JPH09312948A - Stator of dynamo-electric machine - Google Patents

Stator of dynamo-electric machine

Info

Publication number
JPH09312948A
JPH09312948A JP9019054A JP1905497A JPH09312948A JP H09312948 A JPH09312948 A JP H09312948A JP 9019054 A JP9019054 A JP 9019054A JP 1905497 A JP1905497 A JP 1905497A JP H09312948 A JPH09312948 A JP H09312948A
Authority
JP
Japan
Prior art keywords
insulating base
insulator
terminal
stator
portions
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP9019054A
Other languages
Japanese (ja)
Other versions
JP3497684B2 (en
Inventor
Kimiharu Sato
公治 佐藤
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toshiba Corp
Original Assignee
Toshiba Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toshiba Corp filed Critical Toshiba Corp
Priority to JP01905497A priority Critical patent/JP3497684B2/en
Priority to TW086202942U priority patent/TW342152U/en
Priority to KR1019970006424A priority patent/KR100238907B1/en
Priority to CN97103065A priority patent/CN1110883C/en
Publication of JPH09312948A publication Critical patent/JPH09312948A/en
Application granted granted Critical
Publication of JP3497684B2 publication Critical patent/JP3497684B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K5/00Casings; Enclosures; Supports
    • H02K5/04Casings or enclosures characterised by the shape, form or construction thereof
    • H02K5/22Auxiliary parts of casings not covered by groups H02K5/06-H02K5/20, e.g. shaped to form connection boxes or terminal boxes
    • H02K5/225Terminal boxes or connection arrangements
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/24Connections using contact members penetrating or cutting insulation or cable strands
    • H01R4/2404Connections using contact members penetrating or cutting insulation or cable strands the contact members having teeth, prongs, pins or needles penetrating the insulation
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K1/00Details of the magnetic circuit
    • H02K1/04Details of the magnetic circuit characterised by the material used for insulating the magnetic circuit or parts thereof
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K11/00Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
    • H02K11/20Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
    • H02K11/25Devices for sensing temperature, or actuated thereby

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Insulation, Fastening Of Motor, Generator Windings (AREA)

Abstract

PROBLEM TO BE SOLVED: To improve the assembly workability of a stator. SOLUTION: Conductor plates 22 for external connections are buried in an insulating base plate 17. The one side ends of the conductor plates 22 are made to protrude from the lower surface of the insulating base plate 17 and the other side ends are positioned inside the connector part 29 of the insulating base plate 17. If the insulating base plate 17 is attached to an insulating cover 13 in this state, the one side ends of the conductor plates 22 are connected to coil terminal leads for external connections. Therefore, the soldering of the coil terminal leads and the ends of the conductor plates is not necessary, so that the assembly workability can be improved.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、コイルと外部回路
との間を絶縁基台により接続する構成の回転電機のステ
ータに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stator of a rotary electric machine having a structure in which a coil and an external circuit are connected by an insulating base.

【0002】[0002]

【発明が解決しようとする課題】上記ステータの従来構
成を図24ないし図26に基づいて説明する。尚、この
ステータは、本出願人により出願された特開平6−20
5558号公報に開示されたものである。まず、図24
および図25において、ステータコア1には軸方向両側
から合成樹脂製の絶縁体2が被せられており(一方の絶
縁体2のみ図示する)、ステータコア1の各スロット1
aの内周面は両絶縁体2により覆われている。
A conventional structure of the above stator will be described with reference to FIGS. 24 to 26. This stator is disclosed in Japanese Patent Application Laid-Open No. 6-20 filed by the present applicant.
This is disclosed in Japanese Patent No. 5558. First, FIG.
25, the stator core 1 is covered with the insulator 2 made of synthetic resin from both sides in the axial direction (only one insulator 2 is shown), and each slot 1 of the stator core 1 is covered.
The inner peripheral surface of a is covered with both insulators 2.

【0003】一方の絶縁体2には複数のピン3が装着さ
れており、これら各ピン3には、図26に示すように、
コイル4の外部接続用端末線4aが巻き付けられてい
る。そして、絶縁基台6(図24参照)内には導電部材
7が埋設されており、絶縁基台6を絶縁体2に装着する
と、各ピン3が導電部材7の孔7aおよび絶縁基台6の
孔6aを通して突出するようになっている。
A plurality of pins 3 are mounted on one of the insulators 2, and each of these pins 3 is, as shown in FIG.
The external connection terminal wire 4a of the coil 4 is wound. A conductive member 7 is embedded in the insulating base 6 (see FIG. 24), and when the insulating base 6 is attached to the insulator 2, the pins 3 are attached to the holes 7a of the conductive member 7 and the insulating base 6. It projects through the hole 6a.

【0004】上記構成の場合、コイル端末線4aを外部
回路に接続するにあたっては、絶縁基台6の孔6a内に
半田を落してピン3と導電部材7とを接続した後、導電
部材7に外部回路を接続するようにしている。従って、
面倒な半田付け作業を行う必要があるので、組立て作業
性の点で改善の余地が残されている。本発明は上記事情
に鑑みてなされたものであり、その目的は、外部接続用
のコイル端末線を外部回路に簡単に接続できる回転電機
のステータを提供することである。
In the case of the above structure, when connecting the coil end wire 4a to an external circuit, solder is dropped into the hole 6a of the insulating base 6 to connect the pin 3 and the conductive member 7, and then the conductive member 7 is connected. The external circuit is connected. Therefore,
Since it is necessary to perform troublesome soldering work, there is room for improvement in terms of assembly workability. The present invention has been made in view of the above circumstances, and an object thereof is to provide a stator of a rotary electric machine that can easily connect a coil terminal wire for external connection to an external circuit.

【0005】[0005]

【課題を解決するための手段】請求項1記載の回転電機
のステータは、ステータコアに装着された樹脂製の絶縁
体と、前記ステータコアに前記絶縁体の上から巻装され
たコイルと、前記絶縁体に装着された樹脂製の絶縁基台
と、この絶縁基台に設けられ外部回路のコネクタが嵌合
されるコネクタ部と、前記絶縁基台に設けられ一端部が
前記コネクタ部内に位置する外部接続用の導電部材とを
備え、前記絶縁基台を前記絶縁体に装着することに伴い
前記導電部材の他端部が外部接続用のコイル端末線に接
続されるところに特徴を有する。
According to a first aspect of the present invention, there is provided a stator for a rotating electric machine, comprising: a resin-made insulator mounted on a stator core; a coil wound on the stator core from above the insulator; A resin-made insulating base mounted on the body, a connector part provided on the insulating base to which a connector of an external circuit is fitted, and an external part provided on the insulating base and having one end located inside the connector part. And a conductive member for connection, and the other end of the conductive member is connected to a coil terminal wire for external connection when the insulating base is mounted on the insulator.

【0006】上記手段によれば、下記(1)および
(2)の作業を行うことに基づいて、外部接続用のコイ
ル端末線が外部回路に接続される。 (1)絶縁基台をステータコアの絶縁体に装着すること
に伴い、導電部材の他端部を外部接続用のコイル端末線
に接続する。 (2)絶縁基台のコネクタ部に外部回路のコネクタを嵌
合することに伴い、導電部材の一端部を外部回路に接続
する。従って、外部接続用のコイル端末線を半田付けす
る必要がなくなるので、組立て作業性が向上する。
According to the above means, the coil terminal wire for external connection is connected to the external circuit on the basis of performing the work of (1) and (2) below. (1) As the insulating base is attached to the insulator of the stator core, the other end of the conductive member is connected to the coil terminal wire for external connection. (2) One end of the conductive member is connected to the external circuit by fitting the connector of the external circuit into the connector of the insulating base. Therefore, it is not necessary to solder the coil terminal wire for external connection, so that the assembling workability is improved.

【0007】請求項2記載の回転電機のステータは、絶
縁基台を絶縁体に装着することに伴い、コモン接続用の
コイル端末線に接続されるコモン接続用の導電部材が絶
縁基台に設けられているところに特徴を有する。上記手
段によれば、絶縁基台を絶縁体に装着すると、コモン接
続用の導電部材がコイル端末線に接続される。従って、
コモン接続用のコイル端末線を半田付けする必要がなく
なるので、組立て作業性が一層向上する。
In the stator of a rotating electric machine according to a second aspect of the present invention, a conductive member for common connection, which is connected to a coil terminal wire for common connection, is provided on the insulating base as the insulating base is mounted on the insulator. It is characterized by the fact that it is used. According to the above means, when the insulating base is attached to the insulator, the conductive member for common connection is connected to the coil terminal wire. Therefore,
Since it is not necessary to solder the coil connection wire for common connection, the assembly workability is further improved.

【0008】請求項3記載の回転電機のステータは、絶
縁基台に感熱素子が設けられ、この感熱素子がコモン接
続用導電部材の近傍に配置されているところに特徴を有
している。上記手段によれば、各相のコイル端末線に対
応して感熱素子を設ける必要がなくなるので、感熱素子
を共通利用できる。
A stator of a rotating electric machine according to a third aspect is characterized in that a heat-sensitive element is provided on an insulating base and the heat-sensitive element is arranged in the vicinity of a common connecting conductive member. According to the above means, it is not necessary to provide a heat sensitive element corresponding to the coil terminal wire of each phase, so that the heat sensitive element can be commonly used.

【0009】請求項4記載の回転電機のステータは、絶
縁体に装着されることに伴い、コイル端末線の外被を突
き破って芯線に接続される端子を備え、絶縁基台を絶縁
体に装着することに伴い導電部材の他端部が前記端子に
接続され、使用可能な最も太いコイル端末線の外径寸法
より幅広な逃げ溝が導電部材の他端部に形成されている
ところに特徴を有する。上記手段によれば、下記(1)
および(2)の作業を行うことに基づいて、コイル端末
線が導電部材に接続される。 (1)絶縁体に端子を装着することに伴い、コイル端末
線の外被を端子によって突き破り、端子をコイル端末線
の芯線に接続する。 (2)絶縁体に絶縁基台を装着することに伴い、導電部
材の他端部を端子に接続する。
According to a fourth aspect of the present invention, the stator of the rotating electric machine is equipped with a terminal which penetrates the outer sheath of the coil terminal wire and is connected to the core wire when the stator is mounted on the insulator, and the insulating base is mounted on the insulator. Accordingly, the other end of the conductive member is connected to the terminal, and a relief groove wider than the outer diameter of the thickest coil terminal wire that can be used is formed at the other end of the conductive member. Have. According to the above means, the following (1)
Based on performing the work of (2) and (2), the coil terminal wire is connected to the conductive member. (1) As the terminal is attached to the insulator, the jacket of the coil terminal wire is pierced by the terminal, and the terminal is connected to the core wire of the coil terminal wire. (2) As the insulating base is attached to the insulator, the other end of the conductive member is connected to the terminal.

【0010】従って、コイル端末線の外被を予め剥がし
ておく手間がなくなるので、組立て作業性が一層向上す
る。しかも、導電部材の他端部に形成された逃げ溝によ
りコイル端末線を逃げることができる。このため、導電
部材の他端部と端子との重なり部分が増加するので、両
者の接触不良が防止される。さらに、逃げ溝の幅寸法が
使用可能な最も太いコイル端末線の外径寸法より大きく
設定されているので、径大なコイル端末線を用いた場合
でも導電部材を交換する必要がなくなる。このため、絶
縁基台の共通使用が可能になる。
Therefore, it is not necessary to remove the outer sheath of the coil terminal wire in advance, so that the assembling workability is further improved. Moreover, the coil end wire can be escaped by the escape groove formed at the other end of the conductive member. For this reason, the overlapping portion between the other end of the conductive member and the terminal increases, so that poor contact between the two is prevented. Further, since the width dimension of the escape groove is set to be larger than the outer diameter dimension of the thickest coil terminal wire that can be used, it is not necessary to replace the conductive member even when the coil terminal wire having a large diameter is used. Therefore, the insulating base can be commonly used.

【0011】請求項5記載の回転電機のステータは、各
コイル端末線を囲む壁部が絶縁基台に形成されていると
ころに特徴を有する。上記手段によれば、各コイル端末
線が壁部より囲まれるので、各コイル端末線の誤接触が
防止される。
A stator of a rotating electric machine according to a fifth aspect is characterized in that a wall portion surrounding each coil terminal wire is formed on an insulating base. According to the above means, since each coil terminal wire is surrounded by the wall portion, erroneous contact of each coil terminal wire is prevented.

【0012】請求項6記載の回転電機のステータは、複
数のコイル端末線を囲む壁部が絶縁基台に形成され、絶
縁基台のうち壁部内に感熱素子が設けらているところに
特徴を有する。上記手段によれば、複数のコイル端末線
から発生する熱が壁部の外へ逃げ難くなるので、感熱素
子の感度が向上する。
A stator of a rotating electric machine according to a sixth aspect is characterized in that a wall portion surrounding a plurality of coil terminal wires is formed on an insulating base, and a heat sensitive element is provided in the wall of the insulating base. Have. According to the above means, the heat generated from the plurality of coil terminal wires does not easily escape to the outside of the wall portion, so that the sensitivity of the heat sensitive element is improved.

【0013】請求項7記載の回転電機のステータは、絶
縁体の内周部および外周部に係合部が形成され、これら
各係合部に係合される被係合部が絶縁基台に形成されて
いるところに特徴を有する。上記手段によれば、絶縁体
の係合部に絶縁基台の被係合部を係合することに伴い、
絶縁基台が絶縁体に装着される。この場合、絶縁基台が
内外周部で保持されるので、絶縁基台の絶縁体に対する
がたつきが防止される。
In a stator of a rotating electric machine according to a seventh aspect of the present invention, engaging portions are formed on an inner peripheral portion and an outer peripheral portion of an insulator, and engaged portions engaged with these engaging portions serve as an insulating base. It has a feature where it is formed. According to the above means, with engaging the engaged portion of the insulating base to the engaging portion of the insulator,
The insulating base is attached to the insulator. In this case, since the insulating base is held by the inner and outer peripheral portions, rattling of the insulating base with respect to the insulator is prevented.

【0014】請求項8記載の回転電機のステータは、絶
縁基台を絶縁体に装着するための脚部が絶縁体および絶
縁基台のいずれか一方に形成され、前記脚部に円周方向
から接触する壁部が他方に形成されているところに特徴
を有する。上記手段によれば、壁部が円周方向から脚部
に接触することに伴い、絶縁基台の絶縁体に対するがた
つきが防止される。
In the stator of the rotating electric machine according to the present invention, a leg portion for mounting the insulating base on the insulator is formed on either the insulator or the insulating base, and the leg portion is circumferentially arranged. It is characterized in that the contacting wall is formed on the other side. According to the above means, rattling of the insulating base with respect to the insulator due to the contact of the wall portion with the leg portion from the circumferential direction is prevented.

【0015】請求項9記載の回転電機のステータは、絶
縁体に装着されコイル端末線に接続された略コ字状の端
子と、絶縁体の内外周部に形成された係合部と、絶縁基
台の内外周部に形成され、前記絶縁体の各係合部に係合
されることに伴い導電部材の他端部を前記端子に接続す
る被係合部とを備え、前記端子の一方の壁部に前記導電
部材の他端部を他方の壁部側へ押圧する押圧部が形成さ
れ、前記両係合部あるいは前記両被係合部の剛性が異な
り、前記端子の一方の壁部が剛性の小さな係合部あるい
は被係合部側に位置し且つ他方の壁部が剛性の大きな係
合部あるいは被係合部側に位置するように、前記端子が
前記絶縁体に装着されているところに特徴を有する。
According to a ninth aspect of the present invention, in a stator of a rotating electric machine, a substantially U-shaped terminal mounted on an insulator and connected to a coil terminal wire, an engaging portion formed on the inner and outer peripheral portions of the insulator, and an insulator An engaged portion that is formed on the inner and outer peripheral portions of the base and that connects the other end of the conductive member to the terminal when engaged with each engaging portion of the insulator, A pressing portion for pressing the other end portion of the conductive member toward the other wall portion is formed on the wall portion of the terminal, the rigidity of the both engaging portions or both engaged portions is different, and one wall portion of the terminal is formed. Is attached to the insulator such that the terminal is located on the side of the engaging portion or the engaged portion having a small rigidity and the other wall portion is located on the side of the engaging portion or the engaged portion having a large rigidity. It has a feature in that it exists.

【0016】上記手段によれば、絶縁基台の各係合部を
絶縁体の被係合部に係合すると、導電部材の他端部が端
子を介してコイル端末線に接続される。このとき、剛性
が小さな係合部あるいは被係合部が弾性変形し、剛性が
大きな係合部あるいは被係合部側へ絶縁基台がずれ動く
ので、導電部材の他端部が絶縁基台と共に押圧部の基端
部から先端部へ向ってずれ動くことになる。このため、
導電部材の他端部から押圧部に過大な押圧力が作用し、
押圧部が変形してしまうことが防止される。
According to the above means, when each engaging portion of the insulating base is engaged with the engaged portion of the insulator, the other end of the conductive member is connected to the coil terminal wire via the terminal. At this time, the engaging portion or the engaged portion having a low rigidity is elastically deformed, and the insulating base is displaced toward the engaging portion or the engaged portion having a high rigidity. At the same time, the pressing portion shifts from the base end portion toward the tip end portion. For this reason,
Excessive pressing force acts on the pressing part from the other end of the conductive member,
It is possible to prevent the pressing portion from being deformed.

【0017】[0017]

【発明の実施の形態】以下、本発明の第1実施例を図1
ないし図11に基づいて説明する。尚、本実施例は、洗
濯機のパルセータおよび洗濯槽を回転させるアウターロ
ータ形DCブラシレスモータのステータに本発明を適用
したものである。まず、図2において、ステータコア1
1は、円弧状をなす3つの単位コア12を連結すること
から構成されたものであり、各単位コア12は、鋼板を
積層することにより形成されている。
BEST MODE FOR CARRYING OUT THE INVENTION A first embodiment of the present invention will now be described with reference to FIG.
This will be described with reference to FIG. In this embodiment, the present invention is applied to a stator of an outer rotor type DC brushless motor for rotating a pulsator and a washing tub of a washing machine. First, in FIG. 2, the stator core 1
1 is configured by connecting three arc-shaped unit cores 12, and each unit core 12 is formed by stacking steel plates.

【0018】絶縁体に相当する絶縁カバー13は、非導
電性の合成樹脂(具体的にはガラスフィラーを30%含
有するポリブチレンテレフタレート)からなるものであ
り、放射状に延びる複数の絶縁層13aと、これら絶縁
層13aの内周部を連結する連結部13bとを有してい
る。そして、各絶縁層13aは断面コ字状をなしてお
り、ステータコア11に軸方向両側から絶縁カバー13
を押込むと、ステータコア11の各ティース11aに2
つの絶縁層13aが被せられる。これにより、ステータ
コア11の各スロット11bの内周面が2つの絶縁カバ
ー13により覆われる。
The insulating cover 13, which corresponds to an insulator, is made of a non-conductive synthetic resin (specifically, polybutylene terephthalate containing 30% of glass filler) and has a plurality of radially extending insulating layers 13a. , And a connecting portion 13b for connecting the inner peripheral portions of these insulating layers 13a. Each insulating layer 13a has a U-shaped cross section, and the insulating cover 13 is formed on the stator core 11 from both sides in the axial direction.
When you push in, the teeth 11a of the stator core 11
One insulating layer 13a is covered. As a result, the inner peripheral surface of each slot 11b of the stator core 11 is covered with the two insulating covers 13.

【0019】ステータコア11の各ティース11aに
は、図1に示すように、絶縁層13aの上からコイル1
4が巻装されている。これら複数のコイル14は3本の
コイル線15からなるものであり、図5に示すように、
各コイル線15は、芯線に相当する導電線15aを外被
に相当する被膜15bにより覆うことから形成されてい
る。
As shown in FIG. 1, the coils 11 are formed on the teeth 11a of the stator core 11 from above the insulating layer 13a.
4 are wound. The plurality of coils 14 are composed of three coil wires 15, and as shown in FIG.
Each coil wire 15 is formed by covering a conductive wire 15a corresponding to a core wire with a coating film 15b corresponding to a jacket.

【0020】一方の絶縁カバー13の上面には、図6に
示すように、内周部および外周部に位置して取付部16
が2個ずつ一体形成されている。これら各取付部16は
係合部に相当するものであり、図7に示すように、脚部
16aおよび16bから構成されている。そして、内周
側(図示右側)の各取付部16については、内周側に位
置する各脚部16aに内方へ突出する爪部16cが一体
形成され、外周側(図示左側)の各取付部16について
は、外周側に位置する各脚部16aに外方へ突出する爪
部16cが一体形成されている。
As shown in FIG. 6, on the upper surface of one insulating cover 13, the mounting portion 16 is located at the inner peripheral portion and the outer peripheral portion.
2 are formed integrally. Each of these mounting portions 16 corresponds to an engaging portion, and is composed of legs 16a and 16b as shown in FIG. As for each mounting portion 16 on the inner peripheral side (right side in the drawing), each leg 16a located on the inner peripheral side is integrally formed with a claw portion 16c protruding inward, and each mounting portion on the outer peripheral side (left side in the drawing). Regarding the portion 16, a claw portion 16c protruding outward is integrally formed with each leg portion 16a located on the outer peripheral side.

【0021】図8に示す絶縁基台17は、非導電性の合
成樹脂(具体的にはガラスフィラーを30%含有するポ
リブチレンテレフタレート)から形成されたものであ
り、絶縁基台17の下面には、各隅部に位置して矩形枠
状をなす被取付部18が一体形成されている。これら各
被取付部18は被係合部および壁部に相当するものであ
り、図7に示すように、内周側(図示右側)に位置する
各被取付部18には、内周側の壁部に位置してL字状を
なす溝部18a(図9参照)が形成され、外周側に位置
する各被取付部18には、外周側の壁部に位置してL字
状をなす溝部18a(図9参照)が形成されている。
The insulating base 17 shown in FIG. 8 is made of a non-conductive synthetic resin (specifically, polybutylene terephthalate containing 30% of glass filler). The attached parts 18 each having a rectangular frame shape are integrally formed at the corners. Each of these attached portions 18 corresponds to the engaged portion and the wall portion, and as shown in FIG. 7, each attached portion 18 located on the inner peripheral side (right side in the drawing) has an inner peripheral side. An L-shaped groove portion 18a (see FIG. 9) is formed on the wall portion, and each attached portion 18 located on the outer peripheral side has an L-shaped groove portion on the outer peripheral side wall portion. 18a (see FIG. 9) is formed.

【0022】そして、絶縁基台17の各被取付部18を
絶縁カバー13の取付部16の外側部に押込むと、各被
取付部18の内面により取付部16の係合突部16cが
押圧され、各取付部16の脚部16aが弾性変形する。
これにより、各係合突部16cが被取付部18の溝部1
8aに係合し、絶縁基台17が絶縁カバー13に装着さ
れる。これと共に、各被取付部18の内面が取付部16
の脚部16aおよび16bに円周方向(図7の紙面奥行
き方向)から接触する。
When each mounted portion 18 of the insulating base 17 is pushed into the outer side of the mounting portion 16 of the insulating cover 13, the inner surface of each mounted portion 18 presses the engaging projection 16c of the mounting portion 16. Then, the leg portions 16a of the mounting portions 16 are elastically deformed.
As a result, the respective engaging protrusions 16c are formed in the groove portion 1 of the mounted portion 18.
The insulating base 17 is attached to the insulating cover 13 by engaging with 8a. At the same time, the inner surface of each mounted portion 18 is attached to the mounting portion 16
The leg portions 16a and 16b are contacted in the circumferential direction (the depth direction of the paper surface of FIG. 7).

【0023】絶縁カバー13の上面には、図6に示すよ
うに、矩形枠状をなす6個の収容部19が一体形成され
ている。これら複数の収容部19は、絶縁カバー13の
内周部に並設されたものであり、各収容部19の内周側
の壁部および外周側の壁部には、図4に示すように、溝
部19aが形成されている。そして、図6の左3つの収
容部19の溝部19a,19a内にはコイル線15の一
端部(外部接続用の端末部)が挿入され、残り3つの収
容部19の溝部19a,19a内にはコイル線15の他
端部(コモン接続用の端末部)が挿入される。
On the upper surface of the insulating cover 13, as shown in FIG. 6, six accommodating portions 19 having a rectangular frame shape are integrally formed. The plurality of accommodating portions 19 are arranged side by side on the inner peripheral portion of the insulating cover 13, and the inner peripheral wall portion and the outer peripheral wall portion of each of the accommodating portions 19 are, as shown in FIG. The groove portion 19a is formed. Then, one end portion (terminal portion for external connection) of the coil wire 15 is inserted into the groove portions 19a, 19a of the three housing portions 19 on the left side of FIG. 6, and the groove portions 19a, 19a of the remaining three housing portions 19 are inserted. The other end portion (terminal portion for common connection) of the coil wire 15 is inserted.

【0024】尚、各収容部19には、図4に示すよう
に、溝部19aの先端部に位置してテーパー部19bが
形成されており、各コイル線15の端末部は、テーパー
部19bにより案内されることに伴い、溝部19a、1
9a内に円滑に挿入される。
As shown in FIG. 4, a taper portion 19b is formed in each accommodation portion 19 at the tip of the groove portion 19a, and the end portion of each coil wire 15 is formed by the taper portion 19b. Grooves 19a, 1 along with being guided
It is smoothly inserted into 9a.

【0025】各収容部19内には、図3に示すように、
金属板を折曲加工してなる端子20が収容されている。
これら各端子20は、図3および図4に示すように、上
下方向へ延びる接続部20aおよび20b間をベース部
20dにより連結した略コ字状をなすものであり、一方
の接続部20aには、斜め下方へ延びる爪状の押圧部2
0cが形成されている。尚、接続部20aおよび20b
は、端子20の壁部に相当するものである。
In each of the accommodating portions 19, as shown in FIG.
A terminal 20 formed by bending a metal plate is housed.
As shown in FIGS. 3 and 4, each of these terminals 20 has a substantially U shape in which vertically extending connecting portions 20a and 20b are connected by a base portion 20d, and one connecting portion 20a has one , Claw-shaped pressing portion 2 extending obliquely downward
0c is formed. Incidentally, the connecting portions 20a and 20b
Corresponds to the wall of the terminal 20.

【0026】各端子20の接続部20aおよび20b,
ベース部20dには溝部20eが形成されており、これ
ら各溝部20eの幅寸法Wは、図5に示すように、コイ
ル線15の外径寸法r1 より小さく、しかも、導電線1
5aの直径寸法r2 に略等しく設定されている。従っ
て、各収容部19内に端子20を挿入すると、各溝部2
0eの内面部がコイル線15の被膜15bを突き破り、
導電線15aに接触することになる。
The connecting portions 20a and 20b of each terminal 20,
Grooves 20e are formed in the base portion 20d, and the width W of each groove 20e is smaller than the outer diameter r1 of the coil wire 15 as shown in FIG.
It is set to be substantially equal to the diameter dimension r2 of 5a. Therefore, when the terminal 20 is inserted into each accommodation portion 19, each groove portion 2
The inner surface of 0e breaks through the coating 15b of the coil wire 15,
It comes into contact with the conductive wire 15a.

【0027】尚、各収容部19の溝部19aの幅寸法W
1 (図4参照)は、各種コイル線15のうち使用可能な
最も太いものの直径寸法より大きく設定されている。ま
た、図4に示すように、各端子20には、接続部20a
および20bに位置して爪部20fが形成されており、
これら爪部20fが収容部19の内面に引掛かることに
伴い、各端子20が収容部19から抜止めされている。
The width dimension W of the groove portion 19a of each accommodation portion 19
1 (see FIG. 4) is set to be larger than the diameter of the thickest one of the various coil wires 15 that can be used. Further, as shown in FIG. 4, each terminal 20 has a connecting portion 20a.
And 20b are formed with claw portions 20f,
As the claw portions 20f are hooked on the inner surface of the housing portion 19, the terminals 20 are prevented from coming off the housing portion 19.

【0028】絶縁基台17の下面には、図8に示すよう
に、矩形枠状をなす6つの収容部21が一体形成されて
いる。これら各収容部21は絶縁基台17の内周部に沿
って並設されたものであり、絶縁カバー13に絶縁基台
17を装着すると、図3において、絶縁カバー13の各
収容部19の外側に収容部21が嵌合される。尚、絶縁
基台17の各収容部21は壁部に相当するものであり、
各収容部21には、コイル線15を逃げるための逃げ溝
21aが形成されている。
On the lower surface of the insulating base 17, as shown in FIG. 8, six accommodating portions 21 having a rectangular frame shape are integrally formed. These accommodating portions 21 are arranged side by side along the inner peripheral portion of the insulating base 17, and when the insulating base 17 is attached to the insulating cover 13, the accommodating portions 19 of the insulating cover 13 of FIG. The housing portion 21 is fitted on the outside. In addition, each housing portion 21 of the insulating base 17 corresponds to a wall portion,
An escape groove 21a for escaping the coil wire 15 is formed in each accommodation portion 21.

【0029】絶縁基台17には、図1に示すように、導
電部材に相当する3つの外部接続用導電板22および1
つのコモン接続用導電板23が埋設されており、各導電
板22の一端部には、図10に示すように、下方へ折れ
曲る接続部22aが形成され、導電板23の内周部に
は、下方へ折れ曲る3つの接続部23aが形成されてい
る。そして、3つの導電板22の接続部22aは、図8
に示すように、左3つの収容部21内に突出し、導電板
23の3つの接続部23aは、残り3つの収容部21内
に突出している。
As shown in FIG. 1, the insulating base 17 has three conductive plates 22 and 1 for external connection corresponding to conductive members.
Two common connecting conductive plates 23 are embedded, and one end of each conductive plate 22 is formed with a connecting portion 22a that bends downward, as shown in FIG. Has three connecting portions 23a that are bent downward. The connecting portions 22a of the three conductive plates 22 are shown in FIG.
As shown in FIG. 5, the three connecting portions 23 a of the conductive plate 23 project into the left three housing portions 21, and the three connecting portions 23 a of the conductive plate 23 project into the remaining three housing portions 21.

【0030】従って、絶縁基台17を絶縁カバー13に
装着し、絶縁基台17の各収容部21を絶縁カバー13
の収容部19に嵌合すると、図3および図4において、
各導電板22の接続部22a,導電板23の各接続部2
3aが端子20の接続部20bと押圧部20cとの間に
挿入され、接続部20bおよび押圧部20cに接続され
る。これと共に、押圧部20cにより接続部20b側へ
押圧される。
Therefore, the insulating base 17 is attached to the insulating cover 13, and each accommodation portion 21 of the insulating base 17 is attached to the insulating cover 13.
When fitted into the accommodation portion 19 of FIG.
Connection part 22a of each conductive plate 22 and each connection part 2 of the conductive plate 23
3a is inserted between the connecting portion 20b of the terminal 20 and the pressing portion 20c, and is connected to the connecting portion 20b and the pressing portion 20c. At the same time, the pressing portion 20c presses the connecting portion 20b.

【0031】各導電板22の接続部22aおよび導電板
23の各接続部23aには、図5に示すように、下方へ
開口する逃げ溝22bおよび23bが形成されている。
これら各逃げ溝22bおよび23bはコイル線15を逃
げるためのものであり、各逃げ溝22bおよび23bの
幅寸法W2 は、各種コイル線15のうち使用可能な最も
太いものの外径寸法より大きく設定されている。
As shown in FIG. 5, the connecting portions 22a of the conductive plates 22 and the connecting portions 23a of the conductive plates 23 are formed with escape grooves 22b and 23b which open downward.
These relief grooves 22b and 23b are for allowing the coil wire 15 to escape, and the width dimension W2 of each relief groove 22b and 23b is set to be larger than the outer diameter dimension of the thickest one of the various coil wires 15 that can be used. ing.

【0032】絶縁基台17には、図1に示すように、温
度検出用導電板24および25が埋設されている。これ
ら導電板24および25は、コモン接続用導電板23を
囲むように、導電板23の近傍に配置されたものであ
り、導電板24および25の一端部には、図10に示す
ように、接続部24aおよび25aが形成されている。
そして、これら接続部24aおよび25aは、図8に示
すように、絶縁基台17の下面を通して外部に露出して
いる。
As shown in FIG. 1, temperature detecting conductive plates 24 and 25 are embedded in the insulating base 17. These conductive plates 24 and 25 are arranged in the vicinity of the conductive plate 23 so as to surround the common connection conductive plate 23. At one end of the conductive plates 24 and 25, as shown in FIG. Connection parts 24a and 25a are formed.
Then, these connecting portions 24a and 25a are exposed to the outside through the lower surface of the insulating base 17, as shown in FIG.

【0033】絶縁基台17の下面には、図9に示すよう
に、素子取付部26が一体形成されており、この素子取
付部26には、図8に示すように、サーミスタからなる
感熱素子27の本体部が嵌込まれている。そして、感熱
素子27の両リード線は導電板24の接続部24aおよ
び導電板25の接続部25aにスポット融着されてい
る。また、絶縁基台17の下面には枠状の壁部28が一
体形成されており、この壁部28は、絶縁基台17の感
熱素子27,6つの収容部21を囲んでいる。
As shown in FIG. 9, an element mounting portion 26 is integrally formed on the lower surface of the insulating base 17, and the element mounting portion 26 is formed of a thermistor as shown in FIG. 27 body parts are fitted. Both lead wires of the thermosensitive element 27 are spot-welded to the connecting portion 24a of the conductive plate 24 and the connecting portion 25a of the conductive plate 25. Further, a frame-shaped wall portion 28 is integrally formed on the lower surface of the insulating base 17, and the wall portion 28 surrounds the heat-sensitive element 27 of the insulating base 17 and the six accommodating portions 21.

【0034】絶縁基台17の外周部には、図9に示すよ
うに、矩形筒状をなすコネクタ部29が一体形成されて
おり、図1に示すように、3つの外部接続用導電板22
の他端部,温度検出用導電板24および25の他端部は
コネクタ部29内に位置している。従って、コネクタ部
29に外部回路のコネクタ(図示せず)を嵌合すると、
3つの導電板22,導電板24および25が外部回路に
接続される。尚、符号22c,24c,25cは導電板
22,24,25のターミナル部(他端部)を示すもの
である。
As shown in FIG. 9, a rectangular tubular connector portion 29 is integrally formed on the outer peripheral portion of the insulating base 17, and as shown in FIG. 1, three external connection conductive plates 22 are provided.
The other end of each of the temperature detecting conductive plates 24 and 25 is located in the connector part 29. Therefore, when a connector (not shown) for the external circuit is fitted into the connector portion 29,
The three conductive plates 22 and the conductive plates 24 and 25 are connected to an external circuit. Reference numerals 22c, 24c and 25c denote terminal portions (other end portions) of the conductive plates 22, 24 and 25.

【0035】絶縁基台17にはロータ位置検出用導電板
30〜34が埋設されている。そして、導電板30〜3
2には、図10に示すように、接続部30a〜32aが
形成され、導電板33および34には接続部33a〜3
3cおよび34a〜34cが形成されており、各接続部
30a〜34cは絶縁基台17の下面を通して外部へ露
出している。尚、導電板22〜25,30〜34は、絶
縁基台17の成形時にキャビティ内に収容されることに
伴い(いわゆるインサート成形)、絶縁基台17内に埋
設されている。
Conductor plates 30 to 34 for rotor position detection are embedded in the insulating base 17. Then, the conductive plates 30 to 3
2, the connecting portions 30a to 32a are formed on the conductive plate 33 and 34, and the connecting portions 33a to 3a are formed on the conductive plates 33 and 34, as shown in FIG.
3c and 34a to 34c are formed, and the connecting portions 30a to 34c are exposed to the outside through the lower surface of the insulating base 17. The conductive plates 22 to 25 and 30 to 34 are embedded in the insulating base 17 as they are housed in the cavity when the insulating base 17 is molded (so-called insert molding).

【0036】絶縁基台17の下面には、図9に示すよう
に、外周部に位置して3つの素子取付部35が一体形成
されている。これら各取付部35は矩形枠状をなすもの
であり、各取付部35内には、図8に示すように、位置
検出素子に相当するホール素子36の本体部が嵌込まれ
ている。これら各ホール素子36は、ロータの回転位置
を検出するためのものであり、各ホール素子36のリー
ド線は、図11に示すように、各接続部30a〜34c
に半田付けされている。
On the lower surface of the insulating base 17, as shown in FIG. 9, three element mounting portions 35 are integrally formed at the outer peripheral portion. Each of these mounting portions 35 has a rectangular frame shape, and as shown in FIG. 8, a main body of a Hall element 36 corresponding to a position detecting element is fitted in each mounting portion 35. Each of these Hall elements 36 is for detecting the rotational position of the rotor, and the lead wires of each Hall element 36 have their respective connecting portions 30a to 34c as shown in FIG.
Soldered.

【0037】導電板33および34には、図10に示す
ように、接続部33dおよび34dが形成されており、
接続部33dおよび34dは絶縁基台17の下面を通し
て外部へ露出している。そして、接続部33dおよび3
4dには、図11に示すように、コンデンサ37のリー
ド線が半田付けされている。尚、コンデンサ37は、各
ホール素子36に供給される電源からノイズを除去する
ものである。
Connection parts 33d and 34d are formed on the conductive plates 33 and 34 as shown in FIG.
The connecting portions 33d and 34d are exposed to the outside through the lower surface of the insulating base 17. Then, the connecting portions 33d and 3
As shown in FIG. 11, the lead wire of the capacitor 37 is soldered to 4d. The capacitor 37 removes noise from the power source supplied to each Hall element 36.

【0038】絶縁基台17には、図1に示すように、矩
形筒状をなすコネクタ部38が一体形成されている。そ
して、導電板30〜34の一端部はコネクタ部38内に
位置しており、コネクタ部38に外部回路のコネクタ
(図示せず)を嵌合すると、3つのホール素子36およ
びコンデンサ37が導電板30〜34を介して外部回路
に接続される。尚、図1の符号30b,31b,32
b,33e,34eは導電板30〜34のターミナル部
(一端部)を示すものである。
As shown in FIG. 1, a rectangular tubular connector portion 38 is integrally formed on the insulating base 17. Then, one ends of the conductive plates 30 to 34 are located in the connector part 38, and when the connector (not shown) of the external circuit is fitted into the connector part 38, the three hall elements 36 and the capacitors 37 are connected to the conductive plate. It is connected to an external circuit through 30 to 34. Incidentally, reference numerals 30b, 31b, 32 in FIG.
Reference numerals b, 33e, and 34e denote terminal portions (one end portions) of the conductive plates 30 to 34.

【0039】絶縁基台17の下面には、図8および図9
に示すように、矩形枠状をなす壁部39が一体形成され
ており、この壁部39は、3つのホール素子36および
コンデンサ37を囲んでいる。そして、壁部39内に
は、ホール素子36およびコンデンサ37の電極部が露
出しないように、防湿材によるポッティングが施されて
いる。
The lower surface of the insulating base 17 is shown in FIGS.
As shown in FIG. 3, a wall portion 39 having a rectangular frame shape is integrally formed, and the wall portion 39 surrounds the three Hall elements 36 and the capacitors 37. The wall 39 is potted with a moisture-proof material so that the electrodes of the Hall element 36 and the capacitor 37 are not exposed.

【0040】次にステータの組立て手順について説明す
る。まず、図6の左3つの収容部19の溝部19a,1
9a内にコイル線15の外部接続用端末部を挿入し、残
り3つの収容部19の溝部19a,19a内にコイル線
15のコモン接続用端末部を挿入した後、各収容部19
内に端子20を挿入する。すると、図5に示すように、
各端子20の溝部20eの内面部がコイル線15の被膜
15bを突き破り、導電線15aに接触するので、各端
子20にコイル14が接続される。
Next, a procedure for assembling the stator will be described. First, the groove portions 19a, 1 of the three housing portions 19 on the left side of FIG.
After inserting the external connection terminal portion of the coil wire 15 into 9a and inserting the common connection terminal portion of the coil wire 15 into the groove portions 19a, 19a of the remaining three accommodation portions 19, each accommodation portion 19 is inserted.
Insert the terminal 20 therein. Then, as shown in FIG.
The inner surface of the groove 20e of each terminal 20 pierces the coating 15b of the coil wire 15 and contacts the conductive wire 15a, so that the coil 14 is connected to each terminal 20.

【0041】各端子20にコイル14を接続したら、図
7に示すように、絶縁基台17の各被取付部18を絶縁
カバー13の取付部16の外側部に押込み、絶縁基台1
7を絶縁カバー13に装着する。すると、図3におい
て、各導電板22の接続部22a,導電板23の各接続
部23aが端子20の接続部20bと押圧部20cとの
間に挿入され、3つの導電板22および導電板23が端
子20に接続される。
After the coil 14 is connected to each terminal 20, as shown in FIG. 7, each mounted portion 18 of the insulating base 17 is pushed into the outer side of the mounting portion 16 of the insulating cover 13 to insulate the insulating base 1.
7 is attached to the insulating cover 13. Then, in FIG. 3, the connection portion 22a of each conductive plate 22 and each connection portion 23a of the conductive plate 23 are inserted between the connection portion 20b of the terminal 20 and the pressing portion 20c, and the three conductive plates 22 and the conductive plate 23 are inserted. Is connected to the terminal 20.

【0042】3つの導電板22および導電板23を端子
20に接続したら、図1において、絶縁基台17のコネ
クタ部38に外部回路のコネクタを嵌合する。すると、
3つのホール素子36およびコンデンサ37が導電板3
0〜34のターミナル部30b〜34eを介して外部回
路に接続される。これと共に、絶縁基台17のコネクタ
部29に外部回路の別のコネクタを嵌合する。すると、
3つの導電板22のターミナル部22c,導電板24お
よび25のターミナル部24cおよび25cが外部回路
に接続されることに伴い、各コイル14が端子20,導
電板22および23を介して外部回路に接続され、感熱
素子27が導電板24および25を介して外部回路に接
続される。
After connecting the three conductive plates 22 and 23 to the terminal 20, the connector of the external circuit is fitted to the connector portion 38 of the insulating base 17 in FIG. Then
The three Hall elements 36 and the capacitor 37 are the conductive plate 3
It is connected to an external circuit via the terminal parts 30b-34e of 0-34. At the same time, another connector of the external circuit is fitted to the connector portion 29 of the insulating base 17. Then
As the terminals 22c of the three conductive plates 22 and the terminals 24c and 25c of the conductive plates 24 and 25 are connected to the external circuit, each coil 14 is connected to the external circuit via the terminals 20, the conductive plates 22 and 23. The heat-sensitive element 27 is connected to the external circuit via the conductive plates 24 and 25.

【0043】上記実施例によれば、絶縁基台17を絶縁
カバー13に装着することに伴い、絶縁基台17の各導
電板22に外部接続用コイル端末線を接続した。このた
め、各外部接続用コイル端末線を導電板22に半田付け
する必要がなくなるので、組立て作業性が向上し、その
結果、作業時間が短縮される。しかも、外部接続用コイ
ル端末線を半田付けするための設備が不要になるので、
設備費が削減される。さらに、外部に露出していた外部
接続用コイル端末線の半田付け部分がなくなるので、ト
ラッキング性が向上する。
According to the above-mentioned embodiment, as the insulating base 17 is mounted on the insulating cover 13, the coil terminals for external connection are connected to the conductive plates 22 of the insulating base 17. For this reason, it is not necessary to solder each coil wire for external connection to the conductive plate 22, so that the assembling workability is improved, and as a result, the work time is shortened. Moreover, since the equipment for soldering the coil terminal wire for external connection is not required,
Equipment costs are reduced. Furthermore, since the soldered portion of the external connection coil terminal wire exposed to the outside is eliminated, the tracking property is improved.

【0044】また、絶縁基台17を絶縁カバー13に装
着することに伴い、絶縁基台17の導電板23にコモン
接続用コイル端末線を接続した。このため、コモン接続
用コイル端末線を撚り合わせる手間,導電板23に半田
付けする手間がなくなるので、組立て作業性が一層向上
し、その結果、作業時間が大幅に短縮される。しかも、
コモン接続用コイル端末線を半田付けするための設備が
不要になるので、設備費の一層の削減が実現される。ま
た、感熱素子27をコモン接続用導電板23の近傍に配
置した。このため、各相のコイル端末線に対応して感熱
素子27を設ける必要がなくなるので、感熱素子27が
共通利用される。
Further, as the insulating base 17 was mounted on the insulating cover 13, the common connection coil terminal wire was connected to the conductive plate 23 of the insulating base 17. Therefore, the labor for twisting the common connection coil terminal wires and the labor for soldering to the conductive plate 23 are eliminated, so that the assembling workability is further improved, and as a result, the work time is greatly shortened. Moreover,
Since the equipment for soldering the common connection coil terminal wire is not required, the equipment cost can be further reduced. Further, the heat sensitive element 27 is arranged near the common connecting conductive plate 23. Therefore, it is not necessary to provide the heat sensitive element 27 corresponding to the coil terminal wires of each phase, and the heat sensitive element 27 is commonly used.

【0045】また、端子20を収容部19内に挿入する
と、端子20の溝部20eがコイル線15の被膜15b
を突き破り、端子20がコイル線15の導電線15aに
接続されるように構成した。このため、コイル線15の
端末部の被膜15bを予め剥がしておく手間がなくなる
ので、組立て作業性がより一層向上する。
When the terminal 20 is inserted into the accommodating portion 19, the groove 20e of the terminal 20 is inserted into the coating 15b of the coil wire 15.
And the terminal 20 is connected to the conductive wire 15a of the coil wire 15. For this reason, it is not necessary to remove the coating film 15b on the end portion of the coil wire 15 in advance, so that the assembling workability is further improved.

【0046】また、各導電板22の接続部22aおよび
導電板23の各接続部23aに逃げ溝22bおよび23
bを形成した。このため、各接続部22aおよび23a
が、コイル線15の端末部を逃げて端子20内に深く挿
入されるようになるので、各接続部22aと端子20と
の重なり部分,各接続部23aと端子20との重なり部
分が増加し、その結果、両者の接触不良が防止される。
Further, the escape grooves 22b and 23 are formed in the connecting portions 22a of the conductive plates 22 and the connecting portions 23a of the conductive plates 23, respectively.
b was formed. Therefore, each connection portion 22a and 23a
However, since the coil wire 15 escapes the terminal portion of the coil wire 15 and is deeply inserted into the terminal 20, the overlapping portion between each connecting portion 22a and the terminal 20 and the overlapping portion between each connecting portion 23a and the terminal 20 increase. As a result, poor contact between the two is prevented.

【0047】また、各逃げ溝22bおよび23bの幅寸
法W2 を、各種コイル線15のうち使用可能な最も太い
ものの外径寸法より大きく設定した。このため、コイル
線15の変更に伴い線径が変わっても、端子20の交換
のみで対応でき、導電部材22および23を交換する必
要がなくなるので、絶縁基台17の共通使用が可能にな
る。
The width W2 of each of the relief grooves 22b and 23b is set to be larger than the outer diameter of the thickest one of the various coil wires 15 that can be used. Therefore, even if the wire diameter changes due to the change of the coil wire 15, it is possible to deal with it only by exchanging the terminal 20, and it is not necessary to exchange the conductive members 22 and 23, so that the insulating base 17 can be commonly used. .

【0048】また、絶縁基台17の各収容部21を絶縁
カバー13の収容部19の外側に嵌合した。このため、
各コイル端末線が収容部21により囲まれるようになる
ので、コイル端末線相互間等の誤接触が防止される。ま
た、絶縁基台17の6つの収容部21を壁部28により
囲み、この壁部28内に感熱素子27を配置した。この
ため、絶縁基台17を絶縁カバー13に装着すると、3
本のコイル端末線が壁部28により囲まれるようにな
る。従って、3本のコイル端末線から発生する熱が壁部
28内にこもり、壁部28の外部へ逃げ難くなるので、
感熱素子27の感度が向上する。
Further, each accommodating portion 21 of the insulating base 17 is fitted to the outside of the accommodating portion 19 of the insulating cover 13. For this reason,
Since each coil terminal wire is surrounded by the housing portion 21, erroneous contact between the coil terminal wires and the like is prevented. Further, the six accommodating portions 21 of the insulating base 17 are surrounded by the wall portion 28, and the heat sensitive element 27 is arranged in the wall portion 28. For this reason, if the insulating base 17 is attached to the insulating cover 13,
The coil end wire of the book is surrounded by the wall portion 28. Therefore, the heat generated from the three coil terminal wires is trapped inside the wall portion 28 and is difficult to escape to the outside of the wall portion 28.
The sensitivity of the heat sensitive element 27 is improved.

【0049】また、絶縁カバー13の内外周部に形成さ
れた取付部16により、絶縁基台17を絶縁カバー13
に保持した。このため、絶縁基台17が絶縁カバー13
に対して縦横へがたつくことが効果的に防止される。ま
た、絶縁カバー13の各取付部16に円周方向から絶縁
基台17の被取付部18を接触させた。このため、絶縁
基台17が絶縁カバー13に対して横方向へがたつくこ
とが防止される。
Further, the insulating base 17 is attached to the insulating cover 13 by the mounting portions 16 formed on the inner and outer peripheral portions of the insulating cover 13.
Held. For this reason, the insulating base 17 has the insulating cover 13
On the other hand, vertical and horizontal rattling is effectively prevented. Further, the attached portions 18 of the insulating base 17 were brought into contact with the respective attaching portions 16 of the insulating cover 13 from the circumferential direction. Therefore, the insulating base 17 is prevented from rattling laterally with respect to the insulating cover 13.

【0050】次に本発明の第2実施例を図12ないし図
20に基づいて説明する。尚、上記第1実施例と同一の
部材については同一の符号を付して説明を省略し、以
下、異なる部材についてのみ説明を行う。まず、図14
において、端子板40は、難燃性(耐トラッキング性)
および強度に優れた合成樹脂(具体的にはポリブチレン
テレフタレート,PBT)を円弧状に射出成形してなる
ものであり、端子板40の周方向中央部には、矩形状を
なす開口部40a,40aが形成されている。
Next, a second embodiment of the present invention will be described with reference to FIGS. The same members as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted. Hereinafter, only different members will be described. First, FIG.
In, the terminal board 40 is flame retardant (tracking resistance)
And a synthetic resin excellent in strength (specifically, polybutylene terephthalate, PBT) is injection-molded in an arc shape, and a rectangular opening 40a is formed in the central portion of the terminal board 40 in the circumferential direction. 40a is formed.

【0051】端子板40の上面には、各開口部40aの
周縁部に位置してコ字状をなす壁部40bが一体形成さ
れており、これら各壁部40bの奥壁は、図15に示す
ように、開口部40aを通して下方へ突出している。そ
して、各壁部40bの奥壁には、先端部に位置して周方
向へ突出する爪部40cが一体形成されている。
On the upper surface of the terminal plate 40, there are integrally formed U-shaped wall portions 40b located at the peripheral portions of the respective opening portions 40a. The inner walls of these wall portions 40b are shown in FIG. As shown, it projects downward through the opening 40a. A claw portion 40c located at the tip end portion and projecting in the circumferential direction is integrally formed on the back wall of each wall portion 40b.

【0052】端子板40の周方向両端部には、図14に
示すように、切欠部40dが形成されている。これら各
切欠部40dは内周側へ開口するものであり、各切欠部
40dの周方向両縁部には、図15に示すように、壁部
40e,40eが一体形成され、両壁部40eの上端部
には壁部40fが一体形成されている。そして、各壁部
40fには、切欠部40dを通して下方へ突出する脚壁
部40gが一体形成されており、これら各脚壁部40g
の先端部には、図14に示すように、外周側へ突出する
爪部40hが一体形成されている。
As shown in FIG. 14, notches 40d are formed at both ends of the terminal plate 40 in the circumferential direction. Each of these notches 40d is open to the inner peripheral side, and wall portions 40e and 40e are integrally formed at both circumferential edges of each notch portion 40d as shown in FIG. A wall 40f is integrally formed on the upper end of the. And each wall 40f is integrally formed with a leg wall 40g protruding downward through the cutout 40d.
As shown in FIG. 14, a claw portion 40h projecting to the outer peripheral side is integrally formed at the tip portion of the.

【0053】端子板40の上面には複数(=6個)の収
容部40iが一体形成されている。これら各収容部40
iは、上面が開口する角筒状をなすものであり、端子板
40の下面には、図15に示すように、各収容部40i
の下側に位置して円柱状の位置決め突部40jが一体形
成されている。
A plurality (= 6) of accommodating portions 40i are integrally formed on the upper surface of the terminal plate 40. Each of these accommodation parts 40
i is in the shape of a rectangular tube having an open upper surface, and the lower surface of the terminal board 40 has each housing 40i as shown in FIG.
A cylindrical positioning protrusion 40j is integrally formed on the lower side.

【0054】一方の絶縁カバー13の連結部13bに
は、図13に示すように、円形状をなす複数(=6個)
の位置決め孔13cと、矩形状をなす複数(=4個)の
係合孔13dとが形成されており、端子板40の各位置
決め突部40jを位置決め孔13c内に挿入し、端子板
40を絶縁カバー13側へ押込むと、端子板40の各爪
部40cおよび40hが係合孔13dの一縁部に下面側
から係合し、図16に示すように、端子板40が絶縁カ
バー13に装着される。尚、絶縁カバー13は、熱に強
い合成樹脂(具体的には、ポリフェニレンサルファイ
ト,PPS)により形成されている。
As shown in FIG. 13, the connecting portion 13b of one insulating cover 13 has a plurality of circular shapes (= 6).
Positioning holes 13c and a plurality of (= 4) engaging holes 13d having a rectangular shape are formed, and each positioning protrusion 40j of the terminal board 40 is inserted into the positioning hole 13c so that the terminal board 40 is When pushed into the side of the insulating cover 13, the claws 40c and 40h of the terminal plate 40 engage with one edge of the engaging hole 13d from the lower surface side, and as shown in FIG. Be attached to. The insulating cover 13 is made of heat-resistant synthetic resin (specifically, polyphenylene sulfite, PPS).

【0055】端子板40の各収容部40iには、図14
に示すように、内外周壁部に位置して溝部40kが形成
されており、所定の収容部40iの両溝部40k内に
は、コイル線15の一端部(外部接続用の端末部)が挿
入され、残りの収容部40iの両溝部40k内には、コ
イル線15の他端部(コモン接続用の端末部)が挿入さ
れている。
Each of the accommodating portions 40i of the terminal board 40 is shown in FIG.
As shown in FIG. 5, the groove 40k is formed at the inner and outer peripheral wall portions, and one end portion (terminal portion for external connection) of the coil wire 15 is inserted into both groove portions 40k of the predetermined accommodation portion 40i. The other end portion (terminal portion for common connection) of the coil wire 15 is inserted into both groove portions 40k of the remaining accommodation portion 40i.

【0056】各収容部40i内には、図12に示すよう
に、端子20が挿入されている。これら各端子20は、
一方の接続部20a(押圧部20cを有するもの)が内
周側へ向い、他方の接続部20bが外周側へ向うように
挿入されたものであり、コイル線15の被膜15bを突
き破って導電線15aに接続されている。
As shown in FIG. 12, the terminal 20 is inserted into each accommodation portion 40i. Each of these terminals 20 is
One connecting portion 20a (having the pressing portion 20c) is inserted so as to face the inner peripheral side, and the other connecting portion 20b is inserted so as to face the outer peripheral side, and the conductive wire is pierced through the coating film 15b of the coil wire 15. It is connected to 15a.

【0057】一方の絶縁カバー13の上面には、図13
に示すように、内周部に位置して2個の係合部41が一
体形成され、外周部に位置して2個の係合部42が一体
形成されている。これら各係合部41および42は、図
12に示すように、脚部41aおよび42aと、爪部4
1bおよび42bとから構成されたものであり、外周側
の各脚部42aは、内周側の脚部41aより厚肉で高さ
寸法が小さく設定され、剛性が大きくなっている。
As shown in FIG.
As shown in, the two engaging portions 41 are integrally formed at the inner peripheral portion, and the two engaging portions 42 are integrally formed at the outer peripheral portion. As shown in FIG. 12, each of the engaging portions 41 and 42 includes a leg portion 41 a and 42 a and a claw portion 4.
Each of the leg portions 42a on the outer peripheral side is thicker than the leg portions 41a on the inner peripheral side, has a smaller height dimension, and has higher rigidity.

【0058】絶縁基台17の下面には、内周部に位置し
て2個の被係合部43が一体形成され(1個のみ図示す
る)、外周部に位置して2個の被係合部44が一体形成
されている(1個のみ図示する)。これら各被係合部4
3および44は、脚部43aおよび44aと、爪部43
bおよび44bとから構成されたものであり、外周側に
位置する各脚部44aは、内周側に位置する脚部43a
より高さ寸法が大きく設定されている。
On the lower surface of the insulating base 17, two engaged parts 43 are integrally formed at the inner peripheral part (only one is shown), and two engaged parts 43 are located at the outer peripheral part. The joining portion 44 is integrally formed (only one is shown). Each of these engaged parts 4
3 and 44 are leg portions 43a and 44a and claw portion 43.
b and 44b, each leg portion 44a located on the outer peripheral side is a leg portion 43a located on the inner peripheral side.
The height dimension is set larger.

【0059】絶縁基台17の下面には、内周部および外
周部に位置して突状の支持部45および46が一体形成
されている。そして、一方の絶縁カバー13の上面に
は、内周部に位置して突状の当て部47が一体形成され
ており、図17に示すように、絶縁基台17の各収容部
21を絶縁カバー13の収容部40iの外側に挿入し、
絶縁基台17を絶縁カバー13側へ押圧すると、図12
に示すように、絶縁基台17の内周側の支持部45およ
び外周側の支持部46が絶縁カバー13の内周側の当て
部47および外周側の脚部42aに当接する。
On the lower surface of the insulating base 17, projecting support portions 45 and 46 are integrally formed at the inner peripheral portion and the outer peripheral portion. A projecting pad portion 47 is integrally formed on the upper surface of one of the insulating covers 13 at the inner peripheral portion, and as shown in FIG. 17, each of the accommodating portions 21 of the insulating base 17 is insulated. Inserted on the outside of the housing portion 40i of the cover 13,
When the insulating base 17 is pressed toward the insulating cover 13 side, as shown in FIG.
As shown in, the inner peripheral side support portion 45 and the outer peripheral side support portion 46 of the insulating base 17 contact the inner peripheral side contact portion 47 and the outer peripheral side leg portion 42a of the insulating cover 13.

【0060】これにより、絶縁基台17が絶縁カバー1
3に対して軸方向に位置決めされ、絶縁基台17の各爪
部43bおよび44bが絶縁カバー13の爪部41bお
よび42bに係合し、絶縁基台17が絶縁カバー13に
装着される。これと共に、各導電板22の接続部22a
および導電板23の各接続部23aが端子20の一方の
接続部20bと押圧部20cとに接続され、しかも、押
圧部20cにより接続部20b側へ押圧される。
As a result, the insulating base 17 becomes the insulating cover 1.
3, the claw portions 43b and 44b of the insulating base 17 are engaged with the claw portions 41b and 42b of the insulating cover 13, and the insulating base 17 is mounted on the insulating cover 13. Along with this, the connection portion 22a of each conductive plate 22
Also, each connecting portion 23a of the conductive plate 23 is connected to one connecting portion 20b of the terminal 20 and the pressing portion 20c, and further, the pressing portion 20c presses the connecting portion 20b side.

【0061】図17〜図20は、絶縁基台17が絶縁カ
バー13に装着される様子を順に示すものである。ここ
で、図17に示す状態から絶縁基台17を押圧すると、
図18に示すように、各導電板22の接続部22aおよ
び導電板23の各接続部23aが端子20の押圧部20
cの傾斜に案内され、外周側(剛性が大きな係合部42
側)へずれ動き、端子20の接続部20bに当接する。
17 to 20 sequentially show how the insulating base 17 is mounted on the insulating cover 13. Here, when the insulating base 17 is pressed from the state shown in FIG. 17,
As shown in FIG. 18, the connecting portion 22 a of each conductive plate 22 and each connecting portion 23 a of the conductive plate 23 are connected to the pressing portion 20 of the terminal 20.
Guided by the inclination of c, the outer peripheral side (the engaging portion 42 having a large rigidity)
And moves to the side) and contacts the connecting portion 20b of the terminal 20.

【0062】次に、図19に示すように、絶縁基台17
の内周側に位置する各爪部43bが絶縁カバー13の内
周側に位置する爪部41bに当接し、各爪部43bから
爪部41bに押圧力が作用するので、絶縁カバー13の
内周側に位置する各脚部41aが外周側へ撓む。する
と、図20に示すように、絶縁基台17の外周側に位置
する各爪部44bが絶縁カバー13の外周側に位置する
爪部42bに当接し、各爪部44bが爪部42bの傾斜
に沿って移動するので、絶縁基台17が絶縁カバー13
に対して外周側へずれ動き、図12に示すように、絶縁
基台17の各爪部43bおよび44bが絶縁カバー13
の爪部41bおよび42bに係合する。
Next, as shown in FIG. 19, the insulating base 17
Since the claw portions 43b located on the inner peripheral side of the abutting contact the claw portions 41b located on the inner peripheral side of the insulating cover 13, and a pressing force acts from the respective claw portions 43b to the claw portion 41b, Each leg portion 41a located on the circumferential side bends to the outer circumferential side. Then, as shown in FIG. 20, each claw portion 44b located on the outer peripheral side of the insulating base 17 abuts on the claw portion 42b located on the outer peripheral side of the insulating cover 13, and each claw portion 44b tilts the claw portion 42b. As it moves along the insulation base 17,
With respect to the outer peripheral side, the claw portions 43b and 44b of the insulating base 17 are moved to the insulating cover 13 as shown in FIG.
Engages with the claw portions 41b and 42b.

【0063】上記実施例によれば、絶縁カバー13の外
周側に位置する各係合部42の剛性を内周側の係合部4
1より大きく設定したので、絶縁基台17を絶縁カバー
13に装着するにあたって、内周側に位置する各係合部
41が主に外周側へ弾性変形する。このため、絶縁基台
17が外周側へずれ動きながら絶縁カバー13に装着さ
れる。
According to the above embodiment, the rigidity of each engaging portion 42 located on the outer peripheral side of the insulating cover 13 is set to the inner peripheral side engaging portion 4.
Since it is set to be larger than 1, when the insulating base 17 is mounted on the insulating cover 13, each engaging portion 41 located on the inner peripheral side is elastically deformed mainly to the outer peripheral side. Therefore, the insulating base 17 is mounted on the insulating cover 13 while moving toward the outer peripheral side.

【0064】このとき、図21に示すように、各端子2
0の接続部20a(押圧部20cを有するもの)が外周
側を向いていると、図22に示すように、各導電板22
の接続部22aおよび導電板23の各接続部23aが押
圧部20cの傾斜に案内され、内周側へずれ動いた後、
外周側へずれ動く。このため、各接続部22aおよび2
3aが押圧部20cの先端部から基端部へ向って移動す
ることになるので、図23に示すように、各押圧部20
cが潰れてしてしまう虞れがある。
At this time, as shown in FIG. 21, each terminal 2
When the connecting portion 20a of 0 (having the pressing portion 20c) faces the outer peripheral side, as shown in FIG.
After the connection portion 22a of the above and each connection portion 23a of the conductive plate 23 are guided by the inclination of the pressing portion 20c and are displaced toward the inner peripheral side,
Moves to the outer circumference. Therefore, each connection portion 22a and 2
Since 3a moves from the tip end portion of the pressing portion 20c toward the base end portion thereof, as shown in FIG.
There is a risk that c may be crushed.

【0065】尚、内周側の係合部41および外周側の係
合部42の剛性を略同一に設定し、絶縁基台17の装着
時に両係合部41および42を弾性変形させる構成を採
用した場合、押圧力の大きさとしては図21〜図23に
示す場合に比べて小さいものの、端子20の向きに拘ら
ず押圧部20cの先端部から基端部に向って押圧力が作
用することになるので、各押圧部20cが潰れてしてし
まう虞れがある。
Incidentally, the rigidity of the inner peripheral side engaging portion 41 and the outer peripheral side engaging portion 42 is set to be substantially the same, and both engaging portions 41 and 42 are elastically deformed when the insulating base 17 is mounted. When adopted, the magnitude of the pressing force is smaller than that shown in FIGS. 21 to 23, but the pressing force acts from the tip end portion to the base end portion of the pressing portion 20c regardless of the orientation of the terminal 20. As a result, each pressing portion 20c may be crushed.

【0066】これに対して本実施例では、各端子20の
接続部20aを剛性が小さな係合部41側(内周側)に
配置し、接続部20bを剛性が大きな係合部42側(外
周側)に配置したので、絶縁基台17の装着時に各接続
部22aおよび23aが押圧部20cの基端部から先端
部へ向って移動するようになる。このため、各接続部2
2aおよび23aから押圧部20cに過大な押圧力が作
用することがなくなるので、押圧部20cが潰れてしま
うことが防止される。
On the other hand, in this embodiment, the connecting portion 20a of each terminal 20 is arranged on the side of the engaging portion 41 (inner peripheral side) having a low rigidity, and the connecting portion 20b is provided on the side of the engaging portion 42 having a large rigidity ( Since they are arranged on the outer peripheral side), when the insulating base 17 is attached, the respective connecting portions 22a and 23a move from the base end portion of the pressing portion 20c toward the tip end portion. Therefore, each connection part 2
Since an excessive pressing force does not act on the pressing portion 20c from 2a and 23a, the pressing portion 20c is prevented from being crushed.

【0067】ところで、上記第1実施例の場合、絶縁カ
バー13が複数の収容部19を有する複雑な形状をなし
ているので、樹脂の流動性に影響が生じ、絶縁カバー1
3を成形し難い事情がある。これを対策するには、成形
性に優れたPPS等を使用することが考えられるが、こ
のPPSは、表面が炭化し易く、トラッキングが生じる
虞れがあるので、絶縁カバー13全体をPPSにより形
成することは困難である。
By the way, in the case of the first embodiment, since the insulating cover 13 has a complicated shape having a plurality of accommodating portions 19, the fluidity of the resin is affected and the insulating cover 1
There are circumstances where it is difficult to mold # 3. As a countermeasure against this, it is conceivable to use PPS or the like having excellent moldability. However, since the surface of PPS is likely to be carbonized and tracking may occur, the entire insulating cover 13 is formed by PPS. Is difficult to do.

【0068】これに対して本実施例では、端子20が装
着される端子板40を耐トラッキング性および強度に優
れたPBTにより形成すると共に、絶縁カバー13を成
形性および耐熱性に優れたPPSにより形成し、端子板
40を絶縁カバー13に別途装着した。このため、耐ト
ラッキング性および強度を確保しつつ、成形性が向上す
る。
On the other hand, in this embodiment, the terminal plate 40 to which the terminal 20 is attached is formed of PBT having excellent tracking resistance and strength, and the insulating cover 13 is made of PPS having excellent moldability and heat resistance. Then, the terminal board 40 was separately attached to the insulating cover 13. Therefore, formability is improved while ensuring tracking resistance and strength.

【0069】尚、上記第2実施例においては、絶縁カバ
ー13の外周側に位置する係合部42の剛性を内周側に
位置する係合部41より大きくしたが、これに限定され
るものではなく、例えば、絶縁基台17の外周側に位置
する被係合部44の剛性を内周側に位置する被係合部4
3より大きくしても良い。この構成の場合でも、絶縁基
台17が装着時に外周側へずれ動くので、各導電板22
の接続部22aおよび導電板23の各接続部23aから
端子20の押圧部20cに過大な押圧力が作用すること
が防止される。
In the second embodiment described above, the rigidity of the engaging portion 42 located on the outer peripheral side of the insulating cover 13 is made larger than that of the engaging portion 41 located on the inner peripheral side, but the present invention is not limited to this. Instead, for example, the rigidity of the engaged portion 44 located on the outer peripheral side of the insulating base 17 is set to the engaged portion 4 located on the inner peripheral side.
It may be larger than 3. Even in the case of this configuration, since the insulating base 17 moves to the outer peripheral side when mounted, each conductive plate 22
It is possible to prevent an excessive pressing force from being exerted on the pressing portion 20c of the terminal 20 from the connecting portion 22a of the above and each connecting portion 23a of the conductive plate 23.

【0070】また、上記第2実施例においては、絶縁カ
バー13の外周側に位置する係合部42の剛性を内周側
に位置する係合部41より大きくしたが、これに限定さ
れるものではなく、例えば、内周側に位置する係合部4
1の剛性を外周側に位置する係合部42より大きくした
り、内周側に位置する被係合部43の剛性を外周側に位
置する被係合部44より大きくしても良い。この構成の
場合、絶縁基台17が装着時に内周側へずれ動くので、
接続部20aが外周側を向くように端子20を収容部4
0iに収容すると良い。
Further, in the second embodiment, the rigidity of the engaging portion 42 located on the outer peripheral side of the insulating cover 13 is made larger than that of the engaging portion 41 located on the inner peripheral side, but the invention is not limited to this. Instead of, for example, the engaging portion 4 located on the inner peripheral side
The rigidity of No. 1 may be larger than that of the engaging portion 42 located on the outer peripheral side, or the rigidity of the engaged portion 43 located on the inner peripheral side may be greater than that of the engaged portion 44 located on the outer peripheral side. In the case of this configuration, since the insulating base 17 moves toward the inner peripheral side when mounted,
The terminal 20 is accommodated in the accommodating portion 4 so that the connecting portion 20a faces the outer peripheral side.
It is good to store it at 0i.

【0071】また、上記第1および第2実施例において
は、感熱素子27をコモン接続用導電板23の近傍に配
置したが、これに限定されるものではなく、例えば、外
部接続用導電板22相互間に配置しても良い。この構成
の場合、欠相運転になった場合でも、感熱素子27が感
度良く反応する利点がある。また、上記第1および第2
実施例においては、脚状の取付部16を絶縁カバー13
に形成し、枠状の被取付部18を絶縁基台17に形成し
たが、これに限定されるものではなく、取付部16を絶
縁基台17に形成し、被取付部18を絶縁カバー13に
形成しても良い。
In the first and second embodiments, the heat sensitive element 27 is arranged near the common connecting conductive plate 23, but the invention is not limited to this. For example, the external connecting conductive plate 22. You may arrange between each other. In the case of this configuration, there is an advantage that the heat-sensitive element 27 reacts with high sensitivity even in the case of the open-phase operation. In addition, the first and second
In the embodiment, the leg-shaped mounting portion 16 is attached to the insulating cover 13.
Although the frame-shaped mounted portion 18 is formed on the insulating base 17, the mounting portion 16 is formed on the insulating base 17 and the mounted portion 18 is formed on the insulating cover 13. It may be formed in.

【0072】また、上記第1および第2実施例において
は、コネクタ部29および38を絶縁基台17に一体形
成したが、これに限定されるものではなく、例えば別体
で形成されたコネクタ部29および38を絶縁基台17
に後付けしても良い。
In the first and second embodiments, the connector parts 29 and 38 are formed integrally with the insulating base 17, but the invention is not limited to this. For example, the connector parts formed separately. Insulating base 17 for 29 and 38
It may be attached later.

【0073】[0073]

【発明の効果】以上の説明から明らかなように、本発明
の回転電機のステータは次の効果を奏する。請求項1記
載の手段によれば、絶縁基台を絶縁体に装着すると、絶
縁基台の導電部材が外部接続用のコイル端末線に接続さ
れる。このため、外部接続用のコイル端末線を導電部材
に半田付けする必要がなくなるので、組立て作業性が向
上する。しかも、外部接続用のコイル端末線を半田付け
するための設備が不要になるので、設備費が削減され
る。さらに、導電部材とコイル端末線との接続部分が外
部に露出しないようになるので、トラッキング性が向上
する。
As is apparent from the above description, the stator of the rotating electric machine according to the present invention has the following effects. According to the means of claim 1, when the insulating base is attached to the insulator, the conductive member of the insulating base is connected to the coil terminal wire for external connection. Therefore, it is not necessary to solder the coil terminal wire for external connection to the conductive member, so that the assembling workability is improved. Moreover, equipment for soldering the coil terminal wire for external connection is not required, so that equipment cost is reduced. Further, since the connecting portion between the conductive member and the coil terminal wire is not exposed to the outside, the tracking property is improved.

【0074】請求項2記載の手段によれば、絶縁基台を
絶縁体に装着すると、絶縁基台の導電部材がコモン接続
用のコイル端末線に接続される。このため、コモン接続
用のコイル端末線を導電部材に半田付けする必要がなく
なるので、組立て作業性が一層向上する。しかも、コモ
ン接続用のコイル端末線を半田付けするための設備が不
要になるので、設備費が削減される。請求項3記載の手
段によれば、感熱素子をコモン接続用の導電部材に近接
配置した。このため、各相のコイル端末線に対応して感
熱素子を設ける必要がなくなるので、感熱素子の共通利
用が可能になる。
According to the second aspect, when the insulating base is mounted on the insulator, the conductive member of the insulating base is connected to the coil terminal wire for common connection. Therefore, it is not necessary to solder the coil terminal wire for common connection to the conductive member, so that the assembling workability is further improved. Moreover, equipment for soldering the coil terminal wire for common connection is not required, so that equipment cost is reduced. According to the third aspect of the invention, the heat sensitive element is arranged close to the conductive member for common connection. For this reason, it is not necessary to provide a heat sensitive element corresponding to the coil terminal wire of each phase, so that the heat sensitive element can be commonly used.

【0075】請求項4記載の手段によれば、端子により
コイル端末線の外被を突き破り、端子をコイル端末線の
芯線に接続した。このため、コイル端末線の外被を予め
剥がしておく手間がなくなるので、組立て作業性が一層
向上する。しかも、コイル端末線用の逃げ溝を導電部材
に形成した。このため、導電部材と端子との接触面積が
増加するので、両者の接触不良が防止される。さらに、
逃げ溝の幅寸法を使用可能な最も太いコイル端末線の外
径寸法より大きく設定した。このため、コイル線の線径
が太くなっても、導電部材を交換する必要がなくなるの
で、絶縁基台の共通使用が可能になる。
According to the fourth aspect of the invention, the jacket of the coil terminal wire is pierced by the terminal and the terminal is connected to the core wire of the coil terminal wire. For this reason, it is not necessary to remove the outer sheath of the coil terminal wire in advance, so that the assembling workability is further improved. Moreover, the escape groove for the coil terminal wire is formed in the conductive member. For this reason, the contact area between the conductive member and the terminal is increased, so contact failure between the both is prevented. further,
The width of the clearance groove is set larger than the outer diameter of the thickest coil terminal wire that can be used. For this reason, even if the wire diameter of the coil wire becomes large, it is not necessary to replace the conductive member, so that the insulating base can be commonly used.

【0076】請求項5記載の手段によれば、各コイル端
末線を壁部により囲んだ。このため、コイル端末線の誤
接触が防止される。請求項6記載の手段によれば、複数
のコイル端末線を壁部により囲み、この壁部内に感熱素
子を配置した。このため、複数のコイル端末線から発生
する熱が壁部の外へ逃げ難くなるので、感熱素子の感度
が向上する。
According to the means described in claim 5, each coil terminal wire is surrounded by the wall portion. Therefore, erroneous contact of the coil terminal wire is prevented. According to the means described in claim 6, the plurality of coil terminal wires are surrounded by the wall portion, and the heat sensitive element is arranged in the wall portion. For this reason, it is difficult for heat generated from the plurality of coil terminal wires to escape to the outside of the wall portion, so that the sensitivity of the thermosensitive element is improved.

【0077】請求項7記載の手段によれば、絶縁基台を
内外周部で保持するようにした。このため、絶縁基台の
絶縁体に対するがたつきが効果的に防止される。請求項
8記載の手段によれば、絶縁基台を絶縁体に装着するた
めの脚部に円周方向から壁部を接触させた。このため、
絶縁基台が絶縁体に対して横方向へがたつくことが防止
される。
According to the means of claim 7, the insulating base is held at the inner and outer peripheral portions. Therefore, rattling of the insulating base with respect to the insulator is effectively prevented. According to the means described in claim 8, the wall portion is brought into contact with the leg portion for mounting the insulating base on the insulator in the circumferential direction. For this reason,
The insulating base is prevented from rattling laterally with respect to the insulator.

【0078】請求項9記載の手段によれば、絶縁体の両
係合部の剛性あるいは絶縁基台の両被係合部の剛性を相
違させると共に、一方の壁部が剛性の小さな係合部ある
いは被係合部側に位置し且つ他方の壁部が剛性の大きな
係合部あるいは被係合部側に位置するように、端子を絶
縁体に装着した。このため、絶縁基台を絶縁体に装着す
るにあたって、絶縁基台と共に導電部材の他端部が押圧
部の基端部から先端部へ向ってずれ動くようになるの
で、導電部材の他端部から押圧部に過大な押圧力が作用
し、押圧部が変形してしまうことが防止される。
According to the means described in claim 9, the rigidity of both engaging portions of the insulator or the engaged portions of the insulating base is made different, and one wall portion has a small rigidity. Alternatively, the terminal is attached to the insulator so that it is located on the side of the engaged portion and the other wall is located on the side of the engaging portion or the engaged portion having high rigidity. Therefore, when the insulating base is mounted on the insulator, the other end of the conductive member moves together with the insulating base from the base end portion of the pressing portion toward the tip end. Therefore, it is possible to prevent the pressing portion from being deformed due to an excessive pressing force acting on the pressing portion.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の一実施例を示すステータの上面図FIG. 1 is a top view of a stator showing an embodiment of the present invention.

【図2】ステータコア,絶縁カバーを示す分解斜視図FIG. 2 is an exploded perspective view showing a stator core and an insulating cover.

【図3】コイル端末線,端子,導電板の接続状態を示す
断面図
FIG. 3 is a cross-sectional view showing a connection state of coil terminal wires, terminals, and conductive plates.

【図4】絶縁カバーの収容部,コイル端末線,端子,導
電板を示す分解斜視図
FIG. 4 is an exploded perspective view showing a housing portion of an insulating cover, a coil terminal wire, a terminal, and a conductive plate.

【図5】コイル端末線,端子,導電板の接続状態を示す
断面図
FIG. 5 is a cross-sectional view showing a connection state of coil terminal wires, terminals, and conductive plates.

【図6】絶縁カバーの上面図FIG. 6 is a top view of an insulating cover.

【図7】絶縁基台の絶縁カバーに対する装着状態を示す
断面図
FIG. 7 is a cross-sectional view showing how the insulating base is attached to the insulating cover.

【図8】絶縁基台を示す下面図(感熱素子,ホール素
子,コンデンサが装着された状態を示す下面図)
FIG. 8 is a bottom view showing an insulating base (a bottom view showing a state in which a heat sensitive element, a hall element, and a capacitor are mounted)

【図9】絶縁基台を示す斜視図(感熱素子,ホール素
子,コンデンサが装着されていない状態を示す斜視図)
FIG. 9 is a perspective view showing an insulating base (a perspective view showing a state in which a heat-sensitive element, a hall element, and a capacitor are not mounted)

【図10】導電板を示す斜視図FIG. 10 is a perspective view showing a conductive plate.

【図11】ホール素子,コンデンサの接続状態を示す電
気回路図
FIG. 11 is an electric circuit diagram showing a connection state of a hall element and a capacitor.

【図12】本発明の第2実施例を示す図(絶縁カバーに
絶縁基台が装着された状態を示す断面図)
FIG. 12 is a view showing a second embodiment of the present invention (a sectional view showing a state where an insulating base is attached to an insulating cover).

【図13】絶縁カバーを示す部分上面図FIG. 13 is a partial top view showing an insulating cover.

【図14】端子板を示す上面図FIG. 14 is a top view showing a terminal board.

【図15】図14のイ−イ線に沿う断面図FIG. 15 is a sectional view taken along the line EE in FIG.

【図16】全体構成を示す断面図FIG. 16 is a sectional view showing the overall configuration.

【図17】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図
FIG. 17 is a view corresponding to FIG. 12 showing a state in which the insulating base is attached to the insulating cover.

【図18】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図
FIG. 18 is a view corresponding to FIG. 12 showing a state in which the insulating base is attached to the insulating cover.

【図19】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図
FIG. 19 is a view corresponding to FIG. 12 showing a state in which the insulating base is attached to the insulating cover.

【図20】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図
FIG. 20 is a view corresponding to FIG. 12 showing a state in which the insulating base is attached to the insulating cover.

【図21】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図(端子の押圧部が導電板の接続部により
圧潰されることを説明する図)
FIG. 21 is a view corresponding to FIG. 12 showing a state where the insulating base is mounted on the insulating cover (a diagram for explaining that the pressing portion of the terminal is crushed by the connecting portion of the conductive plate).

【図22】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図(端子の押圧部が導電板の接続部により
圧潰されることを説明する図)
FIG. 22 is a view corresponding to FIG. 12 showing a state where the insulating base is attached to the insulating cover (a diagram illustrating that the pressing portion of the terminal is crushed by the connecting portion of the conductive plate).

【図23】絶縁カバーに絶縁基台が装着される様子を示
す図12相当図(端子の押圧部が導電板の接続部により
圧潰されることを説明する図)
FIG. 23 is a view corresponding to FIG. 12 showing a state in which the insulating base is mounted on the insulating cover (a diagram for explaining that the pressing portion of the terminal is crushed by the connecting portion of the conductive plate).

【図24】従来例を示す図(ステータの上面図)FIG. 24 is a view showing a conventional example (top view of a stator).

【図25】絶縁体を示す斜視図FIG. 25 is a perspective view showing an insulator.

【図26】コイル端末線,ピン,導電板の接続状態を示
す断面図
FIG. 26 is a sectional view showing a connection state of coil terminal wires, pins, and conductive plates.

【符号の説明】[Explanation of symbols]

11はステータコア、13は絶縁カバー(絶縁体)、1
4はコイル、15aは導電線(芯線)、15bは被膜
(外被)、16は取付部(係合部)、16aおよび16
bは脚部、17は絶縁基台、18は被取付部(被係合
部,壁部)、20は端子、20aおよび20bは接続部
(壁部)、20cは押圧部、21は収容部(壁部)、2
2は導電板(外部接続用導電部材)、22bは逃げ溝、
23は導電板(コモン接続用導電部材)、23bは逃げ
溝、27は感熱素子、28は壁部、29はコネクタ部、
41および42は係合部、43および44は被係合部を
示している。
11 is a stator core, 13 is an insulating cover (insulator), 1
Reference numeral 4 is a coil, 15a is a conductive wire (core wire), 15b is a coating (sheath), 16 is a mounting portion (engaging portion), 16a and 16a.
b is a leg portion, 17 is an insulating base, 18 is a mounted portion (engaged portion, wall portion), 20 is a terminal, 20a and 20b are connection portions (wall portion), 20c is a pressing portion, and 21 is a housing portion. (Wall), 2
2 is a conductive plate (conductive member for external connection), 22b is a relief groove,
23 is a conductive plate (conductive member for common connection), 23b is an escape groove, 27 is a heat sensitive element, 28 is a wall portion, 29 is a connector portion,
Reference numerals 41 and 42 denote engaging portions, and 43 and 44 denote engaged portions.

Claims (9)

【特許請求の範囲】[Claims] 【請求項1】 ステータコアに装着された樹脂製の絶縁
体と、 前記ステータコアに前記絶縁体の上から巻装されたコイ
ルと、 前記絶縁体に装着された樹脂製の絶縁基台と、 この絶縁基台に設けられ、外部回路のコネクタが嵌合さ
れるコネクタ部と、 前記絶縁基台に設けられ、一端部が前記コネクタ部内に
位置する外部接続用の導電部材とを備え、 この導電部材の他端部は、前記絶縁基台を前記絶縁体に
装着することに伴い外部接続用のコイル端末線に接続さ
れることを特徴とする回転電機のステータ。
1. A resin insulator mounted on a stator core, a coil wound on the stator core from above the insulator, a resin insulating base mounted on the insulator, and the insulation. A connector portion provided on the base, into which a connector for an external circuit is fitted, and a conductive member for external connection, which is provided on the insulating base and has one end located inside the connector portion. A stator of a rotary electric machine, wherein the other end is connected to a coil terminal wire for external connection when the insulating base is attached to the insulator.
【請求項2】 絶縁基台には、該絶縁基台を絶縁体に装
着することに伴いコモン接続用のコイル端末線に接続さ
れるコモン接続用の導電部材が設けられていることを特
徴とする請求項1記載の回転電機のステータ。
2. The insulating base is provided with a conductive member for common connection, which is connected to a coil terminal wire for common connection when the insulating base is mounted on an insulator. The stator of a rotating electric machine according to claim 1.
【請求項3】 絶縁基台には感熱素子が設けられ、 この感熱素子は、コモン接続用導電部材の近傍に配置さ
れていることを特徴とする請求項2記載の回転電機のス
テータ。
3. The stator of a rotary electric machine according to claim 2, wherein a heat sensitive element is provided on the insulating base, and the heat sensitive element is arranged in the vicinity of the conductive member for common connection.
【請求項4】 絶縁体に装着されることに伴い、コイル
端末線の外被を突き破って芯線に接続される端子を備
え、 導電部材の他端部は、絶縁基台を絶縁体に装着すること
に伴い前記端子に接続され、 導電部材の他端部には、使用可能な最も太いコイル端末
線の外径寸法より幅広な逃げ溝が形成されていることを
特徴とする請求項1または2記載の回転電機のステー
タ。
4. A terminal, which is connected to a core wire by penetrating an outer jacket of a coil terminal wire when being attached to an insulator, is provided with an insulating base at the other end of the conductive member. Accordingly, an escape groove that is connected to the terminal and is wider than the outer diameter of the thickest coil terminal wire that can be used is formed at the other end of the conductive member. The stator of the rotating electric machine described.
【請求項5】 絶縁基台には、各コイル端末線を囲む壁
部が形成されていることを特徴とする請求項1または2
記載の回転電機のステータ。
5. The insulating base is formed with a wall portion surrounding each coil terminal wire.
The stator of the rotating electric machine according to the above.
【請求項6】 絶縁基台には、複数のコイル端末線を囲
む壁部が形成され、 絶縁基台には、前記壁部内に位置して感熱素子が設けら
れていることを特徴とする請求項1または2記載の回転
電機のステータ。
6. The insulating base is formed with a wall portion surrounding a plurality of coil terminal wires, and the insulating base is provided with a heat sensitive element located inside the wall portion. Item 3. A stator of a rotating electric machine according to Item 1 or 2.
【請求項7】 絶縁体の内周部および外周部には係合部
が形成され、 絶縁基台には、前記各係合部に係合される被係合部が形
成されていることを特徴とする請求項1記載の回転電機
のステータ。
7. An engaging portion is formed on an inner peripheral portion and an outer peripheral portion of the insulator, and an engaged portion engaged with each of the engaging portions is formed on the insulating base. The stator of a rotary electric machine according to claim 1, wherein
【請求項8】 絶縁体および絶縁基台のいずれか一方に
は、絶縁基台を絶縁体に装着するための脚部が形成さ
れ、 他方には、前記脚部に円周方向から接触する壁部が形成
されていることを特徴とする請求項1記載の回転電機の
ステータ。
8. A leg portion for mounting the insulation base to the insulator is formed on one of the insulator and the insulation base, and a wall that contacts the leg from the circumferential direction on the other side. The stator for a rotary electric machine according to claim 1, wherein a portion is formed.
【請求項9】 絶縁体に装着され、コイル端末線に接続
された略コ字状の端子と、 絶縁体の内外周部に形成された係合部と、 絶縁基台の内外周部に形成され、前記絶縁体の各係合部
に係合されることに伴い導電部材の他端部を前記端子に
接続する被係合部とを備え、 前記端子の一方の壁部には、前記導電部材の他端部を他
方の壁部側へ押圧する押圧部が形成され、 前記両係合部あるいは前記両被係合部は剛性が異なり、 前記端子は、一方の壁部が剛性の小さな係合部あるいは
被係合部側に位置し且つ他方の壁部が剛性の大きな係合
部あるいは被係合部側に位置するように、前記絶縁体に
装着されていることを特徴とする請求項1または2記載
の回転電機のステータ。
9. A substantially U-shaped terminal mounted on an insulator and connected to a coil terminal wire, an engaging portion formed on the inner and outer peripheral portions of the insulator, and an inner and outer peripheral portion of the insulating base. And an engaged portion that connects the other end of the conductive member to the terminal as it engages with each of the engaging portions of the insulator, and one wall portion of the terminal has the conductive material. A pressing portion that presses the other end portion of the member toward the other wall portion is formed, the two engaging portions or the both engaged portions have different rigidity, and the terminal has one wall portion having a small rigidity. The insulator is mounted so that it is located on the side of the mating part or the engaged part and the other wall part is located on the side of the engaging part or the engaged part having high rigidity. The stator of the rotating electric machine according to 1 or 2.
JP01905497A 1996-03-19 1997-01-31 Rotating electric machine stator Expired - Lifetime JP3497684B2 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP01905497A JP3497684B2 (en) 1996-03-19 1997-01-31 Rotating electric machine stator
TW086202942U TW342152U (en) 1996-03-19 1997-02-25 Stator of dynamo-electric machine
KR1019970006424A KR100238907B1 (en) 1996-03-19 1997-02-28 Stator of rotator
CN97103065A CN1110883C (en) 1996-03-19 1997-03-19 Stator of rotary motor

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP8-62804 1996-03-19
JP6280496 1996-03-19
JP01905497A JP3497684B2 (en) 1996-03-19 1997-01-31 Rotating electric machine stator

Publications (2)

Publication Number Publication Date
JPH09312948A true JPH09312948A (en) 1997-12-02
JP3497684B2 JP3497684B2 (en) 2004-02-16

Family

ID=26355853

Family Applications (1)

Application Number Title Priority Date Filing Date
JP01905497A Expired - Lifetime JP3497684B2 (en) 1996-03-19 1997-01-31 Rotating electric machine stator

Country Status (4)

Country Link
JP (1) JP3497684B2 (en)
KR (1) KR100238907B1 (en)
CN (1) CN1110883C (en)
TW (1) TW342152U (en)

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Also Published As

Publication number Publication date
TW342152U (en) 1998-10-01
CN1110883C (en) 2003-06-04
JP3497684B2 (en) 2004-02-16
KR100238907B1 (en) 2000-01-15
KR19980069372A (en) 1998-10-26
CN1162213A (en) 1997-10-15

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