Methods for twisting rotor and stator ends

US 8,215,000 B2
Filed: 07/20/2007
Issued: 07/10/2012
Est. Priority Date: 07/20/2007
Status: Active Grant

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1. A method of bending the free ends of rectangular motor winding conductors comprising:

providing a bending fixture having a plurality of pockets circularly distributed in four pocket members comprising two pairs of adjacent pocket members, each concentric with an axis of the bending fixture, at least one pocket member in each pair of adjacent pocket members being rotatable about the axis at least through a first limited angle with respect to another pocket member that is adjacent to the at least one pocket member, one of the pocket members in each pair of adjacent pocket members having a lost motion member associated therewith defining at least one pocket circularly distributed with the circularly distributed pockets in the respective pocket member and being rotatable about the axis with respect to the respective pocket member through a second limited angle, the second limited angle being less than the first limited angle;

supporting a rotor or stator adjacent the bending fixture with free ends of the rectangular motor winding conductors extending into the pockets in the four pocket members and in the lost motion member;

driving the bending fixture using an automated bending station so as to rotate the first and third of the four pocket members through the first limited angle relative to the second and fourth of the four pocket members to simultaneously bend the free ends of a plurality of the rectangular motor winding conductors through the first limited angle, the free ends of at least other rectangular motor winding conductors extending into the pockets in the lost motion members being bent through an angle equal to the first limited angle minus the second limited angle;

whereby the bending station automatically drives the bending fixture in a process that is suitable for mass production.

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Abstract

Methods and apparatus for twisting rectangular rotor and stator conductor ends whereby most if not all conductor ends are bent at once, radially adjacent ends being bent in opposite directions. A lost motion member may be used to bend selected conductors through lesser angles for such purposes as phase interconnection and power leads. The rectangular conductors are retained against twisting so that flat conductors will bend about an axis perpendicular to the larger dimension of the conductor cross section. Various features of the methods and apparatus are disclosed.

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17 Claims

1. A method of bending the free ends of rectangular motor winding conductors comprising:
- providing a bending fixture having a plurality of pockets circularly distributed in four pocket members comprising two pairs of adjacent pocket members, each concentric with an axis of the bending fixture, at least one pocket member in each pair of adjacent pocket members being rotatable about the axis at least through a first limited angle with respect to another pocket member that is adjacent to the at least one pocket member, one of the pocket members in each pair of adjacent pocket members having a lost motion member associated therewith defining at least one pocket circularly distributed with the circularly distributed pockets in the respective pocket member and being rotatable about the axis with respect to the respective pocket member through a second limited angle, the second limited angle being less than the first limited angle;
  
  supporting a rotor or stator adjacent the bending fixture with free ends of the rectangular motor winding conductors extending into the pockets in the four pocket members and in the lost motion member;
  
  driving the bending fixture using an automated bending station so as to rotate the first and third of the four pocket members through the first limited angle relative to the second and fourth of the four pocket members to simultaneously bend the free ends of a plurality of the rectangular motor winding conductors through the first limited angle, the free ends of at least other rectangular motor winding conductors extending into the pockets in the lost motion members being bent through an angle equal to the first limited angle minus the second limited angle;
  
  whereby the bending station automatically drives the bending fixture in a process that is suitable for mass production.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1 wherein the first and third pocket members are rotated in a direction opposite to that of the second and fourth pocket members.
  - 3. The method of claim 2 further comprising reducing the separation between the rotor or stator and the pocket members as bending progresses.
  - 4. The method of claim 3 wherein the rotor or stator is held stationary and the pocket members are moved to change the separation.
  - 5. The method of claim 3 wherein the separation between the rotor or stator and the pocket members as bending progresses is changed by a different amount for each pocket member.
  - 6. The method of claim 5 wherein the rotor or stator is held stationary and the pocket members are moved to change the separation.
  - 7. The method of claim 6 wherein each pocket member is moved closer to the rotor or stator as bending progresses by a respective cam responsive to the rotation of the pockets.

8. A method of bending the free ends of rectangular motor winding conductors comprising:
- providing a bending fixture having a plurality of pockets circularly distributed in a plurality of pairs of adjacent pocket members, each concentric with an axis of the bending fixture, at least one pocket member in each pair of adjacent pocket members being rotatable about the axis at least through a first limited angle with respect to another pocket member that is adjacent to the at least one pocket member, one of the pocket members in each pair of adjacent pocket members having a lost motion member associated therewith defining at least one pocket circularly distributed with the circularly distributed pockets in the respective pocket member and being rotatable about the axis with respect to the respective pocket member through a second limited angle, the second limited angle being less than the first limited angle;
  
  supporting a rotor or stator adjacent the bending fixture with free ends of the rectangular motor winding conductors extending into the pockets in the pairs of adjacent pocket members and in the lost motion members;
  
  driving the bending fixture using an automated bending station so as to rotate at least one pocket member in each pair of adjacent pocket members through the first limited angle relative to the other pocket member of the respective pair of pocket members to simultaneously bend the free ends of a plurality of the rectangular motor winding conductors through the first limited angle, the free ends of at least other rectangular motor winding conductors extending into the pockets in the lost motion members being bent through an angle equal to the first limited angle minus the second limited angle;
  
  whereby the bending station automatically drives the bending fixture in a process that is suitable for mass production.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 9. The method of claim 8 wherein pocket members in each pair of adjacent pocket members are rotated in opposite directions.
  - 10. The method of claim 9 further comprising reducing the separation between the rotor or stator and the pocket members as bending progresses.
  - 11. The method of claim 10 wherein the rotor or stator is held stationary and the pocket members are moved to change the separation.
  - 12. The method of claim 10 wherein the separation between the rotor or stator and the pocket members as bending progresses is changed by a different amount for each pocket member.
  - 13. The method of claim 12 wherein the rotor or stator is held stationary and the pocket members are moved to change the separation.
  - 14. The method of claim 13 wherein each pocket member is moved closer to the rotor or stator as bending progresses by a respective cam responsive to the rotation of the pockets.
  - 15. The method of claim 8 wherein a rectangular motor winding conductor of extended length for forming a rotor or stator lead is placed in a pocket in a lost motion member.
  - 16. The method of claim 8 wherein a rectangular motor winding conductor for forming a phase interconnect is placed in a pocket in a lost motion member.
  - 17. The method of claim 8 further comprising providing a plurality of pockets with lost motion members and wherein at least one rectangular motor winding conductor of extended length for forming a rotor or stator lead is placed in a pocket in a lost motion member, and a rectangular motor winding conductor for forming a phase interconnect is placed in another pocket in a lost motion member.

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Litigation Data

Current Assignee
Tecnomatic S.p.A.
Original Assignee
Tecnomatic S.p.A.
Inventors
Guercioni, Sante
Primary Examiner(s)
CAZAN, LIVIUS RADU

Application Number

US11/880,290
Publication Number

US 20090302705A1
Time in Patent Office

1,817 Days
Field of Search

295/96, 295/98, 297/32, 297/35, 297/36, 310/201
US Class Current

29/596
CPC Class Codes

H02K 15/0031   Shaping or compacting condu...

H02K 15/0056   Manufacturing winding conne...

H02K 15/0087   characterised by the method...

H02K 15/0428   characterised by the method...

Y10T 29/49009   Dynamoelectric machine

Y10T 29/49012   Rotor

Y10T 29/53161   including deforming means

Methods for twisting rotor and stator ends

First Claim

1 Assignment

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Abstract

41 Citations

17 Claims

Specification

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Methods for twisting rotor and stator ends

First Claim

1 Assignment

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Litigations

0 Petitions

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Accused Products

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Abstract

41 Citations

17 Claims

Specification

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Use Cases

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Others