JP2006228627A - Cover structure of of electrical unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To surely easily ensure strong electricity safety of an electrical unit in maintenance or in emergency in the cover structure of the electrical unit. <P>SOLUTION: The cover structure 1 of the electrical unit is equipped with a secondary battery 5, a unit cover 2 covering the secondary battery 5, and an insulating switch 3 ensuring the electrical insulation of the secondary battery 5, and the insulating switch 3 is passed through an opening part 4 installed on the side of the unit cover 2 and protruded to the outside, and fit to the unit cover 2 so as to be capable of removing from the outside. The insulation of the secondary battery 5 is ensured by removing the insulating switch 3, and the come out of the unit cover 2 is prohibited unless the insulating switch 3 is not removed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a cover structure for an electric system unit, and more particularly to a cover structure for an electric system unit including an insulation switch that can easily and reliably ensure high-power safety of the electric system unit.

  In an electric vehicle such as a fuel cell vehicle, a structure in which a secondary battery is arranged at the rear part of the rear seat of the vehicle body is widely adopted. In order to ensure electrical safety, an insulation switch is attached to the secondary battery and is accommodated in a battery cover. The battery cover is formed in a box frame shape (box shape), and is fixed by, for example, a plurality of bolts on the rear floor.

  Japanese Laid-Open Patent Publication No. 10-334870 (Patent Document 1) is disclosed as a prior art for ensuring high power safety during maintenance of a storage battery mounted on such an electric vehicle. In the conventional storage battery housing device disclosed in Patent Document 1, a plurality of connectors are exposed to the outside of the cover, and the cover cannot be removed unless the connectors are removed. And this connector is connected between the terminals of the storage battery inside, and when the connector is removed, the series connection inside is divided at several places and the voltage is lowered, and the cover is made in a state where high power safety is secured. Is to be removed.

Japanese Patent Application Laid-Open No. 9-196386 (Patent Document 2) is disclosed as a conventional technique for ensuring high-power safety during maintenance in home appliances that operate at a high voltage. In the power shut-off device disclosed in Patent Document 2, when all bolts attached to the cover are removed, the fuse is automatically removed.
JP 10-334870 A JP-A-9-196386

  By the way, when removing an insulation switch in a secondary battery of a conventional electric vehicle, in order to remove the battery cover that covers the secondary battery, first remove the bolt that holds the battery cover, remove the battery cover, and then remove the battery cover. Next, the insulation switch was removed after the battery was exposed. Therefore, there is a possibility that a hand may be touched at a high potential terminal at this time.

  Therefore, if the structure of the secondary battery is as described above in Patent Document 1, when removing the battery cover during maintenance, it is necessary to remove a plurality of connectors in order to ensure strong electrical safety, and remove the battery cover. Therefore, it will take time.

  In addition, since all terminals are not insulated even when the battery cover is removed, there is a possibility that hands that are not insulated are touched. In this case, in order to ensure reliable strong electric safety, it is necessary to remove all the connectors, so that it takes more time.

  Furthermore, when the structure as in Patent Document 2 is adopted, it is necessary to remove all the bolts and completely remove the cover in order to ensure high power safety in an emergency. However, in a situation where it is only necessary to ensure high-power safety, removing all the bolts and removing the cover is an extra work, and thus it takes time to ensure high-power safety.

  In order to solve the above-described problems, an electrical system unit cover structure according to the present invention includes an electrical system unit mounted on a vehicle, a unit cover that covers the electrical system unit, and electrical insulation of the electrical system unit. A cover structure of an electric system unit including an insulation switch to be secured, wherein the insulation switch is installed at a position that restricts movement of the unit cover in a removal direction, and the electric system unit is externally provided from the unit cover. The electrical unit is secured by removing the insulation switch, and the unit cover can be moved in the removal direction.

  In the cover structure of the electric system unit according to the present invention, since the insulation switch is installed at a position that restricts the movement of the unit cover in the removal direction, the unit must be removed before removing the unit cover during maintenance or the like. The cover cannot be removed. Therefore, when the maintenance is performed with the unit cover removed, it is possible to reliably ensure high-power safety. In addition, since the insulation switch is detachably attached from the outside of the unit cover, strong electrical safety can be easily ensured by removing the insulation switch from the outside without removing the unit cover in an emergency.

  The best mode for carrying out the cover structure of an electric system unit according to the present invention will be described below with reference to the drawings. However, in each drawing, the vehicle body structure is omitted or simplified as appropriate, and hatching and the like are omitted. Further, only the configuration of the main part of the invention will be described, and detailed description of other parts will be omitted.

  FIG. 1 is a perspective view illustrating a configuration of a cover structure of an electric system unit according to the first embodiment. As shown in FIG. 1, the cover structure 1 of the electric system unit of the present embodiment includes a unit cover 2 that covers a secondary battery that is an electric system unit, and an insulation switch 3 that ensures electrical insulation of the electric system unit. It is configured with.

  The unit cover 2 has a box shape so as to cover the secondary battery, and is fixed to the rear floor of the vehicle. An opening 4 for inserting the insulation switch 3 is provided on the side surface of the unit cover 2.

  Here, a perspective view with the unit cover 2 removed is shown in FIG. As shown in FIG. 2, when the unit cover 2 is removed, the secondary battery 5 is fixedly installed on the rear floor of the vehicle.

  The insulation switch 3 is configured to ensure insulation of the secondary battery 5 by being removed, and is inserted and attached through the opening 4 of the unit cover 2 as shown in FIG. The insulation switch 3 is detachably attached from the outside of the unit cover 2 and is attached in a state of protruding through the opening 4 of the unit cover 2 to the outside. Therefore, if the unit cover 2 is to be removed in the upward direction, which is the direction in which the unit cover 2 is removed, the insulation switch 3 restricts the upward movement of the unit cover 2.

  In the cover structure 1 of the electric system unit of the present embodiment configured as described above, in order to remove the unit cover 2, it is necessary to remove the insulation switch 3 first. Here, based on FIGS. 3-5, the structure of the insulation switch 3 and its removal procedure are demonstrated. 3 to 5 are cross-sectional views corresponding to the line AA in FIG.

  As shown in FIG. 3, the insulation switch 3 includes an insulation switch body 31 fixed to the secondary battery 5 side, a switch section 32 that is fitted to the insulation switch body 31 and performs electrical connection, and the switch section 32. And a lever 33 which is operated when attaching / detaching.

  Thus, the switch part 32 of the insulation switch 3 is installed through the opening 4 of the unit cover 2 and protruded to the outside. Therefore, when the unit cover 2 is to be removed in the upward direction, which is the direction in which the unit cover 2 is removed, the switch unit 32 restricts the upward movement of the unit cover 2. As described above, the unit cover 2 cannot be removed unless the switch portion 32 is removed.

  Further, since the lever 33 of the insulation switch 3 overlaps with the outer peripheral portion 21 of the opening 4 in the horizontal direction, if the unit cover 2 is moved in the horizontal direction, particularly in the rear of the vehicle (rear), the opening 4 The outer peripheral portion 21 interferes with the lever 33 and the movement is restricted. Thus, unless the switch part 32 is removed, the unit cover 2 cannot be removed by moving it horizontally, in particular, rearward of the vehicle. In this embodiment, when the unit cover 2 is removed, the unit cover 2 is not moved to the front (front) side of the vehicle.

  Further, FIG. 4 shows a cross-sectional view taken along line BB of FIG. As shown in FIG. 4, the switch portion 32 is connected to the insulating switch body 31 in a state of protruding outward from the opening portion 4 of the unit cover 2, so that the unit cover 2 is moved in the left and right (vehicle width) direction. Restricted. Thus, unless the switch part 32 is removed, the unit cover 2 cannot be removed by moving in the left-right direction.

  Next, a method for removing the switch unit 32 will be described. When the switch unit 32 is removed to place the secondary battery 5 in an insulated state, first, as shown in FIG. 3, the lever 33 is lifted upward and then tilted 90 degrees in the direction of the arrow. Then, the state shown in FIG. 5 is obtained. When the lever 33 is further pulled out in the arrow direction in this state, the switch portion 32 is detached from the insulating switch main body 31 and the state shown in FIG. 6 is obtained. When the switch part 32 is removed from the insulating switch body 31 in this way, the secondary battery 5 is electrically insulated internally, and strong electrical safety is ensured. Thus, since the switch part 32 can be easily detached from the outside of the unit cover 2, it is possible to quickly ensure the high-power safety of the secondary battery 5 without removing the unit cover 2 in an emergency.

  Thus, as shown in FIG. 6, when the switch portion 32 of the insulation switch 3 is removed and electrical insulation is secured, the mounting nut fixing the unit cover 2 is then removed.

  Here, a cross-sectional view of the unit cover 2 and the secondary battery 5 is shown in FIG. As shown in FIG. 7, the unit cover 2 is installed so as to be movable only in the upward direction by a stud bolt 71, and is fixed to the vehicle body by a mounting nut 72.

  In this way, the periphery of the unit cover 2 is fixed at a plurality of locations by the stud bolts 71 and the mounting nuts 72. By removing all the mounting nuts 72, the unit cover 2 can be removed upward.

  As described above, in the cover structure 1 of the electric system unit according to the present embodiment, the insulation switch 3 is installed at a position that restricts the movement of the unit cover 2 in the removal direction, and can be detached from the outside of the unit cover 2. Since the structure is attached and the insulation of the secondary battery 5 is secured by removing the insulation switch 3, the insulation of the secondary battery 5 can be secured just by removing the insulation switch 3 from the outside in an emergency. Therefore, the high power safety of the secondary battery 5 can be easily ensured in a short time without removing the unit cover 2. Since the unit cover 2 can be moved in the removal direction by removing the insulation switch 3, even if the nut 72 that fixes the unit cover 2 is removed during maintenance, the unit is not removed unless the insulation switch 3 is removed. When the cover 2 is not removed and maintenance is performed with the unit cover 2 removed, the high-power safety of the secondary battery 5 can be reliably ensured.

  Moreover, in the cover structure 1 of the electric system unit according to the present embodiment, the unit cover 2 is fixed by the stud bolt 71 so as to be movable only in the upward direction, and the opening 4 is provided on the side surface of the unit cover 2, so Is attached in a state of projecting to the outside through the opening 4, so that the unit cover 2 can be removed even if the nut 72 fixing the unit cover 2 is removed when the insulation switch 3 is attached. Cannot be removed upward or left / right. Therefore, it is possible to obtain a mechanism with a simple structure in which the unit cover 2 cannot be removed unless the insulation switch 3 is removed. This ensures the strong electrical safety of the secondary battery 5 when the unit cover 2 is removed during maintenance. can do.

  Furthermore, in the cover structure 1 of the electric system unit according to the present embodiment, since the insulation switch 3 includes a portion that restricts the movement of the unit cover 2 in the horizontal direction, in the state where the insulation switch 3 is mounted, Even if the nut 72 fixing the unit cover 2 is removed, the unit cover 2 cannot be removed in the horizontal direction, particularly in the rear of the vehicle. Therefore, it is possible to obtain a mechanism with a simple structure in which the unit cover 2 cannot be removed unless the insulation switch 3 is removed. This ensures the strong electrical safety of the secondary battery 5 when the unit cover 2 is removed during maintenance. be able to.

  In the case where a part of the insulation switch 3 is configured to limit the movement of the unit cover 2 in the horizontal direction as in the above embodiment, the fixing of the unit cover 72 is not limited to the stud bolt 71. The fixing may be performed by other fixing means (for example, a bolt or the like).

It is a perspective view which shows the structure of the cover structure of the electric system unit which concerns on Example 1. FIG. It is a perspective view which shows the state which removed the unit cover in the cover structure of the electric system unit which concerns on Example 1. FIG. FIG. 3 is a cross-sectional view for explaining the structure of the insulating switch according to the first embodiment. It is sectional drawing which shows the structure of the insulation switch and unit cover which concern on Example 1. FIG. It is sectional drawing for demonstrating the removal method of the insulation switch which concerns on Example 1. FIG. It is sectional drawing for demonstrating the removal method of the insulation switch which concerns on Example 1. FIG. FIG. 3 is a cross-sectional view illustrating a structure of a secondary battery and a unit cover according to the first embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electrical system cover structure 2 Unit cover 3 Insulation switch 4 Opening part 5 Secondary battery 31 Insulation switch body 32 Switch part 33 Lever 71 Stud bolt 72 Mounting nut

Claims (3)

A cover structure of an electric system unit including an electric system unit mounted on a vehicle, a unit cover that covers the electric system unit, and an insulation switch that ensures electrical insulation of the electric system unit,
The insulation switch is installed at a position that restricts movement of the unit cover in the removal direction, and is detachably attached to the electrical unit from the outside of the unit cover.
An electrical system unit cover structure characterized in that insulation of the electrical system unit is ensured by removing the insulation switch and the unit cover can be moved in the removal direction.   The unit cover is fixed so as to be movable only in the upward direction by a stud bolt attached to the vehicle side, and an opening is provided on a side surface, and the insulating switch protrudes outside through the opening. The cover structure for an electric system unit according to claim 1, wherein the cover structure is attached to the electric system unit. 3. The cover structure for an electric system unit according to claim 1, wherein the insulation switch has a portion that overlaps the unit cover in a horizontal direction.

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