JP2016111807A - Stator for rotary electric machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stator for a rotary electric machine capable of firmly fixing a stator core and suppressing manufacturing cost while maintaining insulation between the stator core and a bolt head.SOLUTION: The stator for the rotary electric machine comprises: a cylindrical stator core 21 which is configured by laminating a number of thin plate pieces 21a, the thin plate piece being formed by punching a silicon steel sheet; a stator cover 22 in which the stator core 21 is accommodated and held; a mounting hole 21b which penetrates the stator core 21 in a direction of lamination; a bolt 23 which is inserted into the mounting hole 21b and fixes the stator core 21 to the stator cover 22; and an insulation washer 24 which is interposed between the stator core 21 and a head 23a of the bolt 23 and insulates the head 23a from the stator core 21. The insulation washer 24 is formed by punching the same kind of silicon steel sheet as the silicon steel sheet to be punched for the thin plate piece 21a.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a stator for a rotating electrical machine in which an insulating washer is interposed between a stator core and a bolt head when the stator core is fixed with a bolt.

  Some rotating electrical machines have a stator disposed radially outside the rotor. In general, this stator is composed of a cylindrical stator core made of a stack of steel plates, a stator cover for holding the stator core in a laminated state, and the like. It is fixed to the stator cover by bolts inserted in the stacking direction.

  Thus, when fixing a stator core with a volt | bolt, a stator iron core and a bolt head will be electrically connected, and there exists a possibility of causing the loss of a rotary electric machine. Therefore, conventionally, an insulating washer is interposed between the stator core and the bolt head. Such a conventional rotating electric machine stator is disclosed in, for example, Patent Document 1.

Japanese Utility Model Publication No. 5-9146

  Here, as the material of the insulating washer, many insulating materials such as resin and ceramics are employed. However, an insulating washer made of such a material is more expensive than a normal washer that is not formed of an insulating material.

  In addition, if the insulating washer and the stator core are made of different materials, the bolt tightening torque will be less likely to act uniformly on the insulating washer and the stator core, resulting in a large tightening torque. In some cases, an insulating washer that is a relatively small member may be broken.

  Accordingly, the present invention solves the above-mentioned problem, and while maintaining the insulation between the stator core and the bolt head, the rotation that can firmly fix the stator core and reduce the manufacturing cost An object is to provide an electric stator.

The stator of the rotating electrical machine according to the first invention for solving the above-described problems is
A cylindrical stator core formed by laminating a large number of thin plate pieces formed by punching a steel plate; and
A stator cover for storing and holding the stator core;
A mounting hole penetrating the stator core in the stacking direction of the stator core; and
A bolt inserted into the mounting hole and fixing the stator core to the stator cover;
An insulating washer interposed between the stator core and the head of the bolt, and insulating the head from the stator core;
The insulating washer is formed by punching a steel plate of the same type as the steel plate for punching the thin plate piece.

The stator of the rotating electrical machine according to the second invention for solving the above-described problems is
Interposing a plurality of the insulating washers,
The outer diameters of the insulating washers adjacent in the stacking direction are different outer diameters.

A stator for a rotating electrical machine according to a third invention for solving the above-described problems is
The inner diameter dimensions of the insulating washers adjacent in the stacking direction are different inner diameter dimensions.

A stator for a rotating electrical machine according to a fourth invention for solving the above-described problems is
The plurality of insulating washers are stacked such that their outer diameter and inner diameter are gradually reduced.

A stator for a rotating electrical machine according to a fifth invention for solving the above-described problem is
The plurality of insulating washers are stacked such that their outer diameter and inner diameter are gradually reduced from the head toward the stator core.

A stator for a rotating electrical machine according to a sixth invention for solving the above-described problems is
The thin plate piece and the insulating washer are formed by punching a silicon steel plate.

  Therefore, according to the stator of the rotating electrical machine according to the present invention, by forming the insulating washer from the same type of steel plate as the steel plate for forming the thin plate piece, the tightening torque by the bolts can be increased by the stator core and the insulating washer. On the other hand, since it acts uniformly, the stator core can be firmly fixed without breaking the insulating washer. Furthermore, the manufacturing cost of the stator can be reduced as compared with the case where the stator core and the insulating washer are formed from different types of steel plates.

It is a schematic block diagram of the rotary electric machine to which the stator based on one Example of this invention is applied. It is AA arrow sectional drawing of FIG. It is the perspective view which showed the mode when a some insulation washer was interposed between the stator iron core and the bolt head. It is the longitudinal cross-sectional view which showed a mode when two types of insulation washers from which an outer diameter dimension differs were interposed. It is the longitudinal cross-sectional view which showed a mode when interposing several types of insulation washers from which an outer diameter dimension and an internal diameter dimension mutually differ.

  Hereinafter, a stator of a rotating electrical machine according to the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 1 and 2, the rotating electrical machine 1 includes a rotor 11 that is rotatably supported around the central axis of the rotating electrical machine 1, and a cylindrical shape that is fixed to the radially outer side of the rotor 11. It consists of a stator 12. Further, the stator 12 includes a stator iron core 21, a stator cover 22, bolts 23, an insulating washer 24, and the like.

  The stator core 21 is a laminated body in which a large number of thin plate pieces 21a are laminated, and these thin plate pieces 21a are formed in an annular shape by punching out a silicon steel plate.

  That is, the surface of the silicon steel plate is covered with a thin insulating film for limiting overcurrent, and the stator core 21 formed by laminating a large number of thin plate pieces 21a punched out from the silicon steel plate as a whole is formed as a whole. It will have an insulating function.

  The stator core 21 has a plurality of attachment holes 21b. These mounting holes 21 b are through holes that penetrate the stator core 21 in the stacking direction, and are arranged at equal intervals in the circumferential direction of the stator core 21.

  The stator cover 22 stores and holds the stator core 21 in a stacked state, and the stator core 21 is formed with a plurality of screw holes 22a. These screw holes 22a are screw holes that can come into contact with the mounting holes 21b, and are arranged at equal intervals in the circumferential direction of the stator core 21 (stator cover 22).

  Therefore, the stator core 21 can be fixed in the stator cover 22 by inserting the bolts 23 into the mounting holes 21 b of the stator core 21 and fastening them to the screw holes 22 a of the fixed cover 22.

  Further, an insulating washer 24 is interposed between the stator core 21 and the head 23 a of the bolt 23. In this way, the head 23 a of the bolt 23 is insulated from the stator core 21 by interposing the insulating washer 24. The insulating washer 24 is formed in an annular shape by punching out a silicon steel plate.

  That is, the many thin plate pieces 21a constituting the stator core 21 and the insulating washer 24 are formed by being punched from the same type of silicon steel plate.

  Therefore, by forming the insulating washer 24 from a silicon steel plate of the same type as the silicon steel plate for forming the thin plate piece 21 a, the tightening torque by the bolt 23 is uniform with respect to the stator core 21 and the insulating washer 24. Therefore, the stator core 21 can be firmly fixed to the stator cover 22 without breaking the insulating washer 24. Furthermore, the manufacturing cost of the stator 12 can be suppressed by forming the stator core 21 and the insulating washer 24 from the same type of silicon steel plate.

  In the embodiment shown in FIG. 1 and FIG. 2, one insulating washer 24 is interposed, but a plurality of insulating washers 24 may be interposed as shown in FIG. Absent.

  Here, as described above, the insulating washer 24 is a component obtained by punching a silicon steel plate. However, when the insulating washer 24 is punched from the silicon steel plate, the outer peripheral edge portion that becomes a cut portion in the insulating washer 24. And a flash will generate | occur | produce toward a punching direction in an inner peripheral part. Since the occurrence of this flash occurs by breaking the insulating coating formed on the surface of the silicon steel sheet, the surface of the generated flash is often not covered with the insulating coating.

  Accordingly, when a plurality of insulating washers 24 having the same outer diameter size and inner diameter size are used in a stacked manner, the flash generated at each outer peripheral edge portion and each inner diameter edge portion of the adjacent insulating washers 24 in the washer stacking direction (stacking direction). Are in the same position in the washer radial direction. Then, when the flashes generated at the outer peripheral edge portions and the inner diameter edge portions of the adjacent insulating washers 24 come into contact with each other, the contacted flashes are electrically connected to each other. An electrical closed circuit is formed. As a result, an eddy current flows through the closed circuit as the magnetic flux in the rotating electrical machine 1 changes, which may cause a loss of the rotating electrical machine 1.

  Therefore, when a plurality of insulating washers 24 are used in a stacked manner, the above-described problems are solved by employing insulating washers 25a and 25b and insulating washers 26a, 26b, 26c and 26d as shown in FIGS. It doesn't matter.

  Specifically, in the embodiment shown in FIG. 4, two types of insulating washers 25a and 25b are alternately interposed in the bolt axis direction (stacking direction). At this time, the outer diameter of the insulating washer 25a is different from the outer diameter of the insulating washer 25b. As a result, flashes generated at the outer peripheral edge portions of the adjacent insulating washers 25a and 25b are shifted from each other in the washer radial direction.

  Therefore, even if a flash is generated at each outer peripheral edge portion of the adjacent insulating washers 25a and 25b, the flashes are not in contact with each other in the washer stacking direction because they are shifted in the washer radial direction. As a result, it is possible to suppress the generation of eddy current due to the contact between the flashes in the washer stacking direction, and thus it is possible to prevent loss of the rotating electrical machine 1.

  In the embodiment shown in FIG. 5, a plurality of types of insulating washers 26a, 26b, 26c, and 26d are sequentially interposed in the bolt axis direction (stacking direction). At this time, the insulating washers 26a, 26b, 26c, and 26d are overlapped so that the outer diameter and the inner diameter are different from each other, and the outer diameter and the inner diameter are gradually reduced.

  As a result, the flashes generated at the outer peripheral edge portions and the inner peripheral edge portions of the adjacent insulating washers 26a and 26b are shifted from each other in the washer radial direction. Further, the flashes generated at the outer peripheral edge portions and the inner peripheral edge portions of the adjacent insulating washers 26b and 26c are shifted from each other in the washer radial direction. Further, the flashes generated at the outer peripheral edge portions and the inner peripheral edge portions of the adjacent insulating washers 26c and 26d are shifted from each other in the washer radial direction.

  Therefore, each outer peripheral edge and each inner peripheral edge of the adjacent insulating washers 26a and 26b, each outer peripheral edge and each inner peripheral edge of the adjacent insulating washers 26b and 26c, and each outer periphery of the adjacent insulating washers 26c and 26d. Even if burrs are generated at each of the peripheral edge portion and the inner peripheral edge portions, the burrs are displaced in the washer radial direction, so that they do not contact in the washer overlap direction. As a result, it is possible to suppress the generation of eddy current due to the contact between the flashes in the washer stacking direction, and thus it is possible to prevent loss of the rotating electrical machine 1.

  Further, the insulating washers 26a, 26b, 26c, and 26d are arranged such that their outer diameter and inner diameter are gradually reduced from the head 23a of the bolt 23 toward the stator core 21, so that the bolt The tightening torque of 23 can be concentrated toward the center of the bolt 23. Thereby, the stator core 21 can be firmly fixed to the stator cover 22.

  In the stator of the rotating electrical machine according to the present invention, since the insulation between the stator core and the bolt head can be easily performed by the insulating washer, it can be used extremely beneficially in improving the efficiency of the rotating electrical machine. it can.

DESCRIPTION OF SYMBOLS 1 Rotating electrical machine 11 Rotor 12 Stator 21 Stator iron core 21a Thin plate piece 21b Mounting hole 22 Stator cover 22a Screw hole 23 Bolts 24, 25a, 25b, 26a to 26d Insulating washers

Claims (6)

A cylindrical stator core formed by laminating a large number of thin plate pieces formed by punching a steel plate; and
A stator cover for storing and holding the stator core;
A mounting hole penetrating the stator core in the stacking direction of the stator core; and
A bolt inserted into the mounting hole and fixing the stator core to the stator cover;
An insulating washer interposed between the stator core and the head of the bolt, and insulating the head from the stator core;
The insulating washer is formed by punching a steel plate of the same type as the steel plate for punching the thin plate piece. The stator of the rotating electrical machine according to claim 1,
Interposing a plurality of the insulating washers,
The stator of a rotating electrical machine, wherein the outer diameters of the insulating washers adjacent in the stacking direction are different from each other. In the stator of the rotating electrical machine according to claim 1 or 2,
A stator for a rotating electrical machine, wherein inner diameters of the insulating washers adjacent in the stacking direction are different from each other. In the stator of the rotating electrical machine according to any one of claims 1 to 3,
The plurality of insulating washers are stacked such that the outer diameter and inner diameter thereof are gradually reduced. In the stator of the rotating electrical machine according to any one of claims 1 to 4,
The plurality of insulating washers are stacked such that their outer diameter and inner diameter are gradually reduced from the head toward the stator core. In the stator of the rotating electrical machine according to any one of claims 1 to 5,
The thin plate piece and the insulating washer are formed by punching out a silicon steel plate.

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