Y10T 408/8925   Depth-limiting member

Linear compensator tool for drill countersinking and seal groove machining

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

15 Claims

Specification

Solutions

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Linear compensator tool for drill countersinking and seal groove machining

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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