JP6313550B2 - Wire harness protection structure - Google Patents

Description

  The present invention relates to a wire harness protection structure for protecting a wire harness attached to a vehicle body panel.

  A wide variety of electronic devices are mounted on automobiles as moving bodies. A wire harness is used to transmit electric power, a control signal, and the like to the electronic device. Patent Document 1 discloses a wire harness module that is attached to a vehicle body without using a fixture such as a clip when the wire harness is attached to the vehicle body.

  As shown in FIG. 8, the wire harness module disclosed in Patent Document 1 is provided with a lower closing portion 102, left and right closing portions 103 to 106, and an upper closing portion 107 by laminating and fixing a foamed resin sheet. A foamed resin covering 110 provided with a harness insertion groove 101a surrounded by the lower closing portion 102, the left and right closing portions 103 to 106, and the upper closing portion 107, and a wire harness accommodated in the harness insertion passage 101a of the foamed resin covering 110 100 is comprised. A connector 100 </ b> A that is a terminal portion of the wire harness 100 is drawn out from the harness insertion passage 101 a of the foamed resin coating 110.

  As shown in FIG. 8A, such a wire harness module 101 is formed by stacking and integrating a plurality of foamed resin sheets having the same shape on the upper surface of the foamed resin sheet constituting the lower closing portion 102. To do. Next, as shown in FIG. 8B, the harness holding portion main body 111 is formed by punching out the harness insertion groove 101a from the integrated foamed resin sheet using the punching die K. Next, as shown in FIGS. 8C and 8D, the wire harness 100 is inserted into the harness insertion groove 101a, and the wire harness 100 is sandwiched and fixed between the harness holding portion main body 111 and the upper closing portion 107. To do. Thus, the wire harness module 101 is manufactured. The wire harness module 101 is fixed by fastening a nut or the like in advance to the lower surface of the foamed resin coating 110 and fastening it to a stud bolt protruding from the vehicle body panel. Or you may fix to a vehicle body via an adhesive agent.

JP 2010-259297 A

  In recent years, with the increase in electrical components mounted on vehicle doors, it is expected that the installation space for the foamed resin covering 110 that holds the wire harness 100 inside will be tight. On the other hand, with the expansion of passenger space in the passenger compartment, there is a demand for thinner vehicle doors. For this reason, it has been considered to reduce the thickness of the foamed resin coated body 110. However, if the thickness of the foamed resin coated body 110 is reduced, the wire harness 100 may be interfered with protrusions such as irregularities generated on the door panel. It was.

  An object of the present invention is to provide a wire harness protection structure that is reduced in thickness and reduces interference with the wire harness.

The present invention according to claim 1 is a wire harness protection structure for protecting a wire harness attached to the interior material between the door panel and the interior material, wherein the wire harness is based on a thickness dimension. Is formed of a flat cable having a large width or an electric wire configured in a flat shape, and is provided inside a protective layer for protecting the wire harness, and the protective layer is protected from the wire harness. thickness of the first layer to one surface of the layer, said formed to be thicker than the thickness of the second layer from the wire harness to the other surface of said protective layer, said first layer located at a position away from said interior material across the second layer, by only a portion is compressed by the unevenness of the door panel, before the irregularity of the door panel A wire harness protector structure, characterized in that to reduce the interference of the wire harness.

  According to a second aspect of the present invention, in the wire harness protection structure according to the first aspect, the first layer includes one foamed layer having elasticity.

The present invention according to claim 3 is a wire harness protection structure for protecting a wire harness attached to the interior material between the door panel and the interior material, wherein the wire harness is more than a thickness dimension. A flat cable having a large width dimension or an electric wire configured in a flat shape and provided inside a protective layer for protecting the wire harness, and the protective layer is formed from the wire harness to the protective layer. A first layer up to one surface of the wire harness and a second layer from the wire harness to the other surface of the protective layer, wherein the first layer has one foam layer having elasticity, and the one layer provided with one of the film that covers the foam layer, wherein the first layer is located at a position away from said interior material across the second layer, the one of the foam layer, only a part, the de A wire harness protection structure that is compressed by the unevenness of the panel .

  According to a fourth aspect of the present invention, in the wire harness protection structure according to the third aspect, the second layer is composed of the other foam layer having elasticity and the other film covering the other foam layer. It is characterized by.

  According to this invention of Claim 1, while a wire harness is comprised from the flat cable whose width dimension is larger than a thickness dimension, or the electric wire comprised by flat shape, the protection for protecting a wire harness The thickness of the first layer from the wire harness to one surface of the protective layer is greater than the thickness of the second layer from the wire harness to the other surface of the protective layer. Since the first layer formed thicker is disposed on the side where the member that interferes with the wire harness is provided, interference with the wire harness can be reduced. Further, since the first layer is formed thicker than the second layer, the thickness can be reduced as compared with the case where both the first layer and the second layer are formed thick. Therefore, it is possible to provide a wire harness protection structure that is reduced in thickness while reducing interference with the wire harness.

  According to the second aspect of the present invention, since the first layer is configured to include one foam layer having elasticity, a member (for example, a protrusion) that interferes with the wire harness contacts the one foam layer. By contacting and being compressed, the density of a part of one of the foam layers is made dense. Therefore, the mechanical strength of the dense portion of one of the foam layers is increased, and the contact pressure from the protrusion can be released, so the interference with the wire harness can be further reduced. Can do. Further, in the case where one foamed layer is provided on one protective sheet in a state of being pressed against the vehicle body panel, the wire harness protection structure is provided by an amount corresponding to the protruding dimension of a member (for example, a protrusion) that interferes with the wire harness. Thinning can be achieved.

According to this invention of Claim 3, it is a wire harness protective structure for protecting the wire harness arrange | positioned at a vehicle body panel, Comprising: A protective layer is the 1st layer from the wire harness to one surface of a protective layer And a second layer from the wire harness to the other surface of the protective layer, wherein the first layer includes one foam layer having elasticity and one film covering the one foam layer. It is configured. A member (for example, a protrusion) that interferes with the wire harness abuts on one of the foam layers and is compressed, so that the density of a part of the one foam layer is increased. Therefore, it is the mechanical strength of densely portion of one of the foam layer is increased, and, because it is possible to release the contact pressure from the projections, it is possible to reduce interference to Wa ear harness . Further, in the case where one foamed layer is provided on one protective sheet in a state of being pressed against the vehicle body panel, the wire harness protection structure is provided by an amount corresponding to the protruding dimension of a member (for example, a protrusion) that interferes with the wire harness. Thinning can be achieved.

  Here, by appropriately selecting the material of one of the films, for example, one of the films has wear resistance (mechanical strength) and is provided closer to the vehicle body panel than the one foamed layer. In this case, the mechanical strength of the first layer can be improved with respect to a member (for example, a protrusion) that interferes with the wire harness. In addition, for example, when one of the films is formed of a member having a small frictional force and is provided closer to the wire harness than one of the foamed layers, generation of fine sliding sound with respect to the wire harness can be suppressed. . In this way, by appropriately selecting the material of one of the films, the required performance (for example, soundproofing, heat insulation, waterproofing, and abrasion resistance) can be obtained without increasing the thickness of the entire first layer. Different functions such as properties) can be imparted to the first layer.

  According to the fourth aspect of the present invention, the second layer is composed of the other foam layer having elasticity and the other film covering the other foam layer. In the case where it has wear resistance (mechanical strength) and is provided on the vehicle body panel side with respect to the other foamed layer, the second layer is against the member (for example, protrusion) that interferes with the wire harness. The mechanical strength can be further improved. In addition, for example, when the other film is composed of a member having a small frictional force and is provided closer to the wire harness than the other foamed layer, the generation of fine sliding noise with respect to the wire harness is further suppressed. Can be made. In this way, by appropriately selecting the material of the other film, the required performance (for example, soundproofing, heat insulation, waterproofness, abrasion resistance) can be achieved without increasing the thickness of the entire second layer. Different functions such as properties) can be imparted to the second layer.

It is a perspective view showing the door for vehicles provided with the wire harness protection structure of a 1st embodiment of the present invention. It is a perspective view which shows a mode that a wire harness protection structure is assembled | attached to the door trim which comprises the vehicle door shown by FIG. It is a perspective view which shows a mode that the wire harness protection structure shown by FIG. 1 is assembled. It is sectional drawing which shows typically the wire harness protection structure shown by FIG. It is sectional drawing which shows typically the wire harness protection structure of 2nd Embodiment. It is sectional drawing which shows typically the wire harness protection structure of 3rd Embodiment. It is sectional drawing which shows typically the wire harness protection structure of 4th Embodiment. It is a perspective view which shows the conventional wire harness module.

(First embodiment)
The wire harness protection structure of 1st Embodiment of this invention is demonstrated with reference to FIGS. 1-4. As shown in FIGS. 1 and 2, the wire harness protection structure 1 is located between a door panel 2A (vehicle body panel) made of a steel plate constituting a vehicle door 2 and a synthetic resin door trim 2B. The door trim 2B is attached to the outer surface of the door panel 2A side. The wire harness protection structure 1 includes a wire harness 3 and a pair of protective sheets 4 and 5 for protecting the wire harness 3 by being positioned inside. Here, of the pair of protective sheets 4 and 5, one protective sheet 4 corresponds to “first layer” in the claims, and the other protective sheet 5 corresponds to “second layer” in the claims. Equivalent to. The pair of protective sheets 4 and 5 correspond to a “protective layer” in the claims.

  As shown in FIG. 1, a window frame S in which a window glass G is located is provided above the door panel 2 </ b> A (upper side in the paper surface direction in FIG. 1). A door trim 2 </ b> B is attached to the lower side of the window frame S of the door panel 2 </ b> A via the wire harness protection structure 1. As shown in FIG. 2, the door trim 2 </ b> B has a press-fit portion (not shown) that protrudes from the door trim 2 </ b> B and is press-fitted into a press-fit receiving portion 6 that is formed through the pair of protective sheets 4 and 5. Is provided. The press-fit portion is provided at a position shifted from the flat cable 3 in a state where the wire harness protection structure 1 is attached to the door trim 2B.

  As shown in FIG. 4, the flat cable 3 includes a plurality of core wires 31 that are parallel to each other, an insulating covering portion 32 that covers each core wire 31, and an insulating connecting portion that connects the covering portions 32 adjacent to each other. 33. That is, the flat cable 3 is formed in a strip shape in which the width dimension (dimension in the direction in which the plurality of core wires 31 are arranged) is larger than the thickness dimension. The core wire 31 is formed by twisting a plurality of strands. The covering portion 32 and the connecting portion 33 are made of synthetic resin and are integrally formed.

  In the present embodiment, the core wire 31 is a stranded wire formed by twisting a plurality of strands. However, the present invention is not limited to this, and the core wire 31 is composed of a single strand. A single core wire may be used. Moreover, in this embodiment, it is comprised by the mutually parallel several core wire 31, the insulating coating | coated part 32 which coat | covers each core wire 31, and the insulating connection part 33 which connects the coating | coated part 32 adjacent to each other. Although the flat cable 3 is used, a ribbon wire in which the covering portions 32 adjacent to each other are connected without using the connecting portion 33 may be used. Moreover, as the “flat-shaped electric wire” in the claims, a flat electric wire in which one conductor having a flat cross section is covered with a synthetic resin may be used, or FPC (Flexible Printed Circuits) may be used. The assembled electric wires having a round cross section may be arranged in a flat shape.

  Connectors 3A (shown in FIG. 2) are attached to both ends of each flat cable 3 respectively. One connector 3A is connected to a circuit on the power supply side, and the other connector 3A is connected to a circuit on the load side. The flat cable 3 is attached to the door trim 2B with the flat cable 3 held between a pair of protective sheets 4 and 5 and the connector 3A exposed to the outside.

  As shown in FIG. 3, one protective sheet 4 of the pair of protective sheets 4 and 5 is an elastic polyurethane foamed at a foaming ratio of 10 to 50 times (hereinafter referred to as “one foam layer 4A”). It may be noted). The one protective sheet 4 is formed in a plate shape having a constant thickness in a natural state, and the planar shape thereof is formed to be the same shape as the door trim 2B. As shown in FIG. 4A, the thickness dimension L1 of one protective sheet 4 is formed to be thicker than the thickness dimension L2 of the other protective sheet 5 in the natural state. One such protective sheet 4 is assembled with the protection structure 1 for the wire harness, and the protection structure 1 for the wire harness is sandwiched between the door panel 2A and the door trim 2B, and the soundproofing and Demonstrate thermal insulation. One protective sheet 4 may be made of a foam material such as polyethylene, polypropylene, polystyrene, melamine, or elastomer as a foam material having bubbles inside, or a non-woven fabric made of felt, PP, and PET fibers. The foaming material used and the foaming rate may be appropriately changed according to various design conditions such as required soundproofing performance and heat insulation performance.

  The other protective sheet 5 is a solid sheet material having no air bubbles inside, and is made of vinyl chloride or polyethylene having high frictional resistance. The other protective sheet 5 is formed in a plate shape with a constant thickness, and its planar shape is formed to be the same shape as the one protective sheet 4.

  Next, the procedure for providing and fixing the flat cable 3 inside the protective layer (the pair of protective sheets 4 and 5) will be described with reference to FIGS. First, as shown in FIG. 3A, the flat cable 3, one protective sheet 4, and the other protective sheet 5 are separately manufactured, and the one protective sheet 4 and the other protective sheet 5 are manufactured separately. Then, an adhesive is applied to one of the surfaces, and the sheets 4 and 5 are fixed with the flat cable 3 sandwiched between the sheets 4 and 5 as shown in FIG. Under the present circumstances, the flat cable 3 is provided so that the thickness direction and the thickness direction of the protection sheets 4 and 5 may become the same direction. The connectors 3 </ b> A located at both ends of the wire harness 3 are exposed from the pair of protective sheets 4 and 5. In this way, the wire harness protection structure 1 that holds the flat cable 3 between the pair of protection sheets 4 and 5 is assembled. In the present embodiment, the pair of protective sheets 4 and 5 are fixed using an adhesive, but an adhesive tape may be used, or the pair of protective sheets 4 and 5 may be fixed by heat welding. Good. In addition, it has a mold in which a cavity is formed inside, and this mold is composed of upper and lower molds that are stacked on top of each other. In this state, the flat cable 3 is shaped and arranged in a wiring shape. The protective sheets 4 and 5 in which the flat cable 3 is embedded may be integrally formed by filling and curing an uncured foam material from the inlets of the upper and lower molds.

  In this way, the flat cable 3 is sandwiched and held between the pair of protective sheets 4 and 5, and after fixing these protective sheets 4 and 5, the door trim 2 </ b> B is displaced from the pre-designed flat cable 3. A pair of protective sheets 4 and 5 are punched out at a position corresponding to the press-fitted portion formed in the first step to form a press-fitting receiving portion 6.

  Next, a procedure for attaching the assembled wire harness protection structure 1 to the outer surface of the door trim 2B on the door panel 2A side between the door panel 2A and the door trim 2B will be described with reference to FIGS. . First, the wire harness protection structure 1 shown in FIG. 4 (A) has a pair of protective sheets 4, with one protective sheet 4 facing the door panel 2A side and the other protective sheet 5 side facing the door trim 2B. The press-fit receiving portion 6 formed through 5 is press-fitted with the press-fit portion formed on the door trim 2B and fixed to the door trim 2B. Then, the door trim 2B is brought close to the door panel 2A from the wire harness protection structure 1 side, and the door trim 2B is attached to the door panel 2A. At this time, as shown in FIG. 4B, the one protective sheet 4 is pressed against the door panel 2A, that is, in a state where a part thereof is compressed by the unevenness of the door panel 2A, the door panel 2A and the door trim 2B. Is located between. Thus, the vehicle door 2 is assembled.

  According to the above-described embodiment, the flat cable 3 (wire harness) is provided inside the protective layer for protecting the flat cable 3, and the protective layer is one of the flat cable 3 and one surface of the protective layer. The thickness L1 of the protective sheet 4 (first layer) is formed to be thicker than the thickness L2 of the other protective sheet 5 (second layer) from the flat cable 3 to the other surface of the protective layer. Therefore, by arranging one protective sheet 4 formed thick on the side where the member (protrusion 21 of the door panel 2A) that interferes with the flat cable 3 is provided, it is possible to reduce interference with the flat cable 3. it can. Moreover, since the wire harness is comprised from the flat cable 3 whose width dimension is larger than a thickness dimension, or the electric wire comprised by the flat shape, it is on the member (protrusion 21 of the door panel 2A) which interferes with the flat cable 3. On the other hand, the load can be dispersed. Therefore, the protective layer can be thinned. In addition, since one protective sheet 4 is formed thicker than the other protective sheet 5, it is possible to reduce the thickness as compared with the case where both the one protective sheet 4 and the other protective sheet 5 are formed thick. it can. Therefore, it is possible to provide the wire harness protection structure 1 in which the interference with the flat cable 3 is reduced while reducing the thickness.

  In addition, one protective sheet 4 is configured to include one foam layer 4A having elasticity, and one foam layer 4A is provided between the door panel 2A (vehicle body panel) and the flat cable 3 and the door panel 2A. Therefore, the member (protrusion 21 of the door panel 2A) that interferes with the flat cable 3 comes into contact with the one foam layer 4A and is compressed, so that one member of the one foam layer 4A is compressed. The density of the part is made dense. Therefore, the mechanical strength of the dense part of one foam layer 4A is increased, and the interference with the flat cable 3 can be further reduced. Moreover, since one protective sheet 4 is provided in a state in which one foamed layer 4A is pressed against the door panel 2A, only the protruding dimension of the member (protrusion 21 of the door panel 2A) that interferes with the flat cable 3 The entire vehicle door 2 having the wire harness protection structure 1 can be reduced in thickness.

  In the above-described embodiment, the press-fit portion provided in the door trim 2B is press-fitted into the press-fit receiving portion 6 provided in the pair of protective sheets 4 and 5, and the wire harness protection structure 1 is fixed to the door trim 2B. However, the present invention is not limited to this, and the pair of protective sheets 4 and 5 holding the flat cable 3 may be bonded or welded to the door trim 2B, or a wire may be used using screws or screws. The harness protection structure 1 may be fixed to the door trim 2B.

  In the above-described embodiment, the other protective sheet 5 is a solid sheet material having no air bubbles inside and is made of vinyl chloride or polyethylene having high frictional resistance. It is not limited to this. The other protective sheet 5 may be composed of a foam layer having the same expansion ratio as that of the one protective sheet 4, and foamed materials such as polyethylene, polypropylene, polystyrene, melamine, and elastomer as foaming materials having bubbles inside, , Felt, PP, and PET-based fibers, and the foam material used and the foaming rate should be changed appropriately according to various design conditions such as required soundproof performance and heat insulation performance. May be.

(Second Embodiment)
Hereinafter, the wire harness protection structure 10 of 2nd Embodiment of this invention is demonstrated with reference to FIG. Members having the same structure or function as those of the wire harness protection structure 1 of the first embodiment described above are denoted by the same reference numerals and description thereof is omitted. The wire harness protection structure 10 includes a wire harness 3 and a pair of protective sheets 14 and 5 for protecting the wire harness 3 by positioning the wire harness 3 therein.

  Of the pair of protective sheets 14 and 5, one protective sheet 14 includes polyurethane foamed at a foaming rate of 10 to 50 times (hereinafter referred to as “one foamed layer 14 </ b> A”), and the one foamed layer 14 </ b> A. One covering film 14B is integrally provided. One coating 14B is configured to have wear resistance.

  Next, a procedure for providing and fixing the flat cable 3 inside the protective layer (the pair of protective sheets 14 and 5) will be described. First, the flat cable 3, one protective sheet 14, and the other protective sheet 5 are separately manufactured in advance, and one of the foamed layers 14 </ b> A of the one protective sheet 14 and the other protective sheet 5 is selected. Adhesive is applied to one surface, and one film 14B is provided closer to the door panel 2A than one foamed layer 14A, and the flat cable 3 is sandwiched between these protective sheets 14 and 5 To fix. At this time, the flat cable 3 is provided so that the thickness direction thereof is the same as the thickness direction of the protective sheets 14 and 5. In this way, the wire harness protection structure 10 that holds the flat cable 3 between the pair of protection sheets 14 and 5 is assembled. Thereafter, the press-fitting receiving part 6 that penetrates the pair of protective sheets 14 and 5 is formed at a position that deviates from the previously designed flat cable 3 and that corresponds to the press-fitting part formed on the door trim 2B.

  Next, a procedure for attaching the assembled wire harness protection structure 10 to the outer surface of the door trim 2B on the door panel 2A side between the door panel 2A and the door trim 2B will be described with reference to FIGS. . First, as shown in FIG. 5 (A), the wire harness protection structure 10 has a pair of protections with one protective sheet 14 facing the door panel 2A and the other protective sheet 5 facing the door trim 2B. The press-fit portion formed in the door trim 2B is press-fitted into the press-fit receiving portion 6 formed through the seats 14 and 5, and is fixed to the door trim 2B. At this time, one coating 14B is provided closer to the door panel 2A than one foamed layer 14A. Then, the door trim 2B is brought closer to the door panel 2A from the wire harness protection structure 10 side, and the door trim 2B is attached to the door panel 2A. At this time, as shown in FIG. 5B, one of the protective sheets 14 is pressed against the door panel 2A, that is, in a state where the protective sheet 14 is compressed by the unevenness (for example, the protrusion 21) of the door panel 2A. It is located between the door panel 2A and the door trim 2B. Thus, the vehicle door 2 is assembled.

  According to the above-described embodiment, a member (for example, the protrusion 21) that interferes with the flat cable 3 (wire harness) abuts on one foam layer 14A and is compressed, so that a part of the one foam layer 14A is compressed. Density is made dense. Accordingly, the mechanical strength of the dense portion of the one foam layer 14A is increased, and the contact pressure from the protrusion 21 can be released, so that the interference with the flat cable 3 is further reduced. Can be achieved. In addition, since one protective sheet 14 is provided in a state in which one foam layer 14A is pressed against the door panel 2A (vehicle body panel), it corresponds to the protruding dimension of a member (for example, projection 21) that interferes with the flat cable 3. Only the wire harness protection structure 10 can be thinned. In addition, since the one film 14B has wear resistance (mechanical strength) and is provided closer to the door panel 2A than the one foamed layer 14B, a member that interferes with the flat cable 3 (for example, the protrusion 21). ), The mechanical strength of one protective sheet 14 can be improved.

  In the embodiment described above, one coating 14B is configured to have wear resistance, but the present invention is not limited to this. By appropriately selecting the material of the one coating 14B, the required performance (for example, soundproofing, heat insulation, waterproofing, and abrasion resistance) is obtained without almost increasing the thickness of the entire protective sheet 14. Etc.) can be imparted to one protective sheet 14 (first layer).

(Third embodiment)
Hereinafter, the wire harness protection structure 20 of 3rd Embodiment of this invention is demonstrated with reference to FIG. Members having the same structure or function as those of the wire harness protection structures 1 and 10 of the first embodiment described above are denoted by the same reference numerals and description thereof is omitted. The wire harness protection structure 20 includes a wire harness 3 and a pair of protective sheets 24 and 5 for protecting the wire harness 3 by positioning the wire harness 3 therein.

  Of the pair of protective sheets 24 and 5, one protective sheet 24 includes polyurethane foamed at a foaming rate of 10 to 50 times (hereinafter referred to as “one foamed layer 24 </ b> A”), and the one foamed layer 24 </ b> A. One covering film 24 </ b> B is integrally provided. One coating 24B is composed of a member having a small frictional force.

  Next, a procedure for providing and fixing the flat cable 3 inside the protective layer (the pair of protective sheets 24 and 5) will be described. First, the flat cable 3, one protective sheet 24, and the other protective sheet 5 are separately manufactured in advance, and one of the protective film 24 and the other protective sheet 5 are either one of the protective films 24. An adhesive is applied to the surface of the sheet, and one foam layer 24A is provided closer to the door panel 2A than one film 24B, and the flat cable 3 is sandwiched between these protective sheets 24 and 5 Stick. At this time, the flat cable 3 is provided so that the thickness direction thereof is the same as the thickness direction of the protective sheets 24 and 5. In this way, the wire harness protection structure 20 that holds the flat cable 3 between the pair of protection sheets 24 and 5 is assembled. Thereafter, the press-fitting receiving portion 6 that penetrates the pair of protective sheets 24 and 5 is formed at a position that deviates from the flat cable 3 designed in advance and that corresponds to the press-fitting portion formed on the door trim 2B.

  Next, a procedure for attaching the assembled wire harness protection structure 20 to the outer surface of the door trim 2B on the door panel 2A side between the door panel 2A and the door trim 2B will be described with reference to FIGS. . First, as shown in FIG. 6 (A), the wire harness protection structure 20 has a pair of protections with one protective sheet 24 facing the door panel 2A and the other protective sheet 5 side approaching the door trim 2B. The press-fit portion formed in the door trim 2B is press-fitted into the press-fit receiving portion 6 formed through the seats 24 and 5, and is fixed to the door trim 2B. At this time, one foam layer 24A is provided closer to the door panel 2A than the one coating 24B. Then, the door trim 2B is brought close to the door panel 2A from the wire harness protection structure 20 side, and the door trim 2B is attached to the door panel 2A. At this time, as shown in FIG. 7B, the one protective sheet 24 is pressed against the door panel 2A, that is, compressed by the unevenness (for example, the protrusion 21) of the door panel 2A. 2B. Thus, the vehicle door 2 is assembled.

  According to the above-described embodiment, one film 24B is formed of a member having a small frictional force and is provided on the flat cable 3 side with respect to one foamed layer 24A. Occurrence can be suppressed.

  In the embodiment described above, the one coating 24B is composed of a member having a small frictional force, but the present invention is not limited to this. By appropriately selecting the material of the one film 24B, the required performance (for example, soundproofing, heat insulating, waterproofing) is obtained without almost increasing the thickness of the entire one protective sheet 24 (first layer). , Different functions such as wear resistance) can be imparted to one protective sheet 24.

(Fourth embodiment)
Hereinafter, the wire harness protection structure 30 of 4th Embodiment of this invention is demonstrated with reference to FIG. Members having the same structure or function as the wire harness protection structures 1, 10, and 20 of the first, second, and third embodiments described above are denoted by the same reference numerals and description thereof is omitted. The wire harness protection structure 30 includes a wire harness 3 and a pair of protective sheets 34 and 35 for protecting the wire harness 3 by positioning the wire harness 3 inside.

  Of the pair of protective sheets 34, 35, one protective sheet 34 includes polyurethane foamed at a foaming rate of 10 to 50 times (hereinafter referred to as “one foamed layer 34 </ b> A”), and the one foamed layer 14 </ b> A. One covering film 34 </ b> B is integrally provided. The other protective sheet 35 includes polyurethane foamed at a foaming rate of 10 to 50 times (hereinafter referred to as “the other foamed layer 35A”), and one film 35B covering the other foamed layer 35A. It is constructed integrally. Here, in this embodiment, one foam layer 34A and the other foam layer 35A are composed of the same member formed continuously, and the other film 34B and the other film 35B are continuous. It is comprised from the same member formed.

  Next, a procedure for providing and fixing the flat cable 3 inside the protective layer (the pair of protective sheets 34 and 35) will be described. Adhesive was applied to the surfaces of the continuous coatings 34B and 35B, and the coatings 34B and 35B were continuous with each other across the flat cable 3 so that the coatings 34B and 35B were on the inner side (the side in contact with the flat cable 3). The protective sheets 35 and 36 are folded and fixed. At this time, the flat cable 3 is provided so that the thickness direction thereof is the same as the thickness direction of the protective sheets 34 and 35. Thus, the wire harness protection structure 30 in which the flat cable 3 is provided between the pair of protection sheets 34 and 35 inside the protection layer (the pair of protection sheets 34 and 35) is assembled. Thereafter, the press-fitting receiving part 6 that penetrates the pair of protective sheets 34 and 35 is formed at a position that deviates from the flat cable 3 designed in advance and corresponds to the press-fitting part formed on the door trim 2B.

  Next, a procedure for attaching the assembled wire harness protection structure 30 to the outer surface of the door trim 2B on the door panel 2A side between the door panel 2A and the door trim 2B will be described with reference to FIGS. . First, as shown in FIG. 7A, the wire harness protection structure 30 is configured such that one protection sheet 34 faces the door panel 2A and the other protection sheet 35 approaches the door trim 2B. A press-fit portion formed in the door trim 2B is press-fitted into a press-fit receiving portion 6 formed through the seats 34 and 35, and is fixed to the door trim 2B. At this time, one foam layer 34A is provided closer to the door panel 2A than the one coating 34B. Then, the door trim 2B is brought close to the door panel 2A from the wire harness protection structure 30 side, and the door trim 2B is attached to the door panel 2A. At this time, as shown in FIG. 7B, the one protective sheet 34 is pressed against the door panel 2A, that is, compressed by the unevenness (for example, the protrusion 21) of the door panel 2A. 2B. Thus, the vehicle door 2 is assembled.

  According to the above-described embodiment, the other protective sheet 35 (second layer) is composed of the other foam layer 35A having elasticity and the other film 35B covering the other foam layer 35A, and the other Since the coating 35B has wear resistance (mechanical strength) and is provided closer to the door panel 2A (vehicle body panel) than the other foam layer 35A, the other foam layer 35A ensures cushioning properties. Thus, the mechanical strength of the other protective sheet 5 can be further improved by the other film 35B while releasing the contact pressure from the protrusion 21.

  In the above-described embodiment, the other coating 35B is configured to have wear resistance, but the present invention is not limited to this. By appropriately selecting the material of the other coating 35B, the required performance (for example, soundproofing, heat insulation, waterproofing, and abrasion resistance) is obtained without increasing the thickness of the other protective sheet 35 as a whole. Etc.) can be imparted to the other protective sheet 25 as well.

  Each of the above-described embodiments is merely a representative form of the present invention, and the present invention is not limited to the embodiment. That is, those skilled in the art can implement various modifications in accordance with conventionally known knowledge without departing from the scope of the present invention. Of course, as long as the configuration of the wire harness protection structure 1, 10, 20, 30 of the present invention is provided even by such deformation, it is included in the scope of the present invention.

1, 10, 20, 30 Wire harness protection structure 2A Door panel (body panel)
3 Flat cable 4, 14, 24, 34 One protective sheet (first layer)
5, 15 The other protective sheet (second layer)
L1 Thickness dimension of one protective sheet (first layer) L2 Thickness dimension of the other protective sheet (second layer)

Claims (4)

Between the door panel and the interior material, a wire harness protection structure for protecting the wire harness attached to the interior material,
The wire harness is composed of a flat cable having a width dimension larger than a thickness dimension, or an electric wire configured in a flat shape, and is provided inside a protective layer for protecting the wire harness.
In the protective layer, the thickness dimension of the first layer from the wire harness to one surface of the protective layer is thicker than the thickness dimension of the second layer from the wire harness to the other surface of the protective layer. Formed to be
The first layer is located away from the interior material with the second layer interposed therebetween, and only a part of the first layer is compressed by the unevenness of the door panel , thereby interfering with the wire harness from the unevenness of the door panel. The wire harness protection structure characterized by aiming at the reduction of.   The wire harness protection structure according to claim 1, wherein the first layer includes one foam layer having elasticity. Between the door panel and the interior material, a wire harness protection structure for protecting the wire harness attached to the interior material,
The wire harness is composed of a flat cable having a width dimension larger than a thickness dimension, or an electric wire configured in a flat shape, and is provided inside a protective layer for protecting the wire harness.
The protective layer includes a first layer from the wire harness to one surface of the protective layer, and a second layer from the wire harness to the other surface of the protective layer,
The first layer includes one foam layer having elasticity, and one film covering the one foam layer,
The first layer is located away from the interior material across the second layer;
Only one part of said one foaming layer is compressed by the unevenness | corrugation of the said door panel , The wire harness protective structure characterized by the above-mentioned.   The wire harness protection structure according to claim 3, wherein the second layer is composed of the other foam layer having elasticity and the other film covering the other foam layer.

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