JP6540919B1

JP6540919B1 - Contact switch

Info

Publication number: JP6540919B1
Application number: JP2018564429A
Authority: JP
Inventors: 小林　篤志; 篤志小林; 勝俊五十嵐
Original assignee: Mitsubishi Electric Corp
Current assignee: Mitsubishi Electric Corp
Priority date: 2018-03-23
Filing date: 2018-03-23
Publication date: 2019-07-10
Anticipated expiration: 2038-03-23
Also published as: CN111886667A; JPWO2019180934A1; WO2019180934A1; CN111886667B

Abstract

固定鉄心（１０）と、一対の固定接点（７）を備える固定接触子（８）と、固定鉄心（１０）に対応して配置され、固定鉄心（１０）駆動される可動鉄心（９）と、固定接点（７）と対向して設けられる一対の可動接点（３）を下面側に備える可動接触子（２）と、可動接触子（２）における可動接点（３）が設けられる位置の裏面側に当接する押圧部（１Ｂ）を備える可動板ばね（１）と、可動板ばね（１）の中央部に当接するように配置され、可動鉄心（９）の駆動力を可動板ばね（１）に伝える可接支え（４）と、を備え、可動接触子（２）は、可動接触子の（２）の長手方向中央部の両側面に、上下方向に延びる溝状の切欠き部（２Ａ）を備え、可動板ばね（１）は、切欠き部に係合する係合部（１Ａ）を備える、接点開閉器。A stationary core (10), a stationary contact (8) having a pair of stationary contacts (7), and a movable core (9) arranged corresponding to the stationary core (10) and driven by the stationary core (10) A movable contact (2) provided on the lower surface with a pair of movable contacts (3) provided opposite to the fixed contact (7), and a back surface of a position where the movable contact (3) in the movable contact (2) is provided A movable plate spring (1) including a pressing portion (1B) abutting on the side, and a central portion of the movable plate spring (1) arranged to abut the driving force of the movable iron core (9) And the movable contact (2) is a groove-like notch extending in the vertical direction on both sides of the longitudinal central portion of the movable contact (2). A contact switch comprising: 2A), wherein the movable plate spring (1) comprises an engaging portion (1A) engaged with the notch.

Description

本発明は、電源と負荷との間の閉路または開路に使用される接点開閉器に関するものである。 The present invention relates to a contact switch used for closing or opening between a power supply and a load.

接点開閉器とは、固定鉄心に設けられた操作コイルの励磁により、可動鉄心を固定鉄心に接離させ、可動鉄心にクロスバーを介して連結された可動接触子を連動させることにより、当該可動接触子に設けられた可動接点を固定接点に接離して電路の開閉を行う装置である。 With the contact switch, the movable core is brought into contact with or separated from the fixed core by exciting the operation coil provided on the fixed core, and the movable contact is linked to the movable core via the cross bar, thereby moving the movable core. The movable contact provided on the contact is brought into contact with and separated from the fixed contact to open and close the electric path.

特許文献１には、可動接点が接合された可動接触子と、可動接触子に対向し可動接点と接触する固定接点が接合された固定接触子、可動接触子と固定接触子が接触時に所定接触圧力を維持するための押しばね、この押しばねのばね圧を可動接点に伝達する可動板ばねとを備えた接点開閉器が開示されている。 In Patent Document 1, a movable contact to which a movable contact is joined, a fixed contact to which a fixed contact facing the movable contact and in contact with the movable contact is joined, and a predetermined contact when the movable contact and the fixed contact are in contact A contact switch is disclosed which comprises a pressure spring for maintaining pressure and a movable plate spring for transmitting the pressure of the pressure spring to a movable contact.

可動接触子、可動板ばねはそれぞれクロスバーによりガイドされている。操作コイルの励磁によりクロスバーが駆動され、可動接点と固定接点が接触する接点開閉器の閉路状態において、可動板ばねは、クロスバーから押しばねを介して伝達される力を、可動接触子の可動接点の裏面に伝えることで、可動接触子に曲げ応力が発生することを防止する機能を持っている。 The movable contact and the movable plate spring are respectively guided by the cross bar. In the closed state of the contact switch where the cross bar is driven by the excitation of the operation coil and the movable contact and the fixed contact make contact, the movable plate spring transmits the force transmitted from the cross bar via the push spring to that of the movable contact. By transmitting to the back surface of the movable contact, it has a function to prevent the generation of bending stress in the movable contact.

実開昭５３−１１８０６６号公報Japanese Utility Model Publication No. 53-118066

上記特許文献１では、可動接触子と可動板ばねがそれぞれ別個にクロスバーに支持されている。そのため、可動板ばねと可動接触子の接触位置は、可動接触子とクロスバーのズレや、可動板ばねとクロスバーのズレが、可動接触子と可動板ばねの接触位置のズレとして合成されてしまい、この位置ズレが押しばねから可動接点に伝達する力にバラつきが生じることとなる。このバラつきにより、可動接点および固定接点間の接触抵抗にバラつきが生じやすく、通電時に接点間で大きな発熱を生じる場合があり、接点の寿命が短くなる虞があった。 In the patent document 1, the movable contact and the movable plate spring are separately supported by the cross bar. Therefore, as for the contact position of the movable plate spring and the movable contact, the displacement of the movable contact and the cross bar, or the displacement of the movable plate spring and the cross bar is synthesized as the displacement of the contact position of the movable contact and the movable plate spring As a result, the positional displacement causes variations in the force transmitted from the push spring to the movable contact. Due to this variation, the contact resistance between the movable contact and the fixed contact is likely to vary, which may generate a large amount of heat between the contacts when energized, which may shorten the life of the contacts.

本発明は、上述した課題に鑑みてなされたものであって、押しばねから可動接点に伝達する力のばらつきを低減し、可動接点および固定接点間の接触抵抗を安定化させることを目的とする。 The present invention has been made in view of the above-mentioned problems, and aims to reduce the variation in force transmitted from the push spring to the movable contact and to stabilize the contact resistance between the movable contact and the fixed contact. .

上述した課題を解決し、目的を達成するために、請求項１に記載の電磁接触器では、固定鉄心と、一対の固定接点を備える固定接触子と、固定鉄心に対応して配置され、固定鉄心に駆動される可動鉄心と、固定接点と対向して設けられる一対の可動接点を下面側に備える可動接触子と、可動接触子における可動接点が設けられる位置の裏面側に当接する押圧部を備える可動板ばねと、可動板ばねの中央部に当接するように配置され、可動鉄心の駆動力を可動板ばねに伝える可接支えと、を備え、可動接触子は、可動接触子の長手方向中央部の両側面に、上下方向に延びる溝状の切欠き部を備え、可接支えは、上方に延びて形成される立設部を備え、可動板ばねは、長手方向の中央部両側に下方に延びて形成され前記切欠き部に係合する係合部と、長手方向中央部と長手方向の一方の端部との間の両側面の少なくとも一方側、及び長手方向中央部と長手方向の他方の端部との間の両側面の少なくとも一方側に上方にそれぞれ延びて形成され前記立設部が嵌め合わされる折り曲げ部とを備えることとした。 In order to solve the problems described above and to achieve the object, in the electromagnetic contactor according to claim 1, a stationary core, a stationary contact including a pair of stationary contacts, and a stationary contact corresponding to the stationary core are arranged and fixed. A movable contact provided with a movable iron core driven by the iron core, a pair of movable contacts provided opposite to the fixed contacts on the lower surface side, and a pressing part in contact with the back side of the position where the movable contact in the movable contact is provided A movable plate spring, and a contactable support disposed to abut on a central portion of the movable plate spring and transmitting a driving force of the movable iron core to the movable plate spring, wherein the movable contactor is in the longitudinal direction of the movable contactor Vertically extending groove-like notched portions are provided on both sides of the central portion, and the contact support includes an erected portion formed to extend upward, and the movable plate spring is provided on both sides in the longitudinal central portion formed to extend downward engaging portion for engaging the notch At least one side of both sides between the longitudinal central portion and one longitudinal end and at least one side of the lateral side between the longitudinal central portion and the other longitudinal end; And a bent portion which is formed to be extended and to which the standing portion is fitted.

本発明の接点開閉器は、可動板ばねが、可動接触子の可動接点裏面側を押圧する構成において、可動接触子に対する可動板ばねの位置ずれを抑えることができ、可動鉄心の駆動力を安定して両可動接点に供給することが可能であり、可動接点および固定接点間の接触抵抗を安定化させるという効果を奏する。 In the contact switch of the present invention, in the configuration in which the movable plate spring presses the back surface side of the movable contact of the movable contact, positional deviation of the movable plate spring with respect to the movable contact can be suppressed, and the driving force of the movable iron core is stabilized. Thus, it is possible to supply both movable contacts, and it is possible to stabilize the contact resistance between the movable contacts and the fixed contacts.

実施の形態１の接点開閉器の斜視図である。FIG. 1 is a perspective view of a contact switch of Embodiment 1; 実施の形態１の接点開閉器における、可動接触子の上面図である。FIG. 5 is a top view of a movable contact in the contact switch of Embodiment 1; 本発明の実施の形態１の接点開閉器の可動板ばね１の斜視図である。It is a perspective view of movable leaf spring 1 of a contact switch of Embodiment 1 of the present invention. 本発明の実施の形態１の接点開閉器の可動板ばね１と可動接触子２との係合状態を表す斜視図である。It is a perspective view showing the engagement state of the movable plate spring 1 and the movable contact 2 of the contact point switch of Embodiment 1 of this invention. 本発明の実施の形態１の接点開閉器の可動板ばね１と可動接触子２と可接支え４との係合状態を表す斜視図である。It is a perspective view showing the engagement state of movable leaf spring 1, movable contact 2, and accessible support 4 of a contact closing switch of Embodiment 1 of the present invention. 本発明の実施の形態１の接点開閉器の接点開極時の断面図である。It is sectional drawing at the time of the contact opening of the contact point switch of Embodiment 1 of this invention. 本発明の実施の形態１の接点開閉器の接点開極時の断面図である。It is sectional drawing at the time of the contact opening of the contact point switch of Embodiment 1 of this invention. 図８は、本発明の実施の形態１の接点開閉器の接点閉路状態の断面図である。FIG. 8 is a cross-sectional view of the contact closing state of the contact switch according to the first embodiment of the present invention. 本発明の実施の形態２の接点開閉器の可動板ばね１と可動接触子２との係合状態を表す斜視図である。It is a perspective view showing the engagement state of the movable plate spring 1 and the movable contact 2 of the contact point switch of Embodiment 2 of this invention. 本発明の実施の形態２の接点開閉器の可動板ばね１と可動接触子２と可接支え４との係合状態を表す斜視図である。It is a perspective view showing the engagement state of movable leaf spring 1 of movable contact 2 of a contact switch of a 2nd embodiment of the present invention, movable contact 2, and accessible support 4. 本発明の実施の形態１、２の変形例の接点開閉器の可動板ばね１と可動接触子２との係合状態を表す斜視図である。It is a perspective view showing the engagement state of the movable plate spring 1 of the contact point switch of the modification of Embodiment 1, 2 of this invention, and the movable contact 2. FIG.

以下に、本発明に係る接点開閉器の実施の形態を図面に基づいて詳細に説明する。なお、実施の形態によりこの発明が限定されるものではない。 Hereinafter, embodiments of a contact switch according to the present invention will be described in detail based on the drawings. Note that the present invention is not limited by the embodiments.

実施の形態１．
図１は、実施の形態１の接点開閉器について、固定接触子を含めて示す斜視図である。固定接触子８には固定接点７が設けられている。可動接触子２には、可動接点３が設けられており、可動接触子２は、可動板バネ１、可接支え４およびクロスバー５と連結されている。Embodiment 1
FIG. 1 is a perspective view showing a contact switch of Embodiment 1 including a fixed contact. The fixed contact 8 is provided with a fixed contact 7. The movable contact 2 is provided with a movable contact 3, and the movable contact 2 is connected to the movable plate spring 1, the contactable support 4 and the cross bar 5.

図２は、実施の形態１の接点開閉器を上方から見た場合の、可動接触子の上面図である。後に説明する図６〜８は、図２におけるＡ−Ａ線で接点開閉器を切断した場合の断面図である。なお、実施の形態１の接点開閉器を説明するために、Ｘ方向、Ｙ方向およびＺ方向を、それぞれ、図１、図３〜５に図示するように、互いに直交する方向として定義する。Ｘ方向は、一対の可動接点３や一対の固定接点７が並ぶ方向である。Ｚ方向は、可動接触子が移動する方向である。また、Ｚ方向正側を上、負側を下と定義する。 FIG. 2 is a top view of the movable contact when the contact switch according to the first embodiment is viewed from above. 6-8 which are described later are cross-sectional views of the case where the contact switch is cut along the line A-A in FIG. In order to describe the contact switch of the first embodiment, the X direction, the Y direction, and the Z direction are defined as directions orthogonal to each other as illustrated in FIG. 1 and FIGS. The X direction is a direction in which the pair of movable contacts 3 and the pair of fixed contacts 7 are arranged. The Z direction is the direction in which the movable contact moves. Further, the positive side in the Z direction is defined as upper, and the negative side is defined as lower.

図３は、本発明の実施の形態１の接点開閉器の可動板ばね１を示す斜視図である。可動板ばね１は、Ｘ方向が長手方向となるように形成されている。可動板ばね１は、長手方向の中央部両側に、下方に折り曲げられて延びる係合部１Ａを備える。また、可動板ばね１は、長手方向両端付近に、可動接触子２に当接するためのＶ字状に折り曲げられた形状の押圧部１Ｂを備える。また、可動板ばね１は、長手方向中央部と長手方向両端部との間において、Ｙ方向両側に、上方に折り曲げられて延びるＬ字形状の曲げ部１Ｃと、を備える。可動板ばね１はステンレス鋼製であり、ステンレス鋼の平板を基材としたプレス加工により形成されている。 FIG. 3 is a perspective view showing the movable leaf spring 1 of the contact point switch according to Embodiment 1 of the present invention. The movable plate spring 1 is formed such that the X direction is the longitudinal direction. The movable leaf spring 1 is provided with engaging portions 1A bent and extended downward on both sides in the longitudinal center. In addition, the movable plate spring 1 is provided with a pressing portion 1B having a shape bent in a V-shape for abutting on the movable contact 2 in the vicinity of both ends in the longitudinal direction. Further, the movable plate spring 1 is provided with an L-shaped bent portion 1 </ b> C that is bent upward and extended on both sides in the Y direction between the longitudinal central portion and both longitudinal end portions. The movable plate spring 1 is made of stainless steel, and is formed by pressing using a flat plate of stainless steel as a base material.

図４は、本発明の実施の形態１の接点開閉器の可動板ばね１と可動接触子２との係合状態を表す斜視図である。可動接触子２は銅製である。可動接触子は、Ｘ方向が長手方向となるように形成されている。可動接触子２は、長手方向中央両側に、Ｚ方向に延びる溝状の切欠き部２Ａを備える。可動接触子２の長手方向両端付近の下面に、可動接点３が接合されている。可動板ばね１の押圧部１Ｂは、可動接触子２の上面と、可動接点３と対応する位置において、当接する。また、可動板ばね１の中央Ｌ字形状の係合部１Ａが可動接触子２の切欠き部２Ａに係合している。可動板ばね１の中央部に上方から力が加えられ、可動板ばね１が撓んだ場合、係合部１Ａが溝状の切欠き部２Ａに沿って移動する。この係合により、可動板ばね１と可動接触子２が位置決めされる。この位置決め構造により、可動板ばね１の押圧部１Ｂと可動接触子２の接触部の位置がＸ方向に変動することを抑制する。なお、可動板ばね１の中央Ｌ字形状の係合部１Ａと、可動接触子２の切欠き部２Ａは、可動板ばね１と可動接触子２のＺ方向の移動には影響を与えない。 FIG. 4 is a perspective view showing an engaged state of movable leaf spring 1 and movable contact 2 of the contact switch according to Embodiment 1 of the present invention. The movable contact 2 is made of copper. The movable contact is formed such that the X direction is the longitudinal direction. The movable contact 2 includes groove-like notches 2A extending in the Z direction on both sides in the longitudinal direction. The movable contact 3 is joined to the lower surface of the movable contact 2 near the both ends in the longitudinal direction. The pressing portion 1 B of the movable plate spring 1 abuts on the upper surface of the movable contact 2 at a position corresponding to the movable contact 3. In addition, an L-shaped engaging portion 1 </ b> A in the center of the movable plate spring 1 is engaged with the notch 2 </ b> A of the movable contact 2. When a force is applied from above to the central portion of the movable plate spring 1 and the movable plate spring 1 is bent, the engaging portion 1A moves along the groove-shaped notch 2A. By this engagement, the movable plate spring 1 and the movable contact 2 are positioned. By this positioning structure, it is suppressed that the position of the press part 1B of the movable plate spring 1 and the contact part of the movable contact 2 fluctuates in the X direction. The central L-shaped engaging portion 1A of the movable plate spring 1 and the notch 2A of the movable contact 2 do not affect the movement of the movable plate spring 1 and the movable contact 2 in the Z direction.

図５は、本発明の実施の形態１の接点開閉器の可動板ばね１と可動接触子２と可接支え４との係合状態を表す斜視図である。Ｌ字状の曲げ部１Ｃと可接支え４のＵ字状の立設部４Ｃとの係合により、可動板ばね１が可接支え４により位置決めされる。これにより、可接支え４に対する可動板ばね１のＸ方向の位置ずれを低減することが可能である。また、Ｌ字状の曲げ部１Ｃを４か所設けることにより、可接支え４に対する可動板ばね１のＸ−Ｙ方向の回転ずれを低減することが可能である。また、さらには、Ｌ字状の曲げ部１Ｃが可接支え４のＵ字状の立設部４Ｃに当接することにより、可接支え４に対する可動板ばね１のＸ−Ｚ方向回転方向のズレやガタツキも抑制することが可能である。ここで、可接支え４はステンレス鋼製であり、プレス加工により形成されている。 FIG. 5 is a perspective view showing an engaged state of the movable plate spring 1, the movable contact 2 and the distractable support 4 of the contact switch according to the first embodiment of the present invention. The movable plate spring 1 is positioned by the accessible support 4 by the engagement between the L-shaped bent portion 1 C and the U-shaped standing portion 4 C of the accessible support 4. Thereby, it is possible to reduce the displacement in the X direction of the movable plate spring 1 with respect to the support 4. Further, by providing the L-shaped bent portions 1C at four places, it is possible to reduce the rotational displacement of the movable plate spring 1 with respect to the contactable support 4 in the X-Y direction. Furthermore, when the L-shaped bent portion 1C abuts on the U-shaped standing portion 4C of the support 4, the shift of the movable plate spring 1 in the X-Z direction with respect to the support 4 in the X-Z direction. It is also possible to suppress rattling. Here, the contact support 4 is made of stainless steel and is formed by pressing.

図６は、本発明の実施の形態１の接点開閉器の可動子の接点開極時の断面図である。可動鉄心９は、クロスバー５と一体化されている。クロスバー５のばね受け部５Ａと可接支え４のばね受け部４Ａの間には、押しばね６が挿入されており、押しばね６は可接支え４を下向きに付勢する。押しばね６の付勢力により、クロスバー５の上面５Ｂと可接支え４の交差部４Ｂとで、可動接触子２と可動板ばね１とが、挟持されている。 FIG. 6 is a cross-sectional view at the time of contact opening of the mover of the contact point switch according to the first embodiment of the present invention. The movable core 9 is integrated with the cross bar 5. A push spring 6 is inserted between the spring receiving portion 5A of the cross bar 5 and the spring receiving portion 4A of the dismountable support 4, and the push spring 6 biases the dismountable support 4 downward. The movable contact 2 and the movable plate spring 1 are held between the upper surface 5B of the cross bar 5 and the crossing portion 4B of the contactable support 4 by the biasing force of the push spring 6.

図７は、本発明の実施の形態１の接点開閉器の接点開極時の断面図である。可動鉄心９と固定鉄心１０の接触面間の距離Ｌ１は可動接点３と固定接点７の接触面間の距離Ｌ２よりも長い構造を有している。図示しない操作コイルに流される駆動電流により、固定鉄心１０は励磁される。励磁された固定鉄心１０に可動鉄心９が吸引されることにより、可動鉄心９と一体化して組み合されているクロスバー５、クロスバー５に組み合わされている可動板ばね１、可動接触子２、可接支え４および押しばね６が可動鉄心９と連動して固定鉄心１０に向かって移動する。可動鉄心９が初期開極位置から距離Ｌ２分だけ固定鉄心１０に近づいた時点で可動接点３と固定接点７が接触し、接点閉路状態となる。さらに可動鉄心９が固定鉄心１０に吸引され、初期開極位置から可動鉄心９が固定鉄心１０の方向に距離Ｌ１分だけ移動し、可動鉄心９と固定鉄心１０が接触した際に、完全な接点閉路状態となる。 FIG. 7 is a cross-sectional view of the contact point switch according to Embodiment 1 of the present invention when the contacts are opened. A distance L1 between the contact surfaces of the movable core 9 and the fixed core 10 is longer than a distance L2 between the contact surfaces of the movable contact 3 and the fixed contact 7. The fixed iron core 10 is excited by the drive current supplied to the operation coil (not shown). The movable iron core 9 is attracted to the excited fixed iron core 10, whereby the cross bar 5 integrally assembled with the movable iron core 9, the movable plate spring 1 combined with the cross bar 5, the movable contact 2 The movable support 4 and the push spring 6 move toward the fixed core 10 in conjunction with the movable core 9. When the movable core 9 approaches the fixed core 10 by the distance L2 from the initial open position, the movable contact 3 and the fixed contact 7 are in contact, and the contact is closed. Further, movable iron core 9 is attracted by fixed iron core 10, and movable iron core 9 moves from the initial open pole position in the direction of fixed iron core 10 for a distance L1 to make perfect contact when movable iron core 9 and fixed iron core 10 contact. It becomes a closed state.

図８は、本発明の実施の形態１の接点開閉器の完全な接点閉路状態の断面図である。可動鉄心９が固定鉄心１０に吸引され、固定鉄心１０の方向に距離Ｌ２分だけ移動した時点で、可動接点３は固定接点７と接触し、それ以上固定鉄心１０方向へ移動しなくなる。可動鉄心９が距離Ｌ１分移動した際には、可動接触子２が、クロスバー５の上面５Ｂから、距離Ｌ１-Ｌ２分だけ離れた位置となる。この完全な接点閉路状態において、可動鉄心９に付与される吸引力は、押しばね６により調整された上で、可接支え４に付与され、さらに、可接支え４の交差部４Ｂより、可動板ばね１に対してばね圧Ｐ１が伝えられる。 FIG. 8 is a cross-sectional view of a completely closed state of the contact point switch according to the first embodiment of the present invention. When the movable core 9 is attracted to the fixed core 10 and moved in the direction of the fixed core 10 by the distance L2, the movable contact 3 contacts the fixed contact 7 and no longer moves in the direction of the fixed core 10. When the movable core 9 moves by the distance L 1, the movable contact 2 is at a position separated from the upper surface 5 B of the cross bar 5 by the distance L 1 -L 2. In this complete contact closed state, the suction force applied to the movable iron core 9 is adjusted by the push spring 6 and applied to the contactable support 4, and further, movable from the intersection 4 B of the contactable support 4 A spring pressure P1 is transmitted to the plate spring 1.

ばね圧Ｐ１が可動板ばね１の中央付近に与えられた際、可動板ばね１の押圧部１Ｂの接触部を介し、可動接触子２の可動接点３の裏面側に、それぞれ接点接触圧力Ｐ２およびＰ３が付与される。このとき、可動接触子２に対し、可動板ばね１の押圧部１Ｂから、可動接点３の裏面側に付与される圧力Ｐ２とおよびＰ３と、固定接点７から、可動接点３を介して付与される接点接触圧力とが、与えられる。可接支え４の交差部４Ｂからのばね圧Ｐ１は、可動板ばね１の中央付近に与えられるものの、可動板ばね１を介することにより、可動接触子２が、圧力Ｐ２とおよびＰ３を受ける位置と、固定接点７から付与される反力を受ける位置が一致する。これにより接触圧力による可動接触子２への内部応力を削減し、可動接触子２が反り接点圧力が減少する変形を抑制している。 When the spring pressure P1 is applied near the center of the movable plate spring 1, the contact pressure P2 and contact pressure P2 on the back surface side of the movable contact 3 of the movable contact 2 respectively via the contact portion of the pressing portion 1B of the movable plate spring 1 P3 is given. At this time, the pressure is applied to the movable contact 2 from the pressing portion 1B of the movable plate spring 1 from the pressure P2 and P3 applied to the back surface side of the movable contact 3 and the fixed contact 7 via the movable contact 3 Contact pressure is given. Although the spring pressure P1 from the intersection 4B of the support 4 is given near the center of the movable plate spring 1, the movable contact 2 receives the pressure P2 and P3 by means of the movable plate spring 1 And the position receiving the reaction force applied from the fixed contact 7 coincide with each other. Thereby, the internal stress to the movable contact 2 due to the contact pressure is reduced, and the deformation in which the movable contact 2 is warped and the contact pressure is reduced is suppressed.

しかしながら、可動板ばね１と可動接触子２の位置ズレが大きくなると、可動板ばね１の押圧部１Ｂより圧力Ｐ２およびＰ３を受ける位置と、固定接点７からの反力が付与される可動接点３の位置とのズレが大きくなり、可動板ばね１による可動接触子２の変形防止効果が薄れてしまい、接触抵抗にバラつきが生じやすくなる。実施の形態１の接点開閉器においては、図４に示されるように、可動板ばね１の中央Ｌ字形状の係合部１Ａが、可動接触子２の切欠き部２Ａに嵌め合わされていることにより、可動板ばね１と可動接触子２の位置ズレが抑制される。これにより、安定した接点圧力の供給が可能となり、接点間の接触抵抗の安定により通電部の接点間における異常発熱を抑制し、接点の異常消耗を抑える効果を奏する。 However, when the positional deviation between the movable plate spring 1 and the movable contact 2 becomes large, the movable contact 3 to which the pressure P2 and P3 are received from the pressing portion 1B of the movable plate spring 1 and the reaction force from the fixed contact 7 is applied. Thus, the effect of preventing the deformation of the movable contact 2 by the movable plate spring 1 is reduced, and the contact resistance is likely to be dispersed. In the contact switch according to the first embodiment, as shown in FIG. 4, the central L-shaped engaging portion 1A of the movable plate spring 1 is fitted to the notch 2A of the movable contact 2. Thus, the positional deviation between the movable plate spring 1 and the movable contact 2 is suppressed. As a result, stable contact pressure can be supplied, and by stabilizing the contact resistance between the contacts, abnormal heat generation between the contacts of the current-carrying portion can be suppressed, and the abnormal consumption of the contacts can be suppressed.

また、実施の形態１の接点開閉器においては、可動板ばね１のＬ字状の曲げ部１Ｃと、可接支え４の係合により、可接支え４に対する可動板ばね１の位置ずれを抑制することが可能であり、固定接点７と可動接点３の接触部が安定し、異常発熱を抑制し、接点の異常消耗を抑える効果を奏する。 Further, in the contact switch of the first embodiment, the positional deviation of the movable plate spring 1 with respect to the contact support 4 is suppressed by the engagement of the L-shaped bending portion 1C of the movable plate spring 1 and the contact support 4. The contact portion between the fixed contact 7 and the movable contact 3 is stabilized, abnormal heat generation is suppressed, and the effect of suppressing abnormal consumption of the contact is exhibited.

実施の形態２．
本発明の実施の形態２の接点開閉器の可動板ばね１、可動接触子２、可接支え４の構成について、説明する。なお、実施の形態２の接点開閉器の他の構成に関しては、実施の形態１と同様の構成とできるため、説明は割愛する。実施の形態２の接点開閉器を説明するために、Ｘ方向、Ｙ方向およびＺ方向を、それぞれ、図９、図１０に図示するように、互いに直交する方向として定義する。Ｘ方向は、一対の可動接点３や一対の固定接点７が並ぶ方向である。Ｚ方向は、可動接点が移動する方向である。Ｚ方向正側を上、負側を下と表現する場合もある。Second Embodiment
The configurations of the movable plate spring 1, the movable contact 2 and the contactable support 4 of the contact switch according to the second embodiment of the present invention will be described. The other configuration of the contact point switch according to the second embodiment can be the same as that of the first embodiment, and thus the description thereof will be omitted. In order to describe the contact switch of the second embodiment, the X direction, the Y direction and the Z direction are defined as directions orthogonal to each other as illustrated in FIGS. 9 and 10, respectively. The X direction is a direction in which the pair of movable contacts 3 and the pair of fixed contacts 7 are arranged. The Z direction is the direction in which the movable contact moves. In some cases, the positive side in the Z direction is referred to as upper, and the negative side as lower.

図９は、本発明の実施の形態２の接点開閉器の可動板ばね１と可動接触子２との係合状態を表す斜視図である。可動板ばね１はＸ方向中央部のＹ方向両側に設けられたＺ方向負側に延びるＬ字形状の係合部１Ａと、Ｘ方向両端に設けられた押圧部１Ｂと、Ｘ方向中央部とＸ方向両端部との間のＹ方向側に設けられたＺ方向正側に延びるＬ字形状の曲げ部１Ｃと、を有している。 FIG. 9 is a perspective view showing an engaged state of movable leaf spring 1 and movable contact 2 of the contact switch according to Embodiment 2 of the present invention. Movable leaf spring 1 is an L-shaped engaging portion 1A provided on the both sides in the Y direction provided at both sides in the Y direction at the central portion in the X direction, pressing portions 1B provided at both ends in the X direction, and a central portion in the X direction And an L-shaped bent portion 1C provided on the Y direction side between the X direction both end portions and extending on the Z direction positive side.

可動接触子２のＸ方向両端付近の下面には、可動接点３が接合されている。可動板ばね１の押圧部１Ｂは、可動接触子２の上面と、可動接点３と対応する位置において、接触している箇所である。また、可動板ばね１の中央Ｌ字形状の係合部１Ａが可動接触子２の切欠き部２Ａと嵌め合わせることにより、可動板ばね１と可動接触子２が位置決めされる。この位置決め構造により、可動板ばね１の押圧部１Ｂと可動接触子２の接触部がＸ方向に変動することを抑制する。 The movable contact 3 is joined to the lower surface of the movable contact 2 near both ends in the X direction. The pressing portion 1 </ b> B of the movable plate spring 1 is in contact with the upper surface of the movable contact 2 at a position corresponding to the movable contact 3. Further, when the central L-shaped engaging portion 1A of the movable plate spring 1 is fitted to the notch 2A of the movable contact 2, the movable plate spring 1 and the movable contact 2 are positioned. By this positioning structure, it is suppressed that the press part 1B of the movable plate spring 1 and the contact part of the movable contact 2 fluctuate in the X direction.

図１０は、本発明の実施の形態２の接点開閉器の可動板ばね１と可動接触子２と可接支え４との係合状態を表す斜視図である。Ｌ字状の曲げ部１Ｃと可接支え４のＵ字状の立設部４Ｃとの係合により、可動板ばね１が可接支え４により位置決めされる。これにより、可接支え４に対する可動板ばね１のＸ方向の位置ずれを低減することが可能である。また、Ｌ字状の曲げ部１Ｃが可接支え４のＵ字状の立設部４Ｃに当接することにより、可接支え４に対する可動板ばね１のＸ−Ｚ方向回転方向のズレやガタツキも抑制することが可能である。これにより、実施の形態１と同様に、安定した接点圧力の供給が可能となり、接点間の接触抵抗の安定により通電部の接点間における発熱量が安定し、過度な製品発熱を抑制する効果を奏する。 FIG. 10 is a perspective view showing an engaged state of the movable plate spring 1, the movable contact 2, and the closeable support 4 of the contact switch according to the second embodiment of the present invention. The movable plate spring 1 is positioned by the accessible support 4 by the engagement between the L-shaped bent portion 1 C and the U-shaped standing portion 4 C of the accessible support 4. Thereby, it is possible to reduce the displacement in the X direction of the movable plate spring 1 with respect to the support 4. In addition, when the L-shaped bent portion 1C abuts on the U-shaped standing portion 4C of the support 4, the displacement or rattling of the movable plate spring 1 in the X-Z direction with respect to the support 4 is also achieved. It is possible to suppress. As a result, as in the first embodiment, stable contact pressure can be supplied, the contact resistance between the contacts is stabilized, and the amount of heat generation between the contacts of the current-carrying portion is stabilized, thereby suppressing the excessive heat generation of the product. Play.

本発明は、本発明の広義の精神と範囲を逸脱することなく、様々な実施の形態及び変形が可能とされるものである。例えば、実施の形態１、２の変形例として、接点開閉器の可動板ばね１は、図１１の斜視図に示されるように、実施の形態１、２におけるＬ字状の曲げ部１Ｃを備えない形態とすること可能である。この場合、可接支え４に対し、可動板ばね１および可動接触子２の少なくともいずれか一方を位置決めする機構を別途設けることが必要となるが、可動板ばね１の中央Ｌ字形状の係合部１Ａが、可動接触子２の切欠き部２Ａに嵌め合わされていることにより、可動板ばね１と可動接触子２の位置ズレを抑制することができる。これにより、安定した接点圧力の供給が可能となり、接点間の接触抵抗の安定により通電部の接点間における異常発熱を抑制し、接点の異常消耗を抑える効果を奏する。 The present invention is capable of various embodiments and modifications without departing from the broad spirit and scope of the present invention. For example, as a modified example of the first and second embodiments, the movable leaf spring 1 of the contact switch is provided with the L-shaped bending portion 1C in the first and second embodiments as shown in the perspective view of FIG. It is possible to have no form. In this case, although it is necessary to separately provide a mechanism for positioning at least one of the movable plate spring 1 and the movable contact 2 with respect to the support 4, the central L-shaped engagement of the movable plate spring 1 is engaged By fitting the portion 1A into the notch 2A of the movable contact 2, positional deviation between the movable plate spring 1 and the movable contact 2 can be suppressed. As a result, stable contact pressure can be supplied, and by stabilizing the contact resistance between the contacts, abnormal heat generation between the contacts of the current-carrying portion can be suppressed, and the abnormal consumption of the contacts can be suppressed.

また、上述した実施の形態は、本発明を説明するためのものであり、本発明の範囲を限定するものではない。つまり、本発明の範囲は、実施の形態ではなく、請求の範囲によって示される。そして、請求の範囲内及びそれと同等の発明の意義の範囲内で施される様々な変形が、本発明の範囲内とみなされる。 In addition, the embodiment described above is for describing the present invention, and does not limit the scope of the present invention. That is, the scope of the present invention is indicated not by the embodiments but by the claims. And, various modifications applied within the scope of the claims and the meaning of the invention are considered to be within the scope of the present invention.

１可動板ばね、１Ａ係合部、１Ｂ押圧部、１Ｃ曲げ部、２可動接触子、２Ａ切欠き部、３可動接点、４可接支え、４Ａばね受け部、４Ｂ交差部、４Ｃ立設部、５クロスバー、５Ａばね受け部、５Ｂ上面、６押しばね、７固定接点、８固定接触子、９可動鉄心、１０固定鉄心。 DESCRIPTION OF SYMBOLS 1 movable leaf spring, 1A engaging portion, 1B pressing portion, 1C bending portion, 2 movable contactor, 2A notch portion, 3 movable contact point, 4 closeable support, 4A spring receiving portion, 4B crossing portion, 4C standing portion , 5 crossbar, 5A spring receiving portion, 5B upper surface, 6 pressing spring, 7 fixed contacts, 8 fixed contacts, 9 movable iron cores, 10 fixed iron cores.

Claims

固定鉄心と、
一対の固定接点を備える固定接触子と、
前記固定鉄心に対応して配置され、前記固定鉄心に駆動される可動鉄心と、
前記固定接点と対向して設けられる一対の可動接点を下面側に備える可動接触子と、
前記可動接触子における前記可動接点が設けられる位置の裏面側に当接する押圧部を備える可動板ばねと、
前記可動板ばねの中央部に当接するように配置され、前記可動鉄心の駆動力を前記可動板ばねに伝える可接支えと、
を備え、
前記可動接触子は、前記可動接触子の長手方向中央部の両側面に、上下方向に延びる溝状の切欠き部を備え、
前記可接支えは、上方に延びて形成される立設部を備え、
前記可動板ばねは、長手方向の中央部両側に下方に延びて形成され前記切欠き部に係合する係合部と、長手方向中央部と長手方向の一方の端部との間の両側面の少なくとも一方側、及び長手方向中央部と長手方向の他方の端部との間の両側面の少なくとも一方側にそれぞれ上方に延びて形成され前記立設部が嵌め合わされる折り曲げ部とを備える、
接点開閉器。 With a fixed iron core,
A stationary contact comprising a pair of stationary contacts;
A movable core disposed corresponding to the stationary core and driven by the stationary core;
A movable contact including a pair of movable contacts provided on the lower surface side so as to face the fixed contacts;
A movable plate spring including a pressing portion in contact with a back surface side of a position at which the movable contact is provided in the movable contact;
Are arranged so as to abut the central portion of the movable plate spring, and availability contact support for transmitting the driving force of the movable core to the movable leaf spring,
Equipped with
The movable contact includes groove-shaped notches extending in the vertical direction on both side surfaces of a longitudinal central portion of the movable contact.
The contact support includes an erected portion formed to extend upward,
The movable plate spring is formed to extend downward on both sides in the longitudinal central portion and engage with the notch, and both side surfaces between the longitudinal central portion and one longitudinal end. And a bent portion which is formed to extend upward on at least one side of the at least one side and at least one side of both side surfaces between the longitudinal central portion and the other longitudinal end, and the erected portion is fitted.
Contact switch.

前記固定鉄心と一体に形成された樹脂製のクロスバーと、
前記クロスバーに収容され、前記可動鉄心の駆動力を前記可接支えに伝える押しばねをさらに備える、
請求項１に記載の接点開閉器。 A resin crossbar integrally formed with the fixed core;
The cross bar further includes a push spring accommodated in the cross bar and transmitting the driving force of the movable core to the contact support.
The contact switch according to claim 1.