JP2822295B2 - Insulated wire termination structure - Google Patents
Insulated wire termination structureInfo
- Publication number
- JP2822295B2 JP2822295B2 JP1781993A JP1781993A JP2822295B2 JP 2822295 B2 JP2822295 B2 JP 2822295B2 JP 1781993 A JP1781993 A JP 1781993A JP 1781993 A JP1781993 A JP 1781993A JP 2822295 B2 JP2822295 B2 JP 2822295B2
- Authority
- JP
- Japan
- Prior art keywords
- terminal
- inner member
- wires
- insulating cap
- sealing material
- 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 - Lifetime
Links
Landscapes
- Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、複数本の被覆電線の芯
線を通電可能に接続した端末の処理構造に関するもので
あって、更に詳しくは芯線の剥離防止と防水処理とを図
るように構成した端末処理構造に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a processing structure of a terminal in which core wires of a plurality of coated electric wires are connected so as to be able to conduct electricity, and more particularly, to a structure for preventing separation of a core wire and waterproofing. Terminal processing structure.
【0002】[0002]
【従来の技術】複数本の被覆電線を相互に接続する場
合、芯線を寄り合わせて半田付けしたり、圧着端子によ
り固着する方法、更に図10に例示するように複数本の
被覆電線1の芯線2を同一方向に揃えた状態で超音波溶
着にて端末処理し、導電可能に一体に固着して端末3を
構成する方法等がある。しかし、図10に示す端末処理
では、いずれかの電線1aを図示のように揃え方向とは
逆方向に引いた場合に剥がれ易く、しかもこのままでは
防水及び絶縁作用が全くない。2. Description of the Related Art When connecting a plurality of covered electric wires to each other, a method of soldering the core wires together or fixing them by crimping terminals, and as shown in FIG. There is a method of forming a terminal 3 by treating the terminal 2 by ultrasonic welding in a state where the terminals 2 are aligned in the same direction, and integrally fixing the terminal 2 in a conductive manner. However, in the terminal treatment shown in FIG. 10, when one of the electric wires 1a is pulled in the direction opposite to the alignment direction as shown in the drawing, the electric wire 1a is easily peeled off, and furthermore, there is no waterproofing and insulation function at all.
【0003】このような問題点を解消するため、従来か
ら種々の端末処理構造が提案されている。即ち、図11
に示す端末処理構造は、実開平4−24266号公報に
より「電線接続部の構造」として開示されたものであっ
て、複数本の被覆電線1の芯線2を熱圧着して端末3を
構成し、絶縁ハウジング4の端末収容室5内に収容する
ものである。図12に示す端末処理構造は、特開平1−
286271号公報により開示されたものであり、複数
本の被覆電線1の芯線2を圧着端子6により固着して端
末3を構成し、絶縁ハウジング4内に収容するととも
に、突起7により端末3の抜け防止を行うように構成し
たものである。図13に示す端末処理構造は、実開昭6
3−108193号公報により開示されたものであり、
複数本の被覆電線1の芯線2を圧着端子6等により固着
して端末3を構成し、絶縁ハウジング4内に収容すると
ともにシーリング材8を充填し、更に結束部品9により
抜け止め不可に結束した構造である。図14に示す端末
処理構造は、実開平4−2459号公報に従来の分岐ボ
ックスの一例として示されているものである。即ち、各
被覆電線1のA相芯線1aを銅管スリーブ11により接
続して絶縁キャップ12で被嵌する一方、B相芯線1b
を銅管スリーブ13により接続して絶縁キャップ14で
被嵌する。そして、各被覆電線1をケース15の開口側
に整列させるとともに、各被覆電線1の端末、言い換え
れば銅管スリーブ11、13で固着した部分をケース1
5内に配列してシーリング剤16を充填したものであ
る。[0003] In order to solve such a problem, various terminal processing structures have been conventionally proposed. That is, FIG.
Is disclosed as a "structure of a wire connection portion" by Japanese Utility Model Application Laid-Open No. Hei 4-24266, and a terminal 3 is formed by thermocompression bonding core wires 2 of a plurality of covered wires 1. , In the terminal housing room 5 of the insulating housing 4. The terminal processing structure shown in FIG.
The terminal 3 is formed by fixing the core wires 2 of a plurality of insulated wires 1 by crimping terminals 6, accommodating the terminal 3 in an insulating housing 4, and removing the terminal 3 by a protrusion 7. It is configured to perform prevention. The terminal processing structure shown in FIG.
No. 3-108193,
A terminal 3 is formed by fixing the core wires 2 of the plurality of insulated wires 1 with a crimping terminal 6 or the like, housed in the insulating housing 4, filled with the sealing material 8, and further bound by the binding components 9 so as not to be removed. Structure. The terminal processing structure shown in FIG. 14 is disclosed in Japanese Utility Model Laid-Open No. Hei 4-2459 as an example of a conventional branch box. That is, the A-phase core wire 1a of each coated electric wire 1 is connected by the copper tube sleeve 11 and fitted with the insulating cap 12, while the B-phase core wire 1b
Are connected by a copper tube sleeve 13 and fitted with an insulating cap 14. Then, the coated electric wires 1 are aligned with the opening side of the case 15, and the ends of the coated electric wires 1, in other words, the portions fixed by the copper tube sleeves 11 and 13 are fixed to the case 1.
5 are filled with a sealing agent 16.
【0004】[0004]
【発明が解決しようとする課題】しかし、図11に示す
端末処理構造にあっては、被覆電線1の逆方向への引き
を防止することはできるが防水作用はなく、仮にシーリ
ング剤を充填しても各被覆電線1間への充填が困難であ
り、防水作用が不充分である。従って、自動車の如き使
用環境の厳しい機器に適用した場合、安全性に欠ける。
図12に示した端末処理構造にあっては、芯線2を仮に
熱溶着して接続すると突起7に係止させることができ
ず、抜け止めを図るには圧着端子6が必要になり部品点
数が増加してコスト高の一因になる。また、前記同様に
防水作用はなく、適用範囲が限定されてしまう。図13
に示した端末処理構造にあっては、先端部が小さいので
被覆電線1を後抜け方向引くと先端部が絶縁ハウジング
4から抜け出てしまう。また被覆電線1を伝わって浸潤
する水分に対し防水処理が困難である。図14に示した
端末処理構造は、被覆電線1を整列させているため形状
が大きくなり、自動車の如くスペースが限定されている
機器に適用する際はスペース取りが困難である。本発明
の目的は、被覆電線の剥離、耐水性、絶縁性のいずれに
も優れている上に構造が簡単で組み立て容易な被覆電線
の端末処理構造を提供することにある。However, the terminal treatment structure shown in FIG. 11 can prevent the insulated wire 1 from being pulled in the opposite direction, but does not have a waterproof effect. However, it is difficult to fill the space between the coated electric wires 1 and the waterproof effect is insufficient. Therefore, when it is applied to a device having a severe use environment such as an automobile, it lacks safety.
In the terminal processing structure shown in FIG. 12, if the core wire 2 is temporarily welded and connected, the core wire 2 cannot be locked to the projection 7, and the crimp terminal 6 is required to prevent the core wire 2 from coming off. Increase and contribute to high cost. In addition, similarly to the above, there is no waterproof effect, and the application range is limited. FIG.
In the terminal processing structure shown in (1), since the distal end portion is small, if the coated electric wire 1 is pulled in the backward direction, the distal end portion comes out of the insulating housing 4. In addition, it is difficult to perform a waterproofing treatment on water that penetrates and infiltrates the covered electric wire 1. The terminal processing structure shown in FIG. 14 has a large shape because the covered electric wires 1 are aligned, and it is difficult to take up space when applied to a device having a limited space such as an automobile. An object of the present invention is to provide a terminal treatment structure of a covered electric wire which is excellent in all of peeling, water resistance, and insulation properties of the covered electric wire, has a simple structure, and is easy to assemble.
【0005】[0005]
【課題を解決するための手段】本発明に係る前記目的
は、複数本の被覆電線の芯線を通電可能に重合接続して
形成した端末を長手状のインナー部材に形成した嵌合孔
に嵌合するとともに、前記被覆電線を前記インナー部材
の側面に沿わせて引き出した状態で一端を閉塞した筒状
の絶縁キャップ内に差し込み、且つ前記複数本の被覆電
線及び前記インナー部材を前記絶縁キャップ内でシーリ
ング材により水密状態で一体に固化したことを特徴とす
る被覆電線の端末処理構造により達成される。SUMMARY OF THE INVENTION It is an object of the present invention to provide a terminal in which a plurality of insulated wires are formed by connecting the core wires of the plurality of insulated wires so as to be able to conduct electricity into a fitting hole formed in a longitudinal inner member. While inserting the covered electric wire into a tubular insulating cap having one end closed in a state of being pulled out along the side surface of the inner member, and inserting the plurality of covered electric wires and the inner member in the insulating cap. This is achieved by a structure for terminating a covered electric wire, which is integrally solidified in a watertight state by a sealing material.
【0006】[0006]
【作用】即ち、複数本の被覆電線の芯線は通電可能に溶
着されている上に長手状のインナー部材の例えば軸芯方
向に形成した嵌合孔に嵌合され、絶縁キャップ内に差し
込まれてシーリング材によって水密状態に一体化されて
いる。従って、個々の被覆電線に後抜け方向の引く力が
作用しても芯線が端末から剥離することがなく、インナ
ー部材とともに絶縁キャップ内で水密に一体化されるの
で、防水性と絶縁性に優れたものになる。In other words, the core wires of a plurality of coated electric wires are welded so as to be able to conduct electricity, are fitted in fitting holes formed in the longitudinal inner member, for example, in the axial direction, and are inserted into the insulating cap. It is integrated in a watertight state by a sealing material. Therefore, the core wire does not peel off from the terminal even when a pulling force in the direction of pull-out acts on each of the coated electric wires, and is integrated with the inner member in a water-tight manner in the insulating cap, so that the waterproof and insulating properties are excellent. It becomes something.
【0007】次に、図1〜図7を参照して本発明の第1
実施例を説明する。図1は端末処理構造を示す分解斜視
図、図2〜図4は組み立て状態を示す部材の斜視図、図
5は組み立て状態の外観を示す斜視図、図6は組み立て
状態の内部構造を示す断面図、図7は各部材の寸法設定
を示す断面図である。なお、各被覆電線の芯線接続は図
10を参照して説明したものを援用している。Next, a first embodiment of the present invention will be described with reference to FIGS.
An embodiment will be described. 1 is an exploded perspective view showing a terminal processing structure, FIGS. 2 to 4 are perspective views of members showing an assembled state, FIG. 5 is a perspective view showing an appearance in an assembled state, and FIG. 6 is a cross section showing an internal structure in an assembled state. FIG. 7 is a cross-sectional view showing the dimension setting of each member. In addition, what was demonstrated with reference to FIG. 10 is used for the core wire connection of each covered electric wire.
【0008】被覆電線1の芯線2を相互に接続し、超音
波溶着等にて固着して通電可能な端末3を構成する。イ
ンナー部材21は合成樹脂等により円柱状に一体成型し
たものであり、中心部の軸芯方向に端末3を嵌め込むた
めの嵌合孔22が形成され、外周部に所定間隔でロック
部材23、リブ24が交互に形成されている。また、イ
ンナー部材21の先端部には被覆電線1を巻き付けるた
めの巻付け部25が形成されているが、その幅Wは後述
するシーリング材26の幅wに対しやや大に設定されて
いる。[0010] The core wires 2 of the covered electric wires 1 are connected to each other and fixed by ultrasonic welding or the like to form a terminal 3 which can be energized. The inner member 21 is integrally formed in a cylindrical shape with a synthetic resin or the like, and has a fitting hole 22 for fitting the terminal 3 in the axial direction of the center portion. The ribs 24 are formed alternately. Further, a winding portion 25 for winding the covered electric wire 1 is formed at a tip end of the inner member 21, and a width W thereof is set slightly larger than a width w of a sealing material 26 described later.
【0009】絶縁キャップ31は、合成樹脂を用いて一
端を閉塞した筒状に一体成型したものであり、端末3や
インナー部材21を一括して収容するものである。絶縁
キャップ31の開口端側には、ロック部材23を突出さ
せるための溝部32、ロック部材23を係止させて抜け
止めを行うための係止部33が設けられている。The insulating cap 31 is made of synthetic resin and integrally molded into a cylindrical shape with one end closed, and collectively accommodates the terminal 3 and the inner member 21. On the opening end side of the insulating cap 31, a groove 32 for projecting the lock member 23 and a locking portion 33 for locking the lock member 23 to prevent the lock member 23 from coming off are provided.
【0010】次に、端末処理構造をその組み立て作業と
ともに説明すると、先ずインナー部材21の巻付け部2
5に図2に示すようにシーリング材26を巻付け、次い
で図3に矢印Aで示すように端末3を嵌合孔22に嵌め
込む。そして、各被覆電線1をインナー部材21の側面
に沿わせ、次に第2のシーリング材26aを図4に示す
ように各被覆電線1の上部から巻き付ける。この結果、
各被覆電線1は第1のシーリング材26と第2のシーリ
ング材26aとに挟まれた状態でインナー部材21の側
面に巻き付けられたことになる。なお、シーリング材2
6、26aはブチルゴム等の自己融着剤を帯状に形成し
たものであり、両者は同一材質であってよいが、本実施
例では構造を容易に理解できるように異なった符号を付
して説明している。Next, the terminal processing structure will be described together with its assembling work. First, the winding portion 2 of the inner member 21 is formed.
5 is wound around the sealing material 26 as shown in FIG. 2, and then the terminal 3 is fitted into the fitting hole 22 as shown by the arrow A in FIG. Then, each covered electric wire 1 is arranged along the side surface of the inner member 21, and then the second sealing material 26a is wound from above the covered electric wire 1 as shown in FIG. As a result,
Each covered electric wire 1 is wound around the side surface of the inner member 21 while being sandwiched between the first sealing material 26 and the second sealing material 26a. In addition, the sealing material 2
Reference numerals 6 and 26a denote self-fusing agents such as butyl rubber formed in a strip shape, and both may be of the same material. However, in this embodiment, different reference numerals are used to facilitate understanding of the structure. doing.
【0011】このようにして、インナー部材21と被覆
電線1とを一体化した後、図5に示すように絶縁キャッ
プ31内に収容する。この際、ロック部材23を溝部3
2から突出させ、係止部33に係止させてインナー部材
21と被覆電線1との抜け止めを図る。なお、リブ24
は図6に示すようにインナー部材21の内壁面に圧接
し、インナー部材21のがたつきを防止するようになっ
ている。After the inner member 21 and the insulated wire 1 are integrated as described above, they are housed in the insulating cap 31 as shown in FIG. At this time, the lock member 23 is
2 to prevent the inner member 21 and the covered electric wire 1 from coming off. The rib 24
6, is pressed against the inner wall surface of the inner member 21 to prevent rattling of the inner member 21.
【0012】前記構造で注目すべきことは、図6に示す
ように被覆電線1が第1のシーリング材26と第2のシ
ーリング材26aとに挟まれ、しかも第1及び第2のシ
ーリング材26、26aが自己融着剤であるため各被覆
電線1間はもとより、キャップ21の内壁面との隙間や
インナー部材21の表面との隙間を完全に密閉すること
である。従って、本実施例に示した端末処理構造によれ
ば、被覆電線1の抜け止めはインナー部材21に設けた
ロック部材23の作用により行われ、防水は第1及び第
2のシーリング材26、26aにより行われる。また、
端末3の絶縁はインナー部材21と絶縁キャップ21と
により完璧に行われ、端末3からの各被覆電線1の剥が
れはインナー部材21の嵌合孔22に嵌め込むことによ
り完璧に防止できる。故に、安全性に優れ、且つ信頼性
の高い端末処理構造になる。What should be noted in the above structure is that the covered electric wire 1 is sandwiched between a first sealing material 26 and a second sealing material 26a as shown in FIG. , 26a are self-fusing agents, so that not only the gaps between the covered wires 1 but also the gaps between the inner wall surface of the cap 21 and the surface of the inner member 21 are completely sealed. Therefore, according to the terminal treatment structure shown in this embodiment, the insulated wire 1 is prevented from coming off by the action of the lock member 23 provided on the inner member 21, and waterproofing is performed by the first and second sealing materials 26 and 26 a. It is performed by Also,
The terminal 3 is completely insulated by the inner member 21 and the insulating cap 21, and peeling of each of the coated electric wires 1 from the terminal 3 can be completely prevented by being fitted into the fitting hole 22 of the inner member 21. Therefore, the terminal processing structure has excellent security and high reliability.
【0013】なお、各部材の寸法設定を図7を参照して
説明すると、インナー部材21の外径をa、絶縁キャッ
プ31の内径をb、各電線1の直径をc、各シーリング
材26、26aの厚みをdとすると、(b−a)/2<
(2d+c)の関係に設定される。この結果、防水処理
はシーリング材26、26aによりインナー部材21の
先端部、言い換えれば巻付け部25と絶縁キャップ31
の内壁面との間で前記のように行われることになる。The dimensions of each member will be described with reference to FIG. 7. The outer diameter of the inner member 21 is a, the inner diameter of the insulating cap 31 is b, the diameter of each electric wire 1 is c, each sealing material 26, Assuming that the thickness of 26a is d, (ba) / 2 <
(2d + c) is set. As a result, the waterproof treatment is performed by the sealing material 26, 26a by the tip of the inner member 21, in other words, the winding part 25 and the insulating cap 31.
Is performed as described above with the inner wall surface.
【0014】次に、図8及び図9を参照して本発明の第
2実施例を説明する。本実施例の特徴は、帯状のシーリ
ング材26、26aに代えて液状シーリング材を適用し
たことにある。即ち、インナー部材21や端末3の嵌合
構造、絶縁キャップ31等の構造は前記第1実施例で説
明したとおりである。但し、組立てに際し第1及び第2
のシーリング材26、26aは使用されず、絶縁キャッ
プ31内に図8に示すように必要量のシーリング材35
を充填しておく。次に、インナー部材21の嵌合孔22
に端末3を嵌め込み、各被覆電線1をインナー部材21
の側面に沿って引き出した状態で、先端部から絶縁キャ
ップ31内に差し込む。Next, a second embodiment of the present invention will be described with reference to FIGS. This embodiment is characterized in that a liquid sealing material is used instead of the band-shaped sealing materials 26 and 26a. That is, the fitting structure of the inner member 21 and the terminal 3, the structure of the insulating cap 31, and the like are as described in the first embodiment. However, the first and second
The sealing material 26, 26a is not used, and a required amount of sealing material 35 is provided in the insulating cap 31 as shown in FIG.
Fill beforehand. Next, the fitting hole 22 of the inner member 21
Terminal 3 is inserted into the inner member 21.
While being pulled out along the side surface of, is inserted into the insulating cap 31 from the tip.
【0015】この状態でシーリング材35を固化するこ
とにより、図9に示すような端末処理構造が完成する。
本実施例において、シーリング材35の充填量は、絶縁
キャップ31内に差し込むインナー部材21の体積に対
応して設定される。従って、インナー部材21を絶縁キ
ャップ31内に差し込むことにより、シーリング材35
が絶縁キャップ31内を広がる。シーリング材35は各
被覆電線1間に浸透した状態で固化されるので、各被覆
電線1間はもとより絶縁キャップ31、インナー部材2
1も水密状態で一体化される。従って、端末3の絶縁、
防水性の向上等が一挙に達成される上に、ロック部材2
3の作用により被覆電線1及びインナー部材21の抜け
止めが行われる。By solidifying the sealing material 35 in this state, a terminal processing structure as shown in FIG. 9 is completed.
In the present embodiment, the filling amount of the sealing material 35 is set according to the volume of the inner member 21 inserted into the insulating cap 31. Therefore, by inserting the inner member 21 into the insulating cap 31, the sealing material 35 is formed.
Spreads inside the insulating cap 31. Since the sealing material 35 is solidified while penetrating between the insulated wires 1, the insulating cap 31, the inner member 2
1 is also integrated in a watertight state. Therefore, the insulation of the terminal 3,
The improvement of the waterproof property etc. is achieved at once, and the locking member 2
The action of 3 prevents the covered electric wire 1 and the inner member 21 from coming off.
【0016】以上に本発明の実施例を説明したが、本発
明は前記実施例に限定されるものではなく、端末は半田
付け等により形成してもよい。Although the embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and the terminal may be formed by soldering or the like.
【0017】[0017]
【発明の効果】以上に説明したように、本発明に係る被
覆電線の端末処理構造は、複数本の被覆電線の芯線を溶
着して形成した端末を長手状のインナー部材の軸芯方向
に沿わせて形成した嵌合孔に嵌合し、且つ前記複数本の
被覆電線を外部に接続可能に引き出し得るようにして前
記インナー部材とともに一端を閉塞した筒状の絶縁キャ
ップ内に差し込み、シーリング材により水密に一体化し
たものである。従って、複数本の被覆電線を引く力が加
えられてもインナー部材と嵌合孔の作用により個々の被
覆電線が抜け出たり、芯線が端末から剥離することがな
く、しかもシーリング材の作用により端末が水密にな
り、絶縁性、安全性に優れ、且つ小型で使い勝手のよい
ものになる。As described above, according to the terminal treatment structure of the coated electric wire according to the present invention, the terminal formed by welding the core wires of the plural coated electric wires is formed along the axial direction of the longitudinal inner member. It fits into the fitting hole formed along with it, and is inserted into a cylindrical insulating cap with one end closed together with the inner member so that the plurality of covered electric wires can be drawn out so as to be connectable to the outside. It is integrated in a watertight manner. Therefore, even if a force for pulling a plurality of covered electric wires is applied, the individual covered electric wires do not come off due to the action of the inner member and the fitting hole, and the core wire does not peel off from the terminal, and the action of the sealing material allows the terminal. It becomes watertight, has excellent insulation and safety, and is compact and easy to use.
【図1】本発明の第1実施例である端末処理構造を構成
する各部材の分解斜視図である。FIG. 1 is an exploded perspective view of each member constituting a terminal processing structure according to a first embodiment of the present invention.
【図2】インナー部材の斜視図である。FIG. 2 is a perspective view of an inner member.
【図3】端末処理構造の組み立て過程を示す斜視図であ
る。FIG. 3 is a perspective view showing an assembling process of the terminal processing structure.
【図4】端末処理構造の組み立て過程を示す斜視図であ
る。FIG. 4 is a perspective view showing an assembling process of the terminal processing structure.
【図5】端末処理構造の外観を示す斜視図である。FIG. 5 is a perspective view showing an appearance of a terminal processing structure.
【図6】端末処理構造の内部構造を示す断面図である。FIG. 6 is a sectional view showing the internal structure of the terminal processing structure.
【図7】端末処理構造を構成する各部材の寸法設定を説
明する断面図である。FIG. 7 is a cross-sectional view illustrating a dimension setting of each member constituting the terminal processing structure.
【図8】本発明の第2実施例を示す絶縁キャップの断面
図である。FIG. 8 is a sectional view of an insulating cap according to a second embodiment of the present invention.
【図9】端末処理構造の内部構造を示す断面図である。FIG. 9 is a sectional view showing an internal structure of the terminal processing structure.
【図10】従来の端末処理構造の第1例を示す斜視図で
ある。FIG. 10 is a perspective view showing a first example of a conventional terminal processing structure.
【図11】従来の端末処理構造の第2例を示す斜視図で
ある。FIG. 11 is a perspective view showing a second example of a conventional terminal processing structure.
【図12】従来の端末処理構造の第3例を示す斜視図で
ある。FIG. 12 is a perspective view showing a third example of a conventional terminal processing structure.
【図13】従来の端末処理構造の第4例を示す斜視図で
ある。FIG. 13 is a perspective view showing a fourth example of a conventional terminal processing structure.
【図14】従来の端末処理構造の第5例を示す斜視図で
ある。FIG. 14 is a perspective view showing a fifth example of a conventional terminal processing structure.
1 被覆電線 2 芯線 3 端末 21 インナー部材 22 嵌合孔 23 ロック部材 24 リブ 25 巻付け部 26、26a、35 シーリング材 31 絶縁キャップ 32 溝部 33 係止部 DESCRIPTION OF SYMBOLS 1 Insulated electric wire 2 Core wire 3 Terminal 21 Inner member 22 Fitting hole 23 Lock member 24 Rib 25 Winding part 26, 26a, 35 Sealing material 31 Insulating cap 32 Groove part 33 Lock part
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.6,DB名) H01R 4/22 H01R 4/70 H01R 43/00 H02G 1/14──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. 6 , DB name) H01R 4/22 H01R 4/70 H01R 43/00 H02G 1/14
Claims (1)
合接続して形成した端末を長手状のインナー部材に形成
した嵌合孔に嵌合するとともに、前記複数本の被覆電線
を前記インナー部材の側面に沿わせて引き出した状態で
一端を閉塞した筒状の絶縁キャップ内に差し込み、且つ
前記被覆電線及び前記インナー部材を前記絶縁キャップ
内でシーリング材により水密状態で一体に固化したこと
を特徴とする被覆電線の端末処理構造。An end formed by electrically connecting core wires of a plurality of covered electric wires is fitted into a fitting hole formed in a longitudinal inner member, and the plurality of covered electric wires are connected to the inner wire. It is inserted into a cylindrical insulating cap having one end closed in a state where it is pulled out along the side surface of the member, and the coated electric wire and the inner member are solidified integrally in a watertight state by a sealing material in the insulating cap. Characteristic terminal treatment structure of coated electric wire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1781993A JP2822295B2 (en) | 1993-01-11 | 1993-01-11 | Insulated wire termination structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1781993A JP2822295B2 (en) | 1993-01-11 | 1993-01-11 | Insulated wire termination structure |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH06208856A JPH06208856A (en) | 1994-07-26 |
JP2822295B2 true JP2822295B2 (en) | 1998-11-11 |
Family
ID=11954346
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1781993A Expired - Lifetime JP2822295B2 (en) | 1993-01-11 | 1993-01-11 | Insulated wire termination structure |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2822295B2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002231338A (en) * | 2001-02-05 | 2002-08-16 | Furukawa Electric Co Ltd:The | Insulation cap |
-
1993
- 1993-01-11 JP JP1781993A patent/JP2822295B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH06208856A (en) | 1994-07-26 |
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