JPH02859Y2 - - Google Patents
Info
- Publication number
- JPH02859Y2 JPH02859Y2 JP14486883U JP14486883U JPH02859Y2 JP H02859 Y2 JPH02859 Y2 JP H02859Y2 JP 14486883 U JP14486883 U JP 14486883U JP 14486883 U JP14486883 U JP 14486883U JP H02859 Y2 JPH02859 Y2 JP H02859Y2
- Authority
- JP
- Japan
- Prior art keywords
- connector
- electrodes
- elongated
- electrode
- connector member
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Connector Housings Or Holding Contact Members (AREA)
Description
【考案の詳細な説明】
従来のプラグは、金属円軸を極数に応じて段階
的に区画してなるコネクター軸に係るものである
から、その段階的区画に係る金属円軸の区画製作
は、小型軸になればなる程非常に複雑面倒である
上に、極数増加に伴つて区画数が増加するため必
然的に円軸が長大となつてしまう結果、超小型で
で多極のコネクター軸の提供が非常に困難であ
り、円軸では限られた少極数の区画しか望めない
等の欠点がある。そこで、本考案は上記従来の欠
点を除去するもので、コネクター部材を長方形の
柱体となし、その対向の長方側面に対し電極数に
対応する電極帯層を列設せしめて、プラグのコネ
クターの小型化と多極化を簡単ならしめると共
に、この小型コネクター部材の製造を非常に簡便
ならしめて、製造能率を高めて、コスト安の経済
的な超小型多極プラグを量産提供せしめることを
目的とするものである。[Detailed explanation of the invention] Conventional plugs are related to connector shafts in which a metal circular shaft is partitioned in stages according to the number of poles. However, the smaller the shaft becomes, the more complicated and troublesome it becomes.In addition, as the number of pins increases, the number of sections increases, which inevitably results in a longer circular shaft. It is very difficult to provide a shaft, and circular shafts have drawbacks such as the fact that only a limited number of sections can be desired. Therefore, the present invention eliminates the above-mentioned drawbacks of the conventional method.The connector member is formed into a rectangular column, and electrode band layers corresponding to the number of electrodes are arranged in rows on the opposite long sides of the column. The purpose of the present invention is to simplify the miniaturization and multipolarization of the plug, and also to make the manufacturing of this small connector member extremely simple, increase manufacturing efficiency, and mass-produce economical ultra-small multipolar plugs at low cost. It is something.
本考案実施例を図面に付て説明すると、次のよ
うである。 The embodiments of the present invention will be described below with reference to the drawings.
所要の長さと厚さに係る一対の金属の細長平板
1,1′の各表面に対し、該表面に対応する面積
形状の各樹脂薄板2,2′の表面の長手方向に、
基部側端部にコード配線3,3′してなる電極数
に応じた例えば図示の4極の場合は上下2列宛の
電極帯層4,4′をメツキ或はプリント等で配列
してなる一対の電極板5,5′を夫々接着した一
対の細長コネクター素材a,a′を、互に各裏面に
おいて接着せしめて、互に対向長巾側面に電極数
に応じた電極帯層4,4′が配列されてなる長方
形状のプラグのコネクター部材Kを形成せしめ、
該部材Kの基部を適宜形態の絶縁把持部6にイン
サートせしめて構成するものである。 For each surface of a pair of thin flat metal plates 1, 1' having the required length and thickness, in the longitudinal direction of the surface of each thin resin plate 2, 2' having an area shape corresponding to the surface,
Cord wiring 3, 3' is formed on the base side end according to the number of electrodes.For example, in the case of 4 poles as shown in the figure, electrode band layers 4, 4' for two rows above and below are arranged by plating or printing. A pair of elongated connector materials a, a', each having a pair of electrode plates 5, 5' adhered thereto, are adhered to each other on their back surfaces, and electrode strip layers 4, 4' corresponding to the number of electrodes are formed on opposite long sides. form a rectangular plug connector member K in which are arranged;
The base of the member K is inserted into an appropriately shaped insulating grip 6.
又、実施例としては、細長平板1,1′を硬質
樹脂板とし、その各表面に対し、電極数に応じた
電極帯層4,4′を直接プリント等で配列させた
一対の細長コネクター素材a,a′を、各裏面にお
いて接着せしめて長方形状のプラグのコネクター
部材Kを形成し、該部材Kの基部を絶縁把持部6
にインサートせしめて構成するものである。 In addition, as an example, a pair of elongated connector materials are prepared in which the elongated flat plates 1 and 1' are hard resin plates, and electrode band layers 4 and 4' corresponding to the number of electrodes are arranged on each surface by direct printing or the like. a and a' are adhered on each back side to form a rectangular plug connector member K, and the base of the member K is attached to the insulating grip part 6.
It is configured by inserting it into the.
そして、この一対の細長コネクター素材a,
a′の製作は、主に次のような工程で行われる。 And this pair of elongated connector materials a,
The production of a′ is mainly carried out through the following steps.
即ち、所要の厚みの金属又は硬質樹脂に係る長
尺板1″の表面に、それが金属板の場合には、樹
脂板層5″を付設し、該層5″の表面に、電極数に
応じた電極帯層4を各ブロツク状に連続区分して
メツキ又はプリント等で設け、又、長尺板1″を
硬質樹脂板とする場合には、直接に該電極帯層4
をプリントするか或は銅箔を付設してエツヂング
するかして、ブロツク状に連続区分して設け、そ
の長尺板1″体を、ブロツク状の各電極帯層4部
毎に間隔細断することで、簡単に細長コネクター
素材aが量産でき、その一対を互に裏面において
接着させれば、前記構成のコネクター部材Kが形
成されることになる。 That is, if it is a metal plate, a resin plate layer 5'' is attached to the surface of a long plate 1'' made of metal or hard resin having a required thickness, and a resin plate layer 5'' is attached to the surface of the layer 5'', and a number of electrodes are attached to the surface of the layer 5''. The corresponding electrode band layer 4 is continuously divided into blocks and provided by plating or printing, or when the elongated plate 1'' is a hard resin plate, the electrode band layer 4 is directly divided into blocks.
The electrode strips are printed or etched with copper foil, and the electrode strips are continuously divided into blocks, and the 1" long plate is cut into pieces at intervals of 4 parts for each electrode strip layer in the block shape. By doing so, the elongated connector material a can be easily mass-produced, and by bonding a pair of the material to each other on the back surfaces, the connector member K having the above structure is formed.
なお、必要により、該コネクター部材Kの他の
上下側面に電極配列の別の電極板を接着させれ
ば、更に多極化されることになる。 If necessary, another electrode plate with an electrode array may be adhered to the other upper and lower side surfaces of the connector member K to further increase the number of electrodes.
本考案は上記の如く構成してなるから、細長コ
ネクター素材a,a′を互に接着して長方形状とし
てなるプラグのコネクター部材Kは、その長方形
柱体であるため、従来の長大円軸の段階的区分コ
ネクター部材とは異なり、両側の対向長巾側面が
電極面となり且つその側面は曲面でなく平面であ
るから、電極帯層4,4′の区分設置が実に簡単
にできて便利である上に、電極数の増減に対応し
て自由に電極帯層4,4′数を変更配列できる結
果、両側面の電極数を合わせることで相当数の多
極のコネクター部が製作されることになり、多極
プラグが簡単に製作できる製造上の至便性がある
上に、細長コネクター素材a,a′は、極小の細長
平板1,1′を使用できるから、該素材a,a′の
貼り合わせだけで、超小型で多極の長方形状のコ
ネクター部材Kが簡単に製作されることになり、
而も、前記の如く長尺板体の区分細断作業での極
小の細長コネクター素材aの製造能率の高い量産
性と相俟つて(第5図参照)、コストの安い経済
的な超小型多極プラグが提供できる等の効果があ
る。 Since the present invention is constructed as described above, the connector member K of the plug, which is made into a rectangular shape by gluing the elongated connector materials a and a' together, is a rectangular column, so that the conventional elongated circular axis is Unlike the stepwise segmented connector member, the opposed long side surfaces on both sides serve as electrode surfaces, and the side surfaces are not curved surfaces but flat surfaces, so that the electrode strip layers 4, 4' can be installed in sections very easily and conveniently. In addition, the number of electrode strip layers 4 and 4' can be freely changed and arranged in response to an increase or decrease in the number of electrodes, and as a result, a connector part with a considerable number of pins can be manufactured by matching the number of electrodes on both sides. In addition to manufacturing convenience in that a multi-pole plug can be easily manufactured, the elongated connector materials a and a' can be made using extremely small elongated flat plates 1 and 1'. By just doing this, an ultra-small, multi-pole, rectangular connector member K can be easily manufactured.
In addition, as mentioned above, together with the highly efficient mass production of the extremely small elongated connector material a in the divisional shredding work of long plates (see Figure 5), it is possible to create an economical ultra-small multi-purpose connector material with low cost. There are effects such as being able to provide a polar plug.
図面は本考案の実施例を示すものであり、第1
図は拡大斜面図、第2図は一対のコネクター素材
の拡大斜面図、第3図はコネクター部材の拡大断
面図、第4図は他例のコネクター部材(硬質樹脂
製)の場合の拡大断面図、第5図は長尺平板体か
らのコネクター素材の細断製造状態を示す拡大斜
面図である。
1,1′……細長平板、4,4′……電極帯層、
a,a′……細長コネクター素材、K……コネクタ
ー部材、6……絶縁把持部。
The drawings show an embodiment of the present invention.
The figure is an enlarged perspective view, Figure 2 is an enlarged perspective view of a pair of connector materials, Figure 3 is an enlarged sectional view of a connector member, and Figure 4 is an enlarged sectional view of another example of a connector member (made of hard resin). , FIG. 5 is an enlarged perspective view showing the state of manufacturing the connector material by cutting it from a long flat plate. 1, 1'... Long flat plate, 4, 4'... Electrode band layer,
a, a'...Slender connector material, K...Connector member, 6...Insulating grip portion.
Claims (1)
電極帯層4,4′を配列してなる一対の細長コネ
クター素材a,a′を、各裏面において接着して対
向側面に電極数に応じた電極帯層4,4′が配列
されてなる長方形状のプラグのコネクター部材K
を形成し、該部材Kの基部を絶縁把持部6に取付
けてなる小型多極プラグ。 A pair of elongated connector materials a, a' each having electrode band layers 4, 4' arranged in accordance with the number of electrodes are adhered to the surface of each elongated flat plate 1, 1' on each back surface, and the number of electrodes is on the opposite side surface. A rectangular plug connector member K in which electrode band layers 4, 4' are arranged according to
A small multi-pole plug is formed by attaching the base of the member K to the insulating grip part 6.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14486883U JPS6051889U (en) | 1983-09-19 | 1983-09-19 | Small multi-pole plug |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14486883U JPS6051889U (en) | 1983-09-19 | 1983-09-19 | Small multi-pole plug |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6051889U JPS6051889U (en) | 1985-04-11 |
| JPH02859Y2 true JPH02859Y2 (en) | 1990-01-10 |
Family
ID=30322933
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP14486883U Granted JPS6051889U (en) | 1983-09-19 | 1983-09-19 | Small multi-pole plug |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6051889U (en) |
-
1983
- 1983-09-19 JP JP14486883U patent/JPS6051889U/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6051889U (en) | 1985-04-11 |
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