JP2604534B2 - Electromagnetic relay - Google Patents
Electromagnetic relayInfo
- Publication number
- JP2604534B2 JP2604534B2 JP5088081A JP8808193A JP2604534B2 JP 2604534 B2 JP2604534 B2 JP 2604534B2 JP 5088081 A JP5088081 A JP 5088081A JP 8808193 A JP8808193 A JP 8808193A JP 2604534 B2 JP2604534 B2 JP 2604534B2
- Authority
- JP
- Japan
- Prior art keywords
- fixed
- contact spring
- substrate
- movable contact
- armature
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Electromagnets (AREA)
Description
【0001】[0001]
【産業上の利用分野】この発明は、プリント配線基板に
搭載される小形の電磁継電器に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small electromagnetic relay mounted on a printed circuit board.
【0002】[0002]
【従来の技術】電磁継電器を小形で薄形にするためにコ
字状の磁気回路部で囲まれた空間に接点部を配置するも
のが知られている(特公昭57-13090号公報)。この電磁
継電器は、鉄心とこの鉄心の両端に設けたヨークとによ
りコ字状に形成された磁気回路部、この磁気回路部の鉄
心に巻かれた励磁コイル、前記磁気回路部のヨーク間に
配置されたアーマチュア、前記コ字状の磁気回路部によ
り囲まれた空間に配置された固定接点ばね及び可動接点
ばねからなる接点部などを有し、前記鉄心に巻かれた励
磁コイルをオン,オフしてアーマチュアをヨークに吸引
・釈放することにより可動接点ばねが駆動されて接点の
開閉を行うものである。このような電磁継電器によれ
ば、コ字状の磁気回路部により囲まれた空間に接点部を
配置することにより小形で薄形とすることができる。2. Description of the Related Art In order to make an electromagnetic relay small and thin, it is known to arrange a contact portion in a space surrounded by a U-shaped magnetic circuit portion (Japanese Patent Publication No. 57-13090). The electromagnetic relay includes a magnetic circuit portion formed in a U-shape by an iron core and yokes provided at both ends of the iron core, an exciting coil wound around the iron core of the magnetic circuit portion, and a yoke of the magnetic circuit portion. Armature, a contact portion including a fixed contact spring and a movable contact spring disposed in a space surrounded by the U-shaped magnetic circuit portion, and turns on and off an exciting coil wound around the iron core. When the armature is attracted to and released from the yoke, the movable contact spring is driven to open and close the contact. According to such an electromagnetic relay, the contact portion is arranged in a space surrounded by the U-shaped magnetic circuit portion, so that it can be made small and thin.
【0003】[0003]
【発明が解決しようとする課題】前述のように小形で薄
形の電磁継電器においては、接点部における固定接点ば
ね及び可動接点ばねと励磁コイル及び励磁コイルのコイ
ル端子との間の電気的な絶縁を確保するために、それぞ
れの間に適当な絶縁距離を取らねばならず、電気的絶縁
を確保しながら小形化するのが困難であるという問題を
有する。そこでこの発明の目的は、固定接点ばね及び可
動接点ばねと励磁コイル及び励磁コイルのコイル端子と
の間の電気的絶縁を確保して小形で薄形の電磁継電器を
得ることにある。As described above, in the small and thin electromagnetic relay, the electrical insulation between the fixed contact spring and the movable contact spring at the contact portion and the exciting coil and the coil terminal of the exciting coil is provided. Therefore, it is necessary to provide an appropriate insulation distance between them, so that it is difficult to reduce the size while ensuring electrical insulation. SUMMARY OF THE INVENTION An object of the present invention is to obtain a small and thin electromagnetic relay by securing electrical insulation between a fixed contact spring and a movable contact spring, an exciting coil and a coil terminal of the exciting coil.
【0004】[0004]
【課題を解決するための手段】前述の目的を達成するた
め本発明は、絶縁部材からなる基板、この基板の端部に
脚片が固定された平板状の固定鉄心、この固定鉄心に支
持され励磁コイルが巻かれた巻胴部及び前記固定鉄心の
脚片の平板面に沿って巻胴部と一体成形された端子部を
有する巻枠、この巻枠の端子部に前記固定鉄心の脚片の
平板面に沿って取付けられかつ前記基板に挿通された2
本のコイル端子、前記固定鉄心の内側に位置し対向面に
それぞれ固定接点及び可動接点を有し、それぞれの接点
端子が前記基板に固定された固定接点ばね及び可動接点
ばね、作動部材を介して前記可動接点ばねの背面に当接
しかつ前記固定鉄心の平板面に沿って配置され前記基板
の端部に揺動自在に支持された平板状のアーマチュア並
びに前記基板に被せられたケースからなり、前記作動部
材は固定接点ばね及び可動接点ばねを覆う張出片を有す
ることを特徴とする。SUMMARY OF THE INVENTION In order to achieve the above-mentioned object, the present invention provides a substrate made of an insulating member, a plate-shaped fixed core having legs fixed to an end of the substrate, and a fixed core supported by the fixed core. A bobbin having a terminal portion integrally formed with the bobbin portion along the flat surface of the leg portion of the fixed core along with the bobbin portion on which the exciting coil is wound, and a leg portion of the fixed core portion at the terminal portion of the bobbin frame 2 attached along the flat surface of
A fixed contact spring and a movable contact spring, each of which has a fixed contact and a movable contact on an opposing surface located inside the fixed iron core, and the respective contact terminals are fixed to the substrate, A flat armature abutting on the rear surface of the movable contact spring and being arranged along the flat plate surface of the fixed core and swingably supported at an end of the substrate, and a case covered by the substrate, The operating member is characterized in that it has an overhanging piece covering the fixed contact spring and the movable contact spring.
【0005】[0005]
【作用】平板状の固定鉄心やアーマチュアを積層するよ
うに配置し、固定鉄心の内側に固定接点ばね及び可動接
点ばねを配置したことにより、電磁継電器の厚さ寸法が
極めて薄くなり、縦・横寸法も固定鉄心の外形寸法に近
い大きさに収めることができ、アーマチュアに取付けた
作動部材の張出片により固定接点ばね及び可動接点ばね
を覆うことにより、固定接点ばね,可動接点ばねと励磁
コイル及び励磁コイルのコイル端子との間の絶縁距離を
確保することができる。[Function] By arranging flat fixed iron cores and armatures in a stack, and arranging fixed contact springs and movable contact springs inside the fixed iron core, the thickness of the electromagnetic relay becomes extremely thin, and the vertical and horizontal lengths are reduced. The dimensions can also be kept close to the outer dimensions of the fixed core, and the fixed contact spring and the movable contact spring are covered by the projecting piece of the operating member attached to the armature, so that the fixed contact spring, the movable contact spring and the exciting coil In addition, the insulation distance between the coil terminal of the exciting coil and the coil terminal can be ensured.
【0006】[0006]
【実施例】以下、図1及び図2に基づいてこの発明の実
施例を説明する。ここで、図1(A)はアーマチュアの
分解斜視図、図1(B)は図1(A)のアーマチュアを
反対側から見た組立状態の斜視図、図1(C)は図1
(B)のC−C線に沿う断面図、図2は図1のアーマチ
ュアを用いた電磁継電器の分解斜視図である。まず、図
2において、1はモールド樹脂からなる基板で、この基
板1には固定接点2を有する固定接点ばね3、可動接点
4を有する可動接点ばね5が固着されている。6及び7
はそれぞれ固定接点ばね3及び可動接点ばね5と一体の
接点端子である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. 1 (A) is an exploded perspective view of the armature, FIG. 1 (B) is a perspective view of the armature of FIG. 1 (A) viewed from the opposite side, and FIG. 1 (C) is FIG.
FIG. 2B is a sectional view taken along the line CC, and FIG. 2 is an exploded perspective view of an electromagnetic relay using the armature of FIG. First, in FIG. 2, reference numeral 1 denotes a substrate made of a molded resin, on which a fixed contact spring 3 having a fixed contact 2 and a movable contact spring 5 having a movable contact 4 are fixed. 6 and 7
Are contact terminals integral with the fixed contact spring 3 and the movable contact spring 5, respectively.
【0007】8は平板状の鉄板から打ち抜かれた門形の
固定鉄心で、その両脚片の先端8a及び8bが基板1の
取付穴9及び10にそれぞれ圧入されて基板1上に支持
される。固定鉄心8の胴部にはモールド樹脂からなり、
励磁コイル12が巻かれた巻胴部を有する巻枠11が取
付けられている。この巻枠11にはコイル端子13及び
14が取付けられる端子部11Aが一体に成形されてい
る。前記励磁コイル12の巻線の両端は、巻枠11の端
子部11Aに取付けられたコイル端子13及び14にそ
れぞれ接続されている。コイル端子13及び14は基板
1への固定鉄心8の取付け時に、基板1に明けられた穴
15及び16にそれぞれ挿通され、その先端が基板1の
底面から突出する。Reference numeral 8 denotes a gate-shaped fixed iron core punched from a flat iron plate, and tips 8a and 8b of both leg pieces are pressed into mounting holes 9 and 10 of the substrate 1, respectively, and are supported on the substrate 1. The body of the fixed core 8 is made of molded resin,
A winding frame 11 having a winding drum portion around which an exciting coil 12 is wound is attached. A terminal portion 11A to which the coil terminals 13 and 14 are attached is formed integrally with the winding frame 11. Both ends of the winding of the exciting coil 12 are connected to coil terminals 13 and 14 attached to the terminal portion 11A of the winding frame 11, respectively. When the fixed iron core 8 is attached to the substrate 1, the coil terminals 13 and 14 are inserted into holes 15 and 16 formed in the substrate 1, respectively, and their tips protrude from the bottom surface of the substrate 1.
【0008】17はやはり平板状の鉄板から打ち抜かれ
たアーマチュアで、図示のとおり固定鉄心8の両脚を橋
絡するように、固定鉄心8の側面に沿って配置されてい
る。アーマチュア17は一端下部の支持軸18が基板1
の軸受穴19に差し込まれ、支持軸18を中心に旋回自
在に基板1に支持される。その際、他端下部の脚片20
が基板1の角穴21に隙間を介して嵌め込まれ、アーマ
チュア17の旋回範囲が規制されるようになっている。
アーマチュア17の胴部には絶縁物からなる作動部材と
しての作動片22が弾性的に嵌め込まれている。この作
動片22はアーマチュア17が基板1に支持された状態
で、可動接点ばね5の背面に当接するようになってい
る。An armature 17 is also punched from a flat iron plate, and is arranged along the side surface of the fixed core 8 so as to bridge both legs of the fixed core 8 as shown in the figure. The armature 17 has a support shaft 18 at a lower end of the substrate 1.
And supported by the substrate 1 so as to be pivotable about the support shaft 18. At that time, the leg piece 20 at the lower end of the other end
Is fitted into the square hole 21 of the substrate 1 via a gap, so that the turning range of the armature 17 is regulated.
An operating piece 22 as an operating member made of an insulating material is elastically fitted into the body of the armature 17. The operation piece 22 comes into contact with the rear surface of the movable contact spring 5 in a state where the armature 17 is supported by the substrate 1.
【0009】23はケースで、固定鉄心8及びアーマチ
ュア17が取付けられた基板1に被せられ、基板1の両
側に設けた各2個の溝24とこれに対応するケース23
の突起23aとの係合により固定される。このような構
成において、励磁コイル12に直流の励磁電流が流され
ると、アーマチュア17は支持軸18を支点に旋回して
固定鉄心8に吸着される。その際、作動片22を介して
可動接点ばね5を押し、固定接点2と可動接点4間を閉
成させる。励磁コイル12の励磁が解かれると、アーマ
チュア17は可動接点ばね5のばね力により図示状態に
復帰する。Reference numeral 23 denotes a case which covers the substrate 1 on which the fixed iron core 8 and the armature 17 are mounted, and has two grooves 24 provided on both sides of the substrate 1 and a corresponding case 23.
Is fixed by engagement with the projection 23a. In such a configuration, when a DC exciting current is applied to the exciting coil 12, the armature 17 turns around the support shaft 18 and is attracted to the fixed core 8. At this time, the movable contact spring 5 is pressed via the operation piece 22 to close the gap between the fixed contact 2 and the movable contact 4. When the excitation of the excitation coil 12 is released, the armature 17 returns to the illustrated state by the spring force of the movable contact spring 5.
【0010】図1は上記アーマチュア17部分を詳細に
示したものである。図1において、作動片22は両側壁
でアーマチュア17を抱くようにコ字状断面になってお
り、両側壁の先端にアーマチュア17の裏面に係合する
一対の突条25が形成されている。作動片22のアーマ
チュア17との対向面には、アーマチュア17の穴26
に密に挿入される円柱状の突起27が形成されている。
前記アーマチュア17と作動片22との間には非磁性薄
板28が挟み込まれる。非磁性薄板28は、図1(B)
及び(C)に示すように、作動片22とアーマチュア1
7との間に挟み込まれた状態で、その先端がアーマチュ
ア17の接極面17aに被さるようになっており、アー
マチュア17が固定鉄心8に吸着された場合には、固定
鉄心8とアーマチュア17の接極面17aとの間には非
磁性薄板28の厚さに相当するギャップが生じ、電磁石
の保持力は低下して復帰電圧が高くなる。この非磁性薄
板28は必要に応じて取付ければよい。FIG. 1 shows the armature 17 in detail. In FIG. 1, the operating piece 22 has a U-shaped cross-section so as to hold the armature 17 on both side walls, and a pair of ridges 25 that are engaged with the back surface of the armature 17 are formed at the ends of the both side walls. A hole 26 of the armature 17 is provided on a surface of the operation piece 22 facing the armature 17.
A columnar projection 27 is formed which is densely inserted into the projection.
A non-magnetic thin plate 28 is sandwiched between the armature 17 and the operation piece 22. The non-magnetic thin plate 28 is shown in FIG.
And (C), the operating piece 22 and the armature 1
7, the tip of the armature 17 is adapted to cover the contact surface 17 a of the armature 17. When the armature 17 is attracted to the fixed core 8, the fixed core 8 and the armature 17 are separated from each other. A gap corresponding to the thickness of the non-magnetic thin plate 28 is generated between the contact surface 17a and the contact surface 17a, so that the holding force of the electromagnet decreases and the return voltage increases. The non-magnetic thin plate 28 may be attached as needed.
【0011】ここで、前記アーマチュア17に取付けら
れる作動片22には張出片22aが設けられている。こ
の作動片22の張出片22aはL字形で、固定接点ばね
3及び可動接点ばね5を覆うように形成されている。作
動片22の張出片22aの垂直部分は、固定接点ばね3
及び可動接点ばね5の先端と、励磁コイル12のコイル
端子13,14との間の絶縁距離を確保する。また、作
動片22の張出片22aの水平部分は、固定接点ばね3
及び可動接点ばね5と、励磁コイル12との間の絶縁距
離を確保する。更に、作動片22の張出片22aは固定
接点2及び可動接点4の開閉に伴うアークによる接点飛
散物が励磁コイル12やアーマチュア17あるいは固定
鉄心8の接極面に付着するのを妨げ、励磁コイル12の
表面に接点飛散物が付着して絶縁が劣化したり、接極面
に接点飛散物が付着してアーマチュア17の固定鉄心8
に対する吸着が妨げられることを防止している。The operating piece 22 attached to the armature 17 is provided with a projecting piece 22a. The projecting piece 22a of the operating piece 22 is L-shaped and formed so as to cover the fixed contact spring 3 and the movable contact spring 5. The vertical portion of the projecting piece 22a of the operating piece 22 is
Also, the insulation distance between the tip of the movable contact spring 5 and the coil terminals 13 and 14 of the exciting coil 12 is ensured. The horizontal portion of the projecting piece 22a of the operating piece 22 is
In addition, an insulation distance between the movable contact spring 5 and the exciting coil 12 is ensured. Further, the overhanging piece 22a of the operating piece 22 prevents the contact scattered matter due to the arc caused by the opening and closing of the fixed contact 2 and the movable contact 4 from adhering to the exciting coil 12, the armature 17, or the contacting surface of the fixed iron core 8, and exciting. The contact scattered matter adheres to the surface of the coil 12 to degrade insulation, or the contact scattered matter adheres to the contact surface and the fixed core 8 of the armature 17.
It prevents that the adsorption to is prevented.
【0012】[0012]
【発明の効果】この発明は、平板状に形成した固定鉄心
やアーマチュアを積層するように配置し、固定鉄心の内
側に固定接点ばね及び可動接点ばねを配置したことによ
り、電磁継電器を小形かつ薄形に構成することができ
る。そして、小形かつ薄形に構成された電磁継電器にお
ける固定接点ばね及び可動接点ばねと励磁コイル及び励
磁コイルのコイル端子との間の絶縁距離は、可動接点ば
ねを押すためにアーマチュアに取付けられる作動片に設
けた張出片により確保することができ、また作動片に設
けた張出片により固定接点と可動接点の開閉に伴うアー
クによって生じる接点飛散物が励磁コイルの表面や固定
鉄心の接極面に付着することを防止できるという効果を
有する。According to the present invention, the electromagnetic relay is made small and thin by arranging fixed iron cores and armatures formed in a plate shape so as to be laminated, and arranging fixed contact springs and movable contact springs inside the fixed iron core. Can be configured in shape. The insulation distance between the fixed contact spring and the movable contact spring and the exciting coil and the coil terminal of the exciting coil in the small and thin electromagnetic relay is determined by an operating piece attached to the armature to push the movable contact spring. Can be secured by the overhanging piece provided on the working piece, and the overhanging piece provided on the operating piece can prevent contact flying objects generated by the arc caused by opening and closing of the fixed and movable contacts from the surface of the exciting coil and the contact surface of the fixed iron core. This has the effect that it can be prevented from adhering to the surface.
【図1】この発明の実施例を示し、(A)はアーマチュ
アの分解斜視図、(B)は(A)のアーマチュアを反対
側から見た組立状態の斜視図、(C)は(B)のC−C
線に沿う断面図である。1A and 1B show an embodiment of the present invention, wherein FIG. 1A is an exploded perspective view of an armature, FIG. 1B is a perspective view of the armature of FIG. 1A viewed from the opposite side, and FIG. C-C
It is sectional drawing which follows a line.
【図2】図1のアーマチュアを用いた電磁継電器の分解
斜視図である。FIG. 2 is an exploded perspective view of an electromagnetic relay using the armature of FIG.
1 基板 3 固定接点ばね 5 可動接点ばね 8 固定鉄心 11 巻枠 11a 端子部 12 励磁コイル 13 コイル端子 14 コイル端子 17 アーマチュア 22 作動部材 22a 張出片 DESCRIPTION OF SYMBOLS 1 Substrate 3 Fixed contact spring 5 Movable contact spring 8 Fixed iron core 11 Reel 11a Terminal part 12 Exciting coil 13 Coil terminal 14 Coil terminal 17 Armature 22 Operating member 22a Overhanging piece
Claims (1)
脚片が固定された平板状の固定鉄心、この固定鉄心に支
持され励磁コイルが巻かれた巻胴部及び前記固定鉄心の
脚片の平板面に沿って巻胴部と一体成形された端子部を
有する巻枠、この巻枠の端子部に前記固定鉄心の脚片の
平板面に沿って取付けられかつ前記基板に挿通された2
本のコイル端子、前記固定鉄心の内側に位置し対向面に
それぞれ固定接点及び可動接点を有し、それぞれの接点
端子が前記基板に固定された固定接点ばね及び可動接点
ばね、作動部材を介して前記可動接点ばねの背面に当接
しかつ前記固定鉄心の平板面に沿って配置され前記基板
の端部に揺動自在に支持された平板状のアーマチュア並
びに前記基板に被せられたケースからなり、前記作動部
材は固定接点ばね及び可動接点ばねを覆う張出片を有す
ることを特徴とする電磁継電器。1. A board made of an insulating member, a flat fixed core having leg pieces fixed to an end of the board, a winding drum supported by the fixed core and having an exciting coil wound thereon, and legs of the fixed core. A winding frame having a terminal portion integrally formed with the winding drum along the flat surface of the piece, and attached to the terminal portion of the winding frame along the flat surface of the leg piece of the fixed core and inserted through the substrate. 2
A fixed contact spring and a movable contact spring, each of which has a fixed contact and a movable contact on an opposing surface located inside the fixed iron core, and the respective contact terminals are fixed to the substrate, A flat armature abutting on the rear surface of the movable contact spring and being arranged along the flat plate surface of the fixed core and swingably supported at an end of the substrate, and a case covered by the substrate, An electromagnetic relay, wherein the actuating member has a projecting piece covering the fixed contact spring and the movable contact spring.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP5088081A JP2604534B2 (en) | 1993-03-23 | 1993-03-23 | Electromagnetic relay |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP5088081A JP2604534B2 (en) | 1993-03-23 | 1993-03-23 | Electromagnetic relay |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP9392789A Division JPH0719527B2 (en) | 1989-04-13 | 1989-04-13 | Electromagnetic relay |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0612960A JPH0612960A (en) | 1994-01-21 |
JP2604534B2 true JP2604534B2 (en) | 1997-04-30 |
Family
ID=13932919
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP5088081A Expired - Lifetime JP2604534B2 (en) | 1993-03-23 | 1993-03-23 | Electromagnetic relay |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2604534B2 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003115248A (en) * | 2001-10-01 | 2003-04-18 | Tyco Electronics Ec Kk | Electromagnetic relay |
JP5880233B2 (en) * | 2012-04-09 | 2016-03-08 | オムロン株式会社 | Electromagnetic relay |
JP2018170241A (en) * | 2017-03-30 | 2018-11-01 | 富士通コンポーネント株式会社 | Electromagnetic relay |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6012454A (en) * | 1983-06-29 | 1985-01-22 | Fuji Xerox Co Ltd | Copy receiving device for copying machine |
JPH0719527B2 (en) * | 1989-04-13 | 1995-03-06 | 富士電機株式会社 | Electromagnetic relay |
-
1993
- 1993-03-23 JP JP5088081A patent/JP2604534B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
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JPH0612960A (en) | 1994-01-21 |
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