A wire harness that includes an electric wire that includes a core wire, an insulating inner cover that covers an outer circumference of the core wire, and a conductive shield that covers an outer circumference of the insulating inner cover; a conductive bracket including a plate that includes an insertion hole through which the electric wire is inserted and a protrusion protruding from an edge of the insertion hole in the plate; a fastener that fastens a folded-back portion of the shield that is folded back to an outer circumferential side of the protrusion to the protrusion; and a body made of resin that sandwiches the plate in a thickness direction.

An object of the present disclosure is to provide a technique that can prevent, in a wire harness including a fixing member, the fixing member from being attached in a deviated orientation. A wire harness includes: a wiring member; a fixing member provided on the wiring member; and a first reference mark and a second reference mark that are each provided at a position of the wiring member that corresponds to the fixing member. The first reference mark and the second reference mark each have a distinctive external appearance in a circumferential direction of the wiring member. The first reference mark indicates a reference position of the wiring member in the circumferential direction, and the second reference mark indicates a position of the wiring member in the circumferential direction, the position serving as a reference for an attachment orientation of the fixing member.

An object of the present disclosure is to provide a technique that can prevent, in a wire harness including a fixing member, the fixing member from being attached in a deviated orientation. A wire harness includes: a wiring member; a fixing member provided on the wiring member; and a first reference mark and a second reference mark that are each provided at a position of the wiring member that corresponds to the fixing member. The first reference mark and the second reference mark each have a distinctive external appearance in a circumferential direction of the wiring member. The first reference mark indicates a reference position of the wiring member in the circumferential direction, and the second reference mark indicates a position of the wiring member in the circumferential direction, the position serving as a reference for an attachment orientation of the fixing member.

In an attachment structure of a wiring member, the wiring member and an attaching target member are attached using a convex-shaped part, a concave-shaped part, and an elastic deformation part. When the convex-shaped part is inserted into the concave-shaped part upon receiving force toward a first direction, the elastic deformation part is elastically deformed by the force toward the first direction to fit the convex-shaped part to the concave-shaped part. When the convex-shaped part is pulled from the concave-shaped part upon receiving force toward a second direction opposite to the first direction, the elastic deformation part is elastically deformed by the force toward the second direction in a direction similar to the case of receiving the force toward the first direction, and releases the fitting state of the convex-shaped part and the concave-shaped part.

In an attachment structure of a wiring member, the wiring member and an attaching target member are attached using a convex-shaped part, a concave-shaped part, and an elastic deformation part. When the convex-shaped part is inserted into the concave-shaped part upon receiving force toward a first direction, the elastic deformation part is elastically deformed by the force toward the first direction to fit the convex-shaped part to the concave-shaped part. When the convex-shaped part is pulled from the concave-shaped part upon receiving force toward a second direction opposite to the first direction, the elastic deformation part is elastically deformed by the force toward the second direction in a direction similar to the case of receiving the force toward the first direction, and releases the fitting state of the convex-shaped part and the concave-shaped part.

In an attachment structure of a wiring member, the wiring member and an attaching target member are attached using a convex-shaped part, a concave-shaped part, and an elastic deformation part. When the convex-shaped part is inserted into the concave-shaped part upon receiving force toward a first direction, the elastic deformation part is elastically deformed by the force toward the first direction to fit the convex-shaped part to the concave-shaped part. When the convex-shaped part is pulled from the concave-shaped part upon receiving force toward a second direction opposite to the first direction, the elastic deformation part is elastically deformed by the force toward the second direction in a direction similar to the case of receiving the force toward the first direction, and releases the fitting state of the convex-shaped part and the concave-shaped part.

In an attachment structure of a wiring member, the wiring member and an attaching target member are attached using a convex-shaped part, a concave-shaped part, and an elastic deformation part. When the convex-shaped part is inserted into the concave-shaped part upon receiving force toward a first direction, the elastic deformation part is elastically deformed by the force toward the first direction to fit the convex-shaped part to the concave-shaped part. When the convex-shaped part is pulled from the concave-shaped part upon receiving force toward a second direction opposite to the first direction, the elastic deformation part is elastically deformed by the force toward the second direction in a direction similar to the case of receiving the force toward the first direction, and releases the fitting state of the convex-shaped part and the concave-shaped part.

Provided is an insulated wire with bonding layer having a bonding layer with excellent adhesive strength on both an insulating coating layer and an adherend as an outer layer. An insulated wire 1 with bonding layer has a conductor 2, an insulating coating layer 3 covering an outer circumference of the conductor 2, and a bonding layer 4 provided on an outer side of the insulating coating layer and for bonding by heat, the bonding layer 4 containing (A) a modified polyolefin, and (B) one or more materials selected from a polyester resin and a polyester elastomer, and the bonding layer 4 containing 10 to 70 parts of the (B) component per 100 parts total of the (A) and (B) components.

Provided is an insulated wire with bonding layer having a bonding layer with excellent adhesive strength on both an insulating coating layer and an adherend as an outer layer. An insulated wire 1 with bonding layer has a conductor 2, an insulating coating layer 3 covering an outer circumference of the conductor 2, and a bonding layer 4 provided on an outer side of the insulating coating layer and for bonding by heat, the bonding layer 4 containing (A) a modified polyolefin, and (B) one or more materials selected from a polyester resin and a polyester elastomer, and the bonding layer 4 containing 10 to 70 parts of the (B) component per 100 parts total of the (A) and (B) components.

A wiring body includes a wire-like transmission member and a base member to which the wire-like transmission member is fixed. A temporary joint part joins portions where a first part and a second part mutually extending in an opposite side from a bending position in the wiring body overlap with each other in a state where the wiring body is bended in an intermediate portion of the wire-like transmission member in an extension direction to maintain a bending state of the wiring body. The temporary joint part is formed to be able to resolve a state of joining the first part and the second part by a relative separation movement of the first part and the second part.