JP2010057355A - Molded motor - Google Patents

Molded motor Download PDF

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Publication number
JP2010057355A
JP2010057355A JP2009149978A JP2009149978A JP2010057355A JP 2010057355 A JP2010057355 A JP 2010057355A JP 2009149978 A JP2009149978 A JP 2009149978A JP 2009149978 A JP2009149978 A JP 2009149978A JP 2010057355 A JP2010057355 A JP 2010057355A
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Japan
Prior art keywords
stator
sensor holder
storage portion
resin
molded motor
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JP2009149978A
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JP4684340B2 (en
Inventor
Takuro Hirai
拓朗 平井
Etsuo Nakazawa
悦雄 中澤
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Nidec Shibaura Corp
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Nidec Shibaura Corp
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Priority to JP2009149978A priority Critical patent/JP4684340B2/en
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Priority to CN201010212982.2A priority patent/CN101931302B/en
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Abstract

<P>PROBLEM TO BE SOLVED: To solve the following problem of a large motor used for a washing machine: in installing a position sensor on an end surface of a stator by screwing, screwing can be performed only on the yoke side and mounting strength is not sufficient. <P>SOLUTION: The molded motor, in which the stator 1 of the motor is covered with resin except a tooth tip thereof and the portion covered with resin is cylindrical, is configured so that a protrusion 6 is integrally formed at a resin frame 3 of the stator 1 and the vicinities of both ends in the peripheral direction of a storage portion 13 of a sensor holder 11 are latched by the protrusion 6. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、洗濯機など、比較的大型かつ水気の多い場所で使われ、振動の大きいモータに関するものである。   The present invention relates to a motor that is used in a relatively large and humid place such as a washing machine and has a large vibration.

樹脂部材にて固定子巻線を覆うモールドモータは従来から知られている。(特許文献1参照)   Conventionally, a molded motor that covers a stator winding with a resin member is known. (See Patent Document 1)

上記特許文献のような空調機等に用いられるモールドモータの場合、配線基板を一体に樹脂でモールドしているが、さらに大きいモータ、例えば洗濯機等に用いられる場合、モータと一体に配線基板をモールドすると、モールド時の樹脂圧により配線基板やそれに配置された電子部品が破損する問題がある。また、配線基板の交換が不可となる。   In the case of a molded motor used in an air conditioner or the like as in the above patent document, the wiring board is integrally molded with resin. However, when used in a larger motor, for example, a washing machine, the wiring board is integrated with the motor. When it molds, there exists a problem which a wiring board and the electronic component arrange | positioned to it are damaged by the resin pressure at the time of molding. In addition, the wiring board cannot be replaced.

上記問題を顧みて、位置センサを取り付けた円弧状の配線基板を収納部に嵌め込んでねじによって固定し、ポッティング樹脂にて覆った円弧状のセンサホルダを設け、固定子の一方端面に取り付けられていることが従来から知られている。(特許文献2参照)   In consideration of the above problems, an arc-shaped wiring board with a position sensor attached is fitted into the housing and fixed with screws, and an arc-shaped sensor holder covered with potting resin is provided, and attached to one end surface of the stator. It has been conventionally known. (See Patent Document 2)

また、サーマルプロテクタなどの温度保護素子を巻線付近に配置し、樹脂にて覆ったモータは従来から知られている。(特許文献3参照)   Further, a motor in which a temperature protection element such as a thermal protector is disposed in the vicinity of a winding and covered with a resin has been conventionally known. (See Patent Document 3)

特開2007−295733号公報JP 2007-295733 A 特開2003−88079号公報JP 2003-88079 A 特開平09−9550号公報Japanese Unexamined Patent Publication No. 09-9550

しかしながら、モータの固定子の内周側には回転子が配されるため、前記センサホルダを取り付ける際、内周側にはねじなどで取り付けることができない。そのため、センサホルダは固定子の外周側のみねじ止めされていることになる。しかしながら、洗濯機用モータのように非常に振動の大きい環境で使うモータの場合、外周側片方だけの取り付けではその振動によりセンサホルダが揺れ、位置センサの検出精度が悪くなる、あるいはその振動でセンサホルダが外れる可能性がある。   However, since the rotor is arranged on the inner peripheral side of the stator of the motor, when the sensor holder is attached, it cannot be attached to the inner peripheral side with screws or the like. Therefore, the sensor holder is screwed only on the outer peripheral side of the stator. However, in the case of a motor that is used in an environment where vibration is very large, such as a motor for a washing machine, if only one of the outer peripheral sides is attached, the sensor holder will shake due to the vibration, and the detection accuracy of the position sensor will deteriorate, or the sensor will The holder may come off.

また、洗濯機用モータのように比較的大きいモータであるとモールド圧力が大きく、従来例のようにサーマルプロテクタを樹脂で覆うとモールド圧力により破損する問題がある。また、サーマルプロテクタ接点部にもモールド圧力が掛かり、動作に悪影響を及ぼす可能性がある。そのため、サーマルプロテクタを固定子モールド表面上に配置する必要があるが、上記のように非常に振動の大きいモータで使う場合、規定位置からサーマルプロテクタが動かないような固定が必要となる。   Further, a relatively large motor such as a washing machine motor has a large mold pressure, and if the thermal protector is covered with resin as in the conventional example, there is a problem that the mold pressure is damaged. Further, the mold pressure is also applied to the thermal protector contact portion, which may adversely affect the operation. Therefore, it is necessary to arrange the thermal protector on the surface of the stator mold. However, when using the motor with very large vibration as described above, it is necessary to fix the thermal protector so that it does not move from the specified position.

しかしながら、固定子モールド上にサーマルプロテクタを固定するための構造を形成するためには固定子モールド用金型が複雑化し、高価となる。そのため、サーマルプロテクタ専用の部品を設ける必要があり、この場合でもコストアップとなる。   However, in order to form a structure for fixing the thermal protector on the stator mold, the stator mold is complicated and expensive. Therefore, it is necessary to provide a dedicated part for the thermal protector, which increases the cost even in this case.

本発明は、前記従来の問題を顧みて、振動の大きいモータにおいてもセンサホルダを確実に保持することができ、取付強度を高めた構成を提供し、また各種センサ類用にホルダーを必要としない安価かつ簡易な構成を提供することものである。   In view of the above-described conventional problems, the present invention can reliably hold a sensor holder even in a motor with large vibration, provides a configuration with increased mounting strength, and does not require a holder for various sensors. It is intended to provide an inexpensive and simple configuration.

請求項1の発明は、略円形に形成された固定子と、回転子の回転位置を検出するための位置センサを配した配線基板と、前記配線基板を収納する収納部と、前記固定子に取り付けるための胴部とよりなり、該収納部の周方向の長さが該胴部の周方向の長さより長く、前記収納部が前記胴部より軸方向内側に配するように一体に円弧状に形成されたセンサホルダと、を備え、前記固定子の一部分あるいは全体が樹脂で覆われたモールドモータにおいて、前記固定子の内周側に複数の突起が樹脂で一体に形成され、前記センサホルダの収納部の周方向両端近傍を前記突起にて係止することを特徴とするモールドモータを提供する。   According to the first aspect of the present invention, there is provided a substantially circular stator, a wiring board provided with a position sensor for detecting the rotational position of the rotor, a storage portion for storing the wiring board, and the stator. It is composed of a body part for mounting, and the length of the storage part in the circumferential direction is longer than the length of the body part in the circumferential direction, and the storage part is arranged in an arc shape so as to be arranged inward in the axial direction from the body part. A molded motor in which a part or the whole of the stator is covered with resin, and a plurality of protrusions are integrally formed on the inner peripheral side of the stator, and the sensor holder A molded motor is provided in which the vicinity of both ends in the circumferential direction of the storage portion is locked by the protrusion.

請求項2の発明は、略円形に形成された固定子と、回転子の回転位置を検出するための位置センサを配した配線基板と、前記配線基板を収納する収納部と、前記固定子に取り付けるための胴部とよりなり、該収納部の周方向の長さが該胴部の周方向の長さより長く、前記収納部が前記胴部より軸方向内側に配するように一体に円弧状に形成されたセンサホルダと、を備え、前記固定子の一部分あるいは全体が樹脂で覆われたモールドモータにおいて、前記固定子の内周側および外周側に複数の突起が樹脂で一体に形成され、前記センサホルダの外周側に嵌合部を設けて前記外周側突起と嵌合し、前記センサホルダの収納部の周方向両端近傍を前記内周側突起にて係止することを特徴とするモールドモータを提供する。   According to a second aspect of the present invention, there is provided a stator formed in a substantially circular shape, a wiring board provided with a position sensor for detecting a rotational position of the rotor, a storage portion for storing the wiring board, and the stator. It is composed of a body part for mounting, and the length of the storage part in the circumferential direction is longer than the length of the body part in the circumferential direction, and the storage part is arranged in an arc shape so as to be arranged inward in the axial direction from the body part. A molded motor in which a part or the whole of the stator is covered with resin, and a plurality of protrusions are integrally formed with resin on the inner peripheral side and outer peripheral side of the stator, A mold characterized in that a fitting portion is provided on the outer peripheral side of the sensor holder to fit with the outer peripheral projection, and the vicinity of both ends in the circumferential direction of the storage portion of the sensor holder is locked by the inner peripheral projection. Provide a motor.

請求項3の発明は、前記固定子内周側の縁に凹部を形成し、一方、前記収納部において該固定子内周側と接する部分に凸部が形成され、該凹部と突部とが係合することを特徴とする請求項1又は2記載のモールドモータを提供する。   According to a third aspect of the present invention, a concave portion is formed at an edge on the inner peripheral side of the stator, while a convex portion is formed at a portion of the storage portion that contacts the inner peripheral side of the stator. The molded motor according to claim 1, wherein the molded motor is engaged.

請求項4の発明は、前記センサホルダの胴部には、温度保護素子本体を収納するための素子収納部と、この温度保護素子のリード線を係止めするための複数のリード線係止部と、が設けられたことを特徴とする請求項1乃至3記載のモールドモータを提供する。   According to a fourth aspect of the present invention, in the body portion of the sensor holder, an element storage portion for storing the temperature protection element main body and a plurality of lead wire locking portions for locking the lead wires of the temperature protection element And a molded motor according to any one of claims 1 to 3.

請求項5の発明は、前記素子収納部は、弾性力を有するように形成されたガイドが形成され、前記温度保護素子を押さえるための突起がガイドに複数個形成され、底部が開口していることを特徴とする請求項4のモールドモータを提供する。   According to a fifth aspect of the present invention, the element housing portion is formed with a guide formed to have an elastic force, a plurality of protrusions for pressing the temperature protection element are formed on the guide, and a bottom portion is opened. The molded motor according to claim 4 is provided.

請求項6の発明は、前記センサホルダの胴部には、バンド等を通す孔を設けたことを特徴とする請求項1乃至5記載のモールドモータを提供する。   A sixth aspect of the present invention provides the molded motor according to any one of the first to fifth aspects, wherein a hole for passing a band or the like is provided in the body portion of the sensor holder.

請求項1の構成であると、ねじ穴あるいは嵌合部を設けることができない固定子の内周側に突起を形成することで、センサホルダを係止し保持することができるため、センサホルダの取付強度を高めることができる。特に洗濯機用モータのように振動の大きい用途で使うモータにおいて好適である。   With the configuration of claim 1, the sensor holder can be locked and held by forming the protrusion on the inner peripheral side of the stator where the screw hole or the fitting portion cannot be provided. Mounting strength can be increased. In particular, it is suitable for motors used in applications with large vibrations such as motors for washing machines.

請求項2の構成であると、従来のようにねじ止めで固定するよりも容易に固定でき、また、ねじを必要としないため安価なモータを提供することができる。   With the configuration of the second aspect, it is possible to fix the motor more easily than fixing by screwing as in the prior art, and it is possible to provide an inexpensive motor because no screw is required.

請求項3の構成であると、より確実にセンサホルダを保持することができ、特にセンサホルダの周方向へのずれに対して強固なものとなる。   With the configuration of the third aspect, the sensor holder can be held more reliably, and in particular, the sensor holder is strong against the displacement of the sensor holder in the circumferential direction.

請求項4の構成であると、固定子を樹脂で覆うモールドモータで、大型かつ振動の大きいモータにでも、モールド金型を複雑化せず、各種センサ用のホルダーを必要としないため、安価なモータを提供することができる。   The structure of claim 4 is a molded motor that covers the stator with resin, and does not complicate the mold and does not require a holder for various sensors even in a large motor with a large vibration, and is inexpensive. A motor can be provided.

請求項5の構成であると、温度保護素子を確実に収納することができ、また、固定子の温度検知においても精度良く検知することができる。   According to the fifth aspect of the present invention, the temperature protection element can be securely stored, and the temperature of the stator can be detected with high accuracy.

請求項6の構成であると、配線基板に接続されたリード線をセンサホルダに固定することができるためリード線の取り回しが良く、バンドを用いた固定であるため簡易かつ安価な構成である。   According to the configuration of the sixth aspect, since the lead wire connected to the wiring board can be fixed to the sensor holder, the lead wire is easy to handle, and since it is fixed using a band, the configuration is simple and inexpensive.

実施例1のセンサホルダを取り付けた固定子の平面図The top view of the stator which attached the sensor holder of Example 1 実施例1のセンサホルダの平面図The top view of the sensor holder of Example 1 実施例1のセンサホルダの裏面の斜視図The perspective view of the back surface of the sensor holder of Example 1 実施例1のセンサホルダを外した固定子の平面図Top view of the stator with the sensor holder of Example 1 removed 実施例1のセンサホルダを取り付けた固定子の斜視図The perspective view of the stator which attached the sensor holder of Example 1 実施例2のセンサホルダの平面図The top view of the sensor holder of Example 2 実施例2のセンサホルダを外した固定子の平面図The top view of the stator which removed the sensor holder of Example 2

本発明の実施例について、図1〜7を用いて説明する。   An embodiment of the present invention will be described with reference to FIGS.

本発明の固定子1は、リング状に形成されたヨークに、内周方向に向かってティースが形成された抜板を積層し、このティース間のスロット壁には絶縁性樹脂でインサート成形され、この絶縁されたスロットに巻線を巻装したものから構成されている(図示せず)。   The stator 1 according to the present invention has a yoke formed in a ring shape and a laminated plate in which teeth are formed in the inner circumferential direction. The slot wall between the teeth is insert-molded with an insulating resin, The insulated slot is constituted by winding a winding (not shown).

図1より、前記固定子1は、樹脂性のフレーム2に覆われて、一体に形成される。その形状はドーナツ型であり、その内周側には回転子(図示せず)が収められる。この固定子1の外周側には、ブラケット(図示せず)へ取り付けるためのフランジ3が樹脂フレーム2と一体に形成され、ねじを取り付けるための取付用孔4がフランジ3に形成されている。   As shown in FIG. 1, the stator 1 is covered with a resin frame 2 and formed integrally. Its shape is a donut shape, and a rotor (not shown) is housed on the inner peripheral side. On the outer peripheral side of the stator 1, a flange 3 for mounting to a bracket (not shown) is formed integrally with the resin frame 2, and a mounting hole 4 for mounting a screw is formed in the flange 3.

以後の形態は固定子1を樹脂で全て覆ったもので説明するが、樹脂で覆う部分が巻線部分のみで覆ったものでも良い。   In the following description, the stator 1 is entirely covered with resin, but the portion covered with resin may be covered only with the winding portion.

(センサホルダの形状)
図2より、センサホルダ11は、配線基板12を収納する収納部13と、固定子1に取り付けるための胴部14からなり、固定子1の形状に合わせて円弧状に形成されている。この収納部13は胴部14の内周側に配され、収納部13の周方向の長さは、胴部14の周方向の長さより長く形成されている。
(Shape of sensor holder)
As shown in FIG. 2, the sensor holder 11 includes a storage portion 13 that stores the wiring board 12 and a body portion 14 that is attached to the stator 1, and is formed in an arc shape according to the shape of the stator 1. The storage portion 13 is disposed on the inner peripheral side of the trunk portion 14, and the circumferential length of the storage portion 13 is longer than the circumferential length of the trunk portion 14.

前記収納部13には、位置センサ15を配し、収納部13の形状に合わせた配線基板12が収納されている。収納された配線基板12はねじ止めされて固定されるとともに、収納部13内をポッティング樹脂で覆うことにより配線基板12及び位置センサ15を保護している。   The storage unit 13 is provided with a position sensor 15 and stores a wiring board 12 that matches the shape of the storage unit 13. The stored wiring board 12 is fixed by screwing, and the wiring board 12 and the position sensor 15 are protected by covering the inside of the storage portion 13 with a potting resin.

図3より、前記収納部13の外周面は、固定子1の内周面と接するが、この外周面に突部16が複数個形成される。   From FIG. 3, the outer peripheral surface of the storage portion 13 is in contact with the inner peripheral surface of the stator 1, and a plurality of protrusions 16 are formed on the outer peripheral surface.

センサホルダ11の外周側は、特許文献1の構成のように、固定子にねじ止めするように形成しても良いが、本発明のように、センサホルダ11の胴部14から下方向に嵌合部17を設け、後述するように固定子1の外周側に嵌合するようになっている。この嵌合部17の厚さを1mm〜2mmぐらいにすればある程度の弾性力を得ることができるため、取り付けがより容易になる。   The outer peripheral side of the sensor holder 11 may be formed so as to be screwed to the stator as in the configuration of Patent Document 1, but is fitted downward from the body portion 14 of the sensor holder 11 as in the present invention. A joint portion 17 is provided and is fitted to the outer peripheral side of the stator 1 as will be described later. If the thickness of the fitting portion 17 is about 1 mm to 2 mm, a certain degree of elastic force can be obtained, so that the attachment becomes easier.

(本発明の固定子の形状)
図4より、固定子1は、樹脂性のフレーム2でティース先端を除いて、全体を覆われている。固定子1の平面側には、センサホルダ11が取り付けやすいように平らに形成された取付部5が設けられる。この取付部5の固定子内周側には2つの突起6が樹脂フレーム2と一体に形成され、この2つの突起6の間隔は前記センサホルダ11の両幅に合わせて設けられる。この突起6の下面は平らに形成されている。
(Shape of the stator of the present invention)
As shown in FIG. 4, the stator 1 is entirely covered with a resinous frame 2 except for the tip of the teeth. On the plane side of the stator 1, a mounting portion 5 formed flat so that the sensor holder 11 can be easily mounted is provided. Two protrusions 6 are formed integrally with the resin frame 2 on the inner peripheral side of the stator of the mounting portion 5, and the distance between the two protrusions 6 is provided in accordance with both widths of the sensor holder 11. The lower surface of the protrusion 6 is formed flat.

また、前記2つの突起6の間には四角形状の凹部7が複数個形成され、固定子1の外周側には2つの凸部8が樹脂フレーム2と一体に形成されている。   A plurality of rectangular recesses 7 are formed between the two protrusions 6, and two protrusions 8 are formed integrally with the resin frame 2 on the outer peripheral side of the stator 1.

(本発明のセンサホルダの取付方法)
まず、前記センサホルダ11の収納部13を下にして傾けながら、前記突起6の下方に収納部13が収まるように配置する。そして、胴部14を固定子1の樹脂フレーム2に被さるように配置し、固定子外周部の凸部8に前記嵌合部17を嵌合させる。図5は、センサホルダ11を固定子1に装着した図である。
(Mounting method of the sensor holder of the present invention)
First, the storage portion 13 of the sensor holder 11 is tilted downward so that the storage portion 13 is placed below the protrusion 6. And the trunk | drum 14 is arrange | positioned so that the resin frame 2 of the stator 1 may be covered, and the said fitting part 17 is fitted to the convex part 8 of a stator outer peripheral part. FIG. 5 is a diagram in which the sensor holder 11 is mounted on the stator 1.

これにより、センサホルダ11の収納部13の両端は突起6によって上方を係止され、収納部13の外周面側は突部16が凹部7に嵌合され、内周側は固定される。一方、外周側は固定子外周部の凸部8に前記嵌合部17を嵌合される。これにより、センサホルダ11の内周側、外周側は確実に固定され、振動に対して外れにくい構成となる。   As a result, both ends of the storage portion 13 of the sensor holder 11 are locked upward by the protrusions 6, the protrusion 16 is fitted into the recess 7 on the outer peripheral surface side of the storage portion 13, and the inner peripheral side is fixed. On the other hand, on the outer peripheral side, the fitting portion 17 is fitted to the convex portion 8 on the outer peripheral portion of the stator. Thereby, the inner peripheral side and the outer peripheral side of the sensor holder 11 are securely fixed and are configured not to easily come off against vibration.

また、センサホルダ11を取り外す際には、センサホルダ11を少し斜めに起こすことで、固定子1からセンサホルダ11を容易に外すことができ、交換が必要なった時の着脱が容易である。   Further, when removing the sensor holder 11, the sensor holder 11 can be easily detached from the stator 1 by raising the sensor holder 11 slightly obliquely, and can be easily attached and detached when replacement is necessary.

図6のように、センサホルダ11には固定子1の温度を検知し、固定子1の温度異常から保護するための温度保護素子21が取り付けられている。そして、温度保護素子21を保持するために、素子収納部22が形成されている。   As shown in FIG. 6, the sensor holder 11 is provided with a temperature protection element 21 for detecting the temperature of the stator 1 and protecting it from a temperature abnormality of the stator 1. An element housing portion 22 is formed to hold the temperature protection element 21.

この素子収納部22はセンサホルダ11の胴部14に開口しており、その開口部にはガイド23が形成されている。このガイド23の厚さは1mm程度の厚さにすることで弾性力が得られ、温度保護素子21の保持力が得られることになる。また、このガイド23の底部は開口しており、固定子からの熱を確実に検知することができる。さらに、ガイド23の側壁には突出部24が複数形成され、温度保護素子21の上側を押さえるようにしている。   The element housing portion 22 is opened in the body portion 14 of the sensor holder 11, and a guide 23 is formed in the opening portion. By making the thickness of the guide 23 about 1 mm, an elastic force is obtained, and a holding force of the temperature protection element 21 is obtained. Further, the bottom of the guide 23 is open, so that the heat from the stator can be reliably detected. Further, a plurality of protrusions 24 are formed on the side wall of the guide 23 so as to press the upper side of the temperature protection element 21.

また、素子収納部22の付近には温度保護素子21のリード線を係止めするためのリード線係止部25が複数形成されている。このリード線係止部25が複数個形成されることで多種のリード線の長さに対応することができる。   In addition, a plurality of lead wire locking portions 25 for locking the lead wires of the temperature protection element 21 are formed in the vicinity of the element housing portion 22. By forming a plurality of the lead wire locking portions 25, various lead wire lengths can be accommodated.

さらに、センサホルダ11には外部に接続するためのリード線26が配線基板12に接続されている。このリード線26をセンサホルダ11の胴部14で保持するためにリード線保持部27が設けられている。   Furthermore, a lead wire 26 for connecting to the outside is connected to the wiring board 12 in the sensor holder 11. In order to hold the lead wire 26 by the body portion 14 of the sensor holder 11, a lead wire holding portion 27 is provided.

リード線保持部27はセンサホルダ11の胴部14に溝を形成しリード線26を這わせ、センサホルダ11に一体に形成されたリード線押さえ28により上方向への移動に対して押さえられる。   The lead wire holding portion 27 forms a groove in the body portion 14 of the sensor holder 11 to hold the lead wire 26 and is pressed against the upward movement by a lead wire presser 28 formed integrally with the sensor holder 11.

さらに、リード線26はバンド29を用いてセンサホルダ11に保持される。センサホルダ11にはバンド29が挿通するためのバンド挿通孔30が形成されている。   Further, the lead wire 26 is held by the sensor holder 11 using a band 29. A band insertion hole 30 for inserting the band 29 is formed in the sensor holder 11.

図7のように、固定子1には、前記素子収納部22やバンド挿通孔30より若干大きめの穴9,10が形成されており、センサホルダ11の胴部14より下方向へ窪んだ各々の収納箇所を嵌合するように形成されている。   As shown in FIG. 7, holes 9 and 10 that are slightly larger than the element housing portion 22 and the band insertion hole 30 are formed in the stator 1, and are recessed downward from the body portion 14 of the sensor holder 11. It is formed so as to fit the storage portion.

実施例のモータは、洗濯機の駆動用モータ、特にダイレクトドライブ方式に用いられる。しかし、防水性が要求される、例えば空調機の室外機用のモータにも用いることができる。   The motor of the embodiment is used for a driving motor for a washing machine, particularly a direct drive system. However, it can also be used in motors for outdoor units of air conditioners, for example, where waterproofness is required.

1 固定子
2 樹脂フレーム
3 フランジ
4 取付用孔
5 取付部
6 突起
7 凹部
8 凸部
9,10 穴
11 センサホルダ
12 配線基板
13 収納部
14 胴部
15 位置センサ
16 突部
17 嵌合部
21 温度保護素子
22 素子収納部
23 ガイド
24 突出部
25 リード線係止部
26 リード線
27 リード線保持部
28 リード押さえ
29 バンド
30 バンド挿通孔
DESCRIPTION OF SYMBOLS 1 Stator 2 Resin frame 3 Flange 4 Mounting hole 5 Mounting part 6 Protrusion 7 Concave part 8 Convex part 9, 10 Hole 11 Sensor holder 12 Wiring board 13 Storage part 14 Trunk part 15 Position sensor 16 Protrusion part 17 Fitting part 21 Temperature Protective element 22 Element storage portion 23 Guide 24 Projection portion 25 Lead wire locking portion 26 Lead wire 27 Lead wire holding portion 28 Lead retainer 29 Band 30 Band insertion hole

Claims (6)

略円形に形成された固定子と、
回転子の回転位置を検出するための位置センサを配した配線基板と、
前記配線基板を収納する収納部と、前記固定子に取り付けるための胴部とよりなり、該収納部の周方向の長さが該胴部の周方向の長さより長く、前記収納部が前記胴部より軸方向内側に配するように一体に円弧状に形成されたセンサホルダと、
を備え、
前記固定子の一部分あるいは全体が樹脂で覆われたモールドモータにおいて、
前記固定子の内周側に複数の突起が樹脂で一体に形成され、
前記センサホルダの収納部の周方向両端近傍を前記突起にて係止することを特徴とするモールドモータ。
A stator formed in a substantially circular shape;
A wiring board provided with a position sensor for detecting the rotational position of the rotor;
The storage portion for storing the wiring board and a trunk portion to be attached to the stator, wherein the circumferential length of the storage portion is longer than the circumferential length of the trunk portion, and the storage portion is the trunk portion. A sensor holder integrally formed in an arc shape so as to be arranged on the inner side in the axial direction from the portion;
With
In a molded motor in which a part or the whole of the stator is covered with resin,
A plurality of protrusions are integrally formed of resin on the inner peripheral side of the stator,
A mold motor characterized in that the vicinity of both ends in the circumferential direction of the storage portion of the sensor holder is locked by the protrusion.
略円形に形成された固定子と、
回転子の回転位置を検出するための位置センサを配した配線基板と、
前記配線基板を収納する収納部と、前記固定子に取り付けるための胴部とよりなり、該収納部の周方向の長さが該胴部の周方向の長さより長く、前記収納部が前記胴部より軸方向内側に配するように一体に円弧状に形成されたセンサホルダと、
を備え、
前記固定子の一部分あるいは全体が樹脂で覆われたモールドモータにおいて、
前記固定子の内周側および外周側に複数の突起が樹脂で一体に形成され、
前記センサホルダの外周側に嵌合部を設けて前記外周側突起と嵌合し、
前記センサホルダの収納部の周方向両端近傍を前記内周側突起にて係止することを特徴とするモールドモータ。
A stator formed in a substantially circular shape;
A wiring board provided with a position sensor for detecting the rotational position of the rotor;
The storage portion for storing the wiring board and a trunk portion for attaching to the stator, wherein the circumferential length of the storage portion is longer than the circumferential length of the trunk portion, and the storage portion is the trunk portion. A sensor holder integrally formed in an arc shape so as to be arranged on the inner side in the axial direction from the portion;
With
In a molded motor in which a part or the whole of the stator is covered with resin,
A plurality of protrusions are integrally formed of resin on the inner peripheral side and the outer peripheral side of the stator,
A fitting portion is provided on the outer circumferential side of the sensor holder to fit the outer circumferential projection,
A molded motor characterized in that the vicinity of both ends in the circumferential direction of the storage portion of the sensor holder is locked by the inner peripheral projection.
前記固定子内周側の縁に凹部を形成し、
一方、前記収納部において該固定子内周側と接する部分に凸部が形成され、
該凹部と突部とが係合することを特徴とする請求項1又は2記載のモールドモータ。
Forming a recess in the inner peripheral edge of the stator,
On the other hand, a convex part is formed in a portion in contact with the inner peripheral side of the stator in the storage part,
The molded motor according to claim 1, wherein the recess and the protrusion are engaged with each other.
前記センサホルダの胴部には、温度保護素子本体を収納するための素子収納部と、この温度保護素子のリード線を係止めするための複数のリード線係止部と、が設けられたことを特徴とする請求項1乃至3記載のモールドモータ。
The body portion of the sensor holder is provided with an element storage portion for storing the temperature protection element body and a plurality of lead wire locking portions for locking the lead wires of the temperature protection element. The molded motor according to any one of claims 1 to 3.
前記素子収納部は、弾性力を有するように形成されたガイドが形成され、前記温度保護素子を押さえるための突起がガイドに複数個形成され、底部が開口していることを特徴とする請求項4のモールドモータ。
The element storage portion includes a guide formed to have elasticity, a plurality of protrusions for pressing the temperature protection element are formed on the guide, and a bottom portion is opened. 4 Molded motor.
前記センサホルダの胴部には、バンド等を通す孔を設けたことを特徴とする請求項1乃至5記載のモールドモータ。

6. The molded motor according to claim 1, wherein a hole for passing a band or the like is provided in the body portion of the sensor holder.

JP2009149978A 2008-07-28 2009-06-24 Molded motor Expired - Fee Related JP4684340B2 (en)

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WO2012080779A1 (en) * 2010-12-17 2012-06-21 Aktiebolaget Skf Rotation detection set, bearing assembly including such a rotation detection set and apparatus equipped with such a bearing assembly
JP2015046995A (en) * 2013-08-28 2015-03-12 三菱電機株式会社 Dc brushless motor and method of manufacturing dc brushless motor
JP2015530068A (en) * 2012-09-17 2015-10-08 ピアーブルグ パンプ テクノロジー ゲゼルシャフト ミット ベシュレンクテル ハフツングPierburg Pump Technology GmbH Split case or canned electric coolant pump
JP2016525338A (en) * 2013-07-23 2016-08-22 ツェットエフ、フリードリッヒスハーフェン、アクチエンゲゼルシャフトZf Friedrichshafen Ag Electric machine
WO2020175349A1 (en) * 2019-02-28 2020-09-03 株式会社明電舎 Attachment structure for temperature detection element of rotating electric machine

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JP2003088079A (en) * 2001-09-14 2003-03-20 Nidec Shibaura Corp Printed circuit substrate for positional sensor
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2012080779A1 (en) * 2010-12-17 2012-06-21 Aktiebolaget Skf Rotation detection set, bearing assembly including such a rotation detection set and apparatus equipped with such a bearing assembly
JP2015530068A (en) * 2012-09-17 2015-10-08 ピアーブルグ パンプ テクノロジー ゲゼルシャフト ミット ベシュレンクテル ハフツングPierburg Pump Technology GmbH Split case or canned electric coolant pump
JP2016525338A (en) * 2013-07-23 2016-08-22 ツェットエフ、フリードリッヒスハーフェン、アクチエンゲゼルシャフトZf Friedrichshafen Ag Electric machine
JP2015046995A (en) * 2013-08-28 2015-03-12 三菱電機株式会社 Dc brushless motor and method of manufacturing dc brushless motor
WO2020175349A1 (en) * 2019-02-28 2020-09-03 株式会社明電舎 Attachment structure for temperature detection element of rotating electric machine

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