JP5764006B2 - fuse - Google Patents

Description

  The present invention relates to a fuse that blows off when an overcurrent (a current equal to or higher than a rated value) is energized to cut off the energization.

  A conventional fuse of this type is disclosed in Patent Document 1. As shown in FIG. 6, the fuse 50 includes a bus bar 51 made of a conductive material and a low melting point metal 60. The bus bar 51 is made of copper. The bus bar 51 is provided with a narrow portion 52 having a smaller cross-sectional area than other portions. The bus bar 51 is integrally provided with a caulking piece portion 53 and a pair of damming portions 54. The low melting point metal (for example, tin) 60 is arranged so as to straddle the narrow portion 52 by the crimping piece portion 53. The low melting point metal 60 is fixed to the bus bar 51 by caulking and is welded to the bus bar 51. The pair of damming portions 54 are arranged at intervals on both outer sides of the low melting point metal 60. The pair of damming portions 54 are intended to dam the molten low melting point metal 60 from flowing in a wide range.

  In the above configuration, when an overcurrent is applied to the bus bar 51, the narrow portion 52 has a greater amount of Joule heat generation than other portions, the low melting point metal 60 is melted, and the melted low melting point metal 60 is the bus bar (copper). It diffuses into 51 and lowers the melting point of copper. As a result, the narrow portion 52 is fused.

JP 2010-92727 A

  However, in the conventional fuse 50, the low melting point metal 60 is used in addition to the bus bar 51 in order to realize a desired fusing characteristic, so that material costs, processing costs, and equipment costs are required. Further, since the low melting point metal 60 is welded to the bus bar 51, equipment for welding the low melting point metal 60 is required. From the above, there was a problem of high cost.

  Accordingly, the present invention has been made to solve the above-described problems, and an object thereof is to provide a low-cost fuse.

The present invention is formed from an electric wire, the electric wire is provided with a heat spot part having a smaller cross-sectional area than other parts, a heat radiating member is fixed to the electric wire at a place different from the heat spot part, and the heat radiating member Is a fuse characterized by being a terminal . The heat radiating member is preferably a heat radiating wire in addition to the terminal.

  It is preferable that the heat spot portion is provided at a central portion of the electric wire, and the heat dissipation member is fixed to both sides of the heat spot portion of the electric wire.

  According to the present invention, desired fusing characteristics can be realized with an electric wire and a low-cost heat radiating member, and a low melting point metal is not used as in the conventional example. Therefore, the material cost, processing cost, and equipment cost of the low melting point metal are not necessary, and the cost is low.

1 is a perspective view of a fuse according to a first embodiment of the present invention. 1 shows a first embodiment of the present invention, in which (a) is a plan view of a fuse, (b) is a front view thereof, and (c) is a side view thereof. It is the perspective view which showed 1st Embodiment of this invention and rolled the center location of the electric wire, and produced the heat spot part. FIG. 3 is a fusing characteristic diagram showing the first embodiment of the present invention. It is a perspective view of a fuse, showing a second embodiment of the present invention. It is a perspective view of the fuse of a prior art example.

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

(First embodiment)
1 to 4 show a first embodiment of the present invention. As shown in FIGS. 1 and 2, the fuse 1 </ b> A includes an electric wire 2 and two LA terminals 11 fixed to both ends of the electric wire 2 by caulking.

  The electric wire 2 is, for example, an annealed copper wire in which strands of a plurality of conductive materials are twisted and converged. The electric wire 2 is set to a predetermined length. A heat spot portion 3 having a smaller cross-sectional area than other portions is provided at the central portion of the electric wire 2. The heat spot part 3 is produced by rolling the central part of the electric wire 2. A heat radiating member 4 is fixed to both sides of the heat spot portion 3 of the electric wire 2. A joint terminal (terminal) is used as the heat dissipating member 4. The joint terminal is made of a material having good thermal conductivity. A portion where the joint terminal is fixed has a large heat capacity and a large surface area.

  Next, a method for manufacturing the fuse 1A will be described. An electric wire 2 in which strands of a plurality of conductive materials are twisted is used. First, using the bonder device, the central portion of the electric wire 2 is rolled to produce the heat spot portion 3 having a smaller cross-sectional area than the other portions (heat spot production step).

  Next, as shown in FIG. 3, the LA terminal 11 is fixed to both ends of the electric wire 2 by caulking.

  Next, as shown in FIG. 1, the joint terminals of the heat radiating member 4 are fixed to the both side portions of the heat spot portion 3 of the electric wire 2 by caulking. This completes it. In addition, you may coat | cover the outer periphery of the electric wire 2 except both ends with an insulating protective layer (not shown).

  The fusing characteristics of the fuse 1A manufactured as described above are as follows when compared with the electric wire W1 that is not processed and the electric wire W2 that does not have the heat spot portion 3 but has the heat dissipation member 4. As the electric wire 2, an electric wire that has a fusing characteristic in a rare short region (200% energization) within a standard without being processed is used. The fusing characteristic line of the unprocessed electric wire W1 is the W1 characteristic line of FIG. The electric wire W2 having only the heat radiating member 4 without the heat spot portion 3 has a large surface area where the air and the electric wire 2 are in contact with each other at the position where the heat radiating member 4 is fixed. . Thereby, compared with the electric wire W1 without a process, fusing time becomes late | slow in the all energization area | region of an overcurrent. The fusing characteristic line of the electric wire W2 having only the heat radiating member 4 is the W2 characteristic line of FIG. As a result, the fusing time is within the standard range except for the dead short region (600% energization), but the fusing time is slower than the standard in the dead short region (600% energization).

  Since the fuse 1A of the present invention has a larger amount of heat generation at the heat spot portion 3 than the electric wire W2 having only the heat radiating member 4, the fusing time particularly in a dead short region (600% energization) where the amount of heat generation increases. Becomes faster. Therefore, the fusing characteristic line of the fuse 1A of the present invention is the 1A characteristic line of FIG. Thereby, the fusing time in the dead short region (600% energization) is within the standard range. The fuse 1A of the present invention is capable of protecting at a fusing characteristic of 5 levels without a low melting point metal.

  As described above, the desired fusing characteristics can be realized by using the electric wire 2 and the heat dissipating member 4 which is lower in cost than the low melting point metal, and does not use the low melting point metal as in the conventional example. Therefore, the material cost, processing cost, and equipment cost of the low melting point metal are not necessary, and the cost is low.

  The heat spot portion 3 is provided in the center of the electric wire 2, and the heat radiating members 4 are provided on both sides of the heat spot portion 3 of the electric wire 2. Therefore, since the temperature rise is suppressed by heat radiation at both outer portions of the heat spot portion 3, the heat spot portion 3 is surely fused.

  The heat radiating member 4 uses a joint terminal. The joint terminal is a low-cost and easily available member, and can be easily fixed to the electric wire 2.

(Second Embodiment)
FIG. 5 shows a second embodiment of the present invention. As shown in FIG. 5, the fuse 1 </ b> B of the second embodiment is different in configuration of the heat dissipating member 4 </ b> A from that of the above embodiment. That is, the joint terminal (terminal) 4a and the heat radiating wire 4b are used as the heat radiating member 4A. One end side of the heat radiating wire 4b is fixed by being fastened together when the joint terminal 4a is caulked and fixed to the wire 2.

  Since the other configuration is the same as that of the first embodiment, the same components in the drawings are denoted by the same reference numerals and description thereof is omitted.

  In the second embodiment, similarly to the first embodiment, desired fusing characteristics can be realized by using the electric wire 2 and the heat radiating member 4A, and a low melting point metal is not used as in the conventional example. Therefore, the material cost, processing cost, and equipment cost of the low melting point metal are not necessary, and the cost is low.

In the second embodiment, since the heat radiating member 4A uses the joint terminal 4a and the heat radiating wire 4b, the heat radiating member 4A can also radiate heat from the surfaces of the joint terminal 4a and the heat radiating wire 4b. Good heat dissipation. The joint terminal 4 a and the heat radiating wire 4 b are low-cost, easily available members, and also a component combination that can be easily fixed to the wire 2.

1A, 1B Fuse 2 Electric wire 2a Wire 3 Heat spot part 4, 4A Heat radiation member 4a Joint terminal (terminal)
4b Heat radiation wire

Claims (3)

The electric wire is provided with a heat spot part having a smaller cross-sectional area than other parts, a heat radiation member is fixed to the electric wire at a place different from the heat spot part, and the heat radiation member is a terminal. fuse, characterized in that there. The fuse of claim 1 ,
The heat radiation member is a heat radiation wire in addition to the terminal . A fuse according to claim 1 or claim 2 , wherein
The fuse, wherein the heat spot portion is provided at a central portion of the electric wire, and the heat radiating member is fixed to both sides of the heat spot portion of the electric wire.

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