WO2017188045A1 - Wiring tool and method for producing wire harness - Google Patents

Abstract

The present invention provides a technique for facilitating three-dimensional wiring at a branched part of an electric cable. A wiring tool 100 is provided with a first wiring part 31, a second wiring part 32, a third wiring part 33, and a connecting part 15. The first wiring part 31 is configured to face a first wiring space 31S in which a first electric cable part 91 is disposed. The second wiring part 32 is configured to face a second wiring space 32S in which a second electric cable part 92 is disposed. The third wiring part 33 is configured to face a third wiring space 33S in which a third electric cable part 93 is disposed. The connecting part 15 is a portion which connects to the first wiring part 31, the second wiring part 32, and the third wiring part 33, and which is connected to the second wiring part 32 via a bending part 150 which rotationally displaces the second wiring part 32. A rotational displacement of the second wiring part 32 that takes place with the bending part 150 working as a fulcrum causes the relative position of the second wiring space 32S with respect to the third wiring space 33S to be rotationally displaced between a first relative position L1 and a second relative position L2.

Description

Wiring tool and method of manufacturing wire harness

This invention relates to a wiring tool for holding a wire harness in a prescribed shape.

Patent Document 1 discloses a protector for three-dimensional routing for routing a wire harness three-dimensionally. Specifically, the three-dimensional routing protector of Patent Document 1 includes a main protector that houses a wire harness, and a sub protector that bends and pulls out the wire harness from the main protector. One end side of the wire harness housed in the main protector is fixed to the sub protector in a bent state, and the sub protector is fixed to the main protector.

JP 2007-259616 A

However, in the case of the above prior art, it is necessary to fix the wire harness to the sub protector in a bent state, and then to fix the sub protector to the main protector. That is, it is necessary to manually form the three-dimensional shape of the wire harness, which is complicated. In addition, since the wiring tool that holds the three-dimensional shape is divided into the main protector and the sub protector, the parts management work is complicated.

Moreover, since the said prior art is a technique which bends and pulls out one wire harness from a main protector, the sub electric wire branched from the branch part in the middle of a wire harness can be routed three-dimensionally. could not.

An object of the present invention is to provide a technique for facilitating three-dimensional wiring of branched electric wire portions.

A 1st aspect is a wiring tool which hold | maintains a wire harness to a defined shape, Comprising: The 1st wiring part facing the 1st wiring space extended in the 1st direction where a 1st electric wire part is arrange | positioned, and said 1st electric wire A second wiring portion facing the second wiring space extending in the second direction where the second electric wire portion branched from the branch portion of the portion is arranged, and a third electric wire portion branched from the branch portion of the first electric wire portion A third wiring portion facing a third wiring space extending in the third direction, a portion connected to the first wiring portion, the second wiring portion, and the third wiring portion; The wiring portion includes a connecting portion connected via a bending portion that rotationally displaces the second wiring portion, and the second wiring portion rotates and displaces with the bending portion as a fulcrum. The position of the wiring space with respect to the first wiring space is a first relative position and a second relative position. The rotational displacement between.

The second aspect is the wiring tool according to the first aspect, wherein the first relative position is a position where the first direction, the second direction, and the third direction are parallel to a common first plane, The second relative position is a position where the first direction and the third direction are parallel to the first plane, and the second direction is a direction intersecting the first plane.

A 3rd aspect is a wiring tool of the 1st aspect or the 2nd aspect, Comprising: Said 1st wiring part contains the frame part facing the space connected to said 1st wiring space, Said 2nd wiring part is the said The first wiring part is connected to the frame part in a state where it overlaps the frame part.

A 4th aspect is a manufacturing method of the wire harness hold | maintained by the wiring tool at the defined shape, Comprising: A 1st electric wire part is wired to the 1st wiring part facing the 1st wiring space extended in the 1st direction of a wiring tool. Wiring the second wire portion branched from the branch portion of the first wiring portion to the second wiring portion facing the second wiring space extending in the second direction of the wiring tool, and the wiring tool Wiring the third wire portion branched from the branch portion of the first wiring portion to the third wiring portion facing the third wiring space extending in the third direction, the first wiring portion, the second Of the connecting part to which the wiring part and the third wiring part are connected, by bending a portion connected to the second wiring part, the relative position of the second wiring space with respect to the first wiring space is set. And rotationally displacing from the first relative position to the second relative position. No.

According to the wiring tool of the first aspect, the relative position of the second wiring space with respect to the first wiring space can be changed three-dimensionally by rotating and displacing the second wiring portion with the bent portion as a fulcrum. Thereby, the wiring position of the 2nd electric wire part branched from the 1st electric wire part distribute | arranged to the 2nd wiring space can be easily changed three-dimensionally by the bending process of a wiring tool.

According to the wiring tool of the second aspect, after the first, second, and third electric wire portions are arranged two-dimensionally, the second wiring portion is rotationally displaced with the bending portion as a fulcrum. The 2nd electric wire part branched from the electric wire part can be wired in three dimensions.

According to the wiring tool of the third aspect, the second wiring portion branched from the first electric wire portion of the first wiring portion is three-dimensionally fixed by the second wiring portion being overlapped with the frame portion of the first wiring portion. Wiring is possible.

It is a schematic perspective view of the wiring tool 100 of embodiment. It is a schematic perspective view of the wiring tool 100 of embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the component described in this embodiment is an illustration to the last, and is not a thing of the meaning which limits the scope of the present invention only to them. In the drawings, the size and number of each part may be exaggerated or simplified as necessary for easy understanding.

<1. Embodiment>
1 and 2 are schematic perspective views of the wiring tool 100 of the embodiment. FIG. 1 shows the wiring tool 100 before assembly, and FIG. 2 shows the wiring tool 100 after assembly.

Wiring tool 100 is a member that holds wire harness 90 in a prescribed shape. The wire harness 90 is a member in which an electric wire group including a plurality of electric wires is bundled with a binding material. The wire harness 90 includes a first electric wire portion 91, a second electric wire portion 92, a third electric wire portion 93 and a fourth electric wire portion 94. The first electric wire portion 91 branches at the branch portion 910 into the second electric wire portion 92, the third electric wire portion 93 and the fourth electric wire portion 94. That is, the second electric wire portion 92, the third electric wire portion 93 and the fourth electric wire portion 94 are a part of the wire harness 90 branched from the branch portion 910 at the end of the first electric wire portion 91.

The wiring tool 100 includes a base body 10 and a covering 20 that is stacked on the base body 10. The base body 10 and the covering body 20 are members obtained by, for example, vacuum forming a plate-like resin member. The base 10 and the covering 20 are formed of a resin material such as polypropylene (PP), polyethylene (PE), polyvinyl chloride (PVC), polyethylene terephthalate (PET), or polyamide (PA).

As shown in FIGS. 1 and 2, the wiring tool 100 includes a base body 10 and a covering body 20 overlaid on the base body 10.

The base 10 is a member formed in a plate shape and is a member that defines a space in which the wire harness 90 is disposed.

The base body 10 includes a first base portion 11, a second base portion 12, a third base portion 13, a fourth base portion 14, a connecting portion 15, a second covering portion 22, and a third covering portion 23. The covering 20 includes a first covering portion 21, a fourth covering portion 24, and a frame portion 26.

The first base portion 11 is a bowl-shaped portion, and includes a bottom plate portion 110 that extends linearly in the first direction D1 and a pair of side plate portions 112 that stand vertically from both ends of the bottom plate portion 110. , 112 are provided. The first base portion 11 forms the first wiring portion 31 facing the first wiring space 31S in which the first electric wire portion 91 extending in the first direction D1 of the wire harness 90 is disposed.

As shown in FIG. 2, the first base portion 11 (first wiring portion 31) is covered with the first covering portion 21 of the covering body 20. Thus, the first covering portion 21 also faces the first wiring space 31S.

The second base portion 12 includes a first bottom plate portion 120, a second bottom plate portion 122, a pair of side plate portions 124 and 124, and a second covering portion 22. One end of the first bottom plate 120 is connected to the connecting portion 15, and the other end is connected to the second bottom plate 122. The pair of side plate portions 124 and 124 are erected from both end portions of the second bottom plate portion 122. The first bottom plate portion 120 and the pair of side plate portions 124 and 124 form the second wiring portion 32 facing the second wiring portion 32 where the second electric wire portion 92 is disposed.

The second bottom plate portion 122 and the pair of side plate portions 124 and 124 in the second base portion 12 form the second wiring portion 32 facing the second wiring space 32S in which the second electric wire portion 92 of the wire harness 90 is disposed. .

The second covering portion 22 is provided continuously to one end portion of the pair of side plate portions 124 and 124. The second covering portion 22 is rotationally displaced by being bent around the connecting portion with the one side plate portion 124 and is superimposed on the other side plate portion 124. As a result, the second covering portion 22 is placed on the bowl-shaped portion formed by the second bottom plate portion 122 and the pair of side plate portions 124 and 124. In this state, the second covering portion 22 also faces the second wiring space 32S.

The third base portion 13 is a portion formed in a bowl shape, and includes a bottom plate portion 130 that extends linearly in the third direction D3, and a pair of side plate portions 132 that stand vertically from both ends of the bottom plate portion 130, 132. The third covering portion 23 is connected to one of the pair of side plate portions 132 and 132. A third covering portion 23 is placed on the third base portion 13. The bottom plate portion 130 and the pair of side plate portions 132 and 132 of the third base portion 13 form the third wiring portion 33 that faces the third wiring space 33S in which the third electric wire portion 93 of the wire harness 90 is wired.

The third covering portion 23 is rotationally displaced by being bent about the connecting portion with the one side plate portion 132 and overlaps the other side plate portion 132. That is, the third covering portion 23 is put on the bowl-shaped portion formed by the bottom plate portion 130 and the pair of side plate portions 132 and 132. As a result, the third covering portion 23 faces the third wiring space 33S.

The fourth base portion 14 is a bowl-shaped portion, and includes a bottom plate portion 140 that extends linearly in the fourth direction D4, and a pair of side plate portions 142 and 142 that stand vertically from both ends of the bottom plate portion 140. Is provided. The fourth base portion 14 forms a fourth wiring portion 34 facing the fourth wiring space 34S in which the fourth electric wire portion 94 of the wire harness 90 is disposed.

The fourth covering portion 24 of the covering body 20 is placed on the fourth base portion 14 in a state of being overlapped with the pair of side plate portions 142 and 142. In this state, the fourth covering portion 24 also faces the fourth wiring space 34S.

As shown in FIG. 1, the connecting portion 15 is a portion having a substantially rectangular plate shape. Each of the four sides of the connecting portion 15 is connected to the bottom plate portion 110, the first bottom plate portion 120, the bottom plate portion 130, and the bottom plate portion 140, respectively. Here, the bottom plate portions 110 and 130 are connected so as to be aligned in a straight line. The first bottom plate portion 120 and the bottom plate portion 140 are coupled to both side portions of the coupling portion 15 so as to project perpendicularly to a straight line connecting the bottom plate portion 110, the coupling portion 15, and the bottom plate portion 130. In addition, the connection direction in which the baseplate part 110,130,140 and the 1st baseplate part 120 are connected with respect to the connection part 15 is not limited to what is shown by FIG. 1, It can be changed arbitrarily.

The connecting part 15 is connected to the bottom plate part 110 of the first wiring part 31. The connecting portion 15 is connected to the first bottom plate portion 120, thereby connecting to the second bottom plate portion 122 of the second wiring portion 32. That is, the connecting portion 15 is indirectly connected to the second wiring portion 32 via the first bottom plate portion 120. Further, the connecting portion 15 is continuous with the bottom plate portion 130 of the third wiring portion 33.

One side portion connected to the first bottom plate portion 120 of the connecting portion 15 is a bendable bending portion 150. By bending the first bottom plate portion 120 along the bent portion 150, the second wiring portion 32 facing the first bottom plate portion 120 is rotationally displaced with the bent portion 150 as a fulcrum. As a result, the relative position of the second wiring space 32S with respect to the first wiring space 31S is displaced from the first relative position L1 shown in FIG. 1 to the second relative position L2.

The inner side surface facing the first wiring part 31 of the bottom plate part 110 is defined as a first plane P1. As shown in FIG. 1, in a state where the wiring tool 100 is deployed (a state in which the second wiring space 32S is arranged at the first relative position L1), the first direction D1, the second direction D2, and the third direction D3. Both are in a direction parallel to the first plane P1. In this example, the inner surface (surface which faces each wiring space) of the 1st bottom plate part 120, the 2nd bottom plate part 122, the bottom plate part 130, and the connection part 15 corresponds to the 1st plane P1. Further, in this example, the fourth direction D4 is also a direction parallel to the first plane P1, and the bottom plate portion 140 also coincides with the first plane P1.

In addition, a part or all of the inner surfaces of the first bottom plate portion 120, the second bottom plate portion 122, the bottom plate portion 130, and the bottom plate portion 140 are different in height from the first plane P1 (that is, perpendicular to the first plane P1). It may be arranged at different positions). In this case, the connecting portion 15 may be formed according to the height of each bottom plate portion. Further, some or all of these bottom plate portions may extend in a direction intersecting the first plane P1.

The frame portion 26 of the covering 20 is connected to each of the end portion of the first covering portion 21 and the end portion of the fourth covering portion 24. The frame portion 26 is a portion extending obliquely upward, and the lower side (side toward the base body 10) is open.

The frame portion 26 is a portion facing a space connected to the first wiring space 31S. As shown in FIG. 2, a part of each of the second bottom plate portion 122 and the pair of side plate portions 124 and 124, which are the second wiring portion 32, and the second covering portion 22 overlaps the outside of the frame portion 26. It is done. In this state, the second wiring portion 32 and the second covering portion 22 are attached to the frame portion 26. In addition, the 2nd wiring part 32 and the 2nd coating | coated part 22 are attached to the frame part 26 by arbitrary fixing means (a tape, a binding band, an adhesive agent, a fitting structure, etc.). As a result, the second wiring portion 32 is connected to the first wiring portion 31 of the first base portion 11 via the frame portion 26, the first covering portion 21, and the like.

The relative position of the second wiring space 32S with respect to the first wiring space 31S when the second wiring portion 32 is attached to the frame portion 26 is the second relative position L2. In a state where the second wiring space 32S is arranged at the second relative position L2, the space facing the frame portion 26 is connected to the second wiring space 32S. That is, by arranging the second wiring space 32S at the second relative position L2, the first wiring space 31S and the second wiring space 32S are in communication with each other through the space that the frame portion 26 faces.

As shown in FIG. 2, in a state where the wiring tool 100 is assembled (a state in which the second wiring space 32S is arranged at the second relative position L2), the first direction D1 and the third direction D3 are the first plane P1 and The second direction D2 is parallel to the first plane P1.

As shown in FIG. 2, in a state where the wiring tool 100 is assembled, the second wiring space 32S is arranged so as to overlap the third wiring space 33S vertically. That is, the second wiring space 32S and the third wiring space 33S pass through the common second plane P2. The second plane P2 is a plane perpendicular to the first plane P1. By arranging the second wiring space 32S at such a position, the second electric wire portion 92 and the third electric wire portion 93 branched from the branch portion 910 of the first electric wire portion 91 overlap the shape of the wire harness 90 vertically. Can be formed into a three-dimensional shape that extends.

<Assembly method of wiring tool 100>
Next, a method for assembling the wiring tool 100 will be described. First, as shown in FIG. 1, the wire harness 90 is disposed on the base 10 (wiring process). Specifically, the first electric wire portion 91 is disposed on the first wiring portion 31 of the first base portion 11, and the second electric wire portion 92 is disposed on the second wiring portion 32 of the second base portion 12. The third electric wire portion 93 is disposed on the first wiring portion 31 of the third base portion 13, and the fourth electric wire portion 94 is disposed on the fourth wiring portion 34 of the fourth base portion 14. At this time, the first wiring portion 31 to the fourth wiring portion 34 are formed in a bowl shape with the top opened. For this reason, since each electric wire part of the wire harness 90 can be wired on a two-dimensional plane, the wiring work is easy.

When the wire harness 90 is disposed on the base body 10, the third covering portion 23 of the third base portion 13 is covered with the third wiring portion 33, and further, the base body 10 is covered with the covering body 20. The covering 20 is appropriately fixed to the base 10 by a predetermined fixing means (tape, binding band, adhesive, fitting structure or the like). Further, the third covering portion 23 is also appropriately fixed to the third wiring portion 33 by a predetermined fixing means.

Subsequently, the second base 12 is bent using the bent portion 150 as a fulcrum (bending step). And the part of the inner surface of the 2nd baseplate part 122 of a 2nd base 12 and a pair of side-plate part 124 (2nd wiring part 32) is piled up on the outer peripheral side of the frame part 26. FIG. Further, the connecting portion between the second covering portion 22 and the side plate portion 124 is bent, and the second covering portion 22 is rotationally displaced, so that the second covering portion 22 is below the edge portion forming the frame portion 26 (base body). 10 side). As a result, the second wiring portion 32 and the second covering portion 22 project in an annular shape on the extension of the frame portion 26. In this state, the second wiring part 32 and the second covering part 22 are attached to the frame part 26 by a predetermined fixing means. At this time, since the second wiring space 32S moves from the first relative position L1 to the second relative position L2, the wiring of the second electric wire portion 92 branched from the first electric wire portion 91 disposed in the second wiring space 32S. The position is also changed three-dimensionally. Thereby, the three-dimensional shape of the wire harness 90 is formed. In this way, the assembly of the wiring tool 100 is completed.

<Effect>
As described above, according to the wiring tool 100, first, in the unfolded state, the wiring work is completed simply by installing each wire portion of the wire harness 90 for each of the first wiring portion 31 to the fourth wiring portion 34. . For this reason, the wiring work is very easy. And the bending position of the 2nd electric wire part 92 can be changed three-dimensionally by performing a bending process in the bending part 150. FIG. That is, by using the wiring tool 100, the three-dimensional shape of the wire harness 90 can be easily formed.

According to the wiring tool 100, the three-dimensional shape of the wire harness 90 can be maintained, and the wire harness 90 can also be protected. That is, the wiring tool 100 also functions as a protector.

According to the wiring tool 100, the second wiring portion 32 to which the second electric wire portion 92 of the wire harness 90 is wired is connected to the first wiring portion 31 and the third wiring portion 33 through the bending portion 150. That is, the second wiring part 32 can be integrated with the first wiring part 31 and the third wiring part 33. For this reason, parts management work becomes easy.

Although the present invention has been described in detail, the above description is illustrative in all aspects, and the present invention is not limited thereto. It is understood that countless variations that are not illustrated can be envisaged without departing from the scope of the present invention. The configurations described in the above embodiments and modifications can be appropriately combined or omitted as long as they do not contradict each other.

DESCRIPTION OF SYMBOLS 100 Wiring tool 10 Base | substrate 11 1st base part 12 2nd base part 13 3rd base part 14 4th base part 15 Connection part 150 Bending part 20 Covering body 21 1st coating part 22 2nd coating part 23 3rd coating part 24 4th coating part 26 frame portion 31 first wiring portion 31S first wiring space 32 second wiring portion 32S second wiring space 33 third wiring portion 33S third wiring space 34 fourth wiring portion 34S fourth wiring space 90 wire harness 91 first electric wire Part 92 Second electric wire part 93 Third electric wire part 94 Fourth electric wire part 910 Branch part D1 First direction D2 Second direction D3 Third direction L1 First relative position L2 Second relative position P1 First plane P2 Second plane

Claims (4)

1. A wiring tool for holding a wire harness in a prescribed shape,
   A first wiring portion facing a first wiring space extending in a first direction in which the first electric wire portion is disposed;
   A second wiring portion facing a second wiring space extending in a second direction in which the second electric wire portion branched from the branch portion of the first electric wire portion is disposed;
   A third wiring portion facing a third wiring space extending in a third direction in which the third electric wire portion branched from the branch portion of the first electric wire portion is disposed;
   The first wiring portion, the second wiring portion, and the third wiring portion are connected to the second wiring portion via a bending portion that rotationally displaces the second wiring portion. A connecting portion;
   With
   When the second wiring portion is rotationally displaced with the bent portion as a fulcrum, the position of the second wiring space relative to the first wiring space is rotationally displaced between the first relative position and the second relative position. , Wiring tools.
2. It is a wiring tool of Claim 1, Comprising:
   The first relative position is a position where the first direction, the second direction, and the third direction are parallel to a common first plane,
   The second relative position is a wiring tool in which the first direction and the third direction are parallel to the first plane, and the second direction is a direction intersecting the first plane.
3. The wiring tool according to claim 1 or 2,
   The first wiring portion includes a frame portion facing a space connected to the first wiring space,
   The wiring tool, wherein the second wiring part is connected to the first wiring part in a state of being overlapped with the frame part.
4. A method of manufacturing a wire harness held in a prescribed shape by a wiring tool,
   Wiring the first electric wire portion to the first wiring portion facing the first wiring space extending in the first direction of the wiring tool;
   Wiring the second wire portion branched from the branch portion of the first wiring portion to the second wiring portion facing the second wiring space extending in the second direction of the wiring tool;
   Wiring the third wire portion branched from the branch portion of the first wiring portion to the third wiring portion facing the third wiring space extending in the third direction of the wiring tool;
   By bending a portion connected to the second wiring portion among the connecting portions to which the first wiring portion, the second wiring portion, and the third wiring portion are connected, the second wiring space Rotating the relative position with respect to the first wiring space from the first relative position to the second relative position;
   The manufacturing method of a wire harness containing.

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