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JP2008148448A - Stator core, method for manufacturing stator core, and stator - Google Patents

Stator core, method for manufacturing stator core, and stator Download PDF

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Publication number
JP2008148448A
JP2008148448A JP2006332950A JP2006332950A JP2008148448A JP 2008148448 A JP2008148448 A JP 2008148448A JP 2006332950 A JP2006332950 A JP 2006332950A JP 2006332950 A JP2006332950 A JP 2006332950A JP 2008148448 A JP2008148448 A JP 2008148448A
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Prior art keywords
stator core
stator
teeth
inner peripheral
insulating member
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JP4680875B2 (en
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Sachiko Kawasaki
祥子 川崎
Atsushi Matsuoka
篤 松岡
Yoshio Takita
芳雄 滝田
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To integrally mold a stator core having a plurality of teeth or join divided core pieces by a simple method, and to form an oriented magnetic field and thereby ensure motor characteristics for the ease of wire winding and the reduction of vibration and noise. <P>SOLUTION: The stator core 1 is a stator core 1 for an inner rotor-type motor in which a rotor is disposed on the inner radius side. The stator core includes: a plurality of teeth 1a extended in the radial direction; a thin portion 1b that connects inner radius portions of the teeth 1a and integrates the teeth; and openings 1c formed in the outer radius portions of the areas between the teeth 1a. The stator core is molded of a kneaded material of soft magnetic powder and resin. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

この発明は、インナーロータ型モータに係り、ステータコアが外周部に開口部を有するものに関する。   The present invention relates to an inner rotor type motor, and relates to a stator core having an opening in an outer peripheral portion.

「課題」が、従来のステータコアに比べて磁気抵抗が小さくかつばらつかないステータコア及びそのようなステータコアを備えたモータを提供することであり、「解決手段」が、磁性粉体と絶縁材料との複合材料は、磁性体でありかつ絶縁体であるので、積層構造にしなくても渦電流損を抑えた磁気回路を構成することができる。そして、本発明のコアピースは、複合材料の一体物であるから、コアピース同士の接合面の平面度を、従来の積層構造のものに比べて高くすることができる。これにより、本発明のステータコアでは、従来のものに比べて磁気抵抗及び磁気抵抗のばらつきが共に小さくなり、このようなステータコアを備えたモータは、従来のモータに比べて、出力トルクが大きくなり、コギングトルクを抑えることができるという、ステータコアが提案されている(例えば、特許文献1参照)。
特開2004−40871号公報
“Problem” is to provide a stator core that has a smaller magnetic resistance and does not vary compared to a conventional stator core, and a motor including such a stator core. Since the composite material is a magnetic body and an insulator, a magnetic circuit in which eddy current loss is suppressed can be configured without a laminated structure. And since the core piece of this invention is an integral body of a composite material, the flatness of the joint surface of core pieces can be made high compared with the thing of the conventional laminated structure. Thereby, in the stator core of the present invention, both the magnetic resistance and the variation of the magnetic resistance are smaller than the conventional one, and the motor provided with such a stator core has a larger output torque than the conventional motor, A stator core that can reduce cogging torque has been proposed (see, for example, Patent Document 1).
JP 2004-40871 A

しかしながら、前記特許文献1のステータコアは、複数のコアピースに分割されているため、後からそれらを結合する必要があり、組立工程が多くなっていた。また、環状に結合した際の真円度等の寸法精度や、結合部での磁気特性の低下の恐れなどがあった。   However, since the stator core of Patent Document 1 is divided into a plurality of core pieces, it is necessary to combine them later, and the assembly process is increased. In addition, there is a risk of dimensional accuracy such as roundness when coupled in an annular shape, and a decrease in magnetic characteristics at the coupled portion.

前記特許文献1は、結合部の平面度が高いため、磁気特性のばらつきが抑えられることを特徴としているが、結合部の微小なギャップは避けられず、鉄粉と絶縁部材との複合材料によって形成されるコアであれば、積層鋼板より磁気特性が低くなるため、ギャップによる磁気特性の低下は更に拡大される。   Patent Document 1 is characterized in that since the flatness of the coupling portion is high, variation in magnetic properties is suppressed, but a minute gap in the coupling portion is inevitable, and a composite material of iron powder and an insulating member is used. If the core is formed, the magnetic property is lower than that of the laminated steel plate, and therefore the deterioration of the magnetic property due to the gap is further expanded.

さらに、前記特許文献1のステータコアは、各分割コアに巻線を巻回後に、各コアを連結するような構造となっている。分割コアであるため、各コアへの巻線は比較的用意にでき、占積率も高くすることが可能であるが、各分割コアと同数の絶縁材を設けなければならず、巻線後の結線作業の回数が多くなるなど、製造工程が多くなっていた。   Further, the stator core of Patent Document 1 has a structure in which each core is connected after winding the winding around each divided core. Since it is a split core, windings to each core can be relatively prepared and the space factor can be increased, but the same number of insulating materials as each split core must be provided. As the number of wire connection operations increased, the manufacturing process increased.

この発明は、上記のような課題を解決するためになされたもので、複数のティースを持つステータコアを一体に成形するか、或いは分割されたコアピースを簡単な方法で連結することを特徴とし、かつ配向磁場成形をすることで、モータ特性を確保することを目的とし、さらに、巻線性の向上、低振動・低騒音化を目的とする。   The present invention has been made to solve the above-described problems, and is characterized in that a stator core having a plurality of teeth is formed integrally, or divided core pieces are connected by a simple method, and The purpose is to secure motor characteristics by forming the oriented magnetic field, and further to improve the winding property, and to reduce vibration and noise.

この発明に係るステータコアは、内周側にロータを配置するインナーロータ型モータのステータコアにおいて、径方向に延びる複数のティースと、このティースの内周側を繋ぎ、一体化させる連結部と、ティース同士の間の外周側に形成される開口部とを備え、軟質磁性粉末と樹脂との混練材料により成形されることを特徴とする。   A stator core according to the present invention is a stator core of an inner rotor type motor in which a rotor is disposed on an inner peripheral side, a plurality of teeth extending in a radial direction, a connecting portion that connects and integrates the inner peripheral side of the teeth, and teeth And an opening formed on the outer peripheral side, and is formed of a kneaded material of soft magnetic powder and resin.

この発明に係るステータコアは、ロータとの対向面が全て連結部で連結されていることにより、磁束の流れが滑らかになり、コギングトルクやトルクリプルを低く抑えることができる。また、開口部を外周側に設けたことで、巻線性が大幅に向上する。   In the stator core according to the present invention, the surfaces facing the rotor are all connected by the connecting portion, whereby the flow of magnetic flux becomes smooth, and the cogging torque and the torque ripple can be kept low. Moreover, winding property improves significantly by providing the opening part on the outer peripheral side.

実施の形態1.
図1、図2は実施の形態1を示す図で、図1はステータコア1と、ステータコア1を成形するステータコア成形金型2とを示す平面図、図2はステータコア成形金型2内でのステータコア1の磁束の流れを示す図である。
Embodiment 1 FIG.
1 and FIG. 2 are views showing Embodiment 1, FIG. 1 is a plan view showing a stator core 1 and a stator core molding die 2 for molding the stator core 1, and FIG. 2 is a stator core in the stator core molding die 2. It is a figure which shows the flow of 1 magnetic flux.

図1に示すように、ステータコア1は、内周側にロータを配置するインナーロータ型モータを構成する。通常、インナーロータ型モータのステータコアは、磁路の短絡を防ぐためと、巻線を挿入するために、ロータの対向面に開口部(スロットオープニング)を有する構造になっている。   As shown in FIG. 1, the stator core 1 constitutes an inner rotor type motor in which a rotor is arranged on the inner peripheral side. Usually, the stator core of the inner rotor type motor has a structure having an opening (slot opening) on the opposite surface of the rotor in order to prevent a short circuit of the magnetic path and to insert a winding.

本実施の形態のステータコア1は、ロータとの対向面である内周面に開口部を設けず、内周面は連続している。外周面に開口部1cを設けている。ステータコア1は、放射状に径方向に延びるティース1aを複数個(図1の例は6個)有する。ティース1a同士の間は、内周側の薄肉部1b(連結部の一例)で連結している。薄肉部1bの厚さは、例えば、0.5〜0.7mm程度である。   In the stator core 1 of the present embodiment, no opening is provided on the inner peripheral surface that is the surface facing the rotor, and the inner peripheral surface is continuous. An opening 1c is provided on the outer peripheral surface. The stator core 1 has a plurality of teeth 1a extending radially in the radial direction (six in the example of FIG. 1). The teeth 1a are connected by an inner peripheral thin portion 1b (an example of a connecting portion). The thickness of the thin portion 1b is, for example, about 0.5 to 0.7 mm.

ステータコア1の材料には、軟質磁性粉末と樹脂との混練材料を使用する。この軟質磁性粉末と樹脂との混練材料を用いて、図1のステータコア成形金型2によりステータコア1の成形を行う。ステータコア成形金型2は、周方向に配列されたティース1aと同数(図1では6個)の配向磁石2a及び配向ヨーク2bを有する。配向磁石2aは、隣接する配向磁石2aの極が同極となるように配置する。配向ヨーク2bは、ティース1aと対向するように径方向に配置される。   As the material of the stator core 1, a kneaded material of soft magnetic powder and resin is used. The stator core 1 is molded by the stator core molding die 2 shown in FIG. 1 using the kneaded material of the soft magnetic powder and the resin. The stator core molding die 2 has the same number (6 in FIG. 1) of oriented magnets 2a and oriented yokes 2b as the teeth 1a arranged in the circumferential direction. The orientation magnet 2a is arranged so that the poles of the adjacent orientation magnets 2a have the same polarity. The orientation yoke 2b is arranged in the radial direction so as to face the teeth 1a.

上記のように構成されたステータコア成形金型2の内部に、軟質磁性粉末と樹脂との混練材料を射出してステータコア1を成形すると、成形時軟質磁性粉末は図2に示す磁束の流れ(矢印で示す)に沿って並ぶ。   When the stator core 1 is molded by injecting a kneaded material of soft magnetic powder and resin into the stator core molding die 2 configured as described above, the soft magnetic powder at the time of molding is a magnetic flux flow (arrow) shown in FIG. Line up along

以上のように成形されたステータコア1は、次のような特徴がある。
(a)ロータとの対向面が全て薄肉部1bで連結されていることにより、磁束の流れが滑らかになり、コギングトルクやトルクリプルを低く抑えることができる。
(b)積層鋼板などの透磁率の高い材料で同形状にした場合は、薄肉部1bで磁路の短絡が起き、磁性材の使用量に対して、モータ特性が著しく低下する。しかし、本実施の形態では、軟質磁性粉末と樹脂との混練材料を用いているため、磁気抵抗が高くなり、連結部分が薄肉部1bであれば、磁路の短絡は少なく、モータ特性の低下も防げる。
(c)開口部1cを外周側に設けたことで、巻線性が大幅に良好となる。また、内周側で既に連結されているので、分割コアのように巻線後に結合する工程が不要となり、最初から寸法精度(真円度)の高いステータコア1を得ることができる。
(d)前述のように、図2のような磁場内で成形することにより、矢印の向きに磁束が通りやすいステータコア1を得ることができ、通常の粉体鉄心よりも磁気特性が高くなる。
The stator core 1 molded as described above has the following characteristics.
(A) Since all the surfaces facing the rotor are connected by the thin portion 1b, the flow of magnetic flux becomes smooth, and the cogging torque and the torque ripple can be kept low.
(B) When the same shape is used with a material having high magnetic permeability such as a laminated steel plate, a short circuit of the magnetic path occurs in the thin portion 1b, and the motor characteristics are remarkably reduced with respect to the amount of magnetic material used. However, in this embodiment, since a kneaded material of soft magnetic powder and resin is used, the magnetic resistance increases, and if the connecting portion is the thin portion 1b, the short circuit of the magnetic path is small and the motor characteristics are deteriorated. You can also prevent.
(C) Since the opening 1c is provided on the outer peripheral side, the winding property is significantly improved. In addition, since it is already connected on the inner peripheral side, a step of coupling after winding as in the case of a split core is unnecessary, and the stator core 1 having high dimensional accuracy (roundness) can be obtained from the beginning.
(D) As described above, by molding in a magnetic field as shown in FIG. 2, it is possible to obtain the stator core 1 in which the magnetic flux easily passes in the direction of the arrow, and the magnetic characteristics are higher than that of a normal powder iron core.

なお、軟質磁性粉末と樹脂との混練材料は、樹脂の比率によっては磁気特性が十分に上がらない場合もあるが、その場合でも、コアバック側の磁路として、ステータコア1を収納する磁性フレームが磁路となるので、モータ特性を損なうことはない。   Note that the kneaded material of the soft magnetic powder and the resin may not sufficiently improve the magnetic properties depending on the ratio of the resin. Even in this case, the magnetic frame that houses the stator core 1 is used as the magnetic path on the core back side. Since it becomes a magnetic path, motor characteristics are not impaired.

実施の形態2.
図3乃至図6は実施の形態2を示す図で、図3はステータ50の斜視図、図4はステータコア10を示す図、図5は絶縁部材3の斜視図、図6はステータ50の側面図である。
Embodiment 2. FIG.
FIGS. 3 to 6 are views showing the second embodiment. FIG. 3 is a perspective view of the stator 50, FIG. 4 is a view showing the stator core 10, FIG. 5 is a perspective view of the insulating member 3, and FIG. FIG.

図3に示すステータ50は、径方向に放射状に配置される複数個(図3では6個)のステータコア10と、このステータコア10を内部に収納する第1の絶縁部材3aと第2の絶縁部材3bとからなる絶縁部材3と、絶縁部材3の外周部に嵌合する磁性フレーム4とを備える。尚、実施の形態1のステータコア1にも絶縁部材3は使用可能である。   A stator 50 shown in FIG. 3 includes a plurality (six in FIG. 3) of stator cores 10 that are radially arranged in the radial direction, and a first insulating member 3a and a second insulating member that house the stator core 10 therein. And an insulating member 3 made of 3b and a magnetic frame 4 fitted to the outer periphery of the insulating member 3. The insulating member 3 can also be used for the stator core 1 of the first embodiment.

ステータコア10は、図4に示すように、ステータ50の磁束が主に通るティース部を構成する形状である。即ち、内周面、外周面が、内部に配置されるロータと同心の円弧形状になっている。それぞれの円弧形状の両端に顎部10a(内周側)、顎部10b(外周側)を有する。これらの顎部10a、顎部10bは、磁束の変化を緩和するために設けるものであり、内周側の顎部10aだけを設けてもよい。   As shown in FIG. 4, the stator core 10 has a shape constituting a tooth portion through which the magnetic flux of the stator 50 mainly passes. That is, the inner peripheral surface and the outer peripheral surface have an arc shape concentric with the rotor disposed inside. At both ends of each arc shape, there are a jaw part 10a (inner circumference side) and a jaw part 10b (outer circumference side). These jaws 10a and 10b are provided to alleviate changes in magnetic flux, and only the inner circumferential jaw 10a may be provided.

ステータコア10は、電磁鋼板を積層した積層鋼板で形成してもよいし、軟質磁性粉末と樹脂との混練材料を射出成形することにより形成してもよい。   Stator core 10 may be formed of a laminated steel plate in which electromagnetic steel plates are laminated, or may be formed by injection molding a kneaded material of soft magnetic powder and resin.

軟質磁性粉末と樹脂との混練材料によって各ステータコア10を形成する場合、図4に示すように、実施の形態1と同様、モータの磁束の流れる向き(図4の矢印の向き)に沿って軟質磁性粉末が並ぶようにするのが好ましい。それにより磁気特性が向上する。この場合、実施の形態1よりも簡単な構造の金型と配向磁石で成形できる。   When each stator core 10 is formed of a kneaded material of soft magnetic powder and resin, as shown in FIG. 4, as in the first embodiment, the stator core 10 is soft along the direction in which the magnetic flux of the motor flows (the direction of the arrow in FIG. 4). It is preferable to arrange the magnetic powder. Thereby, magnetic characteristics are improved. In this case, it can be formed with a mold having a simpler structure than the first embodiment and an oriented magnet.

ステータコア10を、内周側が連結され、外周側に開口部を有する絶縁部材3の内部に配置し、巻線(図示せず)後に磁性フレーム4に嵌合することで、環状のステータ50が完成する。   The stator core 10 is disposed inside the insulating member 3 that is connected to the inner peripheral side and has an opening on the outer peripheral side, and is fitted to the magnetic frame 4 after winding (not shown), thereby completing the annular stator 50. To do.

絶縁部材3は、図5に示すように、軸方向の略中央部において、軸方向に2分割されている。絶縁部材3は、第1の絶縁部材3aと、第2の絶縁部材3bとからなる。   As shown in FIG. 5, the insulating member 3 is divided into two in the axial direction at a substantially central portion in the axial direction. The insulating member 3 includes a first insulating member 3a and a second insulating member 3b.

第1の絶縁部材3aは、ステータコア10を内部に収納して巻線と絶縁するティース絶縁部5a(図5の例では、6個)、ティース絶縁部5aの外側に形成される外周部8a、外周部8a間にある開口部6a、ティース絶縁部5aの内側に連結する内周連結部7aを備える。   The first insulating member 3a includes a teeth insulating portion 5a (six in the example of FIG. 5) that houses the stator core 10 and insulates from the winding, an outer peripheral portion 8a formed outside the teeth insulating portion 5a, An opening 6a between the outer peripheral portions 8a and an inner peripheral connecting portion 7a connected to the inside of the tooth insulating portion 5a are provided.

第2の絶縁部材3bは、ステータコア10を内部に収納して巻線と絶縁するティース絶縁部5b(図5の例では、6個)、ティース絶縁部5bの外側に形成される外周部8b、外周部8b間にある開口部6b、ティース絶縁部5bの内側に連結する内周連結部7bを備える。   The second insulating member 3b includes a teeth insulating portion 5b (six in the example of FIG. 5) that houses the stator core 10 and insulates the windings, an outer peripheral portion 8b formed outside the teeth insulating portion 5b, The opening part 6b between the outer peripheral parts 8b and the inner peripheral connection part 7b connected inside the teeth insulating part 5b are provided.

尚、低電圧仕様のモータでは、片側のみの簡単な構成の絶縁部材でもよい。   In the case of a low-voltage motor, an insulating member having a simple structure on only one side may be used.

磁性フレーム4に嵌合する前のステータ50は、実施の形態1と同様、外周側から巻線を巻回することができる。内周側から巻線するのに比べ、巻線性の大幅な向上と、占積率の拡大が実現できる。また、各ティースを連結する、一体型の絶縁部材3は、巻線の巻枠としても利用できる。   The stator 50 before being fitted to the magnetic frame 4 can be wound with a winding from the outer peripheral side, as in the first embodiment. Compared to winding from the inner circumference side, the winding performance can be greatly improved and the space factor can be increased. In addition, the integrated insulating member 3 that connects the teeth can be used as a winding frame.

また、実施の形態1と同様、外周側の磁路形成として、ステータコアを収納する磁性フレーム4を磁路として利用してもよい(図6参照)。このとき、ステータコア10(ティース部)の外径と、磁性フレーム4の内径とが略同寸法であり、圧入することが望ましい。   As in the first embodiment, the magnetic frame 4 that houses the stator core may be used as the magnetic path for forming the magnetic path on the outer peripheral side (see FIG. 6). At this time, the outer diameter of the stator core 10 (tooth portion) and the inner diameter of the magnetic frame 4 are substantially the same size, and it is desirable to press-fit.

実施の形態1を示す図で、ステータコア1と、ステータコア1を成形するステータコア成形金型2とを示す平面図。FIG. 3 is a diagram showing the first embodiment, and is a plan view showing a stator core 1 and a stator core molding die 2 for molding the stator core 1. 実施の形態1を示す図で、ステータコア成形金型2内でのステータコア1の磁束の流れを示す図。FIG. 5 shows the first embodiment and shows the flow of magnetic flux of the stator core 1 in the stator core molding die 2. 実施の形態2を示す図で、ステータ50の斜視図。FIG. 5 is a diagram illustrating the second embodiment, and is a perspective view of a stator 50. 実施の形態2を示す図で、ステータコア10を示す図。FIG. 6 shows the stator core 10 according to the second embodiment. 実施の形態2を示す図で、絶縁部材3の斜視図。FIG. 5 is a diagram showing a second embodiment, and is a perspective view of an insulating member 3. 実施の形態2を示す図で、ステータ50の側面図。FIG. 5 shows the second embodiment, and is a side view of the stator 50.

符号の説明Explanation of symbols

1 ステータコア、1a ティース、1b 薄肉部、1c 開口部、2 ステータコア成形金型、2a 配向磁石、2b 配向ヨーク、3 絶縁部材、3a 第1の絶縁部材、3b 第2の絶縁部材、4 磁性フレーム、5a ティース絶縁部、5b ティース絶縁部、6a 開口部、6b 開口部、7a 内周連結部、7b 内周連結部、8a 外周部、8b 外周部、10 ステータコア、10a 顎部、10b 顎部、50 ステータ。   DESCRIPTION OF SYMBOLS 1 Stator core, 1a teeth, 1b Thin part, 1c Opening part, 2 Stator core shaping metal mold, 2a Orientation magnet, 2b Orientation yoke, 3 Insulation member, 3a 1st insulation member, 3b 2nd insulation member, 4 Magnetic frame, 5a Teeth insulation part, 5b Teeth insulation part, 6a opening part, 6b opening part, 7a inner circumference connection part, 7b inner circumference connection part, 8a outer circumference part, 8b outer circumference part, 10 stator core, 10a jaw part, 10b jaw part, 50 Stator.

Claims (10)

内周側にロータを配置するインナーロータ型モータのステータコアにおいて、
径方向に延びる複数のティースと、
このティースの内周側を繋ぎ、一体化させる連結部と、
前記ティース同士の間の外周側に形成される開口部とを備え、軟質磁性粉末と樹脂との混練材料により成形されることを特徴とするステータコア。
In the stator core of the inner rotor type motor that arranges the rotor on the inner peripheral side,
A plurality of teeth extending in the radial direction;
A connecting portion for connecting and integrating the inner peripheral sides of the teeth;
A stator core comprising an opening formed on an outer peripheral side between the teeth and formed by a kneaded material of soft magnetic powder and resin.
前記連結部を薄肉部で構成したことを特徴とする請求項1記載のステータコア。   The stator core according to claim 1, wherein the connecting portion is a thin portion. 請求項1記載のステータコアの製造方法において、
ステータコア成形金型は、周方向に配列された前記ティースと同数の配向磁石及び配向ヨークを有し、前記配向磁石は、隣接する配向磁石の極が同極となるように配置され、前記配向ヨークは、前記ティースと対向するように径方向に配置され、
前記ステータコア成形金型の内部に、軟質磁性粉末と樹脂との混練材料を射出してステータコアを成形することを特徴とするステータコアの製造方法。
In the manufacturing method of the stator core according to claim 1,
The stator core mold has the same number of oriented magnets and oriented yokes as the teeth arranged in the circumferential direction, and the oriented magnets are arranged such that the poles of adjacent oriented magnets are the same polarity, and the oriented yokes Is arranged in the radial direction so as to face the teeth,
A method for manufacturing a stator core, comprising molding a stator core by injecting a kneaded material of soft magnetic powder and resin into the stator core molding die.
内周側にロータを配置するインナーロータ型モータのステータにおいて、
請求項1又は請求項2記載のステータコアと、
前記ステータコアの前記ティースを内部に収納して巻線と絶縁するティース絶縁部と、前記ティース絶縁部の外側に形成される外周部と、前記外周部間にある開口部と、前記ティース絶縁部の内側に連結する内周連結部とを有する絶縁部材とを備えたことを特徴とするステータ。
In the stator of the inner rotor type motor that arranges the rotor on the inner peripheral side,
The stator core according to claim 1 or 2,
A teeth insulating portion that houses the teeth of the stator core and insulates from the winding; an outer peripheral portion formed outside the teeth insulating portion; an opening between the outer peripheral portions; and a teeth insulating portion. A stator comprising: an insulating member having an inner peripheral connecting portion connected to an inner side.
内周側にロータを配置するインナーロータ型モータのステータにおいて、
ティース部を構成する、複数のステータコアと、
前記ステータコアを内部に収納して巻線と絶縁するティース絶縁部と、前記ティース絶縁部の外側に形成される外周部と、前記外周部間にある開口部と、前記ティース絶縁部の内側に連結する内周連結部とを有する絶縁部材とを備えたことを特徴とするステータ。
In the stator of the inner rotor type motor that arranges the rotor on the inner peripheral side,
A plurality of stator cores constituting the teeth portion;
Connected to the inside of the teeth insulating portion, the teeth insulating portion that houses the stator core and insulates from the winding, the outer peripheral portion formed outside the tooth insulating portion, the opening between the outer peripheral portions, A stator comprising: an insulating member having an inner peripheral connecting portion.
前記ステータコアは、内周面と外周面とが、内部に配置されるロータと同心の略円弧形状であり、少なくとも内周側の円弧形状の両端に顎部を有することを特徴とする請求項5記載のステータ。   6. The stator core according to claim 5, wherein an inner peripheral surface and an outer peripheral surface have a substantially arc shape concentric with a rotor disposed therein, and have jaw portions at least at both ends of the arc shape on the inner peripheral side. The stator described. 前記絶縁部材は、軸方向に分割された第1の絶縁部材と、第2の絶縁部材とから構成されることを特徴とする請求項4又は請求項5記載のステータ。   The stator according to claim 4 or 5, wherein the insulating member includes a first insulating member and a second insulating member divided in the axial direction. 前記絶縁部材が内部に嵌合され、磁路の一部となる磁性フレームを備えたことを特徴とする請求項4又は請求項5記載のステータ。   6. The stator according to claim 4, further comprising a magnetic frame in which the insulating member is fitted and becomes a part of a magnetic path. 前記ステータコアは、電磁鋼板を積層した積層鋼板又は軟質磁性粉末と樹脂との混練材料により形成されることを特徴とする請求項5記載のステータ。   The stator according to claim 5, wherein the stator core is formed of a laminated steel plate obtained by laminating electromagnetic steel plates or a kneaded material of soft magnetic powder and resin. 前記ステータコアが、軟質磁性粉末と樹脂との混練材料によって形成される場合、モータの磁束の流れる向きに沿って軟質磁性粉末が並ぶように成形されることを特徴とする請求項9記載のステータ。   10. The stator according to claim 9, wherein when the stator core is formed of a kneaded material of soft magnetic powder and resin, the stator magnetic core is formed so that the soft magnetic powder is arranged along a direction in which the magnetic flux of the motor flows.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014003885A (en) * 2012-06-15 2014-01-09 Lg Innotek Co Ltd Motor

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JPH06205557A (en) * 1992-12-28 1994-07-22 Toshiba Corp Stator of rotary electric apparatus
JP2003264947A (en) * 2002-03-08 2003-09-19 Fujitsu General Ltd Permanent magnet motor
JP2004242444A (en) * 2003-02-06 2004-08-26 Asmo Co Ltd Stator core and brushless motor
JP2006217702A (en) * 2005-02-02 2006-08-17 Mitsubishi Electric Corp Manufacturing method of motor stator , motor rotor, and motor core
JP2006304594A (en) * 2005-04-22 2006-11-02 Isa Innovation Sa Grooved part of electric motor

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH06205557A (en) * 1992-12-28 1994-07-22 Toshiba Corp Stator of rotary electric apparatus
JP2003264947A (en) * 2002-03-08 2003-09-19 Fujitsu General Ltd Permanent magnet motor
JP2004242444A (en) * 2003-02-06 2004-08-26 Asmo Co Ltd Stator core and brushless motor
JP2006217702A (en) * 2005-02-02 2006-08-17 Mitsubishi Electric Corp Manufacturing method of motor stator , motor rotor, and motor core
JP2006304594A (en) * 2005-04-22 2006-11-02 Isa Innovation Sa Grooved part of electric motor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014003885A (en) * 2012-06-15 2014-01-09 Lg Innotek Co Ltd Motor

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