JP4436233B2 - Wiring board assembly method and press mold - Google Patents

Description

  The present invention relates to, for example, a wiring board assembling method for assembling a wiring board of an electrical connection box including a bus bar and a pair of insulating covers that accommodate the bus bar, and a press die used when assembling the wiring board.

  Various electronic devices are mounted on an automobile as a moving body. The above-described automobile has placed an electrical junction box at an appropriate place in order to supply electric power to the above-described electronic device. This electric junction box is also called a jackion block, a fuse block, a relay box, or the like.

  The electrical connection box described above includes a box body on which a fuse, a relay, a wire harness connector, and the like are mounted, and a wiring board accommodated in the box body. The wiring board includes a bus bar made of conductive sheet metal and the like, and a pair of insulating covers that accommodate most of the bus bar.

  In the wiring board, the above-described bus bar connects each terminal of the connector, the fuse and the relay to each other according to a predetermined pattern. The insulating cover described above prevents the bus bars from being electrically short-circuited. The electrical connection box described above supplies desired power to each electronic device described above by electrically connecting each wire of the wire harness, the fuse and the relay according to a predetermined pattern by the bus bar. It is like that.

  The above-described bus bar is obtained by subjecting a sheet metal or the like to a shearing process. The bus bar described above includes a plurality of conductive pieces that are insulated from each other (disposed at intervals) in order to connect each terminal of the connector described above to the fuse and the relay according to a predetermined pattern. . The conductive pieces are separated from each other and electrically insulated from each other when the sheet metal is sheared.

  The above-described wiring board is subjected to a shearing process on the above-described sheet metal and the like, and after positioning the conductive piece of the bus bar formed by the shearing process at a predetermined position of the above-described one insulating cover, the insulating covers are connected to each other. Fixed and assembled.

  The wiring board described above performs shearing on the above-described sheet metal and the like, and then positions the conductive piece of the bus bar formed by the shearing processing at a predetermined position of one insulating cover. For this reason, the above-described conventional method for assembling a wiring board requires positioning of a plurality of conductive pieces separated from each other on one insulating cover, which increases the time and labor required for assembly. The required time tended to be longer.

  Accordingly, an object of the present invention is to provide a wiring board assembling method and a press die that can reduce the labor required for assembling and shorten the time required for assembling.

In order to solve the above-mentioned problems and achieve the object, a method for assembling a wiring board according to claim 1 includes a bus bar obtained by subjecting a conductive sheet metal to a shearing process, and at least a part of the bus bar. In a method for assembling a wiring board comprising a pair of insulating covers sandwiched between each other, a first mold, a second mold provided in contact with and away from the first mold, While using a press die provided with a detachable die that is detachably attached to one of the first die and the second die and can hold both the sheet metal and the bus bar, the first die And the second mold are brought close to each other, the sheet metal positioned on the detachable mold is sandwiched between the molds, the shearing process is performed on the sheet metal, and the sheet metal is molded into the bus bar. Then, the bus bar is positioned on the removable mold with the pair of bus bars One insulating cover of the edge cover is overlapped, the one insulating cover and the bus bar are turned over, the other insulating cover is overlapped with the bus bar, and at least a part of the bus bar is interposed between the pair of insulating covers. The pair of insulating covers are fixed to each other by sandwiching them.

  According to a second aspect of the present invention, there is provided a wiring board assembly method comprising: a bus bar obtained by subjecting a conductive sheet metal to a shearing process; and a pair of insulating covers sandwiching at least a part of the bus bar between each other. In the assembling method of the wiring board provided, the first mold, the second mold provided so as to be able to contact with and separate from the first mold, the first mold and the second mold And a detachable mold that is detachable on one side and can hold both the sheet metal and the bus bar, and the detachable mold is used as the first mold and the second mold. A step of attaching to one of them, a step of placing the sheet metal on the detachable die attached to one of the first die and the second die, the first die and the first The two metal molds are brought close to each other, the sheet metal is subjected to shearing processing, and the sheet metal is attached to the bus bar. A step of molding, a step of covering the bus bar placed on the detachable mold with one insulating cover of the pair of insulating covers, a bus bar on the detachable mold and the one insulating cover, the one insulating cover The step of inverting so that the cover is sandwiched between the detachable mold and the bus bar, the step of covering the other insulating cover of the pair of insulating covers on the bus bar, and fixing the pair of insulating covers to each other And a step of performing.

  A wiring board assembly method according to a third aspect of the present invention is the wiring board assembly method according to the first or second aspect, wherein the pair of insulating covers are fixed to each other by thermal welding. It is said.

A press die according to a fourth aspect of the present invention is a wiring comprising a bus bar obtained by subjecting a conductive sheet metal to a shearing process, and a pair of insulating covers that sandwich at least a part of the bus bar between each other. In a press die used when assembling a board, a first die, a second die provided so as to be able to contact and separate from the first die, the first die, and the second die A detachable mold that can be detachably attached to one of the molds and can hold both the sheet metal and the bus bar, and the first mold and the second mold are brought close to each other, The sheet metal positioned between the molds on the detachable mold is sandwiched, and the sheet metal is subjected to the shearing process .

  A press die according to a fifth aspect of the present invention is the press die according to the fourth aspect, wherein the sheet metal and the bus bar and one of the pair of insulating covers are in communication with each other when they overlap each other. And the detachable mold penetrates into holes provided in the sheet metal and the bus bar and the one insulating cover, and the detachable mold includes the sheet metal, the bus bar and the one insulating cover. It is characterized by having a projection for positioning.

  According to the method for assembling the wiring board according to the first aspect of the present invention, after the sheet metal is subjected to shearing, one insulating cover is placed on the bus bar on the detachable mold. For this reason, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one.

  According to the method for assembling the wiring board according to the second aspect of the present invention, the sheet metal is subjected to shearing to form the sheet metal into the bus bar, and then one insulating cover is placed on the bus bar placed on the removable mold. . For this reason, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one.

  According to the method for assembling the wiring board according to the third aspect of the present invention, since the pair of insulating covers are fixed to each other by heat welding, in order to fix the pair of insulating covers, in addition to the pair of insulating covers, There is no need to provide parts.

  According to the press die of the present invention described in claim 4, since the detachable die can hold both the sheet metal and the bus bar, one insulating cover can be attached to the bus bar held by the detachable die. For this reason, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one.

  According to the press die of the present invention described in claim 5, the detachable die is provided with a protrusion for positioning the sheet metal and the bus bar and one of the insulating covers. For this reason, a bus bar and one insulating cover can be positioned on a removable type. Therefore, each conductive piece of the bus bar can be positioned on one insulating cover on the removable type.

  As described above, according to the first aspect of the present invention, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one. For this reason, it is possible to reduce the time and effort required to attach the bus bar to one insulating cover, and it is possible to shorten the time required to attach the bus bar to the one insulating cover.

  According to the second aspect of the present invention, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one. For this reason, it is possible to reduce the time and effort required to attach the bus bar to one insulating cover, and it is possible to shorten the time required to attach the bus bar to the one insulating cover.

  According to the third aspect of the present invention, since the pair of insulating covers are fixed to each other by thermal welding, it is not necessary to provide a component in addition to the pair of insulating covers in order to fix the pair of insulating covers. Therefore, an increase in the number of parts of the wiring board can be prevented, and an increase in the cost of the wiring board can be prevented.

  According to the fourth aspect of the present invention, it is not necessary to position the conductive pieces of the bus bars separated from each other by shearing on one insulating cover one by one. For this reason, it is possible to reduce the time and effort required to attach the bus bar to one insulating cover, and it is possible to shorten the time required to attach the bus bar to the one insulating cover.

  According to the fifth aspect of the present invention, each conductive piece of the bus bar can be positioned on one insulating cover on the removable type. For this reason, it is possible to reduce the effort required to attach the bus bar to one insulating cover, to reduce the time required to attach the bus bar to the one insulating cover, and to accurately position the bus bar to one insulating cover, A desired wiring board can be reliably assembled.

  Hereinafter, an embodiment of the present invention will be described with reference to FIGS. One embodiment of the present invention is a method of assembling the wiring board 6 of the electrical junction box 2 shown in FIG.

  As shown in FIG. 1, the electrical junction box 2 includes a box body 4, a connector block 5, and a pair of wiring boards 6. The box body 4 is formed in a box shape. The box body 4 is provided with a plurality of electrical component mounting portions 8 for mounting electrical components such as fuses 7a, fusible links 7b and relays 7c. In the illustrated example, the electrical component mounting portion 8 is provided on the upper portion of the box body 4.

  The connector block 5 is detachable from the box body 4. The connector block 5 is attached to the lower part of the box body 4 in the illustrated example. The connector block 5 includes a plurality of connector fitting portions 9 into which connectors of a wire harness (not shown) arranged in the automobile are fitted. Of course, the wire harness includes a plurality of electric wires and connectors attached to ends of the electric wires. A wire harness is routed in an automobile, and a connector is fitted to the connector fitting portion 9 of the connector block 5 of the electrical connection box 2 described above and a plurality of electronic equipment mounted on the automobile, so The electronic device and the electrical components such as the fuse 7a, fusible link 7b, and relay 7c of the electrical connection box 2 are electrically connected according to a predetermined pattern.

  The wiring board 6 is accommodated in the box body 4. Each of the wiring boards 6 includes at least a bus bar 3. As shown in FIGS. 2 and 4, one of the pair of wiring boards 6 located on the back side in FIG. 1 (hereinafter denoted by reference numeral 6a) is the bus bar 3 (hereinafter denoted by reference numeral 3a). And a pair of insulating covers 10. Further, the other wiring board 6 (hereinafter, indicated by reference numeral 6b) located on the front side in FIG. 1 of the pair of wiring boards 6 includes only the bus bar 3 (hereinafter indicated by reference numeral 3b). .

  The bus bars 3a and 3b are made of a conductive sheet metal 11 (shown in FIG. 6), and are obtained by subjecting the sheet metal 11 to a pressing process such as a punching process. As shown in FIGS. 3 to 5, the bus bar 3 a includes a plurality of conductive pieces 12 that are separate from each other. The conductive piece 12 is obtained by punching (shearing) a part of the sheet metal 11 described above. Each of the conductive pieces 12 is formed into a desired strip shape or a linear strip shape.

  The conductive piece 12 is formed by integrating a conductive piece main body 13 located near the center of the wiring board 6a and a plurality of terminal portions 14 provided on both edges of the conductive piece main body 13 located above and below in FIG. I have. The conductive piece 12 includes at least one terminal portion 14 described above. The terminal portion 14 is formed flush with the conductive piece main body 13. The terminal portion 14 is located in the electrical component mounting portion 8 and the connector fitting portion 9 when the wiring board 6 a is accommodated in the box body 4. The terminal portion 14 is connected to the above-described fuse 7a, fusible link 7b, relay 7c, and connector terminal. Further, a hole 15 is provided in a part of the plurality of conductive pieces 12.

  The insulating covers 10 are each made of an insulating synthetic resin and are formed in a flat plate shape. The insulating cover 10 electrically insulates the bus bars 3a and 3b from each other. Of the pair of insulating covers 10, one insulating cover 10 (hereinafter denoted by reference numeral 10 a) on the front side in FIGS. 2 and 4 has a hole in the bus bar 3 a when the bus bar 3 a overlaps the one insulating cover 10 a. 15 is provided, which is in communication with 15. Of course, the hole 16 penetrates one insulating cover 10a.

  2 and 4, the other insulating cover 10 (hereinafter, denoted by reference numeral 10 b) in FIG. 2 and FIG. 4 includes a hole 15 of the bus bar 3 a and a hole 16 of the one insulating cover 10 a. The boss 17 that can enter both of these is provided. The boss 17 is erected from the other insulating cover 10b described above. The boss 17 described above enters the holes 15 and 16 to position the bus bar 3a and the pair of insulating covers 10a and 10b relative to each other.

  Further, when the boss 17 enters the holes 15 and 16, the tip of the boss 17 protrudes from the one insulating cover 10a. The tip of the boss 17 is crushed by being pressed by a heated caulking tool 18 (shown in FIG. 22) in a state of entering the above-described holes 15 and 16 and protruding from one insulating cover 10a. Thus, the pair of insulating covers 10a and 10b are fixed. In this way, the pair of insulating covers 10a and 10b are fixed to each other by so-called heat caulking, that is, heat welding.

  One wiring board 6a of the pair of wiring boards 6a, 6b has the conductive piece main body 13 of the conductive piece 12 of the bus bar 3a sandwiched between the pair of insulating covers 10a, 10b. The terminal portion 14 of the bus bar 3a of the one wiring board 6a described above is exposed outside the pair of insulating covers 10a and 10b without being sandwiched between the pair of insulating covers 10a and 10b. Therefore, the pair of insulating covers 10a and 10b sandwich at least a part of the bus bar 3a between each other.

  The other wiring board 6b includes only the bus bar 3b described above, and the bus bar 3b is exposed. As shown in FIG. 1, the bus bar 3 b is integrally provided with a flat bus bar body 30 and the plurality of terminal portions 14 described above. The terminal portion 14 is provided on the edge of the bus bar body 30 that is positioned up and down in FIG. The terminal portion 14 is formed flush with the bus bar main body 30. The terminal portion 14 is located in the electrical component mounting portion 8 and the connector fitting portion 9 when the other wiring board 6 b is accommodated in the box body 4. The terminal portion 14 is connected to the above-described fuse 7a, fusible link 7b, relay 7c, and connector terminal.

  When the wiring boards 6a and 6b having the above-described configuration are accommodated in the box body 4, the terminal portion 14 described above is connected to the terminals of the fuse 7a, the fusible link 7b and the relay 7c, and the terminals of the connector of the wire harness. . Thus, the wiring boards 6a and 6b, that is, the electrical junction box 2, electrically connect electrical components such as the fuse 7a, the fusible link 7b, and the relay 7c and the electric wires of the wire harness according to a predetermined pattern. .

  The bus bar 3a having the above-described configuration is formed into a sheet metal 19 shown in FIG. 7 by subjecting the sheet metal 11 having a rectangular planar shape shown in FIG. 7 is obtained by subjecting a sheet metal 19 shown in FIG. 7 to a shearing process such as a punching process or a bending process (also referred to as a press process). The sheet metal 19 shown in FIG. 7 includes a plurality of conductive pieces 12 described above, a frame portion 20 surrounding the plurality of conductive pieces 12 described above, and a connecting piece connected to the conductive pieces 12 or connected to the conductive pieces 12 and the frame portion 20. 21. The sheet metal 19 is formed by removing portions other than the conductive piece 12, the frame portion 20, and the connecting piece 21 from the above-described sheet metal 11. Further, the above-described hole 15 is formed in the sheet metal 19.

  The above-described sheet metal 19 shown in FIG. 7 is molded into the above-described bus bar 3 a by removing the frame portion 20 and the connecting piece 21 from the sheet metal 19. As described above, the bus bar 3a is obtained by subjecting the metal plates 11 and 19 shown in FIGS. 6 and 7 to press processing such as shearing at least once. The metal plates 11 and 19 formed on the bus bar 3a in the present invention indicate both the flat metal plate 11 as a raw material other than the finished bus bar 3a and the intermediate product metal plate 19.

  The above-described bus bar 3a is assembled to the wiring board 6a by removing unnecessary portions from the sheet metal 19 shown in FIG. 7 and attaching a pair of insulating covers 10a and 10b by using the press device 1 shown in FIG. It is done.

  As shown in FIG. 8, the press apparatus 1 includes an apparatus main body (not shown), a slide base (not shown), a press machine (not shown), and a press die 22.

  The device body is installed on the floor of the factory. The slide base is movably supported by the apparatus main body along the horizontal direction. The press machine is disposed above the slide base and the like, and raises and lowers an upper mold 24 (described later) of the press mold 22 to bring the upper mold 24 into and out of contact with the lower mold 23.

  As shown in FIG. 8, the press die 16 includes a lower die 23 as a first die, an upper die 24 as a second die, and a detachable die 25. The lower mold 23 is made of metal and is formed in a thick flat plate shape. The lower mold 23 is attached to the upper surface of the slide base. The lower mold 23 is movable along the horizontal direction over a machining position that is positioned below the upper mold 24 and is opposed to the upper mold 24 and a work position that exits from below the upper mold 24. In addition, on the upper surface of the lower mold 23, an attachment / detachment portion 26 that allows the attachment / detachment mold 25 to be attachable / detachable is provided.

  The upper mold 24 is made of metal and is formed in a thick flat plate shape. The upper mold 24 is disposed above the lower mold 23 at the processing position described above. The upper die 24 is provided so as to be movable up and down, that is, to be freely contacted and separated from the lower die 23 at the processing position by the press machine described above. In addition, contact / separation means approaching / separating each other. The upper mold 24 approaches the lower mold 23, sandwiches the above-described sheet metal 19 between the lower mold 23, removes the frame portion 20 and the connecting piece 21 of the sheet metal 19, and attaches the sheet metal 19 to the bus bar 3a. Mold.

  Further, the upper mold 24 includes a recess 27 that follows the outer shape of the removable mold 25. The recess 27 is, of course, formed as a recess from the surface facing the lower mold 23 of the upper mold 24. The dent 27 prevents the detachable mold 25 from being damaged by causing the detachable mold 25 or the like to enter inside when the lower mold 23 and the upper mold 24 approach each other.

  As shown in FIG. 8, the detachable mold 25 includes a thick flat plate-like main body portion 28 and a plurality of protrusions 29 erected from the main body portion 28. The body portion 28, that is, the detachable die 25 is attached to the detachable portion 26 of the lower die 23.

  The protrusion 29 is formed in a columnar shape and is erected from the main body portion 28 toward the upper mold 24. The protrusion 29 is arranged at a position corresponding to the boss 17 of the other insulating cover 10b described above, that is, the hole 16 of the one insulating cover 10a and the hole 15 of the bus bar 3a. The protrusion 29 penetrates into the hole 15 of the sheet metal 19, the hole 15 of the bus bar 3 a molded from the sheet metal 19 and the hole 16 of the one insulating cover 10 a described above, and the sheet metal 19, the bus bar 3 a and one of the insulating members described above. The cover 10a is positioned on the main body 28, that is, the detachable mold 25.

  The above-described removable mold 25 holds the above-described sheet metal 19, bus bar 3 a and one insulating cover 10 a by inserting the above-described protrusions 29 into the holes 15 and 16 and positioning them on the main body 28. The above-described detachable mold 25 allows the above-described lower mold 23 and the upper mold 24 to approach each other with the sheet metal 19 positioned on the surface, and allows the sheet metal 19 to be sheared.

  Using the press device 1 described above, the above-described sheet metal 19 is subjected to shearing to form the sheet metal 19 into the bus bar 3a, and the above-described one wiring board 6a is assembled as follows. At this time, as shown in FIG. 9, the above-described slide base, that is, the lower die 23 is positioned at the working position, and the detachable die 25 is removed from the lower die 23. Further, the above-described upper mold 24 is raised.

  Then, in step S1 in FIG. 24, as shown in FIG. 10, the detachable mold 25 is attached to the detachable portion 26 of the lower mold 23 in the aforementioned working position, and the process proceeds to step S2. Thus, in step S <b> 1, the detachable mold 25 is set on the lower mold 23. Step S1 includes a step of attaching the detachable die 25 described in this specification to one of the first die and the second die.

  In step S2, as shown in FIG. 11, the sheet metal 19 is positioned on the main body 28, that is, the detachable mold 25 through the projection 29 in the hole 15 of the sheet metal 19, and the process proceeds to step S3. Thus, in step S2, the sheet metal 19 is set (placed) on the detachable mold 25. Step S2 includes a step of placing the sheet metal 19 described in the present specification on the detachable mold 25 attached to one of the first mold and the second mold.

  In step S3, first, as shown in FIG. 12, the above-described slide base, that is, the lower mold 23 is moved to the above-described processing position. Then, as shown in FIG. 13, the press machine lowers the upper mold 24 to bring the lower mold 23 and the upper mold 24 close to each other, and the sheet metal is placed between the lower mold 23, the upper mold 24 and the removable mold 25 described above. The frame 20 and the connecting piece 21 are removed from the sheet metal 19 with the sheet 19 interposed therebetween, and the sheet metal 19 is molded into the bus bar 3a. Thus, the lower mold 23 and the upper mold 24 are brought close to each other, the sheet metal 19 is subjected to a shearing process, and the sheet metal 19 is molded into the bus bar 3a.

  Further, as shown in FIG. 14, the upper die 24 is raised by the press, the lower die 23 and the upper die 24 are separated from each other, and the process proceeds to step S4. In step S3, the first metal mold and the second metal mold described in the present specification are brought close to each other, the sheet metal 19 is subjected to shearing, and the sheet metal 19 is molded into the bus bar 3a.

  In step S4, first, as shown in FIG. 15, the slide base, that is, the lower mold 23 is moved to the aforementioned working position for each detachable mold 25. Then, as shown in FIG. 16, unnecessary portions such as the frame portion 20 and the connecting piece 21 described above are removed from the lower mold 23. Then, as shown in FIG. 17, the one insulating cover 10a is put on the bus bar 3a on the detachable mold 25 so that the protrusion 29 enters the hole 16, and the process proceeds to step S5. Step S4 includes a step of covering one of the pair of insulating covers 10a and 10b on the bus bar 3a placed on the detachable mold 25 described in the present specification.

  In step S5, as shown in FIG. 18, the bus bar 3a on the detachable mold 25 and one insulating cover 10a are turned over. At this time, of course, the protrusions 29 are inserted into the holes 15 and 16, and the one insulating cover 10a and the bus bar 3a are positioned on the removable mold 25. Further, one insulating cover 10a and the bus bar 3a are sequentially placed on the detachable mold 25, that is, one insulating cover 10a is sandwiched between the detachable mold 25 and the bus bar 3a. Then, the process proceeds to step S6. Step S5 is a step of inverting the bus bar 3a on the detachable mold 25 and the one insulating cover 10a described in this specification so that the one insulating cover 10a is sandwiched between the detachable mold 25 and the bus bar 3a. I am doing.

  In step S6, as shown in FIG. 19, the detachable mold 25 is detached from the lower mold 23, and the process proceeds to step S7. In step S7, as shown in FIG. 20, the other insulating cover 10b is overlapped on the bus bar 3a on the detachable mold 25 so that the protrusion 29 and the boss 17 overlap. Then, as shown in FIG. 21, the bus bar 3a and the one insulating cover 10a are brought closer to the other insulating cover 10b so that the boss 17 is inserted into the holes 15 and 16. Thus, the other insulating cover 10b is placed on the bus bar 3a on the detachable mold 25, and the process proceeds to step S8. Step S7 includes a step of covering the bus bar 3a described in this specification with the other insulating cover 10b of the pair of insulating covers 10a and 10b.

  In step S8, first, as shown in FIG. 22, the boss 17 of the other insulating cover 10b is projected from the one insulating cover 10a. Then, the heated caulking tool 18 is pressed against the tip of the boss 17 protruding from the one insulating cover 10a described above. Then, the tip of the boss 17 is melted and crushed. Thus, as shown in FIG. 23, the pair of insulating covers 10a and 10b are fixed to each other by heat caulking or heat welding, and the wiring board 6a having the above-described configuration is assembled. In this way, in step S8, the insulating covers 10a and 10b are fixed. Step S8 is a step of fixing the pair of insulating covers 10a and 10b described in this specification.

  Thus, in this embodiment, the sheet metal 19 positioned on the detachable mold 25 is subjected to shearing to mold the sheet metal 19 into the bus bar 3a. Thereafter, one of the pair of insulating covers 10a and 10b is overlapped with the bus bar 3a positioned on the detachable mold 25. One insulating cover 10a and the bus bar 3a are turned over, the other insulating cover 10b is further overlapped with the bus bar 3a, and at least a part of the bus bar 3a is sandwiched between the pair of insulating covers 10a and 10b. Then, the pair of insulating covers 10a and 10b are fixed to each other to assemble the wiring board 6a described above.

  According to the present embodiment, after the sheet metal 19 is subjected to a shearing process, one insulating cover 10 a is overlaid on the bus bar 3 a on the detachable mold 25. For this reason, it is not necessary to position the conductive pieces 12 of the bus bar 3a, which are separated from each other by shearing, on the one insulating cover 10a one by one. For this reason, it is possible to reduce the time and effort required for attaching the bus bar 3a to one insulating cover 10a, and it is possible to shorten the time required to attach the bus bar 3a to the one insulating cover 10a. Accordingly, it is possible to reduce the time and labor required for assembling the wiring board 6a and shorten the time required for assembling the wiring board 6a.

  Since the pair of insulating covers 10a and 10b are fixed to each other by thermal welding, it is not necessary to provide components in addition to the pair of insulating covers 10a and 10b in order to fix the pair of insulating covers 10a and 10b. Therefore, an increase in the number of parts of the wiring board 6a can be prevented, and an increase in the cost of the wiring board 6a can be prevented.

  Since the detachable mold 25 can hold both the sheet metal 19 and the bus bar 3 a, one insulating cover 10 a can be attached to the bus bar 3 a held by the detachable mold 25. For this reason, it is not necessary to position the conductive pieces 12 of the bus bar 3a, which are separated from each other by shearing, on the one insulating cover 10a one by one. Accordingly, it is possible to reduce the time and labor required for assembling the wiring board 6a and shorten the time required for assembling the wiring board 6a.

  The detachable mold 25 is provided with a projection 29 for positioning the sheet metal 19 and the bus bar 3a and one insulating cover 10a. For this reason, the bus bar 3a and the one insulating cover 10a can be positioned on the detachable mold 25. Therefore, each conductive piece 12 of the bus bar 3a can be positioned on the one insulating cover 10a on the detachable mold 25. For this reason, it is possible to reduce the time and effort required for attaching the bus bar 3a to one insulating cover 10a, to reduce the time required to attach the bus bar 3a to the one insulating cover 10a, and to accurately apply the one insulating cover 10a to the one insulating cover 10a. The bus bar 3a can be positioned, and a desired wiring board 6a can be reliably assembled.

  In the embodiment described above, the detachable mold 25 is attached to the lower mold 23. However, in the present invention, the detachable die 25 may be attached to the upper die 24. The pair of insulating covers 10a and 10b are fixed to each other by so-called heat caulking as the above-described heat welding. However, in the present invention, the pair of insulating covers 10a and 10b may be fixed by so-called ultrasonic welding as the above-described thermal welding.

  In addition, embodiment mentioned above only showed the typical form of this invention, and this invention is not limited to embodiment. That is, various modifications can be made without departing from the scope of the present invention.

It is a perspective view which decomposes | disassembles and shows the electrical-connection box provided with the wiring board obtained by the assembly method which concerns on one Embodiment of this invention. It is a perspective view which shows the wiring board of the electrical-connection box shown by FIG. FIG. 3 is a plan view of the wiring board shown in FIG. 2. FIG. 3 is an exploded perspective view of the wiring board shown in FIG. 2. It is a top view of the bus bar of the wiring board shown by FIG. It is a top view which shows the sheet metal as a material of the bus bar shown by FIG. It is a top view which shows the sheet metal shape | molded by giving a shearing process etc. to the sheet metal shown by FIG. It is sectional drawing which shows typically the press apparatus used when assembling the wiring board shown by FIG. It is sectional drawing which shows typically the lower mold | type of the work position of the press apparatus shown by FIG. It is sectional drawing which shows typically the state which attached the detachable type | mold to the lower mold | type shown by FIG. It is sectional drawing which shows typically the state which attached the sheet metal to the detachable type | mold shown by FIG. It is sectional drawing which shows typically the state which moved the lower mold | type which attached the detachable mold shown in FIG. 11 to the processing position. FIG. 13 is a cross-sectional view schematically showing a state in which the lower mold and the upper mold shown in FIG. It is sectional drawing which shows typically the state which the upper mold | type shown by FIG. 13 raised. It is sectional drawing which shows typically the state which moved the lower mold | type shown by FIG. 14 to the working position. It is sectional drawing which shows typically the state which removed the frame part etc. of the sheet metal on the lower mold | type shown by FIG. It is sectional drawing which shows typically the state which covered the one insulation cover on the bus bar shown by FIG. FIG. 18 is a cross-sectional view schematically showing a state where the bus bar and one insulating cover shown in FIG. 17 are turned over. It is sectional drawing which shows typically the state which removed the detachable type | mold shown by FIG. 18 from the lower mold | type. FIG. 20 is a cross-sectional view schematically showing a state in which the other insulating cover is stacked on the removable bus bar shown in FIG. 19. It is sectional drawing which shows typically the state which covered the other insulating cover on the bus bar shown by FIG. It is sectional drawing which shows typically the state which presses the heated crimping tool to the boss | hub of the other insulating cover shown by FIG. It is sectional drawing which shows typically the state which crushed the front-end | tip of the boss | hub shown by FIG. It is a flowchart which shows the process of assembling a wiring board with the press apparatus shown by FIG.

Explanation of symbols

3a bus bar 6a wiring board 10 insulating cover 10a one insulating cover 10b other insulating cover 15 hole 16 hole 19 sheet metal 22 press mold 23 lower mold (first mold)
24 Upper mold (second mold)
25 Detachable mold 29 Protrusion S1 Step of attaching the removable mold to one of the first mold and the second mold S2 On the removable mold attached to one of the first mold and the second mold Step S3 A step of bringing the first mold and the second mold close to each other, applying a shearing process to the sheet metal, and molding the sheet metal into the bus bar. S4 A pair of bus bars placed on the detachable mold. Step S5 for covering one of the insulating covers S5 Step of inverting the detachable bus bar and the one insulating cover so that one insulating cover is sandwiched between the detachable die and the bus bar S7 Step of covering the other insulating cover of the pair of insulating covers S8 Step of fixing the pair of insulating covers to each other

Claims (5)

In a method of assembling a wiring board comprising a bus bar obtained by subjecting a conductive sheet metal to a shearing process, and a pair of insulating covers that sandwich at least a part of the bus bar between each other,
A first mold, a second mold that is detachably attached to the first mold, and is attachable to and detachable from one of the first mold and the second mold; While using a press die equipped with a detachable die that can hold both the sheet metal and the bus bar,
The first metal mold and the second metal mold are brought close to each other, the sheet metal positioned on the detachable mold is sandwiched between these molds , and the sheet metal is subjected to the shearing process, and the metal sheet Then, one insulating cover of the pair of insulating covers is overlaid with the bus bar positioned on the detachable mold, the one insulating cover and the bus bar are turned over, and the bus bar is turned over. A method of assembling a wiring board, comprising: stacking the other insulating cover on each other, sandwiching at least a part of the bus bar between the pair of insulating covers, and fixing the pair of insulating covers to each other. In a method of assembling a wiring board comprising a bus bar obtained by subjecting a conductive sheet metal to a shearing process, and a pair of insulating covers that sandwich at least a part of the bus bar between each other,
A first mold, a second mold that is detachably attached to the first mold, and is attachable to and detachable from one of the first mold and the second mold; While using a press die equipped with a detachable die that can hold both the sheet metal and the bus bar,
Attaching the removable mold to one of the first mold and the second mold;
Placing the sheet metal on the detachable mold attached to one of the first mold and the second mold;
A step of bringing the first mold and the second mold close to each other, subjecting the sheet metal to a shearing process, and molding the sheet metal into the bus bar;
Covering the bus bar placed on the detachable mold with one of the pair of insulating covers;
Reversing the detachable bus bar and one insulating cover such that the one insulating cover is sandwiched between the detachable mold and the bus bar;
Covering the bus bar with the other insulating cover of the pair of insulating covers;
Fixing the pair of insulating covers;
A method of assembling a wiring board, comprising:   The method of assembling a wiring board according to claim 1 or 2, wherein the pair of insulating covers are fixed to each other by thermal welding. In a press die used when assembling a wiring board comprising a bus bar obtained by subjecting a conductive sheet metal to a shearing process and a pair of insulating covers that sandwich at least a part of the bus bar between each other,
A first mold;
A second mold that is detachably provided on the first mold;
A detachable mold that is detachably attached to one of the first mold and the second mold and can hold both the sheet metal and the bus bar,
The first metal mold and the second metal mold are brought close to each other, the sheet metal positioned on the detachable mold is sandwiched between the molds, and the sheet metal is subjected to the shearing process. Press mold. Each of the sheet metal and the bus bar and one of the pair of insulating covers is provided with a hole that communicates with each other when overlapped with each other,
The detachable mold includes a protrusion that enters the holes provided in each of the sheet metal, the bus bar, and the one insulating cover, and positions the sheet metal, the bus bar, and the one insulating cover in the detachable mold. The press die according to claim 4, wherein

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