JP7443601B2 - electrical junction box - Google Patents

Description

The present disclosure relates to electrical junction boxes.

For example, Patent Document 1 discloses a conventional electrical connection box. This electrical connection box includes fixing legs for fixing the box body to the vehicle body. This fixed leg extends from the box body and is fixed to the vehicle body. The fixed legs require a certain degree of rigidity in order to stably support the box body. For this reason, reinforcing ribs are provided on the fixed legs of the electrical connection box.

Japanese Patent Application Publication No. 2020-39194

In the electrical connection box described above, the fixed leg is formed with a recess partitioned by ribs. For this reason, when the electrical connection box is installed in a location where it is exposed to water, there is a problem in that water accumulates in the recesses formed by the ribs of the fixed legs.

Therefore, it is an object of the present invention to provide an electrical connection box that can suppress the accumulation of water in the concave portion of the fixed leg.

An electrical connection box of the present disclosure includes a box main body and a fixed leg extending from the box main body and fixed to an attachment target, the fixed leg including a reinforcing rib, a recess partitioned by the rib, at the bottom of the recess, the surface on the rib side is a first surface, the back surface of the first surface is a second surface, and the bottom is connected to the first surface. a through hole penetrating from to the second surface; and an inclined surface provided at least partially around the through hole in the first surface and having a slope downward toward the through hole, The through hole is provided in the center of the bottom.

According to the present disclosure, it is possible to provide an electrical connection box that can suppress water retention in the recessed portion of the fixed leg.

FIG. 1 is a perspective view of an electrical connection box according to an embodiment. FIG. 2 is a plan view of a fixed leg in an electrical connection box of the same type. FIG. 3 is a sectional view taken along line 3-3 in FIG. FIG. 4 is an enlarged cross-sectional view of a part of the fixed leg in the electrical connection box of the same type. FIG. 5 is an enlarged cross-sectional perspective view of a part of the fixed leg in the electrical connection box of the same type.

[Description of embodiments of the present disclosure]
First, embodiments of the present disclosure will be listed and described.
The electrical connection box of the present disclosure includes:
[1] An electrical connection box comprising a box body and a fixed leg extending from the box body and fixed to an attachment target, the fixed leg being partitioned by a reinforcing rib and the rib. a recessed part, in the bottom of the recessed part, the surface on the rib side is a first surface, the back surface of the first surface is a second surface, and the bottom part is formed from the first surface to the second surface. and an inclined surface provided at least partially around the through hole on the first surface and having a slope downward toward the through hole.

According to this configuration, in the fixed leg, water that has entered the recess partitioned by the rib can be discharged to the outside from the through hole provided at the bottom of the recess. Further, the inclined surface provided around the through hole at the bottom of the recess allows water adhering to the bottom to flow toward the through hole. Therefore, it is possible to suppress the accumulation of water in the concave portion of the fixed leg.

[2] The thickness of the bottom portion from the slope to the second surface increases toward the upstream side of the slope of the slope.
According to this configuration, the thickness from the slope to the second surface at the bottom of the recess becomes thicker toward the upstream side of the slope of the slope. This makes it possible to improve the rigidity at the bottom of the recess.

[3] The inclined surface has a valley-shaped drainage channel provided along the radial direction of the through hole, and the drainage channel is inclined downward toward the through hole.
According to this configuration, at the bottom of the recess, the drainage channel provided on the slope can encourage the flow of water toward the through hole on the slope.

[4] The fixed leg has a connecting part connected to the box body and a fixing part fixed to the attachment target, and the drainage channel connects the connecting part and the fixing part. It is provided along a direction parallel to a virtual straight line.

The fixed leg receives the load of the box body using a fixed part fixed to the object to which it is attached as a fulcrum. When providing a valley-shaped drainage channel on the inclined surface of the bottom, there is a concern that depending on the direction in which the drainage channel is formed, it may be difficult to ensure the rigidity of the bottom that can withstand the load of the box body. In this regard, according to the present configuration, the drainage channel is provided along the direction parallel to the virtual straight line connecting the connecting part and the fixed part, so even though the drainage channel is provided on the slope, the box body This makes it possible to ensure the rigidity of the bottom part that can withstand the load of .

[5] The drainage channel provided along a direction parallel to the straight line is a first drainage channel, and the slope has a second drainage channel provided along a radial direction of the through hole. However, the second drainage channel is provided along a direction intersecting the straight line.

According to this configuration, at the bottom of the recess, both the first drainage channel and the second drainage channel provided in the inclined surface can further promote the flow of water toward the through hole in the inclined surface.

[Details of embodiments of the present disclosure]
A specific example of the electrical connection box of the present disclosure will be described below with reference to the drawings. In each drawing, a part of the configuration may be exaggerated or simplified for convenience of explanation. Further, the dimensional ratio of each part may differ in each drawing. Furthermore, "parallel" in this specification includes not only strictly parallel cases but also approximately parallel cases within the range where the functions and effects of this embodiment can be achieved. Note that the present invention is not limited to the following examples, but is indicated by the scope of the claims, and is intended to include all changes within the meaning and scope equivalent to the scope of the claims.

The electrical connection box 10 shown in FIG. 1 is arranged, for example, between a power source and various electrical components in a vehicle, and supplies power from the power source to the various electrical components.
The electrical connection box 10 includes a box body 11 and fixed legs 12 extending from the box body 11. The box body 11 houses various electrical components such as relays and fuses. As shown in FIG. 2, the fixed legs 12 connect the box body 11 with an attachment target A to which the electrical connection box 10 is attached. The attachment target A is, for example, a vehicle body panel.

(Configuration of fixed leg 12)
Hereinafter, the configuration of the fixed leg 12 will be explained according to FIGS. 2 to 5. In the XYZ axes that are orthogonal to each other in the drawings, the X axis represents the longitudinal direction X of the fixed leg 12, the Y axis represents the width direction Y of the fixed leg 12, and the Z axis represents the height direction Z of the fixed leg 12. There is. In the following description, for convenience, one side of the fixed leg 12 in the height direction Z may be expressed as an upper side, and the opposite side may be expressed as a lower side. This does not mean that the electrical connection box 10 is mounted on the vehicle with the upper side of the fixed leg 12 in the height direction Z facing upward. That is, the expressions "upper" and "lower" do not limit the mounting posture of the electrical junction box 10 on the vehicle.

As shown in FIGS. 2 and 3, the fixed leg 12 has a connecting portion 13 that is connected to the box body 11 and a fixing portion 14 that is fixed to the attachment target A. Note that most of the fixed legs 12 are made of synthetic resin. Moreover, the fixed leg 12 is formed by injection molding.

The fixed leg 12 has an elongated shape extending in the longitudinal direction X. Specifically, the dimension of the fixed leg 12 in the longitudinal direction X is longer than the maximum dimension of the fixed leg 12 in the width direction Y. The connecting portion 13 is provided, for example, at one end of the fixed leg 12 in the longitudinal direction X. The fixing part 14 is provided at the other end of the fixing leg 12 in the longitudinal direction X, that is, at the end opposite to the end where the connecting part 13 is provided.

The fixing part 14 has, for example, a bolt insertion hole 15. The bolt insertion hole 15 passes through the fixing portion 14 along the width direction Y of the fixing leg 12, for example. A bolt (not shown) is inserted into the bolt insertion hole 15 . The fixing portion 14 is fixed to the attachment target A by fastening the bolt.

The fixing part 14 has a positioning protrusion 16 that is fitted into a positioning hole (not shown) of the attachment target A. By fitting the positioning protrusion 16 into the positioning hole of the attachment target A, the fixed leg 12 is positioned in the longitudinal direction X and the height direction Z.

(Configuration of ribs 21 and recesses 22)
As shown in FIGS. 2 and 3, the fixed leg 12 has reinforcing ribs 21. Further, the fixed leg 12 has a recess 22 partitioned by a reinforcing rib 21. The fixed leg 12 has an intermediate portion 23 located between the connecting portion 13 and the fixed portion 14 in the longitudinal direction X. The rib 21 and the recess 22 are provided in the intermediate portion 23 of the fixed leg 12.

The fixed leg 12 has a base portion 24 that constitutes the lower end surface of the intermediate portion 23 . Rib 21 extends upward from base 24 .
The rib 21 has, for example, a first wall portion 25 provided along the longitudinal direction X of the fixed leg 12 and a second wall portion 26 provided along the width direction Y of the fixed leg 12. . A plurality of first wall portions 25 and a plurality of second wall portions 26 are provided. Each first wall portion 25 and each second wall portion 26 extend upward from the base portion 24 . Note that a portion of the rib 21 is formed into a lattice shape by the first wall portion 25 and the second wall portion 26.

The recessed portion 22 is a portion surrounded on all sides by the first wall portion 25 and the second wall portion 26 of the rib 21. In the fixed leg 12, there are a plurality of recesses 22. Each recess 22 has an opening 27 that opens upward in the height direction Z. For example, the fixed leg 12 is attached with the opening 27 of the recess 22 facing upward.

As shown in FIGS. 1 and 3, the fixed leg 12 has a guide portion 28 extending downward from the connecting portion 13. As shown in FIGS. The guide portion 28 extends to a position below the base portion 24 of the intermediate portion 23 .
The guide portion 28 is combined with the main body side guide portion 11a shown in FIG. The guide portion 28 and the main body side guide portion 11a are combined with each other to constitute a cylindrical wire insertion portion 11b. An electric wire (not shown) connected to an electric component inside the box body 11 is inserted into the electric wire insertion portion 11b. The electric wire is drawn out of the box body 11 through the electric wire insertion part 11b. Note that the electric wire is fixed to the guide portion 28 of the fixed leg 12 by, for example, wrapping with tape.

The guide portion 28 extends obliquely from the connecting portion 13 toward the intermediate portion 23 on the lower side of the fixed leg 12 . For this reason, in the mold for forming the fixed leg 12, it is necessary to set the cutting direction of the lower mold for molding the guide portion 28 and the lower surface of the base 24 of the intermediate portion 23 in the longitudinal direction X, which is perpendicular to the height direction Z. occurs. Therefore, in the fixed leg 12 of this embodiment, the opening 27 of the recess 22 cannot be designed to face the guide part 28 side, that is, the rib 21 cannot be provided below the base 24, and the openings of the rib 21 and the recess 22 cannot be designed. 27 is designed to face upward in the height direction Z.

As shown in FIGS. 4 and 5, each recess 22 has a bottom 30 at the lower end in the height direction Z. As shown in FIGS. The bottom portion 30 is part of the base portion 24 of the intermediate portion 23 . The bottom portion 30 has a first surface 31 that is the surface of the bottom portion 30 on the rib 21 side, that is, an upper surface, and a second surface 32 that is the back surface of the first surface 31.

The bottom 30 of the recess 22 has a through hole 33 that penetrates from the first surface 31 to the second surface 32. The through hole 33 penetrates the bottom portion 30 along the height direction Z, for example. The shape of the through hole 33 when viewed from the height direction Z is, for example, circular. Further, the through hole 33 is provided, for example, in the center of the bottom portion 30. Thereby, the entire outer peripheral edge of the bottom portion 30 is connected to the rib 21, which can contribute to improving the rigidity of the fixed leg 12.

The bottom 30 of the recess 22 has an inclined surface 34 on the first surface 31 . The inclined surface 34 is provided all around the through hole 33. The inclined surface 34 has a slope that descends toward the through hole 33. Note that the through hole 33 and the inclined surface 34 are formed in each recess 22, for example.

In the bottom portion 30, the thickness along the height direction Z from the inclined surface 34 to the second surface 32 is defined as T. The thickness T of the bottom portion 30 becomes thinner at the inner edge portion connected to the through hole 33. The thickness T of the bottom portion 30 increases toward the upstream side of the slope of the sloped surface 34, that is, toward the outer edge connected to the rib 21. That is, the inclined surface 34 is formed by increasing the thickness T toward the outer edge of the bottom portion 30 that connects to the rib 21. Note that the second surface 32 of the bottom portion 30 has a planar shape along the XY plane, for example.

As shown in FIGS. 2, 4, and 5, the inclined surface 34 includes a first drainage channel 35 and a second drainage channel 36. The first drainage channel 35 is formed along the longitudinal direction X of the fixed leg 12. The second drainage channel 36 is formed along the width direction Y of the fixed leg 12. Note that FIG. 4 shows a cross-sectional view taken along the longitudinal direction X at the first drainage channel 35, and FIG. 5 shows a cross-sectional view taken along the longitudinal direction The cross-sectional view is shown.

The first drainage channel 35 is provided along a direction parallel to an imaginary straight line L connecting the connecting portion 13 and the fixed portion 14 shown in FIG. 2 . Note that in this embodiment, the straight line L is parallel to the longitudinal direction X of the fixed leg 12. Further, the second drainage channel 36 is provided along a direction intersecting the straight line L.

As shown in FIGS. 4 and 5, two first drainage channels 35 and two second drainage channels 36 are provided alternately at intervals of, for example, 90 degrees in the circumferential direction of the through hole 33. The first drainage channel 35 and the second drainage channel 36 have, for example, a valley shape provided along the radial direction of the through hole 33. That is, the first drainage channel 35 and the second drainage channel 36 are regions where the thickness T becomes thinner in the circumferential direction of the through hole 33. The first drainage channel 35 and the second drainage channel 36 are inclined downward toward the through hole 33.

The operation of this embodiment will be explained.
In the fixed leg 12 , water that has entered the recess 22 through the opening 27 is discharged to the outside of the recess 22 through the through hole 33 in the bottom 30 . Furthermore, water adhering to the first surface 31 of the bottom portion 30 flows toward the through hole 33 by the inclined surface 34 . Here, the inclined surface 34 has a valley-shaped first drainage channel 35 and a second drainage channel 36 that are formed along the radial direction of the through hole 33 . Therefore, it is possible to flow the water adhering to the inclined surface 34 into the through hole 33 while mainly concentrating it in the first drainage channel 35 and the second drainage channel 36.

The effects of this embodiment will be explained.
(1) The first surface 31 of the bottom portion 30 is provided with an inclined surface 34 that slopes downward toward the through hole 33. According to this configuration, in the fixed leg 12, water that has entered the recess 22 partitioned by the rib 21 can be discharged to the outside from the through hole 33 provided in the bottom 30 of the recess 22. Furthermore, the inclined surface 34 provided around the through hole 33 of the bottom 30 in the recess 22 allows water adhering to the bottom 30 to flow toward the through hole 33 . Therefore, it is possible to suppress the accumulation of water in the recess 22 of the fixed leg 12.

(2) The thickness of the bottom portion 30 from the inclined surface 34 to the second surface 32 increases toward the upstream side of the inclined surface 34. According to this configuration, the thickness from the sloped surface 34 to the second surface 32 at the bottom 30 of the recessed portion 22 increases toward the upstream side of the slope of the sloped surface 34. This makes it possible to improve the rigidity of the bottom 30 of the recess 22.

(3) The inclined surface 34 has a valley-shaped first drainage channel 35 provided along the radial direction of the through hole 33. The first drainage channel 35 is inclined downward toward the through hole 33. According to this configuration, at the bottom 30 of the recess 22 , the first drainage channel 35 provided in the slope 34 can encourage the flow of water toward the through hole 33 in the slope 34 .

(4) The fixed leg 12 has a connecting portion 13 that is connected to the box body 11 and a fixing portion 14 that is fixed to the attachment target A. The first drainage channel 35 is provided along a direction parallel to the imaginary straight line L connecting the connecting portion 13 and the fixed portion 14.

The fixed leg 12 receives the load of the box body 11 using a fixed part 14 fixed to the attachment target A as a fulcrum. When a valley-shaped drainage channel is provided on the inclined surface 34 of the bottom part 30, there is a concern that it may be difficult to ensure the rigidity of the bottom part 30 that can withstand the load of the box body 11, depending on the direction in which the drainage channel is formed. In this regard, according to the present configuration, the first drainage channel 35 is provided along a direction parallel to the imaginary straight line L connecting the connecting portion 13 and the fixed portion 14. Therefore, even though the first drainage channel 35 is provided on the inclined surface 34, it is possible to ensure the rigidity of the bottom portion 30 that can withstand the load of the box body 11.

(5) The inclined surface 34 has a second drainage channel 36 provided along the radial direction of the through hole 33, and the second drainage channel 36 is provided along a direction intersecting the straight line. . According to this configuration, both the first drainage channel 35 and the second drainage channel 36 provided on the inclined surface 34 can further promote the flow of water toward the through hole 33 on the inclined surface 34.

(6) The through hole 33 is provided in the center of the bottom portion 30. That is, the bottom portion 30 is formed around the entire periphery of the through hole 33 . According to this configuration, since the entire outer peripheral edge of the bottom portion 30 is connected to the rib 21, it can contribute to improving the rigidity of the fixed leg 12.

This embodiment can be modified and implemented as follows. This embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
- In the above embodiment, the through hole 33 is provided in the center of the bottom part 30, but in addition to this, for example, when viewed from the height direction Z, the through hole 33 is provided in the first wall part 25 and the second wall part of the rib 21. It may be provided at a position adjacent to at least one of the wall portions 26.

- In the above embodiment, the through hole 33 has a circular shape when viewed from the height direction Z, but it may have an elliptical shape or a polygonal shape, for example.
- In the recessed part 22 of the said embodiment, the 1st drainage channel 35 of the bottom part 30 may be omitted. Furthermore, in the recess 22 of the above embodiment, the second drainage channel 36 in the bottom 30 may be omitted. Moreover, in the recessed part 22 of the said embodiment, both the 1st drainage channel 35 and the 2nd drainage channel 36 of the bottom part 30 may be omitted. When both the first drainage channel 35 and the second drainage channel 36 are omitted, the inclined surface 34 may be formed into a conical shape, for example.

- Although the inclined surface 34 in the above embodiment is provided all around the through hole 33, the present invention is not particularly limited to this, and the inclined surface 34 may be provided partially around the through hole 33.
- The number of first wall portions 25 and second wall portions 26 and the number of recesses 22 in rib 21 are not limited to the above embodiments, and can be changed as appropriate depending on the configuration of fixed leg 12. .

- The attachment target A to which the fixing portion 14 of the fixed leg 12 is fixed is not limited to the vehicle body panel, and may be a portion of the vehicle other than the vehicle body panel.

10 Electrical junction box 11 Box main body 11a Main body side guide part 11b Wire insertion part 12 Fixed leg 13 Connecting part 14 Fixed part 15 Bolt insertion hole 16 Positioning protrusion 21 Rib 22 Recessed part 23 Intermediate part 24 Base part 25 First wall part 26 Second Wall portion 27 Opening 28 Guide portion 30 Bottom portion 31 First surface 32 Second surface 33 Through hole 34 Inclined surface 35 First drainage channel (drainage channel)
36 Second drainage channel (drainage channel)
A Mounting target L Straight line T Thickness X Longitudinal direction of fixed leg 12 Y Width direction of fixed leg 12 Z Height direction of fixed leg 12

Claims (5)

The box body and
a fixed leg extending from the box body and fixed to the attachment target;
An electrical junction box comprising:
The fixed leg has a reinforcing rib and a recess partitioned by the rib,
At the bottom of the recess, the surface on the rib side is a first surface, and the back surface of the first surface is a second surface,
The bottom portion includes a through hole penetrating from the first surface to the second surface, and an inclined surface provided at least partially around the through hole on the first surface and having a slope downward toward the through hole. and,
The through hole is provided in the center of the bottom of the electrical connection box. The electrical connection box according to claim 1, wherein the thickness of the bottom portion from the slope to the second surface increases toward the upstream side of the slope of the slope. The inclined surface has a valley-shaped drainage channel provided along the radial direction of the through hole,
The electrical connection box according to claim 1 or 2, wherein the drainage channel is inclined downward toward the through hole. The fixed leg has a connecting part connected to the box main body, and a fixing part fixed to the attachment target,
The electrical connection box according to claim 3, wherein the drainage channel is provided along a direction parallel to a virtual straight line connecting the connecting portion and the fixing portion. The drainage channel provided along a direction parallel to the straight line is a first drainage channel,
The inclined surface has a second drainage channel provided along the radial direction of the through hole,
The electrical connection box according to claim 4, wherein the second drainage channel is provided along a direction intersecting the straight line.