INDUCTION MACHINE

US 20140252910A1
Filed: 03/06/2014
Published: 09/11/2014
Est. Priority Date: 03/06/2013
Status: Abandoned Application

First Claim

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1. An induction machine including a squirrel-cage rotor, the squirrel-cage rotor comprising:

a rotor core;

a plurality of rotor slots, each of the rotor slots being formed on the rotor core so as to extend along an axial direction of the rotor core and being aligned in a circumferential direction of the rotor core at a predetermined interval on an outer circumferential side of the rotor core;

a plurality of rotor bars, each of the rotor bars being inserted into one of the plurality of rotor slots; and

a plurality of rotor slits formed adjacent to the plurality of rotor slots in a redial direction of the rotor core, the plurality of rotor slits being closer to an outer circumference of the rotor core than the plurality of rotor slots being, wherein;

each of the rotor slits is formed as a hollow;

each of the rotor slit has a region in which a width in the circumferential direction of the region increases from an outer circumferential side toward an inner circumferential side; and

a width in the circumferential direction of the each rotor slit on an innermost circumferential side is larger than a width in the circumferential direction of the each rotor slit on an outermost circumferential side, and is smaller than a width in the circumferential direction of an outermost circumferential surface of each of the rotor bars.

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Abstract

There is provided an induction machine having a squirrel-cage rotor, the rotor including: a rotor core; a plurality of rotor slots formed on the rotor core and aligned circumferentially at a predetermined interval; a plurality of rotor bars inserted into one of the plurality of rotor slots; and a plurality of rotor slits formed adjacent to the plurality of rotor slots on an outer circumferential side of the rotor core. The each rotor slit is formed as a hollow such that a cross sectional shape thereof is distinguished into three parts of a slit outer circumferential part, a slit intermediate part, and a slit inner circumferential part. A circumferential width of the each rotor slit on an innermost circumferential side is larger than that on an outermost circumferential side. A circumferential width of the slit intermediate part increases from an outer circumferential side toward an inner circumferential side.

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19 Claims

1. An induction machine including a squirrel-cage rotor, the squirrel-cage rotor comprising:
- a rotor core;
  
  a plurality of rotor slots, each of the rotor slots being formed on the rotor core so as to extend along an axial direction of the rotor core and being aligned in a circumferential direction of the rotor core at a predetermined interval on an outer circumferential side of the rotor core;
  
  a plurality of rotor bars, each of the rotor bars being inserted into one of the plurality of rotor slots; and
  
  a plurality of rotor slits formed adjacent to the plurality of rotor slots in a redial direction of the rotor core, the plurality of rotor slits being closer to an outer circumference of the rotor core than the plurality of rotor slots being, wherein;
  
  each of the rotor slits is formed as a hollow;
  
  each of the rotor slit has a region in which a width in the circumferential direction of the region increases from an outer circumferential side toward an inner circumferential side; and
  
  a width in the circumferential direction of the each rotor slit on an innermost circumferential side is larger than a width in the circumferential direction of the each rotor slit on an outermost circumferential side, and is smaller than a width in the circumferential direction of an outermost circumferential surface of each of the rotor bars.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 16, 18)
- - 2. The induction machine according to claim 1, wherein the each rotor slit has another region in which an increase rate in a width in the circumferential direction of the another region along the radial direction becomes small, the another region following the region in which the width in the circumferential direction of the region increases from the outer circumferential side toward the inner circumferential side.
  - 3. The induction machine according to claim 1, wherein the width of the outermost circumferential surface of the each rotor bar is larger than a width of an innermost circumferential surface of the each rotor bar.
  - 4. The induction machine according to claim 3, wherein a width in the circumferential direction of the rotor core sandwiched between two adjacent rotor slots is constant from the outer circumference side toward outer the inner circumference side.
  - 5. The induction machine according to claim 1, wherein a slit opening formed in the each rotor slit, the slit opening being positioned at an outermost circumference of the each rotor slit, is shifted toward a delayed side in a rotational direction of the rotor within the width of the outermost circumferential surface of the each rotor bar.
  - 6. The induction machine according to claim 1, wherein:
    - a slit opening formed in the each rotor slit, the slit opening being positioned at an outermost circumference of the each rotor slit, is shifted toward a delayed side in a rotational direction of the rotor; and
      
      a delayed side in the rotational direction of the slit opening is positioned toward the delayed side beyond the width of the outermost circumferential surface of the each rotor bar.
  - 7. The induction machine according to claim 5, wherein the induction machine is applied to a drilling system that has a drill for which a driving force on one direction is required.
  - 16. The induction machine according to claim 1, wherein the induction machine is driven by a voltage supplied from an AC power supply or a DC power supply, the voltage being converted by an inverter or a converter before being supplied to the induction machine.
  - 18. The induction machine according to claim 6, wherein the induction machine is applied to a drilling system that has a drill for which a driving force on one direction is required.

8. An induction machine including a squirrel-cage rotor, the squirrel-cage rotor comprising:
- a rotor core;
  
  a plurality of rotor slots, each of the rotor slots being formed on the rotor core so as to extend along an axial direction of the rotor core and being aligned in a circumferential direction of the rotor core at a predetermined interval on an outer circumferential side of the rotor core;
  
  a plurality of rotor bars, each of the rotor bars being inserted into one of the plurality of rotor slots; and
  
  a plurality of rotor slits formed adjacent to the plurality of rotor slots in a redial direction of the rotor core, the plurality of rotor slits being closer to an outer circumference of the rotor core than the plurality of rotor slots being, wherein;
  
  each of the rotor slits is formed as a hollow; and
  
  each of the rotor slits is formed such that a cross sectional shape thereof is distinguished into three parts of;
  
  a slit outer circumferential part positioned at an outermost circumference of the rotor core, in which a slit opening is formed;
  
  a slit intermediate part adjacent to the slit outer circumferential part, in which a width in the circumferential direction of the each rotor slit increases from an outer circumference side toward an inner circumference side; and
  
  a slit inner circumferential part adjacent to the slit intermediate part, in which an increase rate in the width in the circumferential direction along the radial direction of the slit inner circumferential part is smaller than that of the slit inner circumferential part.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 17)
- - 9. The induction machine according to claim 8, wherein denoting a width in the circumferential direction of the slit opening in the slit outer circumferential part as S2, denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, and denoting an angle of the slit intermediate part with respect to the circumferential direction as 0, a relationship between S2 and W is S2/W≦
    - 0.3, and θ
      
      ≧
      
      11°
      
      .
  - 10. The induction machine according to claim 8, wherein denoting a width in the circumferential direction of the slit opening in the slit outer circumferential part as S2, denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, and denoting an angle of the slit intermediate part with respect to the circumferential direction as θ
    - , a relationship between S2 and W is S2/W≦
      
      0.3, and θ
      
      ≧
      
      12°
      
      .
  - 11. The induction machine according to claim 8, wherein denoting a width in the circumferential direction of the slit opening in the slit outer circumferential part as S2, denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, and denoting a height in the radial direction of the slit inner circumferential part as β
    - , a relationship between S2 and W is S2/W≦
      
      0.3, and a relationship between β and
      
      W is β
      
      /W≧
      
      0.21.
  - 12. The induction machine according to claim 8, wherein denoting a width in the circumferential direction of the slit opening in the slit outer circumferential part as S2, denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, denoting a height in the radial direction of the each rotor slit as H, and denoting an area of the each rotor slit as S, a relationship between S2 and W is S2/W≦
    - 0.3, and a relationship between H and S is H²/S≧
      
      0.65.
  - 13. The induction machine according to claim 8, wherein denoting a width in the circumferential direction of the slit opening in the slit outer circumferential part as S2, denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, denoting a height in the radial direction of the each rotor slit as H, and denoting an area of the each rotor slit as S, a relationship between S2 and W is S2/W≦
    - 0.3, and a relationship between H and S is H²/S≦
      
      1.80.
  - 14. The induction machine according to claim 8, wherein denoting a height in the radial direction of the slit inner circumferential part as β
    - , denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, and denoting an angle of the slit intermediate part with respect to the circumferential direction as θ
      
      , a relationship between β and
      
      W is β
      
      /W≦
      
      0.21, and θ
      
      ≧
      
      11°
      
      .
  - 15. The induction machine according to claim 8, wherein denoting a height in the radial direction of the slit inner circumferential part as β
    - , denoting a width in the circumferential direction of the slit inner circumferential part at an innermost circumferential position as W, denoting an angle of the slit intermediate part with respect to the circumferential direction as θ
      
      , denoting a height in the radial direction of the each rotor slit as H, and denoting an area of the each rotor slit as S, a relationship between β and
      
      W is β
      
      /W≧
      
      0.21, θ
      
      ≧
      
      11°
      
      , and a relationship between H and S is 0.65≦
      
      H²/S≦
      
      1.80.
  - 17. The induction machine according to claim 8, wherein the induction machine is driven by a voltage supplied from an AC power supply or a DC power supply, the voltage being converted by an inverter or a converter before being supplied to the induction machine.

19. An induction machine including a squirrel-cage rotor, the squirrel-cage rotor comprising:
- a rotor core;
  
  a plurality of rotor slots, each of the rotor slots being formed on the rotor core so as to extend along an axial direction of the rotor core and being aligned in a circumferential direction of the rotor core at a predetermined interval on an outer circumferential side of the rotor core;
  
  a plurality of rotor bars, each of the rotor bars being inserted into one of the plurality of rotor slots; and
  
  a plurality of rotor slits formed adjacent to the plurality of rotor slots, the plurality of rotor slits being closer to an outer circumference of the rotor core than the plurality of rotor slots being, wherein;
  
  each of the rotor slits is formed as a hollow;
  
  each of the rotor slits has a region in which a circumferential width of the region increases from an outer circumferential side toward an inner circumferential side;
  
  a circumferential width of the each rotor slit on an innermost circumferential side is larger than a circumferential width of the each rotor slit on an outermost circumferential side, and is larger than an outermost circumferential width of each of the rotor bars; and
  
  at least one fitting portion to hold the rotor bar is formed on each of the rotor slot.

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Current Assignee
Hitachi, Ltd.
Original Assignee
Hitachi, Ltd.
Inventors
KUNIHIRO, Naoki, NISHIHAMA, Kazuo, IIZUKA, Motonobu, SUGIMOTO, Kenichi, SAWAHATA, Masanori, KOMURA, Akiyoshi

Application Number

US14/198,843
Publication Number

US 20140252910A1
Time in Patent Office

Days
Field of Search
US Class Current

310/211
CPC Class Codes

H02K 17/165   characterised by the squirr...

H02K 17/20   having deep-bar rotors

H02K 2213/03   Machines characterised by n...

INDUCTION MACHINE

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

26 Citations

19 Claims

Specification

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INDUCTION MACHINE

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

26 Citations

19 Claims

Specification

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Use Cases

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Others