JP4718891B2 - Electrical junction box - Google Patents

Description

  The present invention relates to an electrical junction box.

Conventionally, what was described in patent document 1 is known as an example of the electrical junction box with which an automobile etc. are equipped. In this case, a circuit structure in which a bus bar substrate is bonded to the back side of a circuit board on which various electrical components are mounted via an insulating layer is housed in a shallow dish case. In addition, the connection piece is bent at a right angle from the peripheral edge of the bus bar substrate toward the circuit board side, and the fitting connection portion to be fitted and connected to a mating member such as a connector or a fuse while introducing the connection piece is a circuit. It has a structure in which an opening is provided on the surface side on the substrate.
JP 2003-164039 A

In the above-mentioned conventional one, since the fitting connection portion is formed so as to stand up from the surface of the circuit board, it is large in the thickness direction (front and back direction) of the electric connection box in consideration of the fitting space of the mating member. Installation space was required and there were cases where usage restrictions were imposed.
Therefore, the applicant of the present application has proposed that the connection piece of the bus bar board is bent at a right angle toward the circuit board side and then bent at a right angle beyond the peripheral wall of the case. As a result, the fitting connection portion can be provided in a posture that opens in a direction along the plate surface of the circuit board, and a great space saving can be achieved in the thickness direction of the electric connection box.

However, the above proposal requires a plurality of steps to bend the connecting piece of the bus bar board, and the manufacturing process is complicated, and there is also a demand for lowering the height of the electrical connection box itself, and further improvements are made. Was anxious.
The present invention has been completed based on the above circumstances, and an object thereof is to simplify and reduce the height of the manufacturing process.

As a means for achieving the above object, the invention according to claim 1 is an electrical junction box provided with a circuit structure in which a printed circuit board and a bus bar board are bonded together, and a case containing the circuit structure. The case includes a frame that constitutes a peripheral wall of the case, and a closing member that is fitted into the frame and covers one opening surface of the frame , and the closing member is attached to the bus bar substrate. It is wearing, from the peripheral edge of the bus bar substrate, and a plurality of connecting pieces which can be connected to the terminal of the other party, and the connecting piece and the positioning piece is formed through the separately provided positioning holes and the bus bar substrate And the connection piece and the positioning piece are sandwiched between the frame and the peripheral edge of the closing member facing the frame, respectively, and The frame has a feature where the positioning pins to be fitted into the positioning hole are protruded.

According to a second aspect of the present invention, in the first aspect of the present invention, one of the positioning piece and the connecting piece is fitted and released on at least one of the mutually opposing surfaces of the frame and the peripheral portion of the closing member. It is characterized in that a relief portion is formed.
A third aspect of the invention is characterized in that, in the first or second aspect of the invention, the positioning pieces protrude from the four corners of the bus bar substrate.

<Invention of Claim 1>
Since the metal piece of the bus bar substrate protrudes along the plate surface of the bus bar substrate and is inserted into the peripheral wall of the case, the metal piece bending process becomes unnecessary, and thus the manufacturing process is simplified. Moreover, compared with the case where a metal piece gets over the surrounding wall of a case, a metal piece can be formed in a still lower position, and height reduction can be achieved.

Further, when the case has a shape in which the closing member is stretched on one opening surface of the frame, the metal piece of the bus bar substrate is fitted in a state of being sandwiched between the frame and the peripheral portion of the closing member. .
Moreover, since the positioning hole is provided in the metal piece, the bus bar substrate can be accurately positioned with respect to the other members at the time of manufacturing or the like.

<Invention of Claim 2 >
By fitting the metal piece into the relief portion, the interval between the mutually opposing surfaces of the frame and the peripheral edge portion of the closing member is reduced, and the height is further reduced. In addition, when the sealing agent is filled between the opposing surfaces, the sealing agent is well filled so that the reliability of the seal can be improved.

< Reference example >
A reference example of the present invention will be described below with reference to FIGS.
As shown in FIG. 1, the electrical junction box of the present reference example is composed of a circuit structure 10, a case 30 including a frame 31 and a heat radiating plate 40 to accommodate the circuit structure 10, and a cover 45. In addition, a PCB connector 50 and a fuse box 60 are mounted. Note that another relay connector 70 is fitted in the fuse box 60.
In the following, each component will be described with the left back side in FIG. 1 as the front and the right front side as the back.

The individual structures are as follows: The circuit structure 10 includes a printed circuit board 11 (hereinafter simply referred to as a circuit board 11) and a bus bar board 15 disposed on the back surface side of the circuit board 11, and an electric circuit such as a relay is provided on the front surface side of the circuit board 11. The component 20 is mounted.
As shown in FIG. 3, the circuit board 11 is formed in an outer shape in which one corner of a rectangle is dropped, and conductive paths are formed in a predetermined pattern on both front and back surfaces. In addition, an opening 12 for mounting the electrical component 20 is formed in the rear side region, and a contact 13 connected to the male terminal 52 of the PCB connector 50 is provided on the front side. Yes.

The bus bar substrate 15 is formed by punching a metal plate having excellent conductivity, and a plurality of connection pieces are formed from the rear edge of the main body portion 16 having an outer shape substantially aligned with the circuit substrate 11 while forming a predetermined conductive path. 17 (corresponding to the metal piece of the present invention) is juxtaposed. It should be noted that these connection pieces 17 are provided so as to be flush with the main body 16 without being bent, although there are differences in the protruding length, width, shape, etc. depending on the application. Has been.
The circuit board 11 and the bus bar board 15 are bonded together through a thin adhesive sheet 25 having insulating properties. A through hole 26 is formed in the adhesive sheet 25 corresponding to the opening 12 of the circuit board 11.

The case 30 as a whole is formed in a shallow dish shape to accommodate the circuit structure 10, and has a structure in which a heat radiating plate 40 is stretched on the bottom surface side of the frame 31 corresponding to the peripheral wall.
The frame 31 is made of a synthetic resin, and is formed in a shape that allows the circuit board 11 and the main body portion 16 of the bus bar board 15 to be fitted almost tightly inside. A support portion 32 for mounting and fixing the cover 45 and the PCB connector 50 is formed at a corner portion or the like of the frame 31.

The heat radiating plate 40 is for radiating heat generated from the electrical component 20 and is formed in a shape substantially the same as the outer shape of the frame 31 by a metal plate such as aluminum having high thermal conductivity. Insertion holes 41 of screws (tapping screws) are formed at appropriate intervals in the peripheral portion of the heat radiating plate 40, and the peripheral portion of the heat radiating plate 40 is applied to the lower surface of the frame 31 with the sealant 29 interposed therebetween, It is fixed by screwing the tapping screw. On the other hand, the bus bar substrate 15 of the circuit structure 10 is attached to the upper surface of the heat radiating plate 40 with an insulating adhesive 28.
In addition, from the rear edge of the heat sink 40, the attachment piece 42 is formed in a posture that escapes obliquely downward.

Now, as shown in FIG. 2, the connection pieces 17 projecting from the main body portion 16 of the bus bar substrate 15 are formed on the lower surface of the rear edge frame portion 33 (hereinafter referred to as the rear frame 33) of the frame 31. An escape groove 35 is formed in which the base end portion is fitted and escaped. As shown in detail in FIG. 7, each escape groove 35 has a groove width slightly wider than the width of the base end portion of the corresponding connection piece 17 (including a plurality of bundles), and the thickness of the bus bar substrate 15. With a depth approximately equal to
However, as shown in FIG. 2, a protrusion 36 including a groove bottom of the escape groove 35 is formed at the center of the lower surface of the rear frame 33 in the width direction. It is formed in the whole periphery over the lower surface of the other peripheral part.

  The cover 45 is made of synthetic resin and can be mounted so as to cover the upper surface opening of the case 30 as shown in FIG. 9, and a high-level portion 46 covering the rear surface side of the PCB connector 50 is provided on the front end side. An escape recess 47 is formed on the rear end side for fitting a part of the fuse box 60 to escape. The left and right side surfaces of the cover 45 are provided with flexure-deformable lock pieces 48, while the left and right side surfaces of the frame 31 are provided with lock protrusions 38 that are locked to the lock pieces 48 and temporarily fixed. Yes. Further, attachment portions 49 that are placed on the support portion 32 of the frame 31 are formed at both end portions on the rear end side of the cover 45.

  As shown in FIG. 13, the PCB connector 50 includes a housing 51 made of synthetic resin that is horizontally long and opened on the front surface. The housing 51 has a male terminal 52 that is bent in an L shape and has one end opened in the opening. It is mounted in two steps with the other end penetrating the back wall and projecting downward. A connecting portion 53 is formed at the downward projecting end of the male terminal 52 so as to be bent at a right angle to the rear, and is soldered and connected to the contact 13 disposed on the surface of the circuit board 11. It has become. At both ends of the PCB connector 50, attachment portions 54 for the frame 31 are formed so as to project sideways.

The fuse box 60 is formed in a horizontally long shape so as to cover the entire rear surface of the rear frame 33 of the frame 31 with a synthetic resin material, and connector portions 61 that are open to the front surface are provided at both ends in the length direction. In addition, a fuse mounting portion 62 is provided on one side therebetween, and a terminal accommodating portion 63 is provided on the other side.
As shown in FIG. 13, the fuse mounting portion 62 is provided with a plurality of mounting holes 65 in which the fuses 64 are mounted opened to the rear surface side. In each mounting hole 65, the bus bar substrate 15 described above is formed on the lower side. The connecting piece 17 projecting from the connecting piece 17 can be attached by press-fitting, and a tab-like connecting piece 67 which is paired with the connecting piece 17 is also attached to the upper side by press-fitting. The front end is bent in a crank shape and protrudes forward.

On the other hand, a U-shaped connection terminal 68 (only part of which is shown in FIG. 10) is attached to the terminal accommodating portion 63, and when the fuse box 60 is attached to the rear surface of the frame 31, as will be described later. The connecting piece 17 projecting from the bus bar substrate 15 enters the terminal accommodating portion 63 and is connected to the lower side of the corresponding connecting terminal 68. Similarly, a U-shaped connection terminal (not shown) is also attached to the connector part 61, and the connection piece 17 protruding from the bus bar board 15 enters the lower side in the connector part 61 to correspond to the corresponding connection. It is connected to the lower side of the terminal.
A relay connector 70 is connectable to the front surface of the fuse box 60 in the region extending between the fuse mounting portion 62 and the terminal housing portion 63, and the connecting piece 67 protruding to the front surface from the fuse mounting portion 62 and the terminal housing portion 63. The upper side of the connection terminal 68 enters into the fitting portion 71 opened in the front surface of the relay connector 70.

Then, an example of the manufacturing process of an electrical junction box is demonstrated. First, as shown in FIG. 3, the bus bar substrate 15 is formed inside the outer frame 18 by pressing a metal plate material. The bus bar substrate 15 is provided with a plurality of connecting pieces 17 protruding from the rear edge of the main body portion 16 in which conductive paths are formed in a predetermined pattern. Here, the main body portion 16 and the outer frame 18 or the connecting piece are provided. 17 are connected by a connecting part 19. The circuit board 11 is integrally attached to the upper surface of the main body portion 16 of the bus bar substrate 15 via an insulating adhesive sheet 25.
At the same time, the connecting portion 19 is cut, the outer frame 18 is separated from the bus bar substrate 15, and the connection pieces 17 are also separated (FIG. 4).

Next, as shown in the figure, an insulating adhesive 28 (see FIG. 7) is applied to the entire top surface of the heat radiating plate 40, and then on the main body portion 16 of the bus bar substrate 15 in the circuit structure 10. The lower surface of the base end side of the connection piece 17 is pressed and stuck.
Subsequently, a sealant 29 (see FIG. 7) is applied over the entire circumference along the protrusions 36 on the lower surface of the frame 31, and the lower surface of the frame 31 applies the sealant 29 as shown in FIG. It is applied to the peripheral edge of the heat sink 40 while being compressed, and is screwed and fixed from the lower surface side (FIG. 6).

  In particular, in the portion where the rear frame 33 of the frame 31 is applied to the corresponding peripheral edge of the heat sink 40, as shown in FIG. 7, the base ends of the connection pieces 17 protruding from the main body portion 16 of the bus bar substrate 15. The portion is sandwiched between the peripheral portion of the heat radiating plate 40 in a state in which the portion is slightly fitted into the escape groove 35 formed on the lower surface of the rear frame 33 and released. Here, the flat upper surface of the base end portion of the connection piece 17 does not touch the lower surface of the rear frame 33 of the frame 31 but rather fits slightly into the escape groove 35 and is formed on the groove bottom. Therefore, the sealant 29 goes around well into the space formed on the upper surface side of the base end portion of the connection piece 17. Thereby, the sealing agent 29 is reliably filled between the upper surface of the base end portion of the connection piece 17 and the lower surface of the rear frame 33 of the frame 31, particularly between the protrusions 36.

  When the circuit structure 10 is assembled to the case 30 in this way, solder is applied to the opening 12 and the contact 13 of the circuit board 11 by screen printing or the like. Then, as shown in FIG. 8, the lead wire 21 of the electrical component 20 is placed on the solder in the mounting area of the electrical component 20, and the PCB connector 50 is attached to the front end side of the circuit board 11. The connecting portion 53 is placed on the corresponding solder. Then, the lead wire 21 of the electrical component 20 is electrically connected to the conductive paths of the circuit board 11 and the bus bar board 15 by melting the solder through a high temperature furnace, and the male terminal 52 of the PCB connector 50 is connected to the contact 13. And electrically connected.

  Next, a potting agent (not shown) such as a gel is introduced into the frame 31 from the state of FIG. 8, and the surface of the circuit board 11 is covered with the potting agent to ensure waterproofness. Here, between the lower surface of the frame 31 and the peripheral edge of the heat radiating plate 40, the sealing agent 29 is compressed and filled over the entire circumference. Between the rear frame 33 of the frame 31 and the peripheral edge portion of the heat sink 40, the base end portion of the connection piece 17 protruding from the rear edge of the bus bar substrate 15 is sandwiched. In addition, since the base end portion of the connection piece 17 is slightly fitted in the escape groove 35 formed on the lower surface of the frame 31, as shown in FIG. In addition, the sealing agent 29 wraps around well and is surely buried. Therefore, the sealing agent 29 is reliably filled over the entire circumference, and the leakage of the potting agent is reliably prevented.

  After that, as shown in FIG. 9, the cover 45 is put on the case 30 and assembled. The cover 45 is fixed by screwing screws from the attachment portion 49 to the support portion 32 while the lock piece 48 is elastically locked to the lock protrusion 38 of the frame 31. Then, as shown in FIG. 10, the fuse box 60 in which the connection piece 67 and the connection terminal 68 are mounted in advance is assembled to the rear end edge of the case 30.

  As the fuse box 60 is assembled, in the fuse mounting portion 62, as shown in FIG. 13, the connection piece 17 protruding from the bus bar substrate 15 enters and is mounted on the lower side of the corresponding mounting hole 65. Further, in the terminal accommodating portion 63 and the connector portion 61, although not shown in detail, the connection piece 17 that is similarly provided protruding from the bus bar substrate 15 is connected to the lower side of the corresponding connection terminal 68 that is mounted in advance. Subsequently, the relay connector 70 is fitted to the front surface of the fuse box 60, and the electrical connection box is completed as shown in FIG.

  For this electrical connection box, a fuse 64 is mounted from the rear surface in each mounting hole 65 of the fuse mounting portion 62. The PCB connector 50 and the relay connector 70 are fitted with a mating connector (not shown) from the front. The electrical connection box is housed in a casing of an ECU (electric control unit) in a vertical posture with the PCB connector 50 facing downward, and in this state, the engine room is mounted via a mounting piece 42 of the heat sink 40. Used by attaching to the vehicle panel on the fender side.

As described above, according to the electrical junction box of this reference example , the connection piece 17 of the bus bar substrate 15 is externally sandwiched between the rear frame 33 of the frame 31 and the corresponding peripheral edge of the heat sink 40. The fuse box 60 formed by introducing these connection pieces 17 is, for example, a case where the fuse mounting portion 62 is provided in an opening direction in the direction along the plate surface of the bus bar substrate 15. Becomes easy. In particular, the manufacturing process is simplified because the bending process of the connecting piece 17 is not necessary. Further, as compared with the case where the connection piece 17 climbs over the frame 31 serving as the peripheral wall of the case 30, the fuse box 60 can be arranged at a lower position because the protruding position of the connection piece 17 is lower. Can be turned upside down.

  In a portion where the connection piece 17 of the bus bar substrate 15 is protruded by being sandwiched between the rear frame 33 of the frame 31 and the corresponding peripheral portion of the heat sink 40, a relief groove 35 is provided on the lower surface of the rear frame 33, Since the base end portion of 17 is fitted in the escape groove 35 and protruded while being escaped, the distance between the opposed surfaces of the rear frame 33 and the peripheral edge portion of the heat radiating plate 40 is narrowed, and the height is further reduced. . Further, when the sealing agent 29 is filled between the opposing surfaces in filling the frame 31 with the potting agent, the sealing agent 29 is well filled by using the relief groove 35, and the reliability of the seal is further improved. it can.

< Embodiment >
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
This embodiment mainly differs from the above reference example in that a positioning piece 80 (corresponding to the metal piece of the present invention) for positioning is provided on the bus bar substrate 15. Since other configurations are generally the same as those in the above-described reference example , the same reference numerals are given to the same configurations, and descriptions of the structures, operations, and effects are omitted.

  As shown in FIG. 14, positioning pieces 80 protrude from the four corners of the main body 16 on the bus bar substrate 15 of the present embodiment. These positioning pieces 80 are provided so as to be flush with the main body portion 16 without being subjected to bending processing, although there are differences in the protruding length, width, shape, and the like. Each positioning piece 80 is formed with a circular positioning hole 81 penetrating at the tip.

  As shown in FIG. 15, ribs 82 project from the lower surface of the frame 31 at the outer peripheral portion excluding a part of the rear edge (region corresponding to the rear frame 33). The rib 82 has a shape corresponding to the outer peripheral shape of the heat radiating plate 40, and the heat radiating plate 40 can be fitted inside. Positioning piece attachment portions 83 (corresponding to the relief portions of the present invention) for attaching the positioning pieces 80 are formed on the lower surfaces of the four support portions 32 of the support portions 32 provided on the frame 31. On the lower surface of the frame 31, the above-described protrusion 36 is provided inside the rib 82, and the positioning piece mounting portion 83 is disposed in a region between the rib 82 and the protrusion 36. It has a concave shape with respect to the strip 36. For this reason, the protrusion 36 is provided with a notch 84 for inserting the positioning piece 80 in the vicinity of each positioning piece mounting portion 83. Furthermore, each positioning piece mounting portion 83 is provided with a cylindrical positioning pin 85 that can be fitted into the positioning hole 81. Further, a part of the support portions 32 is provided with a screw tightening hole 87 through which a tapping screw is screwed at a position corresponding to the insertion hole 41 of the heat radiating plate 40 described above. Further, in addition to the screw insertion hole 41, a pin fitting hole 86 into which the positioning pin 85 is fitted is provided through the peripheral edge of the heat radiating plate 40.

Next, an example of the manufacturing process of the electrical junction box of this embodiment will be described. First, similarly to the reference example , the bus bar substrate 15 and the circuit substrate 11 are integrally attached to form the circuit structure 10. Then, the adhesion | attachment operation | work of the circuit structure 10 and the heat sink 40 is performed using the jig | tool 90 shown in FIG. The jig 90 has a flat mounting surface 91, and pins 92 project from the positions corresponding to the positioning holes 81 on the mounting surface 91. First, the heat radiating plate 40 is placed on the placement surface 91 of the jig 90 so that the pins 92 are inserted into the pin fitting holes 86. And the adhesive sheet 93 which consists of an insulating adhesive agent is mounted in the upper surface of the heat sink 40, and the main-body part 16 of the bus-bar board | substrate 15 in the circuit structure 10 is further piled up on the upper surface (refer FIG. 17). In this process, the circuit component 10 is accurately positioned with respect to the heat radiating plate 40 by inserting the pins 92 of the jig 90 into the positioning holes 81 of the positioning pieces 80 of the bus bar substrate 15. In this way, the circuit structure 10 and the heat sink 40 are integrally attached by pressing the circuit structure 10 downward. As described above, the operation of attaching the circuit component 10 and the heat radiating plate 40 can be easily performed because both the heat radiating plate 40 and the circuit component 10 are formed in a flat plate shape having no unevenness. In the above operation, an adhesive may be applied to the heat radiating plate 40 instead of the adhesive sheet 93.

  Next, on the lower surface of the frame 31, the sealing agent 29 is applied over the entire circumference along the ridge 36. As shown in FIG. 18, the lower surface of the frame 31 is applied to the peripheral edge of the heat sink 40 while compressing the sealing agent 29, and each positioning pin 85 of the frame 31 is inserted into the positioning hole 81 of the positioning piece 80. Then, it is fitted into the pin fitting hole 86 of the heat radiating plate 40, and in this state, the screw is tightened from the lower surface side, and the frame 31 and the heat radiating plate 40 are fixed. Then, as shown in FIGS. 19 and 20, the sealing agent 29 enters and fills between the protrusion 36 and the heat radiating plate 40, or between the base end of the positioning piece 80 and the edge of the notch 84. It is done. Thus, the positioning piece 80 is inserted into the peripheral wall of the case 30 constituted by the frame 31 without penetrating. Further, the inside of the frame 31 becomes a seal space, and the tip of the positioning piece 80 is in a state of extending outward from the seal space.

  As described above, according to the electrical junction box of the present embodiment, the positioning piece 80 of the bus bar substrate 15 is inserted straight between the support portion 32 of the frame 31 and the corresponding peripheral portion of the heat sink 40. Therefore, the bending process of the positioning piece 80 becomes unnecessary, and the manufacturing process is simplified. Further, compared with the case where the positioning piece 80 gets over the frame 31 which is the peripheral wall of the case 30, the positioning piece mounting portion 83 can be formed at a lower position because the position where the positioning piece 80 is inserted is lower, The height can be further reduced.

  A concave positioning piece mounting portion 83 is provided on the lower surface of the support portion 32 at a portion where the positioning piece 80 of the bus bar substrate 15 is projected between the support portion 32 of the frame 31 and the corresponding peripheral edge portion of the heat sink 40. In addition, since the positioning piece 80 is fitted to the positioning piece mounting portion 83 and is released, the height can be further reduced. Further, when the sealing agent 29 is filled between the opposing surfaces when filling the frame 31 with the potting agent, the sealing agent 29 is well filled using the positioning piece mounting portion 83, and the reliability of the seal is improved. Can do. In particular, in this embodiment, the positioning piece mounting portion 83 does not communicate with the outside, and the positioning piece 80 is not exposed to the outside, so that the reliability of the seal can be further improved.

  Since the positioning hole 81 is provided in the positioning piece 80, the bus bar substrate 15 can be accurately positioned with respect to other members by using the positioning hole 81 during or after manufacture.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) The escape portion or escape groove for fitting the metal piece of the bus bar substrate to escape may be provided on the peripheral edge side of the heat radiating plate, or may be provided on both the frame side.
(2) Further, the metal piece of the bus bar substrate may be simply sandwiched between the frame and the peripheral portion of the heat sink, and such a structure is also included in the technical scope of the present invention.
(3) Furthermore, as long as the metal piece of the bus bar substrate is inserted into the peripheral wall of the frame, it may protrude through the peripheral wall as in the reference example , and penetrate the peripheral wall as in the second embodiment. It is good also as a form which is not exposed outside.
(4) The connecting piece of the bus bar substrate is not limited to one edge such as the rear edge of the main body, and may be formed to protrude from a plurality of edges.
(5) The manufacturing processes illustrated in the above reference examples and embodiments are merely examples, and can be changed as appropriate.

(6) The positioning piece of the bus bar substrate may be configured as shown in FIG. 21, for example. The positioning piece 95 is provided so as to be flush with the bus bar substrate 15 along the connection piece 17 from the rear edge of the bus bar substrate 15, and is fitted into the escape groove 35 of the rear frame 33 to be released, and penetrates the rear frame 33. Projecting outside. A positioning hole 96 is provided at the tip of the positioning piece 95, and a through hole 97 is also provided in the heat radiating plate 40 at a position corresponding to the positioning hole 96. By using the positioning piece 95 in the manufacturing process, the bus bar substrate 15 can be accurately positioned as in the embodiment .

The exploded perspective view of the electrical junction box concerning the reference example of the present invention Perspective view seen from the back of the frame The perspective view which shows the state which sticks a circuit board to a bus-bar board | substrate. The perspective view which shows the state which affixes a circuit structure body to a heat sink The perspective view which shows the state which assembles a case The perspective view which shows the state in which the case was assembled | attached Partial enlarged rear view Perspective view of electrical component and PCB connector mounted The perspective view which shows the state which adheres a cover The perspective view which shows the state which mounts a fuse box The perspective view which shows the state which fits a relay connector Perspective view of electrical junction box after assembly Side sectional view of the fuse mounting part The perspective view which shows the state which adheres a circuit board to a bus-bar board | substrate in the electrical-connection box which concerns on embodiment of this invention. Perspective view seen from the back of the frame Side sectional view showing the state before the heat sink is attached to the circuit structure Side sectional view showing the state where the heat sink is attached to the circuit structure The perspective view which shows the state which assembles a case Partial enlarged sectional view near the positioning piece AA line sectional view of FIG. Partial enlarged perspective view showing a modification of the positioning piece

DESCRIPTION OF SYMBOLS 10 ... Circuit structure 11 ... Circuit board 15 ... Bus-bar board 16 ... Main-body part 17 ... Connection piece (metal piece)
28 ... Adhesive 29 ... Seal 30 ... Case 31 ... Frame (peripheral wall)
33 ... Rear frame 35 ... Escape groove (escape part)
40 ... Radiating plate (heat radiating member, closing member)
60 ... Fuse box 62 ... Fuse mounting part 64 ... Fuse (mating member)
65: Mounting hole (fitting connection part)
80, 95 ... Positioning piece (metal piece)
81, 96 ... positioning hole 83 ... positioning piece mounting part (relief part)

Claims (3)

In an electrical junction box provided with a circuit structure in which a printed circuit board and a bus bar board are bonded together, and a case containing the circuit structure,
The case includes a frame that constitutes a peripheral wall of the case, and a closing member that is a heat radiating plate that is fitted into the frame and covers one opening surface of the frame ,
The closing member is attached to the bus bar substrate,
A plurality of connection pieces connectable to a mating terminal from the peripheral edge of the bus bar substrate and a positioning piece provided separately from the connection piece and formed through a positioning hole are provided so as to be flush with the bus bar substrate. The connecting piece and the positioning piece are respectively sandwiched between the frame and the peripheral edge of the closing member facing the frame, and the positioning pin that fits into the positioning hole in the frame An electrical junction box characterized in that is projected. The relief part which fits one of the positioning piece and the connection piece and makes it escape is formed in at least one of the mutually opposing surfaces of the frame and the peripheral part of the closure member. The electrical junction box described. The electrical connection box according to claim 1, wherein the positioning pieces are protruded from four corners of the bus bar substrate.

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