JPH0745928Y2 - Slide operation type electric parts - Google Patents

Description

【考案の詳細な説明】 ［産業上の利用分野］ 本考案は、スライド操作型可変抵抗器やスライド操作型
スイツチのようなスライド操作型電気部品に係わり、特
にプリント基板への取付構造に関するものである。DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a slide operation type electric component such as a slide operation type variable resistor and a slide operation type switch, and more particularly to a structure for mounting on a printed circuit board. is there.

［従来の技術］ 第５図〜第７図は従来例の説明図で、第５図はプリント
基板を含むスライド操作型可変抵抗器の斜視図、第６図
はプリント基板を含む正面図、第７図はその側面図であ
る。[Prior Art] FIGS. 5 to 7 are explanatory views of a conventional example, FIG. 5 is a perspective view of a slide operation type variable resistor including a printed circuit board, FIG. 6 is a front view including the printed circuit board, and FIG. FIG. 7 is a side view thereof.

図面ににおいて１はスライド操作型可変抵抗器、２は矩
形の平板状をなせるフエノール樹脂等よりなる抵抗基板
で、長手方向に伸延する第１の縁部３と、短手方向に伸
延する第２の縁部４とを有す。５は抵抗基板２の一面に
第１の縁部３に沿つて印刷形成された抵抗体、６は同じ
く前記抵抗体５に平行して抵抗基板２の一面に設けられ
た集電体で、前記第１の縁部３に沿つて抵抗体５の両端
に接続される端子７が固定されている。第５図の左側の
端子７にはくの字形状に折曲げられた第１の脚部8aが設
けられ、右側の端子７には脚部8aに対向して逆くの字形
状に折曲げられた第１の脚部8bが設けられており、両脚
部8a,8bは抵抗基板２の第１の縁部３に沿つて弾性変形
可能となつている。In the drawing, 1 is a slide operation type variable resistor, 2 is a resistance substrate made of phenol resin or the like which forms a rectangular flat plate shape, and has a first edge portion 3 extending in a longitudinal direction and a first edge portion 3 extending in a lateral direction. And 2 edges 4. Reference numeral 5 is a resistor formed by printing on one surface of the resistance substrate 2 along the first edge portion 3, and 6 is a current collector provided on one surface of the resistance substrate 2 in parallel with the resistor 5. Terminals 7 connected to both ends of the resistor 5 are fixed along the first edge portion 3. The terminal 7 on the left side of FIG. 5 is provided with a first leg 8a bent in a dogleg shape, and the terminal 7 on the right side is bent in an inverted V shape facing the leg 8a. The first leg portion 8b is provided, and both leg portions 8a and 8b are elastically deformable along the first edge portion 3 of the resistance substrate 2.

また、前記集電体６の両端には第１の縁部３に沿つて集
電体６の両端に接続される端子７が固定されている。第
５図の左側の端子７にはくの字形状に折曲げられた第２
の脚部9aが設けられ、右側の端子７には脚部9aに対向し
て逆くの字形状に折曲げられた第２の脚部9bが設けられ
ており、両脚部9a,9bは抵抗基板２の第１の縁部３に沿
つて弾性変形可能となつている。10は箱型の摺動子受
で、上壁11にはつまみ12が突設し、相対向する側壁13、
及び上、下壁11,14にかこまれて抵抗基板２が貫通する
孔15を有し、前記抵抗体５、集電体６に対向する摺動子
受10の上壁11の下面には摺動子16が固定されている。Further, terminals 7 connected to both ends of the current collector 6 are fixed to both ends of the current collector 6 along the first edge portion 3. The second terminal 7 on the left side of FIG. 5 is bent in a dogleg shape.
Is provided with a leg portion 9a, and the right terminal 7 is provided with a second leg portion 9b that is bent in an inverted V shape so as to face the leg portion 9a. It is elastically deformable along the first edge 3 of the substrate 2. Reference numeral 10 denotes a box-shaped slider support, a knob 12 is provided on the upper wall 11 so as to project, and side walls 13 facing each other,
And a hole 15 through which the resistance substrate 2 penetrates the upper and lower walls 11 and 14 and is slidable on the lower surface of the upper wall 11 of the slider receiver 10 facing the resistor 5 and the current collector 6. The pendulum 16 is fixed.

上記の可変抵抗器１をプリント基板17に取付けるには、
第６図に示すように、第１の脚部8a,8bを内方にたまわ
せてプリント基板17の取付孔18,19に挿入し、脚部8a,8b
のくの字型部分Ｂ、逆くの字型部分Ｃの上方部分をプリ
ント基板17の下面にてスナツプ止めしている。全く同様
にして、第２の脚部9aと第２の脚部9bもプリント基板17
の孔18,19に挿入され、プリント基板17の下面でスナツ
プ止めされる。To attach the above variable resistor 1 to the printed circuit board 17,
As shown in FIG. 6, the first leg portions 8a and 8b are folded inward and inserted into the mounting holes 18 and 19 of the printed circuit board 17, and the leg portions 8a and 8b are inserted.
The upper portions of the cross-shaped portion B and the inverted cross-shaped portion C are snapped on the lower surface of the printed circuit board 17. In the same manner, the second leg 9a and the second leg 9b are also printed on the printed circuit board 17
It is inserted into the holes 18 and 19 of the printed circuit board 17 and is snapped on the lower surface of the printed circuit board 17.

［考案が解決しようとする課題］ ところで、第１の脚部8a,8bをプリント基板17の孔18,19
にスナツプ止めし、第２の脚部9a,9bを同時にプリント
基板17の孔18,19にスナツプ止めする際、第１の脚部8a,
8bおよび第２の脚部9a,9bを孔18,19上に位置決めし、抵
抗基板２の長手方向の両端をプリント基板17に対して押
し込む。これにより、抵抗基板２の長手方向である第１
の縁部３に沿つた方向に力が働いてスナツプがきき、ス
ライド操作型可変抵抗器１がプリント基板17に保持され
るので、耐撓力の弱い抵抗基板２の長手方向の第１の縁
部３に沿つてたわみ力が発生し、第６図の２点鎖線で示
すように抵抗基板２がたわむ。[Problems to be Solved by the Invention] By the way, the first legs 8a and 8b are formed in the holes 18 and 19 of the printed circuit board 17, respectively.
When the second leg portions 9a, 9b are snap-fastened to the holes 18, 19 of the printed circuit board 17 at the same time, the first leg portions 8a, 9b
8b and the second leg portions 9a, 9b are positioned on the holes 18, 19, and both ends of the resistance board 2 in the longitudinal direction are pushed into the printed board 17. As a result, the first direction which is the longitudinal direction of the resistance substrate 2
Since a force acts in a direction along the edge portion 3 of the slider, the snap operation is performed and the slide operation type variable resistor 1 is held by the printed board 17, the first edge of the resistance substrate 2 having a weak flexing resistance in the longitudinal direction. A bending force is generated along the portion 3, and the resistance substrate 2 bends as shown by the chain double-dashed line in FIG.

このように抵抗基板２が長手方向の第１の縁部３に沿つ
てたわんでしまうと、摺動子受10の移動がスムーズに行
なわれず、また、摺動子16と抵抗体５、集電体６との接
触圧が変化するため、所望の抵抗値変化特性が得られ
ず、摺動寿命も短くなるという課題があつた。If the resistance substrate 2 bends along the first edge 3 in the longitudinal direction in this way, the slider receiver 10 will not move smoothly, and the slider 16 and the resistor 5 and the current collector will not move. Since the contact pressure with the body 6 changes, desired resistance value changing characteristics cannot be obtained, and there is a problem that the sliding life is shortened.

本考案は、上記のような課題を解決するためのもので、
本考案の目的は、プリント基板への取付け時に絶縁基板
の長手方向の第１の縁部に沿つて生ずるたわみを防止
し、摺動子受の移動がスムーズに行われ、且つ摺動子と
絶縁基板上のパターンとの接触圧が常に変化することの
ないスライド操作型電気部品を提供しようとするもので
ある。The present invention is for solving the above problems,
An object of the present invention is to prevent the deflection that occurs along the first edge in the longitudinal direction of the insulating substrate during mounting on the printed circuit board, to ensure smooth movement of the slider receiver, and to insulate the slider from the insulator. An object of the present invention is to provide a slide operation type electric component in which the contact pressure with a pattern on a substrate does not always change.

［課題を解決するための手段］ 上記目的を達成するために、本考案は、長手方向に沿っ
て伸延する第１の縁部と、これと直交する短手方向に沿
って伸延する第２の縁部とを有する平板状の絶縁基板の
前記第２の縁部に沿って弾性変形可能な外形が逆くの字
形状の第１の脚部と、くの字形状の第２の脚部を対向し
て設け、前記第1,2の脚部は平板であって、かつ前記絶
縁基板の第２の縁部と前記第1,2の脚部の平板の面を平
行に形成すると共に、前記第1,2の脚部の側面を切り欠
いて、くの字形状、逆くの字形状にそれぞれ形成した構
成としてある。[Means for Solving the Problems] In order to achieve the above object, the present invention provides a first edge portion extending in the longitudinal direction and a second edge portion extending in the lateral direction orthogonal to the first edge portion. A first leg portion having an inverted V-shaped outer shape that is elastically deformable along the second edge portion of a flat plate-shaped insulating substrate having an edge portion; and a second leg portion having a dogleg shape. The first and second legs are flat plates, and the second edge of the insulating substrate and the planes of the flat plates of the first and second legs are parallel to each other. The side surfaces of the first and second legs are cut out to form a dogleg shape and an inverted dogleg shape, respectively.

［作用］ 本考案の上記構成によれば、第１、第２の脚部を抵抗基
板の耐撓性の強い短手方向の第２の縁部に沿つて設けて
いるので、第１、第２の脚部をプリント基板の取付孔に
スナツプ止めしても絶縁基板が第１の縁部３に沿つてた
わむことがない。[Operation] According to the above configuration of the present invention, the first and second leg portions are provided along the second edge portion of the resistance substrate in the short-side direction where the resistance substrate has high flex resistance, so that the first and second leg portions are provided. Even if the second leg is snapped into the mounting hole of the printed board, the insulating board does not bend along the first edge 3.

従つて摺動子受は絶縁基板に沿つてスムーズに移動する
ことができ、また摺動子と絶縁基板上のパターンとの接
触圧を常に一定に保つことができる。Therefore, the slider receiver can move smoothly along the insulating substrate, and the contact pressure between the slider and the pattern on the insulating substrate can be kept constant at all times.

［実施例］ 以下に、本考案の実施例を添付の図面に基づき説明す
る。[Embodiment] An embodiment of the present invention will be described below with reference to the accompanying drawings.

第１図〜第４図は本考案の実施例の説明図で、第１図は
プリント基板を含むスライド操作型可変抵抗器の斜視
図、第２図はその正面図、第３図はプリント基板を含む
側面図、第４図は絶縁基板に端子を取付ける状態の説明
図である。1 to 4 are explanatory views of an embodiment of the present invention. FIG. 1 is a perspective view of a slide operation type variable resistor including a printed circuit board, FIG. 2 is a front view thereof, and FIG. 3 is a printed circuit board. FIG. 4 is a side view including FIG. 4 and FIG.

なお、第５図〜第７図に示した従来例と同一部分には同
一符号を付して重複する説明は省略する。The same parts as those of the conventional example shown in FIGS. 5 to 7 are designated by the same reference numerals, and the duplicated description will be omitted.

本考案においては、抵抗基板２の長手方向の第１の縁部
３に沿つて抵抗体５の両端に端子７を介して接続する第
１の脚部8a,8bを設けると共に集電体６の両端に端子７
を介して接続する第２の脚部9a,9bを設け、第１の脚部8
aと第２の脚部9aとは抵抗基板の短手方向の第２の縁部
４に沿つて弾性変形可能であり、第１の脚部8aは外形が
逆くの字形状を有し、第２の脚部9aは外形がくの字形状
を有す。In the present invention, the first legs 8a and 8b connected to both ends of the resistor 5 via the terminals 7 are provided along the first edge 3 in the longitudinal direction of the resistor substrate 2 and the current collector 6 is connected. Terminal 7 at both ends
The second leg portions 9a and 9b connected to each other are provided, and the first leg portion 8
a and the second leg 9a are elastically deformable along the second edge 4 in the lateral direction of the resistance substrate, and the first leg 8a has an inverted V-shape. The second leg 9a has a dogleg shape.

また、前記第１の脚部8bと第２の脚部9bとは抵抗基板２
の短手方向の第２の縁部４に沿つて弾性変形可能であ
り、第１の脚部8bは外形がくの字形状を有し、第２の脚
部9bは外形が逆くの字形状を有する。In addition, the first leg portion 8b and the second leg portion 9b are the resistance substrate 2
Is elastically deformable along the second edge portion 4 in the lateral direction of the first leg portion 8b, and the first leg portion 8b has a dogleg shape, and the second leg portion 9b has an inverted dogleg shape. Have.

上記の第１、第２の脚部8a,9aをプリント基板17の取付
孔18,18に取付けるには、第３図に示すように脚部8a,9a
を短手方向の第２の縁部４に沿つて内方にたわませた状
態で取付孔18,18に挿入し、逆くの字型部分Ｄ、くの字
型部分Ｅの上方部分をプリント基板17の下面でスナツプ
止めする。To attach the first and second legs 8a and 9a to the attachment holes 18 and 18 of the printed circuit board 17, as shown in FIG. 3, the legs 8a and 9a are attached.
Is bent inward along the second edge 4 in the lateral direction and inserted into the mounting holes 18 and 18, and the upper portions of the inverted V-shaped portion D and the inverted V-shaped portion E are removed. The bottom surface of the printed board 17 is snap-fastened.

全く同様にして、第１の脚部8b、第２の脚部9bもプリン
ト基板の取付孔19,19に挿入され、逆くの字型部分Ｄ、
くの字型部分Ｅの上方部分をプリント基板17の下面でス
ナツプ止めされる。In exactly the same manner, the first leg portion 8b and the second leg portion 9b are also inserted into the mounting holes 19 and 19 of the printed circuit board, and the inverted V-shaped portion D,
The upper portion of the dogleg-shaped portion E is snapped on the lower surface of the printed circuit board 17.

なお、一対の端子7,7を抵抗基板２の第２の縁部４に沿
つて取付けるには、第４図に示すように、予めフープ材
20で連結された複数組の一対の端子群７を抵抗基板２の
長手方向に展開した状態で抵抗基板２の第２の縁部４に
沿つて取付けた後、所定の位置で切断する。In order to attach the pair of terminals 7, 7 along the second edge 4 of the resistance substrate 2, as shown in FIG.
A plurality of pairs of terminal groups 7 connected by 20 are attached along the second edge portion 4 of the resistance substrate 2 in a state of being developed in the longitudinal direction of the resistance substrate 2, and then cut at a predetermined position.

本考案の上記実施例は、第１の脚部8a、第２の脚部9aは
抵抗基板２の一側の第２の縁部４に沿つて弾性変形可能
に取付けられ、第１の脚部8b、第２の脚部9bは抵抗基板
２の他側の第２の縁部４に沿つて弾性変形可能に取付け
られる。すなわち、脚部8a,9aをプリント基板17の孔18,
18に挿入する際、或いは脚部8b,9bをプリント基板17の
孔19,19に挿入する際、脚部8a,9aおよび脚部8b,9bをそ
れぞれプリント基板17の孔18,18および孔19,19上に位置
決めし、抵抗基板２の長手方向の両端をプリント基板17
に対して押し込む。これにより脚部8a,9aおよび脚部8b,
9bが孔18,18および孔19,19に挿通され、スライド操作型
可変抵抗器１がプリント基板17に保持される。この時、
抵抗基板２の短手方向である第２の縁部４に沿つて脚部
8a,9aおよび脚部8b,9bの弾性力が働き、スライド操作型
可変抵抗器１がスナツプ止めされるが、抵抗基板２の短
手方向の第２の縁部４は第１の縁部３に比して耐撓性は
十分大であるので、抵抗体２が第１の縁部３に沿つてた
わむことはない。In the above embodiment of the present invention, the first leg portion 8a and the second leg portion 9a are elastically deformably attached along the second edge portion 4 on one side of the resistance substrate 2, and the first leg portion 8a and the second leg portion 9a are attached. The second leg 8b and the second leg 9b are elastically deformable along the second edge 4 on the other side of the resistance substrate 2. That is, the leg portions 8a and 9a are connected to the holes 18 of the printed circuit board 17,
18 or when inserting the leg portions 8b and 9b into the holes 19 and 19 of the printed board 17, the leg portions 8a and 9a and the leg portions 8b and 9b are inserted into the holes 18 and 18 and the hole 19 of the printed board 17, respectively. , 19 and position both ends of the resistance board 2 in the longitudinal direction on the printed board 17.
Push against. As a result, the legs 8a, 9a and the legs 8b,
9b is inserted through the holes 18 and 18 and the holes 19 and 19, and the slide operation type variable resistor 1 is held on the printed board 17. At this time,
The legs along the second edge 4 which is the lateral direction of the resistance substrate 2
The slide operation type variable resistor 1 is snap-fastened by the elastic force of the legs 8a, 9a and the legs 8b, 9b, but the second edge 4 in the lateral direction of the resistance substrate 2 is the first edge 3 Since the flexure resistance is sufficiently large as compared with the above, the resistance body 2 does not bend along the first edge portion 3.

従つて、抵抗基板２の第１の縁部３に沿つて移動する摺
動子受10の移動はスムーズに行われ、かつ摺動子16と抵
抗体５及び集電体６との接触圧は常に一定である。従つ
て摺動子受10の移動によつて所望の抵抗値変化特性を得
ることができる。Therefore, the slider receiver 10 that moves along the first edge portion 3 of the resistance substrate 2 moves smoothly, and the contact pressure between the slider 16 and the resistor 5 and the current collector 6 is It is always constant. Therefore, a desired resistance value change characteristic can be obtained by moving the slider receiver 10.

また、先にのべたように、一対の端子7,7の群が複数組
フープ材20によつて連結されて抵抗基板２の長手方向に
展開でき、前記の端子群間のピツチＡを十分狭くするこ
とが出来る。従つて材料どりが非常によい。Further, as mentioned above, a group of a pair of terminals 7, 7 are connected by a plurality of sets of hoop members 20 and can be expanded in the longitudinal direction of the resistance substrate 2, and the pitch A between the terminal groups can be made sufficiently narrow. You can do it. Therefore, the material is very good.

なお、上記実施例は可変抵抗器についてのべたが、スラ
イド操作型スイツチにも本考案を適用でき、この場合
も、摺動子10の移動がスムーズで而も摺動子16と絶縁基
板２上のスイツチパターンとの接触圧が一定で、摺動子
16とスイツチパターンとの接触抵抗を常に一定に保つこ
とができる。Although the above-mentioned embodiments are about the variable resistor, the present invention can be applied to the slide operation type switch. In this case, the movement of the slider 10 is smooth, and the slider 16 and the insulating substrate 2 are not moved. The contact pressure with the switch pattern of the
The contact resistance between 16 and the switch pattern can always be kept constant.

［考案の効果］ 以上説明したように、本考案によれば、第1,2の脚部は
平板状であって、かつくの字形状並びに逆くの字形状で
あるので、スライド操作型電気部品をコンパクトに取り
付けることが可能であると同時に、取付後にガタを生じ
にくくすることができ、また、スライド操作型電気部品
をプリント基板にスナップ止めする際、絶縁基板が長手
方向の第１の縁部に沿ってたわみを生じることがないの
で、摺動子受の移動をスムーズに行え、かつ端子の材料
どりもよく、而も、摺動子と絶縁基板上のパターンとの
接触圧を常に一定にできる。[Effects of the Invention] As described above, according to the present invention, since the first and second legs are flat plate-shaped and have an inverted V-shape and an inverted V-shape, the slide operation type electric The component can be mounted compactly, and at the same time, it is possible to prevent rattling after mounting, and when the slide operation type electrical component is snap-fastened to the printed circuit board, the insulating substrate has the first edge in the longitudinal direction. Since there is no bending along the part, the slider receiver can be moved smoothly and the material of the terminal is good, and the contact pressure between the slider and the pattern on the insulating substrate is always constant. You can

【図面の簡単な説明】[Brief description of drawings]

第１図〜第４図は本考案の実施例の説明図で、第１図は
プリント基板を含むスライド操作型可変抵抗器の斜視
図、第２図はその正面図、第３図はプリント基板を含む
側面図、第４図は抵抗基板に端子を取付ける状態の説明
図、第５図〜第７図は従来例の説明図で、第５図はプリ
ント基板を含むスライド操作型可変抵抗器の斜視図、第
６図はプリント基板を含む正面図、第７図は側面図であ
る。 １……可変抵抗器、２……抵抗基板（絶縁基板）、３…
…第１の縁部、４……第２の縁部、５……抵抗体（パタ
ーン）、６……集電体（パターン）、７……端子、8a,8
b,9a,9b……脚部、10……摺動子受、16……摺動子、17
……プリント基板、18,19……取付孔、20……フープ
材。1 to 4 are explanatory views of an embodiment of the present invention. FIG. 1 is a perspective view of a slide operation type variable resistor including a printed circuit board, FIG. 2 is a front view thereof, and FIG. 3 is a printed circuit board. FIG. 4 is a side view including FIG. 4, FIG. 4 is an explanatory view of a state in which terminals are attached to a resistance substrate, FIGS. 5 to 7 are explanatory views of a conventional example, and FIG. 5 is a slide operation type variable resistor including a printed circuit board. A perspective view, FIG. 6 is a front view including a printed circuit board, and FIG. 7 is a side view. 1 ... Variable resistor, 2 ... Resistor substrate (insulating substrate), 3 ...
... first edge, 4 ... second edge, 5 ... resistor (pattern), 6 ... current collector (pattern), 7 ... terminal, 8a, 8
b, 9a, 9b …… Legs, 10 …… Slider holder, 16 …… Slider, 17
…… Printed circuit board, 18,19 …… Mounting hole, 20 …… Hoop material.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] 【請求項１】長手方向に沿って伸延する第１の縁部と、
これと直交する短手方向に沿って伸延する第２の縁部と
を有する平板状の絶縁基板の前記第２の縁部に沿って弾
性変形可能な外形が逆くの字形状の第１の脚部と、くの
字形状の第２の脚部を対向して設け、 前記第1,2の脚部は平板であって、かつ前記絶縁基板の
第２の縁部と前記第1,2の脚部の平板の面を平行に形成
すると共に、前記第1,2の脚部の側面を切り欠いて、く
の字形状、逆くの字形状にそれぞれ形成したことを特徴
とするスライド操作型電気部品。1. A first edge portion extending in the longitudinal direction,
A first flat plate-shaped insulating substrate having a second edge extending in the lateral direction orthogonal to the first edge having a reverse V-shaped outer shape elastically deformable along the second edge. A leg portion and a dogleg-shaped second leg portion are provided so as to face each other, the first and second leg portions are flat plates, and the second edge portion of the insulating substrate and the first and second leg portions are provided. The slide operation is characterized in that the flat plate surfaces of the legs are formed in parallel, and the side surfaces of the first and second legs are cut out to form a dogleg shape and an inverted dogleg shape, respectively. Mold electrical parts.