JP4163592B2 - Fuse unit - Google Patents

Description

  The present invention relates to a fuse unit, for example, a fuse unit connected to a battery of an automobile.

Conventionally, a fuse unit as shown in FIG. 9 has been disclosed (see, for example, Patent Document 1).
As shown in FIG. 9, the fuse unit 100 connects a battery 101 and a power supply electric wire 111, and includes a conductive metal plate-like fuse element 118 having fuses 114 and 116, and the fuse. The element 118 has an insulating resin body 117 formed by insert molding. The resin body 117 has a front divided body 113 and a rear divided body 115, and both the divided bodies 113 and 115 are bent at a right angle. A fuse 114 that connects the connecting portion 104 of the battery terminal 102 and the alternator terminal 107 is disposed in the front divided body 113. Four fuses 116 are arranged in parallel on the rear divided body 115, and four tab terminals 120 are formed at the tip (lower tip in FIG. 9).

  A battery terminal 102 is attached to a battery post 119 that is an electrode of the battery 101, and the fuse unit 100 engages the stud bolt 103 of the battery terminal 102 with the bolt insertion hole 104 a of the terminal connection portion 104 and tightens it with the nut 105. Connected. Further, the alternator terminal 106 and the starter motor terminal 107 are tightened and connected with a nut by engaging their insertion holes with stud bolts 110 protruding from the terminal connecting portions 108 and 109. The alternator terminal 106 and the starter motor terminal 107 are so-called terminals with electric wires, and the electric wires 111 are crimped and connected to a pair of crimping pieces 112. The fuse unit 100, the battery terminal 102, and the like are covered with a cover 121 from above to prevent entry of dust and moisture.

Therefore, when the fuse unit 100 is attached to the battery 101, the front divided body 113 is positioned horizontally on the upper surface of the battery 101, and the rear divided body 115 is vertically hung along the front surface 101a of the battery 101. .
Japanese Patent Laying-Open No. 2002-329457 (FIG. 9)

By the way, since the number of tab terminals 120 is insufficient, there are cases where two or more fuse units 100 are desired to be attached. In such a case, it is conceivable to arrange the fuse units 100 side by side along the side surface of the battery 101. In this case, the distance from the battery post 119 may be too long, or it may be difficult to arrange the fuse units 100 side by side in terms of space.
Therefore, it is conceivable that the fuse unit 100 is stacked and attached in a direction away from the battery 101.

  However, when the fuse unit 100 is stacked in a direction away from the battery 101, the state of the fuse 116 of the fuse unit 100 located in the foremost (upper side) can be visually recognized, but is attached to the battery 101 side (lower side). The fuse 116 of the fuse unit 100 is hidden behind the second fuse unit 100 and is not visible. For this reason, in order to check the state of the fuse 116 on the battery side, it takes time and effort, such as removing the fuse unit 116 attached to the front, or checking the fuse unit 116 after loosening the attachment. There is a problem that.

  The present invention has been made in view of the above-described problems, and its purpose is to determine the state of the fusible portion of the fuse unit attached to the battery side when the fuse units are stacked in a direction away from the battery. Another object of the present invention is to provide a fuse unit that can be easily viewed.

  In order to achieve the above-described object, the present invention includes a mounting portion that is attached to a battery post of a battery and has an arm having a predetermined length, a housing that is bent at a right angle from the arm and faces the battery side surface, and one end. Has a fuse body that is electrically connected to the battery post and the other end is enclosed in the housing and forms a wire connecting portion through the soluble portion, and opens in the front and rear in the housing. Each of the housings has a different cavity shape, and when the housings are stacked in a direction away from the battery, each soluble portion can be visually recognized.

  In the fuse unit configured as described above, when the attachment portion is attached to the battery post, the housing faces the side surface of the battery. At the same time, the attachment body and the fuse body contained in the housing are electrically connected to the battery, and the wire connection portion is formed in the housing via the fusible portion. Such a fuse unit can be stacked in a direction away from the battery, and when an excessive current flows, the fusible part melts to cut off the current and protect the electrical equipment. At this time, since the shape of the cavity containing the fusible part is changed for each housing, even if the fusible part of the fuse unit on the battery side and the fusible part on the front overlap, The soluble part can be easily visually recognized.

  According to the present invention, since the shape of the cavity is different for each housing, even if the fusible part of the fuse unit on the battery side overlaps with the fusible part of the front fuse unit, both fusible parts can be easily seen. become able to.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. 1 is an exploded perspective view showing a state in which a fuse unit according to the present invention is attached to a battery, FIG. 2 is a plan view of the fuse unit, FIG. 3 is a side view of the fuse unit, FIG. 4 is a front view of the fuse unit, and FIG. A is a plan view showing an example of a cavity provided in the housing of the fuse unit on the battery side and a cavity provided in the housing of the fuse unit on the front side, and (B) is a front view seen from the arrow direction in (A). FIG.

  FIG. 1 shows a case where two fuse units 10 a and 10 b according to the present invention are stacked in a direction away from the battery 11. Each of the fuse units 10a and 10b is attached to the battery post 12 as an electrode of the battery 11 and has mounting portions 20a and 20b having arms 21a and 21b having a predetermined length, and bent downward from the arms 21a and 21b at a right angle. The housing 30a, 30b facing the battery side surface 11a, one end of which is electrically connected to the battery post 12, and the other end is contained in the housing 30a, 30b and is a connector as a wire connecting portion via a soluble portion 41 And fuse bodies 40a and 40b forming 42.

  As shown in FIGS. 1 and 2, a battery terminal 13 is attached to the battery post 12. The stud bolt 13a of the battery terminal 13 includes a starter terminal 14a attached to the end of the starter wire 14 and a fuse unit 10a closest to the battery 11 (hereinafter referred to as "first fuse unit 10a"). The attaching part 20a is attached. One end of the fuse body 40a is exposed at the mounting portion 20a, and the fuse body 40a and the battery 11 are electrically connected by being fastened to the stud bolt 13a with a nut 15a.

In the mounting portion 20a of the first fuse unit 10a, two stud bolts 22a and 22b are provided on the upper surface of the fuse body 40. The stud bolt 22a is electrically connected with an alternator terminal 23a attached to the tip of an alternator electric wire 23 by a nut 15b. 10b ") is also secured with a nut 15b. In the mounting portion 20b of the second fuse unit 10b, the fuse body 40b is exposed and is electrically connected to the mounting portion 20a of the first fuse unit 10a. The stud bolt 22b is electrically connected to the battery post 12 via the fuse 23 so that a current exceeding a predetermined value does not flow.
Note that the cover 17 is attached to the attachment portion 20a and the stud bolts 22a and 22b from the upper side to prevent problems such as contact failure and short circuit due to adhesion of dust and moisture.

  As shown in FIGS. 1 and 3, the fuse bodies 40a, 40b are bent 90 degrees downward from the ends of the arms 21a, 21b of the mounting portions 20a, 20b, and are insulated so as to cover the fuse bodies 40a, 40b. Housings 30a and 30b made of resin are integrally formed. The length of the arms 21a and 21b, that is, the length from the attachment portion with the battery post 12 to the point where the arm 21a and 21b are bent down by 90 degrees is appropriately set depending on the thickness of the housings 30a and 30b. The lower ends of the housings 30a and 30b are opened, and the tips of the fuse bodies 40a and 40b are exposed in the openings to form a female connector 42. Therefore, by inserting the male connector 16 attached to the tip of the electric wire 15 connected to the electric device into the connector 42, electric power can be supplied.

  As shown in FIG. 4, when the first fuse unit 10a and the second fuse unit 10b have the same shape of the housings 30a and 30b and the shapes of the cavities 31a and 31b, both the housings 30a and 30ba cavities 31a, 31b completely overlaps. Therefore, when the fusible portions 41a and 41b are visually recognized from the front of the second housing 30b, the fuse 43a located in the first cavity 31a is replaced with the fuse 43b located in the cavity 31b of the second housing 30b. Therefore, the first soluble portion 41a cannot be visually recognized. Therefore, the housings 30a and 30b are provided with cavities 31a and 31b having different shapes.

  That is, as shown in FIG. 5A, the cavity 31a provided in the housing 30a of the first fuse unit 10a has a rectangular cross section with a normal size. On the other hand, in the cavity 31b provided in the housing 30b of the second fuse unit 10b, the rear side (left side in FIG. 5A) has the same width as the cavity 31a, but the front side (FIG. 5A). Inclined surfaces 32a and 32b that extend to the right side in FIG.

As described above, according to the above-described fuse units 10a and 10b, the front side of the second cavity 31b can be widened so as to be disposed inside the first cavity 31a through the cavity 31b as shown in FIG. The melted part 41a can be seen beside the fusible part 41b arranged in the second cavity 31b. Thereby, the state of the fuses 43a and 43b can be easily grasped.
As shown in FIG. 6, the same effect can be obtained even if the width is increased without providing the inclined surfaces 32a and 32b in the second cavity 31b.

  FIG. 7 shows another example of the shape of the first cavity 31a and the second cavity 31b. In the fuse units 10a and 10b described above with reference to FIGS. 5 and 6, the case where the first fusible portion 41a accommodated in the first cavity 31a is viewed through the second cavity 31b has been described. As shown in FIG. 3, the first soluble portion 41a can be visually recognized without passing through the second cavity 31b.

  That is, when there is a large gap 33 between the first housing 30a and the second housing 30b, or for the cavity 31a provided at the end of the housing 30a, the front of the cavity 31a is widened, As shown by an arrow in FIG. 7, the soluble portion 41a accommodated in the first cavity 31a can be visually recognized from between the first housing 30a and the second housing 30b.

  As mentioned above, according to fuse unit 10a, 10b mentioned above, the meltable part 41a arrange | positioned inside the 1st cavity 31a can be visually recognized by expanding the front side of the 1st cavity 31a, without letting the cavity 31b pass. Thereby, the state of the fuses 43a and 43b can be easily grasped.

The fuse units 10a and 10b of the present invention are not limited to the above-described embodiments, and appropriate modifications and improvements can be made.
For example, in the above-described fuse units 10a and 10b, the case where the two housings 30a and 30b are stacked in the direction away from the battery 11 has been described, but the present invention can also be applied to the case where three or more housings 30 are stacked.

  In the fuse units 10a and 10b described above, the shapes of the first cavity 31a and the second cavity 31b are different by changing the shapes of the cavities 31a and 31b provided in the housings 30a and 30b in the left-right direction. However, it is possible to change the shape of the cavities 31a and 31b in the vertical direction corresponding to the shape of the housings 30a and 30b. In this case, it is possible to visually recognize the first soluble portion 41a from the front upper and lower sides of the second housing 30b.

  In the above-described fuse units 10a and 10b, the case where the connector 42 is provided at the tip (lower end) of the housings 30a and 30b has been described. However, as in the fuse unit 10c shown in FIG. Instead, a terminal 44 for connecting the electric wire 15 by a screw 44a can be provided. In this case, it is limited to the fuse unit 10c stacked at the top so that the operation can be performed from the front, and the other fuse units 10a and 10b are fuses of the type to which the connector 16 can be connected from below as described above. A unit is good.

  The above-described changes in the shapes of the cavities 31a and 31b are merely examples, and can be variously changed according to the shape, arrangement, thickness, and the like of the housings 30a and 30b. Moreover, the shape of the cavities 31a and 31b is not limited to the same shape for each of the housings 30a and 30b, but may be different in the housings 30a and 30b.

It is a disassembled perspective view which shows the state which attaches the fuse unit which concerns on this invention to a battery. It is a top view of a fuse unit. It is a side view of a fuse unit. It is a front view of a fuse unit. (A) is a front view which shows an example of the change of the shape of a cavity, and a line of sight, (B) is a front view which shows the fuse seen from the line of sight line in (A). It is a top view which shows another example which shows the change of the shape of a cavity. It is a top view which shows another example which shows the change of the shape of a cavity. It is a front view which shows another example of a housing. It is a disassembled perspective view which shows the conventional fuse unit.

Explanation of symbols

10a, 10b Fuse unit 11 Battery 11a Battery side surface 12 Battery post 20a, 20b Mounting part 21 Arm 30a, 30b Housing 31a, 31b Cavity 40a, 40b Fuse body 41a, 41b Fusible part 42 Electric wire connection part

Claims (1)

A mounting portion attached to the battery post of the battery and having an arm of a predetermined length; a housing formed by bending at right angles from the arm and facing the side of the battery; and one end electrically connected to the battery post and the other The end has a fuse body that is enclosed in the housing and forms a wire connection part via a fusible part,
The cavity shape that opens in the front and rear in the housing and accommodates the fusible part is changed for each housing, and when the housing is stacked in a direction away from the battery, the fusible part can be visually recognized. Features a fuse unit.

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