JP6562759B2 - Wire harness - Google Patents

Description

  The present invention relates to a wire harness in which a plurality of electric wires are arranged in parallel.

  As a wire harness, a plurality of electric wires arranged in parallel and integrated with an adhesive tape or a resin material, and a flat cable integrally formed at the time of manufacture are known (for example, see Patent Documents 1 and 2). .

JP 2000-1000025 A JP-A-9-115341

By the way, a wire harness may be installed in the complicated-shaped routing surface which has an unevenness | corrugation, for example.
However, planar wire harnesses that integrate multiple wires in a parallel state are difficult to wire on a complex-shaped routing surface that has irregularities other than a straight line in the plane. Will be limited.

  The present invention has been made in view of the above-described circumstances, and an object thereof is a wire harness including a plurality of electric wires arranged in parallel that can be easily wired in accordance with the shape of the wiring place. Is to provide.

In order to achieve the above-described object, the wire harness according to the present invention is characterized by the following (1) to ( 7 ).
(1) It has a front and back plane plate part and a plurality of partition walls provided between the front and back plane plate parts, and is surrounded by the front and back plane plate part and a pair of adjacent partition wall parts in one direction. A wiring harness comprising a wiring material in which a plurality of electric wire insertion holes arranged in a plurality of electric wires are formed, and a plurality of electric wires inserted in parallel through the electric wire insertion holes of the wiring material,
The cabling material includes a first bent portion bent in a direction intersecting the arrangement direction of the electric wire insertion holes along the formation direction of the electric wire insertion holes,
A range from one end of the wire insertion hole forming direction to the midway position in the first bent portion is divided in the wire insertion hole arrangement direction along the wire insertion hole forming direction,
The cabling material includes a second bent portion in which the one divided part is bent in a direction intersecting the forming direction of the electric wire insertion hole along the arrangement direction of the electric wire insertion holes. Wire harness.
( 2 ) The wiring harness according to (1) , wherein the routing material is molded from an elastically deformable soft resin material.
( 3 ) The wire insertion holes are divided in the width direction, and the partition wall portions forming the wire insertion holes are connected by a connecting portion along the wire insertion hole (1) or ( The wire harness as described in 2) .
( 4 ) The wiring material is provided between flat cables in which the electric wires are integrated in parallel, and the electric wire between the flat cables is inserted into the electric wire insertion hole of the wiring material. The wire harness according to ( 2 ) or ( 3 ).
(5) the Haisakuzai is molded from a hard resin material, the portion which becomes the bent portion, wherein a plurality of notches and having a bendable portion formed at intervals (1) Wire harness.
( 6 ) The wire harness according to ( 5 ), wherein the cut is formed on an outer side in a bending direction.
( 7 ) The wire harness according to ( 5 ), wherein the cut is formed on an inner side in a bending direction and has a cross-sectional shape gradually narrowing toward an outer side in the bending direction.

In the wire harness having the above configuration (1), a bent portion that is bent following the surface shape of the wiring surface is formed on the wiring material. Can also be installed easily. Thereby, it is possible to easily wire the wiring surface with a complicated shape other than the flat surface without bending in advance by a complicated operation using dedicated equipment.
In addition, the wiring material can be protected by the wiring material to maintain good quality, and an exterior member or the like for protecting the electric wire can be eliminated, and the weight can be reduced.
Moreover, it can disassemble easily compared with what attached the adhesive tape and arranged an electric wire, or compared the electric wire which arranged the wire with resin.
Furthermore, in the wire harness having the above configuration ( 1 ), the wiring member has a bent portion that is bent along the wire insertion hole in a direction intersecting with the arrangement direction of the wire insertion hole, thereby arranging the wire arrangement. They can be arranged along the shape of the surface. In addition, the wiring material has a bent portion bent in the direction intersecting the forming direction of the electric wire insertion hole along the arrangement direction of the electric wire insertion holes, so that the route of the electric wire can be made to follow the wiring surface. Moreover, the route of the electric wire can be changed and branched. Thereby, flexible wiring according to the situation of the shape of the wiring surface, the wiring route, and the like is possible.
In the wire harness having the above configuration ( 2 ), by installing the routing material on the routing surface, the routing material can be elastically deformed following the shape of the routing surface and can be installed without difficulty. Moreover, since the shape of the wire insertion hole can be deformed by elastically deforming the flat plate portion and the partition wall portion, the degree of freedom of combination of the wire type, wire diameter, arrangement, etc. of the wire inserted into the wire insertion hole is increased. It is possible to improve design flexibility and productivity.
In the wire harness having the above configuration ( 3 ), the wiring material can be bent more easily in the direction intersecting with the arrangement direction of the wire insertion holes along the formation direction of the wire insertion holes by elastically deforming at the connecting portion. Can do.
In the wire harness having the above configuration ( 4 ), for example, by deforming and bending the wiring material between the flat cables, the wiring harness has a complicated shape having a step on the wiring surface of each flat cable. It can be easily routed to places. In addition, the wiring material between the flat cables can be elastically deformed and twisted, so that the wiring surface of each flat cable can be easily routed in a complicated shape such as a horizontal plane and a vertical plane.
In the wire harness having the configuration of ( 5 ) above, by placing the routing material on the routing surface, the bendable portion of the routing material can be bent following the shape of the routing surface and installed without difficulty. it can.
In the wire harness having the above configuration ( 6 ), the bendable portion can be easily bent along the wiring surface with the opposite side of the cut as the inner side.
In the wire harness having the above configuration ( 7 ), the bendable portion can be easily bent along the routing surface with the cut side as the inner side.

  ADVANTAGE OF THE INVENTION According to this invention, the wire harness provided with the some electric wire arranged in parallel which can be wired easily according to the shape of a wiring place can be provided.

  The present invention has been briefly described above. Further, the details of the present invention will be further clarified by reading through a mode for carrying out the invention described below (hereinafter referred to as “embodiment”) with reference to the accompanying drawings. .

FIG. 1 is a perspective view of the wire harness according to the first embodiment. FIG. 2 is a cross-sectional view of the wire harness according to the first embodiment. FIG. 3 is a cross-sectional view of a wiring member constituting the wire harness. 4A and 4B are diagrams illustrating the configuration of the wire harness, in which FIG. 4A is a perspective view at an end, and FIG. 4B is a cross-sectional view. FIG. 5 is a perspective view showing a wiring process of the wire harness according to the first embodiment. FIG. 6 is a cross-sectional view illustrating a wiring example of the wire harness according to the first embodiment. FIG. 7 is a cross-sectional view showing a modification of the wire harness according to the first embodiment. 8A and 8B are diagrams illustrating another example of the routing material, in which FIG. 8A is a perspective view of the wire harness, and FIG. 8B is a cross-sectional view of the routing material. FIG. 9 is a diagram illustrating an example of a wire harness provided with a flat cable, and FIGS. 9A and 9B are perspective views, respectively. FIG. 10 is a perspective view of the wire harness according to the second embodiment. 11A and 11B are diagrams showing the routing material, in which FIG. 11A is a cross-sectional view before bending, and FIG. 11B is a cross-sectional view when bent. 12A and 12B are diagrams showing the routing material, where FIG. 12A is a cross-sectional view before bending, and FIG. 12B is a cross-sectional view when bent. FIG. 13 is a cross-sectional view illustrating a modification of the wire harness according to the second embodiment.

Specific embodiments relating to the present invention will be described below with reference to the drawings.
(First embodiment)
First, the wire harness according to the first embodiment will be described.
FIG. 1 is a perspective view of the wire harness according to the first embodiment. FIG. 2 is a cross-sectional view of the wire harness according to the first embodiment.

  As shown in FIG.1 and FIG.2, the wire harness W is comprised from the routing material 11S and the several electric wire 21. As shown in FIG. The electric wire 21 is formed of an insulated electric wire in which a conductor made of copper, a copper alloy, or the like is covered with a jacket.

  FIG. 3 is a cross-sectional view of a wiring member constituting the wire harness. 4A and 4B are diagrams illustrating the configuration of the wire harness, in which FIG. 4A is a perspective view at an end, and FIG. 4B is a cross-sectional view. FIG. 5 is a perspective view showing a wiring process of the wire harness according to the first embodiment. FIG. 6 is a cross-sectional view illustrating a wiring example of the wire harness according to the first embodiment.

  As shown in FIG. 3, the routing material 11 </ b> S includes front and back flat plate portions 12 and a plurality of partition wall portions 13 provided between the flat plate portions 12. The routing material 11S is formed from, for example, a rubber or polyethylene film or a thin plate-like soft resin material, and is formed by extrusion molding. The partition walls 13 are arranged at predetermined intervals in one direction. Thereby, in this routing material 11S, a plurality of electric wire insertion holes 14 surrounded by the front and back plane plate portions 12 and the respective partition wall portions 13 and arranged in one direction are formed along a predetermined direction. Further, the predetermined wire insertion hole 14 is a wide wire insertion hole 14 a having a larger width dimension by increasing the interval between the partition walls 13.

  As shown in FIGS. 4A and 4B, an electric wire 21 is inserted through the electric wire insertion hole 14 of the routing material 11 </ b> S. Thereby, the several electric wire 21 is put together in the state arranged by the routing material 11S, and it is set as the wire harness W.

  An electric wire 21a having a larger diameter than the electric wire 21 to be inserted into the other electric wire insertion hole 14 is inserted into the wide electric wire insertion hole 14a. The large-diameter electric wire 21a is an electric wire having a larger diameter than the height of the routing material 11S. Since the routing material 11S is formed from a soft resin material, when the large-diameter wire 21a is inserted into the wide wire insertion hole 14a of the routing material 11S, the flat plate portion 12 is elastically deformed. Thereby, the large diameter electric wire 21a is inserted through the wide electric wire insertion hole 14a without difficulty. Thus, in this routing material 11S, by forming the wide wire insertion hole 14a, the large-diameter wire 21a can be inserted into the other portions without changing the thickness. A plurality of electric wires 21 can be inserted through the wide electric wire insertion hole 14a.

  As shown in FIGS. 1 and 2, the wire harness W is installed on a complicatedly arranged wiring surface A having corner portions 1 and corner portions 2. The wire harness W is bent at the corner 1 and the corner 2 of the routing surface A. In the bent portion K1 of the wire harness W, the routing material 11S is bent in a direction intersecting the width direction that is the arrangement direction of the wire insertion holes 14 along the longitudinal direction that is the formation direction of the wire insertion holes 14. Yes.

  In order to route the wire harness W on the routing surface A, first, as shown in FIG. 5, the wire 21 is inserted into the wire insertion hole 14 with respect to the planar routing material 11S, and routing is performed. A wire harness W composed of the material 11S and the electric wire 21 is used. Next, this wire harness W is installed on the routing surface A. Then, the wiring harness 11S is bent in the direction intersecting the width direction along the longitudinal direction according to the shape of the corner portion 1 and the corner portion 2 of the routing surface A due to the elastic deformation of the routing material 11S. K1 is formed. Thereby, the wire harness W is installed along the complicated-shaped wiring surface A which has the corner | angular part 1 and the corner | angular part 2. FIG. In addition, the electric wire 21 to which the crimp terminal 22 was previously connected can be inserted in the electric wire insertion hole 14, and the terminal processing of the electric wire 21 after that can be omitted.

  Moreover, according to this wire harness W, as shown in FIG. 6, by bending the routing material 11S in a circular arc shape, it can be easily installed on the routing surface A having a circular cross-sectional view. .

  The wire harness W can be bent not only in the direction intersecting the width direction along the longitudinal direction but also in the direction intersecting the longitudinal direction along the width direction.

  FIG. 7 is a cross-sectional view showing a modification of the wire harness according to the first embodiment. 8A and 8B are diagrams illustrating another example of the routing material, in which FIG. 8A is a perspective view of the wire harness, and FIG. 8B is a cross-sectional view of the routing material.

  As shown in FIG. 7, the wire harness W is formed with a bent portion K <b> 1 by bending the routing material 11 </ b> S in a direction intersecting the width direction along the longitudinal direction. Further, the routing material 11S is partly cut and divided along the longitudinal direction at one end thereof, and one of the divided parts is bent in a direction intersecting the longitudinal direction along the width direction. A bent portion K2 is formed. Thereby, in this wire harness W, the route of the wiring of the electric wire 21 is changed in a direction intersecting with the arrangement direction of the electric wires 21.

  As shown in FIGS. 8A and 8B, as the routing material 11S, each wire insertion hole 14 is divided in the width direction, and the partition wall portions 13 forming each wire insertion hole 14 are bridge portions. It may be connected in the longitudinal direction by (connecting portion) 15. According to this routing material 11S, when bending in the direction intersecting the width direction along the longitudinal direction, the bridge portion 15 is elastically deformed and bent, so that it can be bent more easily. Therefore, the routing material 11S can be easily and reasonably installed on the routing surface A having a complicated shape.

  As described above, according to the wire harness W according to the first embodiment, the bent portions K1 and K2 that are bent following the surface shape of the routing surface A are formed in the routing material 11S. It can be easily installed even on a complicatedly arranged routing surface A having irregularities such as having the portion 1 and the corner 2. Thereby, it can wire easily to the wiring surface A of complicated shapes other than a plane, without making it bend beforehand by a complicated operation | work using a dedicated installation.

  Moreover, the electric wire 21 can be protected by the routing material 11S to maintain good quality, and an exterior member for protecting the electric wire 21 can be made unnecessary, and the weight can be reduced. Moreover, it can disassemble easily compared with what arranged the electric wire 21 by sticking an adhesive tape, and fixed the electric wire 21 arranged with resin.

  Moreover, the arrangement of the electric wires 21 can be arranged along the shape of the arrangement surface A by having the bent portion K1 bent in the direction intersecting the width direction along the longitudinal direction. Moreover, since the routing material 11S has the bent portion K2 bent in the direction intersecting the longitudinal direction along the width direction, the path of the wire 21 can be made to follow the routing surface A, and the wire 21 It is also possible to branch by changing the path in the direction crossing the array. Thereby, flexible wiring according to the situation of the shape of the wiring surface A, the wiring route, and the like is possible.

  In particular, since the routing material 11S is formed from a soft resin material that can be elastically deformed, the routing material 11S is made to follow the shape of the routing surface A by installing the routing material 11S on the routing surface A. It can be elastically deformed and installed without difficulty. Moreover, since the shape of the wire insertion hole 14 through which the electric wire 21 is inserted can be deformed by the elastic deformation of the flat plate portion 12 and the partition wall portion 13, the electric wire 21 to be inserted into the electric wire insertion hole 14 of the routing material 11S. The degree of freedom of combination of line type, wire diameter, arrangement, etc. can be increased, and design freedom and productivity can be improved.

  Further, in the routing material 11S in which the partition wall portions 13 forming the wire insertion hole 14 are connected by the bridge portion 15 along the longitudinal direction, the routing material 11S is stretched along the longitudinal direction by being elastically deformed by the bridge portion 15. And can be bent more easily in the direction intersecting the width direction.

  In addition, since the routing material 11S is formed by extrusion molding, it can be manufactured at a low cost, and the shape and size of the wire insertion hole 14 can be easily changed by changing the mold shape at the time of extrusion molding. The size of the electric wire 21 and the combination thereof can be flexibly handled, and the presence or absence of the bridge portion 15 can be easily selected. Moreover, since it cut | disconnects and uses after pushing out, length can be set freely.

The wire harness W may be combined with a hard flat cable and a soft flat cable.
FIG. 9 is a diagram illustrating an example of a wire harness provided with a flat cable, and FIGS. 9A and 9B are perspective views, respectively.

  As shown to Fig.9 (a), this wire harness W has the flat cable 31 of the planar shape at the both ends of the part in which the routing material 11S which consists of soft resin materials was provided. The flat cable 31 includes, for example, a wiring material 32 made of a hard resin material, and the electric wires 21 are integrated in parallel by the wiring material 32.

  According to this wire harness W, since the wiring material 11S made of a soft resin material is provided between the flat cables 31 by the wiring material, the flat cables 31 are installed on the wiring surfaces at different positions. can do.

  For example, the wiring material 11S is elastically deformed and bent between the flat cables 31 so that the wiring surface of each flat cable 31 can be easily routed even in a complicated shape having a step. be able to.

  Moreover, as shown in FIG.9 (b), in this wire harness W, the routing material 11S between the flat cables 31 can also be elastically deformed and twisted. As a result, for example, the wiring material 11S is elastically deformed between the flat cables 31 and twisted, so that the wiring surfaces of the flat cables 31 can be easily arranged in a complicated shape such as a horizontal plane and a vertical plane. Can be searched.

(Second Embodiment)
Next, the wire harness which concerns on 2nd Embodiment is demonstrated.
In addition, the same component as 1st Embodiment attaches | subjects the same code | symbol, and abbreviate | omits description.
FIG. 10 is a perspective view of the wire harness according to the second embodiment. 11A and 11B are diagrams showing the routing material, in which FIG. 11A is a cross-sectional view before bending, and FIG. 11B is a cross-sectional view when bent. 12A and 12B are diagrams showing the routing material, where FIG. 12A is a cross-sectional view before bending, and FIG. 12B is a cross-sectional view when bent.

  As shown in FIG. 10, the wire harness W according to the second embodiment is also installed on the complicatedly arranged wiring surface A having the corner portions 1 and the corner portions 2. The wire harness W is bent at the corner 1 and the corner 2 of the routing surface A. In the bent portion K1 of the wire harness W, the routing material 11H is bent in a direction intersecting the width direction that is the arrangement direction of the wire insertion holes 14 along the longitudinal direction that is the formation direction of the wire insertion holes 14. Yes.

  The wiring member 11H constituting the wire harness W is a flat plate material formed from a hard resin material such as polypropylene resin (PP), for example, and is a so-called plastic cardboard.

  As shown in FIG. 11 (a), this routing material 11H also has a front and back plane plate portion 12 and a plurality of partition walls 13 provided between these plane plate portions 12, A plurality of electric wire insertion holes 14 surrounded by the flat plate portion 12 and the partition walls 13 and arranged in one direction are provided.

  This routing material 11H has a bendable portion 16 in which a plurality of cuts 17 along the longitudinal direction are formed from one flat plate portion 12 side at a location to be a bent portion K1. The notch 17 of the bendable part 16 is formed in the partition wall part 13, and the partition wall part 13 is divided by forming the notch 17. Thus, in the routing member 11H, in the bendable portion 16, one flat plate portion 12 is divided in the width direction, and the other flat plate portion 12 is connected in the width direction.

  As shown in FIG. 11 (b), in this routing material 11H, in the bendable portion 16, one flat plate portion 12 is divided in the width direction, so that it can be easily bent with the opposite side of the notch 17 as the inner side. It is possible.

  As shown in FIG. 12A, the bendable portion 16 of the routing material 11 </ b> H may be formed with a V-shaped notch 17 that gradually narrows toward the other flat plate portion 12. In the routing member 11H having the bendable portion 16 in which the cut 17 having the V-shape in cross section is formed, as shown in FIG. 12 (b), one flat plate portion 12 is divided in the width direction, Since a gap is provided at the divided portion, it can be easily bent with the notch 17 side as an inner side. In the routing material 11H having such a V-shaped cut 17 in sectional view, the bending angle at the bendable portion 16 can be easily adjusted by adjusting the cutting angle of the cut 17 in sectional view.

  In order to route the wire harness W on the routing surface A, the wire 21 is inserted into the wire insertion hole 14 with respect to the planar routing material 11H in which the bendable portion 16 is formed in advance, and the routing material The wire harness W is composed of 11H and the electric wire 21. Next, this wire harness W is installed on the routing surface A. Then, the wire harness W is bent by bending the bendable portion 16 of the routing material 11H in a direction intersecting the width direction along the longitudinal direction according to the shape of the corner portion 1 and the corner portion 2 of the routing surface A. Part K1 is formed. Thereby, the wire harness W is installed along the complicated-shaped wiring surface A which has the corner | angular part 1 and the corner | angular part 2. FIG.

  Also, in the case of this wire harness W, the bending portion 16 of the routing material 11H can be easily installed on the routing surface A having a circular cross-sectional view by bending it in an arc shape ( (See FIG. 6).

  Note that the wire harness W includes not only a bendable portion 16 that can be bent in a direction intersecting the width direction along the longitudinal direction, but also a plurality of the wire harnesses W spaced apart in the width direction of the routing material 11H. It is also possible to provide the bendable portion 16 that can be bent in the direction intersecting the longitudinal direction along the width direction by forming the notch 17.

FIG. 13 is a cross-sectional view illustrating a modification of the wire harness according to the second embodiment.
As shown in FIG. 13, the wire harness W is bent by a bendable portion 16 along the longitudinal direction of the routing material 11H, so that a bent portion K1 is formed. Further, the routing material 11H is partly cut and divided along the longitudinal direction at one end thereof, and is bent to be bent in the direction intersecting the longitudinal direction along the width direction. The bent portion K2 is formed by providing the possible portion 16 and bending it with the bendable portion 16. Thereby, in this wire harness W, the route of the wiring of the electric wire 21 is changed in a direction intersecting with the arrangement direction of the electric wires 21.

  Thus, also in the case of the wire harness W according to the second embodiment, the bent portions K1 and K2 that are bent following the surface shape of the routing surface A are formed in the routing material 11H. It can be easily installed even on a complicatedly arranged routing surface A having irregularities such as having the portion 1 and the corner 2. Thereby, it can wire easily to the wiring surface A of complicated shapes other than a plane, without making it bend beforehand by a complicated operation | work using a dedicated installation.

  Further, the wiring material 11H can protect the electric wire 21 to maintain a good quality, and an exterior member for protecting the electric wire 21 can be omitted, and the weight can be reduced. Moreover, it can disassemble easily compared with what arranged the electric wire 21 by sticking an adhesive tape, and fixed the electric wire 21 arranged with resin.

  Moreover, the arrangement of the electric wires 21 can be arranged along the shape of the arrangement surface A by having the bent portion K1 bent in the direction intersecting the width direction along the longitudinal direction. In addition, since the routing material 11H has the bent portion K2 bent in the direction intersecting the longitudinal direction along the width direction, the path of the wire 21 can be made to follow the routing surface A, and the wire 21 It is also possible to branch by changing the route. Thereby, flexible wiring according to the situation of the shape of the wiring surface A, the wiring route, and the like is possible.

  In particular, the routing material 11H molded from the hard resin material has the bendable portions 16 in which a plurality of cuts 17 are formed at intervals at the locations where the bent portions K1 and K2 are formed. By installing on the routing surface A, the routing material 11H can be bent by the bendable portion 16 following the shape of the routing surface A and installed without difficulty. Moreover, the bending range can be regulated by forming the cuts 17 only in the portions to be bent.

  In addition, since this wiring material 11H is also shape | molded by extrusion molding, while being able to manufacture cheaply, the shape and magnitude | size of the electric wire penetration hole 14 can be changed easily by changing the metal mold | die shape at the time of extrusion molding. The size of the electric wire 21 and the combination thereof can be flexibly dealt with, and the formation position and the number of the cuts 17 can be easily selected. Moreover, since it cut | disconnects and uses after pushing out, length can be set freely.

  In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably. In addition, the material, shape, dimensions, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

Here, the features of the above-described embodiments of the wire harness according to the present invention are briefly summarized and listed in the following [1] to [8], respectively.
[1] A front and back flat plate portion (12) and a plurality of partition walls (13) provided between the front and back flat plate portions (12), and a pair of the front and back flat plate portions (12) and a pair. The routing material (11S, 11H) in which a plurality of wire insertion holes (14) are formed surrounded by the adjacent partition wall portions (13) and arranged in one direction, and the routing material (11S, 11H) A wire harness (W) comprising a plurality of electric wires (21) inserted through and parallel to the electric wire insertion hole (14),
The wiring material (11S, 11H) is formed with a bent portion (K1, K2) that is bent following the surface shape of the wiring surface (A).
[2] The wiring member (11S, 11H) is bent in the direction intersecting the arrangement direction of the wire insertion holes (14) along the formation direction of the wire insertion holes (14) (K1). And at least one of a bent portion (K2) bent in a direction intersecting the forming direction of the wire insertion hole (14) along the arrangement direction of the wire insertion holes (14). ] The wire harness as described in.
[3] The wiring harness according to [1] or [2], wherein the routing member (11S) is formed from an elastically deformable soft resin material.
[4] The wire insertion hole (14) is divided in the width direction, and the partition wall portions (13) forming these wire insertion holes (14) are connected to the wire insertion hole (14) (bridge portion). 15) The wire harness according to any one of [1] to [3], wherein the wire harness is connected.
[5] The wiring member (11S) is provided between the flat cables (31) in which the electric wires (21) are integrated in parallel, and the electric wires (21) between the flat cables (31) are The wire harness according to [3] or [4], wherein the wire harness is inserted into the wire insertion hole (14) of the routing material (11S).
[6] The routing member (11H) is formed from a hard resin material, and a bendable portion (a plurality of cuts (17) are formed at intervals in the portions to be the bent portions (K1, K2)). 16) The wire harness as described in [1] or [2] above,
[7] The wire harness according to [6], wherein the cut (17) is formed outside in a bending direction.
[8] The wire harness according to [6], wherein the cut (17) has a cross-sectional shape that is formed inside the bending direction and gradually narrows toward the outside in the bending direction.

11S, 11H wiring material 12 plane plate part 13 partition part 14 electric wire insertion hole 14a wide electric wire insertion hole (electric wire insertion hole)
15 Bridge part (connection part)
16 Bendable part 17 Notch 21, 21a Electric wire A Arrangement surface K1, K2 Bend part W Wire harness

Claims (7)

It has a front and back plane plate part and a plurality of partition walls provided between the front and back plane plate parts, and is surrounded by the front and back plane plate part and a pair of adjacent partition walls and arranged in one direction. A wiring harness comprising a wiring material in which a plurality of electric wire insertion holes are formed, and a plurality of electric wires inserted in parallel through the electric wire insertion holes of the wiring material,
The cabling material includes a first bent portion bent in a direction intersecting the arrangement direction of the electric wire insertion holes along the formation direction of the electric wire insertion holes,
A range from one end of the wire insertion hole forming direction to the midway position in the first bent portion is divided in the wire insertion hole arrangement direction along the wire insertion hole forming direction,
The cabling material includes a second bent portion in which the one divided part is bent in a direction intersecting the forming direction of the electric wire insertion hole along the arrangement direction of the electric wire insertion holes. Wire harness. The-installing material, wire harness according to claim 1, characterized in that it has been formed of an elastically deformable soft resin material. The wire insertion hole is divided in the width direction, to claim 1 or claim 2 wherein the partition wall portions forming these wire insertion hole, characterized in that it is connected by a connecting portion along the wire insertion hole The described wire harness. The wiring member is provided between flat cables in which the electric wires are integrated in parallel, and the electric wire between the flat cables is inserted into a wire insertion hole of the wiring material. Item 4. A wire harness according to item 2 or item 3 . 2. The wire harness according to claim 1 , wherein the wiring member has a bendable portion that is formed from a hard resin material and has a plurality of cuts formed at intervals in a portion to be the bent portion. . The wire notch according to claim 5 , wherein the cut is formed outside the bending direction. 6. The wire harness according to claim 5 , wherein the cut has a cross-sectional shape that is formed inside the bending direction and gradually narrows toward the outside in the bending direction.

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