JP2012209188A - Fuse unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fuse unit which achieves low cost and suppresses vibrations without complicating the assembly work.SOLUTION: A fuse unit 1 includes: a unit body 10 fixed to a battery post 3 of a battery 2 through a battery terminal 4; and a battery cover 20 attached to the unit body 10 and covering the unit body 10. A battery contact part 23 contacting with the battery 2 is provided at the battery cover 20.

Description

  The present invention relates to a fuse unit directly attached to a battery.

  A conventional fuse unit of this type is disclosed in Patent Document 1. As shown in FIG. 8, the fuse unit 100 is fixed to a battery post 102 of a battery 101 via a battery terminal 103. The fuse unit 100 includes a bus bar (not shown) that is a conductive metal plate, and an insulation protection portion 120 provided on the outer surface of the bus bar by insert molding.

  A bus bar (not shown) is selectively connected between the power supply connection portion to which the battery terminal 103 is connected, the external connection portion to which each external terminal is connected, and the power supply connection portion and each external connection portion. And an intervening soluble part. The fusible part is melted by overcurrent.

  The insulation protection part 120 substantially covers the outer surface of a bus bar (not shown) excluding the power supply connection part, each external connection part, and each soluble part. A fixture locking part 121 is assembled to the insulation protection part 120. A fixing member 122 is detachably provided on the fixture locking portion 121. The front end surface 122 a of the fixing member 122 is in contact with the side surface 101 b of the battery 101. The fixing member 122 can change the mounting position and can change the projecting dimension from the insulation protection part 120.

  The fuse unit 100 has a shape bent in an L shape, and is disposed along the upper surface 101 a and the side surface 101 b of the battery 101. Thereby, the fuse unit 100 is installed in the space around the battery 101.

  According to the above conventional example, the fuse unit 100 vibrates due to the vibration of the vehicle or the like. The vibration can be suppressed as compared with the case where it is done.

JP 2010-61814 A

  However, in the conventional example, it is necessary to separately manufacture the fixture locking portion 121 and the fixing member 122 as separate parts of the fuse unit 100, and it is necessary to perform an assembling operation of these parts. Therefore, there are problems that the manufacturing cost becomes high and the assembling work is troublesome.

  Therefore, the present invention has been made to solve the above-described problems, and an object of the present invention is to provide a fuse unit that can suppress vibration without complicating the assembly work at low cost.

  The present invention is a fuse unit including a unit main body fixed to a battery post of a battery via a battery terminal, and a battery cover attached to the unit main body and covering the unit main body, Is provided with a battery contact portion that contacts the battery.

  It is preferable that the battery contact portion is in surface contact with the side surface of the battery.

  It is preferable that the battery abutting portion is provided with a reinforcing rib that prevents bending deformation.

  According to the present invention, when the battery cover is attached to the fuse unit, the battery contact portion contacts the battery, and vibration can be suppressed as compared with the case where the battery post is supported only via the battery terminal. . Since the battery cover is a part that is originally attached to the fuse unit, it can be accommodated by a slight design change of the battery cover, so that the manufacturing cost is not increased and the assembly work is not complicated. As described above, vibration can be suppressed at low cost and without complicating the assembly work.

1 is a perspective view illustrating a state in which a fuse unit is mounted on a battery according to a first embodiment of the present invention. It is a perspective view which shows 1st Embodiment of this invention and shows the state before mounting | wearing with a battery cover. It is a perspective view which shows 2nd Embodiment of this invention and shows the state with which the fuse unit was mounted | worn with the battery. It is a perspective view which shows 2nd Embodiment of this invention and shows the state before mounting | wearing with a battery cover. It is a perspective view of the battery cover which showed 2nd Embodiment of this invention and was seen from the outer side. It is a perspective view of the battery cover which showed 2nd Embodiment of this invention and was seen from the inner side. It is a perspective view which shows 2nd Embodiment of this invention and shows the state which the fuse unit was mounted | worn with the battery from which magnitude | size differs, and the battery cover corresponding to this was assembled | attached. It is a side view which shows a prior art example and shows the state where the fuse unit is attached to the battery.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
1 and 2 show a first embodiment of the present invention. As shown in FIGS. 1 and 2, the fuse unit 1 is fixed to a battery post 3 of a battery 2 via a battery terminal 4. The fuse unit 1 includes a unit body 10 and a battery cover 20. The unit body 10 has a shape bent in an L shape, and is disposed along the upper surface 2 a and the side surface 2 b of the battery 2. Thereby, the fuse unit 1 is installed in the space around the battery 2.

  The unit body 10 includes a bus bar 11 that is a conductive metal plate, and an insulation protection portion 15 that is provided on the outer surface of the bus bar 11 by insert molding. The bus bar 11 includes a power supply connection portion 12 to which the battery terminal 4 is connected, a plurality of external connection portions (not shown) to which each external terminal is connected, a power supply connection portion 12 and each external connection portion ( A plurality of fusible portions (not shown) selectively interposed between them. Each soluble part (not shown) is melted by energization of overcurrent.

  The insulation protection part 15 substantially covers the outer surface of the bus bar 11 excluding the power supply connection part 12, each external connection part (not shown), and each soluble part (not shown). A cover guide portion (not shown) is provided on the side surface of the insulation protection portion 15.

  The battery cover 20 is made of an insulating synthetic resin material. The battery cover 20 is attached to the unit main body 10 by sliding fitting from above. The battery cover 20 includes an upper surface cover portion 21, a side surface cover portion 22 that hangs down from the upper surface cover portion 21, and a battery contact portion 23 that protrudes toward the battery 2 from below the side surface cover portion 22. .

  The upper surface cover portion 21 covers not only the unit body 10 but also the battery terminals 4 and the battery posts 3 from above. The upper surface cover portion 21 includes a fixed surface portion 21a and a lid portion 21c connected to the fixed surface portion 21a via a hinge portion 21b. The lid 21c protrudes toward the battery 2 from the fixed surface 21a. By setting the lid portion 21c to the open position, the battery post 3, the battery terminal 4, the power feeding connection portion 12, and the like can be exposed. The side cover part 22 covers the unit body 10 from the side. The battery cover 20 has an insulation function, a water resistance function, and the like of the fuse unit 1.

  The battery contact portion 23 has a flat plate shape. The front end side of the battery contact portion 23 is in contact with the side surface 2b of the battery 2 by surface contact when mounted on the unit body 10. The battery contact portion 23 is in contact with the side surface 2b orthogonal to the side surface on which the fuse unit 1 is disposed to face.

  In the above configuration, the fuse unit 1 vibrates due to the vibration of the vehicle or the like, but since the battery contact portion 23 of the battery cover 20 is in contact with the battery 2, it is supported only by the battery post 3 via the battery terminal 4. The vibration can be suppressed as compared with the case where it is.

  Since the battery unit 20 is provided with the battery contact portion 23 in the fuse unit 1, when the unit main body 10 can be used as it is when the battery unit 20 is attached to the battery 2 having a different size, the fuse unit 1 Vibration can be suppressed only by changing the form (see the modification of FIG. 7).

  Since the battery contact portion 23 is in contact with the side surface 2b of the battery 2 by surface contact, the battery contact portion 23 functions to prevent rotation of the fuse unit 1 around the battery post 3 (in the direction of the arrow A in FIG. 1). Yes.

(Second Embodiment)
3 to 6 show a second embodiment of the present invention. As shown in FIGS. 3 and 4, the fuse unit 1 of the second embodiment is fixed to the battery post 3 of the battery 2 via the battery terminal 4 as in the first embodiment. The fuse unit 1 includes a unit body 10 and a battery cover 20A.

  The unit main body 10 has a slightly different form from the first embodiment, but basically has the same configuration. Therefore, the same components as those in the first embodiment are denoted by the same reference numerals and description thereof is omitted.

  The battery cover 20A is slightly different from the first embodiment except for the battery contact portion 23. However, since the battery cover 20A has basically the same configuration, the same reference numerals are given to the same components as those in the first embodiment. Therefore, the description is omitted.

  The battery contact portion 23 is not a flat plate shape as in the first embodiment. The battery contact portion 23 includes a reinforcing base portion 23a extending downward from the side surface cover portion 22, a plate portion 23b protruding from the reinforcing base portion 23a toward the battery 2, and a tip of the plate portion 23b. Reinforcing ribs 23c that connect the reinforcing bases 23a as beam members are provided. The reinforcing rib 23c prevents the deformation of the plate portion 23b of the battery contact portion 23.

  The plate portion 23 b of the battery contact portion 23 is in contact with the side surface 2 b of the battery 2 by surface contact in the mounted state on the unit body 10. The battery contact portion 23 is in contact with the side surface 2b orthogonal to the side surface on which the fuse unit 1 is disposed to face.

  In the above configuration, the fuse unit 1 vibrates due to vehicle vibration or the like, but since the battery contact portion 23 of the battery cover 20A is in contact with the battery 2, it is supported only by the battery post 3 via the battery terminal 4. The vibration can be suppressed as compared with the case where it is.

  Since the battery contact portion 23 is in contact with the side surface 2b of the battery 2 by surface contact, the battery contact portion 23 has a function of preventing rotation with respect to the rotation of the fuse unit 1 around the battery post 3 (A arrow direction in FIG. 3). .

  Since the battery abutment portion 23 is provided with the reinforcing ribs 23c that prevent the bending deformation, it is possible to reliably prevent the rotation.

  FIG. 7 shows a modification in the second embodiment when the fuse unit 1 is mounted on a battery 2A having a different size. The fuse unit 1 uses the same unit body 10 as in the second embodiment, but the battery cover 20B has a different configuration.

  That is, the battery contact portion 23 of the battery cover 20B includes an extension arm portion 23d extending from the side cover portion 22 toward the side, a reinforcement base portion 23a fixed to the distal end of the extension arm portion 23d, and the reinforcement base portion 23a. Further, a plate portion 23b that protrudes closer to the battery 2A side, and a reinforcing rib 23c that connects the tip of the plate portion 23b and the reinforcing base portion 23a as a beam member are provided. By attaching the extension arm portion 23d, the form is changed so that the plate portion 23b contacts the side surface 2b of the battery 2A by surface contact.

  Thus, it is possible to deal with differences in the size, form, and the like of the battery 2A only by changing the form of the battery cover 20B without changing the form of the unit body 10 of the fuse unit 1.

DESCRIPTION OF SYMBOLS 1 Fuse unit 2,2A Battery 2b Side surface 3 Battery post 4 Battery terminal 10 Unit main body 20,20a, 20b Battery cover 23 Battery contact part 23c Reinforcement rib

Claims (3)

A fuse unit comprising a unit main body fixed to a battery post of a battery via a battery terminal, and a battery cover attached to the unit main body and covering the unit main body,
The fuse unit, wherein the battery cover is provided with a battery contact portion that contacts the battery. The fuse unit according to claim 1,
The fuse unit, wherein the battery contact portion is in contact with a side surface of the battery by surface contact. The fuse unit according to claim 1 or claim 2,
The fuse unit according to claim 1, wherein the battery contact portion is provided with a reinforcing rib for preventing bending deformation.

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