The present invention relates to a fuse unit to be used mainly for, for example, an electric circuit for an automobile, and relates particularly to a fuse unit in which a bus bar and a resin covering body are integrated by insert molding, and a method of manufacturing the fuse unit.
In the prior art, fuse units have been used to protect an electric circuit mounted in an automobile or the like and various electric components connected to the electric circuit. Specifically, when an unintended overcurrent flows in the electric circuit, a fusing portion fuses due to heat generated by overcurrent to protect the various electric components so as not to allow excess current to flow through the electric components.
There are various kinds of fuse units depending on the application, and, for example, the fuse unit described in Patent Literature 1 is used for connecting an on-board battery and electric wires supplying power to various electric components. In such an on-board fuse unit, there is a possibility that a bus bar is damaged by vibration of a vehicle body. Thus, a resin is poured and insert-molded in a state where the bus bar is disposed in a molding die, whereby the bus bar and a resin covering body are integrated to avoid damage of the bus bar due to vibration.
The fuse unit may be provided with a tuning fork terminal used for attaching an arbitrary fuse from the outside. Specifically, as shown in a bus bar 700 in
Here, a method of manufacturing a fuse unit 800 including the bus bar 700 will be described. First, the battery terminal plate 710 and the connection side terminal plate 720 which are in a state of being connected and integrated with each other, as shown in
As shown in
However, in order to insert and attach the blade-type fuse into and to the fuse connection terminal 730, the input side tuning fork terminal 731 and the output side tuning fork terminal 732 are required to be precisely aligned so as to face each other, and if the input side tuning fork terminal 731 and the output side tuning fork terminal 732 are slightly misaligned, it becomes difficult to insert the blade-type fuse. Accordingly, the operation of placing the output side tuning fork terminal 732 on the fixed side mold plate and aligning the position requires a high degree of accuracy, and a manufacturing work of the fuse unit is very troublesome. In addition, at the time of insert molding, it is necessary to prepare the output side tuning fork terminal 732 which is a separate part and to dispose the output side tuning fork terminal 732 on the mold plate, so that the number of components of the bus bar necessary for insert molding is increased corresponding to the output side tuning fork terminal 732.
Patent Literature 1: JP-A 2005-339965
Thus, the present invention provides a fuse unit, which reduces the number of components of a bus bar and eliminates alignment of tuning fork terminals, and a method of manufacturing the fuse unit.
A method of manufacturing a fuse unit according to the present invention is a method of manufacturing a fuse unit, which includes a bus bar including a battery terminal, a fuse connection terminal, and an external connection terminal and is manufactured by integrating the bus bar and a resin covering body by insert molding. In this manufacturing method, the fuse connection terminal is constituted of an input side tuning fork terminal connected to the battery terminal and an output side tuning fork terminal connected to the external connection terminal, the input side tuning fork terminal and the output side tuning fork terminal are connected by a joining portion so as to face each other, and the bus bar including the fuse connection terminal is integrated with the resin covering body by insert molding. After the insert molding, the joining portion is cut and removed through a cutting window of the resin covering body, which exposes the joining portion to the outside, and the input side tuning fork terminal and the output side tuning fork terminal are separated.
According to the above feature, since the bus bar in which the input side tuning fork terminal and the output side tuning fork terminal are connected so as to face each other is used, unlike the prior art, it is unnecessary to dispose a separate output side tuning fork terminal on a fixed side mold plate at the time of alignment, the number of components of the bus bar to be prepared at the time of insert molding is reduced, and furthermore, a mold used for manufacturing a single output side tuning fork terminal is unnecessary, so that manufacturing cost can be reduced.
Further, since the bus bar in which the input side tuning fork terminal and the output side tuning fork terminal are connected so as to face each other is manufactured by being integrated with the resin covering body by insert molding, unlike the prior art, it is unnecessary to precisely align the input side tuning fork terminal and the output side tuning fork terminal on the fixed side mold plate so as to face each other, and the manufacturing work of the fuse unit is facilitated. Furthermore, the joining portion can be easily cut and removed through the externally facing cutting window after insert molding.
In the method of manufacturing a fuse unit according to the present invention, the bus bar includes a plurality of the fuse connection terminals, and while the fuse connection terminals are in parallel to each other, base end portions of the input side tuning fork terminals are connected to integrate the fuse connection terminals.
According to the above feature, while the fuse connection terminals are in parallel to each other, the connecting portions of the base end portions are connected to integrate the fuse connection terminals, so that a positional relationship of the fuse connection terminals is not shifted during insert molding or other working process. Thus, a plurality of fuses can be reliably inserted into the fuse connection terminal.
A fuse unit according to the present invention includes a bus bar including a battery terminal, a fuse connection terminal, and an external connection terminal and in which the bus bar and a resin covering body are integrated. In this fuse unit, the fuse connection terminal is constituted of an input side tuning fork terminal connected to the battery terminal and an output side tuning fork terminal connected to the external connection terminal, the input side tuning fork terminal and the output side tuning fork terminal are connected by a joining portion so as to face each other, and the resin covering body includes a cutting window which exposes the joining portion to the outside. The joining portion is cut and removed to separate the input side tuning fork terminal and the output side tuning fork terminal.
According to the above feature, since the bus bar in which the input side tuning fork terminal and the output side tuning fork terminal are connected so as to face each other is used, unlike the prior art, it is unnecessary to dispose a separate output side tuning fork terminal on a fixed side mold plate at the time of alignment, the number of components of the bus bar to be prepared at the time of insert molding is reduced, and furthermore, a mold used for manufacturing a single output side tuning fork terminal is unnecessary, so that manufacturing cost can be reduced. Unlike the prior art, it is unnecessary to precisely align the input side tuning fork terminal and the output side tuning fork terminal on the fixed side mold plate so as to face each other, and the manufacturing work of the fuse unit is facilitated. Furthermore, the joining portion can be easily cut and removed through the externally facing cutting window after insert molding.
In the fuse unit according to the present invention, the bus bar includes a plurality of the fuse connection terminals, and while the fuse connection terminals are in parallel to each other, base end portions of the input side tuning fork terminals are connected to integrate the fuse connection terminals.
According to the above feature, while the fuse connection terminals are in parallel to each other, the connecting portions of the base end portions are connected to integrate the fuse connection terminals, so that a positional relationship of the fuse connection terminals is not shifted during insert molding or other working process. Thus, a plurality of fuses can be reliably inserted into the fuse connection terminal.
As described above, according to the fuse unit and the method of manufacturing the fuse unit according to the present invention, the number of components of the bus bar is reduced, and, at the same time, alignment of tuning fork terminals is eliminated.
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. The embodiment to be described below exemplify shapes and materials of respective members included in a fuse unit and will not be limited to the exemplified shapes and materials. In this specification, a “front/front side” is a side where a fuse connection terminal 130 protrudes in a front view of a bus bar 100 shown in
One end of the fuse connection terminal 130 is connected to the circuit portion 112, and the other end is connected to the external connection terminal 140. Thus, if an overcurrent flows from the power source side connected to the stud bolt hole 111 of the battery terminal 110, a fuse attached to the fuse connection terminal 130, which will be described later, fuses, so that a load connected to the external connection terminal 140 can be protected.
Next, a method of forming the bus bar 100 will be briefly described. First, a flat plate-like member formed of a conductive metal such as copper or its alloy and having a uniform thickness is punched out into a predetermined shape with a press machine or the like. Then, the battery terminal 110 is folded by approximately 90 degrees, and the input side tuning fork terminal 131 and the output side tuning fork terminal 132 of the fuse connection terminal 130 are also folded by approximately 90 degrees, whereby the bus bar 100 shown in
Next, a detailed configuration of the fuse connection terminal 130 will be described with reference to
A base end portion 135A of the input side tuning fork terminal 131A is connected to a base end portion 135B of an adjacent fuse connection terminal 130B by a joining portion 160A, and a base end portion 136A of the output side tuning fork terminal 132A is connected to the external connection terminal 140. Since the fuse connection terminal 130B is connected to an adjacent fuse connection terminal 130C by a joining portion 160B, a current from the circuit portion 112 can flow to the input side tuning fork terminal 131A. As will be described later, the current from the circuit portion 112 passes through the input side tuning fork terminal 131A and then through the fuse inserted into the fuse connection terminal 130A and flows from the output side tuning fork terminal 132A to the external connection terminal 140. The fuse connection terminals 130B and 130C are configured exactly the same as the fuse connection terminal 130A.
Next, a method of manufacturing a fuse unit 300 will be described with reference to
As shown in
In the resin covering body 200, cutting windows 220A having the same shape are respectively provided on both the front side and the back side of the joining portion 170A, and the joining portion 170 A is exposed to the outside through the cutting window 220A. A material constituting the resin covering body 200 is an insulating resin which is melted at the time of injection and then can be cooled and hardened.
Next, a method of cutting and removing the joining portion 170 will be described in detail with reference to
Consequently, all the joining portions 170 are cut and removed, so that the input side tuning fork terminal 131 and the output side tuning fork terminal 132 of each of the fuse connection terminals 130 are separated as shown in
As shown in
The respective blade-type fuses 500 can be similarly inserted into the fuse connection terminals 130B and 130C, and a load connected to the external connection terminal 140 corresponding to each of the fuse connection terminals 130 can be protected from an overcurrent. Further, since mounting portions 410 of the fuse box 400 are engaged with corresponding respective mounting holes 230 of the dent portion 210, the fuse box 400 is firmly mounted to the fuse unit 300.
As described above, according to the method of manufacturing the fuse unit 300 according to the present invention, the bus bar 100 in which the input side tuning fork terminal 131 and the output side tuning fork terminal 132 are connected so as to face each other is manufactured by being integrated with the resin covering body 200 by insert molding. Thus, unlike the prior art, it is unnecessary to precisely align the input side tuning fork terminal 131 and the output side tuning fork terminal 132 on the fixed side mold plate so as to face each other, and the manufacturing work of the fuse unit 300 is facilitated. Since the bus bar 100 in which the input side tuning fork terminal 131 and the output side tuning fork terminal 132 are connected so as to face each other is used, during insert molding or other working process, the input side tuning fork terminal 131 and the output side tuning fork terminal 132 are not deformed or not deviated from each other, so that occurrence of defective products can be prevented.
Further, unlike the prior art, it is unnecessary to dispose the separate output side tuning fork terminal 132 on a fixed side mold plate at the time of alignment, the number of components of the bus bar 100 to be prepared at the time of insert molding is reduced, and furthermore, a mold used for manufacturing the single output side tuning fork terminal 132 is unnecessary, so that manufacturing cost can be reduced.
It is necessary to cut and remove the joining portion 170 in order to separate the input side tuning fork terminal 131 and the output side tuning fork terminal 132 after insert molding; however, according to the method of manufacturing the fuse unit 300 according to the present invention, the joining portion 170 can be easily cut and removed through the externally facing cutting window 220 after the insert molding.
As shown in
As shown in
When it is desired to mount the fuse box 400, provided with a plurality of the blade-type fuses 500, to the fuse unit 300, it is necessary to provide a plurality of the fuse connection terminals 130, and at the time of insert molding, if the fuse connection terminals 130 are arranged in parallel such that the mutual positions of the fuse connection terminals 130 are not displaced, each of the blade-type fuses 500 can be inserted. According to the bus bar 100 of the present invention, while the fuse connection terminals 130 are connected in parallel to each other, the connecting portions 160 of the base end portions 135 are connected and integrated with each other, so that a positional relationship of the fuse connection terminals 130 is not shifted during insert molding or other working process. Thus, a plurality of the blade-type fuses 500 provided in the fuse box 400 can be inserted reliably.
Each of the connecting portions 160 connecting the fuse connection terminals 130 plays a role as a bus bar for flowing a current from the circuit portion 112 to the fuse connection terminals 130. Thus, it is unnecessary to remove the connecting portion 160 after insert molding, and the connecting portion 160 can be used as it is.
The fuse unit and the method of manufacturing the fuse unit according to the present invention are not limited to the above-mentioned embodiment, and various modifications and combinations can be performed within a range of claims and within a range of the embodiment. These modifications and combinations are also included in the range of rights.
Number | Date | Country | Kind |
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2016-076374 | Apr 2016 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2016/076546 | 9/9/2016 | WO | 00 |