JPH10201050A - Electric supply module box structure for electric junction box - Google Patents
Electric supply module box structure for electric junction boxInfo
- Publication number
- JPH10201050A JPH10201050A JP8350319A JP35031996A JPH10201050A JP H10201050 A JPH10201050 A JP H10201050A JP 8350319 A JP8350319 A JP 8350319A JP 35031996 A JP35031996 A JP 35031996A JP H10201050 A JPH10201050 A JP H10201050A
- Authority
- JP
- Japan
- Prior art keywords
- power supply
- box
- supply system
- insulating plate
- bus bar
- 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.)
- Granted
Links
Landscapes
- Connection Or Junction Boxes (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、電源系バスバーを
インナーモールドしたボックスに、ヒューズやリレー等
を取り付けてモジュール化した電気接続箱の電源モジュ
ールボックスの構造に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a power supply module box of an electric connection box in which a fuse, a relay, and the like are attached to a box in which a power supply system bus bar is inner-molded to be modularized.
【0002】[0002]
【従来の技術】自動車用ワイヤーハーネス等を種々の電
装品に分岐接続するのに用いられる電気接続箱は、分岐
接続点を1個所に集中させて、配線を合理的かつ経済的
に分岐接続するものであり、ワイヤーハーネスの高密度
化に伴って、車種別又は用途別に種々の形式のものが開
発されている。2. Description of the Related Art An electrical junction box used for branch connection of an automobile wire harness or the like to various electrical components has a branch connection point concentrated in one place, and the wiring is rationally and economically branched. With the increase in the density of wire harnesses, various types have been developed according to vehicle types or applications.
【0003】上記のような電気接続箱としては、図5に
示すように、ロアケース1とアッパーケース2内に、配
線材としてのバスバー3を配索した絶縁板4を多段に積
層して収容したものがある。[0005] As shown in FIG. 5, an insulating plate 4 in which bus bars 3 as wiring materials are arranged in a lower case 1 and an upper case 2 is stacked and accommodated in the electric connection box as described above. There is something.
【0004】上記各層のバスバー3には、アッパーケー
ス2の端子挿通孔に臨む端子(タブ)がそれぞれ形成さ
れて、アッパーケース2の外部から中継端子6を介して
ヒューズ7やリレー8の端子7a,8aをそれぞれ差し
込み接続するようになっている。また、各層のバスバー
3には、電源系と信号系とが混在していて、各系のバス
バーを迂回するような配線パターンで配索するようにな
っている。Terminals (tabs) facing the terminal insertion holes of the upper case 2 are respectively formed on the bus bars 3 of the respective layers, and terminals 7 a of the fuses 7 and the relays 8 are connected from outside the upper case 2 via relay terminals 6. , 8a are respectively inserted and connected. Further, the power supply system and the signal system are mixed in the bus bar 3 of each layer, and are arranged in a wiring pattern that bypasses the bus bar of each system.
【0005】[0005]
【発明が解決しようとする課題】しかしながら、絶縁板
の上面に、混在している電源系と信号系のバスバー3
を、各系のバスバーを迂回して配索しなければならない
から、配索スペースが広くなるので電気接続箱が大型化
する。これを避けるためには、各系のバスバーを適当に
分割し、それぞれを別の電気接続箱に収容して、ワイヤ
ーハーネス等で接続するという手段が取られている。However, on the upper surface of the insulating plate, the mixed busbar 3 for the power supply system and the signal system is provided.
Must be routed around the bus bar of each system, so that the wiring space becomes large and the electric junction box becomes large. In order to avoid this, a means is adopted in which the bus bars of each system are appropriately divided, each is accommodated in a separate electric connection box, and connected by a wire harness or the like.
【0006】また、平面的に各系のバスバー3を配索し
ているから、回路規模が大きくなると配索スペースが広
くなるので、上述と同様の理由で回路規模が制限され
る。Further, since the busbars 3 of the respective systems are wired in a plane, the wiring space becomes larger as the circuit scale increases, and the circuit scale is limited for the same reason as described above.
【0007】本発明は、上記従来の問題を解決するため
になされたもので、大部分の電源系のバスバーを信号系
の配線材に対して立体的に配索して、配索スペースを縮
小できる電気接続箱の電源モジュールボックスの構造を
提供することを目的とするものである。SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems. Most of the power supply system bus bars are three-dimensionally arranged on signal system wiring members to reduce the wiring space. It is an object of the present invention to provide a structure of a power supply module box of an electric connection box that can be used.
【0008】[0008]
【課題を解決するための手段】上記課題を解決するため
に、本発明は、ケース内に、電源系と信号系の配線材を
配索した絶縁板が収容された電気接続箱において、上記
絶縁板の上面に、大部分の電源系配線材であるバスバー
をインナーモールドした略逆U字状断面のボックスを取
り付けて、この電源系バスバーを、絶縁板に配索した残
りの電源系配索材に接続する一方、上記ボックスの内面
に、上記インナーモールドした電源系バスバーに接続す
るヒューズやリレー等を取り付けたことを特徴とする電
気接続箱の電源モジュールボックスの構造を提供するも
のである。In order to solve the above-mentioned problems, the present invention provides an electric junction box in which an insulating plate in which a power supply system and a signal system wiring member are routed is accommodated in a case. On the upper surface of the board, a box having a substantially inverted U-shaped cross-section in which busbars, which are most power supply wiring materials, are inner-molded, is attached, and the remaining power supply wiring materials obtained by arranging the power supply busbars on the insulating plate And a fuse and a relay connected to the inner-molded power system bus bar are attached to the inner surface of the box, and a power supply module box structure of an electric connection box is provided.
【0009】本発明によれば、絶縁板に配索される電源
系と信号系の配線材から大部分の電源系配線材を分離し
て、分離した電源系配線材であるバスバーを略逆U字状
断面のボックスにインナーモールドし、このボックスの
内面に、インナーモールドした電源系バスバーに接続す
るヒューズやリレー等を取り付け、このボックスを絶縁
板の上面に取り付けて、インナーモールドした電源系バ
スバーを絶縁板に残した電源系配索材に接続する。According to the present invention, most of the power supply system wiring material is separated from the power supply and signal system wiring materials arranged on the insulating plate, and the separated power supply system wiring material, ie, the bus bar, is substantially inverted U Inner molding in a box with a letter-shaped cross section, fuses and relays connected to the inner molded power supply busbar are attached to the inner surface of this box, this box is attached to the upper surface of the insulating plate, and the inner molded power supply busbar is attached. Connect to the power supply routing material left on the insulation board.
【0010】請求項2のように、上記ボックスの上部を
ケースの開口から外部に突出させると、ケースからボッ
クスの上部が突出するだけで電気接続箱全体が嵩高くな
らない。When the upper part of the box is projected from the opening of the case to the outside as in claim 2, only the upper part of the box protrudes from the case, and the entire electric connection box does not become bulky.
【0011】請求項3のように、上記電源系バスバーの
両下端部の圧接刃を、絶縁板に配索した電源系単芯線に
圧接接続すると、ボックスの電源系バスバーと絶縁板の
電源系配索材で有る単芯線とを簡単かつ確実に接続でき
る。According to a third aspect of the present invention, when the press contact blades at both lower end portions of the power supply system bus bar are press contacted to the power supply system single core wire arranged on the insulating plate, the power supply system bus bar of the box and the power supply system of the insulating plate are connected. It can be easily and reliably connected to a single core wire that is a cord material.
【0012】請求項4のように、上記絶縁板の上面に、
上記ボックスの内面に取り付けたリレー等が脱落しない
ように保持する脱落防止部を設けると、ボックスの内面
に取り付けた重いリレー等が走行振動等で脱落するおそ
れがなくなる。According to a fourth aspect of the present invention, on the upper surface of the insulating plate,
By providing a drop-off preventing portion for holding a relay or the like attached to the inner surface of the box so as not to fall off, there is no possibility that a heavy relay or the like attached to the inner surface of the box may fall off due to running vibration or the like.
【0013】[0013]
【発明の実施の態様】以下、本発明の実施の形態を図面
を参照して詳細に説明する。Embodiments of the present invention will be described below in detail with reference to the drawings.
【0014】図1に示すように、電気接続箱は、ロアケ
ース11とアッパーケース12とを備え、両ケース1
1,12内には、配線材である単芯線19を配索した絶
縁板14が収容されている。なお、絶縁板14を多段で
積層している場合には、下段の絶縁材にはバスバーを配
索することができる。また、上段の絶縁板14に、単芯
線19に代えてバスバーを配索しても良い。As shown in FIG. 1, the electric junction box includes a lower case 11 and an upper case 12.
An insulating plate 14 on which a single-core wire 19 as a wiring material is routed is accommodated in the insides 1 and 12. When the insulating plates 14 are stacked in multiple stages, a bus bar can be routed on the lower insulating material. Further, a bus bar may be provided on the upper insulating plate 14 instead of the single core wire 19.
【0015】上段の絶縁板14の上面には、略逆U字状
断面の電源モジュールボックス21を取り付け、上段の
絶縁板14に配索される電源系単芯線19と信号系単芯
線19の内、大部分の電源系単芯線19を分離して、分
離した電源系単芯線19に代えて電源系バスバー20を
上記ボックス21に略逆U字状にインナーモールドす
る。このボックス21にインナーモールドされたバスバ
ー20は、絶縁板14に配索した信号系単芯線19の上
方に立体的に配索されることになる。A power supply module box 21 having a substantially inverted U-shaped cross section is mounted on the upper surface of the upper insulating plate 14, and a power supply system single core wire 19 and a signal system single core wire 19 arranged on the upper insulating plate 14 are provided. Then, most of the power supply system single core wire 19 is separated, and the power supply system bus bar 20 is inner-molded into the box 21 in a substantially inverted U shape instead of the separated power supply system single core wire 19. The bus bar 20 that is inner-molded in the box 21 is three-dimensionally arranged above the signal single core wire 19 arranged on the insulating plate 14.
【0016】上記ボックス21の下部には側出部21a
を設けて、この側出部21aの上面にコネクタ嵌合部2
1bを形成し、このコネクタ嵌合部21b内に、上記電
源系バスバー20から立ち上げた端子(タブ)20aを
臨ませることができる。また、図2(A)に示すよう
に、上記側出部21aの電源系バスバー20から立ち上
げた端子20aに中継端子16を介してリレー18の端
子を接続することもできる。At the lower part of the box 21, a side protruding portion 21a is provided.
Is provided on the upper surface of the side projection 21a.
1b, and a terminal (tab) 20a raised from the power supply system bus bar 20 can be exposed in the connector fitting portion 21b. Also, as shown in FIG. 2A, the terminal of the relay 18 can be connected via the relay terminal 16 to the terminal 20a that has risen from the power supply system bus bar 20 of the side projection 21a.
【0017】図3(A)(B)に示すように、上記ボッ
クス21の両側下部には、インナーモールドした電源系
バスバー20の下端部をそれぞれ下方に突出させ、この
各下端部に圧接刃20bをそれぞれ形成して、ボックス
21を絶縁板14の上面に取り付けるとき、この圧接刃
20bを絶縁板14に配索した残りの電源系単芯線19
に圧接接続することにより、絶縁板14の電源系単芯線
19とボックス21の電源系バスバー20とが電気的に
接続されるようになる。As shown in FIGS. 3 (A) and 3 (B), the lower ends of the inner-molded power supply busbars 20 are projected downward from both lower sides of the box 21, respectively. When the box 21 is mounted on the upper surface of the insulating plate 14, the press-contact blade 20 b is disposed on the insulating plate 14.
By pressure contact, the power supply system single core wire 19 of the insulating plate 14 and the power supply system bus bar 20 of the box 21 are electrically connected.
【0018】図3(C)に示すように、上記ボックス2
1の上内面には、インナーモールドした電源系バスバー
20から立ち下げた端子20aを突出させて、この端子
20cに中継端子16を介してヒューズ17の端子17
aを接続する。As shown in FIG. 3C, the box 2
A terminal 20a, which has fallen from an inner-molded power supply system bus bar 20, protrudes from the upper inner surface of the power supply system 1 and a terminal 17c of a fuse 17 is connected to the terminal 20c via a relay terminal 16.
Connect a.
【0019】また、図3(D)に示すように、上記端子
20aに圧入孔20dを形成し、この圧入孔20dにヒ
ューズ17の端子17aを直接的に圧入接続しても良
い。Further, as shown in FIG. 3D, a press-fit hole 20d may be formed in the terminal 20a, and the terminal 17a of the fuse 17 may be directly press-fitted into the press-fit hole 20d.
【0020】さらに、図3(E)に示すように、インナ
ーモールドした電源系バスバー20に端子孔20eを形
成し、この端子孔20eにヒューズ17の端子17aを
挿入して、半田付けaで接続しても良い。Further, as shown in FIG. 3E, a terminal hole 20e is formed in the inner-molded power supply system bus bar 20, and a terminal 17a of the fuse 17 is inserted into the terminal hole 20e and connected by soldering a. You may.
【0021】同様に、図2(B)及び図4(A)に示す
ように、上記ボックス21の上内面は、端子20aに中
継端子16を介してリレー18の端子18aを接続して
も良い。Similarly, as shown in FIGS. 2B and 4A, the upper inner surface of the box 21 may be connected to the terminal 18a of the relay 18 via the relay terminal 16 to the terminal 20a. .
【0022】なお、ヒューズ17及びリレー18は逆さ
吊り状態となるから、特にリレー18が重くて走行振動
等で脱落するおそれがあるときは、図4(B)のよう
に、リレー18の真下の絶縁板14の上面に、他のリレ
ー18またはヒューズ17を取り付けると、ボックス2
1のリレー18の脱落を防止できる。Since the fuse 17 and the relay 18 are suspended in an inverted state, especially when the relay 18 is heavy and may fall off due to running vibration or the like, as shown in FIG. When another relay 18 or fuse 17 is attached to the upper surface of the insulating plate 14, the box 2
The first relay 18 can be prevented from falling off.
【0023】また、図4(C)のように、ボックス21
をロアケース11の内面に取り付けるときは、リレー1
8の真下のロアケース11の内面に突出部11aを設け
ると、ボックス21のリレー18の脱落を防止できる。Further, as shown in FIG.
When mounting on the inner surface of the lower case 11, the relay 1
When the projection 11 a is provided on the inner surface of the lower case 11 directly below the lower case 8, it is possible to prevent the relay 18 of the box 21 from falling off.
【0024】図1に示したように、上記アッパーケース
12には、上記ボックス21の上部及び側出部21aの
コネクタ嵌合部21bをアッパーケース12の外部に突
出させる開口12aを形成している。As shown in FIG. 1, the upper case 12 is formed with an opening 12a for projecting the connector fitting portion 21b of the upper portion of the box 21 and the side projecting portion 21a to the outside of the upper case 12. .
【0025】上記のように、絶縁板14に配索される電
源系と信号系の単芯線19から大部分の電源系単芯線1
9を分離して、分離した電源系の単芯線(またはバスバ
ー)19に代えて、電源系バスバー20をボックス21
にインナーモールドし、このボックス21を絶縁板14
の上面に取り付けて、インナーモールドした電源系バス
バー20を圧接刃20bで、絶縁板14に残した電源系
単芯線19に圧接接続すると共に、、ボックス21の内
面に、インナーモールドした電源系バスバー20の端子
20aに、中継端子16を介してヒューズ17やリレー
18等を接続して取り付けることにより、電源モジュー
ルボックス21が構成される。As described above, most of the power supply system single core wire 1 is connected to the power supply system and signal system single core wire 19 routed on the insulating plate 14.
9 and a power supply bus bar 20 is replaced with a box 21 in place of the separated single core wire (or bus bar) 19 of the power supply system.
Inner box, and the box 21 is
The power supply system bus bar 20 having the inner mold is attached to the upper surface of the power supply system bus bar 20 by press-connecting to the power supply system single core wire 19 left on the insulating plate 14 with the press contact blade 20b. The power supply module box 21 is configured by connecting and attaching the fuse 17 and the relay 18 via the relay terminal 16 to the terminal 20a.
【0026】このように構成すれば、絶縁板14に配索
した信号系単芯線やバスバー等の上方に、ボックス21
にインナーモールドした大部分の電源系バスバー20を
立体的に配索できて、この電源系バスバー20に、ボッ
クス21の内面に取り付けたヒューズ17やリレー18
等を接続できるから、絶縁板14の上面に各系の単芯線
やバスバー、特に大電流のために線径が太い電源系単芯
線や幅が広い電源系バスバーを迂回して配索する必要が
なくなるので、配索スペースが縮小できるようになり、
電気接続箱が小型化すると共に、回路規模の制限が緩和
されるようになる。With this configuration, the box 21 is placed above the signal single-core wire or the bus bar, etc., routed on the insulating plate 14.
Most of the power supply busbars 20 that are inner-molded can be routed three-dimensionally, and the fuses 17 and relays 18 attached to the inner surface of the box 21 can be attached to the power supply busbars 20.
It is necessary to route around the single core wire and bus bar of each system on the upper surface of the insulating plate 14, especially the power source system single core wire having a large wire diameter and the wide power source bus bar for a large current. Since it is no longer available, you can reduce the routing space,
The size of the electric junction box is reduced, and the restriction on the circuit size is relaxed.
【0027】また、電源系バスバー20をボックス21
にインナーモールドするから、隣り合うバスバー20間
の絶縁性も向上する。The power supply system bus bar 20 is connected to the box 21.
Since the inner mold is used, the insulation between the adjacent bus bars 20 is also improved.
【0028】さらに、ボックス21の上部をアッパーケ
ース12の開口12aから外部に突出させると、アッパ
ーケース12からボックス21の上部が突出するだけ
で、電気接続箱全体が嵩高くならなくなる。Further, when the upper portion of the box 21 is projected outside through the opening 12a of the upper case 12, the upper portion of the box 21 only projects from the upper case 12, so that the entire electric connection box does not become bulky.
【0029】さらにまた、電源系バスバー20の圧接刃
20bを、絶縁板14の電源系単芯線19に圧接接続す
ると、ボックス21の電源系バスバー20と絶縁板の電
源系単芯線19とを簡単かつ確実に接続できるようにな
る。Furthermore, when the pressure contact blade 20b of the power supply system bus bar 20 is press-connected to the power supply system single core wire 19 of the insulating plate 14, the power supply system bus bar 20 of the box 21 and the power supply system single core wire 19 of the insulating plate can be easily and simply connected. You will be able to connect securely.
【0030】[0030]
【発明の効果】以上の説明からも明らかなように、本発
明の電源モジュールボックスの構造は、電源系バスバー
をインナーモールドしたボックスを絶縁板に取り付け
て、この電源系バスバーを絶縁板に残した電源系配索材
に接続すると共に、ボックスの内面に、この電源系バス
バーに接続するヒューズやリレー等を取り付けるように
したから、絶縁板に配索した信号系配索材の上方に立体
的に配索した電源系バスバーにヒューズやリレー等を接
続できるので、各系の配索材、特に大電流のために線径
が太い電源系単芯線や幅が広い電源系バスバーのような
配索材を迂回して配索する必要がなくなって、配索スペ
ースが縮小できるようになる。これにより、電気接続箱
が小型化すると共に、回路規模の制限が緩和されるよう
になる。As is apparent from the above description, in the structure of the power supply module box of the present invention, the box in which the power supply system bus bar is inner-molded is attached to the insulating plate, and the power supply system bus bar is left on the insulating plate. A fuse and a relay connected to this power supply busbar are attached to the inner surface of the box while being connected to the power supply wiring material. Since fuses and relays can be connected to the power supply system busbars that are routed, wiring materials for each system, especially power supply system single-core wires with a large diameter due to large current and wide power supply system busbars It is not necessary to route around the route, and the routing space can be reduced. As a result, the size of the electric junction box is reduced, and the limitation on the circuit size is relaxed.
【0031】請求項2のように、ボックスの上部をケー
スの開口から外部に突出させると、ケースからボックス
の上部が突出するだけで電気接続箱全体が嵩高くならな
い。また、請求項3のように、電源系バスバーの両下端
部の圧接刃を、絶縁板に配索した電源系単芯線に圧接接
続すると、ボックスの電源系バスバーと絶縁板の電源系
配索材で有る単芯線とを簡単かつ確実に接続できるよう
になる。When the upper part of the box is protruded to the outside from the opening of the case as in the second aspect, only the upper part of the box protrudes from the case, and the entire electric connection box does not become bulky. Further, when the pressure contact blades at both lower end portions of the power supply system bus bar are press-connected to the power supply system single core wire wired to the insulating plate, the power supply system bus bar of the box and the power supply system wiring material of the insulating plate are connected. The single-core wire can be easily and reliably connected.
【0032】さらに、請求項4のように、絶縁板の上面
に、ボックスの内面に取り付けたリレー等が脱落しない
ように保持する脱落防止部を設けると、ボックスの内面
に取り付けた重いリレー等が走行振動等で脱落するおそ
れがなくなる。Further, if a fall prevention portion is provided on the upper surface of the insulating plate so as to prevent a relay or the like attached to the inner surface of the box from falling off, a heavy relay or the like attached to the inner surface of the box may be provided. There is no danger of falling off due to running vibration or the like.
【図1】 本発明の電気接続箱の電源モジュールボック
スの斜視図である。FIG. 1 is a perspective view of a power supply module box of an electric connection box according to the present invention.
【図2】 (A)(B)はそれぞれ電源モジュールボッ
クスの変形例の斜視図である。FIGS. 2A and 2B are perspective views of modified examples of the power supply module box.
【図3】 (A)は電源モジュールボックスの要部斜視
図、(B)は電源モジュールボックスのバスバーと絶縁
板の電源系単芯線の接続構造の断面図、(C)(D)
(E)はそれぞれヒューズの接続構造の断面図である。3A is a perspective view of a main part of a power supply module box, FIG. 3B is a cross-sectional view of a connection structure between a bus bar of the power supply module box and a power supply system single-core wire of an insulating plate, and FIGS.
(E) is sectional drawing of the connection structure of each fuse.
【図4】 (A)はリレーの接続構造の断面図、(B)
はリレーの脱落防止構造の断面図、(C)はリレーの脱
落防止構造の斜視図である。4A is a cross-sectional view of a relay connection structure, and FIG.
FIG. 3 is a cross-sectional view of the structure for preventing the relay from falling off, and FIG.
【図5】 従来の電気接続箱の斜視図である。FIG. 5 is a perspective view of a conventional electric junction box.
11 ロアケース 12 アッパーケース 14 絶縁板 17 ヒューズ 18 リレー 19 単芯線 20 電源系バスバー 20a 端子 20b 圧接刃 21 ボックス DESCRIPTION OF SYMBOLS 11 Lower case 12 Upper case 14 Insulating plate 17 Fuse 18 Relay 19 Single core wire 20 Power supply system bus bar 20a Terminal 20b Pressure contact blade 21 Box
Claims (4)
配索した絶縁板が収容された電気接続箱において、 上記絶縁板の上面に、大部分の電源系配索材であるバス
バーをインナーモールドした略逆U字状断面のボックス
を取り付けて、この電源系バスバーを、絶縁板に配索し
た残りの電源系配索材に接続する一方、上記ボックスの
内面に、上記インナーモールドした電源系バスバーに接
続するヒューズやリレー等を取り付けたことを特徴とす
る電気接続箱の電源モジュールボックスの構造。1. An electric junction box in which an insulating plate in which power supply and signal wiring members are routed is accommodated in a case, wherein a busbar, which is a majority of the power supply routing material, is provided on an upper surface of the insulating plate. A box having a substantially inverted U-shaped cross-section in which the inner mold is attached is connected, and this power supply busbar is connected to the remaining power supply wiring members arranged on the insulating plate, while the inner mold of the box is subjected to the inner mold. A structure of a power supply module box of an electric connection box, wherein a fuse, a relay, and the like connected to a power supply system bus bar are attached.
外部に突出させている請求項1に記載の電気接続箱の電
源モジュールボックスの構造。2. The structure of a power supply module box of an electric junction box according to claim 1, wherein an upper portion of said box is projected outside from an opening of a case.
を、絶縁板に配索した電源系単芯線に圧接接続した請求
項1又は請求項2に記載の電気接続箱の電源モジュール
ボックスの構造。3. The power supply module box of an electric connection box according to claim 1, wherein the press contact blades at both lower ends of the power supply system bus bar are press contacted to a power supply system single core wire arranged on an insulating plate. Construction.
面に取り付けたリレー等が脱落しないように保持する脱
落防止部を設けた請求項1又から請求項3のいずれかに
記載の電気接続箱の電源モジュールボックスの構造。4. The electrical connection according to claim 1, further comprising a drop-off preventing portion provided on an upper surface of said insulating plate for holding a relay or the like attached to an inner surface of said box so as not to fall off. Box power module box structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP08350319A JP3103315B2 (en) | 1996-12-27 | 1996-12-27 | Structure of power supply module box of electrical junction box |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP08350319A JP3103315B2 (en) | 1996-12-27 | 1996-12-27 | Structure of power supply module box of electrical junction box |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH10201050A true JPH10201050A (en) | 1998-07-31 |
JP3103315B2 JP3103315B2 (en) | 2000-10-30 |
Family
ID=18409686
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP08350319A Expired - Fee Related JP3103315B2 (en) | 1996-12-27 | 1996-12-27 | Structure of power supply module box of electrical junction box |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3103315B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002078147A (en) * | 2000-08-25 | 2002-03-15 | Sumitomo Wiring Syst Ltd | Circuit board and junction box equipped with the same |
EP1615487A2 (en) * | 2004-07-06 | 2006-01-11 | Omron Corporation | Mounting substrate and driving device using same |
-
1996
- 1996-12-27 JP JP08350319A patent/JP3103315B2/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002078147A (en) * | 2000-08-25 | 2002-03-15 | Sumitomo Wiring Syst Ltd | Circuit board and junction box equipped with the same |
EP1615487A2 (en) * | 2004-07-06 | 2006-01-11 | Omron Corporation | Mounting substrate and driving device using same |
EP1615487A3 (en) * | 2004-07-06 | 2008-02-20 | Omron Corporation | Mounting substrate and driving device using same |
Also Published As
Publication number | Publication date |
---|---|
JP3103315B2 (en) | 2000-10-30 |
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