阅读说明：本技术 布线构件 (Wiring member ) 是由 高仓龙太 水野芳正 安田杰 于 2019-01-18 设计创作，主要内容包括：本发明的目的在于提供能够抑制在片构件上固定有线状传输构件的布线构件的配设空间的增加的技术。布线构件具备：连接器；从所述连接器延伸出的多个线状传输构件；及片构件,从所述连接器延伸出的所述多个线状传输构件在排列变更为了与所述连接器的端面处的排列不同的排列的状态下配设并固定于该片构件的主面上。为了变更所述多个线状传输构件的排列而所述多个线状传输构件彼此交叉的至少一个交叉部位位于所述连接器的端面的后方区域。(The purpose of the present invention is to provide a technique capable of suppressing an increase in the installation space of a wiring member in which a linear transmission member is fixed to a sheet member. The wiring member includes: a connector; a plurality of linear transmission members extending from the connector; and a sheet member, wherein the plurality of linear transmission members extending from the connector are arranged and fixed on a main surface of the sheet member in a state in which the arrangement is changed so as to be different from the arrangement at the end surface of the connector. At least one intersection point where the plurality of linear transmission members intersect with each other in order to change the arrangement of the plurality of linear transmission members is located in a rear region of the end face of the connector.)

1. A wiring member includes:

a connector;

a plurality of linear transmission members extending from the connector; and

a sheet member, on a main surface of which the plurality of linear transmission members extending from the connector are arranged and fixed in a state in which an arrangement is changed so as to be different from an arrangement at an end surface of the connector,

at least one intersection point where the plurality of linear transmission members intersect with each other in order to change the arrangement of the plurality of linear transmission members is located in a rear region of the end face of the connector.

2. The wiring member according to claim 1,

the connector is provided separately from the sheet member.

3. The wiring member according to claim 2,

at least one of the intersections is disposed between the connector and the sheet member.

4. The wiring member according to claim 3,

all of the intersections are disposed between the connectors and the sheet member.

5. The wiring member according to claim 1,

the end of the connector including the end face is located on the sheet member.

6. The wiring member according to any one of claim 1 to claim 5,

the rear region is between a fixing portion closest to the end face of the connector and the end face of the connector among fixing portions of the sheet member and the linear transmission member.

Technical Field

The present invention relates to a wiring member.

Background

Patent document 1 discloses a wire harness including: a functional exterior member formed in a sheet shape; and an electric wire arranged so as to overlap the functional exterior member in at least a part of a region along the longitudinal direction, wherein the insulating coating layer of the electric wire is welded to at least a part of the overlapping portion of the functional exterior member.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2018-137208

Disclosure of Invention

Problems to be solved by the invention

For example, in the wire harness disclosed in patent document 1, depending on the route of the wire, the connection destination position to the connector, and the like, any one of the wires may be arranged to cross over another wire on the sheet-like functional exterior member.

However, when the wires cross each other in the sheet-like functional exterior member, the thickness of the wire harness increases in this portion, and the installation space of the wire harness may increase in the installation site of the vehicle or the like.

Therefore, an object of the present invention is to provide a technique capable of suppressing an increase in an arrangement space of a wiring member in which a linear transport member is fixed to a sheet member.

Means for solving the problems

In order to solve the above problem, a wiring member according to a first aspect includes: a connector; a plurality of linear transmission members extending from the connector; and a sheet member, wherein the plurality of linear transmission members extending from the connector are arranged and fixed on a main surface of the sheet member in a state that the arrangement is changed so as to be different from the arrangement at the end surface of the connector, and at least one intersection point where the plurality of linear transmission members intersect with each other is located in a rear area of the end surface of the connector in order to change the arrangement of the plurality of linear transmission members.

A wiring member according to a second aspect is the wiring member according to the first aspect, wherein the connector is provided separately from the sheet member.

A wiring member according to a third aspect is the wiring member according to the second aspect, wherein at least one of the intersections is provided between the connector and the sheet member.

The wiring member according to a fourth aspect is the wiring member according to the third aspect, wherein all of the intersections are provided between the connectors and the sheet member.

A wiring member according to a fifth aspect is the wiring member according to the first aspect, wherein an end portion of the connector including the end surface is positioned on the sheet member.

A wiring member according to a sixth aspect is the wiring member according to any one of the first to fifth aspects, wherein the rear region is between a fixing portion closest to the end face of the connector and the end face of the connector, of fixing portions of the sheet member and the linear transmission member.

Effects of the invention

According to each aspect, the intersection of the linear transmission members is disposed in the vicinity of the end face of the connector from which the linear transmission member is drawn. Here, in order to protect the connection portion of the linear transmission member to the connector, the rear side of the end face of the connector may be originally set so as not to allow the peripheral member to enter. Therefore, by setting this portion as a rear region and arranging the intersection portion in this rear region, it is possible to effectively use a rear region which is likely to become a dead space (dead space). In addition, the intersection portion disposed at a portion distant from the rear region can be reduced. This can suppress an increase in the installation space of the wiring member in which the linear transmission member is fixed to the sheet member.

According to the second aspect, since the connector is separated from the sheet member, the intersection portion is easily arranged outside the sheet member.

According to the third aspect, since the overlapping of the intersection portion and the sheet member can be suppressed, the increase in the thickness dimension of the intermediate portion of the wiring member can be suppressed.

According to the fourth aspect, since there is no intersection portion in the sheet member, an increase in the thickness dimension of the intermediate portion of the wiring member can be suppressed.

According to the fifth aspect, since the connector is located on the sheet member, the position of the connector is easily recognized.

According to the sixth aspect, the intersection portion can be disposed between the end face of the connector and the fixing portion closest to the end face of the connector among the fixing portions of the sheet member and the linear transmission member.

Drawings

Fig. 1 is a schematic plan view showing a wiring member according to a first embodiment.

Fig. 2 is a schematic side view showing the wiring member according to the first embodiment.

Fig. 3 is a schematic perspective view showing the connector.

Fig. 4 is a schematic plan view showing a wiring member according to a second embodiment.

Fig. 5 is a schematic side view showing a wiring member according to a second embodiment.

Fig. 6 is a schematic plan view showing a wiring member according to a third embodiment.

Fig. 7 is a schematic plan view showing a modification of the wiring member.

Detailed Description

{ first embodiment }

The wiring member according to the first embodiment will be described below. Fig. 1 is a schematic plan view showing a wiring member 10 according to a first embodiment. Fig. 2 is a schematic side view showing the wiring member 10 according to the first embodiment. Fig. 3 is a schematic perspective view showing the connector 20. In fig. 1, the linear transmission member 30 is illustrated as a linear member without its radial dimension. The same applies to fig. 4 and 6 below. In contrast, in fig. 2 and 3, the linear transmission member 30 is not shown in the radial direction. The same applies to fig. 5 and 7 below.

The wiring member 10 includes a connector 20, a plurality of linear transmission members 30, and a sheet member 40. Here, the wiring member 10 includes a plurality of connectors 20. The wiring member 10 may be provided with only one connector 20.

The connector 20 is a member connected to a member mounted on the vehicle. The linear transmission member 30 is a linear member that transmits electricity or light. The ends of the plurality of linear transmission members 30 are connected to any one of the connectors 20. By connecting the connector 20 to a component mounted on the vehicle, the linear transmission member 30 is electrically connected to the component or connected to be able to transmit and receive an optical signal.

In a state where the wiring member 10 is mounted on the vehicle, the plurality of connectors 20 are connected to each member mounted on the vehicle. As a result, electrical signals, electric power, and optical signals are transmitted and received between the components mounted on the vehicle. That is, the wiring member 10 is a wiring member that connects components mounted on the vehicle to each other. In particular, in the wiring member 10, since the plurality of linear transmission members 30 are branched, a plurality of components can be connected via the branched paths.

The sheet member 40 is a sheet-like member. The sheet member 40 fixes portions of the plurality of linear transmission members 30 extending from the connector 20. The plurality of linear transmission members 30 are fixed to the sheet member 40 in a state in which the arrangement is changed so as to be different from the arrangement at the end surface 24 of the connector 20.

A portion where the plurality of linear transmission members 30 intersect with each other in order to change the arrangement of the plurality of linear transmission members 30 is defined as an intersection 32. At this time, at least one intersection 32 is located in the rear area BA of the connector 20. The connector 20 is usually connected to the counterpart member from the end surface side opposite to the end surface 24 from which the linear transmission member 30 extends. Therefore, in the present specification, the side of the end face opposite to the end face 24 from which the linear transmission member 30 extends with respect to the connector 20 is referred to as the front of the connector 20, and the side of the end face 24 from which the linear transmission member 30 extends is referred to as the rear of the connector 20. The portion of the connector 20 outside the connector 20 at the end surface 24 of the connector 20 is referred to as a rear area BA of the connector 20.

Here, the rear area BA of the connector 20 may be, for example, an area within a predetermined dimension L from the end surface 24 of the connector 20. The prescribed dimension L may be 30 mm, for example. The predetermined dimension L may have a value different depending on the size of the connector 20, for example. The prescribed dimension L may be, for example, any value between 10 mm and 30 mm.

Further, an entry prohibition area for the peripheral members 80 and 81 may be set behind the connector 20. The entrance-prohibited region is a region set within a predetermined dimension from the end surface 24 of the connector 20, for example, to prevent the peripheral members 80 and 81 from coming into contact with the connection portion of the linear transmission member 30 to the connector 20 and the linear transmission member 30 from coming off the connector 20. In this way, when the entry prohibition area of the peripheral members 80 and 81 is set behind the end surface 24 of the connector 20, the entry prohibition area may be set as the rear area BA.

Each part will be described more specifically.

The connector 20 includes a housing 22, a connecting member. Here, the connecting member is not shown.

The case 22 is formed in a box shape from an insulating material such as resin, and accommodates the connecting member therein. A linear transmission member 30 extends from one end face 24 of the housing 22. For example, a cavity 23 for accommodating an end portion of the wire-like transmission member 30 is formed in the one end surface 24, and the end portion of the wire-like transmission member 30 is accommodated in the cavity 23, whereby the wire-like transmission member 30 is extended from the one end surface 24 of the housing 22. In fig. 3, the cavity 23 is formed in only 1 layer, but may be formed in 2 or more layers.

The connecting member is interposed between the linear transmission member 30 and the connection target of the connector 20, and is a member for transmitting electricity or light. The connecting member is not particularly limited, and for example, a bus bar, a terminal provided at an end of the linear transmission member 30, or the like can be used. In the connector 20, the connecting members are housed in the housing 22 in a predetermined arrangement. In the connector 20, the end of the linear transmission member 30 is connected to the corresponding connecting member. Therefore, the arrangement of the plurality of linear transmission members 30 at the end face 24 of the connector 20 is an arrangement corresponding to the arrangement of the connection members.

The linear transmission member 30 may be any linear member that transmits electricity, light, or the like. For example, the linear transmission member 30 may be a general electric wire having a core wire and a coating layer around the core wire, or may be a bare wire, a shielded wire, an enameled wire, a nichrome wire, an optical fiber, or the like.

The linear transmission member 30 for transmitting power may be various signal lines and various power lines. The linear transmission member 30 that transmits electricity may also be used as an antenna, a coil, or the like that transmits or receives signals or power to or from the space.

Here, the description will be given assuming that the linear transmission member 30 is a general electric wire 30 (hereinafter, simply referred to as an electric wire 30). The electric wire 30 has a core wire as a transmission line main body and an insulating coating layer as a coating layer covering the core wire. The description of the electric wire 30 can be applied to various examples of the linear transmission member 30, except for the configuration to which it is not applicable.

The core wire is composed of 1 or more single wires. The element wire is formed of a conductor such as copper, copper alloy, aluminum alloy, or the like. In the case where the core wire is composed of a plurality of element wires, the plurality of element wires may be twisted. The insulating coating layer is formed by extrusion molding a resin material such as PVC (polyvinyl chloride) or PE (polyethylene) around the core wire. Here, the electric wire 30 is a so-called round electric wire 30 having a circular cross section.

Here, the electric wires 30 extend in such a manner as to connect between the connectors 20. That is, the two ends of the wire 30 are connected to different connectors 20. However, the electric wire 30 may be connected to the connector 20 only at one end.

The sheet member 40 is a sheet member capable of holding the electric wire 30 in a 2-dimensional positioned state. The sheet member 40 may have flexibility that enables bending, or may have rigidity that makes bending difficult.

The material constituting the sheet member 40 is not particularly limited, but the sheet member 40 is preferably formed of a material containing a resin such as PVC, PE, PET (polyethylene terephthalate), PP (polypropylene), or the like. The sheet member 40 may also include a metal material such as copper or aluminum.

The sheet member 40 may be a fiber material such as a woven fabric, a knitted fabric, or a nonwoven fabric, or may be a molded sheet formed by extrusion molding, injection molding, or the like without fiber bonding. In the latter case, the sheet member 40 may be a foam-molded sheet that is foam-molded, or may be a sheet that is not foam-molded and is uniformly filled inside.

The sheet member 40 may be a single layer or a multilayer laminate. In the case of multilayer lamination, for example, it is conceivable to laminate a resin layer and a resin layer. In addition, for example, lamination of a resin layer and a metal layer is considered.

The electric wire 30 is fixed to one main surface of the sheet member 40. The electric wire 30 is arranged and fixed along a predetermined path on one main surface of the sheet member 40.

The fixing method of the electric wire 30 and the sheet member 40 may be contact portion fixing, non-contact portion fixing, or both. Here, the contact portion fixation means that the portion of the electric wire 30 in contact with the sheet member 40 is fixed by adhesion. The non-contact portion is fixed, which is not a fixing method of the contact portion. For example, the electric wire 30 and the sheet member 40 are sandwiched or maintained in a state in which the electric wire 30 and the sheet member 40 are fixed, such as a state in which the electric wire 30 is pressed against the sheet member 40 by a sewing thread, another sheet member 40, an adhesive tape, or the like, or a state in which the sewing thread, another sheet member 40, an adhesive tape, or the like surrounds the electric wire 30 and the sheet member 40. In this example, it is assumed that the electric wire 30 and the sheet member 40 are in a state where the contact portion is fixed. The respective descriptions of the contact portion fixation may be applied to the non-contact portion fixation as long as the non-applicable configuration is not adopted.

The contact portion may be fixed indirectly, directly, or in a different region. Here, the indirect fixation of the contact portion means that the electric wire 30 and the sheet member 40 are fixed by being indirectly adhered to each other via an intervening member such as an adhesive, or a double-sided adhesive tape provided therebetween. The direct fixation of the contact portion means that the electric wire 30 and the sheet member 40 are fixed to each other without direct adhesion via a separate adhesive or the like. In the direct fixation of the contact portion, for example, it is conceivable to perform fixation by fusion and adhesion of a resin contained in at least one of the electric wire 30 and the sheet member 40. Hereinafter, a state in which the electric wire 30 and the sheet member 40 are directly fixed at the contact portion will be described. The respective descriptions about the direct fixation of the contact portion may be applied to the indirect fixation of the contact portion as long as the direct fixation is not a structure to which the direct fixation is not applicable.

In the case of forming a state in which the contact portion is directly fixed, it is conceivable that the resin is melted by heat, for example, or melted by a solvent. That is, the contact site may be directly fixed by heat, or may be directly fixed by a solvent. Preferably, the contact portion may be directly fixed by heat.

In this case, the structure for forming the state in which the contact portion is directly fixed is not particularly limited, and various known structures including fusion, and welding may be used. For example, when the contact portion is directly fixed by heat by welding, various welding structures such as ultrasonic welding, heat and pressure welding, hot air welding, and high-frequency welding can be employed. In addition, when the contact portion is directly fixed by the above structure, the electric wire 30 and the sheet member 40 are directly fixed by the contact portion of the structure. Specifically, for example, when the contact portion is directly fixed by ultrasonic welding, the contact portion between the electric wire 30 and the sheet member 40 is directly fixed by ultrasonic welding. A portion (a fixed portion of the electric wire 30 and the sheet member 40) in which a state of being directly fixed by a contact portion by heat is formed by welding may be referred to as a welded portion, a fixed portion by ultrasonic welding may be referred to as an ultrasonic welded portion, and a fixed portion by heat and pressure welding may be referred to as a heat and pressure welded portion.

In the case where the contact portion is directly fixed, only the resin contained in the coating layer of the electric wire 30 may be melted, or only the resin contained in the sheet member 40 may be melted. In the case where the contact portion is directly fixed, both the resin contained in the coating layer of the electric wire 30 and the resin contained in the sheet member 40 may be melted.

Here, the sheet member 40 is formed in a strip shape elongated and extending straight. However, the shape of the sheet member is not limited to a strip shape elongated and extending straight, and may be, for example, a curved shape or a shape in which a plurality of strip-shaped portions are combined.

The path of the electric wire 30 on the sheet member 40 may be a straight line or may be a path bent in the middle. On one main surface of the sheet member 40, the plurality of electric wires 30 are branched at intermediate positions. Here, the plurality of wires 30 extend from one end portion 41a toward the other end portion 41b of the sheet member 40. A part of the electric wires 30 is bent toward the one side portion 42a at the intermediate portion of the sheet member 40, and the other part of the electric wires 30 is bent toward the other side portion 42b at the intermediate portion of the sheet member 40. The remaining electric wires 30 reach the other end portion 41b of the sheet member 40.

For convenience, the plurality of connectors 20 are divided into connectors 20A, 20B, 20C, 20D. The plurality of wires 30 are divided into wires 30a, 30b, 30c, 30d, 30e, and 30 f. Hereinafter, when it is necessary to distinguish the connector 20 and the electric wire 30, the same reference numerals are used for distinguishing them.

One end portions of the plurality of wires 30A, 30b, 30c, 30d, 30e, and 30f are connected to the connector 20A on the one end portion 41a side of the sheet member 40. Here, one end portions of the wires 30A, 30b, 30c, 30d, 30e, and 30f extend outward from the one end portion 41a of the sheet member 40 and are connected to the connector 20A. The other end portions of the wires 30a, 30B, 30C, 30D, 30e, and 30f also extend outward from the sheet member 40 and are connected to the connectors 20B, 20C, and 20D, respectively.

The arrangement of the plurality of wires 30A, 30b, 30c, 30d, 30e, 30f at the end surface 24 of the connector 20A is determined according to the arrangement in which one end portions of the plurality of wires 30A, 30b, 30c, 30d, 30e, 30f are accommodated in the housing 22 (cavity 23) of the connector 20A.

Hereinafter, a mode in which the wires 30A, 30b, 30c, 30d, 30e, and 30f extend from the connector 20A will be described.

The wire 30A is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30c, 30d, 30e, and 30 f. The wire 30b is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30c, 30d, 30e, and 30 f. The wire 30c is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30A, 30b, 30d, 30e, and 30 f. The wire 30d is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30A, 30b, 30c, and 30 f. The wire 30e is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30A, 30b, 30c, and 30 f. The wire 30f is bent at a portion immediately before extending from the connector 20A, and crosses the other wires 30A, 30b, 30c, 30d, and 30 e.

The crossing portions 32 are examples of the portions where the electric wires 30a, 30b, 30c, 30d, 30e, and 30f cross each other.

The wires 30A, 30b, 30c, 30d, 30e, and 30f extend from the connector 20A, and extend from one end 41a of the sheet member 40 to the sheet member 40 at a crossing position. That is, the intersections 32 of the wires 30a, 30b, 30c, 30d, 30e, 30f are located between the end face 24 of the connector 20 and the sheet member 40. The wires 30a, 30b, 30c, 30d, 30e, and 30f extend in parallel (parallel posture in this case) from one end 41a to the other end 41b of the sheet member 40, and are fixed to the sheet member 40.

Some of the electric wires 30d, 30f are bent toward the one side portion 42a of the sheet member 40 at the intermediate portion of the sheet member 40, branched from the other electric wires 30a, 30b, 30c, 30e, and extended in a posture orthogonal to them. The sheet member 40 extends outward from one side portion 42a thereof and is connected to the connector 20B. The arrangement of the other ends of the wires 30d, 30f is determined according to the arrangement in which the other ends of the wires 30d, 30f are housed in the connector 20B.

Some of the electric wires 30a and 30b are bent toward the other side portion 42b of the sheet member 40 on the side of the other end portion 41b of the sheet member 40 from the branching position of the electric wires 30d and 30f, and branched from the other electric wires 30c and 30e to extend in a posture orthogonal to them. The other side portion 42b of the sheet member 40 extends outward and is connected to the connector 20C. The arrangement at the other end portions of the wires 30a, 30b is determined according to the arrangement in which the other end portions of the wires 30a, 30b are housed in the connector 20C.

The remaining electric wires 30c, 30e extend to the other end portion 41b of the sheet member 40. The other end 41b of the sheet member 40 extends outward and is connected to the connector 20D. The arrangement of the other ends of the wires 30c, 30e is determined according to the arrangement in which the other ends of the wires 30c, 30e are housed in the connector 20D.

Here, all the crossing portions 32 where the electric wires 30a, 30b, 30c, 30d, 30e, 30f cross are provided between the connector 20 and the sheet member 40. Therefore, the sheet member 40 does not have the crossing portions 32 where the electric wires 30a, 30b, 30c, 30d, 30e, and 30f cross.

Here, the intersection 32a of the electric wire 30c and the electric wire 30e among the plurality of intersections 32 is caused by the difference in the arrangement at the end face 24 of the connector 20A to which one end portion thereof is connected and the arrangement at the connector 20D to which the other end portion thereof is connected. That is, the intersection 32a is a portion that intersects with the connectors 20A and 20D so as to change the arrangement between the connectors 20A and 20D when the arrangement of the connector 20A to which one end portion is connected is different from the arrangement of the connector 20D to which the other end portion is connected when both end portions of the plurality of wires 30c and 30e are connected to the same connectors 20A and 20D, respectively. The same applies to the intersection 32b of the electric wire 30d and the electric wire 30 f. The crossing points 32c other than the crossing points 32a and 32b among the plurality of crossing points 32 are used for branching the electric wires 30.

According to the wiring member 10 configured as described above, the intersection 32 between the wires 30 is disposed in the vicinity of the end surface 24 of the connector 20 from which the wires 30 are drawn. Here, in order to protect the connection portion of the electric wire 30 to the connector 20, the rear side of the end surface 24 of the connector 20 may be set so that the peripheral members 80 and 81 do not enter. Therefore, by setting this portion as the rear area BA and disposing the intersection 32 in this rear area BA, the rear area BA which is likely to become a dead space can be effectively used. In addition, the intersection 32 disposed in a portion distant from the rear area BA can be reduced. This can suppress an increase in the installation space of the wiring member 10 in which the electric wire 30 is fixed to the sheet member 40.

In addition, according to the wiring member 10, since the connector 20 is separated from the sheet member 40, the intersection portion 32 is easily arranged outside the sheet member 40.

In addition, according to the wiring member 10, since the at least one intersection portion 32 is provided between the connector 20 and the sheet member 40, the intersection portion 32 can be suppressed from overlapping with the sheet member 40, and thus an increase in the thickness dimension of the intermediate portion of the wiring member 10 can be suppressed.

In addition, according to the wiring member 10, since all the intersection portions 32 are provided between the connector 20 and the sheet member 40, there are no intersection portions 32 in the sheet member 40, and therefore, an increase in the thickness dimension of the intermediate portion of the wiring member 10 can be suppressed.

{ second embodiment }

A wiring member according to a second embodiment will be described. Fig. 4 is a schematic plan view showing the wiring member 110 according to the second embodiment. Fig. 5 is a schematic side view showing the wiring member 110 according to the second embodiment. In the description of the present embodiment, the same components as those described above are denoted by the same reference numerals, and the description thereof is omitted.

In the present embodiment, the end portion of the connector 20A including the end face 24 is located on the sheet member 40. That is, the end portion of the connector 20A including the end face 24 and the sheet member 40 are not separated in the extending direction of the linear transmission member 30. Here, the end portions of the connectors 20B, 20C, 20D are also located on the sheet member 40. However, the end of some of the connectors 20A, 20B, 20C, and 20D may not be located on the sheet member 40.

The end of the connector 20 positioned on the sheet member 40 may or may not be fixed to the sheet member 40.

When the end of the connector 20 is fixed to the sheet member 40, the fixing method is not particularly limited. The end of the connector 20 may be fixed to the sheet member 40 with an adhesive, a double-sided adhesive tape, or the like, or the housing 22 may be fixed by being welded to the sheet member 40.

In this way, when the end portion of the connector 20 including the end surface 24 is positioned on the sheet member 40, the intersection portion 32 is also positioned on the sheet member 40. The crossing portion 32 is located on the sheet member 40, and includes a case where the crossing portion 32 is placed on the main surface of the sheet member 40 and a case where the crossing portion is lifted from the main surface of the sheet member 40. In this way, even when the intersection 32 is located on the sheet member 40, the intersection 32 is disposed in the rear area BA of the connector 20, thereby suppressing an increase in the installation space of the wiring member 10 to which the wire-shaped transmission member 30 is fixed on the sheet member 40.

In addition, according to the wiring member 110, since the connector 20 is positioned on the sheet member 40, the position of the connector 20 is easily recognized. In particular, when the connector 20 is fixed to the sheet member 40, the connector 20 can be positioned.

When the intersection 32 is located on the sheet member 40, the portion of the electric wire 30 that sandwiches the intersection 32 may or may not be fixed to the sheet member 40. In the example shown in fig. 5, the portion of the electric wire 30 that sandwiches the intersection 32 is not fixed to the sheet member 40. Therefore, the portion of the electric wire 30 on the connector 20A side of the intersection 32 is not fixed to the sheet member 40.

In the example shown in fig. 5, the fixing portion FP of the electric wire 30 and the sheet member 40 is indicated by a two-dot chain line. At this time, in the example shown in fig. 5, of the fixing portions FP of the electric wire 30 and the sheet member 40, the fixing portion FP1 closest to the end face 24 of the connector 20A is separated from the end face 24 of the connector 20A, and the intersection portion 32 is disposed therebetween. In the example shown in fig. 5, the fixing portions FP are provided intermittently along the extending direction of the electric wire 30, but may be provided in a series. In this case, a portion closest to the end surface 24 of the connector 20A among the fixing portions formed in series can be used as a fixing portion closest to the end surface 24 of the connector 20A among the fixing portions of the electric wire 30 and the sheet member 40.

Further, the dimension between the portion of the electric wire 30 located at the opening of the cavity 23 and the portion of the fixing site FP1 located closest to the end face 24 of the connector 20A on the sheet member 40 is set longer than the shortest distance between the opening of the cavity 23 and the fixing site FP 1. This can suppress abrupt bending of the wire 30, and can suppress the wire 30 from being damaged by friction with the opening peripheral edge of the cavity 23.

{ third embodiment }

A wiring member according to a third embodiment will be described. Fig. 6 is a schematic plan view showing the wiring member 210 according to the third embodiment. In the description of the present embodiment, the same components as those described above are denoted by the same reference numerals, and the description thereof is omitted.

The case where the plurality of intersections 32 exist only in the rear area BA of the single connector 20A has been described, but this is not an essential configuration. The plurality of intersections 32 may be present separately in the rear area BA of the plurality of connectors 20. By thus allowing the plurality of intersections 32 to be present separately in the rear area BA of the plurality of connectors 20, it is possible to suppress the plurality of intersections 32 from concentrating on the rear area BA of one connector 20A.

In this example, a part of the plurality of intersections 32 is provided in the rear area BA1 of the connector 20A, another part is provided in the rear area BA2 of the connector 20D, and the remaining part is provided in the rear area BA3 of the connector 20B.

In particular, in the present example, the intersection 32a of the electric wire 30c and the electric wire 30e among the plurality of intersections 32 is provided in the rear area BA2 of the connector 20D. In addition, the intersection 32B of the electric wire 30d and the electric wire 30f among the plurality of intersections 32 is provided in the rear area BA3 of the connector 20B. The remaining intersection 32c is provided in the rear area BA1 of the connector 20A.

That is, in this example, the intersection 32c for branching is provided in the rear area BA1 of the connector 20A. The intersections 32a, 32B due to the difference in the arrangement between the 2 connectors 20 are provided in the rear areas BA2, BA3 of the connectors 20D, 20B.

In this example, the shape of the sheet member 240 is different from the shape of the previous sheet member 40. More specifically, the sheet member 240 includes the first sheet portion 44 and the second sheet portions 46a, 46 b.

Here, the first sheet portion 44 is formed in a strip shape elongated and extending straight. The first sheet portion may also be curved. The first sheet-like portion 44 is formed in the same shape as the sheet member 40, and the one end 41a, the other end 41b, the one side portion 42a, and the other side portion 42b of the sheet member 40 correspond to the one end 41a, the other end 41b, the one side portion 42a, and the other side portion 42b of the first sheet-like portion 44.

The second sheet portions 46a and 46b are bent at the middle portion in the extending direction of the first sheet portion 44 and branch off to the sides of the first sheet portion 44. The second sheet portions 46a, 46b are formed in a strip shape elongated and extending straight. The number of the second sheet portions may be 1, or 3 or more. When a plurality of second sheet-like portions are provided, the plurality of second sheet-like portions may be provided separately on both side portions 42a, 42b of the first sheet-like portion 44, may be provided only on one side portion 42a of the first sheet-like portion 44, or may be provided only on the other side portion 42 b.

The second sheet portion 46a is branched so as to extend outward from the middle portion in the extending direction of the one side portion 42a of the first sheet portion 44 toward the one side portion 42a of the first sheet portion 44. The second sheet portion 46b is branched so as to extend from the middle portion in the extending direction of the other side portion 42b of the first sheet portion 44 toward the outside of the other side of the first sheet portion 44.

Here, the second sheet portions 46a, 46b are provided at different positions in the extending direction of the first sheet portion 44. Here, the second sheet portion 46a is provided near one end 41a of the first sheet portion 44, and the second sheet portion 46b is provided near the other end 41b of the first sheet portion 44. In the case where a plurality of second sheet portions are separately provided on both side portions 42a, 42b of the first sheet portion 44, 2 of the second sheet portions may be provided at the same position in the extending direction of the first sheet portion.

The second sheet portions 46a, 46b extend in a posture orthogonal to the extending direction of the first sheet portion 44. The second sheet portion may also extend in a direction inclined with respect to the direction of extension of the first sheet portion.

{ modification example }

Fig. 7 is a schematic plan view showing a modification of the wiring member 10.

In this example, when one wire 30x crosses over a plurality of wires 30, the one wire 30x passes through one side with respect to the first wire 30y and passes through the other side with respect to the second wire 30 z. Thus, one electric wire 30x is crossed in such a manner as to pass (stitch) between the first electric wire 30y and the second electric wire 30z, so that the shape of the crossing portion 32 is easily maintained, and the crossing portion 32 is not easily unraveled. This makes it difficult for a large load to be applied to the electric wire 30 when the connector 20 is pulled.

Note that, although the description has been made so far with respect to the case where the rear area BA is an area from the end surface 24 of the connector 20 to within the predetermined dimension L, this is not an essential configuration. The other area may be the rear area BA.

For example, as in the first embodiment, the connector 20 and the sheet member 40 may be provided separately along the extending direction of the linear transport member 30. In this case, the area between the connector 20 and the sheet member 40 may be the rear area BA.

Further, for example, as in the second embodiment, among the fixing portions FP of the sheet member 40 and the linear transmission member 30, the fixing portion FP1 closest to the end face 24 of the connector 20 may be separated from the end face 24 of the connector 20. In this case, the area between them may be the rear area BA.

Note that, although the description has been made so far on the case where all the intersections 32 are disposed in the rear area BA, this is not an essential configuration. A part of the intersection 32 may be disposed outside the rear area BA. In this case, the intersection portion 32 disposed outside the rear area BA is preferably disposed in a portion of the wiring member where the arrangement space is relatively large. That is, the portion of the wiring member outside the rear area includes a first portion and a second portion having a relatively large arrangement space compared to the first portion, and the intersection portion disposed outside the rear area BA is preferably disposed only in the second portion of the first portion and the second portion. This suppresses the cross portion from being disposed in the first portion having a relatively small arrangement space, and the cross portion is less likely to contact the peripheral member.

In addition, the configurations described in the embodiments and the modifications may be appropriately combined as long as they are not contradictory to each other.

As described above, the present invention has been described in detail, but the above description is illustrative in all aspects, and the present invention is not limited thereto. It is to be understood that numerous modifications, not illustrated, can be devised without departing from the scope of the invention.

Description of the reference symbols

10 wiring member

20. 20A, 20B, 20C, 20D connector

24 end face

30. 30a, 30b, 30c, 30d, 30e, 30f electric wire (linear transmission member)

32. 32a, 32b, 32c cross over

40. 240 pieces of component

Area behind BA.