Constrained ripple spring assembly with debondable adhesive and methods of installation

US 5,325,008 A
Filed: 12/09/1992
Issued: 06/28/1994
Est. Priority Date: 12/09/1992
Status: Expired due to Fees

First Claim

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1. Apparatus for maintaining a stator bar in a radial slot of a dynamoelectric machine radially of at least one wedge disposed in the slot, comprising:

a member for forming an elongated flat surface;

an elongated leaf spring extending in a longitudinal direction and corrugated in a transverse direction such that the corrugations are longitudinally spaced from one another, said spring being compressed in a direction generally normal to said longitudinal and transverse directions into a constrained spring-loaded substantially flattened configuration; and

an adhesive bonding said spring and said flat surface to one another at ambient temperature maintaining said spring in said constrained, substantially flattened, spring-loaded configuration and enabling the spring for placement in the slot adjacent the one wedge, said adhesive being responsive to a predetermined elevated temperature to release the adhesive bond between the spring and flat surface such that said spring is movable toward a non-compressed state for applying a radially directed spring force to the stator bar.

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Abstract

A constrained ripple spring assembly 26 is disposed in the radial slots 12 of a dynamoelectric machine and radially between the windings 14 and the wedges 20 maintaining the windings in the slots. The ripple springs 28 are adhesively secured to flat surfaces, for example, the underside of the wedges or one or two filler strips 30, 32, such that the spring assemblies are substantially flat upon insertion. At a predetermined elevated temperature, the adhesive bond is broken, enabling the spring to expand into a natural corrugated shape to apply a radial loading against the wedges and winding.

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13 Claims

1. Apparatus for maintaining a stator bar in a radial slot of a dynamoelectric machine radially of at least one wedge disposed in the slot, comprising:
- a member for forming an elongated flat surface;
  
  an elongated leaf spring extending in a longitudinal direction and corrugated in a transverse direction such that the corrugations are longitudinally spaced from one another, said spring being compressed in a direction generally normal to said longitudinal and transverse directions into a constrained spring-loaded substantially flattened configuration; and
  
  an adhesive bonding said spring and said flat surface to one another at ambient temperature maintaining said spring in said constrained, substantially flattened, spring-loaded configuration and enabling the spring for placement in the slot adjacent the one wedge, said adhesive being responsive to a predetermined elevated temperature to release the adhesive bond between the spring and flat surface such that said spring is movable toward a non-compressed state for applying a radially directed spring force to the stator bar.
- View Dependent Claims (2, 3, 4, 5)
- - 2. Apparatus according to claim 1 wherein said member comprises a flat filler strip.
  - 3. Apparatus according to claim 1 wherein said member comprises a surface of said wedge.
  - 4. Apparatus according to claim 1 wherein said predetermined elevated temperature is about 60°
    - C. or above.
  - 5. Apparatus according to claim 1 wherein said member comprises a first elongated flat filler strip extending along one side of said spring, a second elongated flat filler strip extending along the opposite side of said spring, an adhesive bonding said spring and said second filler strip to one another at ambient temperature with said spring in said constrained spring-loaded configuration, the latter adhesive being responsive to a predetermined elevated temperature to release the adhesive bond between the spring and said second filler strip such that said spring is movable toward its non-compressed state.

6. In a dynamoelectric machine having a plurality of radially and longitudinally extending slots circumferentially spaced from one another about an axis with each slot opening in a radial direction along a longitudinal extent thereof, windings in said slots and wedges disposed in the slots adjacent said slot openings, spring assemblies in said slots between said wedges and said windings for providing radially directed forces on said windings, each said spring assembly including an elongated filler strip and an elongated leaf spring extending in an axial direction, said leaf spring including a plurality of wave portions longitudinally spaced from one another and compressed from a relaxed state in a generally radial direction into a constrained substantially flat, spring-loaded state, said spring assembly further including an adhesive bonding said spring and said filler strip to one another at ambient temperature with said spring in said constrained, substantially flat, spring-loaded state, said adhesive being responsive to a predetermined elevated temperature in said slots to release the adhesive bonds between said springs and said filler strips such that said springs load said wedges and said windings in said slots.
- View Dependent Claims (7, 8, 9)
- - 7. In a dynamoelectric machine according to claim 6 wherein each said spring is comprised of fiberglass impregnated with a resin.
  - 8. In a dynamoelectric machine according to claim 6 wherein each spring assembly includes a second elongated filler strip lying along a side of said spring opposite to the side along which the first-mentioned filler strip is adhesively bonded, said adhesive bonding said second filler strip and said spring to one another at ambient temperature, with said spring in said constrained spring-loaded state, said adhesive being responsive to said predetermined elevated temperature in said slots to release the adhesive bonds between said springs and said second filler strips such that said springs load said wedges and said windings in said slots.
  - 9. In a dynamoelectric machine according to claim 6 wherein said slots are disposed in a stator body and open radially inwardly.

10. A method for radially loading windings in the slots of a dynamoelectric machine wherein the slots are closed adjacent open ends thereof by wedges in said slots, comprising the steps of:
- adhesively securing an elongated ripple spring and a filler strip to one another, with the spring in a compressed state;
  
  locating said ripple spring and said filler strip, with said spring in said compressed state, in said slot between said wedge and said winding; and
  
  elevating the temperature in said slot to a predetermined temperature such that the adhesive bond between the spring and the filler strip is broken whereby said spring expands to load the winding in the slot.
- View Dependent Claims (11)
- - 11. A method according to claim 10 including adhesively securing said ripple spring and a second filler strip to one another, said spring lying in said compressed state and between said filler strips, said adhesive releasing the bond between said spring and said second filler strip in response to elevating the temperature in said slot to said predetermined temperature such that the adhesive bond between the spring and the second filler strip is broken.

12. A method of radially loading windings in slots forming a part of a dynamoelectric machine wherein the slots are closed adjacent open ends thereof by wedges in said slots, comprising the steps of:
- providing a spring assembly including an elongated ripple spring and an elongated filler strip;
  
  securing said spring and said filler strip one to the other by means forming solely part of said spring assembly such that said spring lies in a compressed state in said spring assembly;
  
  locating said ripple spring assembly with said spring in said compressed state in said slot between said wedge and said winding; and
  
  releasing said securing means, enabling said spring to expand in said slot to apply a radial force to the windings in the slot.
- View Dependent Claims (13)
- - 13. A method according to claim 12 including providing a spring assembly with a second elongated filler strip, said filler strips lying on opposite sides of said elongated ripple spring, securing said second filler strip and said spring one to the other by means forming solely part of said spring assembly such that said spring lies in a compressed state between said filler strips in said spring assembly, and releasing said securing means securing said second filler strip and said compressed spring to one another enabling said spring to expand in said slot to apply a radial force to the windings in the slot.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Grant, James J.
Primary Examiner(s)
Stephan, Steven L.
Assistant Examiner(s)
Io, E.

Application Number

US07/987,801
Time in Patent Office

566 Days
Field of Search

310/214, 310/215, 310/217, 310/194, 310/65, 310/213, 29/596, 29/598, 29/446, 29/447
US Class Current

310/214
CPC Class Codes

H02K 3/48   in slots

Y10S 174/19   in a dynamo-electric machine

Y10T 29/49863   with prestressing of part

Constrained ripple spring assembly with debondable adhesive and methods of installation

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

60 Citations

13 Claims

Specification

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Constrained ripple spring assembly with debondable adhesive and methods of installation

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

60 Citations

13 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others