JP2007294284A - Wire protecting member - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To properly pass wires having a wide range of sizes with excellent workability. <P>SOLUTION: In this wire protecting member 2, continuous cutting lines 21 (shown by dashed lines in the figure) are formed to form a plurality of (eight in this case) flexible parts 22 being regions having flexibility. The cutting lines 21 comprise line segment-like first cutting lines 212 along a center line in the vertical direction of the wire protecting member 2, and five line segment-like second cutting lines 211 perpendicular to the first cutting lines 212 and having middle points on the first cutting lines 212. A region located on the upper side (or the lower side) of the first cutting line 212 and sandwiched between two of the second cutting lines 211 adjacent to each other is the flexible part 22 being a region having flexibility. When a connector penetrates a wire passing hole, the flexible part 22 is pressed by the connector and bent toward the wire passing destination, whereby a space is created. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a wiring protection member that protects a wiring when a wiring having a connector connected to an end thereof is passed through a through hole of a predetermined size formed on a wall surface.

Conventionally, when wiring of harnesses, power cables, etc. is routed through the through-holes formed in the wall surface, etc., in order to prevent damage to the harness etc. due to the end face of the through-holes, it is synthesized at the periphery of the through-holes A bushing formed in an annular shape with resin or the like was fitted, and a harness or the like was passed through the insertion hole provided in the bushing (see Patent Document 1).
Japanese Patent Laid-Open No. 10-283833

  However, there are various sizes of harnesses and the like, and it is necessary to select a bushing according to the size, and it is necessary to prepare many types of bushings. Furthermore, in the case where a connector is connected in advance to the tip of a harness or the like, it is necessary to remove the one-end connector and fit the bushing, and then connect it to the through hole.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a wiring protection member capable of passing a wide range of wirings with good workability.

  In order to achieve the above object, the wiring protection member according to claim 1 is configured such that when a wiring having a connector connected to an end thereof is passed through a wiring hole of a predetermined size formed on a wall surface, the wiring A wiring protection member that protects the through hole, and has a periphery that is larger than the size of the through hole and at least one of the wall surfaces on the through source side and through destination side of the through hole. The elastic member is formed of a flat elastic member attached to a surface, and the elastic member is provided with a continuous cutting line to form a flexible portion which is a plurality of flexible regions. When the connector passes through the through hole, the connector is pressed by the connector and bends toward the end of the wire to generate a gap, and the cutting line has a size that allows the connector to pass through. The position and length are defined to generate the gap. It is characterized in that it is.

  The wiring protection member according to claim 2 is the wiring protection member according to claim 1, wherein the cutting line is generated by connecting the end points of the cutting line on the side away from the center portion with a line segment. The position of the end point is defined so that a cross section of the connector is included in a penetrable region that is inside the polygon.

  A wiring protection member according to claim 3 is the wiring protection member according to claim 1 or 2, wherein the elastic member is translucent or transparent.

  The wiring protection member according to claim 4 is the wiring protection member according to any one of claims 1 to 3, wherein the elastic member has at least one of heat resistance and electrical insulation. It is said.

  A wiring protection member according to a fifth aspect is the wiring protection member according to any one of the first to fourth aspects, wherein the elastic member is made of a resin.

  The wiring protection member according to claim 6 is the wiring protection member according to claim 5, wherein the elastic member is made of a polyester film.

  The wiring protection member according to claim 7 is the wiring protection member according to any one of claims 1 to 6, wherein the flexible part is in a state where the cutting line is inserted through the connector. The connector and the wiring are formed so as to exhibit an elastic restoring force capable of supporting the connector in the vertical direction.

  The wiring protection member according to claim 8 is the wiring protection member according to claim 7, wherein the cutting line is formed in line symmetry with respect to a center line in the vertical direction of the elastic member. It is a feature.

  The wiring protection member according to claim 9 is the wiring protection member according to any one of claims 1 to 8, wherein the flexible part is in a state where the cutting line is inserted through the connector. The connector and the wiring are formed to exhibit an elastic restoring force capable of supporting the connector in the left-right direction.

  The wiring protection member according to claim 10 is the wiring protection member according to claim 9, wherein the cutting line is formed symmetrically with respect to a center line in the left-right direction of the elastic member. It is a feature.

  The wiring protection member according to claim 11 is the wiring protection member according to claim 10, wherein the cutting line is a line-shaped first cutting line along a vertical center line of the elastic member. And a line-shaped second cutting line that is orthogonal to the first cutting line and has a midpoint on the first cutting line.

  The wiring protection member according to claim 12 is the wiring protection member according to claim 9, wherein the cutting line is formed point-symmetrically with respect to a center point of the elastic member. .

  A wiring protection member according to a thirteenth aspect is the wiring protection member according to a twelfth aspect, wherein the cutting line has a plurality of line segments formed radially with respect to a center point of the elastic member. It is characterized by having 3 cutting lines.

  A wiring protection member according to a fourteenth aspect is the wiring protection member according to any one of the first to thirteenth aspects, wherein the flexible portion has a smooth end surface on the side in contact with the connector. It is characterized by having.

  According to the wiring protection member according to claim 1, the flexible portion formed by the cutting line applied to the elastic member is pressed by the connector when the connector penetrates the through hole, and the wiring destination side Since the cutting line is defined in its position and length to generate a gap of a size that can be penetrated by the connector, the connector penetrates the through hole. In this case, since a gap having a size that allows the connector to pass therethrough is generated, a wide range of wirings (and connectors) can be penetrated with good workability.

  According to the wiring protection member according to claim 2, the cutting line is connected to the penetrable region that is the inside of the polygon generated by connecting the end points of the cutting line on the side separated from the center portion by the line segment. Since the positions of the end points are defined so as to include the cross section, when the connector penetrates the through hole, a gap of a size that allows the connector to penetrate can be generated.

  According to the wiring protection member according to claim 3, since the elastic member is translucent or transparent, the position of the through hole and the state of the penetration destination can be visually confirmed, and the workability of the line is further improved. Can do.

  According to the wiring protection member of the fourth aspect, since the elastic member has at least one of heat resistance and electrical insulation, it is suitable for the case where the wiring is heated by conduction and there is a possibility of electric leakage. A protective member can be realized.

  According to the wiring protection member of the fifth aspect, since the elastic member is made of resin, the flexible portion can be easily formed by the cutting line. Moreover, it can also be easily realized that the elastic member is translucent or transparent, and has heat resistance and electrical insulation.

  According to the wiring protection member of the sixth aspect, since the elastic member is made of the polyester film, the flexible portion can be formed more easily by the cutting line. Moreover, it can also be easily realized that the elastic member is translucent or transparent, and has heat resistance and electrical insulation.

  According to the wiring protection member of the seventh aspect, the cutting line is formed so as to exhibit an elastic restoring force capable of supporting the connector and the wiring in the vertical direction in a state where the connector is penetrated. Therefore, since the connector and the wiring are supported in the vertical direction with the connector being penetrated, it is possible to reliably prevent the connector and the wiring from coming into contact with the end face of the wall surface and being damaged.

  According to the wiring protection member of the eighth aspect, since the cutting line is formed in line symmetry with respect to the vertical center line of the elastic member, the flexible portion is also line symmetrical with respect to the vertical center line. Therefore, the flexible portion can be formed so as to exhibit an elastic restoring force capable of supporting the connector and the wiring in the vertical direction.

  According to the wiring protection member of the ninth aspect, the cutting line is formed so as to exhibit an elastic restoring force capable of supporting the connector and the wiring in the left-right direction in a state where the connector is penetrated. Therefore, since the connector and the wiring are supported in the left-right direction with the connector penetrating, it is possible to further reliably prevent the connector and the wiring from coming into contact with the end face of the wall surface and being damaged.

  According to the wiring protection member of the tenth aspect, since the cutting line is formed symmetrically with respect to the horizontal center line of the elastic member, the flexible portion is also symmetrical with respect to the horizontal center line. Therefore, the flexible portion can be formed so as to exhibit an elastic restoring force capable of supporting the connector and the wiring in the left-right direction.

  According to the wiring protection member of the eleventh aspect, the cutting line is orthogonal to the first cutting line in the line segment shape along the center line in the vertical direction of the elastic member, and the first cutting line. And forming a flexible portion so as to exert an elastic restoring force capable of supporting the connector and the wiring in the vertical direction and the horizontal direction. it can.

  According to the wiring protection member of the twelfth aspect, since the cutting line is formed point-symmetrically with respect to the center point of the elastic member, the flexible portion is also formed point-symmetrically with respect to the center point of the elastic member. Therefore, the flexible portion can be formed so as to exhibit an elastic restoring force capable of supporting the connector and the wiring in the vertical direction and the horizontal direction.

  According to the wiring protection member according to claim 13, since the cutting line has a plurality of line-shaped third cutting lines formed radially with respect to the center point of the elastic member, the connector and the wiring are arranged in the vertical direction. And a flexible part can be formed in order to exhibit the elastic restoring force which can be supported in the left-right direction.

  According to the wiring protection member of the fourteenth aspect, since the end surface on the side where the flexible portion comes into contact with the connector is formed smoothly, it is ensured that the connector and the wiring are damaged by sliding contact with the elastic member. Can be prevented.

  Hereinafter, an example of a wiring protection member according to the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view showing an example of an arrangement state of a wiring protection member according to the present invention. The wiring protection member 2 is formed of a flat plate-like elastic member (here, a polyester film) larger than the size of the through hole 11, and on the through line source side (right side in the drawing) of the through hole 11 formed in the wall surface 1. The peripheral part is affixed to the outer peripheral surface of the through hole 11. A case will be described in which a harness 32 (corresponding to wiring) having a connector 31 connected to the tip thereof is passed through the wiring hole 11 from the right side to the left side in the drawing. Here, although the case where the wiring protection member 2 is affixed to the line origin side (right side of the figure) of the line hole 11 will be described, it is affixed to at least one of the line origin side and the line destination side. Any form is acceptable. For example, the form affixed on the line origin side and the line destination side may be sufficient.

  FIG. 2 is a plan view showing an example of the wiring protection member 2. The wiring protection member 2 is provided with continuous cutting lines 21 (indicated by broken lines in the drawing) to form a plurality of (here, eight) flexible portions 22 that are flexible regions. The cutting line 21 is perpendicular to the first cutting line 212 and the first cutting line 212 along the center line in the vertical direction of the wiring protection member 2, and the midpoint on the first cutting line 212. Line-shaped five second cutting lines 211. A region on the upper side (or lower side) of the first cutting line 212 and sandwiched between the two adjacent second cutting lines 211 is the flexible portion 22 that is a flexible region.

  That is, for example, the flexible portion 22 in the region above the first cutting line 212 and sandwiched between two adjacent second cutting lines 211 has a cutting line 212 below it, Since there is the cutting line 211, it is fixed only at the upper end and is in a cantilever state. Therefore, when the lower end side is pressed by the connector 31 or the like, it bends to the line destination side. Similarly, when the upper end side is pressed by the connector 31 or the like, the flexible portion 22 in the region below the first cutting line 212 and sandwiched between the two adjacent second cutting lines 211 passes through. It bends to the wire tip side. As a result, when the connector 31 penetrates the through hole 11, the flexible portion 22 is pressed by the connector 31 and is bent toward the through end, thereby generating a gap.

  The flexible portion 22 is pressed by the connector 31 in the penetrable region 23 inside the polygon generated by connecting the end points of the cutting line 21 on the side away from the center of the cutting line 21 with line segments. If the cross section of the connector 31 is included in this penetrable region 23, the connector 31 can penetrate the wiring protection member 2. That is, the position of the end point of the cutting line 21 is defined so that the cross section of the connector 31 is included in the penetrable region 23.

  FIG. 3 is a plan view showing an example of a cross section of the connector 31 that can be penetrated. The penetrable region 23 of the wiring protection member 2 is formed inside the through hole 11, and the cross-sections 31 a, 31 b, 31 c of the connector 31 are included in the penetrable region 23. The wiring protection member 2 can be penetrated. That is, since the connector 31 whose section is included in the penetrable region 23 can penetrate the wiring protection member 2, the harness 32 to which the connectors 31 of various shapes and sizes are connected is allowed to penetrate the wiring protection member 2. Can do.

  FIG. 4 is a cross-sectional view showing an example of a state in which the connector 31 and the harness 32 are penetrated by the wiring protection member 2. As described with reference to FIG. 2, the flexible portion 22 on the upper side of the first cutting line 212 bends toward the penetrating side with the upper side fixed, and the flexible portion 22 on the lower side of the first cutting line 212. Since the part 22 bends toward the penetration destination side with the lower side fixed, a gap is formed through the connector 31 and the harness 32. Since the wiring protection member 2 is made of a polyester film having elasticity, the elastic restoring force of the flexible portion 22 above the first cutting line 212 and the flexible portion 22 below the first cutting line 212 are used. Since the connector 31 and the harness 32 are supported in the vertical direction by the elastic restoring force, the connector 31 and the harness 32 can be reliably prevented from coming into contact with the end face of the wall surface 1 and being damaged.

  Further, since the wiring protection member 2 has a plurality of (four in this case) flexible portions 22 in the left-right direction as shown in FIG. 2, the flexible portions 22 in contact with the connector 31 and the harness 32 penetrate therethrough. Since the flexible portion 22 that is bent forward and is not in contact with the connector 31 and the harness 32 does not bend, the flexible portion 22 that is not bent (or that is less bent) causes the connector 31 and the harness 32 to move in the left-right direction. Since it is supported, it can prevent reliably that the connector 31 and the harness 32 contact the end surface of the wall surface 1, etc., and are damaged.

  Furthermore, since the wiring protection member 2 is made of a polyester film having heat resistance and electrical insulation, the connector 31 or the harness 32 is heated even when it is electrically conductive, or there is a possibility of electric leakage. Since 31 or the harness 32 is supported by the wiring protection member 2 having heat resistance and electrical insulation, it is possible to prevent the wall surface 1 from being heated (or leaking into the wall surface 1).

  Here, the elastic restoring force of the flexible portion 22 above the first cutting line 212 acts downward, and the elastic restoring force of the flexible portion 22 below the first cutting line 212 acts upward. When the connector 31 and the harness 32 slide with the end surface 2E of the flexible portion 22, the connector 31 and the harness 32 may be damaged. FIG. 5 is a cross-sectional view showing an example of the wiring protection member 2 that solves this problem.

  That is, since the end surface 2F of the wiring protection member 2 shown in FIG. 5 on the side in contact with the connector 31 and the harness 32 is formed smoothly (here, in an arc shape), the connector 31 and the harness 32 are flexible portions. Even if it slides with the end surface 2F of 22, the connector 31 and the harness 32 can be prevented from being damaged by the end surface 2F.

  FIG. 6 is a plan view showing another form of the cutting line of the wiring protection member. In the wiring protection member 2a shown in (a), the cutting line 21a is formed in a substantially H shape, and one flexible portion 22a is formed on each of the upper and lower sides (total of two). And when the connector 31 penetrates the through-hole 11, the flexible part 22a is pressed by the connector 31, and it bends to the through-line side, and the penetration possible area | region 23a is produced | generated. In this case, since the cutting line 21a has a simple configuration, the wiring protection member 2 can be manufactured at low cost. Further, the connector 31 and the harness 32 are moved in the vertical direction by the elastic restoring force of the upper flexible portion 22a and the elastic restoring force of the lower flexible portion 22a in the same manner as the wiring protection member 2 shown in FIG. Since it is supported, it can prevent reliably that the connector 31 and the harness 32 contact the end surface of the wall surface 1, etc., and are damaged.

  In the wiring protection member 2b shown in (b), the cutting line 21b is formed in an H shape in which the vertical line is deformed into a “K” shape. A flexible portion 22b is formed. And when the connector 31 penetrates the through-hole 11, the penetration part 23b is produced | generated by the flexible part 22b being pressed by the connector 31 and bending to the through-line side. In this case, since the cutting line 21b has a simple configuration, the wiring protection member 2 can be manufactured at low cost. Further, the connector 31 and the harness 32 are moved in the vertical direction by the elastic restoring force of the upper flexible portion 22b and the elastic restoring force of the lower flexible portion 22b in the same manner as the wiring protection member 2 shown in FIG. Since it is supported, it can prevent reliably that the connector 31 and the harness 32 contact the end surface of the wall surface 1, etc., and are damaged. Furthermore, since the connector 31 and the harness 32 are supported in the left-right direction by the elastic restoring force of the right flexible portion 22b and the elastic restoring force of the left flexible portion 22b, the connector 31 and the harness 32 are wall surfaces. It is possible to surely prevent damage from contact with the left and right end surfaces of one through-hole 11.

  In the wiring protection member 2c shown in (c), the cutting line 21c is formed in an X shape, and one flexible portion 22c is formed on each of the upper and lower sides and the left and right sides (total of four). And when the connector 31 penetrates the through-hole 11, the penetration part 23c is produced | generated by the flexible part 22c being pressed by the connector 31 and bending to the through-line side. In this case, since the cutting line 21c has a simple configuration, the wiring protection member 2 can be manufactured at low cost. Further, the connector 31 and the harness 32 are moved in the vertical direction by the elastic restoring force of the upper flexible portion 22c and the elastic restoring force of the lower flexible portion 22c, similarly to the wiring protection member 2 shown in FIG. Since it is supported, it can prevent reliably that the connector 31 and the harness 32 contact the end surface of the wall surface 1, etc., and are damaged. Further, since the connector 31 and the harness 32 are supported in the left-right direction by the elastic restoring force of the right flexible portion 22c and the elastic restoring force of the left flexible portion 22c, the connector 31 and the harness 32 are wall surfaces. It is possible to surely prevent damage from contact with the left and right end surfaces of one through hole 11.

  In this way, when the connector 31 penetrates the through hole 11, the flexible portion 22 formed by the cutting line 21 applied to the elastic member is pressed by the connector 31 and bends to the through line destination side. Since the position and the length of the cutting line 21 are defined so as to generate a gap of a size that allows the connector 31 to pass therethrough, the connector 31 passes through the through hole. In this case, since a gap having a size through which the connector 31 can penetrate is generated, the harness 32 (and the connector 31) having a wide range of sizes can be penetrated with good workability.

  In addition, the cross-section of the connector 31 is included in the penetrable region 23 that is inside the polygon generated by connecting the end points of the cutting line 21 on the side away from the center with a line segment. Since the position of the end point is defined, when the connector 31 passes through the through hole, a gap having a size that allows the connector 31 to pass through can be generated.

  Furthermore, since the wiring protection member 2 is translucent or transparent, the position of the through hole 11 and the state of the penetration destination can be visually confirmed, and the workability of the through line can be further improved.

  In addition, since the wiring protection member 2 has heat resistance and electrical insulation, a protection member suitable for heating when the harness 32 (and the connector 31) conducts electricity and when there is a possibility of electric leakage is realized. it can.

  Moreover, since the wiring protection member 2 is made of a polyester film, the flexible portion 22 can be formed more easily by the cutting line 21. Moreover, it can also be easily realized that the wiring protection member 2 is translucent or transparent, and has heat resistance and electrical insulation.

  Further, since the cutting line 21 is formed so as to exhibit an elastic restoring force capable of supporting the connector 31 and the harness 32 in the vertical direction in a state where the connector 31 is penetrated, the connector is penetrated. In this state, the connector 31 and the harness 32 are supported in the vertical direction, so that the connector 31 and the harness 32 can be reliably prevented from coming into contact with the end surface of the wall surface 1 and being damaged.

  In addition, the cutting line 21 is formed so as to exhibit an elastic restoring force capable of supporting the connector 31 and the harness 32 in the left-right direction in a state where the connector 31 is penetrated. Since the connector 31 and the harness 32 are supported in the left-right direction in the penetrated state, the connector 31 and the harness 32 can be further reliably prevented from coming into contact with the end surface of the wall surface 1 and being damaged.

  In the wiring protection member 2 shown in FIG. 2, the cutting line 21 is formed symmetrically with respect to the vertical center line of the wiring protection member 2, so that the flexible portion 22 is also relative to the vertical center line. Therefore, the flexible portion can be formed so as to exhibit an elastic restoring force capable of supporting the connector 31 and the harness 32 in the vertical direction.

  Further, in the wiring protection member 2 shown in FIG. 2, the cutting line 21 is formed symmetrically with respect to the center line in the left-right direction of the wiring protection member 2, so that the flexible portion 22 is also in relation to the center line in the left-right direction. Therefore, the flexible portion can be formed to exhibit an elastic restoring force capable of supporting the connector 31 and the harness 32 in the left-right direction.

  In addition, in the wiring protection member 2 shown in FIG. 2, the cutting line 21 includes a line-shaped first cutting line 212 and a first cutting line 212 along the vertical center line of the wiring protection member 2 c. Since the second cutting line 211 is perpendicular to the first cutting line 212 and has a midpoint on the first cutting line 212, it exhibits an elastic restoring force capable of supporting the connector 31 and the harness 32 in the vertical direction and the horizontal direction. The flexible portion 22 can be formed as much as possible.

  Further, in the wiring protection member 2c shown in FIG. 6C, a plurality of (here, two) line-segment thirds in which the cutting lines 21c are formed radially with respect to the center point of the wiring protection member 2c. Therefore, the flexible portion can be formed so as to exhibit an elastic restoring force capable of supporting the connector 31 and the harness 32 in the vertical direction and the horizontal direction.

  Furthermore, in the wiring protection member 2 shown in FIG. 5, the end surface 2F on the side that contacts the connector 31 of the flexible portion 22 is formed smoothly, so that the connector 31 and the harness 32 are in sliding contact with the wiring protection member 2. It is possible to reliably prevent damage.

The present invention can also be applied to the following forms.
(A) In this embodiment, although the case where the wiring protection member 2 consists of a polyester film was demonstrated, what is necessary is just the form which consists of a material which has elasticity. For example, the form which consists of rubber | gum may be sufficient. Moreover, the form which consists of resin (for example, polypropylene etc.) other than polyester may be sufficient.

  (B) In the present embodiment, the case where the wiring protection member 2 has the cutting line 21 shown in FIG. 2 has been described. However, the wiring protection member 2 is generated by connecting the end points of the cutting line 21 with line segments. What is necessary is just the form which has the cutting line 21 in which the position of an end point is prescribed | regulated so that the cross section of the connector 31 may be included in the penetration possible area | region 23 which is a square inside. For example, a form having the cutting line 21 shown in FIG. 6 may be used, and other forms may be used.

  (C) In the present embodiment, the case where the connector 31 is connected to the tip of the harness 32 has been described. However, the connector 31 may not be connected, and wiring other than the harness 32 (for example, a power cable or the like) The form which is.

  (D) In the present embodiment, the case where the harness 32 is routed through the wiring hole 11 provided in the wall surface 1 has been described. However, the wiring hole 11 provided in the outer wall surface of the housing of the electronic device or the like is provided in the wiring hole 11. The form which lets the harness 32 pass may be sufficient. Since the outer wall surface of a casing of an electronic device or the like is often made of steel, the risk of damaging the harness 32 is high, so that the wiring protection member 2 of the present invention has a greater effect. Play.

These are sectional drawings which show an example of the arrangement | positioning state of the wiring protection member which concerns on this invention. These are top views which show an example of a wiring protection member. These are top views which show an example of the cross section of the connector which can be penetrated. These are sectional drawings which show an example of the state by which the connector and the harness were penetrated by the wiring protection member. These are sectional drawings which show an example of the wiring protection member which prevents damage to the connector and harness by sliding with the end surface of a flexible part. These are top views which show the other form of the cutting line of a wiring protection member.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wall surface 11 Wiring hole 2 Wiring protection member 21 Cutting line 22 Flexible part 23 Penetration possible area 31 Connector 32 Harness (wiring)

Claims (14)

A wiring protection member that protects the wiring when passing through the wiring connected to the end portion of the wiring through a predetermined size formed in the wall surface,
A plate-like elastic member that is larger than the size of the through-hole and has a peripheral portion attached to the outer peripheral surface of the through-hole in at least one of the wall surface on the through-source side and through-line side of the through-hole Consists of
The elastic member has a continuous cutting line to form a flexible portion that is a plurality of flexible regions,
The flexible portion generates a gap by being pressed by the connector and deflecting to the wire tip side when the connector passes through the wire hole,
The wiring protection member according to claim 1, wherein a position and a length of the cutting line are defined so as to generate the gap having a size through which the connector can penetrate.   The cutting line includes a cross section of the connector so that a cross section of the connector is included in a penetrable region inside a polygon generated by connecting the end points of the cutting line on the side away from the center with a line segment. The wiring protection member according to claim 1, wherein a position is defined.   The wiring protection member according to claim 1, wherein the elastic member is translucent or transparent.   The wiring protection member according to claim 1, wherein the elastic member has at least one of heat resistance and electrical insulation.   The wiring protection member according to claim 1, wherein the elastic member is made of resin.   The wiring protection member according to claim 5, wherein the elastic member is made of a polyester film.   The cutting line is formed so that the flexible portion exhibits an elastic restoring force capable of supporting the connector and the wiring in a vertical direction in a state where the connector is penetrated. The wiring protection member according to claim 6.   The wiring protection member according to claim 7, wherein the cutting line is formed line-symmetrically with respect to a vertical center line of the elastic member.   The cutting line is formed so that the flexible portion exhibits an elastic restoring force capable of supporting the connector and the wiring in the left-right direction in a state where the connector is penetrated. The wiring protection member according to claim 8.   The wiring protection member according to claim 9, wherein the cutting line is formed symmetrically with respect to a center line in the left-right direction of the elastic member. The cutting line is a line-shaped first cutting line along a vertical center line of the elastic member;
11. The wiring protection member according to claim 10, further comprising: a line-shaped second cutting line that is orthogonal to the first cutting line and has a midpoint on the first cutting line.   The wiring protection member according to claim 9, wherein the cutting line is formed point-symmetrically with respect to a center point of the elastic member.   The wiring protection member according to claim 12, wherein the cutting line includes a plurality of line-shaped third cutting lines formed radially with respect to a center point of the elastic member.   The wiring protection member according to any one of claims 1 to 13, wherein the flexible portion has a smooth end surface on the side in contact with the connector.

Images