JP7264774B2 - electric junction box - Google Patents

Description

The present invention relates to electrical junction boxes.

Conventionally, there is an electric junction box having bolts to which terminals are connected. Patent Document 1 discloses a box body containing a conductive member that constitutes an electric circuit, a terminal mounting portion provided with a stud bolt that protrudes from the upper surface of the box body and is conductively connected to the conductive member, and a terminal mounting portion. An electrical connection box is disclosed that includes a synthetic resin terminal cover that covers an L-shaped terminal provided at the end of an external electric wire to be mounted.

JP 2017-229128 A

In the electrical connection box, it is desirable to be able to drain liquid such as water when it enters the space accommodating the bolts.

SUMMARY OF THE INVENTION An object of the present invention is to provide an electric junction box capable of draining liquid that has entered a space containing bolts.

The electrical connection box of the present invention comprises: a frame; a block housed inside the frame and having a holding wall formed with a vertically penetrating fitting hole; a bolt unit having a male threaded portion projecting toward the bolt unit; and a side cover engaging a side wall of the frame at a location adjacent to the bolt unit, wherein an upper edge of the side wall of the frame communicates with the male threaded portion. Notches are provided at opposing positions, the side cover covers from above an electric wire with a terminal that is connected to the male screw portion and pulled out through the notch, and the block is provided on the upper surface of the holding wall. It is characterized by having a concave portion provided and extending along the fitting hole, and a vertical hole communicating the concave portion with a space below.

In the electric connection box according to the present invention, the block is provided on the upper surface of the holding wall and has a recess extending along the fitting hole and a vertical hole communicating the recess with the space below. According to the electrical connection box of the present invention, it is possible to discharge liquid such as water that has entered the space accommodating the bolt unit.

FIG. 1 is a perspective view of an electric connection box according to an embodiment. FIG. 2 is an exploded perspective view of the electric connection box according to the embodiment. FIG. 3 is a plan view of the frame, block, and bolt unit according to the embodiment. FIG. 4 is a perspective view of a frame, block, and bolt unit according to an embodiment; FIG. 5 is a perspective view explaining how to assemble the frame, block, and bolt unit according to the embodiment. FIG. 6 is a front view of the bolt unit according to the embodiment; FIG. 7 is an exploded perspective view of the bolt unit according to the embodiment. FIG. 8 is a perspective view of a busbar according to the embodiment. FIG. 9 is a perspective view showing the positional relationship between the busbar and the bolt unit according to the embodiment. FIG. 10 is a perspective view of a block according to the embodiment; FIG. 11 is a plan view of a block according to the embodiment; FIG. 12 is a perspective view illustrating assembly of the terminal-equipped wire to the bolt unit. FIG. 13 is a perspective view explaining how the side cover is attached to the frame. FIG. 14 is a perspective view showing the side cover according to the embodiment; FIG. 15 is a plan view showing the inside of the electrical junction box according to the embodiment; FIG. 16 is a cross-sectional view of the electric connection box according to the embodiment. FIG. 17 is another cross-sectional view of the electric connection box according to the embodiment.

An electric connection box according to an embodiment of the present invention will be described in detail below with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, components in the following embodiments include those that can be easily assumed by those skilled in the art or substantially the same components.

[Embodiment]
Embodiments will be described with reference to FIGS. 1 to 17 . This embodiment relates to an electric connection box. 1 is a perspective view of the electrical junction box according to the embodiment; FIG. 2 is an exploded perspective view of the electrical junction box according to the embodiment; FIG. 3 is a plan view of the frame, block, and bolt unit according to the embodiment; 4 is a perspective view of the frame, block, and bolt unit according to the embodiment, FIG. 5 is a perspective view for explaining how to assemble the frame, block, and bolt unit according to the embodiment, and FIG. 7 is an exploded perspective view of the bolt unit according to the embodiment; FIG. 8 is a perspective view of the busbar according to the embodiment; FIG. 9 is the position of the busbar and the bolt unit according to the embodiment. 10 is a perspective view of the block according to the embodiment, and FIG. 11 is a plan view of the block according to the embodiment.

FIG. 12 is a perspective view explaining assembly of the electric wire with terminal to the bolt unit, FIG. 13 is a perspective view explaining assembly of the side cover to the frame, and FIG. 14 is a perspective view showing the side cover according to the embodiment. 15 is a plan view showing the inside of the electrical junction box according to the embodiment, FIG. 16 is a cross-sectional view of the electrical junction box according to the embodiment, and FIG. 17 is another cross-sectional view of the electrical junction box according to the embodiment. . FIG. 16 shows the XVI-XVI section of FIG. FIG. 17 shows the XVII-XVII section of FIG.

As shown in FIGS. 1 and 2, the electrical junction box 1 of the embodiment has a frame 2, an upper cover 3, a lower cover 4, a block 5, a bolt unit 6, and side covers 7. The electric connection box 1 is mounted on a vehicle such as an automobile, and is arranged in an engine compartment, for example. The electrical connection box 1 may be called a junction box, a fuse box, a relay box, or the like depending on the type of electronic components it accommodates, but in this embodiment, these are collectively called an "electrical connection box." The electric connection box 1 constitutes a wire harness WH together with the electric wire 15 . The frame 2, upper cover 3, lower cover 4, block 5, and side cover 7 are made of insulating synthetic resin, for example.

As shown in FIGS. 2 and 3, the frame 2 has a main body 20 and two fixing portions 21A and 21B. The main body 20 is formed in a tubular shape, and both ends in the axial direction Z are open. More specifically, body 20 has a first opening 20u and a second opening 20d. The first opening 20u is located at one end of the main body 20 in the Z-axis direction, and the second opening 20d is located at the other end of the main body 20 in the Z-axis direction. The frame 2 is mounted on the vehicle with the second opening 20d facing downward.

Body 20 has a first sidewall 22A, a second sidewall 22B, a third sidewall 22C, and a fourth sidewall 22D. The first side wall 22A, the second side wall 22B, the third side wall 22C, and the fourth side wall 22D constitute the outer wall 20t of the main body 20 and extend along the axial direction Z. As shown in FIG. The first side wall 22A and the second side wall 22B face each other, and the third side wall 22C and the fourth side wall 22D face each other. The four side walls 22A, 22B, 22C, and 22D form a tubular portion having a substantially rectangular cross section.

In the following description, the direction in which the first side wall 22A and the second side wall 22B face each other will be referred to as the "first direction X", and the direction in which the third side wall 22C and the fourth side wall 22D face each other will be referred to as the "second direction Y". called. The first direction X and the second direction Y are orthogonal. Also, the first direction X and the second direction Y are orthogonal to the axial direction Z. As shown in FIG. The electrical connection box 1 of the embodiment is mounted on a vehicle such as an automobile such that the axial direction Z is aligned with the vertical direction of the vehicle, or the axial direction Z is along the vertical direction of the vehicle.

The upper cover 3 is a cover that closes the first opening 20 u of the main body 20 . As shown in FIG. 2, the upper cover 3 has a plurality of engaging portions 3a. The engaging portion 3 a engages with an engaging portion 20 a provided on the main body 20 of the frame 2 . The lower cover 4 is a cover that closes the second opening 20d of the main body 20. As shown in FIG. The lower cover 4 has a plurality of engaging portions 4a. The engaging portion 4 a engages with an engaging portion 20 b provided on the main body 20 of the frame 2 .

As shown in FIG. 4 , the frame 2 has a bulging portion 23 . The bulging portion 23 is a portion that protrudes in the first direction X from the first side wall 22A. The bulging portion 23 is arranged in the lower region of the first side wall 22A. The first fixing portion 21A is arranged on the tip surface 23a of the bulging portion 23 in the projecting direction. The first fixing portion 21A protrudes in the first direction X from the lower end of the tip surface 23a. The first fixing portion 21A has a through hole 21c through which a fastening member such as a bolt is inserted. The first fixing portion 21A is fixed to the vehicle body by a fastening member. The bulging portion 23 of this embodiment functions as a bracket that supports the main body 20 .

22 A of 1st side walls have the notch part 26. As shown in FIG. The terminal-equipped electric wire 13 is pulled out from the frame 2 through the notch portion 26 . The position of the notch 26 is a position facing the bolt unit 6 in the first direction X. As shown in FIG. The notch 26 is formed in the upper edge 22u of the first side wall 22A. The notch 26 extends downward along the axial direction Z from the upper end 22e of the first side wall 22A. A lower end of the notch portion 26 is located near the bulging portion 23 . The width of the lower portion of the notch portion 26 in the second direction Y is narrower than the upper portion of the notch portion 26 . The side cover 7 is attached to the notch 26 while sliding from above to close the notch 26 .

A pair of engaging portions 27 are provided on the bulging portion 23 . The engaging portion 27 protrudes upward from the upper surface 23 b of the bulging portion 23 . The pair of engaging portions 27 are spaced apart in the second direction Y so as to sandwich the notch portion 26 .

As shown in FIG. 3, the second fixing portion 21B is arranged on the second side wall 22B. The second fixing portion 21B protrudes in the first direction X from the lower end of the second side wall 22B. The second fixing portion 21B has a through hole 21d through which a fastening member is inserted. The second fixing portion 21B is fixed to the vehicle body by a fastening member. The frame 2 has a semi-cylindrical portion 25 adjacent to the second fixing portion 21B. A wire connected to an electronic component is pulled out from the main body 20 through the semi-cylinder portion 25 .

As shown in FIG. 4 and the like, the main body 20 has partition walls 24 . The partition wall 24 is a plate-like portion extending along the axial direction Z. As shown in FIG. The partition wall 24 surrounds the bolt unit 6 from three sides. The partition wall 24 divides the internal space of the main body 20 into the first accommodation space 2a and the second accommodation space 2b. The first housing space 2a is a space for housing the bolt unit 6. As shown in FIG. The second housing space 2b is a space for housing electronic components. The partition wall 24 extends above the tip of the bolt unit 6 . Electronic components such as the relay 10 and the fuse 11 are accommodated in the second accommodation space 2b.

The partition wall 24 has a first wall portion 24A, a second wall portion 24B, and a third wall portion 24C. The first wall portion 24A is a wall portion facing the first side wall 22A. The first wall portion 24A is orthogonal to the first direction X, for example. The second wall portion 24B and the third wall portion 24C extend from the end portion of the first wall portion 24A toward the notch portion 26 . The second wall portion 24B and the third wall portion 24C face each other in the second direction Y. The partition wall 24 opens toward the notch 26 .

As shown in FIG. 5, a block 5, a busbar 8, and a bolt unit 6 are assembled to the frame 2. As shown in FIG. Block 5 is inserted into frame 2 through second opening 20d and engaged with frame 2 . Block 5 has a first surface 5u and a second surface 5d. The first surface 5u and the second surface 5d face opposite directions. The first surface 5u is the surface on which electronic components are mounted. The second surface 5d is an exit side surface from which electric wires connected to electronic components are drawn out. The electric connection box 1 of this embodiment has a second block 12 . The second block 12 is inserted into the frame 2 through the second opening 20d and assembled to the frame 2, like the block 5 is. The bus bar 8 and bolt unit 6 are inserted into the block 5 from the second surface 5 d and engage with the block 5 .

As shown in FIGS. 6 and 7, the bolt unit 6 has a bolt 60 and a holding portion 61 made of resin. The bolt 60 has a male threaded portion 62 and a projecting portion 63 . The male threaded portion 62 and the projecting portion 63 are integrally formed of conductive metal. The shape of the male screw portion 62 is cylindrical. The projecting portion 63 is connected to the proximal end of the male threaded portion 62 . The protruding portion 63 is a flange-like portion protruding from the male threaded portion 62 along the radial direction of the male threaded portion 62 . The shape of the projecting portion 63 when viewed from above along the central axis CL of the bolt 60 is substantially square. Four corners of the projecting portion 63 are chamfered in an arc shape. The projecting portion 63 has four side surfaces 63a. The side surface 63 a is a surface parallel to the central axis CL of the bolt 60 .

The male threaded portion 62 has a threaded portion 62a and a disk portion 62b. The disc portion 62b is arranged at the proximal end of the male thread portion 62 . The disk portion 62b is a portion having a disk shape and is connected to the projecting portion 63 . The diameter of the disk portion 62b is shorter than the length of one side of the projecting portion 63. As shown in FIG. The threaded portion 62a is a portion in which a thread groove is formed. The threaded portion 62a is arranged along the axial direction of the male threaded portion 62 from the vicinity of the disk portion 62b toward the distal end 62c of the male threaded portion 62 .

The holding portion 61 is made of, for example, an insulating synthetic resin. The holding portion 61 is a member that holds the projecting portion 63 of the bolt 60 . The holding portion 61 has a bottom wall 64 , a top wall 65 and side walls 66 . The bottom wall 64 is a rectangular wall portion having a predetermined plate thickness. The top wall 65 is a rectangular wall corresponding to the bottom wall 64 . The bottom wall 64 and the top wall 65 face each other with a gap therebetween. A housing space 67 is formed between the top wall 65 and the bottom wall 64 to house the protrusion 63 . A side wall 66 connects the bottom wall 64 and the top wall 65 and surrounds the accommodation space 67 from three sides.

A notch 65a is formed in the top wall 65 to hold the disk portion 62b. The notch 65a has a passage portion 65b and an arc-shaped arc portion 65c for allowing the disk portion 62b to pass therethrough. The top wall 65 has a pair of projecting portions 65d arranged between the passage portion 65b and the arc portion 65c. The distance from one protruding portion 65d to the other protruding portion 65d is narrower than the diameter of the disk portion 62b.

One side surface of the holding portion 61 is provided with an opening 61a that communicates the accommodation space 67 with the external space. As shown in FIG. 7, the projecting portion 63 of the bolt 60 is inserted into the housing space 67 through the opening 61a. A rib 64a extending along the insertion direction is formed on the inner surface of the bottom wall 64 . Projection 63 is sandwiched between rib 64 a and top wall 65 . The disc portion 62b is inserted into the notch 65a. The disc portion 62b passes through the passage portion 65b and fits into the arc portion 65c. The bolt 60 is aligned by fitting the disc portion 62b into the arc portion 65c. The bolt 60 is held by the holding portion 61 with the male threaded portion 62 protruding from the holding portion 61 .

As shown in FIG. 8 , the busbar 8 has a main body 80 , a first terminal portion 81 and a plurality of second terminal portions 82 . The busbar 8 is made of a conductive metal plate. The main body 80, the first terminal portion 81, and the second terminal portion 82 are integrated and electrically connected to each other. The first terminal portion 81 is provided as a power input terminal to which a power source is connected. The second terminal portion 82 is provided as a terminal to be connected with an electronic component. The second terminal portions 82 protrude from the main body 80 along the axial direction Z, respectively.

The first terminal portion 81 has a connecting portion 83 , a support portion 84 and a tip portion 85 . In the description of the busbar 8 , the axial direction Z, the first direction X, and the second direction Y are directions when the busbar 8 is assembled to the frame 2 . The support portion 84 extends along the first direction X perpendicular to the axial direction Z. As shown in FIG. The support portion 84 has a through hole 84a through which the male threaded portion 62 of the bolt 60 is inserted.

The connection portion 83 is a portion that connects the main body 80 and the support portion 84 and is perpendicular to the first direction X. As shown in FIG. The first terminal portion 81 is bent so that the connecting portion 83 and the supporting portion 84 are perpendicular to each other. The tip portion 85 is perpendicular to the first direction X. As shown in FIG. The first terminal portion 81 is bent so that the support portion 84 and the tip portion 85 are orthogonal to each other. The connecting portion 83 and the tip portion 85 face each other in the first direction X. As shown in FIG.

As shown in FIG. 9, the holding portion 61 of the bolt unit 6 is inserted, for example, press-fitted between the connecting portion 83 and the tip portion 85 . The tip portion 85 faces one side surface 63 a of the projecting portion 63 in the first direction X. As shown in FIG. The distal end portion 85 restricts relative movement of the projecting portion 63 with respect to the holding portion 61 . The support portion 84 covers the top wall 65 of the holding portion 61 from above. The male screw portion 62 of the bolt unit 6 is inserted through the through hole 84 a of the support portion 84 and protrudes upward from the support portion 84 .

As shown in FIGS. 10 and 11, block 5 is a member having a three-dimensional shape. In the description of the block 5 , the axial direction Z, the first direction X and the second direction Y are the directions when the block 5 is assembled to the frame 2 . The block 5 has an outer wall 50 forming the outer shell of the block 5 . The block 5 has a certain thickness in the axial direction Z. As shown in FIG. The block 5 has a first holding portion 51 that holds the bolt unit 6 and a second holding portion 52 that holds the electronic component. A contact surface 5 a facing the partition wall 24 of the frame 2 is provided at the boundary between the first holding portion 51 and the second holding portion 52 . The contact surface 5a is a plane orthogonal to the axial direction Z. As shown in FIG.

The second holding part 52 has a plurality of cavities 53 into which electronic components are inserted. A second terminal portion 82 of the bus bar 8 is inserted into the cavity 53 from below. The electronic component is inserted into the cavity 53 from above and connected to the second terminal portion 82 .

The first holding portion 51 is positioned at one corner of the block 5 . The shape of the first holding portion 51 in plan view is substantially rectangular. The first holding portion 51 has a holding wall 54 that holds the bolt unit 6 . The holding wall 54 is a tubular wall portion extending in the axial direction Z. As shown in FIG. A fitting hole 55 passing through the holding wall 54 along the axial direction Z is formed in the holding wall 54 . When the block 5 is assembled to the frame 2, the fitting hole 55 extends vertically through the holding wall 54. As shown in FIG. The cross-sectional shape of the fitting hole 55 is a shape corresponding to the holding portion 61 of the bolt unit 6 . The cross-sectional shape of the fitting hole 55 of this embodiment is substantially square.

The fitting hole 55 has a pair of first wall surfaces 56a and 56b facing each other in the second direction Y and a pair of second wall surfaces 57a and 57b facing each other in the first direction X. The first wall surface 56 a and the second wall surface 57 a are adjacent to the second holding portion 52 . The first wall surface 56 b and the second wall surface 57 b are adjacent to the outer wall 50 of the block 5 . Locking arms 56c for locking the bolt unit 6 are provided on the pair of first wall surfaces 56a and 56b, respectively. The locking arm 56c protrudes upward along the first wall surfaces 56a and 56b and has flexibility. The bolt unit 6 inserted into the fitting hole 55 is supported from below by a pair of locking arms 56c.

The holding wall 54 is provided with a first recess 58A, a second recess 58B, a first vertical hole 59A, and a second vertical hole 59B. The first recess 58A and the second recess 58B are formed in the upper surface 54a of the holding wall 54. As shown in FIG. The upper surface 54a is a surface continuous with the contact surface 5a. The first recess 58A and the second recess 58B are grooves provided in the upper surface 54a and recessed downward. The first recess 58A is adjacent to the first wall surface 56a of the fitting hole 55 and extends along the first wall surface 56a. In other words, the first concave portion 58A extends along the opening of the fitting hole 55. As shown in FIG. The first direction X is the extending direction of the first recess 58A. The first concave portion 58A extends along the first direction X in a range including from one end to the other end of the first wall surface 56a.

The second recess 58B is adjacent to the second wall surface 57a of the fitting hole 55 and extends along the second wall surface 57a. That is, the second recess 58B extends along the opening of the fitting hole 55. As shown in FIG. The second direction Y is the extending direction of the second recess 58B. The second concave portion 58B extends along the second direction Y in a range that includes substantially the entirety of the second wall surface 57a from one end to the other end.

59 A of 1st vertical holes are holes which connect 58 A of 1st recessed parts, and lower space. The first vertical hole 59A penetrates the block 5 along the axial direction Z and extends from the first surface 5u of the block 5 to the second surface 5d. The first vertical hole 59A communicates with the end of the first recess 58A. More specifically, the first vertical hole 59A is connected to the end of the first recess 58A on the outer wall 50 side. Liquid such as water that has flowed into the first concave portion 58A is discharged to a space below the block 5 through the first vertical hole 59A.

The second vertical hole 59B is a hole that communicates the second concave portion 58B and the space below. The second vertical hole 59B penetrates the block 5 along the axial direction Z and extends from the first surface 5u of the block 5 to the second surface 5d. The second vertical hole 59B communicates with the end of the second recess 58B. More specifically, the second vertical hole 59B is connected to the end of the second recess 58B on the outer wall 50 side. Liquid such as water that has flowed into the second recess 58B is discharged to a space below the block 5 through the second vertical hole 59B.

After the busbars 8 and the bolt units 6 are assembled to the block 5 , the block 5 is assembled to the frame 2 . However, the busbar 8 and the bolt unit 6 may be assembled to the block 5 after the block 5 is assembled to the frame 2 . As shown in FIG. 4 , the partition wall 24 of the frame 2 contacts the contact surface 5 a of the block 5 . The partition wall 24 may face the contact surface 5a with a slight gap between the partition wall 24 and the contact surface 5a. The partition wall 24 functions as a waterproof wall that separates the first holding portion 51 and the second holding portion 52 of the block 5 .

As shown in FIG. 12, the terminal-equipped electric wire 13 is attached to the bolt unit 6 from above. The electric wire 13 with terminal has a terminal 14 and an electric wire 15 . The terminal 14 has a connecting portion 14 a connected to the busbar 8 and a crimping portion 14 b crimped to the electric wire 15 . The shape of the connecting portion 14a is a flat plate shape. The connection portion 14a has a hole portion 14c through which the male screw portion 62 can be inserted. The terminal 14 has a bent portion 14d between the connecting portion 14a and the crimping portion 14b. The terminal 14 is bent at the bent portion 14d so that the angle formed by the connecting portion 14a and the crimping portion 14b is an obtuse angle.

When the electric wire with terminal 13 is attached to the bolt unit 6 , the male screw portion 62 is inserted through the hole portion 14 c of the terminal 14 . The connection portion 14 a of the terminal 14 is placed on the support portion 84 of the busbar 8 . The terminal 14 is fastened to the busbar 8 with a nut 16 . The nut 16 is screwed onto the threaded portion 62 a of the male threaded portion 62 to physically and electrically connect the terminal 14 to the busbar 8 . As shown in FIG. 13 , in a state where terminal 14 is fixed to bolt unit 6 , electric wire 15 extends obliquely downward in a direction away from bolt unit 6 . A power source such as a battery is connected to the electric wire 15 .

As shown in FIG. 13, the side cover 7 is attached to the first side wall 22A of the frame 2 from above. Note that the terminal-equipped electric wire 13 and the side cover 7 may be attached to the frame 2 at the same time. In this case, the operator holds the terminal-equipped electric wire 13 by the side cover 7 in advance, and then attaches the terminal-equipped electric wire 13 and the side cover 7 to the frame 2 .

As shown in FIG. 14 , the side cover 7 has a first cover portion 71 and a second cover portion 72 . In the description of the side cover 7 , the axial direction Z, the first direction X, and the second direction Y are directions when the side cover 7 is assembled to the frame 2 .

The first direction X is the longitudinal direction of the first cover portion 71 and the second cover portion 72 . The second cover portion 72 is connected to one end of the first cover portion 71 . The first cover part 71 covers the terminal 14 of the electric wire 13 with a terminal from above and from the side. The second cover part 72 covers the electric wire 15 of the terminal-equipped electric wire 13 from above and from the sides. The first cover portion 71 has a top wall 71A, a pair of side walls 71B, an engaging portion 73, a guide wall 74, and an upper wall 75. As shown in FIG. The shape of the second cover portion 72 is a semi-cylindrical shape. The second cover portion 72 is inclined with respect to the first direction X so as to go downward toward the tip of the second cover portion 72 . The inclination angle of the second cover part 72 with respect to the first direction X may be an angle between 20° and 40°, for example.

The engaging portion 73 and the guide wall 74 are provided on the side wall 71B of the first cover portion 71 . The engaging portion 73 engages with the engaging portion 27 of the frame 2 . The engaging portion 73 is formed in a cylindrical shape and has a flexible locking arm 73a as shown in FIG. The engaging portion 27 is inserted into the engaging portion 73 of the side cover 7 and locked by the locking arm 73 a of the engaging portion 73 .

The guide wall 74 has a first wall 74A and a second wall 74B extending along the axial direction Z. As shown in FIG. The first wall 74A and the second wall 74B face each other in the first direction X. The first cover portion 71 is attached to the first side wall 22A so as to close the cutout portion 26 of the frame 2 . At this time, the first side wall 22A enters between the first wall 74A and the second wall 74B and guides the side cover 7 along the axial direction Z. As shown in FIG. The first wall 74A, the second wall 74B, and the first side wall 22A form a labyrinth structure that restricts entry of water or the like.

The upper wall 75 protrudes upward from the top wall 71A. The upper wall 75 closes the upper portion of the notch 26 of the first side wall 22A. As shown in FIG. 2 , the upper wall 75 constitutes a wall surface continuous with the outer wall surface of the first side wall 22A and functions as the outer wall of the frame 2 . The side cover 7 closes the notch 26 of the frame 2 and restricts liquid from entering the interior of the frame 2 . A liquid that may enter the interior of the frame 2 is typically water. For example, when the vehicle body is washed with a high-pressure washer, water may enter the inside of the frame 2 .

The electric connection box 1 of this embodiment has a structure for discharging the liquid that has entered the first housing space 2a of the frame 2 . As described with reference to FIG. 10 and the like, the holding wall 54 of the block 5 is provided with the first recess 58A, the second recess 58B, the first vertical hole 59A, and the second vertical hole 59B. Therefore, when liquid enters the first housing space 2a, the liquid flows into the first recess 58A or the second recess 58B. The liquid that has flowed into the first concave portion 58A is discharged to the lower space through the first vertical hole 59A. The liquid that has flowed into the second recess 58B is discharged to the space below via the second vertical hole 59B. Therefore, the electric connection box 1 of this embodiment can discharge the liquid that has entered the first housing space 2a.

Further, as shown in FIG. 12, the partition wall 24 separates the first housing space 2a and the second housing space 2b in a state where the block 5 is assembled to the frame 2. As shown in FIG. That is, the partition wall 24 separates the first accommodation space 2a communicating with the notch 26 and the second accommodation space 2b in which the electronic component is accommodated. Therefore, the electrical connection box 1 of the present embodiment can appropriately suppress the entry of liquid into the second housing space 2b that houses the electronic components.

Further, in this embodiment, the first recess 58A extends in the first direction X, and the second recess 58B extends in the second direction Y. As shown in FIG. The presence of the two recesses 58A and 58B extending in different directions facilitates the discharge of the liquid that has entered the first housing space 2a. Also, the first recess 58A and the second recess 58B are arranged between the partition wall 24 and the fitting hole 55 . This prevents the liquid that has entered the first housing space 2 a from reaching the partition wall 24 . The entry port for liquid into the frame 2 is, for example, the notch 26 of the first side wall 22A. Since the first recessed portion 58A and the second recessed portion 58B are arranged between the notch portion 26 and the partition wall 24, liquid is prevented from entering the second housing space 2b.

Moreover, the electrical connection box 1 of the present embodiment has a structure capable of suppressing deformation of the block 5 when the nut 16 is tightened onto the bolt unit 6 . As shown in FIG. 16 , the bottom wall 58C of the first recess 58A is at the same height as the projecting portion 63 of the bolt unit 6. As shown in FIG. The bottom wall 58C faces the projecting portion 63 in a direction orthogonal to the central axis CL of the bolt unit 6. As shown in FIG. The bottom wall 58C faces one side surface 63a of the projecting portion 63 in the second direction Y. As shown in FIG. A recessed cavity 58E is formed below the bottom wall 58C.

When the nut 16 is tightened onto the male threaded portion 62 , tightening torque is transmitted from the nut 16 to the male threaded portion 62 . The projection 63 and the holding portion 61 may be rotated around the central axis CL by this tightening torque, and the holding portion 61 may come into contact with the first wall surface 56a. On the other hand, the bottom wall 58</b>C of this embodiment is arranged at a position facing the projecting portion 63 . Therefore, the bottom wall 58C can support the first wall surface 56a and suppress deformation of the holding wall 54. As shown in FIG.

Further, as shown in FIG. 17, the bottom wall 58D of the second concave portion 58B is at the same height position as the projecting portion 63 of the bolt unit 6. As shown in FIG. The bottom wall 58D faces the projecting portion 63 in a direction orthogonal to the central axis CL of the bolt unit 6. As shown in FIG. The bottom wall 58D faces one side surface 63a of the projecting portion 63 in the first direction X. As shown in FIG. A hollow cavity 58F is formed below the bottom wall 58D.

When the nut 16 is tightened onto the male threaded portion 62, the holding portion 61 may come into contact with the second wall surface 57a. In addition, in this embodiment, the bus bar 8 is positioned between the holding portion 61 and the second wall surface 57a. In this case, the tightening torque may be transmitted from the holding portion 61 to the busbar 8 and the busbar 8 may come into contact with the second wall surface 57a. On the other hand, the bottom wall 58</b>D of this embodiment is arranged at a position facing the projecting portion 63 . Therefore, the bottom wall 58D can support the second wall surface 57a and suppress deformation of the holding wall 54. As shown in FIG.

In this embodiment, a bottom wall 58C extending in the first direction X and a bottom wall 58D extending in the second direction Y support the holding wall 54 respectively. That is, the two bottom walls 58C and 58D intersecting each other cooperate to support the holding wall 54. As shown in FIG. Therefore, deformation of the retaining wall 54 when the nut 16 is tightened onto the male threaded portion 62 is appropriately suppressed.

As described above, the electrical connection box 1 of this embodiment has the frame 2, the block 5, the bolt unit 6, and the side cover 7. As shown in FIG. Block 5 is housed inside frame 2 . The block 5 has a holding wall 54 formed with a fitting hole 55 penetrating vertically. The bolt unit 6 fits into the fitting hole 55 . The bolt unit 6 has a male threaded portion 62 that protrudes upward when fitted into the fitting hole 55 . The side cover 7 engages the first side wall 22A of the frame 2 at a position adjacent to the bolt unit 6. As shown in FIG.

An upper edge portion 22u of the first side wall 22A of the frame 2 has a notch portion 26 at a position facing the male screw portion 62. As shown in FIG. The terminal-equipped electric wire 13 is connected to the male screw portion 62 and pulled out from the frame 2 through the notch portion 26 . The side cover 7 covers the terminal-equipped electric wire 13 from above. The block 5 has a first recess 58A and a second recess 58B, and a first vertical hole 59A and a second vertical hole 59B. The first recess 58A and the second recess 58B are provided on the upper surface 54a of the holding wall 54 and extend along the fitting hole 55. As shown in FIG. The first vertical hole 59A and the second vertical hole 59B communicate the first recess 58A and the second recess 58B with the space below.

The electrical junction box 1 of this embodiment can discharge the liquid that has entered the space accommodating the bolt unit 6 to the space below. Therefore, the electrical connection box 1 can prevent deterioration of the electric machine performance in the electrical connection box 1 in advance.

The bolt unit 6 of this embodiment has a bolt 60 and a holding portion 61 . The bolt 60 has a male threaded portion 62 and a projecting portion 63 . The protruding portion 63 protrudes from the male threaded portion 62 along the radial direction of the male threaded portion 62 . The holding portion 61 holds the projecting portion 63 and fits into the fitting hole 55 . Bottom walls 58C and 58D of the first recess 58A and the second recess 58B face the projecting portion 63 in the direction orthogonal to the central axis CL of the bolt 60. As shown in FIG. The bottom walls 58</b>C, 58</b>D can suppress deformation of the holding wall 54 when the nut 16 is tightened onto the male threaded portion 62 .

The block 5 of this embodiment has a first recessed portion 58A and a second recessed portion 58B as recessed portions. The first recess 58A is a recess extending in the first direction X along the fitting hole 55 . The second recessed portion 58B is a recessed portion extending in the second direction Y along the fitting hole 55 . The second direction Y is a direction that crosses the first direction X, and is orthogonal to the first direction X, for example. The block 5 has a first recess 58A and a second recess 58B extending in two different directions so that the liquid can be properly discharged.

The frame 2 of this embodiment has partition walls 24 . The partition wall 24 partitions the internal space of the frame 2 into a first accommodation space 2a in which the bolt unit 6 is accommodated and a second accommodation space 2b in which electronic components are accommodated. The first recess 58A and the second recess 58B are arranged between the partition wall 24 and the fitting hole 55 . With this configuration, the electric connection box 1 of the present embodiment can appropriately prevent liquid from entering the second housing space 2b.

[Modified example of embodiment]
The position and shape of the recess provided in the block 5 are not limited to the positions and shapes illustrated as the first recess 58A and the second recess 58B. For example, block 5 may have a third recess in addition to first recess 58A and second recess 58B. For example, the first recessed portion 58A and the second recessed portion 58B of the embodiment may be connected. In this case, either the first vertical hole 59A or the second vertical hole 59B may be omitted.

The configuration of the bolt unit 6 is not limited to the illustrated configuration. For example, the holding portion 61 may be formed integrally with the bolt 60 by insert molding or the like. The planar shape of the projecting portion 63 is not limited to a square. For example, the shape of the projecting portion 63 in plan view may be rectangular or other polygonal shape.

The contents disclosed in the above embodiments and modifications can be executed in combination as appropriate.

1 electrical connection box 2 frame 2a: first housing space 2b: second housing space 3 upper cover 3a engagement portion 4 lower cover 4a engagement portion 5 block 5a: contact surface 5u: first surface 5d: second Surface 6 Bolt unit 7 Side cover 8 Bus bar 10 Relay 11 Fuse 12 Second block 13 Wire with terminal 14 Terminal 14a: Connection part 14b: Crimping part 14c: Hole 14d: Bending part 15 Wire 16 Nut 20 Body 20u: First opening 20d: Second opening 20t: Outer wall 21A: First fixed part 21B: Second fixed part
21c, 21d: through holes 22A: first side wall 22B: second side wall 22C: third side wall 22D: fourth side wall 22e: upper end 22u: upper edge 23 bulging portion 23a: tip surface 23b: upper surface 24 partition wall 24A: first wall portion 24B: second wall portion 24C: third wall portion 25 semi-cylindrical portion 26 notch portion 27 engagement portion 50 outer wall 51 first holding portion 52 second holding portion 53 cavity 54 Holding wall 54a Upper surface 55 Fitting hole 56a, 56b: First wall surface 56c: Locking arm 57a, 57b Second wall surface 58A: First recess 58B: Second recess 58C, 58D: Bottom wall 59A: First vertical Hole 59B: Second vertical hole 60 Bolt 61 Holding portion 61a Opening 62 Male screw portion 62a: Threaded portion 62b: Disc portion 62c: Tip 63 Protruding portion 63a: Side 64 Bottom wall 65 Top wall 65a: Notch 65b : passage portion 65c: arc portion 65d: projecting portion 66 side wall 67 accommodation space 71 first cover portion 71A: top wall 71B: side wall 72 second cover portion 73 engaging portion 74 guide wall 74A: first wall 74B : Second wall 75 Upper wall 80 Main body 81 First terminal part 82 Second terminal part 83 Connecting part 84 Supporting part 85 Tip part CL Center axis line WH Wire harness X First direction Y Second direction Z axis direction

Claims (4)

a frame;
a block that is housed inside the frame and has a retaining wall formed with a fitting hole penetrating vertically;
a bolt unit having a male screw portion that fits into the fitting hole and protrudes upward;
a side cover engaging a side wall of the frame at a location adjacent to the bolt unit;
with
the upper edge of the side wall of the frame has a notch at a position facing the male screw;
The side cover covers from above an electric wire with a terminal that is connected to the male screw portion and pulled out through the notch portion,
The electrical connection box, wherein the block is provided on the upper surface of the holding wall and has a recess extending along the fitting hole, and a vertical hole communicating the recess with a space below. . The bolt unit has a bolt and a holding portion,
the bolt has the male threaded portion and a protruding portion protruding from the male threaded portion along the radial direction of the male threaded portion;
the holding portion holds the protruding portion and fits into the fitting hole;
2. The electric junction box according to claim 1, wherein the bottom wall of the recess faces the protrusion in a direction orthogonal to the central axis of the bolt. The recess includes a first recess extending in a first direction along the fitting hole and a second recess extending in a second direction along the fitting hole,
The electric connection box according to claim 1 or 2, wherein the second direction is a direction crossing the first direction. The frame has a partition wall that divides the internal space of the frame into a first accommodation space in which the bolt unit is accommodated and a second accommodation space in which the electronic component is accommodated,
The electric connection box according to any one of claims 1 to 3, wherein the recess is arranged between the partition wall and the fitting hole.

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