Low noise alternating current dynamoelectro machine

US 4,012,653 A
Filed: 10/15/1974
Issued: 03/15/1977
Est. Priority Date: 10/17/1973
Status: Expired due to Term

First Claim

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1. An AC dynamoelectro machine comprising at least one hollow and cylindrical magnetic core consisting of a stack of a plurality of ring laminations of magnetic material, said core being axially divided into a plurality of blocks, each said block being supported at a plurality of positions on its surface parallel to the axis of the core, at least one of the supporting positions of a first one of adjacent two said blocks being arranged in different location to those of a second one of said adjacent two blocks along the circumference of the core, said first and second blocks being closely contacted with each other in the axial direction, said blocks being stacked with visco-elastic layers interposed therebetween.

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Abstract

In an alternating current dynamoelectro machine, the rotor core and/or stator core are axially divided into a plurality of blocks, adjacent blocks of the rotor core and/or those of the stator core are fixed to the rotor shaft and to the motor frame, respectively, at different positions on circumference of respective blocks, whereby an interactive vibration energy between the blocks is absorbed by relative vibrations produced between the adjacent blocks so that vibrations and noises of the machine can be reduced.

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12 Claims

1. An AC dynamoelectro machine comprising at least one hollow and cylindrical magnetic core consisting of a stack of a plurality of ring laminations of magnetic material, said core being axially divided into a plurality of blocks, each said block being supported at a plurality of positions on its surface parallel to the axis of the core, at least one of the supporting positions of a first one of adjacent two said blocks being arranged in different location to those of a second one of said adjacent two blocks along the circumference of the core, said first and second blocks being closely contacted with each other in the axial direction, said blocks being stacked with visco-elastic layers interposed therebetween.
- View Dependent Claims (2, 3, 4, 5)
- - 2. An AC dynamoelectro machine according to claim 1, wherein each said block is supported at evenly spaced positions on said parallel surface, and the supporting positions of said first block are arranged along the circumference of the core in the middles of adjacent supporting positions of said second block.
  - 3. An AC dynamoelectro machine according to claim 2, wherein a plurality of ribs parallel to the axis of the core are disposed in evenly spaced relation with each other along the circumference of the core, and said first block is fixed to alternate ones of said ribs and said second block is fixed to remaining ones of said ribs.
  - 4. An AC dynamoelectro machine according to claim 3, wherein said first block has recesses in portions, in said parallel surface, corresponding to said remaining ones of said ribs, and said second block has recesses in portions, in said parallel surface, corresponding to said alternate ones of said ribs.
  - 5. An AC dynamoelectro machine according to claim 3, wherein said alternate ones of said ribs have respective recesses in portions corresponding to said parallel surface of said second block, and said remaining ones of said ribs have respective recesses in portions corresponding to said parallel surface of said first block.

6. An AC dynamoelectro machine comprising a hollow and cylindrical stator core consisting of a stack of a plurality of ring lamination of magnetic material, a hollow and cylindrical frame member for housing and supporting said stator core therewithin, a hollow and cylindrical rotor core consisting of a stack of a plurality of ring lamination of magnetic material disposed coaxially with said stator core, and a rotor shaft inserted into said rotor core for supporting said rotor core, wherein a plurality of ribs parallel to the axis of the cylindrical frame member are disposed on the inner peripheral surface of said frame member in evenly spaced relation with each other along the circumference of the inner peripheral surface, and said stator core is axially divided into a plurality of bocks, a first one of adjacent two said blocks being fixed on its outer peripheral surface to alternate ones of said ribs and a second one of said adjacent two blocks being fixed on its outer peripheral surface to remaining ones of said ribs, said first and second blocks being closely contacted with each other in the axial direction, said blocks being stacked with viscoelastic layers interposed therebetween.
- View Dependent Claims (7, 8)
- - 7. An AC dynamoelectro machine according to claim 6, wherein said first block has recesses in portions, in said outer peripheral surface thereof, corresponding to said remaining ones of said ribs, and said second block has recesses in portion, in said outer peripheral surface thereof, corresponding to said alternate ones of said ribs.
  - 8. An AC dynamoelectric machine according to claim 6, wherein said alternate ones of said ribs have respective recesses in portions corresponding to said outer peripheral surface of said second block, and said remaining ones of said ribs have respective recesses in portions corresponding to said outer peripheral surface of said first block.

9. An AC dynamoelectro machine comprising a hollow and cylindrical stator core consisting of a stack of a plurality of ring lamination of magnetic material, a hollow and cylindrical frame member for housing and supporting said stator core therewithin, a hollow and cylindrical rotor core consisting of a stack of a plurality of ring lamination of magnetic material disposed coaxially with said stator core, and a rotor shaft inserted into said rotor core for supporting said rotor core, wherein a plurality of ribs parallel to the axis of the cylindrical frame member are disposed on the inner peripheral surface of said frame member in evenly spaced relation with each other along the circumference of the inner peripheral surface, and said stator core is axially divided into a plurality of blocks, a first one of adjacent two said blocks being fixed on its outer peripheral surface to alternate ones of said ribs and a second one of said adjacent two blocks being fixed on its outer peripheral surface to remaining ones of said ribs, said first and second blocks being closely contacted with each other in the axial direction, and wherein a plurality of ribs parallel to said rotor shaft are disposed on the surface of said rotor shaft in evenly spaced relation with each other along the circumference of said rotor shaft, and said rotor core is axially divided into a plurality of blocks, first one of adjacent two said blocks being fixed on its inner peripheral surface to alternate ones of said ribs of the rotor shaft, and said second block being fixed on its inner peripheral surface to remaining ones of said ribs, said first and second blocks being closely contacted with each other in the axial direction.
- View Dependent Claims (10, 11)
- - 10. An AC dynamoelectro machine according to claim 9, wherein said first block of the rotor core has recesses in portions, in said inner peripheral surface thereof, corresponding to said remaining ones of said ribs of the rotor shaft, and said second block of the rotor core has recesses in portion, in said inner peripheral surface thereof, corresponding to said alternate ones of said ribs of the rotor shaft.
  - 11. An AC dynamoelectric machine according to claim 9, wherein said alternate ones of said ribs have respective recesses in portions corresponding to said inner peripheral surface of said second block of the rotor core, and said remaining ones of said ribs have respective recesses in portions corresponding to said inner peripheral surface of said first block of the rotor core.

12. An AC dynamoelectro machine comprising a hollow and cylindrical stator core consisting of a stack of a plurality of ring lamination of magnetic material, a hollow and cylindrical frame member for housing and supporting said stator core therewithin, a hollow and cylindrical rotor core consisting of a stack of a plurality of ring lamination of magnetic material disposed coaxially with said stator core, and a rotor shaft inserted into said rotor core for supporting said rotor core, wherein a plurality of ribs parallel to the axis of the cylindrical frame member are disposed on the inner peripheral surface of said frame member in evenly spaced relation with each other along the circumference of the inner peripheral surface, and said stator core is axially divided into a plurality of blocks, a first one of adjacent two said blocks being fixed on its outer peripheral surface to alternate ones of said ribs and a second one of said adjacent two blocks being fixed on its outer peripheral surface to remaining ones of said ribs, said first and second blocks being closely contacted with each other in the axial direction, said blocks of the rotor core being stacked with visco-elastic layers interposed therebetween.

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Current Assignee
Hitachi, Ltd.
Original Assignee
Hitachi, Ltd.
Inventors
Miura, Masaki, Ichiryu, Ken, Shigeta, Masayuki
Primary Examiner(s)
Skudy, R.

Application Number

US05/514,924
Time in Patent Office

882 Days
Field of Search

310/51, 310/42, 310/40 MM, 310/180, 310/185, 310/216, 310/217, 310/218, 310/254, 310/258, 310/259, 310/261, 310/264, 310/265, 310/269, 310/195, 310/209, 74/574, 336/100, 336/210
US Class Current

310/432
CPC Class Codes

H02K 1/16 Stator cores with slots for...

Low noise alternating current dynamoelectro machine

First Claim

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Abstract

37 Citations

12 Claims

Specification

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Low noise alternating current dynamoelectro machine

First Claim

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0 Petitions

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Accused Products

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Abstract

37 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links