JP2002315156A - Power supply structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To supply powers to relays and fuses, housed in cassette-type relay housings and fuse housings which are disconnectably connected with each other, without using power supply lines. SOLUTION: A cover plate 11 is provided on one sides of respective housings 10 connected in parallel with each other, and power supply connecting bus-bars 13 connected to a power supply are continuously attached to the cover plate 11 in a direction of the parallel connection of the housings 10. On the other hand, junction bus-bars 14, which have terminal parts 14b connected to relay terminals or fuse terminals and power supply side terminal parts 14a coupled with the power supply connecting bus-bars 13, are attached in the housings 10, and the power supply side terminal parts 14a of the junction bus-bars 14 of the respective housings 10 connected in parallel with each other are coupled at intervals with the power supply connecting bus-bars 13 attached to the cover plate 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply structure for a motor vehicle, and more particularly, to a power supply structure for a relay box, a fuse box or a relay / fuse box. Even if there is any.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 10, a relay box 1 for an automobile is provided with a plurality of fuse cavities 2 and a relay cavity 3 integrally. Is supplied by arranging a bus bar between the cavities. In the relay box 1, since a plurality of fuse cavities 2 and relay cavities 3 are provided in one housing, a fuse,
If the number of relays increases or decreases, the box itself must be changed, and there is a problem that it is not easy to cope with a change in specifications.

In view of this, in Japanese Utility Model Laid-Open No. 60-132126, a cassette type box 4 has been proposed as shown in FIG. The cassette type box 4 is provided with housings 5, 6, 7, 8 provided with one or two or more relay housings and / or fuse housings, and is detachably connected to the outer surfaces of the housings 5 to 8. A connecting portion 9 is provided, and a required number of housings are detachably fitted and connected.

[0004]

However, when connecting the cassette type boxes, each housing 5,
The power supply to 6, 7, 8 cannot be connected by the bus bar, and it is necessary to connect the power supply line to each housing 5, 6, 7, 8, and it takes time and labor to connect the power supply line. There is a problem that the cost is increased due to heavy use of wires.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and in particular, has been made to be able to supply power using a bus bar without using a power line for a relay or a fuse to which a housing is connected in a cassette type. Is an issue.

[0006]

According to the present invention, a cover plate is arranged on one side of a housing in which a plurality of relays and / or fuse accommodating portions are arranged in parallel, and the cover plate is provided on the cover plate. A power supply connection bus bar connected to a power supply is continuously mounted in the parallel direction of the relay and the fuse, while a fuse or relay terminal connected to a fuse or a relay terminal is connected to the power supply connection. A relay bus bar provided with a power supply side terminal portion to be fitted and connected to the bus bar is mounted in the housing, and the power supply side terminal portion of the relay bus bar of each of the parallel housings is mounted on the cover plate. A power supply structure is provided which is configured to be fitted and connected to a power connection bus bar at intervals.

With the above configuration, power can be supplied to the fuses and relays arranged in parallel by using a single power supply bus bar disposed on the cover plate without using a power supply line. . The mounting work of the housing also requires only one-touch fitting of the power supply side terminal of the relay bus bar of the housing to the power connection bus bar of the cover plate, and electrical connection with the relay or fuse terminal via the relay bus bar. Work time is significantly reduced. In addition, when the specification is changed, only the housing-side relay bus bar connected to the cover-side power connection bus bar is changed, so that the housing and the cover itself do not need to be changed, and the specification can be easily changed. be able to.

The power supply connection bus bar is attached by being inserted into a frame-shaped cover plate protruding from the cover plate at an interval, and a portion of the housing side that is not connected to the relay bus bar on the housing side is provided by the cover plate. While being covered, it is exposed at a fixed interval between the cover plates to form a connection portion, and the connection portion has a gap between the cover plate and the housing, and a relay bus bar housing portion is provided in the housing with a fuse housing portion. Alternatively, provided continuously with the relay accommodating portion, the relay bus bar includes the power supply side terminal portion having a pressure contact slot at one end thereof, and the pressure contact slot of the power supply side terminal portion is inserted into the power supply connection bus bar from above. It is configured to be connected by pressure contact.

With the above configuration, in a state where the relay bus bar is connected to the connection portion of the power connection bus bar provided at regular intervals, the power supply side terminal portion of the relay bus bar is sandwiched by the adjacent covering plate, It is kept stable. Also,
By simply inserting the pressure-contact slot of the power-supply-side terminal into the power-supply connection bus bar from above, pressure-connection is performed, and electrical connection can be easily performed. In addition, by providing the relay busbar housing portion continuously from the fuse housing portion or the relay housing portion, the power supply busbar and the relay busbar for relaying the fuse or the relay can be efficiently arranged in the shortest time. .

The housings arranged side by side along the cover plate are composed of a plurality of housings which are detachably connected in a cassette type, and the relay bus bars are attached to these housings. The fuse and the relay in the housing of the relay are connected to the one power connection bus bar via the relay bus bar.

The present invention is particularly suitably used for one or two fuse housings, a fuse housing provided with a relay housing, and a cassette type in which a required number of relay housings are detachably connected. As described above, the power supply lines are connected to the terminals of each housing when connecting and using a required number of the cassette type housings. In the present invention, the housings are detachably connected along the cover plate. The power is supplied by fitting the power supply side terminal portions of the relay bus bars protruding from the housings into the power connection bus bars attached to the cover plate. Thereby, power supply to the housings connected in parallel in the cassette type can be performed by one bus bar. In this way, by using a cassette type housing that is detachably connected, the number of fuses and relays can be increased or decreased.
It can be easily accommodated without changing the housing and the cover.

The housing has a fuse accommodating portion and a relay accommodating portion integrally provided. A connecting bus bar provided with a fuse connecting tab and a relay connecting tab is accommodated in the housing to connect the fuse and the relay. It is suitably used for those which have been used.

As described above, when the fuse accommodating portion and the relay accommodating portion are provided in one housing, compared with the case where the relay accommodating portion and the fuse accommodating portion are separately provided,
The number of parts and the number of mounting steps are reduced. In addition, by using a built-in connection bus bar as a component for connecting the fuse and the relay, the connection at the time of assembly as in the case of connection by an electric wire becomes unnecessary, and the size is reduced.

[0014]

Next, embodiments of the present invention will be described with reference to the drawings. 1 to 5 show a first embodiment. In the first embodiment, cassette type housings 10 are connected and juxtaposed, and a cover plate 11 is arranged on one side of the housings 10.

Each housing 10 includes a relay bus bar receiving portion 17, a fuse receiving portion 16, and a relay receiving portion 15, and houses the relay bus bar 14 between the relay bus bar receiving portion 17 and the fuse receiving portion 16. The connection bus bar 18 is housed from the fuse housing 16 to the relay housing 15.

The relay accommodating portion 15 has a power terminal side accommodating chamber 15a for accommodating a power terminal of a relay to be mounted.
And a load-side terminal storage chamber 15b in which the load-side terminals are stored. The fuse accommodating portion 16 is a power terminal side accommodating chamber 1 in which a power terminal of a fuse to be attached is accommodated.
6a and a load-side terminal storage chamber 16 in which the load-side terminals are stored.
b.

As shown in FIG. 3, the relay bus bar 14 is bent in a U-shape, and has a press-contact slot having a downward opening so as to be continuous with a slit provided on the bottom surface thereof. 14a and the power supply side terminal 1
4a is provided with a terminal portion 14b for connecting a fuse / relay having a press-contact slot having an upwardly open opening which is continuous from one of the terminals 4a. It is housed in 16 power supply side terminal housing chambers 16a.

The connecting bus bar 18 is, as shown in FIG.
One end is accommodated in the load-side terminal accommodating chamber 16b of the fuse accommodating section 16, and the other end is connected to the power-supply-side terminal accommodating chamber 1 of the relay accommodating section 15.
5a.

1 and 4 are provided on both sides of the housing 10.
As shown in FIG. 5 and FIG. 5, a connecting portion for detachably connecting to another housing 10 is provided. The connecting portion includes an L-shaped locking portion 12a on one side of the housing 10 and a locking portion. 12a and an L-shaped locked portion 12b on the other side which has a locking structure.

On the other hand, as shown in FIG. 3, the cover plate 11 is provided with a cover plate 11a projecting at a predetermined interval, and a strip-shaped power connection bus bar 13 connected to a power supply is provided on the cover plate 11.
1a. At this time, a gap is provided between the outer surface of the cover plate 11 and the power connection bus bar 13.

Housing 10 and power supply bus bar 13
As shown in FIGS. 2A and 2B and FIG. 3, the connection method is as follows from above the exposed portion of the power connection bus bar 13.
The power-supply-side terminal portion 14a of the relay bus bar 14 built in the housing 10 is inserted and press-connected.

FIG. 1 shows a state in which the relay bus bars 14 of the plurality of housings 10 are connected to the power connection bus bars 13. The adjacent housings 10 are connected to each other by locking the locking portion 12a of the housing 10 to the locked portion 12b of the other housing 10 to form a connecting portion. In the present embodiment, only the case where only the housing 10 is connected to the power connection bus bar 13 is disclosed. However, other components (for example, a large relay or the like) that require power supply are connected. Is also good.

According to the first embodiment, a required number of cassette type housings 10 are connected, and each relay bus bar 14 of the connected housings 10 is connected to the cover plate 1.
Electrical connection can be achieved simply by fitting and connecting to the power supply connection bus bar 13 attached to the power supply unit 1. Therefore, when the number of the housings 10 increases or decreases, only the number of the relay bus bars 14 connected to the power connection bus bar 13 changes, and it is not necessary to change the power supply structure itself.

FIGS. 6 and 7 show a second embodiment. The second embodiment has a configuration in which only two fuse housings 16 are provided.
In this embodiment, two cassette type fuse housings 10 'are connected.

The relay bus bar 14 'has a power supply side terminal portion 14a similar to the relay bus bar 14 of the first embodiment, but has four consecutively provided fuse connection terminal portions 14b. The power supply side terminal portions 14a are accommodated in the relay bus bar accommodation portion 17, and the four fuse connection terminal portions 14b are accommodated in the power supply side terminal accommodation rooms 16a of the four fuse accommodation portions 16, respectively. The other configuration is the same as that of the first embodiment, and the description is omitted.

FIGS. 8 and 9 show a third embodiment. In the third embodiment, a required number of cassette-type relay housings 10 "each having only the relay accommodating portion 15 are connected.

The relay bus bar 14 "has the same power supply side terminal portion 14a as the relay bus bar 14 of the first embodiment, and continuously has a first relay connection terminal 14c and a second relay connection terminal. The power supply side terminal 14a is housed in the relay busbar housing 17, and the first relay connection terminal 14c and the second relay connection terminal 14d are each housed in the relay. Part 15-2
Are housed in the two power supply side terminal housing chambers 15a. The other configuration is the same as that of the first embodiment, and the description is omitted.

[0028]

As is clear from the above description, according to the present invention, even if the number of relays and fuses increases or decreases,
Power can be supplied using a single power connection bus bar in which these are attached to a cover plate. Therefore, in particular, in a configuration in which a required number of relay housings and fuse housings are cassette-type and the required number is detachably connected, power is supplied using one bus bar instead of using a power supply line. And eliminates the need to connect power lines to each of the housings. As a result,
The number of connection operations and the amount of power supply lines used can be reduced, and the cost can be reduced.

Further, the connection with the power supply connection bus bar is simply performed by one-touch connection of the pressure connection slot of the power supply side terminal portion of the relay bus bar protruding from each soldering to the power supply connection bus bar attached to the cover plate. Therefore, the number of working steps can be significantly reduced.

Further, when the fuse accommodating portion and the relay accommodating portion are provided in one housing, the number of parts and the number of mounting steps are reduced as compared with the case where the relay accommodating portion and the fuse accommodating portion are separately provided. In addition, when the fuse and the relay are connected by a connection bus bar built in the housing, the connection is simpler and smaller than when the connection is made by an electric wire.

[Brief description of the drawings]

FIG. 1 is a plan view of a first embodiment.

FIGS. 2A and 2B are cross-sectional views illustrating attachment of a housing of the first embodiment to a power connection bus bar.

FIG. 3 is a partially sectional perspective view illustrating attachment of the relay bus bar to the power connection bus bar according to the first embodiment.

FIG. 4 is a top view of the housing of the first embodiment.

FIG. 5 is a bottom view of the housing of the first embodiment.

FIG. 6 is a cross-sectional view after the housing of the second embodiment is attached to a power connection bus bar.

FIG. 7 is a top view of a housing according to a second embodiment.

FIG. 8 is a cross-sectional view after the housing of the third embodiment is attached to a power connection bus bar.

FIG. 9 is a top view of a housing according to a third embodiment.

FIG. 10 is a top view of a conventional relay box.

FIG. 11 is a perspective view of another conventional relay box.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Housing 11 Cover plate 11a Covering plate 12a Locking part (connection part) 12b Locked part (connection part) 13 Bus bar for power supply 14 Relay bus bar 14a Power supply side terminal part 14b Terminal part for fuse / relay connection 15 Relay Housing 16 Fuse housing 17 Relay busbar housing 18 Connected busbar

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4E353 AA05 AA18 AA24 BB02 BB09 BB13 CC13 CC33 DD05 DD11 DD17 DR04 DR17 DR36 GG11 GG20 5E024 CA22 5G361 BA02 BB01 BB03 BC01 BC02 5G502 AA01 CC25 FF08

Claims (4)

[Claims] A cover plate is arranged on one side of a housing in which a plurality of relays and / or fuse accommodating portions are arranged in parallel, and one power connection bus bar connected to a power supply is provided on the cover plate. While the relays and fuses are installed in parallel in a parallel direction, the fuse
A relay bus bar provided with a relay-side terminal portion and a power-supply-side terminal portion fitted and connected to the power connection bus bar is mounted in the housing, and the power supply side of the relay bus bar of each of the parallel housings is provided. A power supply structure in which a terminal portion is fitted and connected to a power connection bus bar attached to the cover plate at intervals. 2. The power supply connection bus bar is inserted and mounted inside a frame-shaped cover plate projecting from the cover plate at an interval, and is not connected to the relay bus bar on the housing side by the cover plate. A portion is covered and is exposed at a fixed interval between the covering plates to form a connection portion. The connection portion has a gap between the cover plate and the housing. The relay bus bar is provided continuously with the housing portion or the relay housing portion, the relay bus bar includes the power supply side terminal portion having a pressure contact slot at one end thereof, and the pressure contact slot of the power supply side terminal portion is connected to the power supply connection bus bar from above. The power supply structure according to claim 1, wherein the power supply structure is configured to be inserted and press-connected. 3. The housing arranged side by side along the cover plate comprises a plurality of housings which are detachably connected in a cassette type, and the relay bus bars are attached to each of the housings. 3. The power supply structure according to claim 1, wherein the fuse and the relay in the housing of the relay are connected to the one power connection bus bar via the relay bus bar. 4. The housing has a fuse accommodating portion and a relay accommodating portion provided integrally with each other. A connecting bus bar provided with a fuse connecting tab and a relay connecting tab is accommodated in the housing. Claim 1
The power supply structure according to claim 3.