JP2008172877A - Stator structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain a reduction in size by directly connecting a stator winding to a lead wire with a lead wire holding part provided to a ring-shaped stator to eliminate a relay terminal. <P>SOLUTION: The stator structure is molded by the use of a resin sealing material (10) in the lead wire holding part (20) extended to one second ring-shaped insulation cover (3) of the ring-shaped stator (1), while holding the lead wire (9), to directly connect the lead wire (9) to the stator winding (5). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a stator structure, and in particular, by directly connecting a stator winding and a lead wire without using a relay terminal, and holding the lead wire by a lead wire holding portion provided in a ring-shaped stator, The present invention relates to a new improvement for greatly simplifying a connection structure with a lead wire.

As a conventional stator structure of this type, for example, the configuration disclosed in Patent Document 1 can be cited as FIG.
That is, what is denoted by reference numeral 1 in FIG. 3 is a ring-shaped stator, and first and second ring-shaped insulating covers 2 formed integrally with each other on the first and second end faces 1a and 1b of the ring-shaped stator 1. 3 is formed by resin molding.

A plurality of projecting magnetic poles 4 projecting inward of the annular stator 1 are provided with stator windings 5 wound around the annular insulating covers 2 and 3.
In the common part 6 of each of the ring-shaped insulating covers 2 and 3, a relay terminal 7 having an overall L shape is provided by insert molding, and the relay terminal 7 has an end line of the stator winding 5. Is connected, and a lead wire 9 is connected to the end 7a of the relay terminal 7 via a welding terminal 8.
Each of the annular insulating covers 2, 3, the stator winding 5, and the common portion 6 is covered with a resin sealing material 10 formed by resin molding.

US Pat. No. 6,028,383

Since the conventional stator structure is configured as described above, the following problems exist.
That is, a relay terminal is required to connect the stator winding and the lead wire, and resin molding is performed to fix the lead wire, and the number of parts is increased and the overall shape is increased. It was.
Further, the relay terminal, the lead wire holding portion, and the like protrude outward from the outer peripheral surface of the ring-shaped stator, which is an obstacle to miniaturization of the stator structure itself.

  The stator structure according to the present invention includes a pair of first and second ring-shaped insulating covers provided integrally or separately on each end surface of the ring-shaped stator, and each of the projecting magnetic poles formed on the ring-shaped stator. In a stator structure comprising a stator winding provided via a two-ring insulating cover, and a resin sealing material formed by resin molding for covering the first and second annular insulating covers and the stator winding A lead wire holding portion that is integrally extended on an outer edge of one of the first and second ring-shaped insulating covers and is positioned on one end surface of the ring-shaped stator; and formed on the lead wire holding portion and formed on the stator winding. A plurality of holding grooves for holding the directly connected lead wires, and a lead wire cover member provided in the lead wire holding portion for covering the lead wires, wherein the resin sealing material is the lead Line holder And at least a part of the lead wire cover member, a pin provided in the lead wire holding portion and projecting along the axial direction of the annular stator, and a penetration formed in the lead wire cover member A pin, the pin penetrates the through hole, and the tip end of the pin is welded, whereby the lead wire cover member is fixed to the lead wire holding portion, and An inner surface of the lead wire cover member has a plurality of covering grooves formed corresponding to the holding grooves, and the lead wires held in the holding grooves are covered by the covering grooves. The resin sealing material, the lead wire holding portion, and the lead wire cover member are located inside the outer peripheral surface of the ring-shaped stator, and the lead wire cover Element , The overall shape is configured to form a U shape, a structure is not fixed in the mold at the time of directly seal-molding the lead.

Since the stator structure according to the present invention is configured as described above, the following effects can be obtained.
That is, since the lead wire holding portion formed integrally with one of each ring-shaped insulating cover is located on one end surface of the ring-shaped stator, the end wire of the stator winding is connected to the lead wire held in this lead wire holding portion. Direct connection is possible, and the connecting portion of the lead wire can be significantly reduced in size compared to the conventional one by omitting the conventional relay terminal.
Also, by omitting the conventional relay terminals and welding terminals, the number of components is reduced compared to the conventional one, and the reduction of work man-hours, improvement of work efficiency, cost reduction, failure rate reduction, etc. are achieved. Can do.
In addition, the end wire of the stator winding is directly connected to the lead wire of the lead wire holding part provided on the ring-shaped stator, and the shape of the resin sealing material by resin molding is smaller than before, so the lead wire is retained. The part and the resin sealing material can be located inside the outer peripheral surface of the ring-shaped stator, and the shape of the entire stator structure can be significantly reduced as compared with the conventional case.
In addition, since the lead wire is not directly fixed by a mold during sealing molding, damage to the lead wire can be eliminated.

The present invention directly connects the stator winding and the lead wire without using a relay terminal, and holds the lead wire by the lead wire holding portion provided in the annular stator, thereby connecting the stator winding and the lead wire. An object of the present invention is to provide a stator structure that is greatly simplified.

Hereinafter, preferred embodiments of a 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.
1 is a ring-shaped stator, and first and second ring-shaped insulating covers 2, 3 formed integrally with each other on the first and second end faces 1a, 1b of the ring-shaped stator 1. Is provided as a separate body.
The first and second annular insulating covers 2 and 3 are insert-molded integrally with the annular stator 1 as described above in addition to the resin-molded structure as a separate body as described above. Thus, the first and second annular insulating covers 2 and 3 can be integrally formed.

A plurality of projecting magnetic poles 4 (only one is shown in FIG. 1) projecting inwardly of the annular stator 1 are provided with stator windings 5 via the annular insulating covers 2 and 3. It is provided by winding.
On the outer edge 3a of the second annular insulating cover 3 which is one of the first and second annular insulating covers 2 and 3, a lead wire holding portion 20 extending integrally therewith is formed to extend. The lead wire holding portion 20 is located on the second end surface 1b which is one end surface of the annular stator 1.

  As shown in FIG. 2, the lead wire holding portion 20 is formed in a longitudinal shape, and is provided with a plurality of holding grooves 21 formed substantially along the radial direction of the annular stator 1.

  A lead wire cover member 22 having a U-shaped overall shape is attached to the lead wire holding portion 20 so as to cover the holding grooves 21, and stands upright at the center position of the lead wire holding portion 20. The pin 23 formed along the axial direction of the stator 1 is configured to pass through a through hole 24 formed at the center position of the lead wire cover member 22.

A plurality of covering grooves 25 corresponding to the holding grooves 21 are formed on the inner surface of the lead wire cover member 22, and the lead wires 9 are held in the holding grooves 21. When the cover member 22 is placed, the lead wires 9 are sandwiched and held by the grooves 21 and 25, and the tip 23a of the pin 23 that penetrates the through hole 24 is heated and welded, as shown in FIG. The lead wire holding portion 20 and the lead wire cover member 22 are integrated to hold the lead wire 9. Here, each lead wire 20 is connected to the stator winding 5.
The lead wire cover member 22 is not limited to a configuration in which the overall shape is a U-shape, but may be a flat plate shape, for example.

Next, in the above-described configuration, the ring-shaped stator 1 having the lead wires 9 is loaded into a molding die (not shown), and injection molding with resin is performed, whereby the resin sealing material 10 shown in FIG. 1 is formed. .
The resin sealing material 10 completely covers each of the ring-shaped insulating covers 2 and 3 and the stator winding 5 and covers at least a part of the lead wire holding part 20 and the lead wire cover member 22.

  Since the resin sealing material 10, the lead wire holding portion 20, and the lead wire cover member 22 are located inside the outer peripheral surface 1 </ b> A of the ring-shaped stator 1, the outer diameter of the ring-shaped stator 1 may be resin-sealed. The molding process of the resin sealing material 10 can be performed in a state where the connection member for connecting the lead wire 9 such as the material 10 and the lead wire holding portion 20 to the annular stator 1 does not protrude.

Accordingly, by performing the resin molding of the resin sealing material 10 described above, the resin molding can be performed while the lead wire 9 is fixed to the lead wire cover member 22.
Further, since the lead wire 9 is fixed to the lead wire cover member 22, the resin sealing material 10 can be easily molded.
Further, since the end line of the stator winding 5 is directly connected to the lead wire 9, the conventional relay terminal 7 can be dispensed with.

It is sectional drawing of the principal part which shows the stator structure by this invention. It is a disassembled perspective view which shows the principal part of FIG. It is sectional drawing of the principal part which shows the conventional stator structure.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ring-shaped stator 1A Outer peripheral surface 1a 1st end surface 1b 2nd end surface (one end surface)
2 1st ring-shaped insulating cover 3 2nd ring-shaped insulating cover 4 protruding magnetic pole 5 stator winding 9 lead wire 10 resin sealing material 20 lead wire holding portion 21 holding groove 22 lead wire cover member 23 pin 24 through hole 25 covering groove

Claims (5)

A pair of first and second annular insulating covers (2, 3) provided integrally or separately on each end face (1a, 1b) of the annular stator (1) and the annular stator (1) are formed. A stator winding (5) provided on each protruding magnetic pole (4) via the first and second annular insulating covers (2, 3), the first and second annular insulating covers (2, 3), and In a stator structure consisting of a resin sealing material (10) formed by resin molding for covering the stator winding (5),
A lead wire holding portion (20) extending integrally with one of the outer edges (3a) of the first and second annular insulating covers (2, 3) and positioned on one end surface (1b) of the annular stator (1). ), A plurality of holding grooves (21) for holding the lead wire (9) formed in the lead wire holding portion (20) and directly connected to the stator winding (5), and the lead wire holding portion A lead wire cover member (22) provided on the lead wire (9) to cover the lead wires (9), and the resin sealing material (10) includes the lead wire holding portion (20) and the lead wire cover. A stator structure characterized by covering at least a part of the member (22). A pin (23) provided in the lead wire holding portion (20) and projecting along the axial direction (A) of the annular stator (1), and a through hole (24 formed in the lead wire cover member (22)) ), And
The pin (23) passes through the through hole (24), and the tip (23a) of the pin (23) is welded, so that the lead wire cover member (22) becomes the lead wire holding portion (20). The stator structure according to claim 1, wherein the stator structure is fixed to the stator.   An inner surface of the lead wire cover member (22) has a plurality of covering grooves (25) formed corresponding to the holding grooves (21), and is held in the holding grooves (21). 3. A stator structure according to claim 1, wherein each lead wire (9) is covered with each covering groove (25).   The resin sealing material (10), the lead wire holding portion (20), and the lead wire cover member (22) are located inside the outer peripheral surface (1A) of the annular stator (1). The stator structure according to any one of claims 1 to 3.   The stator structure according to any one of claims 1 to 4, wherein the lead wire cover member (22) has a U-shaped overall shape.

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