JP2021019364A - Wire harness protector and wire harness with the same - Google Patents

Abstract

To provide a protector for a wire harness capable of suppressing a load applied to the wire harness and to provide a wire harness with the same.SOLUTION: The protector for a wire harness includes a plurality of protector divided bodies 10 provided along a path of the wire harness connected to a battery and a connecting unit 20 for connecting the protector divided bodies 10 to each other. The connecting unit 20 has a pair of contact units 22 coming into contact with each other in a bent state of the connecting portion 20.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a protector for a wire harness and a wire harness with a protector.

Conventionally, protectors for storing and protecting wire harnesses distributed to vehicle bodies are well known. The protector described in Patent Document 1 has a plurality of protector divisions arranged along the extending direction of the wire harness. The protector divisions are arranged for each of a plurality of battery module rows constituting the assembled battery. The protector split body is provided with a wire harness path. The wire harness is connected to each battery module row through between the plurality of protector dividers.

JP-A-2018-85191

For example, when transporting the protector through a wire harness, the protector can be transported in a shortened length by bending between the divided protectors. By the way, when the wire harness between the protector split bodies is bent at an acute angle, a load is applied to the wire harness. Due to this load, for example, there is a concern that a bending habit may occur when the wire harness is bent.

An object of the present disclosure is to provide a protector for a wire harness capable of suppressing a load applied to the wire harness, and a wire harness with a protector.

The protector for a wire harness of the present disclosure includes a plurality of protector divided bodies provided along the path of the wire harness connected to the battery, and a connecting portion for connecting the protector divided bodies to each other. It has a pair of contact portions that come into contact with each other in a bent state of the connection portion.

The wire harness with a protector of the present disclosure includes the wire harness protector and the wire harness connected to the battery through the protector split body.

According to the present disclosure, it is possible to provide a protector for a wire harness capable of suppressing a load applied to the wire harness, and a wire harness with a protector.

FIG. 1 is a top view of a wire harness protector according to an embodiment. FIG. 2 is a perspective view of a connecting portion having the same shape. FIG. 3 is a side view of the connected portion in the deployed state in the same form. FIG. 4 is a side view of the connected portion in the bent state in the same form. FIG. 5 is a side view of the connection portion of the modified example. FIG. 6 is a side view of the connecting portion bent to one side in the thickness direction in the modified example. FIG. 7 is a side view of the connecting portion bent to the other side in the thickness direction in the modified example. FIG. 8 is a top view of the connection portion of the modified example.

[Explanation of Embodiments of the present disclosure]
First, embodiments of the present disclosure will be listed and described.
The protector for the wire harness of the present disclosure is
[1] A plurality of protector split bodies provided along a path of a wire harness connected to a battery and a connecting portion for connecting the protector split bodies are provided, and the connecting portion is in a bent state of the connecting portion. It has a pair of contact portions that come into contact with each other.

According to the above aspect, further bending of the connecting portion is restricted by bending the connecting portion and bringing the pair of contact portions into contact with each other. Therefore, it is possible to regulate the bending between the protector split bodies connected by the connecting portion, and it is possible to suppress the wire harness between the protector split bodies from bending at an acute angle. As a result, the load applied to the wire harness can be suppressed. Here, the bent state of the connecting portion includes a state in which the connecting portion is bent so as to bend between the protector divided bodies.

[2] It is preferable that the connecting portion has a band-shaped flexible portion along the connecting direction, and the contact portion is provided at an interval on the end face in the width direction of the flexible portion. ..
According to the above aspect, as the flexible portion bends, the contact portion is displaced and the contact portions come into contact with each other. The abutting portions abut at an angle corresponding to the distance provided between the abutting portions. Thereby, the bending between the protector divided bodies can be preferably regulated.

[3] Each of the abutting portions projects along the thickness direction of the flexible portion, and the abutting portions may abut against each other in a bent state of the flexible portion in the thickness direction. preferable.
According to the above aspect, when the strip-shaped flexible portion is bent in the thickness direction, the protruding portions in the contact portion come into contact with each other. As a result, the bending angle can be suppressed.

[4] Each of the contact portions has a first protruding portion protruding to one side in the thickness direction and a second protruding portion protruding to the other side in the thickness direction, and each of the first protruding portions. The portions are in contact with each other in a bent state of the flexible portion in the thickness direction to one side, and each of the second protruding portions is in a bent state of the flexible portion in the other side in the thickness direction. , Preferably abut each other.

According to the above aspect, when the flexible portion is bent to one side in the thickness direction, the bending is restricted by the first protruding portion of each contact portion coming into contact with the flexible portion. Further, when the flexible portion is bent to the other side in the thickness direction, the bending is restricted by the second protruding portion of each contact portion coming into contact with the flexible portion. That is, the connection can regulate bending in both one side and the other side in the thickness direction.

[5] It is preferable that the first protruding portion and the second protruding portion are provided in different shapes.
According to the above aspect, the bending angle at which the first protruding portions of each contact portion abut against each other and the bending angle at which the second protruding portions abut with each other can be changed. Thereby, the bending between the protector divided bodies can be preferably regulated.

[6] The flexible portion has a thin-walled portion and a thick-walled portion having a thickness thicker than the thin-walled portion, and a plurality of the thin-walled portion and the thick-walled portion are alternately provided along the connection direction. Is preferable.
According to the above aspect, the thick portion has higher strength than the thin portion while providing the thin portion that allows bending. That is, the strength can be increased while allowing bending.

[7] It is preferable that the connecting portion is arranged between the protector divided bodies in the expanded state.
According to the above aspect, by arranging the connecting portion so as to fit in the gap between the protector divided bodies, it is possible to suppress an increase in the physique in the deployed state. That is, it is possible to suppress an increase in the physique of the entire protector while providing a connecting portion that regulates bending. Here, the unfolded state includes a state in which the connecting portion is unfolded so that the protector divided bodies are straight to each other.

The wire harness with protector of the present disclosure is
[8] The wire harness protector and the wire harness connected to the battery through the protector split body are provided.

According to the above aspect, it has the same function as the protector for any one of the above wire harnesses. Therefore, the load applied to the wire harness can be suppressed.
[Details of Embodiments of the present disclosure]
Hereinafter, specific examples of the wire harness protector and the wire harness with the protector of the present disclosure will be described with reference to the drawings. It should be noted that the present disclosure is not limited to these examples, and is indicated by the scope of claims, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims.

As shown in FIG. 1, the wire harness with a protector of the present embodiment is provided in a vehicle such as an electric vehicle or a plug-in hybrid vehicle. The wire harness with a protector includes a protector 1 as a protector for the wire harness and a wire harness 2 housed in the protector 1. Further, in the vehicle, a plurality of battery modules 3 constituting the battery are arranged in one direction. A plurality of wire harnesses 2 are provided according to the number of battery modules 3, and are connected to each of the battery modules 3. The wire harness 2 extends along the direction in which the battery modules 3 are arranged in a state of being assembled on the battery module 3.

The vehicle is provided with, for example, a control device (not shown) that detects the voltage of each battery module 3 via the wire harness 2. That is, the wire harness 2 is for detecting the voltage of the battery module 3. The battery module 3 is provided with a connector 4 for connecting to the wire harness 2. One end of each wire harness 2 is connected to the connector 4 of the battery module 3, and the other end is connected to the control device.

The protector 1 accommodates and protects a plurality of wire harnesses 2. The protector 1 extends along the path of the wire harness 2 as a whole. The protector 1 includes a plurality of protector divided bodies 10 provided along the extending direction thereof. The plurality of protector divisions 10 are provided on the path of the wire harness 2.

Each of the plurality of protector divisions 10 is arranged on the upper surface of the battery module 3. Each protector divided body 10 is provided long along the direction in which the battery modules 3 are arranged and flat along the upper surface of the battery modules 3 in a state of being assembled on the battery module 3. A plurality of protector divisions 10 are arranged on the battery module 3 along the longitudinal direction of the protector divisions 10. Further, a gap is provided between the adjacent protector divided bodies 10.

The wire harness 2 passes through the protector split body 10 and is connected to the battery module 3. The wire harness 2 has an exposed portion 2a exposed from the protector split body 10 to the gap between the protector split bodies 10 on the path thereof.

The protector 1 includes a connecting portion 20 for connecting the protector divided bodies 10. The connecting portion 20 extends in the connecting direction and connects the adjacent protector dividing bodies 10 to each other along the connecting direction. The connecting portion 20 is provided on the end face in the longitudinal direction of the protector split body 10.

The connecting portion 20 is provided so that the connecting direction can be bent. The connecting portion 20 transitions between a bent state in which the protector divided bodies 10 are bent so as to be bent and an unfolded state in which the protector divided bodies 10 are unfolded so as to be straight. In the state of being assembled on the battery module 3, the connecting portion 20 connects the facing end faces of the protector dividing body 10 to each other in the expanded state.

The connecting portion 20 has a width direction orthogonal to the connecting direction and a thickness direction orthogonal to the connecting direction and the width direction. An exposed portion 2a of the wire harness 2 is arranged on the outer side in the width direction of the connecting portion 20 between the protector divided bodies 10.

As shown in FIG. 2, the connecting portion 20 includes a strip-shaped flexible portion 21 along the connecting direction thereof. The flexible portion 21 is provided thinly in the thickness direction and can be bent in the thickness direction. The flexible portion 21 bends in the thickness direction in the bent state and unfolds straight in the unfolded state.

The connecting portion 20 includes a contact portion 22 provided on an end surface of the flexible portion 21 in the width direction. A plurality of abutting portions 22 are provided on the end faces of the flexible portions 21 in the width direction at intervals. Each contact portion 22 projects outward in the width direction from the flexible portion 21, and the outside in the width direction extends along the connection direction. The abutting portions 22 are provided on both sides of the flexible portion 21 in the width direction at symmetrical positions with the flexible portion 21 interposed therebetween.

Each contact portion 22 is provided so as to project from the flexible portion 21 along the thickness direction. Each contact portion 22 has a first protruding portion 22a projecting to one side in the thickness direction and a second protruding portion 22b projecting to the other side in the thickness direction. In the case of the present embodiment, the first protruding portion 22a and the second protruding portion 22b are formed in the same shape. Further, the first protruding portion 22a and the second protruding portion 22b form an outer shape of the connecting portion 20 in the thickness direction. In the unfolded state, the tips of the first protruding portion 22a and the second protruding portion 22b in the protruding direction are aligned with the upper surface and the lower surface of the protector split body 10. That is, the connecting portion 20 has the same thickness dimension as the protector split body 10.

The flexible portion 21 is provided with a plurality of thin-walled portions 21a and thick-walled portions 21b thicker than the thin-walled portion 21a alternately along the connection direction. The thin portion 21a and the thick portion 21b extend so as to be orthogonal to the connection direction. The thin portion 21a can be bent in the thickness direction. In the connection direction, a thick portion 21b is provided at a position where the contact portion 22 of the flexible portion 21 is provided. Further, in the flexible portion 21, side wall portions 23 protruding in the thickness direction are provided at both ends in the connection direction. The side wall portion 23 is aligned with the contact portion 22 along the connection direction. Further, the distance between the side wall portion 23 and the contact portion 22 adjacent thereto is the same as the distance between the contact portions 22. The flexible portion 21 is fixed so as not to bend at the position of the side wall portion 23.

The operation of this embodiment will be described.
As shown in FIG. 3, in the deployed state, the connecting portion 20 is straight along the longitudinal direction of the protector split body 10. The abutting portion 22 is arranged at a certain distance from the adjacent abutting portion 22 in the deployed state. The distance between the first protrusions 22a and the distance between the second protrusions 22b of the adjacent contact portions 22 are the same. In this state, bending of the flexible portion 21 to both sides in the thickness direction is allowed. Further, the thickness dimension of the connecting portion 20 is the same as that of the protector split body 10. In the unfolded state, the connecting portion 20 is entirely contained within the region between the protector divided bodies 10. Therefore, the protector 1 can reduce the physique in the thickness direction in the deployed state.

As shown in FIG. 4, in the bent state in which the protector split bodies 10 are bent, the connecting portion 20 is bent in the thickness direction. In the bent state, the angle formed by the protector divided bodies 10 is defined as the bent angle. The bending angle decreases as it bends from the deployed state. The connecting portion 20 is bent in the thickness direction when the flexible portion 21 is bent along the thin portion 21a. The contact portion 22 is displaced from the deployed state according to the bending of the flexible portion 21. When the flexible portion 21 bends to one side in the thickness direction from the deployed state, the contact portion 22 is displaced so that the distance between the first protruding portions 22a becomes smaller. Then, at a position where the flexible portion 21 is further bent to one side in the thickness direction, the adjacent first protruding portions 22a come into contact with each other. Further, when the flexible portion 21 is bent from the deployed state to the other side in the thickness direction, the contact portion 22 is displaced so that the distance between the second protruding portions 22b becomes small. Then, at a position where the flexible portion 21 is further bent to the other side in the thickness direction, the adjacent second protruding portions 22b come into contact with each other.

The contact portion 22 regulates the bending of the flexible portion 21 in a state where the contact portions 22 are in contact with each other. Specifically, the contact portion 22 regulates that the flexible portion 21 is further bent from the position where the contact portions 22 are in contact with each other. Further, the contact portion 22 located next to the side wall portion 23 comes into contact with the side wall portion 23 in a bent state. When all of the plurality of contact portions 22 and the side wall portions 23 come into contact with each other at a predetermined bending angle in the bent state, the flexible portion 21 does not further bend. Hereinafter, a predetermined bending angle when all of the plurality of contact portions 22 and the side wall portions 23 are in contact with each other will be referred to as a regulated bending angle.

The regulated bending angle is related to the distance between the abutting portions 22. In the case of the present embodiment, the distance between the contact portions 22 is the same between the first protruding portions 22a and between the second protruding portions 22b. Therefore, the regulated bending angle is the same when it is bent to one side in the thickness direction and when it is bent to the other side. The connecting portion 20 does not bend at an angle smaller than the regulated bending angle. Therefore, the connecting portion 20 restricts the bending between the protector divided bodies 10 to or more than the regulated bending angle on one side and the other side in the thickness direction. In this embodiment, the contact portion 22 is provided so that the regulated bending angle is 90 degrees. Therefore, in the wire harness 2, the exposed portion 2a between the protector divided bodies 10 does not bend to 90 degrees or less and bend at an acute angle.

The effect of this embodiment will be described.
(1) The protector 1 includes a connecting portion 20 for connecting the protector split body 10. The connecting portion 20 has a pair of contact portions 22 that come into contact with each other in a bent state of the connecting portion 20. According to this, the connecting portion 20 does not bend beyond the regulated bending angle at which the contact portions 22 come into contact with each other. Therefore, it is possible to regulate the bending between the set of protector split bodies 10 connected by the connecting portion 20. As a result, it is possible to prevent the exposed portion 2a of the wire harness 2 between the protector split bodies 10 from bending at an acute angle. Therefore, the load applied to the wire harness 2 can be suppressed.

(2) The connecting portion 20 has a strip-shaped flexible portion 21 along the connecting direction thereof. The contact portions 22 are provided at intervals on the end faces of the flexible portions 21 in the width direction. According to this, as the flexible portion bends, the contact portion 22 is displaced and the contact portions 22 come into contact with each other. The abutting portions 22 abut against each other at an angle corresponding to the distance provided between the abutting portions 22. Thereby, the bending between the protector divided bodies 10 can be suitably regulated. Further, the contact portion 22 is provided on the outer side in the width direction of the flexible portion 21, and the contact portion 22 and the flexible portion 21 do not overlap each other in the top view. Therefore, the connecting portion 20 can be formed by a simple method without limiting the regulated bending angle due to manufacturing requirements such as die cutting.

(3) Each contact portion 22 projects along the thickness direction of the flexible portion 21. Further, in the bent state of the flexible portion 21 in the thickness direction, the contact portions 22 come into contact with each other. According to this, when the strip-shaped flexible portion 21 is bent in the thickness direction, the protruding portions of the contact portion 22 come into contact with each other. As a result, the bending angle in the thickness direction can be suppressed.

(4) Each abutting portion 22 has a first protruding portion 22a projecting to one side in the thickness direction of the flexible portion 21 and a second protruding portion 22b projecting to the other side in the thickness direction. The first protruding portions 22a come into contact with each other in a bent state in which the flexible portion 21 is bent to one side in the thickness direction. The second protruding portions 22b come into contact with each other in a bent state in which the flexible portion 21 is bent toward the other side in the thickness direction. According to this, bending in both one side and the other side in the thickness direction can be regulated.

(5) The flexible portion 21 is provided with a plurality of thin-walled portions 21a and thick-walled portions 21b thicker than the thin-walled portion 21a alternately along the connection direction. According to this, the thick portion 21b has a higher strength than the thin portion 21a while providing the thin portion 21a that allows bending. That is, the strength can be increased while allowing bending. Further, the thick portion 21b is arranged in a portion of the flexible portion 21 where the contact portion 22 is provided, and can receive the load applied by the contact portion 22. This contributes to the improvement of strength.

(6) The connecting portion 20 is arranged in the region between the protector divided bodies 10 in the expanded state. According to this, since the connecting portion 20 is provided with the same thickness dimension as the protector split body 10, the connecting portion 20 for suppressing the bending angle is provided, and the body size of the protector 1 is suppressed from becoming thick.

(7) The wire harness with a protector includes a protector 1 and a wire harness 2 housed in the protector 1 and connected to the battery module 3. According to this, it has the same function as the protector 1 described above. Therefore, the load applied to the wire harness 2 can be suppressed.

This embodiment can be modified and implemented as follows. The present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
As shown in FIG. 5, the first protruding portion 22a and the second protruding portion 22b of the contact portion 22 may be provided in different shapes. In this modified example, the first protruding portion 22a is provided so that the length in the connecting direction is reduced toward the protruding tip so that the distance between the adjacent first protruding portions 22a is widened. Further, the second protruding portion 22b is provided so that the length in the connecting direction increases toward the protruding tip so that the distance between the adjacent second protruding portions 22b is narrowed. As a result, the distance between the first protrusions 22a and the distance between the second protrusions 22b are different.

As shown in FIGS. 6 and 7, in this modified example, the regulated bending angle is different between the bending state to one side in the thickness direction and the bending state to the other side in the thickness direction. In this modified example, the distance between the second protrusions 22b is smaller than the distance between the first protrusions 22a. Therefore, the regulated bending angle on the other side in the thickness direction is larger than that on the one side. As described above, according to this modified example, by making the first protruding portion 22a and the second protruding portion 22b different in shape, the bending angle at which the first protruding portions 22a abut each other and the second protruding portions 22b are brought into contact with each other. The bending angles of contact can be set to different angles from each other. Thereby, the bending between the protector divided bodies 10 can be suitably regulated according to the specifications.

As shown in FIG. 8, the thin portion 21a and the thick portion 21b of the flexible portion 21 may be provided so as to extend obliquely with respect to the connection direction. According to this, the strip-shaped flexible portion 21 bends diagonally along the thin-walled portion 21a, so that the protector divided bodies 10 can be arranged in a twisted positional relationship while being bent.

-The plurality of thin-walled portions 21a may be provided so as to extend in different directions from each other.
The connecting portion 20 is not limited to being provided in the region between the protector divided bodies 10, and may be provided so that the thickness dimension is larger than that of the protector divided body 10, for example. Further, it may be provided so as to protrude in the width direction from the protector divided body 10.

The positional relationship between the thin-walled portion 21a and the thick-walled portion 21b and the contact portion is not particularly limited, and the position of the thick-walled portion 21b and the position of the contact portion 22 may be different.
The flexible portion 21 may be provided with a uniform thickness. That is, the thin portion 21a and the thick portion 21b may be omitted.

The contact portion 22 is not limited to being provided symmetrically with respect to the flexible portion 21.
The contact portion 22 may be provided so as to project only in one direction in the thickness direction. That is, only the first protruding portion 22a may be provided, and the second protruding portion 22b may be omitted. Further, as long as it can be contacted in a bent state, it does not have to protrude in the thickness direction.

The contact portion 22 may be provided so as to project in the width direction. The contact portion 22 is not limited to being provided on the end surface of the flexible portion 21 in the width direction, and may be provided so as to project from above the flexible portion 21 in the thickness direction. That is, the flexible portion 21 and the contact portion 22 may be provided so as to overlap each other in the top view.

-In the deployed state, the flexible portion 21 is not limited to being provided so as to be straight, and may be bent.
The regulated bending angle is not limited to 90 degrees, and may be 90 degrees or less, or 90 degrees or more.

-The shape of the side wall portion 23 is not particularly limited. Further, the side wall portion 23 may be omitted.
The shape of the contact portion 22 is not particularly limited. Further, the shapes of the contact portions 22 may be different from each other. Further, the intervals between the contact portions 22 may be the same or different.

-The contact portions 22 may be provided with at least a pair, may be two, may be three, or may be four or more.
-The route of the wire harness 2 is not limited to this embodiment. For example, a plurality of wire harnesses 2 may be routed by different routes.

-The number of battery modules 3 is not particularly limited. Further, the number of wire harnesses and the number of protector divided bodies 10 are not particularly limited.
-At least one connecting portion 20 may be provided in the protector 1. Further, a plurality of connecting portions 20 may be provided between the pair of protector divided bodies 10.

-The wire harness with a protector is not limited to the one that is transported in a bent state, and may be arranged in a vehicle in a bent state, for example. That is, the wire harness with a protector may be bent at any timing during transportation, assembling to the vehicle, and after assembling to the vehicle. That is, the connecting portion 20 is not limited to being provided to regulate bending during transportation.

-The wire harness 2 is not limited to voltage detection, and may be various wire harnesses connected to a battery.

1 ... Protector 2 ... Wire harness 2a ... Exposed part 3 ... Battery module 4 ... Connector 10 ... Protector split body 20 ... Connection part 21 ... Flexible part 21a ... Thin-walled part 21b ... Thick-walled part 22 ... Contact part 22a ... First Projection 22b ... Second protrusion 23 ... Side wall

Claims (8)

Multiple protector dividers provided along the path of the wire harness connected to the battery,
A connection portion for connecting the protector split bodies is provided.
The connection portion is a protector for a wire harness having a pair of contact portions that come into contact with each other in a bent state of the connection portion. The connecting portion has a strip-shaped flexible portion along the connecting direction thereof, and has a flexible portion.
The protector for a wire harness according to claim 1, wherein the abutting portion is provided on an end surface of the flexible portion in the width direction at intervals. Each of the abutting portions protrudes along the thickness direction of the flexible portion.
The protector for a wire harness according to claim 2, wherein each of the abutting portions abuts against each other in a bent state of the flexible portion in the thickness direction. Each of the contact portions has a first protruding portion protruding to one side in the thickness direction and a second protruding portion protruding to the other side in the thickness direction.
The first protruding portions abut against each other in a bent state of the flexible portion in the thickness direction to one side.
The protector for a wire harness according to claim 3, wherein each of the second protruding portions abuts against each other in a bent state of the flexible portion toward the other side in the thickness direction. The protector for a wire harness according to claim 4, wherein the first protruding portion and the second protruding portion are provided in different shapes. The flexible portion has a thin-walled portion and a thick-walled portion having a thickness thicker than the thin-walled portion.
The protector for a wire harness according to any one of claims 2 to 5, wherein a plurality of the thin portion and the thick portion are alternately provided along the connection direction. The wire harness protector according to any one of claims 1 to 6, wherein the connecting portion is arranged between the protector divided bodies in an unfolded state. The wire harness protector according to any one of claims 1 to 7.
With the wire harness connected to the battery through the protector divider,
Wire harness with protector.