JP4176666B2 - Wiring / piping material support and fixing member for wiring / piping material support - Google Patents

Description

  The present invention relates to a wiring / pipe material support that is fixed to a construction surface such as a ceiling surface or a wall surface in a double ceiling of a building and supports wiring or piping material by suspending or binding, and such wiring / piping. The present invention relates to a fixing member for a wiring / pipe material support that can be suitably used as a part of a material support.

Generally, in buildings, for example, wires such as electric wires and telephone lines, and piping materials such as electric pipes and water pipes are arranged in advance along the construction surface such as the ceiling surface and wall surface before hanging the double ceiling. . In this case, long-sized equipment materials such as wiring and piping materials are supported by being suspended and bound by a wiring / piping material support fixed to the construction surface. And as this conventional wiring and piping material support tool, there exist the technique of patent document 1 and patent document 2, for example.
JP-A-10-148276 Japanese Patent Laid-Open No. 11-22862

  The technology described in Patent Document 1 is a support tool for pipes and cables, and a temporary adhesive plate is provided on both sides of an adhesive plate that is bonded and fixed to a surface to be bonded via a connecting portion. A double-sided adhesive tape is attached to the adhesive surface, and the temporary adhesive plate is temporarily bonded to the adherend surface via the double-sided adhesive tape when the adhesive plate is bonded and fixed.

  The technique described in Patent Document 2 is a support for pipes and cables, and is provided with a filling hole penetrating up and down with respect to the adhesive plate, and the discharge port portion of the container of the adhesive container is filled with the filling hole. Then, the support is formed, and the container is crushed in a state where the adhesive plate is in close contact with the ceiling wall, and the adhesive inside is filled in the priority space formed by the adhesive plate and the ceiling wall.

  Here, the pipe / cable supports described in Patent Document 1 or Patent Document 2 are both fixed by adhering a resin adhesive plate to an adherend surface (mounting surface) such as a ceiling wall. The wiring and the piping material are supported by a support portion such as a hook integrally provided on the back surface (lower surface) of the adhesive plate.

  As described above, in the pipe and cable supports described in Patent Document 1 and Patent Document 2, the adhesive plate is made of a hard resin because it has sufficient strength to support the weight of wiring and piping materials. Is done. Therefore, when mounting these tube / cable supports on a mounting surface that is not flat, such as an uneven mounting surface or a curved mounting surface, the hard resin adhesive plate does not have sufficient flexibility. Therefore, it is not easy to bend or bend the adhesive plate according to the uneven shape or curved surface shape of the mounting surface. As a result, it has been difficult to mount the pipe and cable supports described in Patent Document 1 and Patent Document 2 on uneven mounting surfaces such as uneven mounting surfaces and curved mounting surfaces.

  Accordingly, the present invention provides a wiring / pipe material support that can be easily and smoothly attached and firmly fixed to a mounting surface having a non-flat surface such as a mounting surface with unevenness or a curved mounting surface, and It is an object of the present invention to provide a fixing member for a wiring / piping material support that can be suitably used as a component of such wiring / piping material support.

The wiring / pipe material support according to claim 1 is a wiring / pipe material support fixed to a ceiling surface or a wall surface so as to support the wiring / piping material, and is fixed to a mounting surface of the ceiling surface or the wall surface. A fixing portion having an abutting surface that abuts on the mounting surface, and a supporting portion capable of supporting the wiring / piping material. The fixing portion is uneven such as an uneven surface or a curved surface of the mounting surface to be fixed. It can be bent or bent to follow the surface. Furthermore, the contact surface of the fixed portion is an adhesive surface that is bonded to the mounting surface, and the fixed portion is bent or formed by forming a plurality of flexible grooves on the surface opposite to the contact surface. In addition to being bendable, a plurality of recesses are disposed on the contact surface in a plurality of thick portions formed between the plurality of flexible grooves in the fixed portion.

According to a second aspect of the present invention , in the wiring / pipe material support tool according to the first aspect , the flexible groove of the fixed portion includes a plurality of flexible grooves extending in one direction of the fixed portion so as to be parallel to each other.

According to a third aspect of the present invention, there is provided the wiring / piping material support according to the first aspect , wherein the flexible groove of the fixed portion is composed of a plurality of flexible grooves extending to intersect with each other in two different directions of the fixed portion.

A wiring / piping material support according to a fourth aspect of the present invention is the structure according to any one of the first to third aspects, wherein the support portion is a hanging portion that suspends the wiring / piping material.

The wiring / piping material support according to claim 5 is the structure according to any one of claims 1 to 3 , wherein the fixing portion has a rectangular flat plate shape, and a thick portion having a constant width is provided at a central portion in the length direction. In addition, the flexible groove is formed only in a portion other than the thick portion on the surface of the fixed portion opposite to the contact surface, and the support portion is formed on the contact surface in the thick portion of the fixed portion. Is connected to a connection portion integrally formed at substantially the center of the opposite surface.

Fixing member of the wiring and piping material support according to claim 6, a fixed member of the wiring and piping material support which is fixed to the ceiling surface or a wall surface so as to support the wiring and piping material, ceiling surface and the wall surface of the It has a contact surface that comes into contact with the mounting surface when it is fixed to the mounting surface, and can be bent or curved to follow a non-flat surface such as an uneven surface or a curved surface of the mounting surface to be fixed. . Further, the contact surface is an adhesive surface bonded to the mounting surface, and can be bent or bent by forming a plurality of flexible grooves on the surface opposite to the contact surface. A plurality of recesses are arranged on the contact surface in a plurality of thick portions formed between the plurality of flexible grooves.

The wiring / pipe material support according to claim 1 is fixed to the mounting surface by bonding the entire adhesive surface as the contact surface of the fixing portion to the mounting surface, and supports the wiring and the piping material by the support portion. be able to. Here, even when the mounting surface has a non-flat surface such as an uneven surface or a curved surface, the fixing portion follows the non-flat surface of the mounting surface to be fixed, bent or Since it bends, it can be fixed in a state where the entire contact surface of the fixing portion is in close contact with the mounting surface easily and reliably. As a result, the wiring / piping material support according to claim 1 can be easily and smoothly attached and firmly fixed to an attachment surface having a non-flat surface such as an uneven attachment surface or a curved attachment surface. it can. That is, the conventional wiring / piping material support is made of hard resin and therefore lacks flexibility. When the mounting surface such as the ceiling surface is a non-flat surface, the entire adhesive surface can follow the non-flat surface. However, a part of the bonding surface may be separated from the mounting surface. Therefore, conventionally, in order to fill such a separation portion between the adhesion surface and the attachment surface, it has been necessary to apply a thick adhesive to the adhesion surface at the separation portion. However, in the wiring / piping material support according to claim 1, the entire fixing portion has flexibility in the thickness direction, and the abutment surface of the fixing portion is easily and smoothly set to the non-flat surface of the mounting surface. Since the contact surface of the fixed part is used as an adhesive surface, it is not necessary to apply a thick adhesive to a part of the adhesive surface (contact surface). What is necessary is just to apply | coat an adhesive agent uniformly. Further, in this case, the application area of the adhesive can be increased as compared with the conventional wiring / piping material support.

Further, the wiring / pipe material support tool according to claim 1 is configured such that the fixed portion is formed in the thickness direction (any thickness direction) by a plurality of flexible grooves formed on the surface opposite to the contact surface of the fixed portion. (Even in the direction) can be easily bent or curved.

In addition, the wiring / pipe material support tool according to claim 1 can sufficiently secure a bonding area such as a bonding area of the contact surface as compared with a case where a plurality of flexible grooves of the fixed portion are formed on the contact surface. In addition, in the case of bonding by bonding, a sufficient amount of adhesive can be secured, and the fixing force of the fixing portion to the mounting surface can be increased.

In the wiring / piping material support according to the first aspect, the contact surface of the fixing portion is bonded and fixed to the mounting surface as an adhesive surface. That is, the entire abutting surface of the fixing portion is fixed to the mounting surface via an adhesive, and at this time, the fixing portion follows the non-flat surface of the mounting surface and bends or curves. The entire contact surface of the fixing portion can be fixed via an adhesive in a state where the entire contact surface is in close contact with the mounting surface easily and reliably.

In the wiring / piping material support according to claim 1, when the adhesive surface as the contact surface of the fixed portion is bonded to the mounting surface, the adhesive is applied to the plurality of concave portions formed on the contact surface of the fixed portion. Can be filled. As a result, it is possible to further increase the fixing force of the fixing portion to the mounting surface by increasing the adhesion area of the fixing portion to the mounting surface and increasing the adhesive force. On the other hand, since the plurality of concave portions of the fixing portion are arranged in the plurality of thick portions formed between the plurality of flexible grooves on the contact surface of the fixing portion, the thickness of the concave portion forming portion of the fixing portion is small. It is possible to prevent problems due to being too much, for example, strength reduction.

In the wiring / piping material support according to claim 2 , the fixing portion can be bent or bent in a direction orthogonal to one direction in which the plurality of flexible grooves extend. For example, when the fixed part is a rectangular flat plate and the flexible groove extending in one direction of the fixed part is a plurality of flexible grooves extending in the width direction of the fixed part on the side surface in the thickness direction of the fixed part, the fixed part is , Bendable or bendable in the length direction.

In the wiring / piping material support according to claim 3 , the fixing portion can be bent or bent in two directions (that is, the original two directions) orthogonal to the two directions in which the plurality of flexible grooves extend. For example, when the fixed part is a rectangular flat plate, and the flexible groove extending in two directions of the fixed part is a plurality of flexible grooves extending in the width direction and the length direction of the fixed part on the side surface in the thickness direction of the fixed part. The fixing portion can be bent or bent in both the length direction and the width direction. Furthermore, the fixing portion can be bent or bent to some extent also in an oblique direction (for example, a diagonal direction) along the surface direction. Therefore, the wiring / piping material support according to the fifth aspect has great flexibility in two directions and also flexibility in other directions. As a result, the wiring / pipe material support tool according to claim 5 has the fixing portion even when the non-flat surface of the mounting surface is a surface that is bent or curved vertically or horizontally, or is uneven in the length and width. It can be easily and smoothly attached to the complicated non-flat surface shape and firmly fixed.

The wiring / piping material support according to claim 4 can suspend and support the wiring and the piping material by the hanging portion as the supporting portion.

The wiring / pipe material support according to claim 5 is such that the support portion, which is a portion that supports the weight of the wiring or piping material to be supported, is connected to the connection portion formed integrally with the thick portion of the fixed portion. It is possible to effectively prevent problems such as deformation of the connection part of the fixed part or peeling from the mounting surface due to the load accompanying the support of the support part, and to reliably support the wiring and piping material it can.

The fixing member for the wiring / piping material support according to claim 6 can be suitably used as a fixing portion which is one of the main components of the wiring / piping material support according to claim 1.

  The best mode for carrying out the present invention (hereinafter referred to as an embodiment) will be described below. Throughout each embodiment, the same members, elements, or parts are denoted by the same reference numerals, and the description thereof is omitted.

Embodiment 1
FIG. 1 is a perspective view showing a usage state of the wiring / pipe material support according to Embodiment 1 of the present invention as seen from the plane side (lower surface side). FIG. 2 is a plan view (top view) showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. FIG. 3 is a front view showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. FIG. 4 is a bottom view (bottom view) showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. 5 is a cross-sectional view taken along line AA in FIG. 6 is a cross-sectional view taken along line BB in FIG. FIG. 7 is a front view showing a state in which the wiring / pipe material support according to Embodiment 1 of the present invention is attached to a convex curved surface as a non-flat attachment surface. FIG. 8 is a front view showing a state in which the wiring / pipe material support according to Embodiment 1 of the present invention is attached to a concave curved surface as a non-flat attachment surface.

  The wiring / pipe material support according to the first embodiment is a wiring / pipe material support fixed to a ceiling surface or the like so as to support the wiring / pipe material disposed in a double ceiling or the like. As shown in FIG. 1, the wiring / piping material support includes a fixed portion 10 and a support portion 20. As shown in FIG. 2, the fixed portion 10 has a rectangular flat plate shape, and one side surface in the thickness direction is a contact surface 11. As shown in FIG. 7 or FIG. 8, the abutment surface 11 of the fixing portion 10 is a surface that abuts the attachment surface S when it is fixed to the attachment surface S such as a ceiling surface or a wall surface.

  In the wiring / piping material support according to the first embodiment, the fixing portion 10 can be bent or bent so as to follow a non-flat surface such as an uneven surface or a curved surface of the mounting surface S to be fixed. Specifically, as shown in FIGS. 3 and 4, the fixing portion 10 can be bent or bent by forming a large number of flexible grooves 13 on the surface 12 opposite to the contact surface 11. Each flexible groove 13 is a linear flexible groove having a substantially V-shaped cross section extending in the width direction of the fixed portion 10. Further, the multiple flexible grooves 13 are arranged in parallel to each other at a constant interval in the length direction of the fixed portion 10. On the other hand, the flexible groove 13 is formed only on both side portions leaving a constant width portion at the center in the length direction of the fixed portion 10. That is, the constant width portion at the center in the length direction of the fixed portion 10 is a narrow rectangular plate-like thick portion 14 in which the flexible groove 13 is not formed.

  Here, as the arrangement interval of the flexible grooves 13 is narrowed and the number of the flexible grooves 13 is increased, the bendability and the bendability (flexibility) of the fixing portion 10 are improved, and the non-flat surface is formed. Followability can be improved. In addition, as the depth of the flexible groove 13 is increased and the thickness of the fixed portion 10 at the apex portion of the flexible groove 13 is reduced, the flexibility and bendability (flexibility) of the fixed portion 10 are improved. Thus, the followability to a non-flat surface can be improved. On the other hand, in these cases, the strength of the fixing portion 10 may be reduced. Therefore, it is preferable to set the number and the formation depth of the flexible grooves 13 within a range in which the necessary strength of the fixed portion 10 can be secured.

  A connecting portion 15 is integrally formed at the center of the thick portion 14 so as to protrude. As shown in FIGS. 5 and 6, the connection portion 15 is an annular member having an insertion hole that penetrates the fixing portion 10 in the width direction. The connecting portion 15 is formed so as to extend over the entire width of the thick portion 14. The support portion 20 is a string-like member that is connected to the fixing portion 10 by being inserted through the insertion hole of the connection portion 15, and constitutes a suspension portion that can be suspended and supported by binding the wiring / pipe material P. is doing. As shown in the figure, the support part 20 can be connected to the connection part 15 with the central part arranged on the connection part 15 of the fixing part 10, or the end part can be fixed to the connection part 15 by binding or the like. It is also possible to connect them. The support portion 20 can be attached to the connection portion 15 of the fixed portion 10 and can be formed of any string-like, long-shaped material, or linear material as long as the wiring / pipe material P can be supported. On the other hand, the thick-walled portion 14 portion of the abutment surface 11 of the fixed portion 10 is provided with a central recess 16 for engraving with a predetermined depth having a planar rectangular shape having a width substantially the same as the width of the thick-walled portion 14. It is formed leaving a certain gap at both ends in the length direction of the meat portion 14 (width direction of the fixed portion 10). In addition, a large number of small concave portions 17 are formed at a uniform arrangement density in a portion other than the central concave portion 16 of the contact surface 11 of the fixed portion 10.

  That is, the small concave portions 17 are in a matrix shape (rectangular lattice shape) in the vertical and horizontal directions (length direction and width direction) of the fixed portion 10 at both side portions in the length direction of the fixed portion 10 (portions other than the thick portion 14). Many are arranged at regular intervals. The small recesses 17 are also formed at regular intervals on both ends in the length direction of the central recess 16 in the thick portion 14. Each small recess 17 is substantially hemispherical with a predetermined depth and has a circular outer shape. At both side portions in the length direction of the fixed portion 10, a large number of small recesses 17 are respectively arranged in the center in the width direction of a large number of thick portions formed between the large number of flexible grooves 13 in the fixed portion 10 (FIG. 5). Further, in the thick portion 14 of the fixed portion 10, the small concave portions 17 are arranged in the thick portions on both ends in the length direction of the central concave portion 16 (see FIG. 6). That is, each small concave portion 17 is formed in the thickest portion of the fixed portion 10.

The contact surface 11 of the fixing portion 10 is an adhesive surface that is fixed to the mounting surface S by bonding . That is, for example, the fixing portion 10 applies a uniform adhesive to the entire contact surface 11 as an adhesive surface, presses and holds the adhesive on the mounting surface S, and cures the adhesive, thereby fixing the predetermined position on the mounting surface S. Fixed to. In this case, one adhesive surface of the double-sided pressure-sensitive adhesive tape is preliminarily adhered to the outer peripheral edge portion of the contact surface 11 of the fixed portion 10, and the adhesive is applied to the contact surface 11 other than the double-sided pressure-sensitive adhesive tape. The other adhesive surface of the double-sided pressure-sensitive adhesive tape can be temporarily held by sticking to the mounting surface S, and the position of the fixing portion 10 can be reliably held until the adhesive is cured. Alternatively, for example, the fixing portion 10 is preliminarily coated with a hot melt adhesive on the entire contact surface 11 as an adhesive surface, and the hot melt adhesive is heated and softened at the time of mounting, and then pressed against the mounting surface S. It can also be fixed to the mounting surface S by holding and curing.

  Here, the small recess 17 functions to increase the bonding area and the adhesive capacity of the contact surface 11 by filling the internal space with the adhesive or the hot melt adhesive. Therefore, as the depth of the small concave portion 17 is increased, the bonding area and the adhesive capacity of the contact surface 11 of the fixing portion 10 are increased, and the bonding strength of the fixing portion 10 to the mounting surface S is increased. be able to. On the other hand, if the depth of the small concave portion 17 is excessively increased, the strength of the fixing portion 10 may be lowered. Therefore, the depth of the small concave portion 17 is set within a range in which the necessary strength of the fixing portion 10 can be ensured. It is preferable to do. Although the central recess 16 is for marking, it functions as a recess to fill the inner space with the adhesive or hot melt adhesive to increase the adhesive area and adhesive capacity of the contact surface 11. Therefore, the depth of the central recess 16 can also be set large within a range in which the required strength of the fixing portion 10 can be secured, as in the case of the small recess 16.

  The fixing portion 10 of the first embodiment is integrally formed into the shape having the connecting portion 15 and the like by injection molding or the like of a resin such as a flame retardant ABS resin or other hard resin material. Then, by attaching the support portion 20 to the connection portion 15 of the fixed portion 10, the wiring / pipe material support tool of the first embodiment is completed.

  Next, the installation method and usage method, operation, and effect of the wiring / pipe material support configured as described above will be described.

The wiring / piping material support according to the first embodiment is arranged and fixed at a desired position on the mounting surface S of the building. For example, in the wiring / piping material support, as described above, the adhesive is uniformly applied to the entire surface of the contact surface 11 of the fixing portion 10, and the fixing portion 10 is held in pressure contact with the mounting surface S to cure the adhesive. By doing so, the contact surface 11 of the fixing portion 10 is bonded to the mounting surface S and fixed at a predetermined position. The wiring / pipe material support can be supported by suspending the wiring or the piping material P by binding the support portion 20 after the fixing portion 10 is bonded and fixed to the mounting surface S. Here, even when the mounting surface S has a non-flat surface such as an uneven surface or a curved surface, the fixing portion 10 follows the non-flat surface of the mounting surface S to be fixed. Then, since it bends or curves, the entire abutting surface 11 of the fixing portion 10 can be fixed in an easy and reliable manner in close contact with the mounting surface S. That is, the wiring / pipe material support according to the first embodiment has the fixing portion 10 in any thickness direction by the large number of flexible grooves 13 formed on the surface opposite to the abutting surface 11 of the fixing portion 10. It becomes possible to bend or bend easily in the direction. Specifically, the fixed portion 10 can be bent or bent in a direction (length direction) orthogonal to the width direction in which the plurality of flexible grooves 13 extend.

  For example, as shown in FIG. 7, when the mounting surface S is a non-flat surface made of a convex curved surface, first, the central portion in the length direction of the fixing portion 10 (corresponding to the thick portion 14) is used as the mounting surface S. After the contact, both ends in the length direction of the fixing portion 10 are pressed toward the mounting surface S. Then, the flexible groove 13 of the fixing portion 10 is opened, and the fixing portion 10 can be easily bent into a shape corresponding to the convex curved shape of the mounting surface S. On the other hand, as shown in FIG. 8, when the mounting surface S is a non-flat surface formed of a concave curved surface, first, the both ends of the fixing portion 10 in the length direction are brought into contact with the mounting surface S, and then the fixing portion 10. The central portion in the length direction (the portion corresponding to the thick portion 14) is pressed toward the mounting surface S. Then, the flexible groove 13 of the fixing portion 10 is narrowed, and the fixing portion 10 can be easily bent into a shape corresponding to the concave curved surface shape of the mounting surface S. Although not shown, even when the mounting surface S is a non-flat surface made of an uneven surface, the fixing portion 10 is pressed by pressing the entire fixing portion 10 toward the non-flat surface (uneven surface) of the mounting surface S. The flexible groove 13 opens at the convex portion of the non-flat surface and narrows at the concave portion, so that the fixing portion 10 can be easily curved into a shape corresponding to the concave-convex shape of the mounting surface S.

  In this way, the wiring / pipe material support according to Embodiment 1 has the mounting surface because the entire contact surface 11 of the fixing portion 10 is closely bonded and fixed to the mounting surface S via the adhesive. It is firmly fixed to S and does not fall off from the mounting surface S due to the suspended weight of the wiring and the piping material P. As a result, the wiring / pipe material support according to the first embodiment can be easily and smoothly attached to the attachment surface S having a non-flat surface such as the uneven attachment surface S or the curved attachment surface S. Can be fixed. That is, since the conventional wiring / pipe material support is made of hard resin, it lacks flexibility, and when the mounting surface S such as the ceiling surface is a non-flat surface, the entire adhesive surface follows the non-flat surface. There is a possibility that a part of the adhesive surface is separated from the mounting surface S. Therefore, conventionally, in order to fill the separation portion between the adhesion surface and the attachment surface S, it is necessary to apply a thick adhesive to the adhesion surface at the separation portion. However, in the wiring / pipe material support according to the present embodiment, the entire fixing portion 10, 110 has flexibility in the thickness direction, and the bonding surface (contact surface 11, 110) of the fixing portion 10 110. 111) can follow the non-flat surface of the mounting surface S easily and smoothly completely (closely), so that an adhesive is applied to a part of the bonding surface (abutment surface 11, 111) of the fixing portion 10, 110. It is not necessary to apply thickly, and the adhesive may be applied uniformly over the entire surface. Moreover, compared with the conventional wiring and piping material support tool, the application area of the adhesive can be increased. In addition, since the wiring / pipe material support according to Embodiment 1 has a large number of flexible grooves 13 of the fixing portion 10 formed on the surface 12 opposite to the contact surface 11, the contact surface 11 is bonded. A sufficient area can be secured, and a sufficient amount of adhesive can be secured, so that the fixing force of the fixing portion 10 to the mounting surface S can be increased.

  Furthermore, the wiring / pipe material support according to the first embodiment is formed on the contact surface 11 of the fixed portion 10 when the adhesive surface as the contact surface 11 of the fixed portion 10 is bonded to the mounting surface S. The small concave portion 17 and the central concave portion 16 can be filled with an adhesive. As a result, it is possible to further increase the fixing force of the fixing portion 10 to the attachment surface S by increasing the adhesion area of the fixing portion 10 to the attachment surface S and increasing the adhesion force. On the other hand, the large number of small recesses 17 of the fixed part 10 are arranged at regular intervals in the large thickness part and the thick part 14 formed between the large number of flexible grooves 13 on the contact surface 11 of the fixed part 10. Since it is arranged, it is possible to prevent problems due to the thickness of the portion where the small concave portion 17 is formed in the fixing portion 10 becoming too small, for example, a decrease in strength. Similarly, the central concave portion 16 of the fixing portion 10 is also arranged at a constant arrangement interval in the thick portion 14 on the contact surface 11 of the fixing portion 10, so that the thickness of the central concave portion 16 forming portion of the fixing portion 10 is small. It is possible to prevent problems caused by becoming too much. In addition, in the wiring / pipe material support according to the first embodiment, the support portion 20 that is a portion that supports the weight of the wiring or the piping material P as a support target is integrally formed with the thick portion 14 of the fixed portion 10. Therefore, it is possible to effectively prevent problems such as the connection portion 15 of the fixing portion 10 being deformed or peeled off from the mounting surface S due to the load accompanying the support of the support portion 20. The wiring and the piping material P can be reliably supported.

Embodiment 2
FIG. 9 is a plan view (top view) showing a fixing portion of the wiring / piping material support according to Embodiment 2 of the present invention. FIG. 10 is a side view showing a state in which the wiring / piping material support according to Embodiment 2 of the present invention is viewed from the direction C in FIG. 11 is a cross-sectional view taken along the line DD of FIG.
The wiring / pipe material support according to the second embodiment includes a plurality of flexible grooves (two types of flexible grooves 113) extending so that the flexible grooves 113 of the fixed portion 110 intersect with each other in two different directions along the surface direction of the fixed portion. Flexible grooves 113a, 113b). Specifically, the fixed portion 110 has a rectangular flat plate shape similar to that of the first embodiment, while the surface 112 on the opposite side of the contact surface 111 of the fixed portion 110 has a constant interval in the length direction of the fixed portion 110. A plurality of first flexible grooves 113a arranged in parallel with each other, and a plurality of second flexible grooves 113b arranged in parallel with each other at a constant interval in the width direction of the fixing portion 110, Is formed. Each first flexible groove 113a is a substantially V-shaped straight flexible groove extending in the width direction of the fixed portion 110, and each second flexible groove 113b is a cross section extending in the length direction of the fixed portion 10. It is a substantially V-shaped linear flexible groove. Accordingly, the first flexible groove 113a and the second flexible groove 113b extend on the contact surface 111 of the fixing portion 110 so as to extend perpendicular to each other in both the width direction and the length direction of the fixing portion 110. The formed flexible grooves 113 in the form of a square lattice are formed.

  Further, the flexible groove 113 is formed in all parts other than the connection part 15 of the fixing part 110. That is, the fixed portion 110 is not provided with the narrow rectangular plate-like thick portion 14 where the flexible groove 13 is not formed as in the first embodiment, and only the portion corresponding to the connection portion 15 is small. It is a rectangular thick part. However, as in the first embodiment, the fixed-width portion at the center in the length direction of the fixed portion 110 is a thick rectangular portion having a narrow rectangular plate shape in which the flexible groove 113 is not formed, and the flexible groove 113 is fixed to the fixed portion. It can also be formed only on both side portions other than the thick portion 110.

  On the other hand, the central concave portion as in the first embodiment is not formed in the thick portion corresponding to the connection portion 15 in the contact surface 111 of the fixed portion 110, and the entire contact surface 111 of the fixed portion 110 is not formed. Many small concave portions 17 are formed with a uniform arrangement density. That is, in the second embodiment, a large number of small recesses 17 are arranged at regular intervals on the entire surface of the contact surface 111 so as to form a matrix shape (rectangular lattice shape) in the vertical and horizontal directions (length direction and width direction) of the fixed portion 110. Has been. Furthermore, a large number of small recesses 17 are respectively arranged at the centers of a large number of small square-shaped thick portions formed between the large number of flexible grooves 113a and 113b in the fixing portion 110 (see FIG. 11). That is, each small recess 17 is formed in the thickest part of the fixed part 110.

  Therefore, in the wiring / piping material support according to the second embodiment, the fixing portion 110 is bent or curved in two directions (that is, the original two directions) orthogonal to the two directions in which the multiple flexible grooves 113a and 113b extend. Be free. That is, since the fixing part 110 has a rectangular flat plate shape and the flexible grooves 113a and 113b extend in the width direction and the length direction of the fixing part 110, the fixing part 110 is bent in both the length direction and the width direction. Or bend freely. Furthermore, the fixing portion 110 can be bent or bent to some extent also in an oblique direction (for example, a diagonal direction) along the surface direction. Therefore, the wiring / pipe material support according to the second embodiment is not flexible in one direction as the wiring / pipe material support according to the first embodiment, but is greatly flexible in two directions (length direction and width direction). And has flexibility in other directions as well. As a result, the wiring / piping material support according to Embodiment 2 is fixed even when the non-flat surface of the mounting surface S is a surface that is bent or curved vertically or horizontally, or has a shape that is uneven vertically and horizontally. The portion 110 can be easily and smoothly attached to the complicated non-flat surface shape and firmly fixed.

  By the way, in the first and second embodiments, as a specific configuration in which the fixing portions 10 and 110 can be bent or bent so as to follow the non-flat surface of the mounting surface S, for example, the fixing portions 10 and 110 are provided. Although a configuration in which a large number of flexible grooves 13 and 113 are formed on the side surface in the thickness direction is adopted, in the present invention, the fixing portion is bent or bent to follow the shape of the non-flat surface of the mounting surface S. Of course, it is possible to adopt a configuration other than the flexible grooves 13 and 113 as long as it can be bent.

  Further, as the side surface in the thickness direction of the fixing portions 10 and 110 forming the plurality of flexible grooves 13 and 113, the surface 12 opposite to the contact surfaces 11 and 111 may be the contact surface 11 and 111. This is preferable from the viewpoint of securing a bonding area such as a bonding area of 111. However, the fixing portion can be bent or bent by forming a large number of flexible grooves 13 and 113 in the contact surfaces 11 and 111 instead of the surfaces 12 and 112 opposite to the contact surfaces 11 and 111. You can also. Alternatively, the fixed portion can be bent or bent by forming a large number of flexible grooves 13 and 113 on both the contact surfaces 11 and 111 and the surface 12 opposite to the contact surface.

  Furthermore, in the first embodiment, the plurality of flexible grooves 13 formed in the fixing portion 10 extend in the width direction of the rectangular plate-like fixing portion 10, but in the present invention, along the surface direction of the fixing portion. As long as it extends in parallel in one direction, a number of flexible grooves extending in one other direction can be provided. For example, when the fixed portion is a rectangular flat plate, the flexible grooves extending in one direction of the fixed portion are parallel to each other in the diagonal direction such as the length direction or diagonal direction of the fixed portion on the side surface in the thickness direction of the fixed portion. There can be multiple flexible grooves extending. In the second embodiment, the plurality of flexible grooves 113 formed in the fixed portion 110 extend in both the width direction and the length direction of the rectangular plate-shaped fixed portion 110. As long as the two grooves extend in two different directions along the surface direction of each other, a plurality of flexible grooves extending in other directions can be formed. For example, a plurality of flexible grooves extending in two different directions of the fixed portion are formed on a side surface in the thickness direction of the fixed portion, and the plurality of flexible grooves extend so as to intersect with each other in one diagonal direction and the other diagonal direction of the fixed portion. A rhombus-like flexible groove) can also be used.

  Or in this invention, many flexible grooves formed in a fixing | fixed part are many flexible grooves extended mutually crossing in many directions, such as three different directions or four different directions, for example along the surface direction of a fixing | fixed part. It can also be done. Further, a large number of flexible grooves extending in two different directions, three different directions, or four different directions of the fixing portion may be provided on the side surface in the thickness direction of the fixing portion, and may be extended in the width direction and / or the length direction of the fixing portion. Various combinations of flexible grooves and a large number of flexible grooves extending in one diagonal direction and / or the other diagonal direction of the fixing portion can be used. In this case, for example, when the multiple flexible grooves of the fixed portion are multiple flexible grooves extending in multiple directions such as three or four different directions, the fixed portion has a large number orthogonal to the multiple directions. It can be bent or bent in the direction. Furthermore, the wiring / pipe material support according to the present invention can fix the fixing portion to the attachment surface S by means other than an adhesive (for example, a nail material).

Embodiment 3
FIG. 12 is a front view showing an installation method of a wiring / pipe material support when the wiring / pipe material support according to Embodiment 3 of the present invention is attached to a convex curved surface as a non-flat mounting surface; a) shows a state when the fixing portion is not heated, (b) shows a state where the fixing portion is softened, and (c) shows a state where the fixing portion is bonded to the mounting surface.
As shown in FIG. 12, the wiring / piping material support according to the third embodiment has the same configuration as that of the wiring / piping material support according to the first embodiment, and includes a fixing portion 10 and a supporting portion 20. ing. On the other hand, a hot melt type adhesive (hot melt type adhesive) is applied and formed on the contact surface 11 of the fixed portion 10 to constitute an adhesive layer 200. And the fixing | fixed part 10 is softened with the heat | fever melting of the adhesive bond layer 200 which consists of a hot-melt-type adhesive agent, and it follows corresponding to non-flat surfaces, such as the uneven surface of the said attachment surface, and a curved surface. It can be bent or bent as much as possible. Specifically, the wiring / piping material support according to Embodiment 3 has a specific configuration for softening the fixing portion 10 at a temperature in the vicinity of the melting temperature range of the adhesive layer 200 made of a hot-melt adhesive. As in the first and second embodiments, a large number of flexible grooves 13 are formed on the surface of the fixed portion 10 opposite to the contact surface 11. The flexible groove 13 of the fixing part 10 maintains the rigidity of the fixing part 10 when the fixing part 10 is not heated, and when the fixing part 10 is heated to a temperature near the melting temperature range of the hot-melt adhesive. It has the shape and dimension which make the fixing | fixed part 10 a flexible state. Specifically, each flexible groove 13 of the fixed portion 10 is a linear flexible groove having a substantially V-shaped cross section extending in the entire width direction of the fixed portion 10, as in the first embodiment. The flexure grooves 13 are arranged so as to be parallel to each other at regular intervals in the length direction of the fixed portion 10. Furthermore, each flexible groove 13 has a depth of about 70% with respect to the thickness of the fixed portion 10. The width of each flexible groove 13 is reduced when the fixing portion 10 is fixed to the attachment surface S when the attachment surface S is a concave surface (in the case shown in FIG. 8). For example, the width may be about 120% of the thickness of the fixed portion 10. Moreover, the some flexible groove | channel 13 can be arrange | positioned in parallel mutually with the arrangement space | interval of about twice the thickness of the fixing | fixed part 10, for example. Furthermore, in this case, the fixing portion 10 can be formed of, for example, hard polyvinyl chloride (PVC).

  Here, the hot-melt adhesive of the adhesive layer 200 is a resin solder type adhesive based on a thermoplastic resin, and is ethylene-vinyl acetate (EVA), ethylene-ethyl acrylate (EEA). Most of them are polyester, thermoplastic rubber, thermoplastic ethylene-propylene (EP), polyamide (PA), poly (ethylene terephthalate) (PET), polyurethane (PU), etc. is there. The hot melt adhesive of the adhesive layer 200 is melted by heat from a heating means such as a gas burner at a predetermined heating temperature (for example, about 140 to 180 ° C.) according to the material, and is applied to the adherend. Adhesive strength is developed in a short time by solidifying by cooling after application. In addition, as a hot-melt-type adhesive agent, the thing of arbitrary shapes, such as plate shape, chip shape, powder shape, string shape, tape shape, can be used. On the other hand, the fixing portion 10 is formed of a material so as to be softened by heat transfer from the adhesive layer 200 to be melted when the adhesive layer 200 made of the hot-melt adhesive is heated by a heating means such as a gas burner. The shape and dimensions of the flexible groove 13 are set. For example, as a material for forming the fixing portion 10, acrylonitrile-butadiene-styrene (ABS) resin and other resin materials can be used in addition to the hard polyvinyl chloride resin. Further, a resin material obtained by adding various functions such as flame retardancy to a predetermined resin material, or a resin material obtained by mixing reinforcing fibers such as glass fiber and carbon fiber can be used. However, in the case of a flame retardant resin or fiber reinforced plastic (FRP), the softening temperature or the heat deformation temperature rises, so that the fixing portion 10 is softened by heat transfer accompanying the melting of the hot melt adhesive. It is preferable to set the material appropriately.

Next, the installation method, operation, and effect of the wiring / pipe material support according to the third embodiment will be described.
The wiring / pipe material support according to the third embodiment is installed and fixed on the attachment surface S as follows. That is, first, as shown in FIG. 12A, a commercialized wiring / piping material support (non-heated state) is prepared at a construction site that supports the wiring / piping material. Next, as shown in FIG. 12B, the adhesive layer 200 of the wiring / piping material support is heated and melted by the flame F of a heating means such as a gas burner. Then, the fixing portion 10 is softened from the contact surface 11 side portion by heat transfer accompanying melting of the adhesive layer 200 made of a hot-melt adhesive. At this time, a large number of flexible grooves 13 are formed on the surface of the fixed portion 10 opposite to the contact surface 11, and the portion of the fixed portion 10 on the contact surface 11 side is thinned by the flexible groove 13 portion. Therefore, the fixing portion 10 is softened or thermally deformed to be in a flexible state, and can be easily bent or bent to follow a non-flat surface such as an uneven surface or a curved surface of the mounting surface S. And as shown in FIG.12 (c), the contact surface 11 of the fixing | fixed part 10 in the said flexible state is made into the surface shape (concave shape) corresponding to the surface shape (convex shape in FIG. 12) of the attachment surface S. The adhesive layer 200 is bonded and fixed to the mounting surface S. Thereby, after the adhesive layer 200 is cooled and solidified, the entire contact surface 11 of the fixing portion 10 is adhered and fixed evenly and closely to the mounting surface S via the adhesive layer 200, and the wiring according to the third embodiment The piping material support is firmly fixed to the mounting surface S by the fixing portion 10.

  As described above, the wiring / pipe material support according to the third embodiment is not attached to the fixing surface 10 even when the mounting surface S has a non-flat surface such as an uneven surface or a curved surface. When the adhesive layer 200 made of the hot melt adhesive formed on the contact surface 11 is heated and melted for bonding, the fixing portion 10 is near the melting temperature range of the hot melt adhesive by heat transfer from the adhesive layer 200. The temperature of the hot melt adhesive is melted and softened with heat. Since the fixing portion 10 follows the non-flat surface of the mounting surface S to be fixed and bends or curves, the entire abutting surface 11 of the fixing portion 10 is easily and reliably brought into close contact with the mounting surface S. It can be fixed in the state of being let. As a result, the wiring / pipe material support according to the third embodiment can be easily and smoothly attached to the attachment surface S having a non-flat surface such as the uneven attachment surface S or the curved attachment surface S. Can be fixed. Further, the wiring / pipe material support according to the third embodiment smoothes the fixing portion 10 not only on the ceiling surface or the wall surface as the attachment surface S but also on the attachment surface having a large curvature such as the tube material surface. And it can be firmly installed and fixed. That is, for example, the surface of the tube material usually has a larger curvature than the ceiling surface or wall surface, but even in this case, the fixing portion 10 is sufficiently heated and softened when the adhesive layer 200 is melt-bonded. The fixing portion 10 can be greatly bent corresponding to the curvature of the tube surface. Therefore, the entire surface of the fixed portion 10 on the abutting surface 11 side can be adhered and adhered to the mounting surface S such as a pipe surface having a large curvature, and the wiring / pipe material support can be smoothly and firmly attached to the mounting surface S. It can be adhesively fixed.

  Here, as described in the first embodiment, the flexible groove 13 of the fixing portion 10 is not less than a predetermined amount in the direction in which the user bends or curves the fixing portion 10 by hand or the like even by the presence of the flexible groove 13 itself. By applying an external force, the fixing portion 10 can be bent or bent freely. On the other hand, depending on the material and thickness of the fixed portion 10 and the number and shape of the flexible grooves 13, it may be possible to apply a certain amount of external force to bend the fixed portion 10. However, since the wiring / pipe material support according to the third embodiment has the adhesive layer 200 made of a hot-melt adhesive on the contact surface 11 side of the fixed portion 10, the depth of the flexible groove 13 is increased. Even when the rigidity of the fixing portion 10 is increased by reducing the height of the fixing portion 10, the fixing portion 10 is sufficiently formed by the portion of the flexible groove 13 by utilizing heat transfer accompanying heating and melting of the adhesive layer 200 when installed on the mounting surface S. Thus, the fixing portion 10 can be easily bent or bent. That is, the flexible groove 13 of the fixing portion 10 has a shape and a size that maintain the rigidity of the fixing portion when the fixing portion 10 is not heated, and therefore, particularly after the bonding of the fixing portion 10 to the mounting surface S, When the wiring / pipe material is supported on the fixing member 20, the fixing part 10 is deformed by a load from the supporting part 20 and is prevented from being detached from the mounting surface S. On the other hand, the flexible groove 13 of the fixed portion 10 is heated when the fixed portion 10 is heated to a temperature near the melting temperature range of the adhesive layer 200 (usually below the melting temperature range) by heat transfer from the adhesive layer 200. The shape and dimensions of the fixing portion 10 are in a flexible state, and the fixing portion 10 is surely softened to the mounting surface S as the adhesive layer 200 is heated and melted when the fixing portion 10 is bonded to the mounting surface S. The attaching operation can be facilitated, and the contact surface 11 of the fixed portion 10 can be surely matched with the surface shape of the attaching surface S.

  In the wiring / pipe material support according to Embodiment 3, the fixing portion 10 is softened as the adhesive layer 200 made of a hot-melt adhesive is heated and melted, and the uneven surface of the mounting surface S to be fixed. Any other configuration can be adopted as long as it can be bent or bent to follow a non-flat surface such as a curved surface. For example, the depth of the flexible groove of the fixed portion 10 can be a depth in the range of about 50 to 80% with respect to the thickness of the fixed portion 10. In addition, the cross-sectional shape of the flexible groove of the fixed portion 10 can be a substantially tapered shape including an arbitrary tapered shape such as a substantially V-shaped cross-section or a tapered shape whose entire surface is curved. Further, the flexible groove of the fixed portion 10 can be formed on the abutting surface 11 side in addition to being formed on the surface opposite to the abutting surface 11 of the fixed portion 10. In addition to the flexible groove extending in one direction of the fixed portion 10, the flexible groove of the fixed portion 10 may be a plurality of flexible grooves extending in a plurality of directions such as two or three directions. it can. In these cases, when the fixing portion 10 is not heated, the rigidity of the fixing portion 10 is more reliably maintained, and when the fixing portion 10 is heated to a temperature near the melting temperature range of the adhesive layer 200, the fixing portion 10 is further layered. It can be easily made flexible.

  Alternatively, by providing the fixing portion 10 with a flexible groove having the shape and dimensions as described above, the fixing portion 10 can be made flexible by heating and melting the adhesive layer in addition to the fixing portion 10 by other configurations. The adhesive layer 200 may be softened as it is heated and melted. For example, by appropriately selecting a material for forming the fixing portion 10, the fixing portion 10 has sufficient rigidity in a non-heated state due to the physical properties of the material itself, while being softened by heat transfer during heating of the adhesive layer 200. In this case, the material forming the fixing portion 10 itself becomes a means for softening the fixing portion 10.

  Moreover, the fixing | fixed part 10 can be formed with predetermined resin materials, such as a flame-retardant ABS resin and polyvinyl chloride (PVC), similarly to the fixing | fixed part 10 and 110 of Embodiment 1 and Embodiment 2, for example. However, as a material for forming the fixing portion 10, the fixing portion 10 is in the vicinity of its melting temperature range (usually below the melting temperature range) by heat transfer accompanying melting of the adhesive layer 200 made of a hot-melt adhesive. Any material can be used as long as it can be flexed or bent to follow a non-flat surface such as an uneven surface or a curved surface of the mounting surface S that is softened and fixed by temperature.

  Further, the wiring / pipe material support according to the third embodiment is not formed by applying the adhesive layer 200 to the fixing portion 10 in advance, and the fixing portion 10 is not formed by applying the adhesive layer 200 to the fixing portion 10. You may embody in the state which made the contact surface 11 of 10 the exposed surface. In this case, at the time of installation of the wiring / pipe material support on the mounting surface S, the hot melt adhesive is heated and melted and applied to the contact surface 11 of the fixed portion 10 at the construction site. The molten adhesive layer 200 is formed on the surface 11. Therefore, in this case, when the adhesive layer 200 is applied and formed on the contact surface 11 of the fixed portion 10, the fixed portion 10 is softened by heat transfer from the molten adhesive layer 200, and the surface shape of the mounting surface S It can be bent or bent correspondingly. Therefore, in this case, as compared with the case where the adhesive layer 200 is formed on the contact surface 11 of the fixing portion 10 in advance, the effect of heating and melting the hot-melt adhesive once is obtained.

  In each of the above-described embodiments, the fixing parts 10 and 110 and the support part 20 are configured separately, and the support part is connected to the connection part 15 of the fixing parts 10 and 110 so as to be integrated. Although the support has been completed, the wiring / pipe material support according to the present invention is integrated with a resin hook-like support on the lower surface of the fixed part as in the technique of Patent Document 1 or Patent Document 2. It can also be embodied as one that is fixed or integrally formed. On the other hand, the present invention can also embody the fixing parts 10 and 110 having the configurations described in the above embodiments. That is, the present invention can also be embodied as the fixing members 10 and 110 that are preferably used as the fixing portions 10 and 110 that are main components of the wiring / pipe material support. Also in this case, since the fixing member according to the present invention is manufactured by injection molding or the like of a hard resin material such as flame retardant ABS resin or hard polyvinyl chloride, as in the fixing portions 10 and 110, Then, due to the low elasticity of the hard resin, it is very difficult to bend or curve. However, as described above, by providing the flexible grooves 13 and 113 in the same manner as the fixing portions 10 and 110, sufficient flexibility (flexibility) ). Furthermore, by providing the adhesive layer 200 made of a hot-melt adhesive as in the third embodiment, it has more sufficient flexibility (softness). Furthermore, as in the above embodiments, the fixing member according to the present invention integrally forms a connecting portion having the same configuration as the connecting portion 15 of the fixing portions 10 and 110, and connects the support portion 20 to the connecting portion. Alternatively, the support portion on the resin hook can be integrally fixed to the lower surface.

  Moreover, the wiring / pipe material support according to the present invention is not limited to a double ceiling, but is fixed to an arbitrary position on any surface as long as the wiring or the piping P is disposed, such as a bare ceiling or a wall surface. Can be used. Furthermore, the wiring / pipe material support according to the first and second embodiments also has a large curvature ratio on the surface of the pipe material, etc. as described in the third embodiment when the fixing portions 10 and 110 can be sufficiently curved. It can be installed and fixed on the mounting surface.

FIG. 1 is a perspective view showing a use state of the wiring / piping material support according to Embodiment 1 of the present invention as seen from the plane side (lower surface side). FIG. 2 is a plan view (top view) showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. FIG. 3 is a front view showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. FIG. 4 is a bottom view (bottom view) showing a fixing portion of the wiring / piping material support according to Embodiment 1 of the present invention. 5 is a cross-sectional view taken along line AA in FIG. 6 is a cross-sectional view taken along line BB in FIG. FIG. 7 is a front view showing a state in which the wiring / pipe material support according to Embodiment 1 of the present invention is attached to a convex curved surface as a non-flat attachment surface. FIG. 8 is a front view showing a state in which the wiring / pipe material support according to Embodiment 1 of the present invention is attached to a concave curved surface as a non-flat attachment surface. FIG. 9 is a plan view (top view) showing a fixing portion of the wiring / piping material support according to Embodiment 2 of the present invention. FIG. 10 is a side view showing a state in which the wiring / piping material support according to Embodiment 2 of the present invention is viewed from the direction C in FIG. 11 is a cross-sectional view taken along the line DD of FIG. FIG. 12 is a front view showing an installation method of a wiring / pipe material support when the wiring / pipe material support according to Embodiment 3 of the present invention is attached to a convex curved surface as a non-flat mounting surface; a) shows a state when the fixing portion is not heated, (b) shows a state where the fixing portion is softened, and (c) shows a state where the fixing portion is bonded to the mounting surface.

Explanation of symbols

10, 110: Fixing part (fixing member), 11, 111: Contact surface 12, 112: Surface opposite to the contact surface 13, 113: Flexible groove, 14: Thick part, 15: Connection part 17: Small recess, 20: support part (hanging part), 200: adhesive layer S: mounting surface

Claims (6)

A wiring / pipe material support that is fixed to the ceiling or wall surface to support the wiring / piping material,
A fixing portion having a contact surface that comes into contact with the mounting surface when fixing to a ceiling surface or a mounting surface of a wall surface, and a support portion capable of supporting wiring and piping materials;
The fixing portion can be bent or bent to follow a non-flat surface such as an uneven surface or a curved surface of the mounting surface to be fixed,
The contact surface of the fixed portion is an adhesive surface that is bonded to the mounting surface,
The fixing portion can be bent or bent by forming a plurality of flexible grooves on a surface opposite to the contact surface, and a plurality of concave portions are formed on the contact surface. A wiring / piping material support, characterized in that it is arranged in a plurality of thick portions formed between the flexible grooves . 2. The wiring / pipe material support according to claim 1, wherein the flexible groove of the fixed part is composed of a plurality of flexible grooves extending in one direction of the fixed part so as to be parallel to each other. The wiring / pipe material support tool according to claim 1 , wherein the flexible groove of the fixed portion is composed of a plurality of flexible grooves extending to cross each other in two different directions of the fixed portion. The wiring / piping material support tool according to claim 1 , wherein the support portion is a hanging portion for suspending the wiring / piping material. The fixed portion has a rectangular flat plate shape, and a thick portion having a constant width is provided at a central portion in the length direction, and only on a portion other than the thick portion on the surface opposite to the contact surface of the fixed portion. Forming the flexible groove;
The supporting part may be any one of claims 1 to 3, characterized in that it is connected to the connecting portion integrally formed substantially at the center of the opposite surface and the abutment surface in the thick portion of the fixed portion Wiring and piping material support as described. A wiring / pipe material support fixing member fixed to a ceiling surface or a wall surface to support the wiring / pipe material,
It has a contact surface that comes into contact with the mounting surface when it is fixed to a ceiling surface or wall mounting surface, and is bent so as to follow a non-flat surface such as an uneven surface or curved surface of the mounting surface to be fixed. Or bendable,
The contact surface is an adhesive surface that is bonded to the mounting surface;
By forming a plurality of flexible grooves on the surface opposite to the contact surface, it can be bent or curved, and a plurality of recesses are formed on the contact surface between the plurality of flexible grooves. A fixing member for a wiring / piping material support, wherein the fixing member is arranged in a plurality of thick portions .

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