JP2010245001A - Fuse unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuse unit, including a plurality of connecting portions electrically connected to each of a plurality of electronic devices, having wide range of application without varying the shape of the connecting portion even when connecting portions connected to electronic devices are exchanged. <P>SOLUTION: The fuse unit 1 includes: a bus bar 3 comprising a battery-side connecting portion 15, a plurality of device-side connecting portions 21A, 21B, 23A, and 23B, and two or more fusing portions 13A and 13B that electrically connect the battery-side connecting portion 15 to the device-side connecting portions 21A and 21B each other; and a body 7 which covers the bus bar 3 in such a manner that the bus bar 3 is exposed in the area of the connecting portions 15, 21A, and 21B on one side of the bus bar 3 and the bus bar 3 is exposed in the area of the 23A and 23B on the other side thereof. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a fuse unit, and more particularly to a fuse unit that is used in the vicinity of a battery terminal of an automobile or the like.

  FIG. 15 is a perspective view showing a schematic configuration of a conventional fuse unit 200, and FIG. 14 is a perspective view showing a schematic configuration of a bus bar 202 used in the fuse unit 200.

  The fuse unit 200 includes a bus bar 202, stud bolts 220 and 222, and a resin body 224.

  The bus bar 202 is connected to a battery-side plate-like portion 206 having a through-hole 204 for connecting to a battery, a device-side plate-like portion 210 having a through-hole 208 for connecting to an electric device, and another electric device. Device-side plate-like portion 214 having through-holes 212, fusible portion 216 electrically connecting battery-side plate-like portion 206 and device-side plate-like portion 210, battery-side plate-like portion 206, and device-side plate-like portion And a fusible portion 218 that is electrically connected to the portion 214.

  The stud bolts 220 and 222 are inserted into the respective through holes 208 and 212 of the bus bar 202, and in the inserted state, the bus bar 202 and the stud bolts 220 and 222 are insert-molded by the resin body 224. A unit 200 is formed.

  In the fuse unit 200, the through hole 204 of the battery side plate-like portion 206 and its peripheral portion, the bolt portions 220A and 222A of the stud bolts 220 and 222, and the fusible portions 216 and 218 are covered with the resin body 224. Exposed without leaving

  When the fuse unit 200 is used, a bolt portion of a battery terminal stud bolt (not shown) is inserted into the through hole 204 of the battery side plate-like portion 206, and the fuse unit 200 is fixed to the battery terminal stud bolt. Secure the stud bolt to the battery terminal. In this fixed state, the bus bar 202 (battery side plate-like portion 206) is connected and fixed to the battery terminal (not shown) via the battery terminal stud bolt.

  Moreover, the electric device is connected to the bus bar 202 (device-side plate-like portion 210) by installing a terminal of the electric device wiring on the bolt portion 220A of the stud bolt 220 and screwing a nut into the bolt portion 220A. The battery terminal and the electric device are electrically connected to each other via the fusible part 216. Similarly, the battery terminal and the other electric device are electrically connected to each other via the fusible portion 218.

  As patent documents relating to conventional fuse units, for example, Patent Document 1 and Patent Document 2 can be listed.

JP 2005-135791 A JP 2001-297683 A

  By the way, when the conventional fuse unit 200 is used, for example, the electric device connected to the bolt part 220A of the stud bolt 220 is connected to the bolt part 222A of the stud bolt 222 in accordance with the change of the vehicle type. The other electric device connected to the bolt part 222A of the stud bolt 222 may be connected to the bolt part 220A of the stud bolt 220 in reverse. That is, there is a case where each electric device connected to each bolt part 220A, 222A is desired to be replaced.

  However, the fuse unit 200 is used in a state in which the bolt portions 220A and 222A protrude upward, for example, and due to space restrictions around the fuse unit 200, the above-described electric device It may not be possible to replace it.

  In other words, even if the fuse unit 200 is turned upside down and the bolts 220A and 222A are used to protrude downward, the wiring of each electrical device is connected to the bolts 220A and 222A protruding downward. You may not be able to.

  Also, in the fuse unit 200, if the ratings of the fusible parts 216 and 218 are different from each other, the fuse unit 200 cannot be used as it is, and a bus bar in which the fusible parts 216 and 218 are replaced with each other can be used. There is a problem that it is necessary to manufacture separately, it is necessary to modify a mold for manufacturing a bus bar, or to manufacture it separately.

  The present invention has been made in view of the above problems, and in a fuse unit including a plurality of connection portions electrically connected to each of a plurality of electric devices, the connection portions to which the electric devices are connected are switched. Even if it is a case, it aims at providing the highly versatile fuse unit which can be used without changing a form.

  The invention according to claim 1 is made of a conductive material, and includes a battery side connection portion for connecting to a battery terminal, a plurality of device side connection portions for connecting to each of a plurality of electric devices, A bus bar having a plurality of fusible parts that electrically connect the battery side connection part and each device side connection part to each other, and an insulating material, and the bus bar on one side of the bus bar. And a body covering the bus bar so that the bus bar is exposed at each connecting portion and the bus bar is exposed at each connecting portion on the other side of the bus bar.

  According to a second aspect of the present invention, there is provided a battery-side plate-like portion made of a conductive material and provided with a battery-side through-hole for connecting to a battery terminal, and a first for connecting to a first electric device. A first device-side plate-like portion provided with a through-hole, a second device-side plate-like portion provided with a second through-hole for connecting to a second electric device, the battery-side plate-like portion, and the first A first fusible portion that electrically connects the device side plate-like portions to each other, and a battery-side plate-like portion and the second device-side plate-like portions that are electrically connected to each other. A bus bar having two fusible portions and an insulating resin material, and the bus bars are exposed at the through holes and their peripheral portions on one surface in the thickness direction of the plate-like portions. , Each through hole on the other surface in the thickness direction of each plate-like portion, and these The so busbar is exposed at the side portion, a fuse unit and a resin body covering the bus bar.

  According to a third aspect of the present invention, there is provided a flat battery-side plate-like portion made of a conductive material and provided with a battery-side through hole for connecting to a battery terminal, and a flat plate-like member in the thickness direction. The first through-holes are provided to connect to the first electric device in each of the flat plate-like opposing portions that are bent in the shape of a "U" and are opposed to each other in parallel. The first device-side plate-like portion and the plate-like member are bent in this thickness direction to form a “U” shape, and each of the plate-like facing portions facing each other in parallel is formed. Electrically connecting the second device-side plate-like portion having the second through-hole to connect to the second electric device, the battery-side plate-like portion, and the first device-side plate-like portion. First fusible part, battery side plate-like part and second device side plate-like part Between the opposing portions of the first apparatus-side plate-like part so that the first through-hole is connected to each other, and a bus bar having a second fusible part that is electrically connected to each other. A cylindrical first spacer provided between the opposing portions of the second device side plate-like portion so that the second through hole is connected to the cylindrical first spacer. The bus bar is exposed at the periphery of the battery-side through hole and the battery-side through hole on both sides in the thickness direction of the battery-side plate-like portion, and is composed of a spacer and an insulating resin material, The bus bar is exposed at the outer surface of each opposing portion of the first device side plate-like portion and around the first through hole and the first through hole, and the second device side plate-like portion The second through-hole and the second through-hole on the outer surface of each facing portion As the bus bar is exposed at the periphery of the hole, a fuse unit and a resin body covering the bus bar.

  According to a fourth aspect of the present invention, in the fuse unit according to the third aspect, the opposing portions of the first device-side plate-like portion are electrically connected to each other by a resistance adjusting portion or a soluble portion. Each of the opposing portions of the second device side plate-like portion is a fuse unit that is electrically connected to each other by a resistance adjusting portion or a soluble portion.

  According to a fifth aspect of the present invention, in the fuse unit according to any one of the second to fourth aspects, the rating of the first fusible portion and the rating of the second fusible portion are: The fuse units are different from each other.

  According to the present invention, in a fuse unit including a plurality of connection portions electrically connected to each of a plurality of electric devices, the configuration is changed even when the connection portions to which the electric devices are connected are switched. It is possible to provide a highly versatile fuse unit that can be used without any problems.

It is a perspective view which shows schematic structure of the bus-bar 3 used for the fuse unit 1 which concerns on embodiment of this invention. 1 is a perspective view showing a schematic configuration of a fuse unit 1. FIG. It is a perspective view which shows schematic structure of the bus-bar 3a which concerns on a modification. It is a perspective view which shows what changed the form of the bus-bar 3a shown in FIG. 3 slightly. It is a perspective view which shows schematic structure of the fuse unit 1b which uses the bus-bar 3b. It is VI arrow directional view in FIG. It is the perspective view which looked at the fuse unit 1b from the back side. It is a VIII arrow line view in FIG. It is a figure which shows the state which installed the stud 29 for battery terminals, and the wiring 29 to an electric equipment in the fuse unit 1b shown in FIG. It is a figure which shows the state which installed the stud 29 for battery terminals, and the wiring 29 to an electric equipment in the fuse unit 1b shown in FIG. It is sectional drawing of FIG. It is a figure which shows the state which installed the stud 29 for battery terminals, and the wiring 29 to an electric equipment in the fuse unit 1b shown in FIG. It is sectional drawing of FIG. It is a perspective view which shows schematic structure of the bus-bar 202 used for the conventional fuse unit 200. FIG. It is a perspective view which shows schematic structure of the conventional fuse unit 200. FIG.

  FIG. 1 is a perspective view showing a schematic configuration of a bus bar 3 used in a fuse unit 1 according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a schematic configuration of the fuse unit 1.

  A fuse unit (fusible link unit) 1 is used, for example, installed near a battery terminal of an automobile, and includes a bus bar 3, a spacer 5, and a resin body 7.

  The bus bar 3 includes a battery-side plate-like portion 9, a first device-side plate-like portion 11A, a second device-side plate-like portion 11B, a first soluble portion 13A, and a second soluble portion 13B. Yes. The bus bar 3 is formed, for example, by punching and bending a flat plate material (for example, a metal plate) having conductivity.

  The battery side plate-like portion 9 is formed in a flat plate shape and includes a circular battery-side through hole 15 for connecting the battery side plate-like portion 9 to a battery terminal (not shown). The battery side through-hole 15 penetrates the battery side plate 9 in the thickness direction at the center of the battery side plate 9.

  The first apparatus-side plate-like portion 11A is formed in a “U” shape (may be a “U” shape or the like) by bending a flat plate member in the thickness direction, and is formed mutually. Are provided with flat plate-like facing portions 17A and 19A that face each other in parallel. Each of the facing portions 17A and 19A is provided with a through hole 21A and 23A for connecting to a first electric device (not shown). The first electric device is a device that receives power from a battery in which the fuse unit 1 is used or supplies power from the battery.

  The second device-side plate-like portion 11B is also formed in the same manner as the first device-side plate-like portion 11A, includes the opposing portions 17B and 19B, and penetrates to connect to the second electric device (not shown). Holes 21B and 23B are provided.

  The first soluble portion 13A electrically connects the battery side plate-like portion 9 and the first device side plate-like portion 11A to each other. Further, when a current of a predetermined value or more flows between the battery-side plate-like portion 9 and the first device-side plate-like portion 11A, the first fusible portion 13A is melted by the heat of this current, and the battery-side plate-like shape It is a site | part which has a function as a fuse which interrupts | blocks the conductive path between the part 9 and the 1st apparatus side plate-shaped part 11A, and is formed in the thin width | variety.

  The second soluble portion 13B is configured in the same manner as the first soluble portion 13A, and electrically connects the battery side plate-like portion 9 and the second device side plate-like portion 11B to each other.

  The first spacer 5A (5) formed in a cylindrical shape has a through-hole (two through-holes formed facing each of the opposing portions 17A and 19A) of the first device-side plate-like portion 11A 21A. , 23A are provided between the facing portions 17A, 19A of the first device side plate-like portion 11A so as to be connected to each other. Note that, for example, a nut is used as the spacer 5A, but a cylindrical spacer in which an internal thread is not formed on the inner surface may be employed instead of the nut.

  The second spacer 5B (5) formed in a cylindrical shape is provided between the opposing portions 17B and 19B of the second device side plate-like portion 11B in the same manner as the first spacer 5A.

  The resin body 7 is made of a resin material having insulating properties. The fuse unit 1 is formed by insert molding the bus bar 3 on which the spacers 5A and 5B are installed to provide the resin body 7.

  Further, the bus bar 3 is exposed on both sides in the thickness direction of the battery-side plate-like portion 9 and in the periphery of the battery-side through-hole 15 and the battery-side through-hole 15, and each of the first device-side plate-like portions 11A is opposed to each other. The bus bar 3 is exposed on the outer surfaces of the portions 17A and 19A and at the peripheral portions of the first through holes 21A and 23A (including the inner wall of the spacer 5A) and the first through holes 21A and 23A. The bus bar 3 on the outer surface of each of the opposing portions 17B and 19B of the side plate-like portion 11B and around the second through holes 21B and 23B (including the inner wall of the spacer 5B) and the second through holes 21B and 23B. The resin body 7 covers the bus bar 3 so that is exposed.

  That is, on one surface in the thickness direction of the flat battery-side plate-like portion 9, the battery-side through-hole 15 and the peripheral portion of the through-hole 15 are not covered with resin, and the battery-side plate-like portion 9 is Exposed. Also, on the other surface in the thickness direction of the flat battery-side plate-like portion 9, the battery-side through hole 15 and the peripheral portion of the through-hole 15 are covered with resin in the same manner as the one surface. Instead, the battery side plate-like portion 9 is exposed.

  Moreover, in one opposing site | part 17A of each opposing site | part 17A, 19A of the 1st apparatus side plate-shaped part 11A, it penetrates in the surface of the thickness direction located in the opposite side to the other plate-shaped site | part 19A. The hole 21A and the periphery thereof are not covered with resin, and the first device side plate-like portion 11A (opposing portion 17A) is exposed. Similarly, in the other plate-shaped part 19A, the through hole 23A and its periphery are not covered with resin on the surface in the thickness direction located on the opposite side to the one facing part 17A. In addition, the first device side plate-like portion 11A (opposing portion 19A) is exposed.

  A part of the second device side plate-like portion 11B is exposed in the second device side plate-like portion 11B in the same manner as the first device side plate-like portion 11A.

  Moreover, in the fuse unit 1, the resin body 7 is provided so that three bus bars may be exposed in each of the fusible portions 13A and 13B and the periphery thereof.

  More specifically, the facing portion 17A of the battery side plate-like portion 9 and the first device side plate-like portion 11A, the facing portion 17B of the second device side plate-like portion 11B, and the soluble portions 13A and 13B are on one plane. The opposing part 19A of the first device side plate-like part 11A and the opposing part 19B of the second device side plate-like part 11B are located on another plane parallel to the one plane. ing. Further, the through holes 21A, 23A and the spacer 5A are arranged coaxially, and the through holes 21B, 23B and the spacer 5B are arranged coaxially, and each through hole 15, 21A, 23A is seen in plan view. Is located at the apex position of the triangle.

  In addition, the fuse unit 1 is generally formed in a plate shape, and on each side (both sides in the thickness direction) of the bus bar 3, each connecting portion (the above-described each through-hole 15) for connection to an electric device. , 21A, 23A, 21B, 23B and their surroundings) are exposed so that the fuse unit 1 can be turned over in the thickness direction and used.

  By the way, in the fuse unit 1, the rating of the first fusible portion 13A and the rating of the second fusible portion 13B are different from each other. That is, the current value when the first soluble portion 13A is dissolved differs from the current value when the second soluble portion 13B is dissolved.

  Next, a case where the bus bar 3 of the fuse unit 1 is deformed will be described.

  FIG. 3 is a perspective view showing a schematic configuration of a bus bar 3a according to a modification.

  The bus bar 3a shown in FIG. 3 is different from the bus bar 3 shown in FIG. 1 in that the connection mode between the facing parts 17A and 19A and the connection mode between the opposing parts 17B and 19B are different from those of the bus bar 3 shown in FIG. It is configured in the same manner as the bus bar 3.

  In the bus bar 3a shown in FIG. 3, the opposing portions 17A and 19A of the first device side plate-like portion 11A are electrically connected to each other only by a narrow resistance adjusting portion (which may be a soluble portion) 25A. Similarly, the opposing portions 17B and 19B of the second device side plate-like portion 11B are electrically connected to each other only by a narrow resistance adjusting portion (which may be a soluble portion) 25B. It is connected to the.

  In this case, when the spacer 5A is provided, the spacer 5A does not electrically connect the opposing portions 17A and 19A. For example, one end portion in the axial direction of the spacer 5A is in contact with one portion 17A of the opposing portions 17A and 19A, but the other end portion in the axial direction of the spacer 5A and each opposing portion 17A, An annular washer made of an insulating material is provided between the other portion 19A of 19A. The spacer 5A may be made of an insulating material without providing an insulating washer. The same applies when the spacer 5B is provided.

  The bus bar 3b shown in FIG. 4 is obtained by slightly changing the form of the bus bar 3a shown in FIG. 3, and is generally configured similarly to the bus bar 3a shown in FIG.

  The bus bar 3b shown in FIG. 4 is provided with plate-like portions 9, 11A, 11B, soluble portions 13A, 13B, resistance adjusting portions 25A, 25B, and through holes 15, 21A, 23A, 21B, 23B. ing.

  5 is a perspective view showing a schematic configuration of the fuse unit 1b using the bus bar 3b, FIG. 6 is a view taken along the arrow VI in FIG. 5, and FIG. 7 is a perspective view of the fuse unit 1b viewed from the back side. FIG. 8 is a view taken along arrow VIII in FIG.

  Similarly to the fuse unit 1, the fuse unit 1b is provided with spacers 5A and 5B and a resin body 7 and is formed in a substantially plate shape.

  FIG. 9 is a diagram showing a state in which the battery terminal stud bolt 27 and the wiring 29 to the electric device are installed in the fuse unit 1b shown in FIG.

  The battery terminal stud bolt 27 is made of a conductive material such as metal having a bolt portion 31 and a through hole 33. The bolt portion 31 is inserted into the through hole 15 and a nut (not shown) is screwed into the bolt portion 31. By combining, the fuse unit 1b is integrally installed. Further, by inserting a battery terminal (not shown) into the through hole 33 of the battery terminal stud bolt 27, the battery terminal stud bolt 27 and the fuse unit 1b are integrally installed in the battery (not shown). Has been.

  The wiring 29 is connected to one facing portion 17B provided on the second device side plate-like portion 11B of the bus bar 3b and the other facing portion 19B. In this connection, a bolt (not shown) is passed through the through holes 21B and 23B and the spacer 5B (not shown in FIG. 9), a nut 35 is screwed into the bolt, and each terminal of each wiring 29 is connected with the nut 35 and the bolt. 37 is sandwiched and fixed.

  In FIG. 9, the wiring 29 is not connected to the first device-side plate-like portion 11A, but the first device-side plate-like portion 11A is also connected to the first device-side plate-like portion 11A in the same manner as in the case of the second device-side plate-like portion 11B. Wiring may be connected.

  FIG. 10 is a diagram showing a state in which the battery terminal stud bolt 27 and the wiring 29 to the electric device are installed on the fuse unit 1b shown in FIG. 5 (the fuse unit 1b shown in FIG. 7 turned upside down). FIG. 11 is a cross-sectional view of FIG.

  The fuse unit 1b shown in FIG. 10 uses nuts for the spacers 5A and 5B. And the wiring 29 is connected to one opposing site | part 19A provided in 11 A of 1st apparatus side plate-shaped parts of the bus-bar 3b. That is, the terminal 37 of the wiring 29 is fixed to the first apparatus side plate-like portion 11A by the bolt 39.

  Also in the case shown in FIG. 10, wiring may be connected to the second device side plate-like portion 11B in the same manner as in the case of the first device side plate-like portion 11A.

  12 is a view showing a state in which the battery terminal stud bolt 27 and the wiring 29 to the electric device are installed in the fuse unit 1b shown in FIG. 5, and FIG. 13 is a cross-sectional view of FIG.

  In the fuse unit 1b shown in FIG. 12, the spacers 5A and 5B are cylindrical ones not formed with female threads.

  Similarly to the case shown in FIG. 9, the wiring 29 is connected to one opposing portion 17 </ b> A and one opposing portion 17 </ b> B provided on the first device side plate-like portion 11 </ b> A of the bus bar 3 b. In this connection, the bolt 40 is passed through the through holes 21A and 23A and the spacer 5A, the nut 41 is screwed into the bolt 40, and the terminal 37 of each wiring 29 is sandwiched and fixed between the nut 41 and the bolt 40. . In FIG. 12, the wiring 29 is also connected to the second device side plate-like portion 11B.

  According to the fuse unit 1b, each plate-like portion (battery side plate-like portion 9, each device-side plate-like portion 11A, 11B) has a through-hole 15, 21A, 21B on the one side in the thickness direction and its peripheral portion. The bus bar 3 (3a, 3b) is exposed, and the bus bar 3 (3a, 3b) is exposed at each of the through holes 15, 23A, 23B on the other side in the thickness direction of the plate-like portions and the peripheral portion thereof. Thus, since the resin body 7 covers the bus bar 3 (3a, 3b), there is no restriction on the front and back sides of the fuse unit 1 (1b) for connecting the electrical equipment, and the through holes 15, 21A, 23A, 21B, When replacing the electrical equipment connected to 23B, the fuse unit 1 (1b) may be turned over and used. Therefore, the fuse unit 1 (1b) can be used without changing the form of the fuse unit 1 (1b), and the versatility of the fuse unit 1 (1b) is increased. Moreover, since it is not necessary to change the metal mold | die for manufacturing a bus bar, or it is not necessary to manufacture separately, the manufacturing cost of the fuse unit 1 (1b) can be reduced.

  Further, according to the fuse unit 1b, the through holes 21A and 23A are provided in the respective facing portions 17A and 19A of the first device side plate-like portion 11A, and these through holes 21A and 23A are respectively provided in the facing portions 17A and 19A. Since the first device side plate-like portion 11A is thick, the rigidity is increased.

  In addition, in the case where a cylindrical through hole is formed by the spacer 5A provided between the facing portions 17A and 19A, as shown in FIG. 13, using a long bolt and nut, The terminal 37 of the wiring 29 of the electric equipment is installed in the through holes 21A and 23A. When a nut is used as the spacer 5A, as shown in FIG. 11, the bolt is used without using the nut separately. The terminal 37 of the wiring 29 of the electric device can be installed in the through holes 21A and 23A using only the case (a washer may be used if necessary), and the number of installation steps of the wiring of the electric device is reduced. The same applies to the second device side plate-like portion 11B.

  Further, according to the fuse unit 1b, the opposing portions 17A, 19A (17B, 19B) are electrically connected to each other by the resistance adjusting unit 25A (25B), so the first fusible portion 13A. The rating can be changed without changing the second fusible portion 13B.

  For example, in FIG. 3, the rating of the first soluble portion 13A is 30A, the rating of the second soluble portion 13B is 20A smaller than the rating of the first soluble portion 13A, and the soluble portion It is assumed that 25A is 20A smaller than the rating of the first fusible portion 13A, and the resistance adjusting portion 25B is a resistor. In that case, if the wiring of the electric device is connected to the facing portion 17A, it can be used with a rating of 30A, and if the wiring of the electric device is connected to the plate-like portion 17B, it can be used with a rating of 20A. Further, if the wiring of the electric device is connected to the plate-shaped part 19A, it can be used with a rating of 20A. If the wiring of the electric device is connected to the plate-shaped part 19B, the resistance adjusting portion (resistor) 25B exists. This makes it difficult for current to flow, and makes it difficult for the second soluble portion 13B to be cut. In this way, various electrical devices can be connected and used simply by changing the connection location to the electrical device.

  By the way, in the bus bar 3 shown in FIG. 1, the bus bar 3a shown in FIG. 3, and the bus bar 3b shown in FIG. May be.

  Then, the bus bars are exposed at the through holes 15, 21A, 21B on one side in the thickness direction of the plate-like parts 9, 11A (17A), 11B (17B) and their peripheral parts, and the plate-like parts 9, A resin body 7 that covers the bus bar may be provided so that the bus bar is exposed at the through holes 15, 21A, and 21B on the other side in the thickness direction of 11A (17A) and 11B (17B) and the periphery thereof. .

  By the way, the fuse units 1 and 1b described above include a battery-side connection portion that is made of a conductive member and is connected to a battery terminal, and a first electric that receives power from the battery or supplies power to the battery. A first device-side connection for connecting to the device; a second device-side connection for connecting to a second electrical device that receives power from the battery or supplies power to the battery; The first fusible part that electrically connects the battery side connection part and the first device side connection part to each other, and the battery side connection part and the second device side connection part. A bus bar having a second fusible part electrically connected to the bus bar, an insulating resin material, the connection parts on one side of the bus bar, and the other side of the bus bar. Wherein at each connecting part in, the so busbar is exposed, an example of a fuse unit having a resin body covering the bus bar.

  In this fuse unit, the resin body includes the battery side connection portion and its peripheral portion on one side of the bus bar, the battery side connection portion and its peripheral portion on the other side of the bus bar, and one of the bus bars. The first device side connecting portion and its peripheral portion on the side of the bus bar, the first device side connecting portion and the peripheral portion on the other side of the bus bar, and the second device on one side of the bus bar Side connection portion and the peripheral portion thereof, the second device side connection portion and the peripheral portion on the other side of the bus bar, the first soluble portion and the vicinity thereof, and the second soluble portion. The resin body is provided so that the bus bar is exposed at the portion and in the vicinity thereof. In addition, the first soluble portion and the second soluble portion have different ratings.

  The fuse unit 1 described above includes a plurality of battery-side connection portions for connection to battery terminals and a plurality of electrical devices for receiving power supplied from the battery or supplying power to the battery. And a plurality of fusible parts that electrically connect the battery side connection part and the device side connection parts to each other, and a bus bar made of a conductive member, The bus bar is configured so that the bus bar is exposed at each connection portion on one side of the bus bar, and the bus bar is exposed at each connection portion on the other side of the bus bar. 2 is an example of a fuse unit having a covering body.

  In this fuse unit, at least one of the soluble portions has a rating different from that of the soluble portion other than the single soluble portion.

DESCRIPTION OF SYMBOLS 1, 1b Fuse unit 3, 3a, 3b Bus bar 5, 5A, 5B Spacer 7 Resin body 9 Battery side plate-like part 11A, 11B Equipment side plate-like part 13A, 13B Soluble part 15 Battery side through-hole 17A, 19A, 17B, 19B Opposing part 21A, 23A, 21B, 23B Through hole 25A, 25B Resistance adjustment part (soluble part)

Claims (5)

A battery-side connection portion that is made of a conductive material and is connected to a battery terminal, a plurality of device-side connection portions that are connected to each of a plurality of electric devices, the battery-side connection portion, and the device-side sides A bus bar comprising a plurality of fusible parts electrically connecting the connecting parts to each other;
It is made of an insulating material, and covers the bus bar so that the bus bar is exposed at each connection portion on one side of the bus bar and the bus bar is exposed at each connection portion on the other side of the bus bar. With a body;
A fuse unit comprising: Composed of conductive material,
A battery side plate with a battery side through hole for connection to the battery terminal;
A first device-side plate-like portion having a first through-hole for connecting to the first electric device;
A second device-side plate-like portion having a second through-hole for connecting to a second electric device;
A first fusible portion that electrically connects the battery side plate-like portion and the first device side plate-like portion to each other;
A bus bar comprising a second fusible portion that electrically connects the battery side plate-like portion and the second device side plate-like portion to each other;
Consists of insulating resin material,
The bus bars are exposed at the through holes and their peripheral portions on one surface in the thickness direction of the plate-like portions,
In such a manner that the bus bars are exposed at the through holes and the peripheral portions thereof on the other surface in the thickness direction of the plate-like portions,
A resin body covering the bus bar;
A fuse unit comprising: Composed of conductive material,
A flat battery-side plate-like portion having a battery-side through-hole for connection to the battery terminal;
A flat plate member is bent in this thickness direction to form a “U” shape, and is connected to the first electric device at each of the flat plate-like opposing portions facing each other in parallel. Therefore, a first device side plate-like portion having a first through hole,
A flat plate-like member is bent in this thickness direction to form a “U” shape, and is connected to the second electrical device at each of the flat plate-like facing portions facing each other in parallel. Therefore, a second device side plate-like portion having a second through hole,
A first fusible portion that electrically connects the battery side plate-like portion and the first device side plate-like portion to each other;
A bus bar comprising a second fusible portion that electrically connects the battery side plate-like portion and the second device side plate-like portion to each other;
A cylindrical first spacer provided between the opposing portions of the first device-side plate-like portion so that the first through holes are connected to each other;
A cylindrical second spacer provided between the opposing portions of the second device-side plate-like portion so that the second through holes are connected to each other;
Consists of insulating resin material,
The bus bar is exposed at both sides in the thickness direction of the battery side plate-like portion and at the periphery of the battery side through hole and the battery side through hole,
The bus bar is exposed at the outer surface of each opposing portion of the first device side plate-like portion and at the periphery of the first through hole and the first through hole,
In such a manner that the bus bar is exposed at the outer surface of each opposing portion of the second device side plate-like portion and at the periphery of the second through hole and the second through hole,
A resin body covering the bus bar;
A fuse unit comprising: In the fuse unit according to claim 3,
The opposing parts of the first device side plate-like part are electrically connected to each other by a resistance adjustment part or a soluble part,
The fuse unit, wherein the opposing portions of the second device-side plate-like portion are electrically connected to each other by a resistance adjusting portion or a soluble portion. In the fuse unit according to any one of claims 2 to 4,
The fuse unit, wherein the rating of the first fusible part and the rating of the second fusible part are different from each other.

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