JP2023111934A - Wiring member - Google Patents

Abstract

To provide a technique allowing an attachment of an attaching-purpose member even with a soft base member.SOLUTION: A wiring member includes: a wiring body; and an attaching-purpose member configured to be attached to the wiring body and for attaching the wiring body onto an attachment target. The wiring body includes: a linear transmission member; and a base member holding the linear transmission member. The attaching-purpose member includes: a base member attaching part configured to be attached to the base member while holding the base member from both sides in front and back directions of the base member, together with plastic deformation; and an attachment target attaching part configured to be attached to the attachment target of the wiring body.SELECTED DRAWING: Figure 2

Description

TECHNICAL FIELD The present invention relates to a technique for attaching a wiring member to an attachment target member such as a vehicle.

In Patent Document 1, a wire attachment portion that can be attached to a wire, a first locking portion that is formed to be able to be inserted and locked into a mounting hole formed in an object to be mounted, and a fixing hole formed in a protective material. a second locking portion configured to be insertable and lockable.

JP 2017-46443 A

However, in the technique described in Patent Document 1, the second locking portion of the clamp is locked to the protective material by utilizing the rigidity of the protective material made of plastic corrugated cardboard. It may be difficult to attach to the material.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a technology capable of attaching an attachment member even when the base member is soft.

In order to solve the above-described problems, a wiring member according to a first aspect includes a wiring body including a linear transmission member and a base member for holding the linear transmission member, and plastic from both sides of the base member in the front and back directions. An attachment member including a base member attachment portion attached to the base member while holding the base member with deformation, and an attachment target attachment portion attached to the attachment target of the wiring body.

A wiring member according to a second aspect is the wiring member according to the first aspect, wherein the base member attachment portions are formed separately from each other and sandwich the base member from both sides in the front and back direction of the base member. It includes a first clamping portion, a second clamping portion, and a plastic deformation portion that is plastically deformed to maintain the clamping state of the first clamping portion and the second clamping portion.

A wiring member according to a third aspect is a wiring body including a linear transmission member and a base member that holds the linear transmission member, and is molded so as to be mutually fittable with elastic deformation. a base material attachment part attached to the base member having an elastic clamping part and a receiving part for clamping the base member from both sides in the front and back direction in a state of being fitted to the base member; and a mounting member including a mounting portion to be mounted.

A wiring member according to a fourth aspect is the wiring member according to any one of the first to third aspects, wherein the base member mounting portion sandwiches a peripheral edge portion of a through hole formed in the base member. do.

A wiring member according to a fifth aspect is the wiring member according to any one of the first to fourth aspects, wherein the wiring body includes a plurality of linear transmission members arranged on the base member. This is the formed flat wiring body.

A wiring member according to a sixth aspect is the wiring member according to the fifth aspect, wherein the attachment target attachment portions are provided so as to be capable of attaching the attachment targets in front and back directions of the flat wiring body.

A wiring member mounting structure according to a seventh aspect includes a plurality of wiring members according to the fifth or sixth aspect, wherein the mounting member of a first wiring member among the plurality of wiring members includes a plurality of wiring members. Among the members, it is attached to the attachment member of the second wiring member.

A wiring member mounting structure according to an eighth aspect includes the wiring member according to the fifth or sixth aspect, and a vehicle body to which the wiring member is attached by the mounting member.

A wiring member mounting structure according to a ninth aspect is the wiring member mounting structure according to the eighth aspect, wherein the vehicle body has a curved surface and an intermediate portion along the width direction of the flat wiring body. are bent along the curved surface of the vehicle body, and both ends along the width direction of the flat wiring body are attached to the vehicle body by the attachment members.

According to the first aspect, the mounting member is attached to the base member while the base member mounting portion sandwiches the base member with plastic deformation. Therefore, even if the base member is soft, the mounting member can be attached.

According to the second aspect, the base member can be firmly sandwiched by the plastically deformed portion.

According to the third aspect, by holding the base member in a state in which the elastic holding portion and the receiving portion are fitted in the base member mounting portion, the mounting member can be mounted even if the base member is soft.

According to the fourth aspect, the attachment member can be attached to any position of the base member where the through hole can be formed.

According to the fifth aspect, the mounting member can be firmly attached to the flat wiring body.

According to the sixth aspect, the attachment member allows attachment of three or more members at one location.

According to the seventh aspect, the wiring members can be attached to each other by the attachment member.

According to the eighth aspect, the wiring member can be attached to the vehicle body by the attachment member.

According to the ninth aspect, the flat wiring body can be bent along the contour of the vehicle body.

It is a top view which shows the wiring member which concerns on 1st Embodiment. It is a sectional view showing the attachment structure of the wiring member concerning a 1st embodiment. Fig. 3 is an exploded cross-sectional view of a male snap fastener; Fig. 10 is an exploded cross-sectional view of a female snap fastener; FIG. 4 is a cross-sectional view showing an example in which a wiring member is provided with a female snap fastener and an attachment target member is provided with a male snap fastener; It is a sectional view showing a wiring member concerning a 2nd embodiment. FIG. 7 is an exploded cross-sectional view showing a wiring member according to a second embodiment; It is a sectional view showing the attachment structure of the wiring member concerning a 2nd embodiment. It is sectional drawing which shows the wiring member which concerns on 3rd Embodiment, and its attachment structure. It is an exploded cross-sectional view showing a wiring member and its mounting structure according to a third embodiment. It is a top view which shows the modification of the attachment position of the member for attachment in a wiring member. It is a top view which shows the modification of the attachment position of the member for attachment in a wiring member. It is a top view which shows the modification of the attachment position of the member for attachment in a wiring member. It is a top view which shows the modification of the attachment position of the member for attachment in a wiring member. It is sectional drawing which shows the modification of an attachment object member. It is sectional drawing which shows the modification of an attachment object member. It is sectional drawing which shows the modification of an attachment object member. FIG. 10 is a cross-sectional view showing a modification of the snap fastener;

{First embodiment}
A wiring member and its mounting structure according to the first embodiment will be described below. FIG. 1 is a plan view showing a wiring member 10 according to the first embodiment. FIG. 2 is a cross-sectional view showing the wiring member mounting structure 100 according to the first embodiment. FIG. 2 is a cross-sectional view cut along line II-II of FIG.

The wiring member 10 is mounted on the vehicle and transmits electricity, light, or the like to each component mounted on the vehicle. The wiring member 10 includes a wiring body 11 and an attachment member 20 attached to the wiring body 11 . The attachment member 20 is a member for attaching the wiring body 11 to the attachment target member 40 . The wiring member mounting structure 100 is formed by mounting the wiring member 10 to the mounting target member 40 with the mounting member 20 .

The wiring body 11 includes a linear transmission member 12 and a base member 16 that holds the linear transmission member 12 . Here, an example in which the wiring body 11 includes a plurality of linear transmission members 12 will be described. Also, here, an example will be described in which the plurality of linear transmission members 12 are flat wiring bodies 11 that are kept flat by the base member 16 .

The linear transmission member 12 may be any linear member that transmits electricity, light, or the like. For example, the linear transmission member 12 may be a general electric wire having a core wire and a coating around the core wire, or may be a bare conductor wire, a shielded wire, an enameled wire, a nichrome wire, an optical fiber, or the like.

Various signal lines and various power lines may be used as the linear transmission member 12 for transmitting electricity. A linear transmission member 12 that transmits electricity may be used as an antenna, a coil, or the like that transmits or receives signals or power to or from space.

Here, it is assumed that the linear transmission member 12 is a general electric wire 12 (hereinafter simply referred to as the electric wire 12). The electric wire 12 has a core wire 13 as a transmission line body and an insulating coating 14 as a coating that covers the core wire 13 . Each description regarding the wire 12 is applicable to each example of the linear transmission member 12, except for inapplicable configurations.

The core wire 13 is composed of one or more strands. The strands are made of conductors such as copper, copper alloys, aluminum, and aluminum alloys. When the core wire 13 is composed of a plurality of strands, the strands may be twisted. The insulating coating 14 is formed by extrusion molding a resin material such as PVC (polyvinyl chloride) or PE (polyethylene) around the core wire. Here, the wire 12 is a so-called round wire having a circular cross section.

The base member 16 may be any member that holds the electric wire 12 . Here, the base member 16 is a member that holds the electric wire 12 in a two-dimensionally positioned state. The base member 16 only needs to be able to hold the electric wire 12 in a two-dimensionally positioned state when placed on a work site or the like. Thus, the base member 16 may be a flexible sheet-like member that can be easily bent. The base member 16 may be a sheet-shaped member having a degree of rigidity capable of holding the electric wires 12 in a two-dimensionally positioned state while being curved, or may be a sheet-like member that holds the electric wires 12 in a two-dimensional state while maintaining a flat state. It may be a sheet-shaped member having a rigidity that allows it to be held in a state in which it is positioned at the right position. The base member 16 may have a three-dimensional shape, such as a partly erected wall.

Here, the base member 16 is described as being a bendable sheet member 16 . Each description of seat member 16 is applicable to base member 16, except where not applicable.

The material forming the sheet member 16 is not particularly limited, but the sheet member 16 is preferably made of a material containing a resin such as PVC (polyvinyl chloride), PET (polyethylene terephthalate), PP (polypropylene), or the like. be. The sheet member 16 may be a sheet member 16 whose interior is uniformly filled, or may be a non-woven sheet or the like. Sheet member 16 may also comprise a material such as metal. The sheet member 16 preferably has flexibility to be easily bent in the thickness direction. The sheet member 16 may be a single layer, or may be laminated in multiple layers. When a plurality of layers are laminated, it is conceivable that resin layers and resin layers are laminated, for example. Further, for example, it is conceivable that a resin layer and a metal layer are laminated.

The electric wire 12 is fixed on one main surface of the sheet member 16 . On one main surface of the sheet member 16, the electric wire 12 is fixed along a certain route. In the example shown in FIG. 1, the path of the electric wire 12 on the sheet member 16 is a straight line, but it may be a curved path. Further, when a plurality of electric wires 12 are fixed on one main surface of the sheet member 16, the plurality of electric wires 12 may or may not branch in the middle.

The sheet member 16 is formed in a shape along the paths of the plurality of electric wires 12 . At this time, the sheet member 16 includes a strip-shaped portion 17 along the path of the electric wire 12 and an extension portion 18 extending laterally from the strip-shaped portion 17 . The electric wire 12 is fixed to the belt-like portion 17 . A mounting member 20 is provided on the extension portion 18 .

The mode of fixing the electric wire 12 and the sheet member 16 may be fixed at the contact portion, may be fixed at the non-contact portion, or both may be used together. Here, the fixing of the contact portion means that the contact portion between the electric wire 12 and the sheet member 16 is stuck and fixed. Non-contact site fixation is a fixation mode that is not contact site fixation. For example, a sewing thread, another sheet member, an adhesive tape, or the like presses the electric wire 12 toward the sheet member 16, or a state in which the sewing thread, another sheet member, an adhesive tape, or the like surrounds the electric wire 12 and the sheet member 16. As a result, the electric wire 12 and the sheet member 16 are sandwiched between them, and the electric wire 12 and the sheet member 16 are maintained in a fixed state. In the following description, it is assumed that the electric wire 12 and the sheet member 16 are in a fixed contact portion state. Each discussion relating to contact site fixation is also applicable to non-contact site fixation, unless the configuration is not applicable.

Such contact site fixation may be indirect fixation at the contact site, direct fixation at the contact site, or both may be used in different regions. Here, the indirect fixation of the contact portion means that the electric wire 12 and the sheet member 16 are indirectly fixed by intervening an intervening member such as an adhesive, a pressure sensitive adhesive, or a double-sided adhesive tape provided between them. be. Further, the direct fixation of the contact portion means that the electric wire 12 and the sheet member 16 are directly adhered and fixed without an adhesive or the like provided separately. In the direct fixation of the contact portion, it is conceivable that, for example, resin contained in at least one of the electric wire 12 and the sheet member 16 is melted to stick and fix. In the following description, it is assumed that the electric wire 12 and the sheet member 16 are directly fixed at their contact portions. Each discussion relating to direct contact site fixation is also applicable to indirect contact site fixation, unless the configuration is not applicable.

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

At this time, the means for forming the state of direct fixation of the contact portion is not particularly limited, and various means including known means such as welding, fusing and welding can be used. For example, when the contact portion is 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 employed. Further, when the contact portion directly fixed state is formed by these means, the electric wire 12 and the sheet member 16 are brought into the contact portion directly fixed state by the means. Specifically, for example, when the contact portion directly fixed state is formed by ultrasonic welding, the electric wire 12 and the sheet member 16 are brought into the contact portion directly fixed state by ultrasonic welding. The portion (fixed portion between the electric wire 12 and the sheet member 16) in which the contact portion is directly fixed by heat by welding is the welded portion, and the portion fixed by ultrasonic welding is the ultrasonic welded portion. The fixed portion may also be referred to as a heating/pressurizing welding portion or the like.

In the case of directly fixing the contact portion, only the resin contained in the coating 14 of the electric wire 12 may be melted, or only the resin contained in the sheet member 16 may be melted. In these cases, the melted resin may become stuck to the outer surface of the other, forming a relatively sharp interface. Moreover, in the case of directly fixing the contact portion, both the resin contained in the coating 14 of the electric wire 12 and the resin contained in the sheet member 16 may be melted. In this case, both resins may mix and a clear interface may not be formed. In particular, when the coating 14 of the electric wire 12 and the sheet member 16 contain resins that are easily compatible, such as the same resin material, both resins may be mixed and a clear interface may not be formed.

The attachment member 20 includes a base member attachment portion attached to the base member 16 and an attachment target attachment portion attached to an attachment target of the wiring body 11 . Here, an example will be described in which the base member mounting portion clamps the base member 16 with plastic deformation from both sides of the base member 16 in the front and back directions. The base material mounting portion includes a first clamping portion and a second clamping portion which are formed separately from each other and clamp the base member 16 from both sides in the front and back direction of the base member 16, and a first clamping portion and a second clamping portion which are plastically deformed. and a plastically deformed portion that maintains the sandwiched state of. The base member attaching portion clamps the periphery of the through hole formed in the base member 16 .

The mounting member 20 is attached to the extension portion 18 of the sheet member 16 . The attachment member 20 is attached to the extension portion 18 using a through hole 18 h formed in the extension portion 18 . Therefore, in this example, an example in which the base material attachment portion is formed so as to sandwich the peripheral edge portion of the through hole 18h of the extension portion 18 will be described.

The attachment target attachment portion is formed in a shape corresponding to the attachment target member 40 . The attachment part to be attached is not particularly limited as long as it can be attached to the member 40 to be attached. Here, a snap is used for attaching the wiring member 10 and the attachment target member 40 . As a result, the wiring member 10 and the mounting target member 40 are easily attached and detached. A snap is a fastener in which a concave portion and a convex portion are used as a pair. Among such snaps, the convex snap fastener 20 is called a male snap fastener 20 and the concave snap fastener 50 is called a female snap fastener 50 . Note that the snap fastener is sometimes called a snap button or the like. Here, an example in which a male snap fastener 20 is provided as the mounting member 20 will be described, but the mounting member 20 may be provided with a female snap fastener 50 .

FIG. 3 is an exploded cross-sectional view of the male snap fastener 20 used as the mounting member 20. As shown in FIG.

The male snap fastener 20 includes the base material attachment portion and the attachment target attachment portion. Specifically, the snap fastener 20, here male, is made up of a plurality of separately molded parts. In the example shown in FIG. 3, the male snap fastener 20 consists of a separately molded male body portion 22 and a clasp 26 . The male snap fastener 20 is made of metal or resin, for example.

The male body portion 22 has a fitting head portion 23 for attaching the male snap fastener 20 to the female snap fastener 50, and a flange portion 24 extending outwardly from the base end of the fitting head portion 23. . Here, the fitting head 23 is formed in a tubular shape.

The fastener 26 has a mounting head portion 27 that passes through a through hole 18h formed in the sheet member 16 and is inserted into the fitting head portion 23, and a flange that extends from the base end portion of the mounting head portion 27 to the outer peripheral side. 28.

Here, the male snap fastener 20 is attached to the wiring body 11 by sandwiching the sheet member 16 between the flange portions 24 and 28 . At this time, by inserting the mounting head portion 27 penetrating the sheet member 16 into the fitting head portion 23, a state in which a portion of the sheet member 16 is sandwiched between the flange portions 24 and 28 is maintained. ing. More specifically, when the mounting head 27 passing through the sheet member 16 is inserted into the fitting head 23 , the leading end of the mounting head 27 is crimped, and the inner surface of the fitting head 23 is bent. It plastically deforms into a shape that conforms to its shape. For example, after the tip of the mounting head 27 inserted into the fitting head 23 abuts against the inner surface of the fitting head 23 while the outer surface of the fitting head 23 is supported by a jig or the like. , receiving force from the inner surface of the fitting head 23 , plastically deforming into a shape corresponding to the shape of the inner surface of the fitting head 23 . As a result, the mounting head 27 is detented from the fitting head 23, and the flanges 24 and 28 hold the sheet member 16 between them.

Therefore, in the male snap fastener 20, the flange portions 24 and 28 are the first clamping portion and the second clamping portion, the mounting head portion 27 is the plastic deformation portion, and these are the base material mounting portion. be able to. In the male snap fastener 20, the fitting head portion 23 and the mounting head portion 27 are formed as the convex portion 21 as the mounting portion to be mounted.

The attachment target member 40 is an attachment target of the wiring member 10 . Here, an example in which the mounting target member 40 is the vehicle body will be described. The vehicle body includes, for example, frames, panels, reinforcing members, and the like. In the example shown in FIG. 2, the attachment target member 40 is a member having a flat surface. Here, the wiring member 10 is mounted on the flat surface of the mounting target member 40 in a developed state. A mounting hole 40 h is formed in the mounting target member 40 . A female snap fastener 50 is attached to the attachment hole 40h.

4 is an exploded cross-sectional view of the female snap fastener 50. FIG.

The female snap fastener 50 includes mounting structure in addition to the recessed feature 51 . The attachment structure portion is a portion for attaching the female snap fastener 50 itself to a member to which the recessed portion 51 is attached (here, the member to be attached 40). When the female snap fastener 50 is attached to the base member, the attachment structure corresponds to the base member attachment portion described above.

Specifically, the snap fastener 50, here female, is made up of a plurality of separately molded parts. In the example shown in FIG. 4, the female snap fastener 50 consists of a separately molded female body portion 52 and a receiving portion 56 . The female snap fastener 50 is made of metal or resin, for example.

The female body portion 52 includes a cylinder 53 , a retaining plate 54 and a ring spring 55 . The cylindrical body 53, the holding plate 54, and the ring spring 55 are separately molded members. A concave portion 51 is a hole formed in the female main body portion 52 so as to communicate with the inside of the cylinder 53 , the holding plate 54 , and the ring spring 55 .

As shown in FIG. 4, the cylindrical body 53 has a small cylindrical portion 53a and a large cylindrical portion 53b having a larger diameter than the small cylindrical portion 53a before the female snap fastener 50 is attached to the mounting target member 40. , and a flange portion 53c having a diameter larger than that of the large cylinder portion 53b are formed in a continuous shape from one axial side to the other axial side. The small tubular portion 53 a is a portion that is crimped and plastically deformed when the female snap fastener 50 is attached to the attachment target member 40 . Here, the small cylindrical portion 53a has a length dimension and a diameter dimension that allow it to pass through the attachment hole 40h formed in the member 40 to which the female snap fastener 50 is attached. A ring spring 55 is accommodated inside the large cylindrical portion 53b. A stepped portion is formed between the large cylindrical portion 53b and the small cylindrical portion 53a to prevent the ring spring 55 from coming off. The flange portion 53 c is a portion held by the holding plate 54 .

The holding plate 54 has a through hole 54h formed in the center of the disk-shaped member coaxial with the small cylindrical portion 53a, and the outer peripheral portion is deformed so as to warp to hold the flange portion 53c. A through hole 54 h of the holding plate 54 is set smaller than the outer diameter of the ring spring 55 . As a result, the ring spring 55 can be detented while the holding plate 54 is held by the flange portion 53c.

The ring spring 55 is an elastically deforming portion that widens the concave portion 51 when the convex portion 21 is inserted. Further, since the convex portion 21 is inserted into the ring spring 55 , the ring spring 55 can also be regarded as part of the concave portion 51 . The outer diameter of the ring spring 55 in the natural state is smaller than the inner diameter of the large cylindrical portion 53b. As a result, the ring spring 55 is elastically deformable so as to spread outward. In addition, the inner diameter of the ring spring 55 is smaller than the inner diameter of the small cylindrical portion 53a and the through hole 54h of the holding plate 54 in the natural state. As a result, the inner peripheral portion of the ring spring 55 is the narrowest portion of the concave portion 51 .

The receiving portion 56 is formed in a disc shape, for example. Further, the receiving portion 56 is formed with an insertion hole 56h through which the small cylindrical portion 53a can be inserted.

The female snap fastener 50 is attached to the attachment target member 40 as follows. That is, in a state in which the female main body portion 52 is positioned on one side of the mounting target member 40 and the receiving portion 56 is positioned on the other side of the mounting target member 40, the small cylindrical portion 53a of the female main body portion 52 is It penetrates through an attachment hole 40 h formed in the attachment target member 40 and an insertion hole 56 h formed in the receiving portion 56 . Then, the distal end portion of the small cylindrical portion 53a of the female main body portion 52 passing through the mounting hole 40h formed in the mounting target member 40 and the insertion hole 56h formed in the receiving portion 56 is crimped, and the rear surface of the receiving portion 56 is crimped. is plastically deformed so as to hold the

Here, the distal end portion of the small cylindrical portion 53a is formed in a shape that is connected to one in the circumferential direction. In this case, the crimped tip of the small cylindrical portion 53a presses the entire peripheral edge of one mounting hole 40h. However, the distal end portion of the small cylindrical portion 53a may be formed in a shape other than the above, and for example, may be formed in a shape in which a plurality of pieces are divided in the circumferential direction. In this case, a plurality of crimped pieces of the distal end portion of the small cylindrical portion 53a hold down the peripheral edge of one mounting hole 40h at a plurality of locations spaced apart in the circumferential direction.

In the female snap fastener 50, the pinching structure by the female main body portion 52 and the receiving portion 56 and the crimping structure of the female main body portion 52 for maintaining it are used for attaching the female snap fastener 50 to the attachment target member 40. can be regarded as the mounting structure of the

FIG. 5 is a cross-sectional view showing an example in which the wiring member 10 is provided with the female snap fastener 50 and the attachment target member 40 is provided with the male snap fastener 20 . As in this example, the wiring member 10 may be provided with the female snap fastener 50 and the attachment target member 40 may be provided with the male snap fastener 20 . As in this example, when the female snap fastener 50 is attached to the base member 16, the female main body portion 52 (the large cylinder portion 53b, the flange portion 53c, and the retaining plate 54) and the receiving portion 56 are connected to the first holding portion and the second holding portion. 2 holding portions, the small tubular portion 53a is the plastically deformed portion, and these can be regarded as the base material mounting portion. Also, the recessed portion 51 and the ring spring 55 can be regarded as the mounting portions to be mounted.

For attaching the male snap fastener 20 or the female snap fastener 50 to the base member 16, for example, a crimping jig can be used. That is, the crimping jig can attach the male snap fastener 20 or the female snap fastener 50 to the base member 16 while plastically deforming it. This allows the male snap fastener 20 or the female snap fastener 50 to be easily attached to the base member 16 .

The convex portion 21 includes a first insertion portion 21a that is gradually widened from the front end side toward the rear end side in the direction of insertion into the concave portion 51, and the first insertion portion 21a that extends from the first insertion portion 21a to the concave portion 51. and a second insertion portion 21b which is positioned on the rear end side in the insertion direction of the recessed portion 51 and formed to gradually narrow in width from the front end side in the insertion direction to the recessed portion 51 toward the rear end side. The widest portion of the convex portion 21 exists between the first insertion portion 21a and the second insertion portion 21b.

The concave portion 51 includes a first inserted portion 51a that is gradually widened from the front end side into which the convex portion 21 is inserted toward the rear end side, and a convex portion with respect to the first inserted portion 51a. and a second inserted portion 51b which is located on the rear end side of the projection 21 in the insertion direction and which is gradually narrowed from the front end side in the insertion direction of the convex portion 21 toward the rear end side thereof. Here, since the ring spring 55 is formed to have a circular cross section, the first inserted portion 51a and the second inserted portion 51b are formed in the inner peripheral portion of the ring spring 55 so as to be aligned in the axial direction. .

When the convex portion 21 is inserted into the concave portion 51 by receiving the force in the first direction, the elastic deformation portion 55 is elastically deformed by the force in the first direction so that the convex portion 21 and the concave portion 51 are separated from each other. and are mated. When the convex portion 21 is pulled out from the concave portion 51 by receiving a force in a second direction opposite to the first direction, the elastic deformation portion 55 is deformed in the first direction by the force in the second direction. The convex portion 21 and the concave portion 51 are disengaged by elastic deformation in the same direction as when the force is applied.

The elastic deformation portion 55 is provided in the concave portion 51 . The elastically deformable portion 55 can widen the opening of the concave portion 51 when the first insertion portion 21a is inserted when the convex portion 21 and the concave portion 51 are attached, and can expand the opening of the concave portion 51 when the second insertion portion 21b is inserted. It is formed so that the opening of the recessed portion 51 can be narrowed. Further, the elastically deformable portion 55 is formed so that the opening of the concave portion 51 can be widened when the second insertion portion 21b is inserted when the convex portion 21 and the concave portion 51 are detached.

More specifically, a ring spring 55 is provided here as the elastic deformation portion 55 . When the convex portion 21 and the concave portion 51 are attached, that is, when the male snap fastener 20 and the female snap fastener 50 are attached, the first insertion portion 21 a of the convex portion 21 is inserted into the ring spring 55 . When this is done, the ring spring 55 is expanded by the first insertion portion 21a. When the second insertion portion 21b is inserted after the convex portion 21 has passed through the first insertion portion 21a, the ring spring 55 is elastically restored and narrowed. As a result, the ring spring 55 is fitted into the recessed portion of the convex portion 21 to prevent slippage and detent, and the male snap fastener 20 and the female snap fastener 50 are attached.

On the other hand, when the convex portion 21 and the concave portion 51 are released, that is, when the male snap fastener 20 and the female snap fastener 50 are released, the second insertion portion 21b of the convex portion 21 is disengaged. When inserted into the ring spring 55, the ring spring 55 is expanded by the second insertion portion 21b. As a result, the convex portion 21 can pass through the ring spring 55, and by passing through, the male snap fastener 20 and the female snap fastener 50 are disengaged. When the first insertion portion 21a is inserted into the ring spring 55 after the second insertion portion 21b of the convex portion 21 has passed through, the ring spring 55 is elastically restored and narrowed. As a result, the male snap fastener 20 and the female snap fastener 50 can be attached again.

According to the wiring member 10 and its mounting structure 100 configured as described above, the mounting member 20 is mounted to the base member 16 while the base member mounting portion sandwiches the base member 16 with plastic deformation. Even if 16 is soft, mounting member 20 can be mounted.

Moreover, the plastically deformed portion can strengthen the state in which the first holding portion and the second holding portion hold the base member 16 therebetween.

In addition, since the base member mounting portion clamps the peripheral portion of the through hole 18h formed in the base member 16, the mounting member 20 can be mounted at any position in the base member 16 where the through hole 18h can be formed. . At this time, if the through hole 18h is formed in the base member 16 in advance, the base member mounting portion does not need to be shaped so as to be able to pass through the portion of the base member 16 where the through hole 18h is not formed.

Moreover, since the wiring body 11 is a flat wiring body 11 formed by arranging a plurality of linear transmission members 12 on the base member 16 , the mounting member 20 can be firmly attached to the flat wiring body 11 .

The wiring member 10 is attached to the vehicle body 40 by the attachment member 20 . Thus, the wiring member 10 can be attached to the vehicle body 40 by the attachment member 20 .

{Second embodiment}
A wiring member and its mounting structure according to the second embodiment will be described. FIG. 6 is a cross-sectional view showing the wiring member 110 according to the second embodiment. FIG. 7 is an exploded sectional view showing the wiring member 110 according to the second embodiment. FIG. 8 is a cross-sectional view showing a wiring member mounting structure 200 according to the second embodiment. In the description of this embodiment, the same reference numerals are given to the same components as those described so far, and the description thereof will be omitted.

In the wiring member 110 according to the second embodiment, the shape of the male snap fastener 120 as the mounting member 120 is different from the shape of the male snap fastener 20 in the wiring member 10 according to the first embodiment. Further, the wiring member mounting structure 200 according to the second embodiment differs from the wiring member mounting structure 100 according to the first embodiment in that the mounting target member 40 is not provided with the female snap fastener 50 .

The male snap fastener 120 is composed of a plurality of parts including a male body portion 122 , a ring spring 55 that serves as an elastic deformation portion 55 , and a fastener 126 .

The male main body portion 122 has a fitting head portion 123 and a flange portion 124 connected to the proximal end portion of the fitting head portion 123 . The fitting head 123 is formed in a cylindrical shape. A circumferential groove 123h is formed on the outer surface of the cylindrical fitting head 123. As shown in FIG. A ring spring 55 is accommodated in the circumferential groove 123h. The fitting head portion 123 and the ring spring 55 form the convex portion 121 . The flange portion 124 is provided so as to protrude sideways from the base end portion of the fitting head portion 123 . The flange portion 124 has an opening 124a through which the tip of the fastener 126 that has passed through the sheet member 16 is inserted, and a receiving plate portion 124b that plastically deforms the tip of the fastener 126 that has passed through the opening 124a. The tip of the fastener 126 passing through the member 16 is formed to be accommodated while being plastically deformed.

The ring spring 55 housed in the circumferential groove 123h protrudes outward from the fitting head 123 in a natural state. The ring spring 55 is accommodated in the circumferential groove 123h so as to be elastically deformable so as to narrow. The elastic deformation portion 55 provided in the convex portion 121 can narrow the convex portion 121 when the convex portion 121 is inserted into the concave portion 151, and the convex portion 21 can be pushed into the concave portion 151. It is formed so that the convex portion 121 can be expanded after insertion.

The fastener 126 includes a plurality of claw portions 30 that are spaced apart in the circumferential direction, a connecting portion 31 that connects the base end portions of the plurality of claw portions 30, and a flange that is formed to spread on the outer peripheral side of the connecting portion 31. 128.

The tip portion of the claw portion 30 is sharpened so as to be able to pass through a non-perforated portion of the sheet member 16 before being attached to the sheet member 16 . The distal end portion of the claw portion 30 penetrating the sheet member 16 is plastically deformed and accommodated in the flange portion 124 . More specifically, the tip of the claw portion 30 penetrating through the sheet member 16 contacts the receiving plate portion 124b through the opening 124a, and is adjusted according to the inner surface shape of the receiving plate portion 124b (the shape of the surface on the side of the opening 124a). gradually undergoes plastic deformation. The claw portion 30 is plastically deformed until the flange portion 128 contacts the sheet member 16 , whereby the sheet member 16 is sandwiched between the flange portions 124 and 128 , and the male snap fastener 120 is attached to the sheet member 16 . It is in the attached state.

A through hole is formed in the sheet member 16 by penetrating the sheet member 16 with the claw portion 30 . In the case of this example, since the plurality of claw portions 30 are provided at intervals in the circumferential direction, the sheet member is also provided with a plurality of through-holes at intervals in the circumferential direction. Further, since the cross section of the claw portion 30 is formed flat, the cross section of the through hole is also flat. Each of the claw portions 30 presses one of the peripheral edge portions (here, the peripheral edge portion on the outer peripheral side) of the flat through-hole of the sheet member 16 .

In the wiring member mounting structure 200, as described above, the female snap fastener 50 is not provided in the mounting target member 40 here. In the example shown in FIG. 8 , a mounting hole 40 h formed in the mounting target member 40 and its peripheral portion are used as the recessed portion 151 . For example, when the member to be attached 40 is a member formed of a hard material such as metal or hard plastic, the snap fastener is not attached to the member to be attached 40 as in the example shown in FIG. It is also conceivable for part of 40 to be convex or concave.

In the case of the example shown in FIG. 8, the diameter of the mounting hole 40h is formed smaller than the outer diameter of the ring spring 55 in the natural state. As a result, when the convex portion 121 of the male snap fastener 120 is inserted into the mounting hole 40h formed in the mounting target member 40, the ring spring 55 abuts against the peripheral surface of the mounting hole 40h and narrows. 40h can be passed. After passing through the mounting hole 40h, the ring spring 55 is elastically restored, and the convex portion 121 and the concave portion 151 are engaged with each other.

According to the wiring member 110 and its mounting structure 200 configured in this way, since the claw portion 30 is sharply formed, the mounting member 120 can be attached to the sheet member even if the sheet member 16 does not have a through hole formed in advance. 16 can be installed.

{Third embodiment}
A wiring member according to the third embodiment will be described. FIG. 9 is a cross-sectional view showing the wiring member 210 and its mounting structure 300 according to the third embodiment. FIG. 10 is an exploded sectional view showing the wiring member 210 and its mounting structure 300 according to the third embodiment. In the description of this embodiment, the same reference numerals are given to the same components as those described so far, and the description thereof will be omitted.

In the wiring member 210 according to the third embodiment, the shape of the male snap fastener 220 as the mounting member 220 is different from that of the male snap fasteners 20, 120 in the wiring members 10, 110 according to the first and second embodiments. different from the shape of Further, the shape of the female snap fastener 250 in the wiring member mounting structure 300 according to the third embodiment is different from the shape of the female snap fastener 50 in the wiring member mounting structure 100 according to the first embodiment.

Male snap fastener 220 includes a male body portion 222 and a clasp 226 . Here, the male snap fastener 220 is attached to the seat member 16 with the male body portion 222 and the clasp 226 locking together using elastic deformation.

The male body portion 222 has a cylindrical fitting head 223 and a substrate 224 on which the fitting head 223 is erected. The fitting head 223 is the convex portion 221 . A protrusion 223 a is formed on the outer peripheral surface of the tip of the fitting head 223 . The protrusion 223a has a first insertion portion 223b and a second insertion portion 223c positioned closer to the base end side of the fitting head portion 223 than the first insertion portion 223b. The first insertion portion 223b is a portion that gradually widens from the distal end side of the fitting head portion 223 toward the proximal end side. The second insertion portion 223c is a portion of the fitting head 223 that gradually narrows in width from the distal end side toward the proximal end side. A through hole 224 h is formed in the substrate 224 . The fitting head 223 is provided on the substrate 224 at a position that avoids the periphery of the through hole 224h.

The fastener 226 has a substrate 228 and a claw portion 230 erected on the substrate 228 . The tip of the claw portion 230 is formed so as to be able to be inserted into and engaged with a through hole 224h formed in the base plate 224 of the male body portion 222 . With the sheet member 16 sandwiched between the base plate 224 of the male body portion 222 and the base plate 228 of the fastener 226, the tip of the claw portion 230 is inserted into the through hole 224h of the male body portion 222 and locked. , a male snap fastener 220 is attached to the base member 16 .

Female snap fastener 250 includes a female body portion 252 and a clasp 256 . Here, the female main body portion 252 and the fastener 256 are locked using elastic deformation, and the female snap fastener 250 is attached to the attachment target member 40 .

The female main body portion 252 has a cylindrical body 253 and a substrate 254 on which the cylindrical body 253 is erected. The cylindrical body 253 is formed larger than the fitting head 223 so that the fitting head 223 can be inserted therein. Therefore, the tubular body 253 is the concave portion 251 . A protrusion 253 a is formed on the inner peripheral surface of the tip of the cylindrical body 253 . The protrusion 253a has a first inserted portion 253b and a second inserted portion 253c located closer to the base end side of the cylinder 253 than the first inserted portion 253b. The first inserted portion 253b is a portion that gradually narrows the width of the opening from the opening side (the distal end side of the cylinder 253) toward the back side (the proximal end side of the cylinder 253). The second inserted portion 253c is a portion that gradually widens the width of the opening from the opening side toward the back side. A through hole 254 h is formed in the substrate 254 . The cylindrical body 253 is provided at a position avoiding the periphery of the through hole 254h on the substrate.

The fastener 256 has a substrate 258 and a cylindrical claw portion 260 erected on the substrate 258 . The distal end of the claw portion 260 is wider than the proximal end and is formed so as to be able to be inserted into and engaged with a through hole 254h formed in the substrate 254 of the female body portion 252 . In a state in which the mounting target member 40 is sandwiched between the substrate 254 of the female body portion 252 and the substrate 258 of the fastener 256, the tip of the claw portion 260 is inserted into the through-hole 254h and locked, thereby forming the female mold. A snap fastener 250 is attached to the attachment target member 40 .

When the convex portion 221 is inserted into the concave portion 251, the projections 223a, 253a, more specifically, the first inserted portion 223b of the projection 223a and the first inserted portion 253b of the projection 253a come into contact with each other. At this time, in the fitting head 223, the base end side portion of the projection 223a is elastically deformed, and the portion of the fitting head 223 having the projection 223a moves toward the inner peripheral side. Also, in the cylindrical body 253, the portion closer to the proximal end than the projection 253a is elastically deformed, and the portion of the cylindrical body 253 having the projection 253a moves toward the outer peripheral side. As a result, the protrusions 223a and 253a pass through each other, and after passing, they are elastically restored and the convex portion 221 fits into the concave portion 251. As shown in FIG.

When the convex portion 221 is pulled out from the concave portion 251, the projections 223a, 253a, more specifically, the second insertion portion 223c of the projection 223a and the second inserted portion 253c of the projection 253a come into contact with each other. At this time, in the fitting head 223, the base end side portion of the projection 223a is elastically deformed, and the portion of the fitting head 223 having the projection 223a moves toward the inner peripheral side. Also, in the cylindrical body 253, the portion closer to the proximal end than the projection 253a is elastically deformed, and the portion of the cylindrical body 253 having the projection 253a moves toward the outer peripheral side. As a result, the protrusions 223 a and 253 a pass through each other, and the convex portion 21 is separated from the concave portion 51 .

In this example, both the fitting head portion 223, which is the convex portion 221, and the tubular body 253, which is the concave portion 251, are elastically deformable. That is, in this example, the elastically deformable portion is integrally formed with both the convex portion 221 and the concave portion 251 . Thus, the elastically deformable portion may be formed integrally with the convex portion, the concave portion, or both. Also, as in this example, the elastically deformable portion may be provided on both the convex portion and the concave portion.

In this example, a male snap fastener 220 is elastically deformed and attached to the base member 16 . As in the mounting mode of the male snap fastener 220, even in a mode other than plastic deformation, the mounting member 220 is attached to the base member 16 using fitting accompanied by elastic deformation of the two members. good too. That is, the mounting members 220 are formed as base material mounting portions so as to be fitted together with elastic deformation, and hold the base member 16 from both sides of the base member 16 in the fitted state. It may have an elastic clamping portion and a receiving portion. In the above example, the clasp 226 and male body portion 222 are the elastic clamp and receiving portion. The female snap fastener 250 can also be elastically deformed and attached to the base member 16 . When the female snap fastener 250 is attached to the base member 16, the clasp 256 and female body portion 252 are the resilient clamp and receiver.

According to the wiring member 210 configured as described above, the base member 16 is clamped in a state in which the elastic clamping portion and the receiving portion are fitted to each other at the base member mounting portion. 220 can be installed.

{Modification}
11 to 14 are plan views showing modifications of the mounting position of the mounting member 20 in the wiring member 10. FIG.

Up to this point, it has been described that the mounting members 20 are provided on both sides at one position along the longitudinal direction of the linear transmission member 12, but this is not an essential configuration. As shown in FIG. 11, the mounting member 20 may be provided only on one side of the linear transmission member 12 at one position along the longitudinal direction. In this case, the seat member 16A may omit the extension portion 18 where the male snap fastener 20 is not provided. In this case, as shown in FIG. 11, a mounting member 20 may be provided on the other side of the linear transmission member 12 at another position along the longitudinal direction. Furthermore, as shown in FIG. 11, it is preferable that mounting members 20 are provided in a zigzag manner along the longitudinal direction of the linear transmission member 12 .

In addition, in the sheet member 16, the extending portion 18 provided so as to protrude sideways from the belt-like portion 17 has been described so far as having a size corresponding to the size of the mounting member 20. This is not a mandatory configuration. As shown in FIG. 12, the extending portion 18B of the sheet member 16B may be continuous along the longitudinal direction of the linear transmission member 12, like the belt-like portion 17. As shown in FIG. In this case, the sheet member 16B may be formed in a large belt shape.

Further, as shown in FIG. 13, in the case shown in FIG. , the mounting member 20 may be provided only on one side.

Further, although it has been described so far that the mounting member 20 is provided outside the linear transmission member 12 at one position along the longitudinal direction of the linear transmission member 12, this is not an essential configuration. As shown in FIG. 14, a mounting member 20 may be provided between the linear transmission members 12 .

15 to 17 are cross-sectional views showing modifications of the attachment target member 40. FIG.

Although the attachment target member 40 has been described as being the vehicle body, this is not an essential configuration. For example, as shown in FIGS. 15 and 16, the member to be attached may be another wiring member 10 . In this case, one of the two wiring members 10 can be regarded as the other member to be attached.

In the example shown in FIGS. 15 and 16, two flat wiring members 10 are attached to each other with a male snap fastener 20 and a female snap fastener 50 . At this time, in the example shown in FIG. 15, two flat wiring members 10 are laminated. Further, in the example shown in FIG. 16, two flat wiring members 10 are connected so as to expand sideways. In the examples shown in FIGS. 15 and 16, the two flat wiring members 10 are attached so that the respective linear transmission members 12 are parallel to each other, but this is not the only option. The two flat wiring members 10 may be attached such that the respective linear transmission members 12 cross each other.

Further, although the flat wiring member 10 has been described so far as being attached along the plane portion of the vehicle body when the member to be attached 40 is the vehicle body, this is not an essential configuration. For example, as shown in FIG. 17, the flat wiring member 10 may be attached along the curved surface of the vehicle body.

More specifically, the mounting target member 140 is a vehicle body 140 having a curved surface 42 . An intermediate portion along the width direction of the flat wiring member 10 is bent along the curved surface 42 of the vehicle body 140 . Both ends along the width direction of the flat wiring member 10 are attached to the vehicle body 140 by male snap fasteners 20 and female snap fasteners 50 . According to this aspect, the flat wiring member 10 can be bent and disposed along the curved surface 42 of the vehicle body 140 .

FIG. 18 is a cross-sectional view showing a modification of the snap fastener.

Although it has been described so far that two members are attached using a convex portion and a concave portion, this is not an essential configuration. As shown in FIG. 18, three or more members may be attached using convex portions and concave portions.

At this time, the example shown in FIG. 18 shows an example in which the two laminated wiring members 10 and 310 are attached to the vehicle body 40 . In the example shown in FIG. 18, the snap fastener 270 provided on the intervening wiring member 310 includes both the convex portion 221 and the concave portion 251 . That is, the snap fastener 270 is a hermaphroditic snap fastener 270 . For example, the hermaphroditic snap fastener 270 may be formed by fastening the male main body portion 222 and the female main body portion 252 with a rivet R or the like in a state in which they are positioned opposite to each other with the sheet member 16 interposed therebetween. Conceivable.

Here, the rivet R has a shaft portion R1 and a head portion R2. The head portion R2 is formed larger than the shaft portion R1 and serves to prevent the shaft portion R1 from coming off. When the snap fastener 270 is attached to the base member 16, the distal end portion of the shaft portion R1 is crimped and expanded like the head portion R2, thereby detenting the shaft portion R1.

The convex portion 221 of the hermaphroditic snap fastener 270 is attached to the concave portion 251 of the female snap fastener 250, and the convex portion 221 of the male snap fastener 220 is attached to the concave portion 251 of the hermaphroditic snap fastener 270. It is In this manner, another wiring member 10 and the vehicle body 40 are attached to one wiring member 310 by the hermaphroditic snap fasteners 270 as the first and second attachment target members. Of course, more than two stacked wiring members may be attached by hermaphroditic snap fasteners 270 .

Therefore, the wiring member 310 provided with the hermaphroditic snap fastener 270 can be regarded as having mounting portions to which mounting target members can be attached in the front and back directions of the flat wiring body 11 respectively. According to such a wiring member 310 , three or more members can be attached at one position by the attachment member 270 .

Needless to say, a hermaphroditic snap fastener 270 may be provided instead of the male snap fastener 220 and the female snap fastener 250 provided on the member to be attached. Hermaphroditic snap fastener 270 is a variation of male snap fastener 220 and may also be viewed as a variation of female snap fastener 250 .

{Other modifications}
In addition, although the wiring body 11 has been described as being the flat wiring body 11, this is not an essential configuration. The wiring body 11 may be, for example, a wire bundle in which a plurality of wires 12 are bundled so as to have a circular cross-sectional shape. The base member 16 is wrapped around the wire bundle. The base member 16 may be a bundling member that bundles the plurality of electric wires 12 into a circular cross-sectional shape.

Further, when the mounting member 20 is attached to the wiring body 11 by plastic deformation, the plastic deformation portion has been described so far as being provided separately from the plastic deformation portion to hold the two members directly sandwiching the sheet material. However, this is not an essential configuration. The plastically deformed portion in one member may be formed so as to sandwich the sheet member directly.

Further, although the base member mounting portion has been described as holding the peripheral edge portion of the through hole 18h of the base member 16, this is not an essential configuration. The base member mounting portion may sandwich the outer edge portion of the base member 16 .

Further, although it has been described so far that the attachment target attachment portion can be easily attached to and detached from the attachment target member 40, this is not an essential configuration. The attachment part to be attached may be formed, for example, with a detent like a clamp so as to be easily attached by locking by elastic deformation, but difficult to be removed. Further, the attachment target attachment portion may be attachable to the attachment target member 40 by another attachment mode such as screwing.

9 and 10, the tip portions of the claw portions 230 and 260 are formed in a sharp conical shape before being attached to the base member 16, and are attached to the portion of the base member 16 that does not have a hole. It may be formed so as to be penetrable. In this case, the tips of the sharply formed claws 230 and 260 may be rivets that are crimped and plastically deformed after penetrating the base member 16, like the rivets R.

Note that the configurations described in the above embodiments and modifications can be appropriately combined as long as they do not contradict each other.

Although the present invention has been described in detail as above, the above description is illustrative in all aspects, and the present invention is not limited thereto. It is understood that numerous variations not illustrated can be envisioned without departing from the scope of the invention.

10 wiring member 11 wiring body 12 linear transmission member (electric wire)
16 base member (sheet member)
20 Male snap fastener (mounting member)
21 Convex portion 22 Male body portion 26 Receiving portion 40 Mounting target member (vehicle body)
40h mounting hole 50 female snap fastener 51 recessed portion 52 female body portion 55 ring spring (elastic deformation portion)
56 Receiving portion 70 Hermaphroditic snap fastener 100 Mounting structure of wiring member

It may be desired that flat wiring members are connected to each other.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to connect flat wiring members .

In order to solve the above problems, a wiring member according to a first aspect includes a plurality of flat wiring members, and the plurality of flat wiring members are connected so as to spread sideways.

A wiring member according to a second aspect is the wiring member according to the first aspect, wherein each of the plurality of flat wiring members includes a flat wiring body and a mounting member attached to the flat wiring body, A state in which the mounting members are attached to each other and the plurality of flat wiring members are connected to spread sideways is maintained.

A wiring member according to a third aspect is the wiring member according to the second aspect, wherein the flat wiring body includes a plurality of linear transmission members, a base member holding the plurality of linear transmission members, including.

A wiring member according to a fourth aspect is the wiring member according to the third aspect, wherein the mounting member is provided on the side of the plurality of linear transmission members arranged in parallel.

A wiring member according to a fifth aspect is the wiring member according to the third or fourth aspect , wherein the mounting member is plastically deformed so as to sandwich the base member from both sides in the front and back directions of the base member. a base member mounting portion attached to the base member in a state and a mounting portion to be mounted, and the mounting members provided on each of the plurality of flat wiring members They are in a state of being attached to each other by the target attachment portion.

A wiring member according to a sixth aspect is the wiring member according to the third or fourth aspect , wherein the mounting member sandwiches the base member from both sides in the front and back directions of the base member. A base member mounting portion having an elastic clamping portion and a receiving portion and attached to the base member, and a mounting portion to be mounted, wherein one of the elastic clamping portion and the receiving portion has a concave shape. and the other has a convex portion, and the convex portion is engaged with the concave portion so that the elastic holding portion and the receiving portion are fitted to each other, and the plurality of The attachment members provided on each of the flat wiring members are attached to each other by the attachment target attachment portions.

According to the first aspect, the flat wiring members are connected so as to spread laterally .

Note that the configurations described in the above embodiments and modifications can be appropriately combined as long as they do not contradict each other.
This specification includes the following disclosures.
In order to provide a technology capable of attaching an attachment member even when the base member is soft, the wiring member according to the first aspect includes a linear transmission member and a base member holding the linear transmission member. a base member mounting portion attached to the base member by sandwiching the base member with plastic deformation from both sides of the base member in the front and back direction; and a mounting target mounting portion attached to the mounting target of the wiring body. and a mounting member including.
A wiring member according to a second aspect is the wiring member according to the first aspect, wherein the base member attachment portions are formed separately from each other and sandwich the base member from both sides in the front and back direction of the base member. It includes a first clamping portion, a second clamping portion, and a plastic deformation portion that is plastically deformed to maintain the clamping state of the first clamping portion and the second clamping portion.
A wiring member according to a third aspect is a wiring body including a linear transmission member and a base member that holds the linear transmission member, and is molded so as to be mutually fittable with elastic deformation. a base material attachment part attached to the base member having an elastic clamping part and a receiving part for clamping the base member from both sides in the front and back direction in a state of being fitted to the base member; and a mounting member including a mounting portion to be mounted.
A wiring member according to a fourth aspect is the wiring member according to any one of the first to third aspects, wherein the base member mounting portion sandwiches a peripheral edge portion of a through hole formed in the base member. do.
A wiring member according to a fifth aspect is the wiring member according to any one of the first to fourth aspects, wherein the wiring body includes a plurality of linear transmission members arranged on the base member. This is the formed flat wiring body.
A wiring member according to a sixth aspect is the wiring member according to the fifth aspect, wherein the attachment target attachment portions are provided so as to be capable of attaching the attachment targets in front and back directions of the flat wiring body.
A wiring member mounting structure according to a seventh aspect includes a plurality of wiring members according to the fifth or sixth aspect, wherein the mounting member of a first wiring member among the plurality of wiring members includes a plurality of wiring members. Among the members, it is attached to the attachment member of the second wiring member.
A wiring member mounting structure according to an eighth aspect includes the wiring member according to the fifth or sixth aspect, and a vehicle body to which the wiring member is attached by the mounting member.
A wiring member mounting structure according to a ninth aspect is the wiring member mounting structure according to the eighth aspect, wherein the vehicle body has a curved surface and an intermediate portion along the width direction of the flat wiring body. are bent along the curved surface of the vehicle body, and both ends along the width direction of the flat wiring body are attached to the vehicle body by the attachment members.
According to the first aspect, the mounting member is attached to the base member while the base member mounting portion sandwiches the base member with plastic deformation. Therefore, even if the base member is soft, the mounting member can be attached.
According to the second aspect, the base member can be firmly sandwiched by the plastically deformed portion.
According to the third aspect, by holding the base member in the base member mounting portion in a state where the elastic holding portion and the receiving portion are fitted together, the mounting member can be mounted even if the base member is soft.
According to the fourth aspect, the attachment member can be attached to any position of the base member where the through hole can be formed.
According to the fifth aspect, the mounting member can be firmly attached to the flat wiring body.
According to the sixth aspect, the attachment member allows attachment of three or more members at one location.
According to the seventh aspect, the wiring members can be attached to each other by the attachment member.
According to the eighth aspect, the wiring member can be attached to the vehicle body by the attachment member.
According to the ninth aspect, the flat wiring body can be bent along the contour of the vehicle body.

Claims (9)

a wiring body including a linear transmission member and a base member holding the linear transmission member;
Mounting including: a base member mounting portion that is attached to the base member while sandwiching the base member from both sides of the base member in the front and back directions; and a mounting target mounting portion that is attached to the wiring body. a member for
A wiring member. The wiring member according to claim 1,
The base member mounting portion includes a first clamping portion and a second clamping portion which are formed separately from each other and clamp the base member from both sides in the front and back direction of the base member, and a first clamping portion and a second clamping portion which are plastically deformed. and a plastically deformed portion that maintains a clamping state of the portion. a wiring body including a linear transmission member and a base member holding the linear transmission member;
It is molded to be mutually fittable with elastic deformation, and has an elastic clamping portion and a receiving portion for clamping the base member from both sides of the base member in the front and back directions in a mutually fitted state, and is attached to the base member. a mounting member including a base material mounting portion to be mounted and a mounting target mounting portion to be mounted on the mounting target of the wiring body;
A wiring member. The wiring member according to any one of claims 1 to 3,
A wiring member, wherein the base member attaching portion sandwiches a peripheral edge portion of a through hole formed in the base member. The wiring member according to any one of claims 1 to 4,
A wiring member, wherein the wiring body is a flat wiring body formed by arranging a plurality of the linear transmission members on the base member. The wiring member according to claim 5,
The wiring member, wherein the mounting object mounting portions are provided so as to be capable of mounting the mounting objects in front and back directions of the flat wiring body. A plurality of wiring members according to claim 5 or claim 6,
The wiring member mounting structure, wherein the mounting member of the first wiring member among the plurality of wiring members is mounted to the mounting member of the second wiring member among the plurality of wiring members. A wiring member according to claim 5 or claim 6,
a vehicle body to which the wiring member is attached by the attachment member;
A mounting structure for a wiring member. The wiring member mounting structure according to claim 8,
The vehicle body has a curved surface,
An intermediate portion along the width direction of the flat wiring body is bent along the curved surface of the vehicle body, and both end portions along the width direction of the flat wiring body are attached to the vehicle body by the mounting members. Mounting structure of the wiring member attached to.

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