JP2017079510A - Resolver stator structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to easily attach an annular plate part such as a shield cover to an annular-shaped stator of a resolver without using a conventional resolver resin mold or the like.SOLUTION: The resolver stator structure for fixing an annular plate part (40) has a configuration in which cylindrical screw parts (31) are implanted by press fitting and caulking to a first end face (1A) of an annular stator (1), and the annular plate part (40) being in contact with each of the cylindrical screw parts (31) is fixed by fixing a mounting screw (41) into a screw hole (30) of each cylindrical screw part (40).SELECTED DRAWING: Figure 1

Description

  The present invention relates to a resolver stator structure, and more particularly to a novel stator for providing a ring-shaped stator with a plurality of cylindrical screw parts and allowing other parts to be attached to the ring-shaped stator via the cylindrical screw parts. Regarding improvement.

Conventionally used resolver stator structures of this type include the configuration shown in FIG. 3 disclosed in Patent Document 1 and the configuration shown in FIG. 4 that is currently commercially available.
That is, what is denoted by reference numeral 1 in FIG. 3 is a ring-shaped stator, and a plurality of projecting magnetic poles 4 projecting inward at predetermined angular intervals are formed on the inner wall of the ring-shaped stator 1 through slots 4a. Are arranged along.

A stator winding (not shown) is wound around each projecting magnetic pole 4 via a ring-shaped insulating member 5 formed integrally or separately, and each projecting magnetic pole 4 and each stator winding are annularly wound. Covered by a wire cover 6.
The holding portion 7 that is integral with the ring-shaped insulating member 5 and protrudes outwardly has a lead wire 8 directly connected to the stator winding or a pin connected to the stator winding (see FIG. (Not shown) is provided and is used for connection of external signals and the like.

As shown in FIG. 4, a resolver resin mold 11 used when the annular stator 1 is attached to an automobile or the like is provided on the outer peripheral side 10 of the annular stator 1 shown in FIG.
When the resolver resin mold 11 is formed by insert molding, the annular stator 1 is set in a mold of an injection molding machine (not shown), and a plurality of screw collars 12 provided in the resolver resin mold 11 are provided in the mold. It can be obtained by setting it at a predetermined position and performing injection molding.

  A resolver cover 13 shown in FIG. 4 is provided on one surface of the resolver resin mold 11 configured as described above, and mounting screws 15 provided in a plurality of cover holes 14 formed in the resolver cover 13 are The resolver cover 13 is configured to be attached to the resolver resin mold 11 by being screwed into the screw collar 12 provided in the resolver resin mold 11.

JP 2002-171737 A

Since the conventional resolver stator structure is configured as described above, the following problems exist.
That is, for example, when an unillustrated annular cover member or shield cover or the like is attached to the annular stator 1 shown in FIG. 3, the resolver resin mold 11 made of resin is threaded as shown in FIG. And the resolver resin mold 11 needs to be formed, and the cost including the mold cost is increased, which has been an obstacle to the cost reduction of the resolver.
Further, in order to directly provide a resolver cover, a shield cover, etc., the ring-shaped stator 1 as shown in FIG. 3 requires attachment of bolts and nuts (not shown), and processing of the ring-shaped stator 1 is required.

  The present invention has been made to solve the above-described problems, and in particular, a plurality of cylindrical screw parts are provided on the ring-shaped stator, and other parts are attached to the ring-shaped stator via the respective cylindrical screw parts. It is an object of the present invention to provide a resolver stator structure that can be used.

  A resolver stator structure according to the present invention is provided with a ring-shaped stator having a plurality of projecting magnetic poles projecting inward at predetermined angular intervals, and integrally or separately with respect to the first end surface and the second end surface of the ring-shaped stator. A ring-shaped insulating cover, a stator winding wound around the protruding magnetic poles via the ring-shaped insulating cover, and a holding unit that is formed integrally with the ring-shaped insulating cover and holds terminal pins or lead wires. A resolver stator structure comprising a plurality of cylindrical screw parts having screw holes on at least one of the end faces of the ring-shaped stator. The threaded screw part is press-fitted into a through hole formed in the annular stator, and the tip of the tubular threaded part that penetrates the through hole is opposed to the second end surface of the annular stator. And a caulking portion is formed, and an annular plate component is provided at an end of each cylindrical screw component, and a mounting screw penetrating the annular plate component is the screw of the cylindrical screw component. The annular plate component is fixed to the cylindrical screw component by being screwed into a hole, and each cylindrical screw component is located outside the annular insulating cover of the annular stator. It is the structure which consists of the structure which has.

Since the resolver stator structure according to the present invention is configured as described above, the following effects can be obtained.
That is, a ring-shaped stator having a plurality of projecting magnetic poles projecting inward at predetermined angular intervals, and a ring-shaped insulating cover provided integrally or separately with respect to the first end surface and the second end surface of the ring-shaped stator, A stator winding wound around the projecting magnetic poles via the annular insulating cover; and a holding portion that is formed integrally with the annular insulating cover and holds terminal pins or lead wires. In the resolver stator structure, at least one of the end faces of the annular stator is provided with a plurality of cylindrical screw parts having screw holes, so that the cylindrical screw parts are directly attached to the annular stator. Therefore, various annular plate parts such as a shield cover can be attached, and the structure of the resolver stator can be greatly simplified.
The cylindrical screw component is press-fitted into a through-hole formed in the annular stator, and a distal end portion of the cylindrical screw component that penetrates the through-hole is in contact with the second end surface of the annular stator. Since the crimped portion is formed, it is easy to attach the cylindrical screw component to the annular stator.
Further, an annular plate part is provided at an end of each cylindrical screw part, and an attachment screw that penetrates the annular plate part is screwed into the screw hole of the cylindrical screw part, thereby the annular plate part. Is fixed to the cylindrical screw part, it becomes easy to attach the annular plate part to the cylindrical screw part.
Further, each cylindrical screw component is configured to be located outside the annular insulating cover of the annular stator, so that the attachment of each cylindrical screw component is facilitated.

It is a disassembled perspective view which shows the resolver stator structure by this invention. It is an expanded sectional view which shows the principal part of FIG. It is a perspective view which shows the conventional ring-shaped stator. It is a disassembled perspective view which shows the ring-shaped stator of the conventional resolver resin mold type.

  It is an object of the present invention to provide a resolver stator structure in which a plurality of cylindrical screw parts are provided on a ring-shaped stator, and other parts can be attached to the ring-shaped stator via the respective cylindrical screw parts. .

Hereinafter, preferred embodiments of a resolver stator structure according to the present invention will be described with reference to the drawings.
In addition, the same code | symbol is attached | subjected and demonstrated to a part the same as that of a prior art example, or an equivalent part. 3 is basically the same as the ring-shaped stator 1 of FIG. 1 (however, except for a cylindrical screw part), this is incorporated in the description of the configuration of the present invention.
In FIG. 1, what is indicated by reference numeral 1 is a ring-shaped stator made of a ring-shaped iron core. On the inner wall 1a of the ring-shaped stator 1, a plurality of projecting magnetic poles 4 projecting inward at predetermined angular intervals are provided. ing.

The first end surface 1A and the second end surface 1B of the ring-shaped stator 1 are provided with a ring-shaped insulating cover 5 that is formed by resin integral molding or separately formed and covers the outer periphery of the protruding magnetic pole 4. ing.
A stator winding 21 is wound around each protruding magnetic pole 4 via the annular insulating cover 5.

A holding portion 7 having a terminal pin 22 is integrally provided at one end of the annular insulating cover 5, and an end line of the stator winding 21 wound around each protruding magnetic pole 4 is connected to the terminal pin 22. It is connected and connected.
In addition, although the case where the terminal pin 22 is provided in the holding part 7 was described, the lead wire 8 is provided in the holding part 7 and the end line is connected to the lead as in the conventional configuration of FIG. It can be configured to connect to the line 8.

As shown in FIG. 2, a plurality of cylindrical screw parts 31 having screw holes 30 are provided via through holes 32 on at least one of the end faces 1 </ b> A and 1 </ b> B of the annular stator 1. .
The cylindrical screw part 31 penetrates after the tip part 31a is inserted into the through hole 32 by press fitting, and the tip part 31a is caulked with a projecting amount that projects less than a general caulking. The crimped portion 33 is fixed to the annular stator 1.

  The method of attaching the cylindrical screw part 31 to the ring-shaped stator 1 belongs to the clinching fastener processing method using press-fitting and caulking, and is formed in advance when the ring-shaped stator 1 is formed on the ring-shaped stator 1. Each through hole 32 is used.

Since a plurality of cylindrical screw parts 31 are provided along the axial direction A on the first end surface 1A of the annular stator 1, end portions 31b of the cylindrical screw parts 31 are provided. For example, a ring-shaped plate part 40 made of, for example, a shield cover or a connection cover is abutted, and a mounting screw 41 passes through the ring-shaped plate part 40 and is screwed into the screw hole 30.
Therefore, the ring-shaped plate component 40 is fixed to the end portion 31b of each cylindrical screw component 31, as shown in FIG.

  As shown in FIG. 1, each cylindrical screw part 31 is located on the outer side 1 </ b> C of the annular insulating cover 5 in the annular stator 1, so that the annular plate part 40 is extremely attached to the annular stator 1. Easy.

Next, the gist of the resolver stator structure according to the present invention is as follows.
That is, the annular stator 1 having a plurality of projecting magnetic poles 4 projecting inward at predetermined angular intervals and the first end surface 1A and the second end surface 1B of the annular stator 1 are provided integrally or separately. A ring-shaped insulating cover 5, a stator winding 21 wound around each protruding magnetic pole 4 via the ring-shaped insulating cover 5, and a terminal pin 22 or a lead wire 8 formed integrally with the ring-shaped insulating cover 5. In the resolver stator structure including a holding portion 7 for holding the plurality of cylindrical screw parts 31 having a screw hole 30 in at least one of the end faces 1A and 1B of the annular stator 1. The cylindrical screw part 31 is press-fitted into a through hole 32 formed in the annular stator 1 and the cylindrical screw part 31 penetrating the through hole 32 is provided. The tip portion 31 a is configured such that a crimping portion 33 is formed with respect to the second end surface 1 </ b> B of the annular stator 1, and the annular plate component 40 is provided at the end portion 31 b of each cylindrical screw component 31. And the mounting screw 41 penetrating the annular plate part 40 is screwed into the screw hole 30 of the cylindrical screw part 31, whereby the annular plate part 40 is fixed to the cylindrical screw part 31. Further, each cylindrical screw part 31 is configured to be located on the outer side 1 </ b> C of the annular insulating cover 5 of the annular stator 1.

  The resolver stator structure according to the present invention can attach a ring-shaped plate part to a ring-shaped stator by simply using a simple cylindrical screw part without using a resolver resin mold as in the prior art. And cost reduction can be achieved.

1 Ring-shaped stator
1A, 1B 1st, 2nd end face 1C Outer side A Axial direction 4 Projection magnetic pole 4a Slot 5 Ring-shaped insulation member 6 Ring-shaped winding cover 7 Holding part 8 Lead wire 10 Outer peripheral side 21 Stator winding 30 Screw hole 31 Cylindrical screw component 31a Tip part 31b End part 32 Through hole 33 Crimp part 40 Ring-shaped plate part 41 Mounting screw

Claims (4)

An annular stator (1) having a plurality of projecting magnetic poles (4) projecting inward at predetermined angular intervals, and the first end face (1A) and the second end face (1B) of the annular stator (1) An annular insulating cover (5) provided integrally or separately, a stator winding (21) wound around the protruding magnetic pole (4) via the annular insulating cover (5), and the In a resolver stator structure comprising a holding portion (7) for holding a terminal pin (22) or a lead wire (8) that is formed integrally with the annular insulating cover (5),
A resolver characterized in that a plurality of cylindrical screw parts (31) having screw holes (30) are provided on at least one of the end faces (1A, 1B) of the annular stator (1). Stator structure.   The cylindrical screw component (31) is press-fitted into a through-hole (32) formed in the annular stator (1), and the distal end portion of the cylindrical screw component (31) passing through the through-hole (32). The resolver stator structure according to claim 1, wherein a caulking portion (33) is formed on the second end surface (1B) of the ring-shaped stator (1).   An annular plate part (40) is provided at an end (31b) of each cylindrical screw part (31), and a mounting screw (41) passing through the annular plate part (40) is provided in the cylindrical screw part (31). The ring-shaped plate part (40) is fixed to the cylindrical screw part (31) by being screwed into the screw hole (30). Resolver stator structure.   Each said cylindrical screw component (31) consists of the structure located in the outer side (1C) of the said ring-shaped insulation cover (5) of the said ring-shaped stator (1), The any one of Claim 1 thru | or 3 characterized by the above-mentioned. A resolver stator structure according to claim 1.

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