JPH025488Y2 - - Google Patents

Description

【考案の詳細な説明】 本考案は、多数の並列導線が絶縁材で被覆され
た、所謂フレキシブルなフラツトケーブルの中間
部をコネクタに圧接し、このフラツトケーブルと
コネクタとの圧接部を保護するため、圧接フラツ
トケーブルの両端部をコネクタ上面において引通
して係留を図るフラツトケーブルコネクタにおけ
るケーブル引通し装置に関するものである。[Detailed description of the invention] This invention protects the pressure-connected part between the flat cable and the connector by pressing the middle part of a so-called flexible flat cable, in which many parallel conductors are covered with an insulating material, to a connector. To achieve this, the present invention relates to a cable passing device for a flat cable connector for mooring by passing both ends of a pressure welding flat cable through the upper surface of the connector.

従来技術 第１図乃至第４図に示すように、従来フラツト
ケーブルコネクタ１はコネクタ本体２に圧接用カ
バー３を被着し、該コネクタ本体２と圧接用カバ
ー３との間に介在させたフラツトケーブル４の被
覆材５をコンタクト６により突き破り、導線７を
コンタクト６に圧接させるようにしている。例え
ば第１図はフラツトケーブル４の両端部に他のコ
ネクタ８，９を圧接し、更に同ケーブルの中間部
に別のコネクタ１を圧接する場合を示している
が、これらフラツトケーブル４の導線７とコンタ
クト６との圧接部を保護するため、フラツトケー
ブル５をコネクタ１において引通して係留するこ
とが必要となる。Prior Art As shown in FIGS. 1 to 4, the conventional flat cable connector 1 has a connector body 2 covered with a pressure welding cover 3, which is interposed between the connector body 2 and the pressure welding cover 3. The covering material 5 of the flat cable 4 is pierced by the contact 6, and the conducting wire 7 is brought into pressure contact with the contact 6. For example, FIG. 1 shows a case in which other connectors 8 and 9 are pressure-connected to both ends of the flat cable 4, and another connector 1 is further pressure-connected to the middle part of the same cable. In order to protect the pressure contact portion between the conducting wire 7 and the contact 6, it is necessary to extend the flat cable 5 through the connector 1 and anchor it.

従来の引通し装置は第２図及び第３図より明ら
かなように、合成樹脂製のケーブル押えカバー１
０のケーブル挿通孔１３に予めフラツトケーブル
４の両端部を挿通しておき、押えカバー１０の下
側でフラツトケーブル４の大きなループを作り、
このループの中で押圧部材により圧接用カバー３
をコネクタ本体２に押圧し、フラツトケーブル４
の導線７をコネクタ本体２のコンタクト６に接続
する等の方法を採り、然る後押えカバー１０を取
付爪１２を以つてコネクタ本体２の取付孔１４に
取付けることにより、フラツトケーブル４の両端
部を押えカバー１０の挿通孔１３より同カバー上
面へ導出し両側に振り分けて延出し、ケーブルの
引張力が挿通孔１３を形成する各割片に直に負荷
される構成となつている。 As is clear from FIGS. 2 and 3, the conventional pulling-in device has a cable holding cover 1 made of synthetic resin.
Insert both ends of the flat cable 4 into the cable insertion holes 13 of 0 in advance, make a large loop of the flat cable 4 under the presser cover 10,
Pressing cover 3 is pressed by a pressing member in this loop.
onto the connector body 2, and connect the flat cable 4.
By connecting the conductive wires 7 to the contacts 6 of the connector body 2, and attaching the rear presser cover 10 to the attachment holes 14 of the connector body 2 with the attachment claws 12, both ends of the flat cable 4 are connected. The holding cover 10 is led out from the insertion hole 13 of the cover 10 to the upper surface of the cover, and is distributed and extended on both sides, so that the tensile force of the cable is directly applied to each split piece forming the insertion hole 13.

考案が解決しようとする問題点 而して、フラツトケーブル４は主として圧接用
カバー３とコネクタ本体２との間で保持されるの
で保持力、即ち係留効果に劣り、引張力が直に圧
接部にかかつて接続を損なう恐れがある。Problems to be solved by the invention: Since the flat cable 4 is mainly held between the insulation displacement cover 3 and the connector body 2, the holding force, that is, the mooring effect, is poor, and the tensile force is directly applied to the insulation displacement part. Otherwise, the connection may be damaged.

又フラツトケーブル４が上記の如く押えカバー
１０の上面より湾曲状態で延出され、コネクタ上
部空間を多く占有する欠点がある。 Further, as described above, the flat cable 4 extends in a curved manner from the upper surface of the presser cover 10, which has the disadvantage that it occupies a large amount of space above the connector.

更に並行導線７の芯数増加に伴ないフラツトケ
ーブルの広巾化を招き、従つて押えカバー１０も
より細長となり、ケーブル引張力が直に挿通孔１
３を形成する割片にかかる構造であるので押えカ
バー１０が合成樹脂製であることも原因して割片
が変形（拡開）を来し、従つてフラツトケーブル
４を的確に保持し、フラツトケーブル５とコネク
タ１の接続部の保護が適正に行ない難い等の欠点
があつた。 Furthermore, as the number of cores of the parallel conducting wire 7 increases, the width of the flat cable becomes wider, and the holding cover 10 also becomes more elongated, so that the cable tensile force is directly applied to the insertion hole 1.
3, the holding cover 10 is made of synthetic resin, which causes the split pieces to deform (expand). Therefore, the flat cable 4 is held accurately. There were drawbacks such as difficulty in properly protecting the connecting portion between the flat cable 5 and the connector 1.

本考案は上記問題を確実に解決するものであ
る。 The present invention definitely solves the above problems.

問題点を解決するための手段 本考案は上記問題を解決する手段として、上記
フラツトケーブルの引通し枠を金属にて形成し、
該金属製引通し枠を上記した圧接用カバーとケー
ブル押えカバー間に介在するようにして、これを
ケーブル押えカバーのコネクタ本体への取付け結
合にて両カバー間に同引通し枠を保持する構成と
し、圧接用カバーとコネクタにより圧接したフラ
ツトケーブルを該金属製引通し枠に引通して同金
属製枠片下面と上記圧接用カバー間に挟持しつ
つ、更に同金属製枠片上面と上記ケーブル押えカ
バー間に挟持し、左右側方へ振り分ける構成とし
たものである。Means for Solving the Problems The present invention, as a means to solve the above problems, includes forming the passage frame for the flat cable from metal,
The metal lead-through frame is interposed between the above-mentioned press-fitting cover and the cable holding cover, and the cable holding cover is attached to the connector body to hold the metal lead-through frame between both covers. Then, the flat cable press-connected by the pressure-welding cover and the connector is passed through the metal lead-in frame and held between the lower surface of the metal frame piece and the pressure-welding cover, and the upper surface of the metal frame piece and the The cable is sandwiched between the cable holding covers and distributed to the left and right sides.

作 用 上記の如く、金属製引通し枠はケーブル押えカ
バーと圧接用カバー間にしつかりと挟持され、こ
れを媒体としてその上面側と下面側においてフラ
ツトケーブルを確固に挟持する。即ち、フラツト
ケーブルは圧接部において圧接用カバーとコネク
タ本体間に挟持されることに加え、その延出側に
おいて先ず金属製引通し枠の枠片下面と圧接用カ
バー間に挟持され、更に同引通し枠を引通した後
同引通し枠の枠片上面とケーブル押えカバー間に
挟持される。Function As described above, the metal lead-in frame is firmly held between the cable holding cover and the pressure-welding cover, and uses this as a medium to firmly hold the flat cable on its upper and lower sides. That is, in addition to being held between the insulation displacement cover and the connector main body at the insulation displacement part, the flat cable is first sandwiched between the lower surface of the frame piece of the metal lead-in frame and the insulation displacement cover on the extending side, and then the same After passing through the lead-in frame, it is held between the upper surface of the frame piece of the lead-in frame and the cable holding cover.

上記ケーブル挟持状態は後述する第８図に示さ
れており、このケーブル挟持状態において左右側
方へ振り分けられ、この振り分けられたケーブル
端に加わる引張力に対しては上記両カバー間に保
持した金属製枠片の枠片上下面における上記ケー
ブル挟持力と、金属製枠片により支持するもので
ある。 The cable clamped state is shown in FIG. 8, which will be described later. In this cable clamped state, the cable is distributed to the left and right sides, and the tension force applied to the distributed cable ends is supported by the metal held between the two covers. The cable is supported by the above cable clamping force on the upper and lower surfaces of the frame piece and the metal frame piece.

実施例 以下本考案の一実施例を第５図乃至第８図に基
いて詳細に説明する。Embodiment An embodiment of the present invention will be described in detail below with reference to FIGS. 5 to 8.

同図において１はフラツトケーブルコネクタを
示し、該コネクタ１は圧接コンタクト６を保有す
るコネクタ本体２、圧接用カバー３とフラツトケ
ーブルの引通し枠１５と、ケーブル押えカバー１
６とにより構成される。上記引通し枠１５にはそ
の中央部長手方向に沿つてケーブル挿通孔１７が
形成されており、これを金属にて形成する。又上
記ケーブル押えカバー１６は合成樹脂製とし、そ
のケーブル押え板１８の両端に脚部１９を一体に
成形し、各脚部１９には上記コネクタ本体２の取
付孔１４に圧入される合成樹脂製若しくは金属製
の取付爪２１を突設し、更に押え板１８の中央部
長手方向に沿い上記引通し枠１５の挿通孔１７に
挿入される割込み片２０が一体に成形する。 In the figure, reference numeral 1 indicates a flat cable connector, and the connector 1 includes a connector main body 2 having a pressure contact 6, a pressure contact cover 3, a flat cable passing frame 15, and a cable holding cover 1.
6. A cable insertion hole 17 is formed along the longitudinal direction of the center of the lead-in frame 15, and is made of metal. The cable holding cover 16 is made of synthetic resin, and legs 19 are integrally molded at both ends of the cable holding plate 18, and each leg 19 is made of synthetic resin and is press-fitted into the mounting hole 14 of the connector body 2. Alternatively, a metal attachment claw 21 is provided protrudingly provided, and an interrupt piece 20 that is inserted into the insertion hole 17 of the pull-through frame 15 along the longitudinal direction of the center of the presser plate 18 is integrally molded.

而して、コネクタ本体２の上面に圧接用カバー
３を被着し、該コネクタ本体２と圧接用カバー３
との間に介在させたフラツトケーブル４の被覆材
５をコンタクト６により突き破り、導線７をコン
タクト６に圧接する。 Then, the pressure welding cover 3 is attached to the upper surface of the connector body 2, and the connector body 2 and the pressure welding cover 3 are attached.
The contact 6 pierces the sheathing material 5 of the flat cable 4 interposed between the contact 6 and the conductive wire 7 to be pressed into contact with the contact 6.

圧接に供したフラツトケーブル４は第６図に示
すようにその両端を折り返して合掌状にし上記金
属製引通し枠１５の挿通孔１７に挿通し、同引通
し枠１５をコネクタ上面側に移動させてフラツト
ケーブル４の弛みを解消した上で、上記ケーブル
押えカバー１６を取付爪２１を以つてコネクタ本
体２の取付孔１４に圧入すると共に、割込み片２
０を引通し枠１５の挿通孔１７に挿入し、両フラ
ツトケーブル４間に割込ませる。これによつて上
記金属製引通し枠１５を上記した圧接用カバー３
とケーブル押えカバー１６間に介在するようにし
て、これをケーブル押えカバー１６のコネクタ本
体２への取付け結合にて両カバー３，１６間に確
固に保持する構成とし、斯くして圧接用カバー３
とコネクタ本体２による圧接に供したフラツトケ
ーブルを該金属製引通し枠１５に引通して同枠片
下面と上記圧接用カバー間に挟持しつつ、更に同
枠片上面と上記ケーブル押えカバー１６間に挟持
し、左右側方へ振り分ける構成としたものであ
る。 As shown in FIG. 6, the flat cable 4 subjected to pressure welding is folded back at both ends to form a palm-shaped shape, and is inserted into the insertion hole 17 of the metal lead-through frame 15, and the lead-through frame 15 is moved to the top side of the connector. After removing the slack in the flat cable 4, press-fit the cable holding cover 16 into the mounting hole 14 of the connector body 2 using the mounting claw 21, and press the cut-out piece 2.
0 into the insertion hole 17 of the pull-through frame 15 and inserted between both flat cables 4. By this, the above-mentioned pressure welding cover 3 is attached to the metal draw-in frame 15
and the cable holding cover 16, and is securely held between both covers 3 and 16 by attaching the cable holding cover 16 to the connector body 2. In this way, the pressure welding cover 3
The flat cable that has been subjected to pressure welding by the connector body 2 is passed through the metal lead-in frame 15 and held between the lower surface of the frame piece and the pressure welding cover, and is further inserted between the upper surface of the frame piece and the cable holding cover 16. It is configured to be held between the two and distributed to the left and right sides.

上記コネクタ左右側方に振り分けられて延出さ
れるフラツトケーブル４は押え板１８により押え
られているので水平状態に保持される。 The flat cables 4, which are distributed and extended to the right and left sides of the connector, are held down by the holding plate 18, so that they are held in a horizontal state.

考案の効果 以上の説明により明らかなように、本考案によ
れば圧接用カバー３によりコネクタ１に圧接され
るフラツトケーブル４の両端部を上記金属製引通
し枠１５に挿通させ、ケーブル押えカバー１６を
コネクタ本体２に取付けて圧接用カバー３とケー
ブル押えカバー１６との間に該金属製引通し枠１
５を介在保持させるようにし、これにより圧接に
供されたフラツトケーブル４を該両カバー間に介
在保持した金属製引通し枠１５に引通しつつ、該
金属製引通し枠５の枠片下面と圧接用カバー３と
の間に挟持すると同時に、同枠片上面とケーブル
押えカバー１６との間に挟持し蛇行状態で挿通保
持させるように構成している。Effects of the Invention As is clear from the above explanation, according to the present invention, both ends of the flat cable 4 to be press-connected to the connector 1 by the pressure-welding cover 3 are inserted through the metal pull-in frame 15, and the cable holding cover is 16 to the connector body 2, and the metal lead-in frame 1 is inserted between the pressure welding cover 3 and the cable holding cover 16.
5 is interposed and held, and as a result, while the flat cable 4 subjected to pressure welding is passed through the metal lead-in frame 15 held interposed between the two covers, the lower surface of the frame piece of the metal lead-in frame 5 is held. At the same time, it is held between the upper surface of the frame piece and the cable holding cover 16, and inserted and held in a meandering state.

このようにフラツトケーブル４は上記圧接用カ
バー３とケーブル押えカバー１６間に介在保持し
た金属製引通し枠を介してその金属製枠片の上面
と下面において上記各カバー３，１６との間に挟
持し、、ケーブル保持を確実に行なうことができ、
しかも金属製引通し枠１５自身及びこれに挿通し
たフラツトケーブルを押えカバー１６で押えつけ
挟持するので、引通し枠にかかる引張力を大幅に
軽減させることができ、フラツトケーブルの広巾
化に対しても変形を有効に防止しケーブル保持力
を減退させることがなく、加えて上記引通し枠１
５を金属製とすることにより、該引通し枠１５を
両カバー３，１６間に挟持する上記構成と相乗し
てフラツトケーブル４に加わる引張力に対する上
記変形や撓みの発生をより確実に防止し、ケーブ
ル保持力を著しく向上する。 In this way, the flat cable 4 is connected to each of the covers 3 and 16 on the upper and lower surfaces of the metal frame piece through the metal lead-in frame interposed and held between the pressure welding cover 3 and the cable holding cover 16. It is possible to securely hold the cable by holding it between the
Moreover, since the metal lead-in frame 15 itself and the flat cable inserted therein are held down and held by the holding cover 16, the tensile force applied to the lead-in frame can be significantly reduced, and the flat cable can be made wider. In addition, the above-mentioned pull-out frame 1
By making 5 made of metal, in combination with the above structure in which the pull-through frame 15 is sandwiched between the covers 3 and 16, the occurrence of the above deformation and bending due to the tensile force applied to the flat cable 4 is more reliably prevented. This significantly improves cable retention.

従つてフラツトケーブル４とコネクタ１の圧接
部を確実に保護することができる。 Therefore, the press-contact portion between the flat cable 4 and the connector 1 can be reliably protected.

又フラツトケーブル４は金属製引通し枠１５に
引通した上で押えカバー１６により同引通し枠１
５と一緒に押え込んで水平方向に整然と延出させ
ることができ、コネクタ上部空間を多く占有しな
い利点を有する。 In addition, the flat cable 4 is passed through a metal lead-in frame 15 and then secured to the same lead-in frame 1 using a presser cover 16.
5 and can be pushed together and extended horizontally in an orderly manner, which has the advantage of not occupying much space above the connector.

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

第１図乃至第４図は従来のフラツトケーブルコ
ネクタにおけるケーブル引通し装置を示し、第１
図は両端をコネクタに圧接したフラツトケーブル
の中間部を更に別のコネクタに圧接すると共に引
通しを行なつた状態を示す全体概略側面図、第２
図はフラツトケーブルの中間部をコネクタに圧接
し引通しする状態を示す正面図、第３図はコネク
タ本体と引通し装置の分解斜視図、第４図はフラ
ツトケーブルを引通した状態を示すコネクタ斜視
図、第５図乃至第８図は本考案のフラツトケーブ
ルコネクタにおけるケーブル引通し装置の一実施
例を示し、第５図は同装置を形成する金属製引通
し枠とケーブル押えカバーの分解斜視図、第６図
は圧接用カバーとコネクタ本体にり圧接されたフ
ラツトケーブルを金属製引通し枠に引通しケーブ
ル押えカバーをコネクタ本体に取付けする前の状
態を示す斜視図、第７図は同ケーブル押えカバー
をコネクタ本体に取付けて金属製引通し枠を介在
保持し引通しを完成させた状態を示す斜視図、第
８図は第７図に示す引通し完成状態の一部破断側
面図である。 １……コネクタ、２……コネクタ本体、３……
圧接用カバー、４……フラツトケーブル、６……
コンタクト、１５……金属製引通し枠、１６……
ケーブル押えカバー、１７……ケーブル挿通孔、
２１……取付爪。 Figures 1 to 4 show a cable pulling device in a conventional flat cable connector.
The figure is an overall schematic side view showing a state in which the middle part of a flat cable whose both ends are press-connected to a connector is further press-connected to another connector and is pulled through.
The figure is a front view showing the state in which the intermediate part of the flat cable is pressed into the connector and pulled through, Figure 3 is an exploded perspective view of the connector body and the pulling-in device, and Figure 4 shows the state in which the flat cable is pulled through. The connector perspective views shown in FIGS. 5 to 8 show an embodiment of the cable pulling device in the flat cable connector of the present invention, and FIG. 5 shows the metal drawing frame and cable holding cover that form the same device. Fig. 6 is an exploded perspective view of the flat cable, which has been pressure-welded between the pressure-welding cover and the connector body, before it is passed through the metal lead-in frame and the cable holding cover is attached to the connector body. Figure 7 is a perspective view showing the state in which the cable holding cover is attached to the connector body and the metal lead-in frame is interposed to hold it and the lead-in is completed, and Figure 8 is a part of the state in which the lead-in is completed as shown in Figure 7. It is a broken side view. 1... Connector, 2... Connector body, 3...
Pressure welding cover, 4...Flat cable, 6...
Contact, 15...Metal lead-in frame, 16...
Cable holding cover, 17...Cable insertion hole,
21...Mounting claw.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] コネクタ本体に圧接用カバーを被着し、該圧接
用カバーとコネクタ本体間に介挿したフラツトケ
ーブルをコネクタのコンタクトに圧接し、該圧接
用カバーにケーブル押えカバーを被着して上記圧
接に供されたフラツトケーブルを折り返して押え
込むようにしたフラツトケーブルコネクタにおい
て、金属製の引通し枠を形成し、該金属製引通し
枠を上記圧接用カバーとケーブル押えカバー間に
介在し、該金属製引通し枠は上記ケーブル押えカ
バーの両端に設けた取付爪によるコネクタ本体両
端への取付けを介して同押えカバーと圧接用カバ
ー間に保持する構成とし、上記圧接に供したフラ
ツトケーブル両端を上記金属製引通し枠に引通し
て同枠片下面と上記圧接用カバー間に挟持すると
同時に、同枠片上面と上記ケーブル押えカバー間
に挟持し左右側方に振り分ける構成としたことを
特徴とするフラツトケーブルコネクタにおけるケ
ーブル引通し装置。 A pressure welding cover is attached to the connector body, a flat cable inserted between the pressure welding cover and the connector body is pressure welded to the contact of the connector, and a cable holding cover is attached to the pressure welding cover to perform the above pressure welding. In a flat cable connector in which a provided flat cable is folded back and held, a metal lead-in frame is formed, and the metal lead-in frame is interposed between the pressure welding cover and the cable holding cover, The metal lead-in frame is held between the cable holding cover and the pressure welding cover by being attached to both ends of the connector body using mounting claws provided at both ends of the cable holding cover, and the flat cable subjected to the pressure welding is held between the cable holding cover and the pressure welding cover. Both ends are passed through the metal lead-in frame and sandwiched between the lower surface of the frame piece and the pressure welding cover, and at the same time, they are sandwiched between the upper surface of the frame piece and the cable holding cover and distributed to the left and right sides. Cable passing device for flat cable connectors.