WO2020136789A1

WO2020136789A1 - Wiring member

Info

Publication number: WO2020136789A1
Application number: PCT/JP2018/048067
Authority: WO
Inventors: 悠真山田; 英昭伊藤
Original assignee: 株式会社オートネットワーク技術研究所; 住友電装株式会社; 住友電気工業株式会社
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2020-07-02

Abstract

The purpose of the present invention is to provide a technology that can save space when stacking flat wiring members. This wiring member is provided with a first flat wiring member and a second flat wiring member which extend along the same path at least partially, and each of which includes a plurality of linear transmission members and a base member for holding the plurality of linear transmission members in an aligned state. In the sections of the first flat wiring member and the second flat wiring member that extend along the same path, a recessed section that is partially recessed in the circumferential direction is formed in the first flat wiring member, and the second flat wiring member is formed so as to have a fitting shape section that fits in the recessed section, and overlaps with the first flat wiring member.

Description

Wiring member

This invention relates to wiring members.

Patent Document 1 discloses a technique of holding and fixing a bent portion of one flat harness by a bending holding material in a portion where the two flat harnesses are branched by bending one of the two flat harnesses. Disclosure.

JP, 2007-259592, A

In Patent Document 1, two flat harnesses of the same width overlap. When two flat harnesses having different widths are overlapped with each other, a flat harness having a large width has a portion where the flat harnesses having a small width do not overlap each other, which may result in wasted space.

Therefore, an object of the present invention is to provide a technique capable of achieving space saving when stacking flat wiring members.

In order to solve the above problems, a wiring member according to a first aspect includes a plurality of linear transmission members and a base member that holds the plurality of linear transmission members in an aligned state, and at least in part A first flat wiring member and a second flat wiring member extending along the same route are provided, and the first flat wiring member is provided in a portion of the first flat wiring member and the second flat wiring member extending along the same route. A concave portion is formed in which a portion is recessed in the circumferential direction, and the second flat wiring member is formed to have a fitting shape portion that fits in the concave portion and overlaps with the first flat wiring member.

The wiring member according to the second aspect is the wiring member according to the first aspect, and at least one of the recess and the fitting shape portion is formed by overlapping the linear transmission member.

A wiring member according to a third aspect is the wiring member according to the second aspect, wherein the first flat wiring member or the second flat wiring member is bent, and a portion where the linear transmission member overlaps is formed. Has been formed.

A wiring member according to a fourth aspect is the wiring member according to the second or third aspect, wherein linear transmission is performed to at least one of the first flat wiring member and the second flat wiring member having a larger number of circuits. An overlapping portion of the members is formed.

A wiring member according to a fifth aspect is the wiring member according to any one of the first to fourth aspects, wherein each of the first flat wiring member and the second flat wiring member serves as the base member. A sheet member that holds a plurality of linear transmission members arranged side by side on the main surface, wherein the sheet members of the first flat wiring member and the second flat wiring member are the first flat wiring members. The first flat wiring member and the second flat wiring member are overlapped so that the wiring member and the second flat wiring member are located outside the linear transmission member.

A wiring member according to a sixth aspect is the wiring member according to the fifth aspect, wherein the sheet member of the first flat wiring member and the second flat wiring member is the first flat wiring member and the first flat wiring member. The two flat wiring members cover the entire periphery of the plurality of linear transmission members.

According to each aspect, in the portion extending along the same path, the first flat wiring member and the second flat wiring member with the fitting shape portion of the second flat wiring member fitted in the recess of the first flat wiring member. Since the two are overlapped with each other, a wasteful space is less likely to be generated, and the space can be saved.

According to the second aspect, it is possible to easily form the concave portion or the fitting shape portion by overlapping the linear transmission members.

According to the third aspect, the concave portion or the fitting shape portion can be easily formed.

In a flat wiring member with a large number of circuits, the linear transmission member has a large planar spread in a row, and when it overlaps with a flat wiring member with a small number of circuits, there may be a protruding portion. According to the fourth aspect, since the flat wiring member having a large number of circuits is bent, it is possible to prevent the flat wiring member having a large number of circuits from spreading too much.

According to the fifth aspect, the sheet members of the first flat wiring member and the second flat wiring member can protect the linear transmission members of the first flat wiring member and the second flat wiring member. As a result, it is possible to eliminate the need to separately provide an exterior material and to reduce the amount of the exterior material used.

According to the sixth aspect, the sheet members of the first flat wiring member and the second flat wiring member can protect all of the plurality of linear transmission members of the first flat wiring member and the second flat wiring member. As a result, it is possible to eliminate the need to separately provide an exterior material and to reduce the amount of the exterior material used.

It is a top view which shows the wiring member which concerns on 1st Embodiment. FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1. FIG. 3 is an exploded cross-sectional view showing the wiring member according to the first embodiment. It is a transverse cross section showing the wiring member concerning the 1st modification. It is an exploded transverse sectional view showing the wiring member concerning the 1st modification. It is an exploded transverse sectional view showing a wiring member concerning a 2nd modification.

{Embodiment}
The wiring member according to the embodiment will be described below. FIG. 1 is a plan view showing a wiring member 10 according to the embodiment. 2 is a cross-sectional view taken along the line II-II of FIG. FIG. 3 is an exploded cross-sectional view showing the wiring member 10 according to the embodiment.

The wiring member 10 is a member that is mounted on a vehicle and supplies electric power to each device of the vehicle and exchanges signals. The wiring member 10 includes a plurality of flat wiring members 20. The plurality of flat wiring members 20 include a first flat wiring member 20A and a second flat wiring member 20B that extend along the same path (hereinafter, may be referred to as a common path) at least in part. Here, an intermediate portion of the first and second

flat wiring members

20A and 20B is a common path, and one end portion and the other end portion thereof are different paths.

It is conceivable that the plurality of flat wiring members 20 are wiring members that are divided into, for example, a power supply system and a signal system. Further, for example, the plurality of flat wiring members 20 may be wiring members that are divided for each system, such as for air conditioners and for ABS. In this case, a power supply system and a signal system may be mixed in each of the plurality of flat wiring members 20.

The flat wiring member 20 includes a plurality of linear transmission members 21 and a base member 24 that holds the plurality of linear transmission members 21 in a line. The first flat wiring member 20A includes a plurality of linear transmission members 21A and a base member 24A that holds the plurality of linear transmission members 21A in a line. The second flat wiring member 20B includes a plurality of linear transmission members 21B and a base member 24B that holds the plurality of linear transmission members 21B in an aligned state.

The linear transmission member 21 may be a linear member that transmits electricity or light. For example, the linear transmission member 21 may be a general electric wire having a core wire and a coating around the core wire, or may be a shield wire, a twist wire, an enamel wire, a nichrome wire, a bare wire, an optical fiber, or the like. Good. In the example shown in Table 2, the linear transmission member 21 includes a transmission line body 22 that transmits electricity or light, and a coating 23 that covers the transmission line body 22.

As the linear transmission member 21 that transmits electricity, various signal lines and various power lines may be used. The linear transmission member 21 that transmits electricity may be used as an antenna, a coil, or the like that sends or receives a signal or power to or from a space.

Further, the linear transmission member 21 may be a single linear object, or a composite of a plurality of linear objects (twisted wire, a cable in which a plurality of linear objects are assembled and covered with a sheath. Etc.).

At the end of the linear transmission member 21, terminals, connectors 26, etc. are provided as appropriate according to the connection form between the linear transmission member 21 and the mating member. Here, a connector 26A is provided at the end of the linear transmission member 21A, and a connector 26B different from the connector 26A is provided at the end of the linear transmission member 21B.

The base member 24 is a member that holds the linear transmission member 21 in a two-dimensionally positioned state. It suffices for the base member 24 to be held in a state where the linear transmission member 21 is two-dimensionally positioned while being placed on a work place or the like. Therefore, the base member 24 may be a flexible sheet-shaped member that can be easily bent. The base member 24 may be a sheet-like member having a rigidity that allows the linear transmission member 21 to be held in a two-dimensionally positioned state while being curved, or the linear transmission may be performed in a flat state. It may be a sheet-shaped member having rigidity enough to hold the member 21 in a two-dimensionally positioned state. The base member 24 may have a three-dimensionally shaped portion such that a wall is partially erected.

Here, it is assumed that the base member 24 is a bendable sheet member 24. Each description of the sheet member 24 is applicable to the base member 24 except for the configuration that is not applicable.

The linear transmission member 21 is arranged on one main surface of the sheet member 24. The sheet member 24 holds the plurality of linear transmission members 21 in a line. The sheet member 24 is formed in a strip shape extending along the path of the linear transmission member 21. In the example shown in FIG. 1, the sheet member 24 is formed so as to extend linearly.

In the example shown in FIG. 1, the linear transmission member 21 is linearly arranged on the sheet member 24, but the path of the linear transmission member 21 may be set appropriately, and the linear transmission member 21 may be formed on the sheet member 24. It may be bent. In this case, the sheet member 24 may also be bent.

In addition, in the example shown in FIG. 1, the plurality of linear transmission members 21 are arranged so as to extend in parallel, but the paths of the plurality of linear transmission members 21 may be set as appropriate, and the sheet member. They may be arranged on different paths such that they branch or intersect on 24. In this case, the sheet member 24 may also be formed so as to branch or intersect.

Further, in the example shown in FIG. 1, a plurality of linear transmission members 21 having the same diameter and structure are arranged on one sheet member 24, but the diameters, structures, etc. of the plurality of linear transmission members 21 are appropriately set. The linear transmission members 21 having different diameters and structures may be arranged on the same sheet member 24.

The linear transmission member 21 and the sheet member 24 are directly fixed. Here, the direct fixing means that the contact portions are directly stuck and fixed by melting resin contained in at least one of the linear transmission member 21 and the sheet member 24, for example.

In forming the directly fixed state, the resin may be melted by heat or may be melted by a solvent, for example. That is, the state of direct fixation may be a state of direct fixation by heat or a state of direct fixation by a solvent. Preferably, it is in a state of being directly fixed by heat.

At this time, the means for forming the directly fixed state is not particularly limited, and various means including known means such as welding, fusing and welding can be used. For example, when forming a state of being directly fixed by heat by welding, various welding means such as ultrasonic welding, heat pressure welding, hot air welding, and high frequency welding can be adopted. When the directly fixed state is formed by these means, the linear transmission member 21 and the sheet member 24 are brought into the directly fixed state by the means. Specifically, for example, when the directly fixed state is formed by ultrasonic welding, the linear transmission member 21 and the sheet member 24 are directly fixed by ultrasonic welding. A portion in which a state of being directly fixed by heat is formed by welding (a fixed portion between the linear transmission member 21 and the sheet member 24) is a welded portion, and among these, a fixed portion by ultrasonic welding is an ultrasonic welded portion, and heat pressure welding. The fixed portion by means of may be referred to as a heating and pressure welding portion or the like.

In the case of direct fixing, only the resin contained in the coating 23 of the linear transmission member 21 may be melted or only the resin contained in the sheet member 24 may be melted. In the case of direct fixing, both the resin contained in the coating 23 of the linear transmission member 21 and the resin contained in the sheet member 24 may be melted.

However, the linear transmission member 21 and the sheet member 24 may be fixed by a mode other than the direct fixing. For example, the fixing mode of the linear transmission member 21 and the sheet member 24 may be non-contact part fixing. The non-contact portion fixing means fixing the portions other than the contact portion between the linear transmission member 21 and the sheet member 24. For example, in the non-contact portion fixing, a sewing thread, another sheet member, an adhesive tape, or the like presses the linear transmission member 21 toward the sheet member 24, or a sewing thread, another sheet member, an adhesive tape, or the like transmits a linear transmission member. A state in which the linear transmission member 21 and the sheet member 24 are sandwiched between the linear transmission member 21 and the sheet member 24, and the linear transmission member 21 and the sheet member 24 are maintained in a fixed state. Is.

Further, for example, the fixing mode of the linear transmission member 21 and the sheet member 24 may be indirect fixing. The indirect fixing is fixing by a member interposed between the linear transmission member 21 and the sheet member 24. For example, in the indirect fixing, the linear transmission member 21 and the sheet member 24 are indirectly fixed to each other via an intervening member such as an adhesive agent, an adhesive agent, or a double-sided adhesive tape provided between them. ..

The fixing mode between the linear transmission member 21A and the sheet member 24A may be the same as or different from the fixing mode between the linear transmission member 21B and the sheet member 24B.

The sheet member 24 may be a sheet member 24 that is curved and has rigidity enough to hold a plurality of linear transmission members 21 in a planarly positioned state, or may be a plurality of sheet members 24 in a flat state. The sheet member 24 may be rigid enough to hold the linear transmission member 21 in a two-dimensionally positioned state. The sheet member 24 may have a three-dimensionally shaped portion such that a wall is partially erected.

The material forming the sheet member 24 is not particularly limited, but the sheet member 24 is formed of a material containing a resin such as PVC (polyvinyl chloride), PET (polyethylene terephthalate), and PP (polypropylene). .. The sheet member 24 may be a sheet material whose inside is uniformly filled, or may be a non-woven sheet, a woven fabric, a knitted fabric, or the like. The sheet member 24 may include a material such as metal.

The sheet member 24 may have a single layer or a plurality of layers. When a plurality of layers are stacked, for example, a resin layer and a resin layer may be stacked. Further, for example, it is conceivable that the resin layer and the metal layer are laminated.

By forming the sheet member 24 in a shape along the path of the plurality of linear transmission members 21, it is possible to suppress interference between the sheet member 24 and other parts, reduce weight, and the like. It is not essential that the sheet member 24 is formed in a shape along the path of the plurality of linear transmission members 21, and may be formed in another shape such as a square shape.

In the portions of the first and second

flat wiring members

20A and 20B that extend along the common path, the first flat wiring member 20A is provided with a recess 28 that is partially recessed in the circumferential direction. The recess 28 is formed to be recessed in the thickness direction of the first flat wiring member 20A. Further, in the portion of the first and second

flat wiring members

20A and 20B that extends along the common path, the second flat wiring member 20B is formed to have the fitting shape portion 30 that fits into the concave portion 28. It overlaps with the member 20A.

Here, a convex portion 32 is formed as the fitting shape portion 30. The convex portion 32 is formed to be convex in the thickness direction of the second flat wiring member 20B. More specifically, in the second flat wiring member 20B, the linear transmission member 21B is arranged only on the intermediate portion in the width direction on the one main surface of the sheet member 24B. As a result, the intermediate portion where the linear transmission member 21B is arranged becomes the convex portion 32. At this time, flanges 34 are formed on both sides of the protrusion 32. That is, the second flat wiring member 20B is formed in a shape including the convex portion 32 and the flange portion 34. Here, in the second flat wiring member 20B, both widthwise end portions where the linear transmission member 21B is not disposed on one main surface of the sheet member 24B are flange portions 34. The first and second

flat wiring members

20A and 20B are overlapped with each other so that the convex portion 32 fits into the concave portion 28 and the flange portion 34 covers the concave portion 28 laterally.

At least one of the recess 28 and the fitting shape portion 30 is formed by overlapping the linear transmission member 21. In the example shown in FIG. 2, the recess 28 of the recess 28 and the fitting-shaped portion 30 is formed by overlapping the linear transmission member 21A. More specifically, in the example shown in FIG. 2, the linear transmission member 21A is overlapped to form the side wall portion of the recess 28.

The flat wiring member 20 is bent to form the overlapping portion of the linear transmission members 21. In the example shown in FIG. 3, the first flat wiring member 20A having a large number of circuits is bent to form a portion where the linear transmission member 21A overlaps. In the example shown in FIG. 3, the end portion in the width direction of the flat wiring member 20 is folded back at the fold line L1 to form a portion where the linear transmission member 21A overlaps. Of the linear transmission member 21A, the linear transmission member 21A located at the widthwise end of the flat wiring member 20 is bent so as to overlap. Of the linear transmission member 21A and the sheet member 24A, the linear transmission member 21A is folded back at the fold line L1 so as to be inside. Of course, the flat wiring member 20 may be bent at a position other than the fold line L1. Further, the widthwise intermediate portion of the flat wiring member 20 may be folded back to form a portion where the linear transmission member 21 overlaps. Further, the linear transmission member 21 and the sheet member 24 may be folded back so that the linear transmission member 21 is on the outer side.

The first and second flat wirings are arranged so that the sheet members 24 of the first and second

flat wiring members

20A and 20B are located outside the linear transmission members 21 of the first and second

flat wiring members

20A and 20B. The

members

20A and 20B overlap.

Particularly, here, the

sheet members

24A and 24B of the first and second

flat wiring members

20A and 20B cover the entire periphery of the plurality of

linear transmission members

21A and 21B of the first and second

flat wiring members

20A and 20B. .. As a result, the

sheet members

24A and 24B prevent the plurality of

linear transmission members

21A and 21B from being exposed to the outside in the circumferential direction.

In this example, the bent flat wiring member 20 is fixed in a state of being overlapped with another flat wiring member 20, so that the bent state can be maintained.

The fixing means for fixing the plurality of flat wiring members 20 to each other is not particularly limited. The plurality of flat wiring members 20 may be fixed to each other by using a fixing member, or may be directly fixed without using the fixing member. In the example shown in FIG. 2, a joining member 40 such as an adhesive or a double-sided adhesive tape is provided as the fixing member. The first flat wiring member 20A and the second flat wiring member 20B are fixed via the joining member 40.

The fixing range of the first flat wiring member 20A and the second flat wiring member 20B is not particularly limited.

When viewed in the longitudinal direction, it may be fixed over the entire length in the common path of the first and second

flat wiring members

20A and 20B, or may be partially fixed. When it is partially fixed in the common path of the first and second

flat wiring members

20A and 20B, it is preferable to be fixed at both ends of the common path of the first and second

flat wiring members

20A and 20B. In the example shown in FIG. 1, the joining member 40 is provided partially at both ends and in the common path of the first and second

flat wiring members

20A and 20B.

When viewed along the width direction, the first and second

flat wiring members

20A, 20B may be fixed over the entire facing portion or may be fixed partially. In the example shown in FIG. 1, the joining member 40 is provided at a portion where the

sheet members

24A and 24B face each other. In particular, the joining member 40 is provided at the portion that is the flange portion 34 in the second flat wiring member 20B.

The example shown in FIG. 3 shows an example in which the joining member 40 is provided only on the second flat wiring member 20B, but this is not an essential configuration. The joining member 40 may be provided only on the first flat wiring member 20A. Further, the joining member 40 may be provided on both the first and second

flat wiring members

20A and 20B.

It is preferable that at least one of the plurality of flat wiring members 20 having a large number of circuits is bent. As shown in FIG. 3, here, the first flat wiring member 20A having a large number of circuits is bent. Of course, the second flat wiring member 20B having a small number of circuits may be bent among the plurality of flat wiring members 20. Further, of the plurality of flat wiring members 20, only the second flat wiring member 20B having a small number of circuits may be bent.

In the example shown in FIG. 1, the portion of the first flat wiring member 20A that does not overlap the second flat wiring member 20B has a bent shape, but this is not an essential configuration. A portion of the first flat wiring member 20A that does not overlap with the second flat wiring member 20B may have an unfolded and unfolded shape.

When fixing the wiring member 10 to the vehicle, one of the first flat wiring member 20A and the second flat wiring member 20B may face the vehicle body side. The first flat wiring member 20A and the second flat wiring member 20B may be separately delivered to the assembly factory and stacked at the time of assembly to the vehicle, or may be stacked at a factory different from the assembly factory. The wiring member 10 may be delivered to the assembly factory.

According to the wiring member 10 configured as described above, the second flat wiring member is provided in the concave portion 28 of the first flat wiring member 20A in the portion of the first and second

flat wiring members

20A and 20B extending along the same path. Since the first flat wiring member 20A and the second flat wiring member 20B overlap with each other with the fitting shape portion 30 of 20B fitted, it is possible to prevent a wasteful space and save space. In addition, the first flat wiring member 20A and the second flat wiring member 20B are placed together so that the fitting shape portion 30 of the second flat wiring member 20B fits into the recess 28 of the first flat wiring member 20A. Compared to the case where they are formed flat and overlapped, they are less likely to shift in the width direction when overlapped.

Further, since at least one of the recess 28 and the fitting shape portion 30 (here, the recess 28) is formed by the linear transmission members 21 overlapping each other, the overlapping of the linear transmission members 21 facilitates the recess 28 or the fitting. The shaped portion 30 (here, the concave portion 28) can be easily formed.

Further, since the flat wiring member 20 is bent to form the overlapping portion of the linear transmission member 21, the concave portion 28 or the fitting shape portion 30 can be easily formed.

Also, the flat wiring member 20 having a large number of circuits has a large planar spread, and when it is overlapped with the flat wiring member 20 having a small number of circuits, a protruding portion may occur. Even in this case, since the flat wiring member 20 having a large number of circuits is bent, it is possible to prevent the flat wiring member 20 having a large number of circuits from spreading too much.

In addition, the first and second

flat wiring members

20A and 20B are arranged so that the sheet members 24 of the first and second

flat wiring members

20A and 20B. Since the

wiring members

20A and 20B overlap, the linear transmission member 21 of the first and second

flat wiring members

20A and 20B can be protected by the sheet member 24 of the first and second

flat wiring members

20A and 20B. As a result, it is possible to eliminate the need to separately provide an exterior material and to reduce the amount of the exterior material used.

Particularly, here, the

sheet members

24A and 24B of the first and second

flat wiring members

20A and 20B cover the entire periphery of the plurality of

linear transmission members

21A and 21B of the first and second

flat wiring members

20A and 20B. Therefore, the

sheet members

24A and 24B of the first and second

flat wiring members

20A and 20B can protect all of the plurality of

linear transmission members

21A and 21B of the first and second

flat wiring members

{First modification}
The wiring member according to the first modification will be described. FIG. 4 is a cross-sectional view showing the wiring member 110 according to the first modification. FIG. 5 is an exploded cross-sectional view showing the wiring member 110 according to the first modification.

In this example, the fitting shape portion 130 of the recess 128 and the fitting shape portion 130 is formed by overlapping the linear transmission member 21. More specifically, in the example shown in FIG. 4, the linear transmission member 21B is overlapped with the second flat wiring member 120B to form the convex portion 132. Further, in the example shown in FIG. 4, the linear transmission member 21B also overlaps with the flange portion 134. In the example shown in FIG. 4, the linear transmission member 21B has a double overlapping portion and a triple overlapping portion. The triple overlapping portion forms a convex portion 132, and the linear transmission member 21B has a double overlapping portion. The overlapping portion forms the flange portion 134.

As shown in FIG. 5, the portion where the linear transmission member 21B overlaps is formed by bending the second flat wiring member 120B. In the example shown in FIG. 5, the end portion in the width direction of the second flat wiring member 120B is folded back twice to form a portion in which the linear transmission member 21B is triple-overlapped. More specifically, in the second flat wiring member 120B, the sheet member 124B is folded back at the fold L2 so that the linear transmission member 21B is on the inside, and the fold L3 on the edge side of the fold L2. The linear transmission member 21B is folded back to the outside.

On the other hand, in the first flat wiring member 120A, as shown in FIG. 5, the first linear transmission member 21A group and the second linear transmission member 21A group are spaced from each other in the width direction of the sheet member 124A. It is lined up. As a result, a recess 128 is formed between the first linear transmission member 21A group and the second linear transmission member 21A group.

Further, in the example shown in FIG. 4, a binding member 42 such as a single-sided adhesive tape or a binding band is provided as a fixing member that maintains the first flat wiring member 120A and the second flat wiring member 120B in an overlapping state. The first flat wiring member 120A and the second flat wiring member 120B are fixed by winding a binding member 42 around the first flat wiring member 120A and the second flat wiring member 120B.

{Second modification}
A wiring member according to the second modification will be described. FIG. 6 is an exploded cross-sectional view showing a wiring member 210 according to the second modification.

In this example, the linear transmission member 21 is formed so as to overlap both the recess 28 and the fitting shape portion 130. As shown in FIG. 6, the wiring member 210 in this example is formed by overlapping the first flat wiring member 20A and the second flat wiring member 120B. Of course, in the case where both the recess and the fitting shape portion are formed by overlapping the linear transmission members, the linear transmission members may be formed by overlapping other than this.

{Other modifications}
Up to now, the second flat wiring member 20B has been described as having the flange portion 34 that spreads to the side of the convex portion 32, but this is not an essential configuration. The entire second flat wiring member may be the fitting shape portion. That is, the entire second flat wiring member may fit into the recess of the first flat wiring member.

Also, the flat wiring member 20 has been described above as having the linear transmission member 21 disposed only on one main surface, but this is not an essential configuration. In the flat wiring member 20, the linear transmission member 21 may be arranged also on the other main surface.

Also, the base member 24 has been described as one sheet member 24 to which the linear transmission member 21 is fixed on its main surface, but this is not an essential configuration. For example, the base member 24 may be a pair of sheet members that sandwich and fix the linear transmission member 21, or may be a covering portion that collectively covers the plurality of linear transmission members 21. Further, different types of base members 24 may be adopted in the first and second

flat wiring members

20A and 20B.

Moreover, although it has been described that the linear transmission members 21 are overlapped with each other to form the concave portion 28 or the fitting shape portion 30, this is not an essential configuration. For example, the base member 24 or other members may be overlapped with each other to form the concave portion 28 or the fitting shape portion 30.

Moreover, although the overlapping portion of the linear transmission members 21 has been described so far as being formed by bending the flat wiring member 20, this is not an essential configuration. For example, in the flat wiring member 20, another linear transmission member 21 is disposed and fixed so as to overlap the linear transmission member 21 disposed on the sheet member 24, and the linear transmission member 21 is Overlapping portions may be formed.

Moreover, although it has been described above that the intermediate portion of the first and second

flat wiring members

20A and 20B is a common path, and the one end and the other end of each are different paths, this is essential. Not a configuration. One end of each of the first and second

flat wiring members

20A and 20B may be a common path. Further, both ends of the first and second

flat wiring members

20A and 20B may be a common path. In these cases, the ends of the first and second

flat wiring members

20A and 20B, which are common paths, may be connected to the common connector 26.

Also, the flat wiring member 20 that has been bent has been described above as being formed so that it can be maintained in a bent state by being fixed in a state of overlapping with other flat wiring members 20. Is not a mandatory configuration. The bent flat wiring member 20 may be formed so as to be able to maintain the state of being bent independently. The bent flat wiring member 20 may be formed by a fixing member such as the joining member 40 or the binding member 42 so as to be able to maintain the bent state independently. Further, for example, the bent flat wiring member 20 may be formed such that the base member 24 has a rigidity capable of maintaining the bent state, so that the bent state can be maintained independently.

It should be noted that the respective configurations described in the above-described embodiment and each modified example can be appropriately combined unless they contradict each other.

Although the present invention has been described in detail as above, the above description is an example in all aspects, and the present invention is not limited thereto. It is understood that innumerable variants not illustrated can be envisaged without departing from the scope of the invention.

10 Wiring member 20 Flat wiring member 20A 1st flat wiring member 20B 2nd

flat wiring member

21, 21A, 21B

Linear transmission member

24, 24A, 24B Sheet member (base member)
26, 26A, 26B Connector 28 Recessed portion 30 Fitting shape portion 32 Convex portion 34 Flange portion 40 Joining member (fixing member)
42 Bundling member (fixing member)

Claims

A first flat wiring member and a second flat wiring member each of which includes a plurality of linear transmission members and a base member that holds the plurality of linear transmission members in an aligned state, and extends along at least a part of the same path. Equipped with
In a portion of the first flat wiring member and the second flat wiring member extending along the same path, a concave portion that is partially recessed in the circumferential direction is formed in the first flat wiring member, and the second flat wiring member is A wiring member that is formed to have a fitting shape portion that fits in the recess and overlaps with the first flat wiring member.
The wiring member according to claim 1,
A wiring member, wherein at least one of the concave portion and the fitting shape portion is formed by overlapping the linear transmission member.
The wiring member according to claim 2,
A wiring member in which the first flat wiring member or the second flat wiring member is bent to form a portion where the linear transmission member overlaps.
The wiring member according to claim 2 or 3, wherein
The wiring member in which at least one of the first flat wiring member and the second flat wiring member having a larger number of circuits has a portion where the linear transmission member overlaps.
The wiring member according to any one of claims 1 to 4, wherein:
Each of the first flat wiring member and the second flat wiring member includes a sheet member that holds the plurality of linear transmission members as the base member arranged side by side on the main surface,
The sheet member of the first flat wiring member and the second flat wiring member is located outside the linear transmission member of the first flat wiring member and the second flat wiring member, A wiring member in which the flat wiring member and the second flat wiring member overlap each other.
The wiring member according to claim 5,
A wiring member in which the sheet members of the first flat wiring member and the second flat wiring member cover the entire periphery of the plurality of linear transmission members of the first flat wiring member and the second flat wiring member. ..