JP2021068609A - Rotary electronic component with push switch - Google Patents

Rotary electronic component with push switch Download PDF

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JP2021068609A
JP2021068609A JP2019193407A JP2019193407A JP2021068609A JP 2021068609 A JP2021068609 A JP 2021068609A JP 2019193407 A JP2019193407 A JP 2019193407A JP 2019193407 A JP2019193407 A JP 2019193407A JP 2021068609 A JP2021068609 A JP 2021068609A
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electronic component
contact plate
movable contact
fixed contact
rotating body
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JP7307473B2 (en
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渡辺 仁
Hitoshi Watanabe
仁 渡辺
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Teikoku Tsushin Kogyo Co Ltd
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Teikoku Tsushin Kogyo Co Ltd
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Abstract

To provide a rotary electronic component with a press switch capable of having both of a function of the rotary electronic component and a function of the press switch with an opening in the center.SOLUTION: A rotary electronic component 1 with a press switch includes: a rotating body 40 having an opening 45 in the center and installed so as to be freely rotatable and vertically movable; a rotation detecting part 200 which changes an output signal interlocking with the rotation of the rotating body 40; a movable contact plate 100 which moves up and down interlocking with the vertical movement of the rotating body 40; and a fixed contact plate 150 which is separated from the movable contact plate 100 and is installed in the downward. The movable contact plate 100 is formed in an annular shape, and when the movable contact plate 100 is lowered, the switch is turned on by bringing any port thereof into contact with a portion opposite to the fixed contact plate 150.SELECTED DRAWING: Figure 4

Description

本発明は、押圧スイッチ付き回転式電子部品に関するものである。 The present invention relates to a rotary electronic component with a pressing switch.

従来、中央に開口を有する回転式電子部品において、押圧スイッチを設置する場合は、前記開口内に押圧スイッチを別途設置することが行われていた(例えば特許文献1など参照)。 Conventionally, when a pressing switch is installed in a rotary electronic component having an opening in the center, the pressing switch has been separately installed in the opening (see, for example, Patent Document 1).

特開2008−282703号公報Japanese Unexamined Patent Publication No. 2008-28203

しかし、上記従来の押圧スイッチ付き回転式電子部品は、上述のように、前記開口内に押圧スイッチを設置する構造なので、この開口内を別の用途のために使用することができなかった。 However, since the conventional rotary electronic component with a pressing switch has a structure in which the pressing switch is installed in the opening as described above, the inside of the opening cannot be used for another purpose.

本発明は上述の点に鑑みてなされたものでありその目的は、中央に開口を設けた状態のまま、回転式電子部品の機能と押圧スイッチの機能を併せて持たせることができ、且つ両機能の操作を容易且つ確実に行うことができる押圧スイッチ付き回転式電子部品を提供することにある。 The present invention has been made in view of the above points, and an object of the present invention is to have both the function of a rotary electronic component and the function of a pressing switch while maintaining an opening in the center. It is an object of the present invention to provide a rotary electronic component with a pressing switch capable of easily and surely operating a function.

本発明にかかる押圧スイッチ付き回転式電子部品は、中央に開口を有し回転自在、且つ上下動自在に設置される回転体と、前記回転体の回転に連動して出力信号を変化させる回転検出部と、前記回転体の上下動に連動して上下動する可動接点と、前記可動接点と離間して設置される固定接点と、を具備し、少なくとも前記可動接点は環状に形成され、当該可動接点を下降させた際にその何れかの部分が前記固定接点の対向する部分に接触することでスイッチがオンすることを特徴としている。
回転体の上下動には、回転体の揺動も含まれる。
本発明によれば、可動接点を環状に形成し、これと離間して設置した固定接点に可動接点の何れかの部分を接触させることでスイッチをオンする構成としたので、中央に開口を設けた状態のまま、回転式電子部品の機能と押圧スイッチの機能を併せて持たせることができる。これによって、開口内を他の電子部品の設置や所望の装飾などの他の各種用途のために使用することができる。
また回転体を回転することによって回転検出部を操作するとともに、当該回転体を上下動させることによって押圧スイッチのオンオフ操作が行えるので、回転式電子部品としての操作と押圧スイッチとしての操作を同一の回転体によって容易に行うことができる。
さらに回転体を下降させる際に回転体が水平状態から傾いたとしても(即ち揺動したとしても)、環状の可動接点の何れかの部分が固定接点に接触すればオンするので、押圧スイッチのオンオフ操作を確実に行わせることができる。 The rotary electronic component with a pressure switch according to the present invention includes a rotating body having an opening in the center and being rotatably and vertically movable, and a rotation detection that changes an output signal in conjunction with the rotation of the rotating body. A unit, a movable contact that moves up and down in conjunction with the vertical movement of the rotating body, and a fixed contact that is installed apart from the movable contact, and at least the movable contact is formed in an annular shape and is movable. When the contact is lowered, any portion of the contact comes into contact with the opposite portion of the fixed contact, so that the switch is turned on.
The vertical movement of the rotating body includes the swinging of the rotating body.
According to the present invention, the movable contact is formed in an annular shape, and the switch is turned on by bringing any part of the movable contact into contact with the fixed contact installed apart from the movable contact. Therefore, an opening is provided in the center. In this state, the function of the rotary electronic component and the function of the pressing switch can be combined. This allows the inside of the opening to be used for various other purposes such as the installation of other electronic components and the desired decoration.
Further, since the rotation detection unit can be operated by rotating the rotating body and the pressing switch can be turned on and off by moving the rotating body up and down, the operation as a rotary electronic component and the operation as the pressing switch are the same. It can be easily done by a rotating body.
Furthermore, even if the rotating body tilts from the horizontal state (that is, swings) when lowering the rotating body, it turns on when any part of the annular movable contact contacts the fixed contact. The on / off operation can be reliably performed.

また本発明は、上記特徴に加え、前記可動接点と前記固定接点は金属材によって構成され、当該固定接点には、フレキシブル回路基板が直接または他の導電部材を介して接続され、当該フレキシブル回路基板には、外部に引き出されて他の回路基板や電子部品に接続される引出部が設けられていることを特徴としている。
本発明によれば、可動接点と固定接点を金属材によって構成したので、両者の切離(オンオフ)状態を確実に切り替えることができる。
また、フレキシブル回路基板はその引出部によって、固定接点からの出力を取り出すことができ、他の回路基板や電子部品に電気的に接続することができる。 Further, in the present invention, in addition to the above features, the movable contact and the fixed contact are made of a metal material, and a flexible circuit board is directly connected to the fixed contact or via another conductive member, and the flexible circuit board is connected to the fixed contact. Is characterized in that it is provided with a drawer portion that is pulled out to the outside and connected to other circuit boards and electronic components.
According to the present invention, since the movable contact and the fixed contact are made of a metal material, the separated (on / off) state of the two can be reliably switched.
Further, the flexible circuit board can take out the output from the fixed contact by the drawing portion thereof, and can be electrically connected to other circuit boards and electronic components.

また本発明は、上記特徴に加え、前記可動接点は、前記固定接点を接続したフレキシブル回路基板に接続されていることを特徴としている。
本発明によれば、1枚のフレキシブル回路基板によって、押圧スイッチに対する入出力を行うことができる。 Further, in addition to the above features, the present invention is characterized in that the movable contact is connected to a flexible circuit board to which the fixed contact is connected.
According to the present invention, input / output to the pressing switch can be performed by one flexible circuit board.

本発明によれば、中央に開口を設けた状態のまま、回転式電子部品の機能と押圧スイッチの機能を併せて持たせることができ、且つ両機能の操作を容易且つ確実に行うことができる。 According to the present invention, the function of a rotary electronic component and the function of a pressing switch can be combined with each other while the opening is provided in the center, and both functions can be easily and surely operated. ..

押圧スイッチ付き回転式電子部品1の斜視図である。It is a perspective view of the rotary electronic component 1 with a pressing switch. 押圧スイッチ付き回転式電子部品1の分解斜視図(その1)である。It is an exploded perspective view (the 1) of the rotary electronic component 1 with a pressing switch. 押圧スイッチ付き回転式電子部品1の分解斜視図(その2)である。It is an exploded perspective view (part 2) of the rotary electronic component 1 with a pressing switch. 押圧スイッチ付き回転式電子部品1の断面拡大図である。It is sectional drawing enlarged view of the rotary electronic component 1 with a pressing switch. 支持部材係止部79の部分の要部拡大斜視図である。It is an enlarged perspective view of the main part of the part of the support member locking part 79. ケース70の裏面図である。It is a back view of the case 70. 接点接続部205と固定接点板150と可動接点板100間の電気的接続状態説明図である。It is explanatory drawing of the electrical connection state between a contact connection part 205, a fixed contact plate 150, and a movable contact plate 100. 接点接続部205と固定接点板150と可動接点板100間の電気的接続状態から接点接続部205を分離した状態を示す説明図である。It is explanatory drawing which shows the state which separated the contact connection part 205 from the electric connection state between a contact connection part 205, a fixed contact plate 150, and a movable contact plate 100.

以下、本発明の実施形態を、図面を参照して詳細に説明する。図1は、本発明の1実施形態にかかる押圧スイッチ付き回転式電子部品1の斜視図、図2は押圧スイッチ付き回転式電子部品1の上側の部品の分解斜視図、図3は押圧スイッチ付き回転式電子部品1の下側の部品の分解斜視図、図4は押圧スイッチ付き回転式電子部品1の断面拡大図(図1のA−A断面拡大図)である。これらの図に示すように、押圧スイッチ付き回転式電子部品1は、支持部材170の上に固定接点(以下「固定接点板」という)150を載置し、その上側に、取付体130と可動接点(以下「可動接点板」という)100とケース70と回転体(操作体)40とを設置し、また前記ケース70の外周側に回転検出部200を取り付けて構成されている。さらにケース70と固定接点板150の間には、複数個(4つ)の弾性体(以下「コイルバネ」という)240と1つの固定接点接続体250とを介在している。なお以下の説明において、「上」とは固定接点板150から可動接点板100を見る方向をいい、「下」とはその反対方向をいうものとする。 Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of a rotary electronic component 1 with a press switch according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of an upper component of the rotary electronic component 1 with a press switch, and FIG. An exploded perspective view of the lower component of the rotary electronic component 1, FIG. 4 is an enlarged cross-sectional view of the rotary electronic component 1 with a pressing switch (enlarged view of AA in FIG. 1). As shown in these figures, in the rotary electronic component 1 with a pressing switch, a fixed contact (hereinafter referred to as “fixed contact plate”) 150 is placed on the support member 170, and the mounting body 130 and the movable body 130 are movable on the upper side thereof. A contact (hereinafter referred to as "movable contact plate") 100, a case 70, and a rotating body (operating body) 40 are installed, and a rotation detecting unit 200 is attached to the outer peripheral side of the case 70. Further, a plurality (four) elastic bodies (hereinafter referred to as "coil springs") 240 and one fixed contact connecting body 250 are interposed between the case 70 and the fixed contact plate 150. In the following description, "upper" means the direction in which the movable contact plate 100 is viewed from the fixed contact plate 150, and "lower" means the opposite direction.

回転体40は、図2,図4に示すように、合成樹脂をリング状であって、その横断面が略逆L字形状になるように形成されている。回転体40は、略円筒状のリング本体部41と、リング本体部41の上辺から半径方向外方に水平に突出するリング状のつば部43とを有し、これによって中央に円形の開口45を設けて構成されている。リング本体部41の上部部分の外径寸法は、下部部分の外径寸法よりも大きく構成し、これによって両者の境に段部47を形成している。段部47よりも下側の部分(空間)をケース保持部49としている。またリング本体部41の下端辺からは、下方向に向かって所定間隔毎に複数本、小突起状の取付部57が突出している。 As shown in FIGS. 2 and 4, the rotating body 40 is formed by forming a synthetic resin into a ring shape and having a substantially inverted L shape in cross section thereof. The rotating body 40 has a substantially cylindrical ring main body 41 and a ring-shaped brim 43 that horizontally protrudes outward in the radial direction from the upper side of the ring main body 41, whereby a circular opening 45 is formed in the center. Is provided. The outer diameter dimension of the upper portion of the ring main body portion 41 is configured to be larger than the outer diameter dimension of the lower portion, whereby the step portion 47 is formed at the boundary between the two. A portion (space) below the step portion 47 is used as a case holding portion 49. Further, from the lower end side of the ring main body 41, a plurality of small protrusion-shaped mounting portions 57 project downward at predetermined intervals.

図6はケース70の裏面図である。同図及び図2,図4に示すように、ケース70は、合成樹脂をリング状に成形することで形成されている。ケース70は、略円筒状のケース本体部71と、ケース本体部71の下面外周側部分から下方向に突出する略円筒状のスカート部73とを有し、これによって中央に円形の開口75を設けて構成されている。ケース70の外周の一部には、検出部取付部77が形成され、またケース本体部71の複数個所(4箇所)には所定間隔毎に支持部材係止部79が形成されている。またケース本体部71の下面には、円形リング状の凹部からなる可動接点挿入部81が形成されている。 FIG. 6 is a back view of the case 70. As shown in the figure and FIGS. 2 and 4, the case 70 is formed by molding a synthetic resin into a ring shape. The case 70 has a substantially cylindrical case main body 71 and a substantially cylindrical skirt 73 projecting downward from the lower outer peripheral side portion of the case main body 71, whereby a circular opening 75 is provided in the center. It is provided and configured. Detection unit mounting portions 77 are formed on a part of the outer periphery of the case 70, and support member locking portions 79 are formed at a plurality of locations (4 locations) of the case main body portion 71 at predetermined intervals. Further, on the lower surface of the case main body 71, a movable contact insertion portion 81 formed of a circular ring-shaped recess is formed.

スカート部73は、その内径寸法を前記ケース本体部71の内径寸法よりも大きくし、これによってその内側に収納部83を形成している。検出部取付部77は、ケース本体部71の側面からスカート部73の側面にわたって凹部85を設け、その下側部分をスカート部73を貫通する開口86として構成されている。 The inner diameter of the skirt portion 73 is made larger than the inner diameter of the case main body portion 71, whereby the storage portion 83 is formed inside the skirt portion 73. The detection portion mounting portion 77 is provided with a recess 85 extending from the side surface of the case main body portion 71 to the side surface of the skirt portion 73, and the lower portion thereof is configured as an opening 86 penetrating the skirt portion 73.

図5は、1つの支持部材係止部79の部分の要部拡大斜視図である。同図及び図2に示すように、支持部材係止部79は、ケース本体部71の部分に上下に貫通する略矩形状の貫通孔87を設け、貫通孔87内の内側の側面中央付近に係止爪89を設けて構成されている。 FIG. 5 is an enlarged perspective view of a main part of one support member locking portion 79. As shown in FIGS. and 2, the support member locking portion 79 is provided with a substantially rectangular through hole 87 penetrating vertically in the case main body portion 71, and is located near the center of the inner side surface in the through hole 87. It is configured by providing a locking claw 89.

図6に示す可動接点挿入部81を構成する円形リング状の溝は、下記する可動接点板100を嵌合する寸法形状に形成されている。また図6に示すように、ケース本体部71の下面には、所定の間隔毎に、複数(4つ)の円形の***からなる弾性体挿入部91が形成されている。これらの弾性体挿入部91の内の1つの部分には、さらにこれを横切るように、直線状の凹部からなる導電部材挿入部93が形成されている。 The circular ring-shaped groove forming the movable contact insertion portion 81 shown in FIG. 6 is formed in a dimensional shape for fitting the movable contact plate 100 described below. Further, as shown in FIG. 6, on the lower surface of the case main body 71, elastic body insertion portions 91 composed of a plurality (4) circular small holes are formed at predetermined intervals. In one portion of these elastic body insertion portions 91, a conductive member insertion portion 93 formed of a linear recess is formed so as to further cross the elastic body insertion portion 91.

コイルバネ240は、前記ケース70に設けた弾性体挿入部91にその上部が挿入されて支持される寸法に形成されている。即ちコイルバネ240の長さ寸法は、弾性体挿入部91の深さ寸法よりも所定寸法長い寸法に形成されている。 The coil spring 240 is formed in a dimension in which the upper portion thereof is inserted and supported by the elastic body insertion portion 91 provided in the case 70. That is, the length dimension of the coil spring 240 is formed to be a predetermined dimension longer than the depth dimension of the elastic body insertion portion 91.

回転検出部200は、図2に示すように、検出部本体201と、検出部本体201の下部から突出して外方に向けて引き出される引出部203と、検出部本体201の側部から引き出される接点接続部205とを有して構成されている。検出部本体201は、前記回転体40の回転に応じて出力信号を変化させる機構を有しており、例えば前記回転体40の回転に連動して回転する回転体に摺動子を取り付けてこれを回路基板に設けたスイッチパターンなどの摺接パターンに摺接させることで、その出力を前記引出部203に引き出すなどの構成となっている。引出部203は帯状であって、前記検出部本体201からの出力と、前記接点接続部205からの出力を、外部に引き出す図示しない回路パターンがその表面に形成されている。接点接続部205は帯状であってその上側辺から並列に舌片状に突出してほぼ直角に折り曲げられる固定接点接続部207及び可動接点接続部209を設けて構成されている。固定接点接続部207の下面には、下記する固定接点接続体250のパターン接続部251に当接するパターンが形成されている。また可動接点接続部209の下面にも、下記する可動接点板100のパターン接続部107に当接するパターンが形成されている。この実施形態においては、前記接点接続部205と、前記検出部本体201内の摺接パターンを形成した回路基板と、引出部203は、1枚のフレキシブル回路基板によって形成されている。 As shown in FIG. 2, the rotation detection unit 200 is pulled out from the detection unit main body 201, the drawer unit 203 protruding from the lower part of the detection unit main body 201 and being pulled out outward, and the side portion of the detection unit main body 201. It is configured to have a contact connection portion 205. The detection unit main body 201 has a mechanism for changing an output signal according to the rotation of the rotating body 40. For example, a slider is attached to the rotating body that rotates in conjunction with the rotation of the rotating body 40. Is slidably contacted with a sliding contact pattern such as a switch pattern provided on the circuit board, so that the output is drawn out to the drawer portion 203. The drawer portion 203 has a strip shape, and a circuit pattern (not shown) for drawing out the output from the detection unit main body 201 and the output from the contact connection portion 205 to the outside is formed on the surface thereof. The contact connection portion 205 is formed by providing a fixed contact connection portion 207 and a movable contact connection portion 209 which are strip-shaped and project in parallel from the upper side thereof in a tongue-like shape and are bent at a substantially right angle. On the lower surface of the fixed contact connection portion 207, a pattern is formed that abuts on the pattern connection portion 251 of the fixed contact connection body 250 described below. Further, a pattern that abuts on the pattern connecting portion 107 of the movable contact plate 100 described below is also formed on the lower surface of the movable contact connecting portion 209. In this embodiment, the contact connection portion 205, the circuit board on which the sliding contact pattern in the detection portion main body 201 is formed, and the drawer portion 203 are formed by one flexible circuit board.

固定接点接続体250は、1枚の金属板製であり、平面状のパターン接続部251と、パターン接続部251から上方向に向かって立設するように折り曲げられる弾性体取付部253とを有して構成されている。弾性体取付部253は、略逆L字状であり、その上辺の中央付近から下方向に向けて小突起状の弾性体挿入部255が突出している。 The fixed contact connection body 250 is made of one metal plate, and has a flat pattern connection portion 251 and an elastic body attachment portion 253 that is bent so as to stand upward from the pattern connection portion 251. It is composed of. The elastic body mounting portion 253 has a substantially inverted L shape, and a small protrusion-shaped elastic body insertion portion 255 projects downward from the vicinity of the center of the upper side thereof.

可動接点板100は、図3に示すように、金属板を略円筒状に形成して構成されており、幅広部101の中に幅広部101の上辺を切り欠いた幅狭部1−3を設けている。幅狭部103にはパターン接続部107が設けられている。パターン接続部107は、幅狭部103の上辺から上方向に突出する舌片状の突出部をその途中で半径方向外方に向けてほぼ直角に折り曲げて形成されている。可動接点板100の中央は開口109となっている。 As shown in FIG. 3, the movable contact plate 100 is formed by forming a metal plate into a substantially cylindrical shape, and a narrow portion 1-3 in which the upper side of the wide portion 101 is cut out is formed in the wide portion 101. It is provided. The narrow portion 103 is provided with a pattern connecting portion 107. The pattern connecting portion 107 is formed by bending a tongue piece-shaped protruding portion that protrudes upward from the upper side of the narrow portion 103 toward the outside in the radial direction at a substantially right angle. The center of the movable contact plate 100 is an opening 109.

取付体130は、図3に示すように、合成樹脂板を円形のリング状に形成して構成されている。取付体130の面には、上下に貫通する複数の小孔からなる被取付部131が形成されている。各被取付部131は、前記回転体40に設けた各取付部57に対向する位置に設けられている。取付体130の中央は開口133となっている。 As shown in FIG. 3, the mounting body 130 is configured by forming a synthetic resin plate into a circular ring shape. On the surface of the mounting body 130, a mounted portion 131 composed of a plurality of small holes penetrating vertically is formed. Each mounted portion 131 is provided at a position facing each mounting portion 57 provided on the rotating body 40. The center of the mounting body 130 has an opening 133.

固定接点板150は、図3に示すように、金属板を略円板状に形成し、その外周に、所定間隔をあけて複数(4つ)の弾性体支持部151を設けて構成されている。弾性体支持部151は、固定接点板150の外周から半径方向外方に向けて舌片状の突起を突出し、その根元部分を直角に上方向に屈曲して形成されており、その上端辺の中央付近からさらに小突起状の弾性体係止部153を突出している。固定接点板150の中央は、開口155となっている。 As shown in FIG. 3, the fixed contact plate 150 is configured by forming a metal plate in a substantially disk shape and providing a plurality (four) elastic body support portions 151 on the outer periphery thereof at predetermined intervals. There is. The elastic body support portion 151 is formed by projecting a tongue piece-shaped protrusion from the outer circumference of the fixed contact plate 150 outward in the radial direction and bending the root portion at a right angle upward, and the upper end side thereof. A small protrusion-shaped elastic body locking portion 153 is further projected from the vicinity of the center. The center of the fixed contact plate 150 has an opening 155.

支持部材170は、図3に示すように、合成樹脂を略平板状でリング状に形成して構成されている。支持部材170の上面からは、所定間隔をあけて複数(4つ)の弾性係止部171が上方向に向けて立設している。各弾性係止部171は、略逆U字状であって、その両端が支持部材170に一体に取り付けられている。そしてその上辺は係止部173、左右両辺はアーム部175となっており、アーム部175はこの弾性係止部171が半径方向に向けて所定の弾性を有して撓む強度に形成されている。支持部材170の中央は開口179となっている。 As shown in FIG. 3, the support member 170 is formed by forming a synthetic resin into a substantially flat plate shape and a ring shape. A plurality of (four) elastic locking portions 171 are erected upward from the upper surface of the support member 170 at predetermined intervals. Each elastic locking portion 171 has a substantially inverted U shape, and both ends thereof are integrally attached to the support member 170. The upper side thereof is a locking portion 173, and the left and right sides are arm portions 175. The arm portion 175 is formed to have a strength that allows the elastic locking portion 171 to bend with a predetermined elasticity in the radial direction. There is. The center of the support member 170 has an opening of 179.

次に、押圧スイッチ付き回転式電子部品1の組立方法を説明する。押圧スイッチ付き回転式電子部品1を組み立てるには、まず予め、回転検出部200の固定接点接続部207の下面のパターンに、固定接点接続体250のパターン接続部251の上面を異方性導電接着剤(導電性接着剤)で接着・固定しておく。そしてこの回転検出部200の検出部本体201を、ケース70の検出部取付部77に取り付ける。このとき、固定接点接続体250を取り付けた接点接続部205を、開口86の内側に配置し、引出部203を開口86の内側からスカート部73の下端辺を介して半径方向外方に引き出しておく。 Next, a method of assembling the rotary electronic component 1 with a pressing switch will be described. In order to assemble the rotary electronic component 1 with a pressing switch, first, the upper surface of the pattern connection portion 251 of the fixed contact connection body 250 is anisotropically conductively bonded to the pattern on the lower surface of the fixed contact connection portion 207 of the rotation detection unit 200. Adhere and fix with an agent (conductive adhesive). Then, the detection unit main body 201 of the rotation detection unit 200 is attached to the detection unit attachment unit 77 of the case 70. At this time, the contact connection portion 205 to which the fixed contact connection body 250 is attached is arranged inside the opening 86, and the drawer portion 203 is pulled out from the inside of the opening 86 to the outside in the radial direction through the lower end side of the skirt portion 73. deep.

次に、回転体40の下側にケース70を配置し、その際、回転体40のリング本体部41の段部47より下側部分を、ケース70の開口75内に回転自在に挿入する。このとき、ケース70の上端辺は段部47の下面に当接する。 Next, the case 70 is arranged on the lower side of the rotating body 40, and at that time, the portion of the rotating body 40 below the step portion 47 of the ring main body portion 41 is rotatably inserted into the opening 75 of the case 70. At this time, the upper end side of the case 70 comes into contact with the lower surface of the step portion 47.

次に、ケース70の下側に可動接点板100を配置し、可動接点板100の幅広部101の部分をケース70下面の可動接点挿入部81内に挿入して固定する。このとき、可動接点板100のパターン接続部107の上面に、異方性導電接着剤(導電性接着剤)を介して回転検出部200の可動接点接続部209の下面のパターンを接着・固定する。 Next, the movable contact plate 100 is arranged under the case 70, and the wide portion 101 of the movable contact plate 100 is inserted into the movable contact insertion portion 81 on the lower surface of the case 70 and fixed. At this time, the pattern on the lower surface of the movable contact connection portion 209 of the rotation detection unit 200 is adhered and fixed to the upper surface of the pattern connection portion 107 of the movable contact plate 100 via an anisotropic conductive adhesive (conductive adhesive). ..

次に、ケース70の下側に取付体130を配置し、その際、ケース本体部71の下側に突出する回転体40の各取付部57を、取付体130の各被取付部131に挿入し、それらの先端を取付体130の下面において熱カシメして固定する。これによって、ケース70に対する回転体40の抜け止めが行われる。 Next, the mounting body 130 is arranged on the lower side of the case 70, and at that time, each mounting portion 57 of the rotating body 40 protruding below the case main body 71 is inserted into each mounted portion 131 of the mounting body 130. Then, the tips thereof are heat-caulked and fixed on the lower surface of the mounting body 130. As a result, the rotating body 40 is prevented from coming off from the case 70.

次に、前記ケース70下面の導電部材挿入部93に、前記固定接点接続体250の弾性体取付部253の上部の部分を挿入し、次に、ケース70下面の各弾性体挿入部91に各コイルバネ240の上部の部分を挿入する。このとき1つのコイルバネ240の上端側の開口には、前記固定接点接続体250の弾性体挿入部255が挿入されて支持される。 Next, the upper portion of the elastic body mounting portion 253 of the fixed contact connection body 250 is inserted into the conductive member insertion portion 93 on the lower surface of the case 70, and then each elastic body insertion portion 91 on the lower surface of the case 70 is inserted. Insert the upper part of the coil spring 240. At this time, the elastic body insertion portion 255 of the fixed contact connecting body 250 is inserted and supported in the opening on the upper end side of one coil spring 240.

次に、前記ケース70の下側に固定接点板150を配置し、その際、固定接点板150に設けた各弾性体係止部153を前記各コイルバネ240の下端側の開口に挿入し支持する。 Next, the fixed contact plate 150 is arranged on the lower side of the case 70, and at that time, each elastic body locking portion 153 provided on the fixed contact plate 150 is inserted into and supported by the opening on the lower end side of each coil spring 240. ..

次に、前記固定接点板150の下側に支持部材170を配置し、その際、支持部材170の各弾性係止部171を前記ケース70の各貫通孔87に挿入し、各弾性係止部171の係止部173を、前記ケース70の各係止爪89にスナップイン方式で係止する。これによって、押圧スイッチ付き回転式電子部品1の組立が完了する。なお上記組立手順はその一例であり、他の各種異なる組立手順を用いて組み立てても良いことはいうまでもない。 Next, the support member 170 is arranged under the fixed contact plate 150, and at that time, each elastic locking portion 171 of the support member 170 is inserted into each through hole 87 of the case 70, and each elastic locking portion is inserted. The locking portion 173 of 171 is snap-in-locked to each locking claw 89 of the case 70. As a result, the assembly of the rotary electronic component 1 with the pressing switch is completed. The above assembly procedure is an example, and it goes without saying that the assembly may be performed using various other different assembly procedures.

以上のように構成された押圧スイッチ付き回転式電子部品1は、図4に示すように、ケース70に対して回転自在に回転体40が取り付けられ、またケース70の下面側に可動接点板100が取り付けられている。一方ケース70は、コイルバネ240の弾発力によって、支持部材170の上方に所定寸法押し上げられた位置に保持されている。支持部材170とケース70の離間距離は、前記支持部材170の弾性係止部171とケース70の係止爪89との係止位置によって決まる。一方固定接点板150は、支持部材170上に設置され、前記可動接点板100の下端辺に対して所定寸法離間して対向する。 As shown in FIG. 4, the rotary electronic component 1 with a pressing switch configured as described above has a rotating body 40 rotatably attached to the case 70, and a movable contact plate 100 on the lower surface side of the case 70. Is installed. On the other hand, the case 70 is held at a position pushed up by a predetermined dimension above the support member 170 by the elastic force of the coil spring 240. The separation distance between the support member 170 and the case 70 is determined by the locking position between the elastic locking portion 171 of the support member 170 and the locking claw 89 of the case 70. On the other hand, the fixed contact plate 150 is installed on the support member 170 and faces the lower end side of the movable contact plate 100 at a predetermined dimension.

図7,図8は、回転検出部200の接点接続部205と固定接点板150と可動接点板100間の接続状態を示す要部拡大斜視図であり、図7は接続状態、図8は接点接続部205を分離した状態を示している。両図に示すように、固定接点板150の1つの弾性体支持部151の弾性体係止部153がコイルバネ240の下側の開口に挿入されて支持され、またコイルバネ240の上側の開口に固定接点接続体250の弾性体挿入部255が挿入されて支持されている。また固定接点接続体250のパターン接続部251と、可動接点板100のパターン接続部107は並列に設置され、それらの上面は同一平面上に位置している。そして、接点接続部205の固定接点接続部207の下面と可動接点接続部209の下面は、それぞれ固定接点接続体250のパターン接続部251の上面と、可動接点板100のパターン接続部107の上面に、異方性導電接着剤(導電性接着剤)によって接着されている。これによって固定接点板150は、コイルバネ240と固定接点接続体250を介して接点接続部205上の回路パターンに接続され、可動接点板100は直接接点接続部205上の回路パターンに接続され、これら回路パターンは引出部203上の回路パターンに接続されている。 7 and 8 are enlarged perspective views of the main part showing the connection state between the contact connection portion 205 of the rotation detection unit 200, the fixed contact plate 150, and the movable contact plate 100, FIG. 7 is a connection state, and FIG. 8 is a contact. The state in which the connection portion 205 is separated is shown. As shown in both figures, the elastic body locking portion 153 of one elastic body support portion 151 of the fixed contact plate 150 is inserted and supported in the lower opening of the coil spring 240, and is fixed to the upper opening of the coil spring 240. The elastic body insertion portion 255 of the contact connecting body 250 is inserted and supported. Further, the pattern connecting portion 251 of the fixed contact connecting body 250 and the pattern connecting portion 107 of the movable contact plate 100 are installed in parallel, and their upper surfaces are located on the same plane. The lower surface of the fixed contact connection portion 207 of the contact connection portion 205 and the lower surface of the movable contact connection portion 209 are the upper surface of the pattern connection portion 251 of the fixed contact connection body 250 and the upper surface of the pattern connection portion 107 of the movable contact plate 100, respectively. Is adhered to by an anisotropic conductive adhesive (conductive adhesive). As a result, the fixed contact plate 150 is connected to the circuit pattern on the contact connection portion 205 via the coil spring 240 and the fixed contact connection body 250, and the movable contact plate 100 is directly connected to the circuit pattern on the contact connection portion 205. The circuit pattern is connected to the circuit pattern on the drawer 203.

以上のように構成された押圧スイッチ付き回転式電子部品1において、回転体40を回転すると、当該回転に応じて検出部本体201の出力信号が変化し、変化した出力信号は、引出部203から出力される。 In the rotary electronic component 1 with a pressing switch configured as described above, when the rotating body 40 is rotated, the output signal of the detection unit main body 201 changes according to the rotation, and the changed output signal is transmitted from the drawer unit 203. It is output.

一方、回転体40の上面の何れかの部分(リング上の何れの部分でも良い)を下方向に向けて押圧すると、コイルバネ240の弾発力に抗して、回転体40の押圧した部分が下降して揺動する。回転体40には、ケース70と可動接点板100と取付体130と回転検出部200とが一体に取り付けられているので、これら各部品も回転体40と一体に下降して揺動する。これによって可動接点板100の最も下降した部分の下端辺が、相対的に静止している固定接点板150の表面に当接し、両者間がオンする。固定接点板150側の出力は、上述のように、前記コイルバネ240と固定接点接続体250を介して接点接続部205に取り出され、可動接点板100側の出力は、上述のように、直接前記接点接続部205に取り出され、これによって引出部203にオン信号が出力される。前記回転体40への押圧を解除すると、前記コイルバネ240の弾発力によって回転体40及びこれと一体に移動(上下動)する可動接点板100が元の位置に自動復帰し、可動接点板100は固定接点板150から離れ、出力信号がオフとなる。 On the other hand, when any part of the upper surface of the rotating body 40 (any part on the ring) is pressed downward, the pressed part of the rotating body 40 resists the elastic force of the coil spring 240. It descends and swings. Since the case 70, the movable contact plate 100, the attachment body 130, and the rotation detection unit 200 are integrally attached to the rotating body 40, each of these parts also descends and swings integrally with the rotating body 40. As a result, the lower end side of the most lowered portion of the movable contact plate 100 comes into contact with the surface of the fixed contact plate 150 that is relatively stationary, and the two are turned on. As described above, the output on the fixed contact plate 150 side is taken out to the contact connecting portion 205 via the coil spring 240 and the fixed contact connecting body 250, and the output on the movable contact plate 100 side is directly described as described above. It is taken out by the contact connection portion 205, and an on signal is output to the extraction portion 203. When the pressure on the rotating body 40 is released, the rotating body 40 and the movable contact plate 100 that moves (moves up and down) integrally with the rotating body 40 are automatically returned to their original positions by the elastic force of the coil spring 240, and the movable contact plate 100 Moves away from the fixed contact plate 150 and the output signal is turned off.

ところで、本実施形態においては、弾発手段としてコイルバネ240を用いているので、当該コイルバネ240を制御することで、前記可動接点板100と固定接点板150等からなる押圧スイッチの動作力とストロークの調整を容易に行うことができる。即ち、もしこの弾発手段としてドーム型の可動接点板を用いたとすると、その動作力やストロークの変更は困難であるが、上記コイルバネ240を用いると、その長さや線材の太さ等を変更することで、容易にその動作力とストロークを調整することができる。 By the way, in the present embodiment, since the coil spring 240 is used as the elastic means, by controlling the coil spring 240, the operating force and stroke of the pressing switch including the movable contact plate 100 and the fixed contact plate 150 and the like can be determined. The adjustment can be easily performed. That is, if a dome-shaped movable contact plate is used as the elastic means, it is difficult to change the operating force and the stroke, but if the coil spring 240 is used, the length, the thickness of the wire, and the like are changed. Therefore, the operating force and the stroke can be easily adjusted.

以上説明したように、押圧スイッチ付き回転式電子部品1は、中央に開口45を有し回転自在、且つ上下動自在に設置される回転体40と、回転体40の回転に連動して出力信号を変化させる回転検出部200と、回転体40の上下動に連動して上下動する可動接点板(可動接点)100と、可動接点板100と離間して設置される固定接点板(固定接点)150と、を具備し、少なくとも可動接点板100は環状に形成され、当該可動接点板100を下降させた際にその何れかの部分が前記固定接点板150の対向する部分に接触することでスイッチがオンする構成になっている。 As described above, the rotary electronic component 1 with a pressing switch has an opening 45 in the center and is installed rotatably and vertically, and an output signal linked to the rotation of the rotating body 40. 200, a movable contact plate (movable contact) 100 that moves up and down in conjunction with the vertical movement of the rotating body 40, and a fixed contact plate (fixed contact) that is installed apart from the movable contact plate 100. 150, and at least the movable contact plate 100 is formed in an annular shape, and when the movable contact plate 100 is lowered, any part of the movable contact plate 100 comes into contact with the opposite portion of the fixed contact plate 150 to switch. Is configured to be turned on.

このように、可動接点板100を環状に形成し、これと離間して設置した固定接点板150に可動接点板100の何れかの部分を接触させる構成としたので、中央に開口45を設けた状態のまま、回転式電子部品の機能と押圧スイッチの機能を併せて持たせることができる。これによって、開口45を他の電子部品の設置や所望の装飾などの他の各種用途のために使用することができる。 In this way, since the movable contact plate 100 is formed in an annular shape and any part of the movable contact plate 100 is brought into contact with the fixed contact plate 150 installed apart from the movable contact plate 100, an opening 45 is provided in the center. In the state, the function of the rotary electronic component and the function of the pressing switch can be combined. This allows the opening 45 to be used for various other purposes such as installation of other electronic components and desired decoration.

また回転体40を回転することによって回転検出部200を操作するとともに、当該回転体40を上下動させることによって押圧スイッチのオンオフ操作が行えるので、回転式電子部品としての操作と押圧スイッチとしての操作を同一の回転体40によって容易に行うことができる。 Further, since the rotation detection unit 200 can be operated by rotating the rotating body 40 and the pressing switch can be turned on and off by moving the rotating body 40 up and down, the operation as a rotary electronic component and the operation as a pressing switch can be performed. Can be easily performed by the same rotating body 40.

さらに回転体40を下降させた際に回転体40が水平状態から傾いたとしても、環状の可動接点板100の何れかの部分が固定接点板150に接触すればオンするので、押圧スイッチのオンオフ操作を確実に行わせることができる。 Further, even if the rotating body 40 is tilted from the horizontal state when the rotating body 40 is lowered, it is turned on when any part of the annular movable contact plate 100 comes into contact with the fixed contact plate 150, so that the pressing switch is turned on and off. The operation can be performed reliably.

また上記押圧スイッチ付き回転式電子部品1は、可動接点板100と固定接点板150を金属材によって構成し、当該固定接点板150には、フレキシブル回路基板である接点接続部205がコイルバネ240と固定接点接続体250(他の導電部材)を介して接続され、当該フレキシブル回路基板には、外部に引き出されて他の回路基板や電子部品に接続される引出部203が設けられている。 Further, in the rotary electronic component 1 with a pressing switch, the movable contact plate 100 and the fixed contact plate 150 are made of a metal material, and the contact connecting portion 205, which is a flexible circuit board, is fixed to the coil spring 240 on the fixed contact plate 150. The flexible circuit board is connected via a contact connector 250 (another conductive member), and the flexible circuit board is provided with a drawer portion 203 that is pulled out to the outside and connected to another circuit board or an electronic component.

このように、可動接点板100と固定接点板150を金属材によって構成したので、両者の切離(オンオフ)状態を確実に切り替えることができる。また、フレキシブル回路基板はその引出部203によって、固定接点板150からの出力を取り出すことができ、他の回路基板や電子部品に電気的に接続することができる。 Since the movable contact plate 100 and the fixed contact plate 150 are made of a metal material in this way, the separated (on / off) states of the two can be reliably switched. Further, the flexible circuit board can take out the output from the fixed contact plate 150 by the drawer portion 203, and can be electrically connected to other circuit boards and electronic components.

また上記押圧スイッチ付き回転式電子部品1においては、可動接点板100が、前記固定接点板150を接続したフレキシブル回路基板に接続されているので、1枚のフレキシブル回路基板によって、押圧スイッチに対する入出力を行うことができる。 Further, in the rotary electronic component 1 with a pressing switch, since the movable contact plate 100 is connected to the flexible circuit board to which the fixed contact plate 150 is connected, input / output to and from the pressing switch is performed by one flexible circuit board. It can be performed.

以上本発明の実施形態を説明したが、本発明は上記実施形態に限定されるものではなく、特許請求の範囲、及び明細書と図面に記載された技術的思想の範囲内において種々の変形が可能である。なお直接明細書及び図面に記載がない何れの形状や構造や材質であっても、本願発明の作用・効果を奏する以上、本願発明の技術的思想の範囲内である。例えば、回転検出部の構造は、必ずしも上記実施形態の構成に限定されず、例えば、回転体に直接取り付けた摺動子をケースにリング状に取り付けたフレキシブル回路基板製のスイッチ基板に摺接させるような構成としても良い。また弾性体としてはコイルバネの代わりに板バネやゴム状弾性体などを用いても良い。また可動接点や固定接点として、金属板以外の各種接点を用いても良い。また上記実施形態では固定接点板とフレキシブル回路基板である接点接続部205の間に他の導電部材(コイルバネと固定接点接続体)を介在したが、その代わりに両者を直接接続する構成としても良い。また回転体の上面に別途操作つまみのような操作体を取り付けても良い。 Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of claims and the technical ideas described in the specification and drawings. It is possible. It should be noted that any shape, structure or material not directly described in the specification or drawings is within the scope of the technical idea of the present invention as long as the action and effect of the present invention are exhibited. For example, the structure of the rotation detection unit is not necessarily limited to the configuration of the above embodiment, and for example, a slider directly attached to the rotating body is brought into sliding contact with a switch substrate made of a flexible circuit board attached to a case in a ring shape. It may be configured as such. Further, as the elastic body, a leaf spring or a rubber-like elastic body may be used instead of the coil spring. Further, various contacts other than the metal plate may be used as the movable contact or the fixed contact. Further, in the above embodiment, another conductive member (coil spring and fixed contact connecting body) is interposed between the fixed contact plate and the contact connecting portion 205 which is a flexible circuit board, but instead, both may be directly connected. .. Further, an operating body such as an operating knob may be separately attached to the upper surface of the rotating body.

また、上記記載及び各図で示した実施形態は、その目的及び構成等に矛盾がない限り、互いの記載内容を組み合わせることが可能である。また、上記記載及び各図の記載内容は、その一部であっても、それぞれ独立した実施形態になり得るものであり、本発明の実施形態は上記記載及び各図を組み合わせた一つの実施形態に限定されるものではない。 In addition, the above description and the embodiments shown in each figure can be combined with each other as long as there is no contradiction in the purpose, configuration, and the like. Further, the above description and the description contents of each figure can be independent embodiments even if they are a part thereof, and the embodiment of the present invention is one embodiment in which the above description and each figure are combined. It is not limited to.

1 押圧スイッチ付き回転式電子部品
40 回転体
45 開口
70 ケース
100 可動接点板(可動接点)
130 取付体
150 固定接点板(固定接点)
170 支持部材
200 回転検出部
203 引出部(フレキシブル回路基板)
205 接点接続部(フレキシブル回路基板)
240 コイルバネ(他の導電部材)
250 固定接点接続体(他の導電部材) 1 Rotating electronic component with press switch 40 Rotating body 45 Opening 70 Case 100 Movable contact plate (movable contact)
130 Mounting body 150 Fixed contact plate (fixed contact)
170 Support member 200 Rotation detection unit 203 Drawer unit (flexible circuit board)
205 Contact connection (flexible circuit board)
240 Coil spring (other conductive member)
250 Fixed contact connector (other conductive member)

Claims (3)

中央に開口を有し回転自在、且つ上下動自在に設置される回転体と、
前記回転体の回転に連動して出力信号を変化させる回転検出部と、
前記回転体の上下動に連動して上下動する可動接点と、
前記可動接点と離間して設置される固定接点と、
を具備し、
少なくとも前記可動接点は環状に形成され、当該可動接点を下降させた際にその何れかの部分が前記固定接点の対向する部分に接触することでスイッチがオンすることを特徴とする押圧スイッチ付き回転式電子部品。 A rotating body with an opening in the center that can be rotated and moved up and down,
A rotation detection unit that changes the output signal in conjunction with the rotation of the rotating body,
Movable contacts that move up and down in conjunction with the up and down movement of the rotating body,
Fixed contacts installed apart from the movable contacts,
Equipped with
Rotation with a pressing switch is characterized in that at least the movable contact is formed in an annular shape, and when the movable contact is lowered, any portion of the movable contact comes into contact with an opposing portion of the fixed contact to turn on the switch. Formula electronic components. 請求項1に記載の押圧スイッチ付き回転式電子部品であって、
前記可動接点と前記固定接点は金属材によって構成され、
当該固定接点には、フレキシブル回路基板が直接または他の導電部材を介して接続され、当該フレキシブル回路基板には、外部に引き出されて他の回路基板や電子部品に接続される引出部が設けられていることを特徴とする押圧スイッチ付き回転式電子部品。 The rotary electronic component with a pressing switch according to claim 1.
The movable contact and the fixed contact are made of a metal material.
A flexible circuit board is connected to the fixed contact directly or via another conductive member, and the flexible circuit board is provided with a drawing portion that is pulled out to the outside and connected to another circuit board or an electronic component. A rotary electronic component with a press switch, which is characterized by being 請求項2に記載の押圧スイッチ付き回転式電子部品であって、
前記可動接点は、前記固定接点を接続したフレキシブル回路基板に接続されていることを特徴とする押圧スイッチ付き回転式電子部品。 The rotary electronic component with a pressing switch according to claim 2.
A rotary electronic component with a pressing switch, wherein the movable contact is connected to a flexible circuit board to which the fixed contact is connected.
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH11306918A (en) * 1998-04-16 1999-11-05 Japan Aviation Electronics Ind Ltd Complex switch
JP2008112975A (en) * 2006-10-06 2008-05-15 Alps Electric Co Ltd Rotary electrical component
JP2008269871A (en) * 2007-04-18 2008-11-06 Hosiden Corp Composite operation type input device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH11306918A (en) * 1998-04-16 1999-11-05 Japan Aviation Electronics Ind Ltd Complex switch
JP2008112975A (en) * 2006-10-06 2008-05-15 Alps Electric Co Ltd Rotary electrical component
JP2008269871A (en) * 2007-04-18 2008-11-06 Hosiden Corp Composite operation type input device

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