JP5857221B2 - Non-contact power feeding device - Google Patents

Non-contact power feeding device Download PDF

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JP5857221B2
JP5857221B2 JP2011258800A JP2011258800A JP5857221B2 JP 5857221 B2 JP5857221 B2 JP 5857221B2 JP 2011258800 A JP2011258800 A JP 2011258800A JP 2011258800 A JP2011258800 A JP 2011258800A JP 5857221 B2 JP5857221 B2 JP 5857221B2
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core
peripheral surface
pickup unit
coil
outer peripheral
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JP2013115890A (en
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矢野 紳一郎
紳一郎 矢野
二畠 康
康 二畠
太田 智浩
智浩 太田
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Panasonic Intellectual Property Management Co Ltd
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Description

本発明は、搬送車等の移動機器に非接触で駆動電源を供給する非接触給電装置に関する。   The present invention relates to a non-contact power supply apparatus that supplies driving power to a mobile device such as a transport vehicle in a non-contact manner.

従来より、クリーンルームにおける搬送車などへの給電は、塵埃が発生しないようにするために非接触給電装置が採用される。そのような非接触給電装置の概略構成について、図8を参照して説明する。   Conventionally, a non-contact power feeding device has been adopted for power feeding to a transport vehicle or the like in a clean room so as not to generate dust. A schematic configuration of such a non-contact power feeding apparatus will be described with reference to FIG.

非接触給電装置20では、搬送車の走行経路に沿ってループ状に天井面などに敷設された給電線21と、この給電線21に高周波電流を供給する電源装置とを備える。給電線21は、走行経路の長さや形状に合わせて複数本が接続されて用いられる。非接触給電装置20は、給電線21を上下から挟んで受電する一対のピックアップ部22を有し、給電線21に流れる高周波電流によってピックアップ部22に誘導電流が発生され、定電圧電源23やインバータを介して電力に変換して搬送車のモータを駆動させる。   The non-contact power supply device 20 includes a power supply line 21 laid on a ceiling surface or the like in a loop shape along the travel route of the transport vehicle, and a power supply device that supplies a high-frequency current to the power supply line 21. A plurality of power supply lines 21 are connected and used in accordance with the length and shape of the travel route. The non-contact power supply apparatus 20 includes a pair of pickup units 22 that receive power with the power supply line 21 sandwiched from above and below. An induction current is generated in the pickup unit 22 by a high-frequency current flowing through the power supply line 21, and a constant voltage power supply 23 and an inverter The motor is converted into electric power through the motor to drive the motor of the transport vehicle.

ピックアップ部22は、給電線21を周方向に沿って囲み、開口溝24を有する断面略C字形状のフェライトコア22aと、フェライトコア22aに外挿される角筒形状のボビン22bと、ボビン22bに巻き回されるコイル22cとを有している。この構成により、非接触給電装置20では、給電線21の周囲に生じる磁束の大半がコア22a内を通り、コイル22cに誘起される誘導起電力を高くしている。   The pickup unit 22 surrounds the power supply line 21 along the circumferential direction and has a substantially C-shaped ferrite core 22a having an opening groove 24, a rectangular tube-shaped bobbin 22b extrapolated to the ferrite core 22a, and a bobbin 22b. And a coil 22c to be wound. With this configuration, in the contactless power supply device 20, most of the magnetic flux generated around the power supply line 21 passes through the core 22a, and the induced electromotive force induced in the coil 22c is increased.

ところで、巻線の巻付回数の比較的少ないコイル素子において、電線を巻き付ける作業なしに、単純な作業で組み立てができるコイル素子の構造が開示されている(例えば、特許文献1参照)。また、平板状のコアを複数個並べ、その周囲にコイルを巻きつけた非接触給電用ピックアップコイルの構造も開示されている(例えば、特許文献2参照)。   By the way, the structure of the coil element which can be assembled by a simple operation | work, without the operation | work which winds an electric wire in the coil element with comparatively few winding | wrapping number of windings is disclosed (for example, refer patent document 1). A structure of a pickup coil for non-contact power feeding in which a plurality of flat cores are arranged and a coil is wound around the core is also disclosed (see, for example, Patent Document 2).

実開平05−41122号公報Japanese Utility Model Publication No. 05-41122 特開2010−172084号公報JP 2010-172084 A

このような非接触給電装置20を用い、高周波電源に接続された給電線21からピックアップ部22を介して電力を移動機器などの負荷に給電する場合、ユーザが使用する負荷の種類に合わせて出力電力を調整する必要がある。この場合、例えば、ピックアップ部22のボビン22bに巻き回されるコイル22cの巻線数を増やしたり、コア22aを大型化したり、又は図8(d)に示すように複数のピックアップ部22を電線21の伸長方向に沿って並設するなどの方法が採られる。しかしながら、これらいずれの方法も、専用設計となりコストを要し、また非接触給電装置20を配置するスペースを要するという問題がある。   When such a non-contact power supply device 20 is used to supply power from a power supply line 21 connected to a high-frequency power source to a load such as a mobile device via a pickup unit 22, an output is output in accordance with the type of load used by the user. The power needs to be adjusted. In this case, for example, the number of windings of the coil 22c wound around the bobbin 22b of the pickup unit 22 is increased, the core 22a is enlarged, or a plurality of pickup units 22 are connected to the wires as shown in FIG. A method such as arranging them side by side along the extending direction of 21 is adopted. However, any of these methods has a problem in that it has a dedicated design, requires cost, and requires a space for arranging the non-contact power feeding device 20.

本発明は、上記従来の課題に鑑みてなされたものであり、スペースやコストを要することなく、より簡単に出力電力を調整できる非接触給電装置を提供することを目的とする。   The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide a non-contact power feeding apparatus that can adjust output power more easily without requiring space and cost.

上記目的を達成するために本発明は、高周波電流が流れる給電線と誘導結合されるピックアップ部を備え、前記ピックアップ部に誘起される誘導起電力によって負荷に給電する非接触給電装置において、前記ピックアップ部は、連結用コア、及びこの連結用コアの端面に連結される端面用コアを備え、前記連結用コアは、前記ピックアップ部のコアに外挿される略角筒形状のボビンの内周面及び外周面にのみコイルを配置し、かつ当該内周面及び外周面のコイルの両端に結合部を有し、前記端面用コアは、前記ボビンの内周面、外周面及び一方の側面にコイルを配置し、かつ当該内周面及び外周面に配置されたコイルの一端側に前記結合部と嵌合する第2の結合部を有することを特徴とするものである。   In order to achieve the above object, the present invention provides a non-contact power feeding apparatus that includes a pickup unit that is inductively coupled to a power supply line through which a high-frequency current flows, and that supplies power to a load by an induced electromotive force induced in the pickup unit. The portion includes a connecting core and an end surface core connected to the end surface of the connecting core, and the connecting core includes an inner peripheral surface of a substantially rectangular tube-shaped bobbin that is externally inserted into the core of the pickup unit, and The coil is disposed only on the outer peripheral surface, and has coupling portions at both ends of the inner peripheral surface and the outer peripheral surface coil. The core for the end surface includes the coil on the inner peripheral surface, the outer peripheral surface, and one side surface of the bobbin. It has a 2nd coupling part which is arranged and fits with the above-mentioned coupling part on the one end side of the coil arranged on the inner peripheral surface and the outer peripheral surface.

また高周波電流が流れる給電線と誘導結合されるピックアップ部を備え、前記ピックアップ部に誘起される誘導起電力によって負荷に給電する非接触給電装置において、前記ピックアップ部は、連結用コア、及びこの連結用コアの端面に取り付けられる端面用プレートを備え、前記連結用コアは、前記ピックアップ部のコアに外挿される略角筒形状のボビンの内周面及び外周面にのみコイルを配置し、かつ当該内周面及び外周面のコイルの両端に結合部を有し、前記端面用プレートには、前記連結用コアに配置された内周面のコイル及び外周面のコイルを接続するコイルが配置され、前記連結用コアの端面に前記結合部を介して取り付けられることを特徴とする Further , in a non-contact power feeding device that includes a pickup unit that is inductively coupled to a power supply line through which a high-frequency current flows, and that supplies power to a load by an induced electromotive force induced in the pickup unit, the pickup unit includes a connecting core, e Bei an end face plate for attach to the end face of the connecting core, the connecting core, placing a coil only on the inner peripheral surface and outer peripheral surface of the bobbin of the substantially square tubular shape extrapolated to the core of the pickup unit And having a coupling portion at both ends of the inner peripheral surface and outer peripheral surface coils, and connecting the inner peripheral surface coil and the outer peripheral surface coil disposed on the connecting core to the end surface plate. There is arranged, characterized in that it is attached via the coupling portion to the end surface of the connecting core.

本発明に係る非接触給電装置によれば、内周面と外周面にのみコイルを配置した連結用コアの端面に、内周面、外周面及び一方の側面にコイルを配置した端面用コアを連結できる。このため、スペースやコストを要することなく、より簡単に出力電力を調整できる。   According to the non-contact power feeding device according to the present invention, the end face core in which the coil is arranged on the inner peripheral face, the outer peripheral face, and one side face is provided on the end face of the connecting core in which the coil is provided only on the inner peripheral face and the outer peripheral face. Can be linked. For this reason, output power can be adjusted more easily without requiring space and cost.

本発明の実施の形態1に係る非接触給電装置の概略構成図である。It is a schematic block diagram of the non-contact electric power feeder which concerns on Embodiment 1 of this invention. (a)連結用コアを備えたピックアップ部の正面図、(b)同ピックアップ部の側面図、(c)同ピックアップ部の上面図である。(A) The front view of the pick-up part provided with the core for connection, (b) The side view of the pick-up part, (c) The top view of the pick-up part. (a)端面用コアを備えたピックアップ部の正面図、(b)同ピックアップ部の側面図、(c)同ピックアップ部の上面図である。(A) The front view of the pick-up part provided with the core for end surfaces, (b) The side view of the pick-up part, (c) The top view of the pick-up part. (a)連結用コアを備えたピックアップ部及び端面用コアを備えたピックアップ部の連結前の側面図、(b)連結用コアを備えたピックアップ部及び端面用コアを備えたピックアップ部の連結後の側面図である。(A) Side view before connection of pickup unit with connecting core and pickup unit with end surface core, (b) After connection of pickup unit with connecting core and pickup unit with end surface core FIG. (a)本発明の実施の形態2に係る非接触給電装置に備わる連結用コア及び端面用プレートの結合前の正面図、(a)非接触給電装置に備わる連結用コア及び端面用プレートの結合後の正面図である。(A) The front view before the coupling | bonding core and end surface plate with which the non-contact electric power supply which concerns on Embodiment 2 of this invention is combined, (a) The coupling | bonding of the connecting core and end plate with which a non-contact electric power supply is equipped It is a rear elevation view. (a)端面用プレートの側面図、(b)端面用プレートの正面図、(c)端面用プレートの上面図、(d)他の端面用プレートの正面図、(e)同端面用プレートの側面図、(f)同端面用プレートの上面図である。(A) Side view of end face plate, (b) Front view of end face plate, (c) Top view of end face plate, (d) Front view of other end face plate, (e) End face plate It is a side view, (f) It is a top view of the same end surface plate. (a)連結用コアを備えたピックアップ部及び端面用プレートの結合前の側面図、(b)連結用コアを備えたピックアップ部及び端面用プレートの結合後の側面図である。(A) The side view before the coupling | bonding of the pick-up part provided with the core for connection, and the plate for end surfaces, (b) The side view after the coupling | bonding of the pick-up part provided with the core for connection, and the plate for end surfaces. (a)従来の非接触給電装置の斜視図、(b)非接触給電装置に備わるピックアップ部の斜視図、(c)及び(d)同ピックアップ部の側面図である。(A) A perspective view of a conventional non-contact power supply device, (b) a perspective view of a pickup portion provided in the non-contact power supply device, (c) and (d) a side view of the pickup portion.

本発明の実施の形態1に係る非接触給電装置について図面を参照して説明する。図1に示すように、非接触給電装置1(以下、給電装置と記す)は、給電経路に沿ってループ状に敷設された給電線(トロリー線)2と、高周波電流を給電線2に供給する電源装置3と、負荷である搬送車4とを備える。給電装置1は、工場内で使用する搬送車4などの移動機器に非接触で電力を供給する装置である。   A non-contact power feeding apparatus according to Embodiment 1 of the present invention will be described with reference to the drawings. As shown in FIG. 1, the non-contact power supply device 1 (hereinafter referred to as a power supply device) supplies a power supply line (trolley wire) 2 laid in a loop along the power supply path and a high-frequency current to the power supply line 2. The power supply device 3 to be operated and a transport vehicle 4 as a load are provided. The power supply device 1 is a device that supplies electric power to a mobile device such as a transport vehicle 4 used in a factory without contact.

給電線2は、例えば円筒形状の内管部と、内管部の外側に配置された円筒形状の外管部と、内管部と外管部を互いに同心になるように連結する連結部とが金属板を曲げ加工することで一体に形成された導体を、角筒状の絶縁体で被覆して構成されている。給電線2は、給電経路の長さや形状に合わせて対となって配線されており、接続部材により複数本が接続されて用いられる。   The feed line 2 includes, for example, a cylindrical inner tube portion, a cylindrical outer tube portion arranged outside the inner tube portion, and a connecting portion that connects the inner tube portion and the outer tube portion so as to be concentric with each other. However, a conductor integrally formed by bending a metal plate is covered with a rectangular tubular insulator. The power supply line 2 is wired in pairs according to the length and shape of the power supply path, and a plurality of power supply lines 2 are connected by a connecting member.

電源装置3は、商用電源に接続されて、交流の高周波電流を給電線2に供給することにより給電線2の周囲に磁束を発生させる。   The power supply device 3 is connected to a commercial power supply, and generates a magnetic flux around the feeder line 2 by supplying an alternating high-frequency current to the feeder line 2.

給電装置1は、給電線2に近接して配置されたピックアップ部10を有し、このピックアップ部10が給電線2に流れる高周波電流によって給電線2の周りに発生される磁界の磁力線を横切る時にピックアップ部10に誘導電流が発生する。給電装置1では、ピックアップ部10が受電する電圧を駆動電力として搬送車4を走行させる。   The power feeding device 1 has a pickup unit 10 disposed close to the power feeding line 2, and when the pickup unit 10 crosses the magnetic field lines of the magnetic field generated around the power feeding line 2 by the high-frequency current flowing through the power feeding line 2. An induced current is generated in the pickup unit 10. In the power feeding device 1, the transport vehicle 4 is caused to travel using the voltage received by the pickup unit 10 as drive power.

次に、給電装置1のピックアップ部10の構造に関して図2及び図3を参照して説明する。ピックアップ部10は、給電線2を周方向に沿って囲む略筒状のコア11と、コア11に外挿される角筒形状のボビン12と、ボビン12に巻線を取付けてなるコイルとを有している。コア11は、少なくとも給電線2が径方向に通過可能である開口溝11aが給電線2の伸長方向に沿って設けられ、内周面又は外周面の双方が曲面で構成されている。ボビン12は、円弧状に湾曲した角筒形状の構成樹脂成形品からなる。   Next, the structure of the pickup unit 10 of the power supply apparatus 1 will be described with reference to FIGS. The pickup unit 10 includes a substantially cylindrical core 11 that surrounds the power supply line 2 in the circumferential direction, a rectangular cylindrical bobbin 12 that is extrapolated to the core 11, and a coil that has a winding attached to the bobbin 12. doing. The core 11 is provided with an opening groove 11a through which at least the power supply line 2 can pass in the radial direction along the extending direction of the power supply line 2, and both the inner peripheral surface and the outer peripheral surface are configured by curved surfaces. The bobbin 12 is composed of a square tube-shaped constituent resin molded product curved in an arc shape.

図2に示すように、連結用コア14は、ボビン12の内周面に設けられたコイル13a及び外周面に設けられたコイル13bを配置し、かつコイル13a,13bの両端に結合部5a,5bを有する。結合部5aは、凸形状を有するオス型コネクタであり、結合部5bは凹形状を有して該オス型コネクタと嵌合するメス型コネクタである。連結用コア14におけるコイル13a,13bは、例えば絶縁被膜を有する巻線が、ボビン12の外周面及び内周面に等間隔で並設されて構成される。   As shown in FIG. 2, the connecting core 14 includes a coil 13a provided on the inner peripheral surface of the bobbin 12 and a coil 13b provided on the outer peripheral surface, and the coupling portions 5a, 5b. The coupling portion 5a is a male connector having a convex shape, and the coupling portion 5b is a female connector having a concave shape and fitted to the male connector. The coils 13a and 13b in the connecting core 14 are configured by, for example, windings having an insulating coating arranged in parallel on the outer peripheral surface and the inner peripheral surface of the bobbin 12 at equal intervals.

端面用コア15は、端面用コア15Aと端面用コア15Bの2種類が含まれる。図3に示すように、端面用コア15Aは、ボビン12の内周面、外周面及び一方の側面において連続したコイル13cを配置し、かつボビン12の内周面及び外周面に配置されたコイル13cの一端側に結合部5aと結合する結合部(第2の結合部)5cを有する。この結合部5cはメス型コネクタである。また、端面用コア15Bは、ボビン12の内周面、外周面及び一方の側面において連続したコイル13dを配置し、かつボビン12の内周面及び外周面に配置されたコイル13dの一端側に結合部5bと結合する結合部(第2の結合部)5dを有する。この結合部5dはオス型コネクタである。   The end surface core 15 includes two types of end surface core 15A and end surface core 15B. As shown in FIG. 3, the end surface core 15 </ b> A includes a coil 13 c that is continuous on the inner peripheral surface, outer peripheral surface, and one side surface of the bobbin 12, and the coil that is disposed on the inner peripheral surface and outer peripheral surface of the bobbin 12. It has the coupling | bond part (2nd coupling | bond part) 5c couple | bonded with the coupling | bond part 5a in the one end side of 13c. The coupling portion 5c is a female connector. Further, the end surface core 15B has a coil 13d continuous on the inner peripheral surface, outer peripheral surface and one side surface of the bobbin 12, and is disposed on one end side of the coil 13d disposed on the inner peripheral surface and outer peripheral surface of the bobbin 12. It has the coupling | bond part (2nd coupling | bond part) 5d couple | bonded with the coupling | bond part 5b. The coupling portion 5d is a male connector.

コア11は、例えば開口溝11aと反対側の箇所で胴体部が二分割され、それぞれの胴体部に2つの連結用コア14が外挿された後に胴体部の端部同士が接合されることによって、図2に示すピックアップ部10を構成する。また、当該胴体部に2つの端面用コア15A及び15Bが外挿された後に胴体部の端部同士が接合されることによって、図3に示すピックアップ部10を構成する。   For example, the core 11 is divided into two parts at the opposite side of the opening groove 11a, and the ends of the body part are joined to each other after the two connecting cores 14 are extrapolated to the respective body parts. The pickup unit 10 shown in FIG. 2 is configured. Moreover, after the two end surface cores 15A and 15B are extrapolated to the body portion, the end portions of the body portion are joined to each other to constitute the pickup unit 10 shown in FIG.

そして、給電装置1では、図4に示すように、複数の連結用コア14に2つの端面用コア15A,15Bを、結合部5a〜5dを用いて給電線2の伸長方向に連結することで複数のピックアップ部10の全体をコイル13が巻き回すような構成とできる。   And in the electric power feeder 1, as shown in FIG. 4, by connecting the two end surface cores 15A and 15B to the plurality of connecting cores 14 in the extending direction of the power supply line 2 using the coupling portions 5a to 5d. A configuration can be adopted in which the coil 13 is wound around the whole of the plurality of pickup units 10.

以上のように、本実施の形態1に係る給電装置1では、連結用コア14及び端面用コア15を連結することで、連結された複数のピックアップ部10の外周をコイル13が巻き回す構成とできる。このため、搬送車4など電圧が異なる負荷の仕様に対して、数調整された複数の連結用コア14及び端面用コア15を連結するだけで、設置スペースやサイズの変更、コストを要することなく、給電装置1の出力電力を簡単に調整できる。   As described above, in the power supply device 1 according to Embodiment 1, the coil 13 is wound around the outer periphery of the plurality of pickup units 10 connected by connecting the connecting core 14 and the end surface core 15. it can. For this reason, it is only necessary to connect a plurality of adjusted connecting cores 14 and end face cores 15 to the specifications of the load such as the transport vehicle 4 with different voltages, without requiring a change in installation space, size, and cost. The output power of the power feeding device 1 can be easily adjusted.

(実施の形態2)
本発明の実施の形態2に係る非接触給電装置について、図6及び図7を参照して説明する。上記実施の形態1に係る非接触給電装置と同様の構成には同一の符号を付し、その詳細な説明は省略する。
(Embodiment 2)
A non-contact power feeding apparatus according to Embodiment 2 of the present invention will be described with reference to FIGS. The same components as those of the contactless power supply device according to the first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.

本実施の形態2に係る給電装置は、図5に示すように、連結用コア14の端面に結合部5a,5bを介して取り付けられる2種類の端面用プレート16A,16Bを備える。端面用プレート16A又は16Bは、連結用コア14に設けられた内周面のコイル13a及び外周面のコイル13bを接続するコイル13eを有する。   As shown in FIG. 5, the power feeding device according to the second embodiment includes two types of end surface plates 16A and 16B that are attached to the end surface of the connecting core 14 via coupling portions 5a and 5b. The end plate 16A or 16B has a coil 13e that connects the coil 13a on the inner peripheral surface and the coil 13b on the outer peripheral surface provided on the connecting core 14.

端面用プレート16Aは、図6(a)〜(c)に示すように、コイル13eの両端にオス型コネクタである結合部5aを有する。端面用プレート16Bは、図6(d)〜(f)に示すように、コイル13eの両端にメス型コネクタである結合部5bを有する。   As shown in FIGS. 6A to 6C, the end face plate 16A has coupling portions 5a that are male connectors at both ends of the coil 13e. As shown in FIGS. 6D to 6F, the end face plate 16B has coupling portions 5b that are female connectors at both ends of the coil 13e.

また、本実施の形態2に係る給電装置は、図7に示すように、複数の連結用コア14に2つの端面用プレート16A,16Bを結合部5a,5bを用いて連結することで、複数のピックアップ部10の全体をコイル13が巻き回すような構成とできる。この構成により、本実施の形態2に係る給電装置では、上記実施の形態1の効果に加えて、ピックアップ部10における部品の共通化が図れる。   Further, as shown in FIG. 7, the power supply device according to the second embodiment has a plurality of end face plates 16 </ b> A and 16 </ b> B connected to a plurality of connecting cores 14 using coupling portions 5 a and 5 b. The entire pickup unit 10 can be configured such that the coil 13 is wound around. With this configuration, in the power feeding device according to the second embodiment, in addition to the effects of the first embodiment, it is possible to share components in the pickup unit 10.

なお、本発明は、上記実施の形態の構成に限られず、発明の趣旨を変更しない範囲で種々の変形が可能である。例えば、ピックアップ部10のコア11は略円筒状に限定されるものではなく、また、ボビン12も略角筒形状に限定されるものではない。また、ボビンを用いずコアの内周面と外周面にのみコイルを直接配置し、コアの内周面、外周面及び一方の側面にコイルを直接配置し、これらのコアを連結することも考え得る。   The present invention is not limited to the configuration of the embodiment described above, and various modifications can be made without departing from the spirit of the invention. For example, the core 11 of the pickup unit 10 is not limited to a substantially cylindrical shape, and the bobbin 12 is not limited to a substantially rectangular tube shape. It is also possible to arrange the coils directly only on the inner and outer peripheral surfaces of the core without using a bobbin, and arrange the coils directly on the inner and outer peripheral surfaces and one side of the core, and connect these cores. obtain.

1 非接触給電装置
2 給電線
3 電源装置
4 搬送車
5a,5b,5c,5d 結合部
10 ピックアップ部
11 コア
12 ボビン
13,13a,13b,13c,13d,13e コイル
14 連結用コア
15,15A,15B 端面用コア
16A,16B 端面用プレート
DESCRIPTION OF SYMBOLS 1 Non-contact electric power feeder 2 Power supply line 3 Power supply device 4 Carrier vehicle 5a, 5b, 5c, 5d Coupling part 10 Pickup part 11 Core 12 Bobbin 13, 13a, 13b, 13c, 13d, 13e Coil 14 Connecting core 15, 15A, 15B End face core 16A, 16B End face plate

Claims (2)

高周波電流が流れる給電線と誘導結合されるピックアップ部を備え、前記ピックアップ部に誘起される誘導起電力によって負荷に給電する非接触給電装置において、
前記ピックアップ部は、連結用コア、及びこの連結用コアの端面に連結される端面用コアを備え、
前記連結用コアは、前記ピックアップ部のコアに外挿される略角筒形状のボビンの内周面及び外周面にのみコイルを配置し、かつ当該内周面及び外周面のコイルの両端に結合部を有し、
前記端面用コアは、前記ボビンの内周面、外周面及び一方の側面にコイルを配置し、かつ当該内周面及び外周面に配置されたコイルの一端側に前記結合部と嵌合する第2の結合部を有することを特徴とする非接触給電装置。
In a non-contact power feeding device that includes a pickup unit that is inductively coupled to a feeder line through which a high-frequency current flows, and that feeds a load by an induced electromotive force induced in the pickup unit,
The pickup unit includes a connecting core and an end surface core connected to an end surface of the connecting core,
The coupling core has coils disposed only on the inner peripheral surface and outer peripheral surface of a substantially rectangular tube-shaped bobbin that is extrapolated to the core of the pickup unit, and coupling portions at both ends of the inner peripheral surface and outer peripheral surface coils. Have
The end surface core includes a coil disposed on an inner peripheral surface, an outer peripheral surface, and one side surface of the bobbin, and is fitted to the coupling portion on one end side of the coil disposed on the inner peripheral surface and the outer peripheral surface. A non-contact power feeding device having two coupling portions.
高周波電流が流れる給電線と誘導結合されるピックアップ部を備え、前記ピックアップ部に誘起される誘導起電力によって負荷に給電する非接触給電装置において、
前記ピックアップ部は、連結用コア、及びこの連結用コアの端面に取り付けられる端面用プレートを備え、
前記連結用コアは、前記ピックアップ部のコアに外挿される略角筒形状のボビンの内周面及び外周面にのみコイルを配置し、かつ当該内周面及び外周面のコイルの両端に結合部を有し、
前記端面用プレートには、前記連結用コアに配置された内周面のコイル及び外周面のコイルを接続するコイルが配置され、前記連結用コアの端面に前記結合部を介して取り付けられることを特徴とする非接触給電装置。
In a non-contact power feeding device that includes a pickup unit that is inductively coupled to a feeder line through which a high-frequency current flows, and that feeds a load by an induced electromotive force induced in the pickup unit,
The pickup unit, connecting the core, and Bei example an end plate which is attach to the end face of the connecting core,
The coupling core has coils disposed only on the inner peripheral surface and outer peripheral surface of a substantially rectangular tube-shaped bobbin that is extrapolated to the core of the pickup unit, and coupling portions at both ends of the inner peripheral surface and outer peripheral surface coils. Have
The end face plate is provided with a coil for connecting an inner peripheral face coil and an outer peripheral face coil arranged on the connecting core, and is attached to the end face of the connecting core via the coupling portion. non-contact power feeding device shall be the features.
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