JP2019068633A - Electric connection box and wire harness - Google Patents

Abstract

To provide an electric connection box and a wire harness which can reduce an intrusion of foreign matters to the inside.SOLUTION: In an electric connection box 1, an upper cover 2A has a tube portion 21 formed in a cylindrical shape and having an insertion port 21a into which an electronic component 10 is inserted along an insertion direction, a supporting portion 22 supporting the electronic component 10 provided on the opposite side to the insertion port 21a of the tube portion 21, and a pair of opening portions 23 provided on wall portions 21b opposed to each other of the tube portion 21, opposed to each other, and penetrating the wall portions 21b in an opposed direction. A lower cover 3A, in an assembled condition where the upper cover 2A is assembled, is connected to the opening portion 23 and a space portion 31 holding a bus bar 4 along a direction orthogonal to the insertion direction is formed. At least one lower cover 3A in the assembled condition has a shielding portion 50 on a linear route 40 from the opening portion 23 to the bus bar 4 through the space portion 31.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electrical connection box and a wire harness.

  Conventionally, an electric connection box (junction box, fuse box, relay box, etc.) mounted on a vehicle such as an automobile and collectively containing connection processing parts such as wire harnesses, electronic parts such as fuses, relays, and electronic control units Also known). Such an electric connection box is provided with, for example, a cylindrical mounting portion for mounting an electronic component such as a relay (for example, Patent Document 1).

Patent No. 5221255

  By the way, although the electrical connection box has the projection for holding the electronic component inside the cylindrical mounting part, due to the structure of the mold, an air gap can be formed below the projection in the vertical direction. For example, foreign matter such as a wire may enter the gap, and there is room for improvement.

  An object of the present invention is to provide an electrical connection box and a wire harness that can reduce the entry of foreign matter into the interior.

  In order to achieve the above object, an electrical connection box according to the present invention includes an electronic component, a bus bar electrically connected to the electronic component, a lower cover for receiving the bus bar, and the lower cover. An upper cover for holding the upper cover, wherein the upper cover is formed in a cylindrical shape and provided with an insertion opening into which the electronic component is inserted along the insertion direction, and the insertion opening of the cylindrical unit It has a support portion provided on the opposite side to support the electronic component, and a pair of openings provided on mutually facing wall portions of the cylindrical portion and passing through the wall portion in the opposite direction facing each other, The lower cover is in communication with the opening in an assembled state in which the upper cover is assembled, and a space is formed to hold the bus bar in a direction perpendicular to the insertion direction. Chromatography and the upper cover is in the fastened state, at least one of the shielding unit on the linear path from the opening up to the bus bar via said space, characterized in that.

  In the electric connection box, the lower cover has a partition wall which is erected from the inner bottom surface on which the bus bar is held and which partitions the space portion from the other inner space, and the shielding portion is formed from the inner bottom surface. It is preferable to stand in parallel with the partition wall toward the opening, and the tip is located on the path.

  In the above electrical connection box, the upper cover is formed such that the shielding portion protrudes from the surface on the opposite side of the support portion in parallel to the opening in the insertion direction, and a tip portion is located on the path. Is preferred.

  In the electric connection box, the upper cover is formed in a direction orthogonal to the insertion direction from the wall of the cylinder to the outside, and has a flat portion closing the space of the lower cover, Preferably, the flat portion forms an end of the opening in the insertion direction.

  In order to achieve the above object, a wire harness according to the present invention includes an electric wire, an electronic component electrically connected to the electric wire, a bus bar electrically connected to the electronic component, and a lower cover accommodating the bus bar. And an electric connection box having an upper cover assembled to the lower cover and holding an electronic component, the upper cover being formed in a tubular shape, and an insertion opening through which the electronic component is inserted along the insertion direction And a supporting portion provided on the opposite side of the cylindrical portion to the insertion port and supporting the electronic component, and provided on mutually facing wall portions of the cylindrical portion, facing each other in the opposing direction And the lower cover communicates with the opening in the assembled state in which the upper cover is assembled, and the lower bus bar is inserted in the insertion direction. A space is formed along the orthogonal direction, and the lower cover and the upper cover are straight from the opening to the bus bar via the space in the assembled state. And a shielding portion on the path of

  ADVANTAGE OF THE INVENTION According to the electrical connection box and wire harness which concern on this invention, it is effective in the ability to reduce the penetration | invasion of the foreign material to an inside.

FIG. 1 is an exploded perspective view showing a schematic configuration of the electrical connection box according to the first embodiment. FIG. 2 is a perspective view showing a schematic configuration of the electrical connection box according to the first embodiment. FIG. 3 is a plan view of the lower cover according to the first embodiment. FIG. 4 is a partial cross-sectional perspective view of the electrical connection box according to the first embodiment. FIG. 5 is a cross-sectional view of the electrical connection box according to the first embodiment. FIG. 6 is an exploded perspective view showing a schematic configuration of the electrical connection box according to the second embodiment. FIG. 7 is a partial cross-sectional perspective view of the electrical connection box according to the second embodiment. FIG. 8 is a partial cross-sectional perspective view of the electrical connection box according to the second embodiment. FIG. 9 is a cross-sectional view of the electrical connection box according to the second embodiment.

  Hereinafter, embodiments of an electrical connection box and a wire harness according to the present invention will be described in detail with reference to the drawings. The present invention is not limited by this embodiment. In addition, constituent elements in the following embodiments include those that can be easily conceived by those skilled in the art or those that are substantially the same. Moreover, various omissions, replacements, and changes can be made to the components in the following embodiments without departing from the scope of the invention. Furthermore, the configurations described below can be combined as appropriate.

First Embodiment
FIG. 1 is an exploded perspective view showing a schematic configuration of the electrical connection box according to the first embodiment. FIG. 2 is a perspective view showing a schematic configuration of the electrical connection box according to the first embodiment. FIG. 3 is a plan view of the lower cover according to the first embodiment. FIG. 4 is a partial cross-sectional perspective view of the electrical connection box according to the first embodiment. FIG. 5 is a cross-sectional view of the electrical connection box according to the first embodiment. In addition, FIG. 2 shows the state which removed the electronic component from the electrical connection box. FIG. 3 is a view showing a state in which the upper cover of the electrical connection box is removed to expose the internal space of the lower cover to the outside. FIG. 4 is a partial cross-sectional view between A and B in FIG. FIG. 5 is a cross-sectional view taken along line A-A of FIG. Here, the X direction in FIGS. 1 to 5 (also in FIGS. 6 to 9) is taken as the width direction of the electrical connection box in the present embodiment. The Y direction is a depth direction of the electrical connection box in the present embodiment, and is a direction orthogonal to the X direction. The Z direction is the insertion direction of the electronic component in the present embodiment, and is a direction orthogonal to the X direction and the Y direction. In the Z direction, the upper direction is the Z1 direction, and the lower direction is the Z2 direction.

  The electric connection box 1 according to the present embodiment is mounted on a vehicle (not shown) such as a car. The electric connection box 1 is incorporated in the wire harness 100, and collects and accommodates electronic components 10 such as a connector, a fuse, a relay, an electronic control unit and the like that constitute a connection processing component such as the electric wire 101. The electric connection box 1 is installed, for example, in an engine room of a vehicle or a lower portion of a vehicle body, and is connected between a power source such as a battery and various electronic devices mounted in the vehicle. The electrical connection box 1 distributes the power supplied from the power supply to various electronic devices in the vehicle. The electrical connection box 1 may also be called a junction box, a fuse box, a relay box or the like, but in the present embodiment, these are collectively referred to as the electrical connection box 1.

  As shown in FIG. 1, the electric connection box 1 according to the first embodiment includes an upper cover 2A, a lower cover 3A, a bus bar 4 and an electronic component 10. Upper cover 2A and lower cover 3A constitute a housing that accommodates bus bar 4 inside in an assembled state where they are assembled to each other.

  The upper cover 2A is made of insulating synthetic resin or the like, and is molded by known injection molding. The upper cover 2A holds the electronic component 10. The upper cover 2A is configured to include a holding portion 20, a ceiling wall 24, and an outer wall 25. The upper cover 2A is formed in a box shape opened in the Z2 direction by the ceiling wall 24 and a plurality of outer walls 25 erected in the Z2 direction from the outer edge of the ceiling wall 24 and continuous with each other.

  The holding portion 20 holds the electronic component 10, and a plurality of holding portions 20 are provided on the ceiling wall 24 in the Z1 direction of the upper cover 2A. The holding portion 20 is configured to include a cylindrical portion 21, a support portion 22, and a pair of openings 23.

  The cylindrical portion 21 is formed in a cylindrical shape and is provided with an insertion port 21a into which the electronic component 10 is inserted along the insertion direction, and a support portion 22 is provided on the opposite side to the insertion port 21a. The insertion port 21a is a portion which opens the Z1 direction of the cylindrical portion 21 in a rectangular shape. The cylindrical portion 21 includes a plurality of rectangular plate-like wall portions 21 b connected to each other, and is formed in a cylindrical shape. The cylindrical portion 21 has, for example, a rectangular shape when viewed from the Z1 direction. The cylindrical portion 21 is erected on the ceiling wall 24 of the upper cover 2A so that the wall portion 21b extends along the insertion direction. The ceiling wall 24 is a flat portion 28 formed in a direction (for example, Y direction) orthogonal to the insertion direction from the wall portion 21b of the cylindrical portion 21 to the outside and closing the space 31 in the lower cover 3A. The cylindrical portion 21 may be integrally molded with the ceiling wall 24 of the upper cover 2A, or may be assembled separately with the ceiling wall 24 of the upper cover 2A. The cylindrical portion 21 of the present embodiment is integrally formed on the ceiling wall 24 of the upper cover 2A.

  The cylindrical portion 21 is provided with a pair of opposing guide members 21c inside the opposing wall portion 21b. Each of the guide members 21c is a direction perpendicular to the insertion direction (X direction) so that the protrusion 13 does not abut against the guide member 21c in the insertion direction when the electronic component 10 is mounted in the wall 21b provided with the opening 23 ) Is divided into two parts. Each guide member 21c has an inclined surface 21d provided in the Z1 direction and a vertical surface 21e provided in the opposite direction in which the guide members 21c face each other. The inclined surface 21 d is a flat surface which is inclined from the Z1 direction toward the Z2 direction as it goes to the inside of the cylindrical portion 21. The vertical surface 21 e is a flat surface parallel to the inner surface of the wall 21 b of the cylinder 21. The pair of inclined surfaces 21 d abuts on the outer periphery of the electronic component 10 inserted inside the cylindrical portion 21 and guides the electronic component 10 to the center of the cylindrical portion 21 in the X or Y direction. The pair of vertical surfaces 21 e is supported such that the electronic component 10 is positioned at the center of the cylindrical portion 21 in the X direction or Y direction.

  When viewed from the Z1 direction, the cylindrical portion 21 has substantially the same size as the size of the inside of the cylindrical portion 21 and the size of the outer shape of the electronic component 10. That is, the length of the cylindrical portion 21 in the Y direction inside the cylindrical portion 21 (excluding the length of the pair of guide members 21c in the Y direction) is the length of the main portion 11 of the electronic component 10 in the Y direction ( Except for the length of the pair of protrusions 13 in the Y direction). Further, in the cylindrical portion 21, the length in the X direction of the inner side of the cylindrical portion 21 (excluding the length in the X direction of the pair of guide members 21 c) corresponds to the length in the X direction of the main portion 11 of the electronic component 10. It is the same.

  The support portion 22 is an inner portion surrounded by the wall portion 21 b in the ceiling wall 24 and is formed in a rectangular shape. The support portion 22 is located in the Z2 direction more than the position of the ceiling wall 24 of the upper cover 2A. The support portion 22 of the present embodiment is provided on the opposite side to the insertion port 21 a of the cylindrical portion 21, and supports the electronic component 10 inserted inside the cylindrical portion 21 from the insertion port 21 a. As shown in FIG. 2, the support portion 22 is provided with a plurality of insertion holes 21 f through which the terminals 12 of the electronic component 10 are respectively inserted. Each terminal 12 of the electronic component 10 is inserted through each insertion hole 21 f when the electronic component 10 is attached to the holding unit 20.

  The pair of openings 23 are respectively provided in the wall portions 21 b of the cylindrical portion 21 corresponding to each other. Each opening 23 is provided in the wall 21 b facing in the Y direction. Each opening 23 is provided substantially in the center of the wall 21b in the X direction and in the Z2 direction of the wall 21b. Each opening 23 penetrates the wall 21 b in the opposing direction in which the openings 23 face each other. Each opening 23 is formed in a rectangular shape. The opening 23 in this embodiment refers to a portion directly appearing on the outside of the electrical connection box 1. The opening 23 is formed of a notch formed in a concave shape in the mounting direction from the lower end of the cylindrical portion 21 in the mounting direction, and the end of the flat portion 28. The flat portion 28 forms an end of the opening 23 in the insertion direction.

  The lower cover 3A is made of insulating synthetic resin and is molded by known injection molding. Lower cover 3 </ b> A accommodates bus bar 4. Lower cover 3A communicates with opening 23 in the assembled state in which upper cover 2A is assembled, and a space 31 is formed to hold bus bar 4 in the direction orthogonal to the insertion direction. The lower cover 3A is provided with an inner bottom surface 32 positioned in the Z2 direction, a plurality of outer walls 33 standing in the Z1 direction from the inner bottom surface 32 and continuous with each other, and the Z1 direction from the inner bottom surface 32 And a partition wall 34 for partitioning the space portion. The inner bottom surface 32 holds the bus bar 4 as shown in FIG. Each outer wall 33 has a projection 35. The protrusions 35 engage with recesses (not shown) provided on the inner side of each outer wall 25 of the upper cover 2A. In the lower cover 3A, the upper cover 2A is assembled so as to cover the upper surface of the lower cover 3A by engaging the recess on the upper cover 2A side with the projection 35 of each outer wall 33. A plurality of partition walls 34 are provided to stand along the X direction between a pair of opposing outer walls 33. In the two partition walls 34, the space 31 is also formed between the facing surfaces. The lower cover 3A of the present embodiment has a shielding portion 50 erected in parallel with the partition wall 34 from the inner bottom surface 32 toward the opening 23. The shield 50 has a tip 50 a at an end in the Z1 direction. The lower end 3a and the upper cover 2A are located on the linear path 40 from the opening 23 to the bus bar 4 via the space 31 when the lower cover 3A and the upper cover 2A are assembled to each other. The shielding part 50 of this embodiment is connected with the upper end of the partition wall 34 which a Z1 direction adjoins, and the Z2 direction is connected with the inner bottom face 32, as shown in FIG.

  The bus bar 4 is a metal conductor electrically connected to the electronic component 10 and the electric wire 101 constituting the wire harness 100, and is constituted by the plate portion 4a and the terminal connection portion 4b. The plate portion 4a is formed by punching a conductive sheet metal and is connected to the electric wire 101 and the like. The terminal connection portion 4 b is formed by bending a conductive sheet metal, and the terminal 12 of the electronic component 10 is connected. The bus bar 4 is held by the inner bottom surface 32 of the lower cover 3A. The bus bar 4 electrically connects the electric wire 101 of the wire harness 100 and the electronic component 10 mounted on the holding unit 20 to each other according to a predetermined pattern.

  The electronic component 10 is, for example, a relay. The electronic component 10 has a block-shaped main body portion 11 accommodating an internal coil and the like inside, and a plurality of strip-shaped terminals having conductivity protruding from the bottom surface (not shown) of the main body portion 11 in the Z2 direction. 12 and a pair of locking projections 13 provided on the side surface of the main body 11 and facing each other. Each of the terminals 12 is passed through each of the insertion holes 21 f of the support portion 22 when the electronic component 10 is attached to the holding portion 20, and is electrically connected to the bus bar 4. The protrusions 13 are disposed to face each other along the width direction (X direction) of the main body 11. When each electronic component 10 is attached to the holding unit 20, each protrusion 13 is engaged with the opening 23 of the holding unit 20, which will be described later, which faces each other, and the cylindrical portion of the holding unit 20 Fix in 21

  Next, insertion of foreign matter in the electric connection box 1 according to the first embodiment will be described. The electrical connection box 1 is configured such that the wire 60 does not contact the bus bar 4 by the shielding portion 50 when a thin rod-like foreign material such as the wire 60 is inserted from the opening 23 as shown in FIG. . The wire 60 is assumed to have a diameter of, for example, about 1.0 mm, but is not limited thereto. In the mounted state in which the electronic component 10 is mounted on the holding portion 20, when the foreign matter is inserted in an inclined direction in the insertion direction with respect to the opening 23, the front end of the electric connection box 1 is in sliding contact with the side surface of the electronic component 10. While moving from the Z1 direction toward the Z2 direction. When the foreign matter is inserted from the direction orthogonal to the opening 23, the foreign matter abuts on the side surface of the electronic component 10 to reduce the intrusion into the inside. When the front end of the foreign matter is moved in sliding contact with the side surface of the electronic component 10, the electric connection box 1 eventually comes in contact with the front end portion 50a of the shielding unit 50, so that the movement of the foreign matter can be stopped. Even if the front end of the foreign material is curved when coming into contact with the front end 50a of the shielding unit 50 and deviates from the path 40, the front end 50a and the side surface of the electronic component 10 are disposed without a gap. Can be stopped. As described above, the electrical connection box 1 can restrict the movement of the foreign matter inserted from the opening 23 and reduce the intrusion of the foreign matter into the space 31.

  As described above, the electric connection box 1 and the wire harness 100 according to the present embodiment extend from the opening 23 to the bus bar 4 via the space 31 when the lower cover 3A is assembled with the upper cover 2A. A shield 50 is provided on the straight path 40. The shielding portion 50 is erected in parallel with the partition wall 34 from the inner bottom surface 32 toward the opening 23, and the tip portion 50 a is positioned on the linear path 40. As a result, even when foreign matter such as, for example, a wire 60 is inserted from the opening 23, the foreign matter does not intrude into the space 31, and the foreign matter can be prevented from entering the inside. Further, as shown in FIG. 5, since the shielding portion 50 is formed in a crank shape when viewed from the X direction as shown in FIG. 5, the bus bar 4 is formed even if foreign matter inserted from the opening 23 is curved. It is possible to prevent the contact to. Further, by providing the shielding portion 50 in the vicinity of the bus bar 4, the insulation distance of the bus bar 4 can be secured.

Second Embodiment
Next, an electrical connection box 1 according to a second embodiment will be described. FIG. 6 is an exploded perspective view showing a schematic configuration of the electrical connection box according to the second embodiment. FIG. 7 is a partial cross-sectional perspective view of the electrical connection box according to the second embodiment. FIG. 8 is a partial cross-sectional perspective view of the electrical connection box according to the second embodiment. FIG. 9 is a cross-sectional view of the electrical connection box according to the second embodiment. In addition, FIG. 7 is a figure which shows the state which removed the electronic component from the electrical connection box. FIG. 8 is a partial cross-sectional view taken along line C-D of FIG. FIG. 9 is a cross-sectional view taken along line C-C of FIG.

  The electric connection box 1 according to the second embodiment differs from the electric connection box 1 according to the first embodiment in that the shielding portion 50 is formed on the upper cover 2B side instead of the lower cover 3B side. In the second embodiment, the same reference numerals as in the first embodiment and the modification are given to the same components, and the description thereof is omitted.

  As shown in FIG. 6, the electrical connection box 1 according to the present embodiment is configured to include an upper cover 2B, a lower cover 3B, a bus bar 4, and an electronic component 10. Upper cover 2 </ b> B and lower cover 3 </ b> B constitute a housing that accommodates bus bar 4 inside in the assembled state assembled to each other.

  The upper cover 2B is made of insulating synthetic resin or the like and is molded by known injection molding. Upper cover 2 B holds electronic component 10. Upper cover 2 </ b> B includes holding portion 20, ceiling wall 24, and outer wall 25. The upper cover 2B is formed in a box shape opened in the Z2 direction by the ceiling wall 24 and a plurality of outer walls 25 standing in the Z2 direction from the outer edge of the ceiling wall 24 and continuous with each other. As shown in FIGS. 7-9, the upper cover 2B of the present embodiment has a shielding portion 50 formed to project in the insertion direction in parallel with the opening 23 from the surface on the opposite side of the support portion 22. The shield 50 has a tip 50a at the end in the Z2 direction. The lower end portion 50a is located on a linear path 40 from the opening 23 to the bus bar 4 via the space portion 31 when the lower cover 3B and the upper cover 2B are assembled to each other. The shielding portion 50 of the present embodiment has the same length as the length in the width direction of the opening 23 in the X direction, and is formed extending in the Z2 direction with respect to the opening 23 viewed from the front .

  Next, the operation of the electrical connection box 1 according to the second embodiment will be described. The electrical connection box 1 is configured such that the wire 60 does not contact the bus bar 4 by the shielding portion 50 when a thin rod-like foreign material such as the wire 60 is inserted from the opening 23, as shown in FIG. . When the foreign matter is inserted into the opening 23 while being inclined in the insertion direction, the electric connection box 1 moves from the Z1 direction toward the Z2 direction while the tip of the foreign matter is in sliding contact with the side surface of the electronic component 10. When the foreign matter is inserted from the direction orthogonal to the opening 23, the foreign matter abuts on the side surface of the electronic component 10 to reduce the intrusion into the inside. The electrical connection box 1 according to the first embodiment abuts on the distal end portion 50 a of the shielding portion 50 when the foreign matter tip moves while sliding on the side surface of the electronic component 10. On the other hand, in the electric connection box 1 according to the second embodiment, the front end of the foreign matter moves to a space separated by the shielding portion 50 and adjacent to the partition wall 34 and eventually abuts on the inner bottom surface 32. Even when the front end of the foreign matter abuts on the inner bottom surface 32, the electric connection box 1 restricts the movement toward the bus bar 4 by the front end portion 50a of the shielding portion 50. Even when the front end of the foreign material is curved when it comes in sliding contact with the shielding portion 50 and deviates from the path 40, the movement of the foreign material can be stopped by the inner bottom surface 32. As described above, the electrical connection box 1 can restrict the movement of the foreign matter inserted from the opening 23 and reduce the intrusion of the foreign matter into the space 31.

  As described above, the electric connection box 1 according to the present embodiment has a linear path from the opening 23 to the bus bar 4 via the space 31 when the lower cover 3B is assembled with the upper cover 2B. A shield 50 is provided on the upper side 40 The shield 50 is formed to project in the insertion direction in parallel with the opening 23 from the surface on the opposite side of the support 22, and the tip 50 a is located on the straight path 40. Thereby, the same effect as that of the first embodiment can be obtained.

[Modification]
In the first and second embodiments, the shielding portion 50 is provided corresponding to one of the four openings 23 provided in the electric connection box 1, but the present invention is limited thereto. It is not a thing. That is, in the case where the bus bar 4 is disposed on the linear path 40 passing through the space portion 31 from the opening portion 23, the electrical connection box 1 is provided with the lower cover 3A, 3B or the upper cover corresponding to the opening portion 23. It is preferable to provide the shielding part 50 in at least one of 2A and 2B.

  Further, in the conventional electrical connection box, in order to reduce the insertion of foreign matter from the opening 23, the end of the flat portion 28 of the upper cover 2A, 2B in the X direction from the portion orthogonal to the opening 23 is Z1. An L-shaped end 29 projecting in the direction is formed. In the first and second embodiments, the shape of the L-shaped end 29 is changed. That is, the upper covers 2A and 2B are formed in a direction orthogonal to the insertion direction from the wall 21b of the cylindrical portion 21 to the outside, and have flat portions 28 that close the spaces 31 of the lower covers 3A and 3B. The portion 28 forms an end of the opening 23 in the insertion direction. As a result, when inserting the electronic component 10, the wall 21b of the cylindrical portion 21 is easily deformed, and the insertion force, reaction force and generated stress of the electronic component 10 decrease, and the electronic component 10 is assembled to the electrical connection box 1 It is possible to improve the quality.

  Moreover, in the said 1st Embodiment, although the shielding part 50 is erected from the inner bottom face 32 so that it may adjoin to one of the two partition walls 34 and is connected with the said partition wall 34, it is limited to this is not. For example, the partition wall 34 may be the shielding unit 50. That is, in the partition wall 34, the end portion 50a is formed at the end in the Z1 direction, and the end portion 50a is positioned on the straight path 40 from the opening 23 to the bus bar 4 via the space 31. Configured to

DESCRIPTION OF SYMBOLS 1 electrical connection box 2A, 2B upper cover 3A, 3B lower cover 4 bus-bar 10 electronic component 12 terminal 13, 35 protrusion part 20 holding part 21 cylinder part 21a insertion port 21b wall part 21c guide member 22 support part 23 opening part 24 ceiling wall 25 , 33 outer wall 28 flat portion 31 space portion 32 inner bottom surface 34 partition wall 40 path 50 shield portion 50 a tip portion 100 wire harness 101 electric wire

Claims (5)

Electronic parts,
A bus bar electrically connected to the electronic component;
A lower cover for accommodating the bus bar;
An upper cover assembled to the lower cover and holding an electronic component;
Equipped with
The upper cover is
A cylindrical portion formed in a cylindrical shape and provided with an insertion port into which the electronic component is inserted along the insertion direction;
A supporting portion provided on the opposite side to the insertion port of the cylindrical portion to support the electronic component;
A pair of openings which are provided on mutually facing walls of the cylinder and which penetrate the walls in the opposite direction, facing each other;
Have
The lower cover is
In the assembled state where the upper cover is assembled, there is formed a space that communicates with the opening and holds the bus bar in a direction perpendicular to the insertion direction.
The lower cover and the upper cover are
In the assembled state, at least one side has a shielding portion on a linear path from the opening to the bus bar via the space portion.
Electrical connection box characterized by The lower cover is
It has a partition wall which is erected from the inner bottom surface on which the bus bar is held and which partitions the space portion from the other inner space,
The shielding portion is erected in parallel with the partition wall from the inner bottom surface toward the opening, and a tip portion is located on the path.
The electrical connection box according to claim 1. The upper cover is
The shielding portion is formed in the insertion direction so as to protrude in parallel with the opening from the surface on the opposite side of the support portion, and a tip end is located on the path.
The electrical connection box according to claim 1. The upper cover is
It has a flat portion which is formed in a direction orthogonal to the insertion direction from the wall portion of the cylinder portion to the outside, and which closes the space portion of the lower cover,
The flat portion is
Forming an end of the opening in the insertion direction,
The electrical connection box according to any one of claims 1 to 3. With the electric wire,
Electricity having an electronic component electrically connected to the electric wire, a bus bar electrically connected to the electronic component, a lower cover accommodating the bus bar, and an upper cover assembled to the lower cover and holding the electronic component Connection box,
Equipped with
The upper cover is
A cylindrical portion formed in a cylindrical shape and provided with an insertion port into which the electronic component is inserted along the insertion direction;
A supporting portion provided on the opposite side to the insertion port of the cylindrical portion to support the electronic component;
A pair of openings which are provided on mutually facing walls of the cylinder and which penetrate the walls in the opposite direction, facing each other;
Have
The lower cover is
In the assembled state where the upper cover is assembled, there is formed a space that communicates with the opening and holds the bus bar in a direction perpendicular to the insertion direction.
The lower cover and the upper cover are
In the assembled state, at least one side has a shielding portion on a linear path from the opening to the bus bar via the space portion.
A wire harness characterized by

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