JP2013101810A - Normally-closed contact type electromagnetic relay and on-vehicle electromagnetic device using the same - Google Patents

Normally-closed contact type electromagnetic relay and on-vehicle electromagnetic device using the same Download PDF

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JP2013101810A
JP2013101810A JP2011244297A JP2011244297A JP2013101810A JP 2013101810 A JP2013101810 A JP 2013101810A JP 2011244297 A JP2011244297 A JP 2011244297A JP 2011244297 A JP2011244297 A JP 2011244297A JP 2013101810 A JP2013101810 A JP 2013101810A
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contact
plunger
return spring
electromagnetic relay
normally closed
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JP5281137B2 (en
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Naoto Kaneda
直人 金田
Koichiro Kamei
光一郎 亀井
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Mitsubishi Electric Corp
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Abstract

PROBLEM TO BE SOLVED: To provide an on-vehicle normally-closed contact type electromagnetic relay for holding a stable closed route state without affecting vibration of a plunger or the like to a movable contact.SOLUTION: A return spring which pressurizes a plunger to the reverse contact side in normal time is provided to a gap between a contact side magnetic core and a contact part installed in the driving direction of the plunger by electromagnetic force, the return spring is constituted so as to be insulated with a fixed contact, and to further pressurize a non-conductive member for deviating a movable contact from the fixed contact.

Description

本発明は、自動車などに搭載される車載用電磁機器に関し、特に、電磁力でプランジャを駆動して接点を開路し、電気回路を遮断する常閉接点式電磁リレーに関するものである。   The present invention relates to an in-vehicle electromagnetic device mounted on an automobile or the like, and more particularly to a normally closed contact type electromagnetic relay that drives a plunger with electromagnetic force to open a contact and interrupt an electric circuit.

従来から電磁石によりプランジャを吸引し、接点の開閉を行う電磁リレーは、各種のものが開発され、広く用いられている。
このような分野の電磁リレーとしては、特開平11‐224581号公報(特許文献1)、特開平4‐351823号公報(特許文献2)に記載されたものがある。この電磁リレーは、電磁石により吸引されるプランジャがリターンスプリングの荷重により磁性コアから離れる方向に付勢され、プランジャの一部又は他の部材を介して可動接点が固定接点に押圧される構成となっている。
Conventionally, various types of electromagnetic relays have been developed and widely used for attracting a plunger with an electromagnet and opening and closing a contact.
As electromagnetic relays in such fields, there are those described in Japanese Patent Laid-Open No. 11-224581 (Patent Document 1) and Japanese Patent Laid-Open No. 4-351823 (Patent Document 2). In this electromagnetic relay, the plunger attracted by the electromagnet is urged away from the magnetic core by the load of the return spring, and the movable contact is pressed against the fixed contact via a part of the plunger or another member. ing.

また、特開昭61‐032319号公報(特許文献3)、特開2011‐142067号公報(特許文献4)に記載された電磁リレーは、電磁石により吸引されるプランジャがリターンスプリングの荷重により付勢され、プランジャの一部又は他の部材を介して可動接点が固定接点と乖離される構成となっている。   In addition, the electromagnetic relay described in Japanese Patent Application Laid-Open No. 61-0332319 (Patent Document 3) and Japanese Patent Application Laid-Open No. 2011-142067 (Patent Document 4) urges the plunger attracted by the electromagnet by the load of the return spring. Thus, the movable contact is separated from the fixed contact via a part of the plunger or another member.

特開平11‐224581号公報Japanese Patent Laid-Open No. 11-224581 特開平4‐351823号公報JP-A-4-351823 特開昭61‐032319号公報JP 61-0332319 A 特開2011‐142067号公報Japanese Unexamined Patent Publication No. 2011-142067

上述の特許文献1および特許文献2に記載の常閉接点式電磁リレーにおいては、車両の走行時及びエンジンによる振動が加わった場合、プランジャの振動に対する動きが直接もしくは他の部材を介して間接的に可動接点へ影響するため、走行中及びエンジン動作中での接点の安定した閉路状態を保持することが難しく、さらに安定した閉路状態を保持するためにプランジャを付勢するリターンスプリングの荷重を高く設定する必要があるため、そのリターンスプリングの荷重に応じて高い吸引力を発生させる電磁力を必要とした。   In the normally closed contact electromagnetic relays described in Patent Document 1 and Patent Document 2 described above, when the vehicle travels and when vibrations from the engine are applied, the movement of the plunger against the vibrations is directly or indirectly through other members. Therefore, it is difficult to maintain a stable closed state of the contact point during running and engine operation, and the load of the return spring that biases the plunger is increased to maintain a stable closed state. Since it is necessary to set, an electromagnetic force that generates a high attractive force according to the load of the return spring is required.

また、特許文献3に記載の電磁リレーは、振動時のプランジャの影響を受けない接点構造となっているが、常開接点式電磁リレーであるため、常閉接点式電磁リレーへ変更するためには接点構成を変更し、特許文献1,特許文献2に記載の電磁リレーと同様な接点構成とする必要がある。この場合、特許文献1,特許文献2と同様の課題が発生する。   In addition, the electromagnetic relay described in Patent Document 3 has a contact structure that is not affected by the plunger during vibration. However, since it is a normally open contact type electromagnetic relay, in order to change to a normally closed contact type electromagnetic relay. Needs to be changed to a contact configuration similar to that of the electromagnetic relay described in Patent Document 1 and Patent Document 2. In this case, the same problem as in Patent Document 1 and Patent Document 2 occurs.

また、プランジャと磁性コアの位置を置き換えることにより、プランジャの吸引方向を特許文献3記載の接点方向に変更し、リターンスプリングによるプランジャの付勢方向を反接点側へ変更する必要がある。この場合、プランジャを着座させる磁性コアに可動接点を固定接点から乖離させるためのプランジャにより押圧される非導電性部材が貫通できる貫通穴を設ける必要があり、また、プランジャと磁性コアの間隙にはリターンスプリングが介在しているため、さらに磁気回路の断面が少なくなり電磁力によるプランジャの駆動力を得にくいという課題がある。   Further, by replacing the positions of the plunger and the magnetic core, it is necessary to change the attracting direction of the plunger to the contact direction described in Patent Document 3 and to change the biasing direction of the plunger by the return spring to the opposite contact side. In this case, it is necessary to provide a through hole through which the non-conductive member pressed by the plunger for separating the movable contact from the fixed contact can be provided in the magnetic core on which the plunger is seated, and in the gap between the plunger and the magnetic core. Since the return spring is interposed, there is a problem that the cross section of the magnetic circuit is further reduced and it is difficult to obtain the driving force of the plunger by electromagnetic force.

さらに、特許文献4においても、リターンスプリングが固定鉄心および可動鉄心の内周面と可動鉄心により駆動されるシャフトとの間に配置されているため、磁路面積が減少して高い吸引力を発生させることができず、この結果、接点スプリングおよびリターンスプリングの荷重を高く設定できないという課題がある。   Further, in Patent Document 4, since the return spring is disposed between the inner peripheral surface of the fixed iron core and the movable iron core and the shaft driven by the movable iron core, the magnetic path area is reduced and a high attractive force is generated. As a result, there is a problem that the loads of the contact spring and the return spring cannot be set high.

この発明による常閉接点式電磁リレーは、接点部とプランジャの電磁力による駆動方向に設置された接点側磁性コアの間隙にプランジャを反接点側へ押圧するリターンスプリングを設けるとともに、前記リターンスプリングは固定接点と絶縁され、さらに可動接点を固定接点から乖離させる非導電性部材を直接押圧する構成としたことを特徴とするものである。   The normally closed contact type electromagnetic relay according to the present invention is provided with a return spring that presses the plunger toward the non-contact side in the gap between the contact portion and the magnetic core of the contact side installed in the driving direction by the electromagnetic force of the plunger. A non-conductive member that is insulated from the fixed contact and further separates the movable contact from the fixed contact is directly pressed.

この発明によれば、リターンスプリングを磁束の経路である磁気回路内より排除し、プランジャの駆動力における電磁力を発生させる磁気回路の断面積を減少させることがないため、プランジャを反接点側へ押圧するリターンスプリングおよび可動接点を固定接点へ押圧する接点スプリングの荷重を高く設定でき、安定した接点の閉路状態とプランジャの静止状態が確保できる。さらに、通常時の接点常閉状態で可動接点はプランジャ等の他の部品より乖離されているため、振動時にプランジャの影響を可動接点が受けることのない安定した導通性能を得ることが可能な常閉接点式電磁リレーを提供することができる。   According to the present invention, the return spring is excluded from the magnetic circuit that is the path of the magnetic flux, and the cross-sectional area of the magnetic circuit that generates the electromagnetic force in the driving force of the plunger is not reduced. The load of the return spring to be pressed and the contact spring to press the movable contact to the fixed contact can be set high, and a stable contact closed state and a stationary state of the plunger can be secured. Furthermore, since the movable contact is separated from other parts such as a plunger in the normal contact normally closed state, it is possible to obtain a stable conduction performance in which the movable contact is not affected by the plunger during vibration. A closed contact electromagnetic relay can be provided.

この発明の実施形態1による常閉接点式電磁リレーを示す断面図である。It is sectional drawing which shows the normally closed contact type electromagnetic relay by Embodiment 1 of this invention. この発明の実施形態2による常閉接点式電磁リレーを示す断面図である。It is sectional drawing which shows the normally closed contact type electromagnetic relay by Embodiment 2 of this invention.

実施の形態1.
以下、この発明の実施形態1に係る常閉接点式電磁リレーを図に基づいて説明する。
図1はこの発明の実施の形態1における常閉接点式電磁リレーの断面図である。
図1において、常閉接点式電磁リレーは、ケース10、このケース10内に配置され、通電されることにより磁束を発生させる励磁コイル11、励磁コイル11が巻回されたボビン12、このボビン12の一端もしくは一端から内径部にかけてケース10の開口部を閉口するように配置された接点側磁性コア13、ボビン12の内側に軸方向に移動可能に配置され、磁束経路の一部を形成するプランジャ14、ボビン12の他端に配置された磁性コア15、プランジャ14に当接され、移動される接点乖離用非導電性部材17、この非導電性部材17をプランジャ14の押圧力に逆らって付勢するリターンスプリング18、リターンスプリング18の一端を受ける非導電性部材19を有している。
Embodiment 1 FIG.
Hereinafter, a normally closed contact type electromagnetic relay according to Embodiment 1 of the present invention will be described with reference to the drawings.
1 is a cross-sectional view of a normally closed contact type electromagnetic relay according to Embodiment 1 of the present invention.
In FIG. 1, a normally closed contact type electromagnetic relay includes a case 10, an excitation coil 11 that is disposed in the case 10 and generates a magnetic flux when energized, a bobbin 12 around which the excitation coil 11 is wound, and the bobbin 12. The contact-side magnetic core 13 is disposed so as to close the opening of the case 10 from one end or one end to the inner diameter portion thereof. 14, a magnetic core 15 disposed at the other end of the bobbin 12, a contact-separating non-conductive member 17 which is brought into contact with and moved by the plunger 14, and the non-conductive member 17 is attached against the pressing force of the plunger 14. A return spring 18 is provided, and a non-conductive member 19 that receives one end of the return spring 18 is provided.

また、ケース10および接点側磁性コア13にパッキン19を介して配置されたキャップ20、キャップ20の一部を貫通し、対抗する位置に取り付けられた一対の主端子21、主端子21の一部に形成された固定接点21a、この固定接点21aとキャップ20の内周面とにより形成された接点室20aに配置された接点スプリング22、この接点スプリング22によって固定接点21aに押圧され、電気的に接続される可動接点23を備えて構成されている。
なお、非導電性部材19はリターンスプリング18の反力を受けるため、キャップ20に固定された固定接点21aの反接点面に当接されている。
Further, a cap 20 disposed in the case 10 and the contact-side magnetic core 13 via the packing 19, a pair of main terminals 21 that pass through a part of the cap 20 and are attached at opposing positions, and a part of the main terminal 21 The fixed contact 21a formed in the contact point 21a, the contact spring 22 disposed in the contact chamber 20a formed by the fixed contact 21a and the inner peripheral surface of the cap 20, and the contact spring 22 is pressed against the fixed contact 21a electrically. A movable contact 23 to be connected is provided.
Since the non-conductive member 19 receives the reaction force of the return spring 18, the non-conductive member 19 is in contact with the opposite contact surface of the fixed contact 21 a fixed to the cap 20.

このような構成のもとで、通常時には、図示のように、非導電性部材17はリターンスプリング18の押圧力によって反接点側に付勢され、可動接点23は接点スプリング22によって固定接点21aに押圧され、一対の主端子21間が電気的に接続される。
次に、コイル11に通電すると、接点側コア13、磁性コア15を介してプランジャ14に磁力が作用し、プランジャ14、非導電性部材17を接点側に移動させ、可動接点23を押圧して固定接点21aとの接続を乖離させることになる。
Under such a configuration, in a normal state, as shown in the figure, the non-conductive member 17 is urged to the opposite contact side by the pressing force of the return spring 18, and the movable contact 23 is moved to the fixed contact 21a by the contact spring 22. When pressed, the pair of main terminals 21 are electrically connected.
Next, when the coil 11 is energized, a magnetic force acts on the plunger 14 via the contact side core 13 and the magnetic core 15, moves the plunger 14 and the nonconductive member 17 to the contact side, and presses the movable contact 23. The connection with the fixed contact 21a is separated.

このように構成することによって、車両走行中などの振動発生時においても、可動接点23は接点スプリング18以外の振動等の影響を受けることなく、安定した接点の閉路状態を維持することが可能となり、さらにリターンスプリング18を磁気回路の外で接点までの空間に配したことで、磁気回路の断面積を確保でき、必要な吸引力を容易に確保することができる。
なお、上記の構成では、リターンスプリング18を固定接点21aと接点側コア13との間に配置するように構成したが、リターンスプリング18を受ける非導電性部材17の端面が接点側コア13内に入り込み、リターンスプリング18が接点側コア13の一部にオーバーラップするように構成してもよい。また、キャップ20の内周面に段差を設け、この段差面に非導電性部材19を受けるように構成してもよい。
また、非導電性部材19によりリターンスプリング18の固定接点21a側を囲い、活線状態にある固定接点21aとリターンスプリング18の絶縁距離を適正に確保することが可能となる。
With this configuration, the movable contact 23 can be maintained in a stable contact closed state without being affected by vibrations other than the contact spring 18 even when vibration is generated such as when the vehicle is running. Further, by arranging the return spring 18 in the space to the contact point outside the magnetic circuit, the cross-sectional area of the magnetic circuit can be secured, and the necessary attractive force can be easily secured.
In the above configuration, the return spring 18 is arranged between the fixed contact 21 a and the contact side core 13, but the end surface of the nonconductive member 17 that receives the return spring 18 is in the contact side core 13. Intrusion and return spring 18 may overlap with part of contact-side core 13. Further, a step may be provided on the inner peripheral surface of the cap 20, and the non-conductive member 19 may be received on the step surface.
In addition, the non-conductive member 19 surrounds the fixed spring 21a side of the return spring 18 so that the insulation distance between the fixed contact 21a in the live line state and the return spring 18 can be properly secured.

実施の形態2.
図2はこの発明の実施の形態2に係る常閉接点式電磁リレーの断面図である。
図2において、キャップ20の内周面に段差20bを設け、この段差20bの段差面にリターンスプリング18を当接させた点に特徴があり、その他の構成は実施の形態1と同様である。
このように構成することによって、実施の形態1における非導電性部材19を不要とすることができ、更に簡素化した常閉接点式電磁リレーを得ることが可能となる。
Embodiment 2. FIG.
FIG. 2 is a cross-sectional view of a normally closed contact type electromagnetic relay according to Embodiment 2 of the present invention.
In FIG. 2, there is a feature in that a step 20b is provided on the inner peripheral surface of the cap 20, and a return spring 18 is brought into contact with the step surface of the step 20b, and other configurations are the same as those in the first embodiment.
By comprising in this way, the nonelectroconductive member 19 in Embodiment 1 can be made unnecessary, and it becomes possible to obtain the normally closed contact type electromagnetic relay further simplified.

以上のように、この発明によれば、自動車等の振動を受けるエンジン始動装置、発電機、充電回路などの車載用電磁機器に適用して振動等の影響を抑制し、かつ、必要な吸引力を容易に確保することができる常閉接点式電磁リレーを提供することができる。
なお、本発明は、以上の実施の形態に限定されるものでなく、その発明の範囲内において、実施の形態を適宜、変形、省略することが可能である。
As described above, according to the present invention, it is applied to in-vehicle electromagnetic devices such as an engine starter, a generator, a charging circuit, etc. that receive vibrations of automobiles, etc., and the necessary suction force is suppressed. Therefore, it is possible to provide a normally closed contact type electromagnetic relay capable of ensuring the above.
The present invention is not limited to the above embodiment, and the embodiment can be appropriately modified and omitted within the scope of the invention.

10:ケース、 11:励磁コイル、 12:ボビン、 13:接点側磁性コア、
14:プランジャ、 15:磁性コア、 16:パッキン、
17:接点乖離用非導電性部材、 18:リターンスプリング、
19:非導電性部材、 20:キャップ、 20a:接点室 21:主端子
21a:固定接点、 22:接点スプリング、 23:可動接点
10: Case, 11: Excitation coil, 12: Bobbin, 13: Contact side magnetic core,
14: Plunger, 15: Magnetic core, 16: Packing,
17: Non-conductive member for contact separation, 18: Return spring,
19: non-conductive member, 20: cap, 20a: contact chamber 21: main terminal 21a: fixed contact, 22: contact spring, 23: movable contact

Claims (4)

通電により磁束を発生させる励磁コイルと、磁束経路の一部を形成し、電磁力により駆動されるプランジャと、前記プランジャが駆動される方向に位置し、前記プランジャの移動を規制する接点側磁性コアと、前記プランジャにより駆動され、可動接点を押圧して固定接点から乖離させる非導電部材と、前記プランジャと前記非導電部材とを反接点側へ押圧し、通常位置へと復帰させるリターンスプリングと、非電導性部材で構成されたキャップに保持され、前記固定接点が形成された一対の主端子と、前記キャップの一部に一端が当接され、前記可動接点を前記固定接点に押圧させる接点スプリングとを備えた常閉接点式電磁リレーであって、
前記リターンスプリングを前記接点側磁性コアと前記固定接点との間で、かつ、前記キャップで囲まれた空間に配置したことを特徴とする常閉接点式電磁リレー。
An excitation coil that generates magnetic flux when energized, a plunger that forms part of the magnetic flux path, and that is driven by electromagnetic force, and a contact-side magnetic core that is positioned in the direction in which the plunger is driven and restricts movement of the plunger A non-conductive member that is driven by the plunger and presses the movable contact so as to be separated from the fixed contact; a return spring that presses the plunger and the non-conductive member toward the non-contact side and returns to the normal position; A pair of main terminals held by a cap made of a non-conductive member and formed with the fixed contact, and a contact spring whose one end is in contact with a part of the cap and presses the movable contact against the fixed contact A normally closed contact type electromagnetic relay comprising:
A normally closed contact type electromagnetic relay characterized in that the return spring is disposed between the contact-side magnetic core and the fixed contact and in a space surrounded by the cap.
前記リターンスプリングの前記固定接点側の一端を、前記固定接点または前記キャップ内部の一部に当接された非電導性部材で保持したことを特徴とする請求項1記載の常閉接点式電磁リレー。 The normally closed contact type electromagnetic relay according to claim 1, wherein one end of the return spring on the fixed contact side is held by a nonconductive member abutted on the fixed contact or a part of the cap. . 前記リターンスプリングの前記固定接点側の一端を、前記キャップ内の一部に当接し、保持したことを特徴とする請求項1記載の常閉接点式電磁リレー。 The normally closed contact type electromagnetic relay according to claim 1, wherein one end of the return spring on the fixed contact side is held in contact with a part of the cap. 請求項1〜3のいずれか一項に記載の常閉接点式電磁リレーを適用したことを特徴とする車載用電磁機器。 An in-vehicle electromagnetic device, wherein the normally closed contact electromagnetic relay according to any one of claims 1 to 3 is applied.
JP2011244297A 2011-11-08 2011-11-08 Normally closed contact type electromagnetic relay and automotive electromagnetic equipment using the same Expired - Fee Related JP5281137B2 (en)

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* Cited by examiner, † Cited by third party
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