JP4931983B2 - Electromagnetic switch device for starter - Google Patents

Electromagnetic switch device for starter Download PDF

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Publication number
JP4931983B2
JP4931983B2 JP2009246506A JP2009246506A JP4931983B2 JP 4931983 B2 JP4931983 B2 JP 4931983B2 JP 2009246506 A JP2009246506 A JP 2009246506A JP 2009246506 A JP2009246506 A JP 2009246506A JP 4931983 B2 JP4931983 B2 JP 4931983B2
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iron core
electromagnetic relay
electromagnet
starter
electromagnetic
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JP2011094489A (en
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芳宏 森本
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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Priority to JP2009246506A priority Critical patent/JP4931983B2/en
Priority to FR1051566A priority patent/FR2951862B1/en
Priority to KR1020100100309A priority patent/KR101235536B1/en
Priority to CN201310150379.XA priority patent/CN103258690B/en
Priority to CN201210295883.4A priority patent/CN102797609B/en
Priority to CN201010528115XA priority patent/CN102052224B/en
Publication of JP2011094489A publication Critical patent/JP2011094489A/en
Priority to FR1160525A priority patent/FR2965100B1/en
Application granted granted Critical
Publication of JP4931983B2 publication Critical patent/JP4931983B2/en
Priority to KR1020120104468A priority patent/KR101269808B1/en
Priority to FR1453267A priority patent/FR3003393B1/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N11/00Starting of engines by means of electric motors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N15/00Other power-operated starting apparatus; Component parts, details, or accessories, not provided for in, or of interest apart from groups F02N5/00 - F02N13/00
    • F02N15/02Gearing between starting-engines and started engines; Engagement or disengagement thereof
    • F02N15/04Gearing between starting-engines and started engines; Engagement or disengagement thereof the gearing including disengaging toothed gears
    • F02N15/06Gearing between starting-engines and started engines; Engagement or disengagement thereof the gearing including disengaging toothed gears the toothed gears being moved by axial displacement
    • F02N15/067Gearing between starting-engines and started engines; Engagement or disengagement thereof the gearing including disengaging toothed gears the toothed gears being moved by axial displacement the starter comprising an electro-magnetically actuated lever
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N11/00Starting of engines by means of electric motors
    • F02N11/08Circuits or control means specially adapted for starting of engines
    • F02N11/087Details of the switching means in starting circuits, e.g. relays or electronic switches
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N15/00Other power-operated starting apparatus; Component parts, details, or accessories, not provided for in, or of interest apart from groups F02N5/00 - F02N13/00
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/02Bases; Casings; Covers
    • H01H50/04Mounting complete relay or separate parts of relay on a base or inside a case
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H51/00Electromagnetic relays
    • H01H51/02Non-polarised relays
    • H01H51/04Non-polarised relays with single armature; with single set of ganged armatures
    • H01H51/06Armature is movable between two limit positions of rest and is moved in one direction due to energisation of an electromagnet and after the electromagnet is de-energised is returned by energy stored during the movement in the first direction, e.g. by using a spring, by using a permanent magnet, by gravity
    • H01H51/065Relays having a pair of normally open contacts rigidly fixed to a magnetic core movable along the axis of a solenoid, e.g. relays for starting automobiles
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N11/00Starting of engines by means of electric motors
    • F02N11/08Circuits or control means specially adapted for starting of engines
    • F02N2011/0881Components of the circuit not provided for by previous groups
    • F02N2011/0892Two coils being used in the starting circuit, e.g. in two windings in the starting relay or two field windings in the starter
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/02Bases; Casings; Covers
    • H01H50/026Details concerning isolation between driving and switching circuit
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/16Magnetic circuit arrangements
    • H01H50/18Movable parts of magnetic circuits, e.g. armature
    • H01H50/20Movable parts of magnetic circuits, e.g. armature movable inside coil and substantially lengthwise with respect to axis thereof; movable coaxially with respect to coil

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electromagnets (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Description

この発明は、例えば自動車などに搭載されるエンジンを始動するスタータ用電磁スイッチ装置に関するものである。   The present invention relates to an electromagnetic switch device for a starter that starts an engine mounted on, for example, an automobile.

従来、エンジン始動用スタータが特に多く用いられているのは自動車であるが、近年、自動車の燃費改善方法としてアイドルストップ機能を搭載する自動車が増加している。通常のエンジン始動と同様にスタータをアイドルストップ後の再始動に用いる構成が採用された場合、スタータの使用回数が増加するため、スタータの耐久性向上が必要になる。   Conventionally, the starter for starting the engine has been particularly frequently used for automobiles, but in recent years, automobiles equipped with an idle stop function are increasing as a method for improving the fuel consumption of automobiles. When a configuration in which the starter is used for restart after an idle stop is employed in the same manner as in normal engine starting, the number of times the starter is used increases, so it is necessary to improve the durability of the starter.

一方、自動車のエンジンルームはエンジン本体とスタータ以外に、そのエンジンを運転するために必要不可欠な装置や、エンジンから得られる動力をタイヤに伝達するために必要な変速機等、非常に多くの構成部品が配置されるため、スタータが設置される周囲は他の構成部品で密集している。近年、エンジンの性能向上のために構成部品数は増加、構成部品が大型化しているため、スタータの小型化の重要度が増している。   On the other hand, in addition to the engine body and starter, the engine room of an automobile has a very large number of components, such as a device that is indispensable for driving the engine and a transmission that is necessary to transmit the power obtained from the engine to the tires. Since the parts are arranged, the periphery where the starter is installed is densely packed with other components. In recent years, the number of components has increased and the size of components has increased in order to improve engine performance, so the importance of downsizing the starter has increased.

従来のスタータ用電磁スイッチ装置として、例えば、実公昭56−42437号公報(特許文献1参照)に示されたエンジン始動用のスタータ構造が知られている。その構造は、ピニオンをリングギヤに噛合せる電磁力手段と、この電磁力手段と別体に並列的に設けられる電磁開閉器を備えている。   As a conventional starter electromagnetic switch device, for example, a starter structure for starting an engine disclosed in Japanese Utility Model Publication No. 56-42437 (see Patent Document 1) is known. The structure includes electromagnetic force means for engaging the pinion with the ring gear, and an electromagnetic switch provided in parallel with the electromagnetic force means.

実公昭56−42437号公報Japanese Utility Model Publication No. 56-42437

上述した従来の特許文献1に記載されたスタータ用電磁スイッチ装置においては、ピニオンギヤとリングギヤの噛合不良を防止する技術を備えているため、アイドルストップ機能を備える自動車への搭載に対しては有効であるが、電磁力手段と電磁開閉器がモータの径方向外周に突出しているため、スタータ全体としての小型化とは相反しているという課題が生じる。   The electromagnetic switch device for starter described in the above-mentioned conventional patent document 1 is equipped with a technique for preventing the meshing failure between the pinion gear and the ring gear, and is therefore effective for mounting on an automobile having an idle stop function. However, since the electromagnetic force means and the electromagnetic switch protrude from the outer periphery in the radial direction of the motor, there arises a problem that it is contrary to the downsizing of the starter as a whole.

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あり、電磁継電器と電磁石を同軸上直列に配置することにより小型化を図ることができるスタータ用電磁スイッチ装置を提供することを目的としている。   The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an electromagnetic switch device for a starter that can be miniaturized by arranging an electromagnetic relay and an electromagnet coaxially in series. It is said.

この発明に係わるスタータ用電磁スイッチ装置は、モータ回路を開閉する可動鉄心と固定鉄心を有する電磁継電器と、ピニオンギヤをリングギヤ方向に動かす可動鉄心と固定鉄心を有する電磁石とを備え、前記電磁継電器の可動鉄心の中心軸と前記電磁石の可動鉄心の中心軸が同軸上に直列に配置され、前記電磁継電器の磁気回路であり外枠を構成する継鉄と前記電磁石の磁気回路であり外枠を構成する継鉄が一体に構成されたスタータ用電磁スイッチ装置であって、前記電磁継電器は巻枠に巻着された励磁コイルを有し、前記電磁石は巻枠に巻着された励磁コイルを有し、バッテリ端子とモータ端子が配置されるとともに前記電磁継電器の前記巻枠側に嵌合穴が形成された端子台を有し、前記電磁石の巻枠から突出して設けられ、前記電磁継電器の巻枠を貫通して係合され、前記電磁継電器の前記巻枠と前記電磁石の前記巻枠の回転方向の位置決めを行うとともに前記電磁石の前記励磁コイルの口出し線を保護する口出し部と、前記電磁継電器の巻枠から突出して設けられ、前記電磁継電器の前記固定鉄心を貫通するとともに端子台の嵌合穴に係合され、前記端子台と前記電磁継電器の前記巻枠の回転方向の位置決めを行うとともに前記電磁継電器の前記励磁コイルの口出し線を保護する口出し部とを備えたものである。 An electromagnetic switch device for a starter according to the present invention includes an electromagnetic relay having a movable iron core and a fixed iron core for opening and closing a motor circuit, a movable iron core for moving a pinion gear in a ring gear direction, and an electromagnet having a fixed iron core, and the movable electromagnetic relay device The central axis of the iron core and the central axis of the movable core of the electromagnet are coaxially arranged in series, and are the magnetic circuit of the electromagnetic relay and the magnetic circuit of the yoke and the electromagnet that constitutes the outer frame and constitutes the outer frame An electromagnetic switch device for a starter in which a yoke is integrally formed, wherein the electromagnetic relay has an exciting coil wound around a winding frame, and the electromagnet has an exciting coil wound around a winding frame, A battery terminal and a motor terminal are disposed, and a terminal block having a fitting hole formed on the winding frame side of the electromagnetic relay is provided to project from the winding frame of the electromagnet. A lead portion that penetrates and engages with a winding frame of the electric appliance, positions the winding frame of the electromagnetic relay and the winding direction of the electromagnet in the rotation direction, and protects the lead wire of the excitation coil of the electromagnet; Positioning of the rotation direction of the winding frame of the terminal block and the electromagnetic relay provided by projecting from the winding frame of the electromagnetic relay, penetrating the fixed iron core of the electromagnetic relay and engaging with the fitting hole of the terminal block And a lead portion for protecting the lead wire of the exciting coil of the electromagnetic relay .

また、この発明に係わるスタータ用電磁スイッチ装置は、前記端子台の前記バッテリ端子と前記モータ端子の中心を結んだ線で分割した2つの領域のいずれか一方の領域に前記電磁石の励磁端子と前記電磁継電器の励磁端子を設置したものである。 Further, the starter electromagnetic switch device according to the present invention is characterized in that the electromagnet excitation terminal and the electromagnet excitation terminal are arranged in one of two regions divided by a line connecting the battery terminal of the terminal block and the center of the motor terminal. The excitation terminal of the electromagnetic relay is installed.

この発明に係わるスタータ用電磁スイッチ装置は、電磁継電器と電磁石を同軸上直列に配置するとともに、前記電磁石の巻枠から突出して設けられ、前記電磁継電器の巻枠を貫通して係合され、前記電磁継電器の前記巻枠と前記電磁石の前記巻枠の回転方向の位置決めを行うとともに前記電磁石の前記励磁コイルの口出し線を保護する口出し部と、前記電磁継電器の巻枠から突出して設けられ、前記電磁継電器の前記固定鉄心を貫通するとともに端子台の嵌合穴に係合され、前記端子台と前記電磁継電器の前記巻枠の回転方向の位置決めを行うとともに前記電磁継電器の前記励磁コイルの口出し線を保護する口出し部とを備えたことにより、小型化を図ることができるとともに電磁継電器の巻枠と電磁石の巻枠との位置決めを行うことができるスタータ用電磁スイッチ装置を得ることができる。 An electromagnetic switch device for a starter according to the present invention has an electromagnetic relay and an electromagnet arranged coaxially in series, is provided so as to protrude from a winding frame of the electromagnet, is penetrated and engaged through the winding frame of the electromagnetic relay, Positioning of the winding frame of the electromagnetic relay and the winding direction of the electromagnet in the rotation direction and protecting the lead wire of the exciting coil of the electromagnet, provided protruding from the winding frame of the electromagnetic relay, It penetrates through the fixed iron core of the electromagnetic relay and is engaged with the fitting hole of the terminal block, positions the terminal block and the winding frame of the electromagnetic relay in the rotation direction, and leads the excitation coil of the electromagnetic relay by and a lead-out portion to protect, it is possible to perform positioning of the winding frame and the bobbin of the electromagnet of the electromagnetic relay makes it possible to reduce the size It is possible to obtain an electromagnetic switch device for a starter.

また、この発明に係わるスタータ用電磁スイッチ装置は、端子台のバッテリ端子とモータ端子の中心を結んだ線で分割した2つの領域のいずれか一方の領域に電磁石の励磁端子と電磁継電器の励磁端子を設置したことにより、作業性を向上させることができるスタータ用電磁スイッチ装置を得ることができる。 In addition, the electromagnetic switch device for a starter according to the present invention has an electromagnet excitation terminal and an electromagnetic relay excitation terminal in one of two areas divided by a wire connecting the battery terminal of the terminal block and the center of the motor terminal. By installing the, an electromagnetic switch device for starter that can improve workability can be obtained.

この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を搭載したスタータを一部断面で示す構成図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the starter carrying the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention in a partial cross section. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を搭載したスタータの結線図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a connection diagram of the starter which mounts the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を端子台側から見た図である。It is the figure which looked at the electromagnetic switch device for starters concerning Embodiment 1 of this invention from the terminal block side.

この発明の実施の形態1に係わるスタータ用電磁スイッチ装置における図3の縦断面図である。It is a longitudinal cross-sectional view of FIG. 3 in the electromagnetic switch device for starters concerning Embodiment 1 of this invention. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置における図3の横断面図である。It is a cross-sectional view of FIG. 3 in the electromagnetic switch device for starters concerning Embodiment 1 of this invention. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を継鉄の底部側から見た図である。It is the figure which looked at the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the bottom part side of the yoke. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のA−A線における断面図である。It is sectional drawing in the AA of FIG. 5 which shows the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁継電器の巻枠を端子台側から見た図である。It is the figure which looked at the winding frame of the electromagnetic relay in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the terminal block side. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のB−B線における電磁継電器の巻枠の断面図である。It is sectional drawing of the winding frame of the electromagnetic relay in the BB line of FIG. 5 which shows the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention.

この発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のC−C線における断面図である。It is sectional drawing in the CC line of FIG. 5 which shows the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を端子台側から見た図である。It is the figure which looked at the winding frame of the electromagnet in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the terminal block side. この発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を継鉄の底部側から見た図である。It is the figure which looked at the winding frame of the electromagnet in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the bottom side of the yoke.

この発明の実施の形態2に係わるスタータ用電磁スイッチ装置を示す断面図である。It is sectional drawing which shows the electromagnetic switch apparatus for starters concerning Embodiment 2 of this invention. この発明の実施の形態3に係わるスタータ用電磁スイッチ装置を端子台側から見た図である。It is the figure which looked at the electromagnetic switch apparatus for starters concerning Embodiment 3 of this invention from the terminal block side. この発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のA−A線に対応した断面図である。It is sectional drawing corresponding to the AA line of FIG. 5 about the electromagnetic switch apparatus for starters concerning Embodiment 3 of this invention.

この発明の実施の形態3に係わるスタータ用電磁スイッチ装置における電磁継電器の巻枠を端子台側から見た図である。It is the figure which looked at the winding frame of the electromagnetic relay in the electromagnetic switch apparatus for starters concerning Embodiment 3 of this invention from the terminal block side. この発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のB−B線に対応した電磁継電器の巻枠の断面図である。It is sectional drawing of the winding frame of the electromagnetic relay corresponding to the BB line of the starter electromagnetic switch apparatus concerning Embodiment 3 of this invention. この発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のC−C線に対応した電磁石の巻枠の断面図である。It is sectional drawing of the winding frame of the electromagnet corresponding to CC line of FIG. 5 about the electromagnetic switch apparatus for starters concerning Embodiment 3 of this invention. この発明の実施の形態3に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を端子台側から見た図である。It is the figure which looked at the winding frame of the electromagnet in the electromagnetic switch apparatus for starters concerning Embodiment 3 of this invention from the terminal block side.

実施の形態1.
以下、この発明の実施の形態1を図1ないし図12に基づいて説明する。図1はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を搭載したスタータを一部断面で示す構成図である。図2はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を搭載したスタータの結線図である。図3はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を端子台側から見た図である。図4はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置における図3の縦断面図である。図5はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置における図3の横断面図である。図6はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を継鉄の底部側から見た図である。図7はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のA−A線における断面図である。図8はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁継電器の巻枠を端子台側から見た図である。図9はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のB−B線における電磁継電器の巻枠の断面図である。図10はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置を示す図5のC−C線における断面図である。図11はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を端子台側から見た図である。図12はこの発明の実施の形態1に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を継鉄の底部側から見た図である。
Embodiment 1.
Embodiment 1 of the present invention will be described below with reference to FIGS. 1 is a block diagram showing a partial cross section of a starter equipped with an electromagnetic switch device for a starter according to Embodiment 1 of the present invention. FIG. 2 is a connection diagram of a starter equipped with the starter electromagnetic switch device according to Embodiment 1 of the present invention. FIG. 3 is a view of the starter electromagnetic switch device according to the first embodiment of the present invention as seen from the terminal block side. FIG. 4 is a longitudinal sectional view of FIG. 3 in the starter electromagnetic switch device according to Embodiment 1 of the present invention. 5 is a transverse sectional view of FIG. 3 in the starter electromagnetic switch device according to Embodiment 1 of the present invention. FIG. 6 is a view of the starter electromagnetic switching device according to the first embodiment of the present invention as viewed from the bottom side of the yoke. 7 is a cross-sectional view taken along the line AA of FIG. 5, showing the starter electromagnetic switch device according to Embodiment 1 of the present invention. FIG. 8 is a view of the winding frame of the electromagnetic relay in the starter electromagnetic switch device according to Embodiment 1 of the present invention, as viewed from the terminal block side. FIG. 9 is a cross-sectional view of the winding frame of the electromagnetic relay taken along line BB in FIG. 5 showing the starter electromagnetic switch device according to Embodiment 1 of the present invention. 10 is a cross-sectional view taken along the line CC of FIG. 5, showing the starter electromagnetic switch device according to Embodiment 1 of the present invention. FIG. 11 is a view of the electromagnet frame in the starter electromagnetic switch device according to Embodiment 1 of the present invention, as viewed from the terminal block side. FIG. 12 is a view of the electromagnet winding frame of the starter electromagnetic switch device according to Embodiment 1 of the present invention as viewed from the bottom side of the yoke.

これら各図において、スタータは回転力を発生するモータ1、このモータ1から回転力を取り出す出力軸2、この出力軸2上に軸方向摺動可能に配置され出力軸2からモータ1の回転力が伝達されるオーバランニングクラッチ3、このオーバランニングクラッチ3の構成部品でありオーバランニングクラッチ3に伝達されたモータ1の回転力をエンジンのリングギヤ4に伝達するピニオンギヤ5、モータ回路を構成する主接点6を備え、主接点6を開閉する電磁継電器7と、この電磁継電器7と同軸直列に軸方向シフトレバー8側に配置され軸方向シフトレバー8を介してピニオンギヤ5をリングギヤ4方向に移動させる電磁石9を備えたスタータ用電磁スイッチ装置10を備えている。   In each of these drawings, the starter is a motor 1 that generates a rotational force, an output shaft 2 that extracts the rotational force from the motor 1, and an axially slidable arrangement on the output shaft 2, and the rotational force of the motor 1 from the output shaft 2 Is transmitted to the ring gear 4 of the engine and the pinion gear 5 which is a component of the overrunning clutch 3 and is transmitted to the ring gear 4 of the engine. 6, an electromagnetic relay 7 that opens and closes the main contact 6, and an electromagnet that is arranged on the axial shift lever 8 side coaxially with the electromagnetic relay 7 and moves the pinion gear 5 in the ring gear 4 direction via the axial shift lever 8. The starter electromagnetic switch device 10 is provided.

次に、図3から図6にてスタータ用電磁スイッチ装置10の構成について説明する。スタータ用電磁スイッチ装置10は、大きく分けて、継鉄12、電磁継電器7、電磁石9に分けられる。継鉄12内に電磁石9、電磁継電器7の順に収納されスタータ用電磁スイッチ装置10として構成され機能する。   Next, the configuration of the starter electromagnetic switch device 10 will be described with reference to FIGS. The starter electromagnetic switch device 10 is roughly divided into a yoke 12, an electromagnetic relay 7, and an electromagnet 9. The electromagnet 9 and the electromagnetic relay 7 are housed in this order in the yoke 12 and function as a starter electromagnetic switch device 10.

まず、継鉄12は電磁継電器7と電磁石9の磁気回路を構成するため磁性材料であり、電磁継電器7と電磁石9の外周を一体に形成するコップ状の部品で、カシメ部12b、嵌合部12c、胴部12d、底部12a、雌ネジ12e、貫通穴12fを備えている。カシメ部12bは開口部端に設けられ、端子台11を挿入後内周側に折り曲げられる薄肉円筒形状であり、嵌合部12cは電磁継電器7の第1の固定鉄心14が嵌合し、胴部12dの内周に電磁石9と電磁継電器7が挿入される。底部12aはフロントブラケット15に当接、雌ネジ12eは図示しない締結ネジでフロントブラケット15に締結するために設置され、貫通穴12fは支持部材16が貫通し、軸方向シフトレバー8と結合する電磁石9の可動鉄心17が摺動可能に設置される。 First, the yoke 12 is a magnetic material for constituting the magnetic circuit of the electromagnetic relay 7 and the electromagnet 9, and is a cup-shaped part that integrally forms the outer periphery of the electromagnetic relay 7 and the electromagnet 9, and includes a caulking portion 12b and a fitting portion. 12c, a trunk portion 12d, a bottom portion 12a, a female screw 12e, and a through hole 12f. The crimping portion 12b is provided at the end of the opening and has a thin cylindrical shape that is bent toward the inner peripheral side after the terminal block 11 is inserted, and the fitting portion 12c is fitted with the first fixed iron core 14 of the electromagnetic relay 7. The electromagnet 9 and the electromagnetic relay 7 are inserted in the inner periphery of the part 12d. The bottom portion 12a is in contact with the front bracket 15, the female screw 12e is installed to be fastened to the front bracket 15 with a fastening screw (not shown), and the through hole 12f is penetrated by the support member 16 and coupled with the axial shift lever 8. Nine movable iron cores 17 are slidably installed.

次に、電磁継電器7について説明する。電磁継電器7は可動鉄心18、励磁コイル19、巻枠20、支持部材21、第1の固定鉄心14、第2の固定鉄心22、パッキン23、ロッド24、復帰バネ25、端子台11、非磁性部材13を備える。   Next, the electromagnetic relay 7 will be described. The electromagnetic relay 7 includes a movable iron core 18, an exciting coil 19, a winding frame 20, a support member 21, a first fixed iron core 14, a second fixed iron core 22, a packing 23, a rod 24, a return spring 25, a terminal block 11, and a nonmagnetic material. A member 13 is provided.

可動鉄心18は磁性材料であり、磁気回路を構成し、復帰バネ25の力で軸方向の第2の固定鉄心22側に付勢され、支持部材21の内周面に軸方向摺動可能に保持される。   The movable iron core 18 is a magnetic material, constitutes a magnetic circuit, is urged toward the second fixed iron core 22 in the axial direction by the force of the return spring 25, and is slidable in the axial direction on the inner peripheral surface of the support member 21. Retained.

励磁コイル19は導電材であり、巻枠20に巻回され、励磁コイル19の端部は口出し線19a,19bとして巻枠20の口出し部20a,20bから引き出される。図7は図5のA−A線における断面図であり、巻枠20から引き出された口出し線19a,19bの状態を示した図である。一端である巻き始め側口出し線19aは口出し部20a、固定部材26を通って端子台11の外部に引き出され、励磁端子27に導電可能に固定される。他端である巻き終わり側口出し線19bは口出し部20bを通って固定鉄心14の端子台11側に引き出され、固定鉄心14の端子台11側端面に導通可能に固定される。   The exciting coil 19 is a conductive material and is wound around the winding frame 20, and ends of the exciting coil 19 are drawn out from the leading portions 20a and 20b of the winding frame 20 as lead wires 19a and 19b. FIG. 7 is a cross-sectional view taken along the line AA in FIG. 5 and shows the state of the lead wires 19a and 19b drawn from the reel 20. The winding start side lead wire 19a, which is one end, is drawn out of the terminal block 11 through the lead portion 20a and the fixing member 26, and is fixed to the excitation terminal 27 so as to be conductive. The winding end side lead wire 19b, which is the other end, is drawn out to the terminal block 11 side of the fixed core 14 through the lead portion 20b, and is fixed to the terminal block 11 side end surface of the fixed core 14 so as to be conductive.

巻枠20は絶縁材であり、胴部、端子台11側の壁、電磁石9側の壁で構成される。胴部は中空円筒形状であり、胴部と端子台11側の壁、電磁石9側の壁で構成される空間に励磁コイル19が巻回される。端子台11側の壁は固定鉄心14の当接面と、端子台11側に突出した口出し部20a,20bを備え、この口出し部20a,20bに設けられた溝から励磁コイル19の口出し線19a,19bが引き出される。口出し部は電磁継電器7の巻き始め側口出し線19aを引き出す口出し部20aと、電磁継電器7の巻き終わり側口出し線19bとともに電磁石9の励磁コイル28の巻き始め側口出し線28aを引き出す口出し部20bがあり、180°対向した位置に設けられ、第1の固定鉄心14の切欠き14aを貫通し、端子台11の嵌合穴11aに嵌合することで回転方向の位置決めがされている。口出し部20bは内部に壁20cを設置し電磁石9の口出し線28aと電磁継電器7の口出し線19bの間を絶縁している。また外周側にも壁があり、口出し線28aと継鉄12の間を電気的に絶縁している。電磁石9側の壁には後述する電磁石9の巻枠29の口出し部29aが貫通する切欠き20dが設けられ、この電磁石9の口出し部29aと巻枠20の切欠き20dで電磁継電器7の巻枠20と電磁石9の巻枠29の回転方向の位置決めがされている。なお、20eは挿通溝であり、口出し線19aが挿通する。20fは嵌合部であり、支持部材21の図示しない外周鍔部が嵌合される。20gは巻枠20の中空部である。20hは挿通穴であり、口出し線28aが挿通する。   The winding frame 20 is an insulating material, and includes a body portion, a wall on the terminal block 11 side, and a wall on the electromagnet 9 side. The body portion has a hollow cylindrical shape, and an exciting coil 19 is wound around a space formed by the body portion, the wall on the terminal block 11 side, and the wall on the electromagnet 9 side. The wall on the terminal block 11 side includes a contact surface of the fixed iron core 14 and lead portions 20a and 20b protruding to the terminal block 11 side, and lead wires 19a of the exciting coil 19 from grooves provided in the lead portions 20a and 20b. 19b are pulled out. The lead-out portion includes a lead-out portion 20a for drawing out the winding start side lead wire 19a of the electromagnetic relay 7, and a lead-out portion 20b for drawing out the winding start side lead wire 28a of the exciting coil 28 of the electromagnet 9 together with the winding end side lead wire 19b of the electromagnetic relay 7. Yes, provided at a position opposed to 180 °, passes through the notch 14a of the first fixed iron core 14, and is fitted in the fitting hole 11a of the terminal block 11, thereby positioning in the rotational direction. The lead portion 20b is provided with a wall 20c therein to insulate between the lead wire 28a of the electromagnet 9 and the lead wire 19b of the electromagnetic relay 7. There is also a wall on the outer peripheral side, which electrically insulates between the lead wire 28a and the yoke 12. The wall on the electromagnet 9 side is provided with a notch 20d through which a lead portion 29a of a winding frame 29 of the electromagnet 9 described later passes, and the winding of the electromagnetic relay 7 is made by the lead portion 29a of the electromagnet 9 and the notch 20d of the winding frame 20. The frame 20 and the winding frame 29 of the electromagnet 9 are positioned in the rotational direction. Reference numeral 20e denotes an insertion groove through which the lead wire 19a is inserted. 20f is a fitting part and the outer peripheral collar part which the support member 21 does not illustrate is fitted. 20 g is a hollow portion of the winding frame 20. 20h is an insertion hole through which the lead wire 28a is inserted.

支持部材21は非磁性材料であり、巻枠20の胴部内周に設置され、内周面が可動鉄心18の摺動面を形成し、第2の固定鉄心22側の端部は第2の固定鉄心22の内周に嵌合する。支持部材21の第1の固定鉄心14側の端部の内周面は第1の固定鉄心14の外周に嵌合する。第1の固定鉄心14側の端部は外側に折り曲げられて第1の固定鉄心14と巻枠20間に挟まれて固定される。端子台11側の嵌合部を除く内周面は可動鉄心18の摺動面を形成する。   The support member 21 is made of a nonmagnetic material, and is installed on the inner periphery of the body of the winding frame 20. The inner peripheral surface forms a sliding surface of the movable iron core 18, and the end portion on the second fixed iron core 22 side is the second end. The inner periphery of the fixed iron core 22 is fitted. The inner peripheral surface of the end portion of the support member 21 on the first fixed iron core 14 side is fitted to the outer periphery of the first fixed iron core 14. The end portion on the first fixed iron core 14 side is bent outward and is sandwiched and fixed between the first fixed iron core 14 and the winding frame 20. The inner peripheral surface excluding the fitting part on the terminal block 11 side forms a sliding surface of the movable iron core 18.

第1の固定鉄心14は磁性材料であり、磁気回路を構成し、外径の小さい部分が支持部材21の内周に嵌合、外径の大きい部分が継鉄12に嵌合、端子台11側の端面はパッキン23の接触面かつ励磁コイル19巻き終わり側口出し線19bを導電可能に固定する面、可動鉄心18側の端面は可動鉄心18の当接面、中心部にはロッド24が軸方向に摺動可能な貫通穴を備えている。第1の固定鉄心14には端子台11に加わる外力(バッテリ端子30、モータ端子31にナット32を締め付ける際の締付トルク)を巻枠20の口出し部20a,20bを介して受け止める必要があるので継鉄12の内径と第1の固定鉄心14の外径はシマリバメの寸法設定である。例えば、継鉄12の内径<第1の固定鉄心14の外径の寸法設定である。 The first fixed iron core 14 is a magnetic material and constitutes a magnetic circuit. A portion having a small outer diameter is fitted to the inner periphery of the support member 21, and a portion having a larger outer diameter is fitted to the yoke 12, and the terminal block 11 The end surface on the side is a contact surface of the packing 23 and the surface for fixing the exciting coil 19 winding end lead wire 19b to be conductive, the end surface on the movable iron core 18 side is the contact surface of the movable iron core 18, and the rod 24 is a shaft in the center. It has a through hole that can slide in the direction. The first fixed iron core 14 needs to receive external force applied to the terminal block 11 (tightening torque when the nut 32 is fastened to the battery terminal 30 and the motor terminal 31) via the lead portions 20a and 20b of the winding frame 20. Therefore, the inner diameter of the yoke 12 and the outer diameter of the first fixed iron core 14 are the size settings of the sibling. For example, the dimension of the inner diameter of the yoke 12 <the outer diameter of the first fixed iron core 14 is set.

第2の固定鉄心22は磁性材料であり、磁気回路を構成し、内周面に支持部材21が嵌合し、外周部が継鉄12に嵌合する。第1の固定鉄心14と違って外力を受ける必要がないので継鉄12の内径と第2の固定鉄心22の外径はスキマバメの寸法設定であるが、嵌合部22aが磁気回路を構成しているため隙間は極力小さく設定されている。例えば、継鉄12の内径>第2の固定鉄心22の外径の寸法設定である。   The second fixed iron core 22 is a magnetic material and constitutes a magnetic circuit. The support member 21 is fitted to the inner peripheral surface, and the outer peripheral portion is fitted to the yoke 12. Unlike the first fixed iron core 14, it is not necessary to receive an external force, so the inner diameter of the yoke 12 and the outer diameter of the second fixed iron core 22 are set as gap dimensions, but the fitting portion 22 a constitutes a magnetic circuit. Therefore, the gap is set as small as possible. For example, the inner diameter of the yoke 12> the outer diameter of the second fixed iron core 22 is set.

パッキン23は弾性を持った絶縁材料であり、第1の固定鉄心14と端子台11間の間に接触圧を持たせた状態で設置され、端子台11の内壁と第1の固定鉄心14間で構成される空間である接点室37bを防水する。   The packing 23 is an insulating material having elasticity, and is installed with a contact pressure between the first fixed iron core 14 and the terminal block 11, and between the inner wall of the terminal block 11 and the first fixed iron core 14. The contact chamber 37b which is a space constituted by is waterproofed.

ロッド24には固定部材33によって接点バネ34、絶縁材35a,35b、可動接点36が軸方向に摺動可能に保持される。接点バネ34は可動接点36を固定接点30a,31a方向に付勢、絶縁材35a,35bは可動接点36を絶縁するように、可動接点36は固定接点30a,31aと対向する位置に設置される。   A contact spring 34, insulating materials 35a and 35b, and a movable contact 36 are held on the rod 24 by a fixed member 33 so as to be slidable in the axial direction. The contact spring 34 biases the movable contact 36 in the direction of the fixed contacts 30a and 31a, and the movable contacts 36 are installed at positions facing the fixed contacts 30a and 31a so that the insulating materials 35a and 35b insulate the movable contact 36. .

復帰バネ25はロッド24と可動鉄心18を第2の固定鉄心22方向に付勢するように端子台11と固定部材33の間に設置される。   The return spring 25 is installed between the terminal block 11 and the fixed member 33 so as to urge the rod 24 and the movable iron core 18 toward the second fixed iron core 22.

端子台11には絶縁部材37、電磁継電器7の励磁端子27、電磁石9の励磁端子38、励磁端子27,38を固定する固定部材26、バッテリ端子30,モータ端子31、パッキン39、バッテリ端子30とモータ端子31を固定する固定部材40を備える。   The terminal block 11 includes an insulating member 37, an excitation terminal 27 of the electromagnetic relay 7, an excitation terminal 38 of the electromagnet 9, a fixing member 26 for fixing the excitation terminals 27, 38, a battery terminal 30, a motor terminal 31, a packing 39, and a battery terminal 30. And a fixing member 40 for fixing the motor terminal 31.

絶縁部材37は絶縁材料であり、励磁端子27,38、バッテリ端子30、モータ端子31を固定するための貫通穴37a、固定接点30a,31a方向に可動接点36が軸方向に移動可能な空間である接点室37b、第1の固定鉄心14側の端面にパッキン23の当接面37cを備える。励磁端子27,38は車両側の配線と励磁コイル19,28を着脱可能にする端子であり、固定部材26は中空円筒形状で内部を口出し線19a,28aが貫通するとともに端部を押し広げることで励磁端子27,38を固定し、バッテリ端子30は可動接点36側に主接点6を構成する固定接点30aとその反対側に車両側のバッテリからの配線が接続されるネジ部30bを備え、モータ端子31は可動接点36側に主接点6を構成する固定接点31aとその反対側にモータ1からの配線が接続されるネジ部31bを備え、バッテリ端子30とモータ端子31は固定部材40で絶縁部材37に固定される。 The insulating member 37 is an insulating material and is a space in which the movable contact 36 can move in the axial direction in the direction of the fixed contact 30a, 31a , the through hole 37a for fixing the excitation terminals 27, 38, the battery terminal 30, and the motor terminal 31. A contact surface 37c of the packing 23 is provided on an end surface of the contact chamber 37b and the first fixed iron core 14 side. The excitation terminals 27 and 38 are terminals that allow the vehicle-side wiring and the excitation coils 19 and 28 to be detachable. The fixing member 26 has a hollow cylindrical shape, and the lead wires 19a and 28a pass through the inside and push the ends wide. The battery terminals 30 include a fixed contact 30a constituting the main contact 6 on the movable contact 36 side and a screw portion 30b to which wiring from the battery on the vehicle side is connected on the opposite side. The motor terminal 31 includes a fixed contact 31 a constituting the main contact 6 on the movable contact 36 side and a screw portion 31 b to which the wiring from the motor 1 is connected on the opposite side. The battery terminal 30 and the motor terminal 31 are fixed members 40. It is fixed to the insulating member 37.

非磁性部材13は非磁性材料であり、電磁継電器7と電磁石9の磁気回路を分離し、電磁継電器7側の端面が可動鉄心18と第2の固定鉄心22に当接し、電磁石9側の端面が固定鉄心41に当接し、内周は第2の固定鉄心22とシマリバメの寸法関係にある。例えば、非磁性部材13の内径<第2の固定鉄心22の外径の寸法関係にある。   The nonmagnetic member 13 is a nonmagnetic material, separates the magnetic circuit of the electromagnetic relay 7 and the electromagnet 9, the end surface on the electromagnetic relay 7 side abuts on the movable core 18 and the second fixed core 22, and the end surface on the electromagnet 9 side. Abuts against the fixed iron core 41, and the inner circumference is in a dimensional relationship between the second fixed iron core 22 and the scallop. For example, the inner diameter of the nonmagnetic member 13 is smaller than the outer diameter of the second fixed iron core 22.

次に、電磁石9について説明する。電磁石9は励磁コイル28、巻枠29、支持部材1
6、固定鉄心41、復帰バネ42、可動鉄心17を備える。
Next, the electromagnet 9 will be described. The electromagnet 9 includes an exciting coil 28, a winding frame 29, and a support member 1.
6. A fixed iron core 41, a return spring 42, and a movable iron core 17 are provided.

励磁コイル28は導電材であり、巻枠に巻回され、励磁コイル28の端部は口出し線として巻枠の口出し部から引き出される。図10は図5の断面C−Cであり電磁石9の口出し部を示した図である。一端である巻き始め側口出し線28aは電磁石9の口出し部29a,電磁継電器7の口出し部20b、固定部材26を通って端子台11の外部まで引き出されて励磁端子38に導電可能に固定される。他端である巻き終わり側口出し線28bは口出し部29bを通って固定鉄心41の電磁継電器7側に引き出され、固定鉄心41の電磁継電器7側の端面に導通可能に固定される。   The exciting coil 28 is a conductive material and is wound around a winding frame, and the end of the exciting coil 28 is drawn out from the leading portion of the winding frame as a lead wire. FIG. 10 is a cross-sectional view taken along the line C-C of FIG. The winding start side lead wire 28a, which is one end, is drawn out to the outside of the terminal block 11 through the lead portion 29a of the electromagnet 9, the lead portion 20b of the electromagnetic relay 7, and the fixing member 26, and is electrically conductively fixed to the excitation terminal 38. . The winding end side lead wire 28b which is the other end is drawn out to the electromagnetic relay 7 side of the fixed core 41 through the lead portion 29b, and is fixed to the end surface of the fixed core 41 on the electromagnetic relay 7 side so as to be conductive.

巻枠29は絶縁材であり、胴部、固定鉄心41側の壁、底部側の壁で構成される空間に励磁コイル28が巻回され、固定鉄心41側の壁から突出した口出し部29a,29bから励磁コイル28の口出し線が引き出される。図11が巻枠29を図3の方向から見た図、図12が巻枠29を図6の方向から見た図である、口出し部は巻き始め側口出し線28aを引き出す口出し部29aと巻き終わり側口出し線28bを引き出す口出し部29bが180°対向した位置に設けられ、固定鉄心41の切欠きを貫通している。巻き始め側口出し線28aを引き出す口出し部29aについては電磁継電器7の励磁コイル19と継鉄12との接触から保護するため、巻き終わり側口出し線28bを引き出す口出し部29bよりも長く電磁継電器7の巻枠20の端子台11側の壁付近まで突出している。この口出し部29aは電磁継電器7の巻枠20の切欠き20dを貫通しているので、口出し部29aと切欠き20dで電磁石9の巻枠29と電磁継電器7の巻枠20間の回転方向の位置決めが構成される。また底部12a側には継鉄12の雌ネジ12eを貫通した締結ネジの逃げ部29cが設置される。なお、29dは底部12a側の逃げ部29cとつながる平坦部である。29eは挿通溝であり、口出し線28bが挿通する。29fは嵌合部であり、支持部材16の図示しない外周鍔部が嵌合される。29gは巻枠29の中空部である。29hは挿通溝であり、口出し線28aが挿通する。   The winding frame 29 is an insulating material, and an exciting coil 28 is wound around a space formed by a body portion, a wall on the fixed iron core 41 side, and a wall on the bottom side, and a lead portion 29a protruding from the wall on the fixed iron core 41 side, The lead wire of the exciting coil 28 is drawn out from 29b. 11 is a view of the reel 29 as viewed from the direction of FIG. 3, and FIG. 12 is a view of the reel 29 as viewed from the direction of FIG. 6. The lead portion includes a lead portion 29a that pulls out the winding start side lead wire 28a. A lead-out portion 29b for drawing out the end-side lead-out wire 28b is provided at a position opposed to 180 ° and penetrates the notch of the fixed iron core 41. The lead-out portion 29a for drawing out the winding start side lead wire 28a is protected from the contact between the exciting coil 19 of the electromagnetic relay 7 and the yoke 12, and the electromagnetic relay 7 has a longer length than the lead portion 29b for drawing out the winding end lead wire 28b. The reel 20 protrudes to the vicinity of the wall on the terminal block 11 side. Since the lead portion 29a passes through the notch 20d of the reel 20 of the electromagnetic relay 7, the rotation direction between the reel 29 of the electromagnet 9 and the reel 20 of the electromagnetic relay 7 is determined by the lead portion 29a and the notch 20d. Positioning is configured. Further, a fastening screw escape portion 29c penetrating the female screw 12e of the yoke 12 is installed on the bottom 12a side. In addition, 29d is a flat part connected with the escape part 29c by the side of the bottom part 12a. Reference numeral 29e denotes an insertion groove through which the lead wire 28b is inserted. 29f is a fitting part and the outer peripheral collar part which the support member 16 does not illustrate is fitted. 29 g is a hollow portion of the winding frame 29. Reference numeral 29h denotes an insertion groove through which the lead wire 28a is inserted.

支持部材16は非磁性材料であり、巻枠29の胴部内周に設置され、内周面が可動鉄心17の摺動面を形成し、底部12a側の端部は継鉄12の内周に嵌合し、固定鉄心41側の端部の内周面は固定鉄心41の外周に嵌合する。固定鉄心41側の端部は外側に折り曲げられて固定鉄心41と巻枠29間に挟まれて固定される。 The support member 16 is made of a non-magnetic material, and is installed on the inner periphery of the body of the winding frame 29. The inner peripheral surface forms the sliding surface of the movable iron core 17, and the end on the bottom 12a side is on the inner periphery of the yoke 12. The inner peripheral surface of the end portion on the fixed iron core 41 side is fitted to the outer periphery of the fixed iron core 41. The end on the fixed iron core 41 side is bent outward and is sandwiched and fixed between the fixed iron core 41 and the winding frame 29.

固定鉄心41は磁性材料であり、磁気回路を構成し、外径の小さい部分が支持部材16の内周に嵌合、外径の大きい部分が継鉄12に嵌合、電磁継電器7側の端面は非磁性部材13の接触面かつ口出し線28bを導電可能に固定する面、可動鉄心17側の端面は可動鉄心17の当接面と復帰バネ42の当接面を備えている。電磁石9の固定鉄心41は電磁継電器7の第1の固定鉄心14と違って端子締め付け時の外力を受ける必要がないので継鉄12の内径と固定鉄心41の外径はスキマバメの寸法設定であるが、嵌合部41aが磁気回路を構成しているため隙間は極力小さく設定される。例えば、継鉄12の内径>固定鉄心41の外径の寸法設定である。   The fixed iron core 41 is a magnetic material and constitutes a magnetic circuit. A portion with a small outer diameter is fitted to the inner periphery of the support member 16, a portion with a larger outer diameter is fitted to the yoke 12, and the end surface on the electromagnetic relay 7 side Is a contact surface of the nonmagnetic member 13 and a surface for fixing the lead wire 28b to be conductive, and an end surface on the movable iron core 17 side includes a contact surface of the movable iron core 17 and a contact surface of the return spring 42. Unlike the first fixed iron core 14 of the electromagnetic relay 7, the fixed iron core 41 of the electromagnet 9 does not need to receive an external force at the time of terminal tightening. Therefore, the inner diameter of the yoke 12 and the outer diameter of the fixed iron core 41 are dimension settings of the clearance. However, since the fitting portion 41a constitutes a magnetic circuit, the gap is set as small as possible. For example, the inner diameter of the yoke 12> the outer diameter of the fixed iron core 41 is set.

復帰バネ42は固定鉄心41と可動鉄心17の間に設置され可動鉄心17を軸方向シフトレバー8側に付勢する。   The return spring 42 is installed between the fixed iron core 41 and the movable iron core 17 and biases the movable iron core 17 toward the axial shift lever 8 side.

可動鉄心17は磁性材料であり、係合部材43、ピニオン付勢バネ44、固定部材45を備えていて、支持部材16の内周面軸方向に摺動可能に保持され、復帰バネ42の力で軸方向シフトレバー8方向に付勢されている。係合部材43は軸方向シフトレバー8と可動鉄心17を係合する部材であり、可動鉄心17側一端の径大部がピニオン付勢バネ44と当接し、他端は軸方向シフトレバー8と係合する。ピニオン付勢バネ44は係合部材43と固定部材45の間に設置され、係合部材43よりも可動鉄心17の固定鉄心41方向の移動量が大きい場合に軸方向シフトレバー8を固定鉄心41方向に付勢する。   The movable iron core 17 is made of a magnetic material, and includes an engaging member 43, a pinion urging spring 44, and a fixing member 45, and is held so as to be slidable in the axial direction of the inner peripheral surface of the support member 16. And is biased in the direction of the axial shift lever 8. The engaging member 43 is a member that engages the axial shift lever 8 and the movable iron core 17, the large diameter portion at one end on the movable iron core 17 side abuts on the pinion urging spring 44, and the other end contacts the axial shift lever 8. Engage. The pinion urging spring 44 is installed between the engaging member 43 and the fixed member 45, and when the moving amount of the movable iron core 17 in the direction of the fixed iron core 41 is larger than that of the engaging member 43, the axial shift lever 8 is fixed to the fixed iron core 41. Energize in the direction.

次に、このスタータ用電磁スイッチ装置10の組み立て方法について説明する。スタータ用電磁スイッチ装置10の組立には組立治具を利用する。組立治具は継鉄12の底部が当接する平面、雌ネジ12eと嵌合する位置決めピンを備えている。位置決めピンの長さは巻枠29の逃げ部29cと嵌合する高さまで延長されているので、継鉄12と電磁石9の巻枠29間の回転方向の位置決めが可能になる。   Next, a method for assembling the starter electromagnetic switch device 10 will be described. An assembly jig is used for assembling the starter electromagnetic switch device 10. The assembly jig includes a flat surface with which the bottom portion of the yoke 12 abuts and a positioning pin that fits with the female screw 12e. Since the length of the positioning pin is extended to a height at which it fits into the escape portion 29c of the winding frame 29, positioning in the rotational direction between the yoke 12 and the winding frame 29 of the electromagnet 9 becomes possible.

まず、継鉄12の開口部を天方向に向けて組立治具に載せる。次に電磁石9を継鉄12の開口部から底部12aに向かって挿入する(電磁石9の復帰バネ42と可動鉄心17はその他の部品組付完了後に組み付けても良い)。継鉄12と固定鉄心41間はスキマバメの寸法関係にあるため、挿入するに当たって大きな力は不要である。例えば、継鉄12の内径>固定鉄心41の外径の寸法関係にある。   First, the opening of the yoke 12 is placed on the assembly jig with the ceiling facing upward. Next, the electromagnet 9 is inserted from the opening of the yoke 12 toward the bottom 12a (the return spring 42 and the movable iron core 17 of the electromagnet 9 may be assembled after the completion of the assembly of other components). Since the yoke 12 and the fixed iron core 41 are in a dimensional relationship, there is no need for a large force for insertion. For example, the inner diameter of the yoke 12 is greater than the outer diameter of the fixed iron core 41.

継鉄12に対する電磁石9の位置は電磁石9の巻枠29と底部12aが当接することにより、高さ方向の位置、継鉄12の内径と電磁石9の固定鉄心41の外径で径方向の位置、組立治具の位置決めピンと巻枠29の逃げ部29cで周方向(回転方向)の位置が決まる。   The position of the electromagnet 9 relative to the yoke 12 is such that the reel 29 and the bottom 12a of the electromagnet 9 come into contact with each other in the height direction, the inner diameter of the yoke 12 and the outer diameter of the fixed iron core 41 of the electromagnet 9 in the radial direction. The position in the circumferential direction (rotation direction) is determined by the positioning pin of the assembly jig and the relief portion 29c of the winding frame 29.

続いて、電磁継電器7を挿入するが、まず、端子台11と復帰バネ25を除いた部分を挿入する。この時、電磁石9の口出し部29aと電磁継電器7の巻枠20の切欠き20dで回転方向の位置が決められる。挿入完了後、固定鉄心14を継鉄12に圧入固定することで径方向の位置と高さ方向の位置が決められる。   Subsequently, the electromagnetic relay 7 is inserted. First, the portion excluding the terminal block 11 and the return spring 25 is inserted. At this time, the position in the rotation direction is determined by the lead portion 29a of the electromagnet 9 and the notch 20d of the winding frame 20 of the electromagnetic relay 7. After the insertion is completed, the position in the radial direction and the position in the height direction are determined by press-fitting and fixing the fixed iron core 14 to the yoke 12.

続いて、復帰バネ25、端子台11を挿入し、端子台11を復帰バネ25の反力とパッキン23の反力を合わせた荷重以上の荷重で固定鉄心14方向に押し付けた状態で継鉄12のカシメ部12bをカシメ、端子台11を固定する。   Subsequently, the return spring 25 and the terminal block 11 are inserted, and the yoke 12 is pressed in the state in which the terminal block 11 is pressed in the direction of the fixed core 14 with a load equal to or greater than the combined force of the reaction force of the return spring 25 and the reaction force of the packing 23. The crimping portion 12b is crimped and the terminal block 11 is fixed.

次に、電磁継電器7と電磁石9の動作について説明する。まず、電磁継電器7の動作であるが、励磁端子27に電圧が印加されると励磁コイル19に電流が流れ、磁界が発生する。この電流が所定の電流以上になると、可動鉄心18と固定鉄心14間に働く吸引力が復帰バネ25と接点バネ34および摩擦抵抗に打ち勝って、可動鉄心18が固定鉄心14に吸着される。ロッド24は可動鉄心18の固定鉄心14側の端面と当接しているので、可動鉄心18が固定鉄心14方向に動くとロッド24も一緒に移動する。ロッド24が移動するとロッド24に保持されている可動接点36も動き、可動鉄心18が所定量動くと可動接点36と固定接点30a,31aと接触する。   Next, operations of the electromagnetic relay 7 and the electromagnet 9 will be described. First, regarding the operation of the electromagnetic relay 7, when a voltage is applied to the excitation terminal 27, a current flows through the excitation coil 19 and a magnetic field is generated. When this current exceeds a predetermined current, the attractive force acting between the movable iron core 18 and the fixed iron core 14 overcomes the return spring 25, the contact spring 34, and the frictional resistance, and the movable iron core 18 is attracted to the fixed iron core 14. Since the rod 24 is in contact with the end surface of the movable iron core 18 on the fixed iron core 14 side, the rod 24 moves together when the movable iron core 18 moves in the direction of the fixed iron core 14. When the rod 24 moves, the movable contact 36 held by the rod 24 also moves. When the movable iron core 18 moves by a predetermined amount, the movable contact 36 and the fixed contacts 30a and 31a come into contact.

さらに、可動鉄心18が固定鉄心14方向に動くと、接点バネ34の荷重が可動接点36と固定接点30a,31a間に与えられる。可動接点36と固定接点30a,31aが当接すると、バッテリからモータ1へ電力が供給されモータ1が回転する。励磁端子27への電圧印加を止めると、励磁コイル19に電流が流れなくなり、磁界が消え、復帰バネ25と接点バネ34の荷重でロッド24と可動鉄心18は元の位置に戻るので、可動接点36と固定接点30a,31aとは離れ、バッテリからの電力供給がなくなるのでモータ1は停止する。   Further, when the movable iron core 18 moves in the direction of the fixed iron core 14, the load of the contact spring 34 is applied between the movable contact 36 and the fixed contacts 30a and 31a. When the movable contact 36 and the fixed contacts 30a and 31a come into contact with each other, electric power is supplied from the battery to the motor 1 and the motor 1 rotates. When the voltage application to the excitation terminal 27 is stopped, no current flows through the excitation coil 19, the magnetic field disappears, and the load of the return spring 25 and the contact spring 34 returns the rod 24 and the movable iron core 18 to their original positions. 36 and the fixed contacts 30a and 31a are separated from each other, and power supply from the battery is lost, so the motor 1 stops.

続いて、電磁石9の動作について説明する。電磁石9の励磁端子38に電圧が印加されると励磁コイル28に電流が流れ、磁界が発生する。この電流が所定の電流以上になると、可動鉄心17と固定鉄心41間に働く吸引力が復帰バネ42とピニオン付勢バネ44および摩擦力に打ち勝って、可動鉄心17が固定鉄心41に吸着される。可動鉄心17が固定鉄心41方向に吸引されると、軸方向シフトレバー8を介してピニオンギヤ5はリングギヤ4の方向に移動するが、ピニオンギヤ5とリングギヤ4の端面同士が当接しピニオンギヤ5がリングギヤ4の歯面に入り込まなかった場合は、可動鉄心17だけがさらに動くことでピニオン付勢バネ44のたわみ量が発生し、ピニオン付勢バネ44の荷重で軸方向シフトレバー8を介してピニオンギヤ5をリングギヤ4方向に付勢する。   Next, the operation of the electromagnet 9 will be described. When a voltage is applied to the excitation terminal 38 of the electromagnet 9, a current flows through the excitation coil 28 and a magnetic field is generated. When this current exceeds a predetermined current, the attractive force acting between the movable iron core 17 and the fixed iron core 41 overcomes the return spring 42, the pinion biasing spring 44, and the friction force, and the movable iron core 17 is attracted to the fixed iron core 41. . When the movable iron core 17 is sucked in the direction of the fixed iron core 41, the pinion gear 5 moves in the direction of the ring gear 4 via the axial shift lever 8, but the end surfaces of the pinion gear 5 and the ring gear 4 come into contact with each other and the pinion gear 5 is in contact with the ring gear 4. When the pinion gear 5 does not enter the tooth surface, only the movable iron core 17 further moves to generate a deflection amount of the pinion urging spring 44, and the pinion gear 5 is moved through the axial shift lever 8 by the load of the pinion urging spring 44. Energize in the ring gear 4 direction.

この実施の形態1においては、電磁継電器7の可動鉄心18の中心軸と電磁石9の可動鉄心17の中心軸を同軸上に直列に配置し、電磁継電器7の磁気回路であり外枠を構成する継鉄12と電磁石9の磁気回路であり外枠を構成する継鉄12を一体に構成したことにより、小型化を図ることができるとともに、電磁石9の巻枠29から突出して設けられ、電磁継電器7の巻枠20を貫通して係合され、電磁石9の励磁コイル28の口出し線28aを保護する口出し部29aを備えたことにより、電磁継電器7の巻枠20と電磁石9の巻枠29との周方向(回転方向)の位置決めを行うことができる   In the first embodiment, the central axis of the movable iron core 18 of the electromagnetic relay 7 and the central axis of the movable iron core 17 of the electromagnet 9 are arranged in series on the same axis, which is a magnetic circuit of the electromagnetic relay 7 and constitutes the outer frame. Since the yoke 12 which is the magnetic circuit of the yoke 12 and the electromagnet 9 and which constitutes the outer frame is integrally formed, the size can be reduced, and the electromagnetic relay is provided so as to protrude from the winding frame 29 of the electromagnet 9. 7 is provided with a lead-out portion 29a that is engaged through the reel 20 and protects the lead wire 28a of the exciting coil 28 of the electromagnet 9, so that the reel 20 of the electromagnetic relay 7 and the reel 29 of the electromagnet 9 Can be positioned in the circumferential direction (rotation direction)

また、この実施の形態1においては、電磁継電器7の電磁石9と軸方向反対側に設置され、主回路を構成する主接点6が設置される端子台11に設けられた嵌合穴11aに、電磁継電器7の巻枠20から突出した口出し部20a,20bあるいは電磁石9の巻枠29から突出した口出し部29a,29bが嵌合することにより、電磁継電器7の巻枠20と端子台11の回転方向の位置決めを行うことができる。 Further, in the first embodiment, the fitting hole 11a provided in the terminal block 11 provided on the opposite side in the axial direction from the electromagnet 9 of the electromagnetic relay 7 is provided in the terminal block 11 where the main contact 6 constituting the main circuit is installed. When the lead-out portions 20a and 20b protruding from the winding frame 20 of the electromagnetic relay 7 or the lead-out portions 29a and 29b protruding from the winding frame 29 of the electromagnet 9 are fitted, the winding frame 20 of the electromagnetic relay 7 and the terminal block 11 are rotated. Directional positioning can be performed.

実施の形態2.
この発明の実施の形態2に係わるスタータ用電磁スイッチ装置を図13に基づいて説明する。図13はこの発明の実施の形態2に係わるスタータ用電磁スイッチ装置を示す断面図である。この実施の形態2による電磁継電器7の外周に位置する継鉄12の内径は、電磁石9の外周に位置する継鉄12の内径よりも大きく構成している。また、電磁継電器7の第1の固定鉄心14の外径は、電磁石9の固定鉄心41の外径よりも大きく構成している。
Embodiment 2. FIG.
A starter electromagnetic switching device according to Embodiment 2 of the present invention will be described with reference to FIG. 13 is a sectional view showing an electromagnetic switch device for a starter according to Embodiment 2 of the present invention. The inner diameter of the yoke 12 positioned on the outer periphery of the electromagnetic relay 7 according to the second embodiment is configured to be larger than the inner diameter of the yoke 12 positioned on the outer periphery of the electromagnet 9. Further, the outer diameter of the first fixed iron core 14 of the electromagnetic relay 7 is configured to be larger than the outer diameter of the fixed iron core 41 of the electromagnet 9.

この発明の実施の形態2における継鉄12の胴部12dの内径は例えば6段階に分かれて構成されている場合を示している。継鉄12の胴部12dの内径の大きさは、第1の胴部12d1<第2の胴部12d2<第3の胴部12d3<第4の胴部12d4<第5の胴部12d5<第6の胴部12d6のように構成されており、第1の胴部12d1は電磁石9の励磁コイル28の外周に位置し、第2の胴部12d2には電磁石9の固定鉄心41が嵌合し、第3の胴部12d3は非磁性部材13の外周に位置し、第4の胴部12d4は電磁継電器7の第2の固定鉄心22が嵌合し、第5の胴部12d5は電磁継電器7の励磁コイル19の外周に位置し、第6の胴部12d6は電磁継電器7の第1の固定鉄心14が嵌合する。第2の胴部12d2、第3の胴部12d3、第6の胴部12d6の内径とそれぞれに嵌合する固定鉄心41、非磁性部材13、第2の固定鉄心22の外径はシマリバメの寸法関係にある。例えば、第2の胴部12d2の内径<固定鉄心41の外径の寸法関係にある。 In the second embodiment of the present invention, the inner diameter of the trunk portion 12d of the yoke 12 is shown, for example, divided into six stages. The inner diameter of the trunk 12d of the yoke 12 is as follows: first trunk 12d1 <second trunk 12d2 <third trunk 12d3 <fourth trunk 12d4 <fifth trunk 12d5 <first. The first body 12d1 is located on the outer periphery of the exciting coil 28 of the electromagnet 9, and the fixed core 41 of the electromagnet 9 is fitted to the second body 12d2. The third body 12d3 is located on the outer periphery of the non-magnetic member 13, the fourth body 12d4 is fitted with the second fixed iron core 22 of the electromagnetic relay 7, and the fifth body 12d5 is connected to the electromagnetic relay 7. The 6th trunk | drum 12d6 is located in the outer periphery of the exciting coil 19, and the 1st fixed iron core 14 of the electromagnetic relay 7 fits. The outer diameters of the fixed core 41 , the nonmagnetic member 13, and the second fixed core 22 that are fitted to the inner diameters of the second barrel portion 12 d 2, the third barrel portion 12 d 3, and the sixth barrel portion 12 d 6 are the dimensions of the spotted seam. There is a relationship. For example, the inner diameter of the second body 12d2 is smaller than the outer diameter of the fixed iron core 41.

この実施の形態2においては、電磁石9外周の継鉄12内径よりも電磁継電器7外周の継鉄12内径を大きく構成したことにより、電磁石9の固定鉄心41を継鉄12に圧入嵌合した後で、電磁石9の上に電磁継電器7を組み付けることがてきるので、作業性の向上を図ることができる。   In the second embodiment, after the inner diameter of the yoke 12 on the outer periphery of the electromagnetic relay 7 is made larger than the inner diameter of the yoke 12 on the outer periphery of the electromagnet 9, the fixed iron core 41 of the electromagnet 9 is press-fitted onto the yoke 12. Thus, since the electromagnetic relay 7 can be assembled on the electromagnet 9, workability can be improved.

また、この実施の形態2においては、電磁石9の固定鉄心41より電磁継電器7の第1の固定鉄心14の外径を大きくしたことにより、電磁石9の固定鉄心41を継鉄12に圧入嵌合した後で、電磁石9の上に電磁継電器7を組み付けることができ、作業性の向上を図ることができる。   In the second embodiment, the outer diameter of the first fixed iron core 14 of the electromagnetic relay 7 is made larger than the fixed iron core 41 of the electromagnet 9, so that the fixed iron core 41 of the electromagnet 9 is press-fitted to the yoke 12. After that, the electromagnetic relay 7 can be assembled on the electromagnet 9, and workability can be improved.

実施の形態3.
この発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図14ないし図19に基づいて説明する。図14はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置を端子台側から見た図である。図15はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のA−A線に対応した断面図である。図16はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置における電磁継電器の巻枠を端子台側から見た図である。図17はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のB−B線に対応した電磁継電器の巻枠の断面図である。図18はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置を図5のC−C線に対応した電磁石の巻枠の断面図である。図19はこの発明の実施の形態3に係わるスタータ用電磁スイッチ装置における電磁石の巻枠を端子台側から見た図である。
Embodiment 3 FIG.
A starter electromagnetic switch device according to Embodiment 3 of the present invention will be described with reference to FIGS. FIG. 14 is a view of an electromagnetic switch device for a starter according to Embodiment 3 of the present invention as viewed from the terminal block side. 15 is a cross-sectional view of the starter electromagnetic switch device according to Embodiment 3 of the present invention, corresponding to line AA in FIG. FIG. 16 is a view of the winding frame of the electromagnetic relay in the starter electromagnetic switch device according to Embodiment 3 of the present invention, as viewed from the terminal block side. 17 is a cross-sectional view of a winding frame of an electromagnetic relay corresponding to the line BB in FIG. 5 for an electromagnetic switch device for a starter according to Embodiment 3 of the present invention. 18 is a cross-sectional view of a winding frame of an electromagnet corresponding to line CC in FIG. 5 for an electromagnetic switch device for starter according to Embodiment 3 of the present invention. FIG. 19 is a view of a winding frame of an electromagnet in the starter electromagnetic switch device according to Embodiment 3 of the present invention, as viewed from the terminal block side.

図14において、バッテリ端子30とモータ端子31間の中心を結ぶ直線で分割した領域のいずれか一方の領域、例えば、図14に示す中心線Pより上側を領域Dとし、他方の領域、例えば、図14に示す中心線Pより下側を領域Eとする。   In FIG. 14, any one of the regions divided by a straight line connecting the centers between the battery terminal 30 and the motor terminal 31, for example, the region D above the center line P shown in FIG. 14, and the other region, for example, A region E below the center line P shown in FIG.

上述した実施の形態1においては、電磁継電器7の励磁端子27は領域D、電磁石9の励磁端子38は領域Eに配置された構成であったが、この実施の形態3においては、電磁石9の励磁端子38と電磁継電器7の励磁端子27をいずれか一方の領域、図は一例として、図14に示す中心線Pより下側の領域Eに設置し、電磁継電器7の励磁端子27と電磁石9の励磁端子38を2極のコネクタとしてハウジング46に装着した。   In the first embodiment described above, the excitation terminal 27 of the electromagnetic relay 7 is arranged in the region D and the excitation terminal 38 of the electromagnet 9 is arranged in the region E. However, in the third embodiment, the electromagnet 9 The excitation terminal 38 and the excitation terminal 27 of the electromagnetic relay 7 are installed in one of the regions, for example, in the region E below the center line P shown in FIG. 14, and the excitation terminal 27 and the electromagnet 9 of the electromagnetic relay 7 are installed. The excitation terminal 38 was mounted on the housing 46 as a two-pole connector.

このような構成とするため、上述した実施の形態1に対して、図15および図16に示すように、電磁継電器7の巻き始め側口出し線19aと口出し部20aを領域Dから領域Eに移動し、電磁継電器7の巻き終わり側口出し線19bと巻枠20の口出し部20bを領域Eから領域Dに移動し、電磁継電器7の口出し部20bを通っていた電磁石9の巻き始め側口出し線28aを専用の口出し部20iとして領域Eに設けて、電磁継電器7の巻き始め側口出し部20aの右隣に設置した。なお、20jは挿通溝であり、口出し線19bが挿通する。20fは嵌合部であり、支持部材21の図示しない外周鍔部が嵌合される。20gは巻枠20の中空部である。20kは挿通溝であり、口出し線19aが挿通する。20lは挿通穴であり、口出し線28aが挿通する。   In order to achieve such a configuration, the winding start side lead wire 19a and the lead portion 20a of the electromagnetic relay 7 are moved from the region D to the region E as shown in FIGS. 15 and 16 with respect to the first embodiment described above. The winding end side lead wire 19b of the electromagnetic relay 7 and the lead portion 20b of the reel 20 are moved from the region E to the region D, and the winding start side lead wire 28a of the electromagnet 9 passing through the lead portion 20b of the electromagnetic relay 7 is moved. Is provided in the region E as a dedicated lead portion 20i, and is installed right next to the winding start side lead portion 20a of the electromagnetic relay 7. Reference numeral 20j denotes an insertion groove through which the lead wire 19b is inserted. 20f is a fitting part and the outer peripheral collar part which the support member 21 does not illustrate is fitted. 20 g is a hollow portion of the winding frame 20. Reference numeral 20k denotes an insertion groove through which the lead wire 19a is inserted. Reference numeral 20l denotes an insertion hole through which the lead wire 28a is inserted.

また、電磁継電器7の巻枠20の切欠き20dの位置は図17に示すように口出し部20iと同方向の位置になるよう配置されている。さらに、電磁石9の巻枠29の口出し部29aも図18および図19に示すように口出し部20iと同方向の位置になるよう配置されている。   Moreover, the position of the notch 20d of the winding frame 20 of the electromagnetic relay 7 is arranged so as to be in the same direction as the lead-out portion 20i as shown in FIG. Furthermore, the lead-out portion 29a of the winding frame 29 of the electromagnet 9 is also disposed at the same position as the lead-out portion 20i as shown in FIGS.

この実施の形態3においては、端子台11をバッテリ端子30、モータ端子31側から見てバッテリ端子30とモータ端子31間の中心を結んだ線で分割した2つの領域のいずれか一方の領域に、電磁継電器7の励磁端子27と電磁石9の励磁端子38を設置したので、車両側の配線を接続する作業の作業性の向上を図ることができる。   In the third embodiment, the terminal block 11 is viewed from the battery terminal 30 and the motor terminal 31 side in one of the two areas divided by a line connecting the centers between the battery terminal 30 and the motor terminal 31. Since the excitation terminal 27 of the electromagnetic relay 7 and the excitation terminal 38 of the electromagnet 9 are installed, the workability of the work of connecting the wiring on the vehicle side can be improved.

ところで、上述した各実施の形態によるスタータ用電磁スイッチ装置10を使用したスタータの動作は基本的には上述した特許文献1と同様であるが、これに限るものではなく、電磁石9と電磁継電器7を個々に違ったタイミングで作動させる制御を使用することも可能である。   By the way, the operation of the starter using the starter electromagnetic switch device 10 according to each of the above-described embodiments is basically the same as that of Patent Document 1 described above, but is not limited to this, and the electromagnet 9 and the electromagnetic relay 7 are not limited thereto. It is also possible to use a control that activates each at different times.

この発明は、電磁継電器と電磁石を同軸上直列に配置することにより小型化を図ることができるスタータ用電磁スイッチ装置の実現に好適である。   The present invention is suitable for realizing an electromagnetic switch device for a starter that can be miniaturized by arranging an electromagnetic relay and an electromagnet coaxially in series.

1 モータ 4 リングギヤ
5 ピニオンギヤ 7 電磁継電器
9 電磁石 10 スタータ用電磁スイッチ装置
11 端子台 11a 嵌合穴
12 継鉄 14 第1の固定鉄心
17 可動鉄心 18 可動鉄心
20 巻枠 22 第2の固定鉄心
27 励磁端子 28 励磁コイル
28a 口出し線 28b 口出し線
29 巻枠 29a 口出し部
29b 口出し部 30 バッテリ端子
31 モータ端子 38 励磁端子
41 固定鉄心
DESCRIPTION OF SYMBOLS 1 Motor 4 Ring gear 5 Pinion gear 7 Electromagnetic relay 9 Electromagnet 10 Electromagnetic switch device for starter 11 Terminal block 11a Fitting hole 12 Relay 14 First fixed iron core 17 Movable iron core 18 Movable iron core 20 Reel 22 Second fixed iron core 27 Excitation Terminal 28 Excitation coil 28a Lead wire 28b Lead wire 29 Reel 29a Lead portion 29b Lead portion 30 Battery terminal 31 Motor terminal 38 Excitation terminal 41 Fixed iron core

Claims (6)

モータ回路を開閉する可動鉄心と固定鉄心を有する電磁継電器と、ピニオンギヤをリングギヤ方向に動かす可動鉄心と固定鉄心を有する電磁石とを備え、前記電磁継電器の可動鉄心の中心軸と前記電磁石の可動鉄心の中心軸が同軸上に直列に配置され、前記電磁継電器の磁気回路であり外枠を構成する継鉄と前記電磁石の磁気回路であり外枠を構成する継鉄が一体に構成されたスタータ用電磁スイッチ装置であって、
前記電磁継電器は巻枠に巻着された励磁コイルを有し、前記電磁石は巻枠に巻着された励磁コイルを有し、バッテリ端子とモータ端子が配置されるとともに前記電磁継電器の前記巻枠側に嵌合穴が形成された端子台を有し、前記電磁石の巻枠から突出して設けられ、前記電磁継電器の巻枠を貫通して係合され、前記電磁継電器の前記巻枠と前記電磁石の前記巻枠の回転方向の位置決めを行うとともに前記電磁石の前記励磁コイルの口出し線を保護する口出し部と、前記電磁継電器の巻枠から突出して設けられ、前記電磁継電器の前記固定鉄心を貫通するとともに端子台の嵌合穴に係合され、前記端子台と前記電磁継電器の前記巻枠の回転方向の位置決めを行うとともに前記電磁継電器の前記励磁コイルの口出し線を保護する口出し部とを備えたことを特徴とするスタータ用電磁スイッチ装置。
An electromagnetic relay having a movable iron core that opens and closes a motor circuit and a fixed iron core, a movable iron core that moves a pinion gear in the ring gear direction, and an electromagnet having a fixed iron core, the central axis of the movable iron core of the electromagnetic relay and the movable iron core of the electromagnet An electromagnetic for starter in which a central axis is arranged in series on the same axis, and a yoke which is a magnetic circuit of the electromagnetic relay and which constitutes an outer frame and a yoke which is a magnetic circuit of the electromagnet and which constitutes the outer frame is integrally formed A switching device,
The electromagnetic relay has an exciting coil wound around a reel, the electromagnet has an exciting coil wound around the reel, a battery terminal and a motor terminal are disposed, and the reel of the electromagnetic relay is arranged. A terminal block having a fitting hole formed on the side thereof, provided protruding from the winding frame of the electromagnet, engaged through the winding frame of the electromagnetic relay, and the winding frame of the electromagnetic relay and the electromagnet Positioning of the winding frame in the rotation direction and protecting the lead wire of the exciting coil of the electromagnet, and protruding from the winding frame of the electromagnetic relay, penetrating the fixed iron core of the electromagnetic relay together engaged in the terminal block fitting hole of a lead section which performs positioning of the rotational direction of the winding frame of the terminal block and the electromagnetic relay to protect the lead wire of the exciting coil of the electromagnetic relay Electromagnetic switching device for a starter, characterized in that.
前記電磁石の前記口出し部は前記電磁継電器の前記口出し部と連通されていることを特徴とする請求項1に記載のスタータ用電磁スイッチ装置。 2. The starter electromagnetic switch device according to claim 1, wherein the lead portion of the electromagnet communicates with the lead portion of the electromagnetic relay . 前記電磁継電器の前記固定鉄心は前記巻枠を挟んで配置された第1の固定鉄心と第2の固定鉄心とにより構成されたことを特徴とする請求項1または2に記載のスタータ用電磁スイッチ装置。 3. The starter electromagnetic switch according to claim 1 , wherein the fixed iron core of the electromagnetic relay is configured by a first fixed iron core and a second fixed iron core arranged with the winding frame interposed therebetween. apparatus. 前記電磁石外周の前記継鉄内径よりも前記電磁継電器外周の前記継鉄内径が大きいことを特徴とする請求項1ないし3のいずれか1項に記載のスタータ用電磁スイッチ装置。   The starter electromagnetic switch device according to any one of claims 1 to 3, wherein the yoke inner diameter of the electromagnetic relay outer periphery is larger than the yoke inner diameter of the electromagnet outer periphery. 前記電磁石の固定鉄心の外径より前記電磁継電器の固定鉄心の外径が大きいことを特徴とする請求項1ないし4のいずれか1項に記載のスタータ用電磁スイッチ装置。   The starter electromagnetic switch device according to any one of claims 1 to 4, wherein an outer diameter of the fixed iron core of the electromagnetic relay is larger than an outer diameter of the fixed iron core of the electromagnet. 前記端子台の前記バッテリ端子と前記モータ端子の中心を結んだ線で分割した2つの領
域のいずれか一方の領域に前記電磁石の励磁端子と前記電磁継電器の励磁端子を設置したことを特徴とする請求項1ないし5のいずれか1項に記載のスタータ用電磁スイッチ装置。
The excitation terminal of the electromagnet and the excitation terminal of the electromagnetic relay are installed in one of two areas divided by a line connecting the center of the battery terminal and the motor terminal of the terminal block. The starter electromagnetic switch device according to any one of claims 1 to 5 .
JP2009246506A 2009-10-27 2009-10-27 Electromagnetic switch device for starter Active JP4931983B2 (en)

Priority Applications (9)

Application Number Priority Date Filing Date Title
JP2009246506A JP4931983B2 (en) 2009-10-27 2009-10-27 Electromagnetic switch device for starter
FR1051566A FR2951862B1 (en) 2009-10-27 2010-03-04 ELECTROMAGNETIC SWITCHING DEVICE FOR A STARTER
KR1020100100309A KR101235536B1 (en) 2009-10-27 2010-10-14 Electromagnetic switch device for starter
CN201210295883.4A CN102797609B (en) 2009-10-27 2010-10-21 Electromagnetic switch device for starter
CN201310150379.XA CN103258690B (en) 2009-10-27 2010-10-21 Solenoid switch device for starter
CN201010528115XA CN102052224B (en) 2009-10-27 2010-10-21 Solenoid switch device for starter
FR1160525A FR2965100B1 (en) 2009-10-27 2011-11-18 ELECTROMAGNETIC COMMUTATION DEVICE FOR STARTER
KR1020120104468A KR101269808B1 (en) 2009-10-27 2012-09-20 Electromagnetic switch device for starter
FR1453267A FR3003393B1 (en) 2009-10-27 2014-04-11 ELECTROMAGNETIC SWITCHING DEVICE FOR STARTER

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JP4931983B2 true JP4931983B2 (en) 2012-05-16

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Publication number Publication date
FR3003393B1 (en) 2017-12-22
KR20110046280A (en) 2011-05-04
FR2965100A1 (en) 2012-03-23
CN103258690A (en) 2013-08-21
CN102797609A (en) 2012-11-28
KR101235536B1 (en) 2013-02-21
JP2011094489A (en) 2011-05-12
CN103258690B (en) 2015-10-28
KR101269808B1 (en) 2013-05-30
KR20120120490A (en) 2012-11-01
CN102797609B (en) 2015-04-29
CN102052224B (en) 2013-10-16
FR3003393A1 (en) 2014-09-19
FR2951862B1 (en) 2020-02-07
FR2965100B1 (en) 2022-07-22
CN102052224A (en) 2011-05-11
FR2951862A1 (en) 2011-04-29

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