JP5926099B2 - Wiring and piping material holder - Google Patents

Description

  The present invention relates to a wiring / pipe material holder that is attached to a bolt body and holds the wiring / pipe material.

  2. Description of the Related Art Conventionally, there has been a holder for holding a wiring / piping material attached to a bolt body fixed to a base surface in order to arrange wiring / piping material such as a cable or a drain pipe (for example, Patent Document 1). reference). As shown in FIG. 35, the holder 23 was provided with two support bodies 24, 24 erected on the two bolt bodies 22, 22 erected from the base surface 21. Therefore, the regulation nut 25 screwed to the bolt body 22 supports the base portion 24a of the one support body 24 from below, and similarly, the pressing nut 26 screwed to the bolt body 22 raises the base portion 24a of the other support body 24 upward. The wiring / pipe material 27 was held between the support bodies 24 and 24 and held at a required position in the axial direction of the bolt body 22.

JP 2011-241977 A

  By the way, in the conventional holder 23, when the diameter of the wiring / piping material 27 is different, the support 24 corresponding to each diameter has to be prepared. In addition, for example, when the height adjustment of the wiring / piping material 27 is necessary, such as taking the drainage gradient of the drain pipe, the adjustment range is limited by the length of the bolt body 22. For this reason, when the height adjustment beyond that is necessary, it is necessary to change the bolt body 22 to another one, which is very troublesome.

  The present invention has been made to solve the above-described conventional drawbacks, and the object of the present invention is to cope with a plurality of different diameters of wiring / piping materials and to provide a range of position adjustment. An object of the present invention is to provide a wiring / pipe material holder that can be widened.

In order to achieve the object, the wiring / pipe material holder according to the present invention has the following configuration. That is,
The wiring / piping material holder according to the invention of claim 1 is attached to a bolt body fixed to the mounting surface and holds the wiring / piping material extending in a direction intersecting the axial direction of the bolt body. It is a holding tool. This wiring / piping material holder includes a main body and a holding body that is used with or without use. Here, the main body includes an enclosure part, and an attachment part that is movable integrally with the enclosure part in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. Is provided. The surrounding portion is formed so as to surround the first wiring / piping material as the wiring / piping material in the circumferential direction. Therefore, by arranging the first wiring / piping material so as to penetrate the inside of the enclosure, the inner surface of the enclosure abuts on the outer surface of the first wiring / piping material, and the first The wiring / piping material is held inside the enclosure without using the holding body. Further, the holding body is disposed inside the surrounding portion, and an outer surface abuts against an inner surface of the surrounding portion. The wiring / piping material having a smaller diameter than the first wiring / piping material is formed on the inner side of the surrounding portion by the inner surface of the holding body or the inner surface of the holding body and the inner surface of the surrounding portion. The second wiring / pipe material as a through-hole passes therethrough. Therefore, by arranging the holding body inside the enclosing portion and arranging the second wiring / pipe material so as to penetrate the penetrating portion, the inner surface of the enclosing portion contacts the outer surface of the holding body. The inner surface that is in contact with and forms the penetrating portion is in contact with the outer surface of the second wiring / piping material, and the second wiring / piping material is held inside the surrounding portion together with the holding body. The Here, the second wiring / piping material is movable in the axial direction of the bolt body, and the position with respect to the axial direction is different inside the surrounding portion disposed at a required position in the axial direction. The holding body can be arranged in at least two rotation postures on the inner side of the enclosure so as to be selectively arranged in at least two places, and with respect to the axis of rotation. The shaft center of the penetrating portion is eccentric.

According to this wiring / pipe material holder, the surrounding portion is arranged at a required position in the axial direction of the bolt body together with the attachment portion. And in the 1st wiring and piping material, the 1st wiring and piping material arrange | positions the 1st wiring and piping material so that the inner side of an enclosure part may be penetrated, and a 1st wiring and piping material has a holding body. It is held inside the enclosure without being used. On the other hand, in the case of the second wiring / piping material having a diameter smaller than that of the first wiring / piping material, a holding body is arranged inside the enclosure, and the second wiring / piping material is arranged inside the enclosure. By arrange | positioning so that the penetration part formed may be penetrated, a 2nd wiring and piping material is hold | maintained inside a surrounding part with a holding body. Here, the holding body is movable in the axial direction of the bolt body, and can be disposed in at least two rotational postures inside the surrounding portion disposed at a required position in the axial direction. Since the axis of the penetrating part is eccentric with respect to the axis of movement, the second wiring / pipe material is at least one of the two positions at different positions in the axial direction of the bolt body inside the enclosure. Selectively arranged. Thus, according to this wiring / piping material holder, by selecting whether or not the holding body is used, any wiring / piping material of the first wiring / piping material and the second wiring / piping material having different diameters can be selected. Piping material can be held. Then, in the second wiring / piping material, the second wiring / piping material can be moved in the axial direction of the bolt body , and the second wiring / piping material is arranged inside the surrounding portion arranged at a required position in the axial direction . with holder, can be positioned with respect to the axial direction of the bolt body is located at any position of the different at least two places, thereby, the axial direction of the bolt body, enclosing parts, i.e. wires and pipes The moving range of the axis of the second wiring / pipe material can be secured more than the moving range of the material holder.

The wiring / piping material holder according to the invention of claim 2 is attached to a bolt body fixed to the mounting surface and holds the wiring / piping material extending in a direction intersecting the axial direction of the bolt body. It is a holding tool. This wiring / piping material holder includes a main body and a holding body that is used with or without use. Here, the main body includes an enclosure part, and an attachment part that is movable integrally with the enclosure part in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. Is provided. The surrounding portion is formed so as to surround the first wiring / piping material as the wiring / piping material in the circumferential direction. Therefore, by arranging the first wiring / piping material so as to penetrate the inside of the enclosure, the inner surface of the enclosure abuts on the outer surface of the first wiring / piping material, and the first The wiring / piping material is held inside the enclosure without using the holding body. Further, the holding body is disposed inside the surrounding portion, and an outer surface abuts against an inner surface of the surrounding portion. The wiring / piping material having a smaller diameter than the first wiring / piping material is formed on the inner side of the surrounding portion by the inner surface of the holding body or the inner surface of the holding body and the inner surface of the surrounding portion. The second wiring / pipe material as a through-hole passes therethrough. Therefore, by arranging the holding body inside the enclosing portion and arranging the second wiring / pipe material so as to penetrate the penetrating portion, the inner surface of the enclosing portion contacts the outer surface of the holding body. The inner surface that is in contact with and forms the penetrating portion is in contact with the outer surface of the second wiring / piping material, and the second wiring / piping material is held inside the surrounding portion together with the holding body. The Here, the second wiring / piping material is movable in the axial direction of the bolt body, and the position with respect to the axial direction is different inside the surrounding portion disposed at a required position in the axial direction. The penetrating portion is provided inside at least two locations at different positions in the axial direction so as to be selectively arranged in at least two locations.

According to this wiring / pipe material holder, the surrounding portion is arranged at a required position in the axial direction of the bolt body together with the attachment portion. And in the 1st wiring and piping material, the 1st wiring and piping material arrange | positions the 1st wiring and piping material so that the inner side of an enclosure part may be penetrated, and a 1st wiring and piping material has a holding body. It is held inside the enclosure without being used. On the other hand, in the case of the second wiring / piping material having a diameter smaller than that of the first wiring / piping material, a holding body is arranged inside the enclosure, and the second wiring / piping material is arranged inside the enclosure. By arrange | positioning so that the penetration part formed may be penetrated, a 2nd wiring and piping material is hold | maintained inside a surrounding part with a holding body. Here, it has a penetration part inside at least two places where the position to the axial direction of a bolt body differs in the inside of the enclosing part which can move to the axial direction of a bolt body, and is arranged in the required position of the axial direction. Thus, the second wiring / piping material is selectively disposed at least one of the two positions where the position of the bolt body in the axial direction is different inside the enclosure. Thus, according to this wiring / piping material holder, by selecting whether or not the holding body is used, any wiring / piping material of the first wiring / piping material and the second wiring / piping material having different diameters can be selected. Piping material can be held. Then, in the second wiring / piping material, the second wiring / piping material can be moved in the axial direction of the bolt body , and the second wiring / piping material is arranged inside the surrounding portion arranged at a required position in the axial direction . with holder, can be positioned with respect to the axial direction of the bolt body is located at any position of the different at least two places, thereby, the axial direction of the bolt body, enclosing parts, i.e. wires and pipes The moving range of the axis of the second wiring / pipe material can be secured more than the moving range of the material holder.

The wiring / pipe material holder according to the invention of claim 3 is attached to a bolt body fixed to the mounting surface and holds the wiring / pipe material extending in a direction intersecting the axial direction of the bolt body. It is a holding tool. This wiring / piping material holder includes a main body and a holding body. Here, the main body includes an enclosure part, and an attachment part that is movable integrally with the enclosure part in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. Is provided. The surrounding portion is formed so as to surround the holding body in the circumferential direction. The holding body is disposed inside the enclosure, and an outer surface abuts against an inner surface of the enclosure. And it has a penetration part which is formed of the inner surface of the holding body, or the inner surface of the holding body and the inner surface of the surrounding part, through which the wiring / pipe material penetrates, inside the surrounding part. Therefore, by arranging the holding body inside the enclosure, and arranging the wiring / piping material so as to penetrate the through portion, the inner surface of the enclosure abuts the outer surface of the holding body, and The inner surface forming the penetrating part comes into contact with the outer surface of the wiring / pipe material, and the wiring / pipe material is held inside the enclosure together with the holding body. Here, the wiring / piping material is movable in the axial direction of the bolt body, and at least two places where the positions with respect to the axial direction are different inside the surrounding portion arranged at a required position in the axial direction. The holding body can be arranged in at least two rotation postures on the inner side of the enclosure so that the holder can be selectively arranged in any one of the above and the penetrating through the rotation axis. The axis of the part is eccentric. Furthermore, at least two through portions having different diameters corresponding to at least two types of diameters of wiring / pipe materials are provided as the through portions, and any of these through portions can be selectively used.

According to this wiring / pipe material holder, the surrounding portion is arranged at a required position in the axial direction of the bolt body together with the attachment portion. And in the wiring / piping material, the holding body is arranged inside the enclosure, and the wiring / piping material is arranged so as to penetrate the penetrating portion formed inside the enclosure. A piping material is hold | maintained inside a surrounding part with a holding body. Here, the holding body is movable in the axial direction of the bolt body, and can be disposed in at least two rotational postures inside the surrounding portion disposed at a required position in the axial direction. Because the axis of the penetrating part is eccentric relative to the axis of movement, the wiring / pipe material is selectively at least one of the two positions at different positions in the axial direction of the bolt body inside the enclosure. Placed in. Furthermore, at least two through portions having different diameters are provided as the through portions corresponding to at least two types of diameters of wiring and piping materials, and any one of these through portions is selectively used. Thus, according to the wiring / piping material holder, any wiring / piping material among a plurality of wiring / piping materials having different diameters can be held using the holding body. The position of the wiring / pipe material in the axial direction of the bolt body using the holding body inside the enclosure that is movable in the axial direction of the bolt body and is disposed at a required position in the axial direction. Can be placed at any position in at least two locations where the wire and piping material are more than the movement range of the enclosure, that is, the wiring and piping material holder , with respect to the axial direction of the bolt body. The movement range of the axis can be secured.

  Moreover, the wiring / piping material holder according to the invention described in claim 4 is the wiring / piping material holder according to any one of claims 1 to 3, wherein the outer surface of the holding body is in the axial direction. And symmetrically formed in a direction orthogonal to the direction in which the wiring / pipe material extends.

  The wiring / piping material holder according to the invention described in claim 5 is the wiring / piping material holder according to any one of claims 1 to 4, wherein the holding body is formed in a disc shape. The

  Moreover, the wiring / pipe material holder according to the invention of claim 6 is the wiring / pipe material holder of any one of claims 1 to 5, wherein the penetrating portion is an inner surface of the holder. The holding body has a through hole serving as the through portion. And the said enclosure is arrange | positioned inside the said enclosure part, In the state which has arrange | positioned the said wiring and piping material so that the said penetration part may be penetrated, the said enclosure part is reduced so that the internal space inside the said enclosure part may be shrunk | reduced The inner surface of the surrounding portion presses the outer surface of the holding body, and the peripheral surface of the through hole presses the outer surface of the wiring / pipe material.

  Moreover, the wiring / pipe material holder according to the invention of claim 7 is the wiring / pipe material holder of any one of claims 1 to 5, wherein the through portion is an inner surface of the holder. And the holding body has a through-hole that opens to the outer surface thereof, and a peripheral surface of the through-hole, and an inner surface of the enclosure that the opening of the through-hole faces, so that the holding body is formed by the inner surface of the surrounding portion. Thus, the penetrating portion is formed. And the said enclosure is arrange | positioned inside the said enclosure part, In the state which has arrange | positioned the said wiring and piping material so that the said penetration part may be penetrated, the said enclosure part is reduced so that the internal space inside the said enclosure part may be shrunk | reduced The inner surface of the surrounding portion presses the outer surface of the holding body, and the peripheral surface of the through hole and the inner surface of the surrounding portion press the outer surface of the wiring / pipe material.

  According to the wiring / piping material holder according to the present invention, the holding body can be provided to cope with a plurality of different diameters of the wiring / piping material, and the wiring / piping can be performed with respect to the axial direction of the bolt body. The range of adjustment of the position of the wiring / piping material can be widened by securing the moving range of the axis of the wiring / piping material more than the movement range of the material holder.

It is a perspective view which shows the arrangement | positioning tool using the holder (wiring and piping material holder) except the holder of one Embodiment of this invention. Similarly, it is a perspective view showing an arrangement tool using a holder including a holder. Similarly, it is a front view showing an arrangement structure of wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. Similarly, it is a front view showing an arrangement structure of wiring / piping material in which one second wiring / piping material is held by a holder including a holding body. Similarly, it is the front view which shows the arrangement structure of wiring and piping material which hold | maintained one 2nd wiring and piping material at the lowest end. Similarly, it is the front view which shows the arrangement structure of wiring and piping material which hold | maintained one 2nd wiring and piping material at the uppermost end. Similarly, it is a front view showing a wiring / pipe material arrangement structure in which the other second wiring / pipe material is held by a holder including a holding body. Similarly, it is the front view which shows the arrangement structure of wiring and piping material which hold | maintained the other 2nd wiring and piping material at the lowest end. Similarly, it is the front view which shows the arrangement structure of wiring and piping material which hold | maintained the other 2nd wiring and piping material at the uppermost end. Similarly, it is a perspective view which shows a holding body. Similarly, it is a front view which shows the state which inserted the auxiliary member in the other through-hole of a holding body. Similarly, it is a perspective view which shows an auxiliary member. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of the 1st modification of one embodiment of this invention. Similarly, it is a front view showing the arrangement structure of the wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of the 2nd modification of one embodiment of this invention. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained the 2nd wiring and piping material at the lowest end with the holder containing the holding body of other embodiment of this invention. Similarly, it is a front view showing the arrangement structure of the wiring / pipe material with the second wiring / pipe material held at the uppermost end. Similarly, it is a front view showing the arrangement structure of the wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of the 1st modification of other embodiment of this invention. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of the 2nd modification of other embodiment of this invention. Similarly, it is a front view showing the arrangement structure of the wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of the 3rd modification of other embodiment of this invention. It is a front view which shows the arrangement structure of wiring and piping material which hold | maintained the 2nd wiring and piping material at the lowest end with the holder containing the holding body of the 4th modification of other embodiment of this invention. is there. Similarly, it is a front view showing a wiring / piping material arrangement structure in which a second wiring / piping material is held at the uppermost end by a holder including a holding body. Similarly, it is a front view showing the arrangement structure of the wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. Similarly, it is a perspective view which shows the holder in which a holding body exists in one rotation attitude | position. Similarly, it is a perspective view which shows the holder in which a holding body exists in the other rotation attitude | position. Similarly, it is a perspective view which shows a holding body. Similarly, it is a front view which shows a holding body. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained the 2nd wiring and piping material at the lowest end with the holder containing the holding body of further another embodiment of this invention. Similarly, it is a front view showing a wiring / piping material arrangement structure in which a second wiring / piping material is held at the uppermost end by a holder including a holding body. Similarly, it is a front view showing the arrangement structure of the wiring / piping material in which the first wiring / piping material is held by a holder excluding the holding body. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of further another embodiment of this invention. It is a front view which shows the arrangement | positioning structure of wiring and piping material which hold | maintained 2nd wiring and piping material with the holder containing the holding body of further another embodiment of this invention. It is a front view which shows the arrangement | positioning structure of wiring and piping materials using the conventional holder.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing the wiring and piping material holder which concerns on this invention is demonstrated based on drawing.

  1 to 12 show an embodiment of the present invention. Reference numeral 1 in the figure indicates, for example, a mounting surface of a building foundation floor or other structures. 2 shows wiring and piping material (wiring material or piping material). Reference numeral 4 a denotes a bolt body fixed to the mounting surface 1. Reference numeral 5 denotes a holder (wiring / pipe material holder). The holder 5 is attached to the bolt body 4a and extends in a direction intersecting the axial direction P of the bolt body 4a. 2 is held.

  Here, the holder 5 includes a main body 6 and a holder 7 that is used with or without use. The main body 6 can be moved integrally with the surrounding portion 6a in the axial direction P of the bolt body 4a and attached to a required position in the axial direction P of the bolt body 4a. Part 6b.

  The surrounding portion 6a is formed so as to surround the first wiring / piping material 2a as the wiring / piping material 2 in the circumferential direction, and is formed so as to surround the holding body 7 in the circumferential direction. Therefore, by arranging the first wiring / piping material 2a so as to penetrate the inside of the surrounding portion 6a (in the illustrated embodiment, the inner space 6c inside the surrounding portion 6a is reduced in the arranged state. The inner portion of the surrounding portion 6a is in contact with the outer surface of the first wiring / piping material 2a (in the illustrated embodiment, the outer surface is pressed). The 1st wiring and piping material 2a is hold | maintained inside the enclosure part 6a, without using the holding body 7 (refer FIG. 3).

  Moreover, the holding body 7 is arrange | positioned inside the enclosure part 6a, and an outer surface contact | abuts the inner surface of the enclosure part 6a. And the said wiring and piping material which is formed inside the surrounding part 6a by the inner surface of the holding body 7, or the inner surface of the holding body 7 and the inner surface of the surrounding part 6a and has a smaller diameter than the first wiring and piping material 2a 2 has a penetrating portion 6d through which the second wiring / pipe material 2b penetrates. Therefore, by arranging the holding body 7 inside the enclosing portion 6a and arranging the second wiring / piping material 2b so as to penetrate the penetrating portion 6d (in the illustrated embodiment, By enclosing the enclosure 6a inward so as to reduce the internal space 6c inside the enclosure 6a, the inner surface of the enclosure 6a abuts the outer surface of the holding body 7 (in the illustrated embodiment, the outer surface is The inner surface forming the penetrating portion 6d is in contact with the outer surface of the second wiring / pipe material 2b (in the illustrated embodiment, the outer surface is pressed), and the second wiring / pipe material 2b is held inside the enclosure 6a together with the holding body 7.

Here, the second wiring / piping material 2b is movable in the axial direction P of the bolt body 4a and is disposed inside the surrounding portion 6a disposed at a required position in the axial direction P of the bolt body 4a. The holding body 7 can be arranged in at least two rotational postures inside the surrounding portion 6a so that the holder 7 can be selectively arranged in at least two places having different positions with respect to the axial direction P. The axis Y of the penetrating portion 6d is eccentric with respect to the axis X of movement. 2, 4, 5, 7, and 9 show a state in which the holding body 7 is arranged in a direction in which one through-hole 701 described below is on the lower side as one rotational posture. 6 and 8 show a state in which the holding body 7 is arranged in a direction in which one through-hole 701 described later is on the upper side as the other rotation posture.

  In the illustrated embodiment, as the through portion 6d, at least two through portions having different diameters corresponding to the wiring / piping material 2 having at least two types of diameters (specifically, the second wiring / piping material 2b) are used. 6d and 6d are provided, and any one of the through portions 6d and 6d can be selectively used.

  Here, in one penetration part 601 (6d) of the two penetration parts 6d, 6d, the one penetration part 601 is formed by the inner surface of the holding body 7 and the inner surface of the surrounding part 6a. The holding body 7 has one through hole 701 as a through hole 7a that opens on the outer surface thereof, and the peripheral surface of the one through hole 701 (that is, the inner surface of the holding body 7) and one of the through holes 701 The one through portion 601 is formed with the inner surface of the surrounding portion 6a facing the opening 7b of the through hole 701. The peripheral surface of the one through hole 701 and the inner surface of the surrounding portion 6a are connected to the wiring / piping material 2 (in detail). Is in contact with the outer surface of the second wiring / piping material 2b) (in the illustrated embodiment, the outer surface is pressed).

  And in the other penetration part 602 of the two penetration parts 6d and 6d, the holding body 7 penetrates the other side so that the other penetration part 602 is formed by the inner surface of the holding body 7. It has the other through-hole 702 as the through-hole 7a which becomes the part 602, and the peripheral surface of the other through-hole 702 is the wiring / pipe material 2 (specifically, the second wiring / pipe material 2b). Abuts on the outer surface (in the illustrated embodiment, the outer surface is pressed).

  Specifically, the bolt body 4a is fixed to the mounting surface 1 via the base plate 4b. That is, the bolt body 4a is fixed to the base plate 4b in an upright posture, and the base plate 4b is fixed to the mounting surface 1 by a fixture such as an adhesive, a screw, or a nail. Therefore, the bolt body 4a and the base plate 4b, the holder 5, and nuts (regulation nut 4c and pressing nut 4g) described later constitute an arrangement tool 3 (wiring / piping material arrangement tool).

  In the holder 5, the main body 6 includes a first holding member 611 and a second holding member 612 in the form of a strip made of, for example, a steel plate. The first holding member 611 includes the first wiring / piping member 2a or the holding member 7 from the one side Q (specifically, the lower side) in the axial direction P of the bolt body 4a. A first enclosing portion 621 and a first attaching portion 631 constituting the attaching portion 6b extending from the first enclosing portion 621 (from both ends of the first enclosing portion 621 in the illustrated embodiment); The first attachment portion 631 is provided with a through hole 6e through which the bolt body 4a passes. The second holding member 612 constitutes the surrounding portion 6a that surrounds the first wiring / piping member 2a or the holding member 7 from the other side R (specifically, the upper side) of the bolt body 4a in the axial direction P. A second surrounding part 622 that extends from the second surrounding part 622 (in the illustrated embodiment, from both ends of the second surrounding part 622) and that constitutes the attaching part 6b. The second attachment portion 632 is provided with a through hole 6e through which the bolt body 4a passes. That is, in the illustrated embodiment, two bolt bodies 4a are erected so as to be parallel to each other, and the holder 5 is installed on the bolt bodies 4a and 4a. And the surrounding part 6a comprised by the 1st surrounding part 621 and the 2nd surrounding part 622 is located between the bolt bodies 4a and 4a. The first surrounding part 621 and the second surrounding part 622 are formed in an arc shape so that the surrounding part 6a forms a circle.

  Here, the first holding member 611 is received from one side Q in the axial direction P of the bolt body 4a by a regulation nut 4c whose first attachment portion 631 is screwed into the bolt body 4a. The restriction nut 4c has a receiving portion 4d that receives the first attachment portion 631 from the one side Q. Specifically, the regulating nut 4c extends from the receiving side 4d to the other side R from the one side Q so as to penetrate the through hole 6e of the first holding member 611 along the bolt body 4a. And an operating portion 4f capable of rotating the regulating nut 4c from the other side R with respect to the first attachment portion 631 is provided at the distal end portion of the extending portion 4e. On the other hand, the second holding member 612 is pressed from the other side R in the axial direction P of the bolt body 4a by the pressing nut 4g screwed into the bolt body 4a. Therefore, by rotating these nuts 4c and 4g in the same direction, the first and second attachment portions 631 and 632 move in the axial direction P of the bolt body 4a. Further, by tightening the nuts 4c and 4g to the side where both the attachment portions 631 and 632 approach, the surrounding portion 6a can be directed inward so as to reduce the inner space 6c inside the surrounding portion 6a. Moreover, by this, both attachment parts 631 and 632 (6b) are attached to the bolt body 4a. When the holding body 7 is used, the penetrating part 6d (specifically, one penetrating part 601 and the other penetrating part 602) of the holding body 7 is reduced by turning the surrounding part 6a inward. Deforms or displaces to the side.

  The holding body 7 is made of, for example, a synthetic resin, and the outer surface of the holding body 7 is symmetrical in a direction orthogonal to the axial direction P of the bolt body 4a and the direction in which the wiring / piping material 2 extends (in FIGS. 4 to 9). Symmetric in the left-right direction, that is, left-right symmetric). In the illustrated embodiment, the holding body 7 is formed in a disk shape. The through hole 7a (specifically, the one through hole 701 and the other through hole 702) is formed in the holding body 7 so as to penetrate the front and back. The one through-hole 701 and the other through-hole 702 are opened to communicate with each other, and the opening 7b is formed on the opposite side of the one through-hole 701 from the side where the other through-hole 702 is present. Is provided. In the illustrated embodiment, one through hole 701 is formed with a relatively large diameter, and the other through hole 702 is formed with a relatively small diameter. In addition, the holder 7 is provided with a hollow 7c that is recessed from the front and back, leaving a portion that forms the outer surface and a portion that forms the through hole 7a.

  In addition, the thickness of the holding body 7 is slightly larger than the thickness of the surrounding portion 6a, and ribs 7d are provided at both ends in the thickness direction so as to stand up from the outer surface of the holding body 7. Therefore, the holding body 7 does not entirely fit within the surrounding portion 6a, but has a portion that protrudes slightly, and the surrounding portion 6a fits between the protruding ribs 7d and 7d, The outer surface of the holding body 7 is covered. Therefore, the above-mentioned “the holding body 7 is disposed inside the surrounding portion 6a” does not mean that the entire holding body 7 is accommodated in the surrounding portion 6a, but a case where a part of the holding body 7 protrudes. Is also included.

  In the illustrated embodiment, the auxiliary member 8 for making the diameter of the other through hole 702 smaller can be inserted into the other through hole 702. The auxiliary member 8 is formed in an arc shape along the peripheral surface of the other through-hole 702. By using the auxiliary member 8, a smaller diameter wiring / piping material 2 (specifically, the second wiring) -It can be made to correspond to the piping material 2b). Here, the other through-hole 702 is provided with a groove 7e made of, for example, a dovetail groove, and the auxiliary member 8 is provided with a protrusion 8a that fits into the groove 7e. The opening 8b is positioned so as to communicate with the one through hole 701. The holding body 7 and the auxiliary member 8 are provided with through holes 7f and 8c communicating with each other, and a fixing tool (not shown) such as a screw is inserted into the through holes 7f and 8c. Thus, the auxiliary member 8 is attached and fixed to the holding body 7.

  By the way, FIG. 5 arrange | positions the large diameter wiring and piping material 201 of the 2nd wiring and piping material 2b in the position nearest to the attachment surface 1 inside the enclosure part 6a, and By disposing the holder 5 at the position closest to the mounting surface 1 along the bolt body 4a, the large-diameter wiring / piping material 201 is positioned closest to the mounting surface 1. FIG. 6 shows a state in which the large-diameter wiring / piping material 201 is disposed at a position farthest from the mounting surface 1 inside the enclosure 6a, and the holder 5 is connected to the bolt body 4a. This shows a state in which the large-diameter wiring / piping material 201 is arranged at the farthest position with respect to the mounting surface 1 by being arranged at the farthest position with respect to the mounting surface 1. And FIG. 8 arrange | positions and hold | maintains the small diameter wiring and piping material 202 of the 2nd wiring and piping material 2b in the position nearest to the attachment surface 1 inside the enclosure part 6a. By arranging the tool 5 at the position closest to the mounting surface 1 along the bolt body 4a, the small-diameter wiring / piping material 202 is positioned at the position closest to the mounting surface 1. FIG. 9 shows a state in which the small-diameter wiring / piping material 202 is disposed at the farthest position relative to the mounting surface 1 inside the enclosure 6a, and the holder 5 is arranged along the bolt body 4a. The state in which the small-diameter wiring / piping material 202 is disposed at the farthest position with respect to the mounting surface 1 by being disposed at the farthest position with respect to the mounting surface 1 is shown.

  Next, the effect of the holder 5 (wiring / pipe material holder) having the above-described configuration will be described. According to this holder 5, the surrounding part 6a is arrange | positioned with the attaching part 6b in the required position of the axial direction P of the bolt body 4a. In the first wiring / piping material 2a, the first wiring / piping material 2a is disposed so as to penetrate the inside of the surrounding portion 6a (in the illustrated embodiment, it is disposed). In this state, the first wiring / piping material 2a can be used without using the holding body 7 by turning the surrounding part 6a inward so as to reduce the inner space 6c inside the surrounding part 6a. Retained inside.

On the other hand, in the second wiring / piping material 2b having a diameter smaller than that of the first wiring / piping material 2a, the holding body 7 is arranged inside the enclosure 6a, and the second wiring / piping material 2b is By disposing the penetrating portion 6d (in detail, one penetrating portion 601 or the other penetrating portion 602) formed inside the enclosing portion 6a (in the illustrated embodiment, in the disposed state) The second wiring / pipe material 2b is held inside the surrounding portion 6a together with the holding body 7 by turning the surrounding portion 6a inward so as to reduce the internal space 6c inside the surrounding portion 6a. . Here, the holding body 7 is movable in the axial direction P of the bolt body 4a, and can be arranged in at least two rotational postures inside the surrounding portion 6a arranged at a required position in the axial direction P. In addition, the axis Y of the penetrating portion 6d is eccentric with respect to the axis X of rotation. Thereby, the 2nd wiring and piping material 2b is selectively arrange | positioned in at least two places from which the position with respect to the axial direction P of the bolt body 4a differs inside the enclosure part 6a.

Thus, according to this holder 5, by selecting whether or not the holder 7 is used, any wiring / piping material 2a and second wiring / piping material 2b having different diameters can be selected. Piping material can be held. In the second wiring / piping material 2b, the second wiring can be moved inside the surrounding portion 6a that is movable in the axial direction P of the bolt body 4a and is disposed at a required position in the axial direction P. -The piping material 2b can be arrange | positioned in the arbitrary positions of at least two places from which the position with respect to the axial direction P of the bolt body 4a differs using the holding body 7, and, thereby, the axial direction P of the bolt body 4a. On the other hand, the moving range of the axis of the second wiring / piping material 2b (that is, the axis Y of the penetrating portion 6d) can be secured more than the moving range of the surrounding portion 6a, that is, the holder 5. That is, the holding body 7 can be provided to cope with a plurality of different diameters of the wiring / piping material 2 (specifically, the first wiring / piping material 2a and the second wiring / piping material 2b), In addition, with respect to the axial direction P of the bolt body 4a, ensure the movement range of the axis of the wiring / piping material 2 (specifically, the second wiring / piping material 2b) more than the moving range of the holder 5. The range of position adjustment of the wiring / piping material 2 (specifically, the second wiring / piping material 2b) can be widened. In addition, in this way, the position of the wiring / piping material 2b can be adjusted beyond the position adjustment range by the bolt body 4a, for example, ensuring a drainage gradient of the drain pipe (wiring / piping material 2b), etc. When the position of the wiring / piping material 2b is necessary, even if the length of the bolt body 4a is insufficient, the position of the wiring / piping material 2b can be adjusted without replacing the bolt body 4a with a longer one. It can be carried out.

In the illustrated embodiment, the through-hole 6d has at least two types of wiring / piping materials 2, 2 (more specifically, a large-diameter wiring / piping material 201 as the second wiring / piping material 2b). And at least two penetrating portions 6d and 6d (specifically, one and the other penetrating portions 601 and 602) having different diameters corresponding to the small diameter wiring / piping material 202) are provided. One of these is selectively used. In this way, the holding body 7 can be used to hold any wiring / piping material out of a plurality of wiring / piping materials 201 (2b) and 202 (2b) having different diameters. Then, the wiring / piping materials 201 and 202 can be moved by using the holding body 7 inside the surrounding portion 6 a that is movable in the axial direction P of the bolt body 4 a and is disposed at a required position in the axial direction P. The bolt body 4a can be disposed at an arbitrary position in at least two locations where the positions of the bolt body 4a are different from each other. Thus, with respect to the axial direction P of the bolt body 4a, the surrounding portion 6a, that is, the holder 5 More than the moving range of the axis of the wiring / piping materials 201 and 202 (that is, the axis Y1 (Y) of the one through portion 601 (6d) and the axis Y2 (Y) of the other through portion 602 (6d). ) Movement range can be secured. That is, the holding body 7 can be provided to cope with a plurality of different diameters of the wiring / piping material 2 (specifically, the second wiring / piping material 2b), and in the axial direction P of the bolt body 4a. On the other hand, the movement range of the axis of the wiring / piping materials 201 (2b), 202 (2b) is secured more than the moving range of the holder 5, and the wiring / piping materials 201 (2b), 202 (2b) The range of position adjustment can be widened.

  In addition, this invention is not necessarily limited to embodiment mentioned above, A various other change is possible. For example, the surrounding portion 6a in the main body 6 of the holder 5 may be formed in a quadrangular shape (generally a square shape) as shown in FIGS. Here, as shown in FIG. 13, the holding body 7 has a square shape (generally, a square shape) in accordance with the shape of the surrounding portion 6a. And one through-hole 701 (7a) and the other through-hole 702 (7a) are opened independently without communicating, and each through-hole 701,702 opens to the outer surface of the holding body 7. Yes. FIG. 14 shows a state in which the first wiring / piping material 2 a is held without using the holding body 7.

  As shown in FIG. 15, the holding body 7 may be composed of one and the other divided bodies 7g and 7g divided into two. Here, the through-hole 7a (specifically, one through-hole 701 and the other through-hole 702) is formed on the mating surface of the divided bodies 7g and 7g. In this example, the through portion 6d is formed by the inner surface of the holding body 7 (that is, the through hole 7a), and the peripheral surface of the through hole 7a (specifically, one through hole 701 and the other through hole 702) The outer surface of the second wiring / piping material 2b (specifically, the large-diameter wiring / piping material 201 and the small-diameter wiring / piping material 202) is brought into contact (in the illustrated embodiment, the outer surface is pressed).

  Further, the two through holes 7a (through portions 6d) may be provided as shown in FIGS. Here, in the example shown in FIGS. 16 to 18, the surrounding portion 6 a and the holding body 7 of the main body 6 have a hexagonal shape, and the first holding material 611 and the second holding material 612 that constitute the main body 6. Are symmetrically shaped. The through hole 7a opens to the outer surface of the holding body 7, and the through portion 6d is formed by the peripheral surface of the through hole 7a (the inner surface of the holding body 7) and the inner surface of the surrounding portion 6a. Here, FIG. 16 and FIG. 17 show two rotation postures. In FIG. 16, as one rotation posture, the holding body 7 is arranged with the through-hole 7a on the lower side. In 17, as another rotational posture, the holding body 7 is arranged in a direction in which the through hole 7 a is on the upper side. FIG. 16 shows a state in which the second wiring / piping material 2b is held at the lowermost end (that is, a state in which the second wiring / piping material 2b is disposed closest to the mounting surface 1), and FIG. The wiring / piping material 2b is held at the uppermost end (that is, a state where the wiring / piping material 2b is arranged at a position farthest from the mounting surface 1). FIG. 18 shows a state in which the first wiring / piping material 2 a is held without using the holding body 7.

  In the example shown in FIG. 19, the surrounding portion 6 a of the main body 6 has a hexagonal shape, but the first holding material 611 and the second holding material 612 constituting the main body 6 are not symmetrically formed. First, the attachment portion 6b (specifically, the first attachment portion 631 and the second attachment portion 632) is formed on the lower side.

  In the example shown in FIGS. 20 and 21, the first surrounding part 621 and the second surrounding part 622 are bent inward at the center, and the holding body 7 has a flat hexagonal shape. Here, FIG. 20 shows a state in which the second wiring / piping material 2b is held using the holding body 7, and FIG. 21 shows the first wiring / piping material 2a without using the holding body 7. The state where is held.

  In the example shown in FIG. 22, the holding body 7 has a through hole 7 a that becomes the through part 6 d so that the through part 6 d is formed by the inner surface of the holding body 7. In this example, the through hole 7a is a closed hole. Therefore, even if the surrounding portion 6a is directed inward so as to reduce the inner space 6c inside the surrounding portion 6a, the peripheral surface of the through hole 7a does not always press-contact the outer surface of the second wiring / piping material 2b. As described above, when the outer surface is simply brought into contact without being pressed, the second wiring / pipe material 2b is held in a movable state in the extending direction.

  In the example shown in FIGS. 23 to 29, the first holding member 611 is formed in a flat plate shape, and the center side surrounds the wiring / piping member 2 from one side Q in the axial direction P of the bolt body 4a. It becomes the surrounding part 621, and the both ends are the first attachment parts 631. And the 2nd holding material 612 consists of what is called a U volt | bolt, both ends are inserted in the hole 6f opened in the 1st holding material 611, and the nut 6g is screwed in from the front-end | tip. Thus, in the first holding member 611, the space between the holes 6f and 6f becomes the first surrounding portion 621 constituting the surrounding portion 6a, and the second holding member 612 excludes both end portions inserted into the holes 6f and 6f. The part becomes the second surrounding part 622 constituting the surrounding part 6a. Then, by tightening the nut 6g screwed into the second holding member 612, the surrounding portion 6a can be directed inward so as to reduce the internal space 6c inside the surrounding portion 6a. Further, in this example, the attaching portion 6b includes only the first attaching portion 631, and the attaching portion 6b is sandwiched between the regulation nut 4c and the pressing nut 4g so as to be attached to the bolt body 4a. Worn.

  And the holding body 7 is formed in the rectangular board shape, and the through-hole 7a is formed in the one side of the longitudinal direction so that it may become depressed in arc shape. And the through-hole 6d is formed by the surrounding surface of this through-hole 7a and the inner surface of the surrounding part 6a which the opening 7b of the through-hole 7a faces, and the surrounding surface (holding | holding of the through-hole 7a is carried out by tightening the nut 6g. The inner surface of the body 7 and the inner surface of the surrounding portion 6a are in pressure contact with the outer surface of the second wiring / piping material 2b. Further, in this example, the holding body 7 has grooves 7h into which the second holding material 612 (U bolt) is fitted on three sides excluding the side where the through hole 7a is formed. That is, the holding body 7 has a thickness larger than the shaft diameter of the second holding material 612 (U bolt), and the second holding material 612 is disposed so as to fit into the groove 7 h of the holding body 7. Therefore, when the holding body 7 is disposed inside the surrounding portion 6a, the entire holding body 7 does not fit within the surrounding portion 6a but has a protruding portion.

  Here, FIG. 23 (FIG. 26) and FIG. 24 (FIG. 27) show two rotation postures of the holding body 7. In FIG. 23 (FIG. 26), as one rotation posture, the holding body 7 is shown. Is arranged on the side of the second holding member 612 (U-bolt) in contact with the bent portion 6h so that the opening 7b of the through-hole 7a faces the first holding member 611 side, as shown in FIG. 24 (FIG. 27). As another rotation posture, the holding body 7 contacts the first holding member 611 so that the opening 7b of the through hole 7a faces the bent portion 6h side of the second holding member 612 (U bolt). Placed on the side. FIG. 23 shows a state in which the second wiring / pipe material 2b is held at the lowermost end (that is, a state in which the second wiring / piping material 2b is disposed closest to the mounting surface 1), and FIG. The wiring / piping material 2b is held at the uppermost end (that is, a state where the wiring / piping material 2b is arranged at a position farthest from the mounting surface 1). FIG. 25 shows a state in which the first wiring / piping material 2 a is held without using the holding body 7.

In addition, the holder 5 is not provided with two types of through holes 701 and 702 (through portions 601 and 602) having different diameters as the through holes 7a (through portions 6d). As described above, at least two through holes 7a (through portions 6d) having the same diameter may be provided. That is, the second wiring / piping material 2b is movable in the axial direction P of the bolt body 4a, and the axial direction of the bolt body 4a is inside the surrounding portion 6a arranged at a required position in the axial direction P. The through-hole 6d through which the second wiring / piping material 2b penetrates is provided inside the enclosure 6a so that it can be selectively placed in at least two different positions with respect to P. May be in two different places. In the illustrated embodiment, each of the through holes 7a and 7a opens to the outer surface of the holding body 7, and the through portion 6d has a peripheral surface of the through hole 7a (inner surface of the holding body 7) and an opening 7b of the through hole 7a. Is formed by the inner surface of the surrounding portion 6a. Here, in FIG. 30, the lower through-hole 7a (through-hole 6d) is selected and the second wiring / piping material 2b is arranged, and in FIG. 31, the upper through-hole 7a (through-hole 6d) is selected. Thus, the second wiring / piping material 2b is arranged. And FIG. 30 arrange | positions the 2nd wiring and piping material 2b in the position nearest to the attachment surface 1 in the enclosure part 6a, And the holder 5 was along the bolt body 4a. FIG. 31 shows a state in which the second wiring / piping material 2b is arranged at a position closest to the mounting surface 1 by being arranged at a position closest to the mounting surface 1. FIG. The wiring / piping material 2b is disposed at a position farthest from the mounting surface 1 in the surrounding portion 6a, and the holder 5 is positioned farthest from the mounting surface 1 along the bolt body 4a. This shows a state where the second wiring / piping material 2b is arranged at a position farthest from the mounting surface 1. FIG. 32 shows a state in which the first wiring / piping material 2 a is held without using the holding body 7.

And in this holder 5, the penetration part 6d is made into the inner side of the surrounding part 6a which can move to the axial direction P of the bolt body 4a, and is arrange | positioned in the required position of the axial direction P, and the bolt body 4a. By having the second wiring / piping material 2b in at least two places where the positions with respect to the axial direction P are different, the second wiring / piping material 2b is located at any one of at least two places where the positions of the bolt bodies 4a with respect to the axial direction P differ. Arranged selectively.

Therefore, according to the holder 5, by selecting whether or not the holder 7 is used, any one of the first wiring / piping material 2a and the second wiring / piping material 2b having different diameters is selected. Piping material can be held. In the second wiring / piping material 2b, the second wiring can be moved inside the surrounding portion 6a that is movable in the axial direction P of the bolt body 4a and is disposed at a required position in the axial direction P. -The piping material 2b can be arrange | positioned in the arbitrary positions of at least two places from which the position with respect to the axial direction P of the bolt body 4a differs using the holding body 7, and, thereby, the axial direction P of the bolt body 4a. On the other hand, the movement range of the axis of the second wiring / piping material 2b can be ensured more than the movement range of the surrounding portion 6a, that is, the holder 5. That is, the holding body 7 can be provided to cope with a plurality of different diameters of the wiring / piping material 2 (specifically, the first wiring / piping material 2a and the second wiring / piping material 2b), In addition, with respect to the axial direction P of the bolt body 4a, ensure the movement range of the axis of the wiring / piping material 2 (specifically, the second wiring / piping material 2b) more than the moving range of the holder 5. The range of position adjustment of the wiring / piping material 2 (specifically, the second wiring / piping material 2b) can be widened.

  Further, the surrounding portion 6a may be a portion that does not surround the entire periphery of the holding body 7 or the first wiring / piping material 2a in the radial direction, but may partially surround them. I do not care. In the example shown in FIGS. 1 to 22 and FIGS. 30 to 32 described above, the first holding member 611 and the second holding member 612 constituting the main body 6 are separated from each other, and the surrounding portion 6a is the holding member. 7 and the first wiring / piping material 2a are partially enclosed. Also, as shown in FIG. 33, for example, the second holding member 612 is configured by divided bodies 6j and 6j that are divided so as to form an opening 6i in the middle of the second surrounding portion 622, so that the surrounding portion 6a. May partially surround the holding body 7 and the first wiring / piping material 2a. Further, as shown in FIG. 34, the main body 6 is composed of a single member, and the surrounding portion 6a is formed in an arc shape so as to have an opening 6i. The wiring / piping material 2a may be partially enclosed. In the example shown in FIGS. 33 and 34, the opening 7b of the through hole 7a in the holding body 7 is formed to be smaller and narrower than the outer diameter of the second wiring / piping material 2b. Even when the opening 7b of the through hole 7a is aligned with the opening 6i of the surrounding portion 6b, the second wiring / pipe material 2b does not come out.

  Moreover, if the inner surface of the surrounding part 6a is in contact with the outer surface of the first wiring / piping material 2a so as to limit the radial movement of the first wiring / piping material 2a, the first wiring / piping Although the movement of the material 2a in the axial direction may be permitted, the movement of the first wiring / piping material 2a in the axial direction is caused by the inner surface of the surrounding portion 6a pressing the outer surface of the first wiring / piping material 2a. It is desirable to suppress this. Further, also in the second wiring / piping material 2b, the inner surface forming the penetrating portion 6d is the outer surface of the second wiring / piping material 2b so as to limit the radial movement of the second wiring / piping material 2b. May be allowed to move in the axial direction of the second wiring / piping material 2b, but the inner surface forming the penetrating portion 6d presses the outer surface of the second wiring / piping material 2b. It is desirable to suppress the movement of the second wiring / piping material 2b in the axial direction.

  Further, inside the surrounding portion 6a, the holding body 7 is provided with restriction means (frictional force between the surrounding portion 6a and the holding body 7, engagement by fitting with a square shape, engagement between the concave portion and the convex portion, etc. ) May be restricted from rotating in the circumferential direction of the surrounding portion 6a. Further, the restricting means has a convex portion on the holding body 7 so as to come into contact with one or both of the opposing surfaces of the first attachment portion 631 (6b) and the second attachment portion 632 (6b). The protrusion may be formed by engaging one or both surfaces of the first attachment portion 631 and the second attachment portion 632 with the protrusions formed on the holding body 7. Among the restricting means, the engaging means excluding the frictional force, that is, the engaging part and the engaged part between the surrounding part 6a or the attaching part 6b (that is, the main body 6) and the holding body 7 By the engagement, the holding body 7 may be restricted from rotating in the circumferential direction of the surrounding portion 6a.

  Moreover, in the example shown in FIGS. 1-12 and FIG. 33, the ribs 7d and 7d of the holding body 7 that protrude from the surrounding portion 6a are arranged on both sides of the surrounding portion 6a. Regardless of the presence or absence of pressure contact by the portion 6a, the axial direction (that is, the axial direction of the wiring / piping material 2) is suppressed from shifting, but in other examples, it is desirable to provide similar ribs.

  Further, the holding body 7 has two rotating postures (that is, the second wiring / pipe material 2b with respect to the mounting surface 1 at the closest position and the distant position inside the surrounding portion 6a. However, the second wiring / pipe material 2b is far from the closest position with respect to the mounting surface 1 (in other words, with respect to the mounting surface 1). You may arrange | position with the rotation attitude | position) which arrange | positions in the middle with a position. However, in the examples shown in FIGS. 30 to 32, FIG. 33, and FIG. 34, since the through holes 7a (penetrating portions 6d) having the same diameter are provided, the holding body 7 is arranged in one rotating posture. It doesn't matter.

  Moreover, although the holding body 7 may be comprised with a hard material, a vibration proofing effect can be acquired by comprising with soft materials, such as foamed rubber. Moreover, the insulating effect can be acquired by comprising the holding body 7 with an insulating material. Furthermore, by forming the holding body 7 with a material having a lower thermal conductivity than the surrounding portion 6a and a piping material such as a drain pipe as the wiring / pipe material 2, the occurrence of condensation can be suppressed.

  Further, the holder 5 is not provided on the two bolt bodies 4 a and 4 a, but the attachment portion 6 b is provided only on one side of the main body 6 or the attachment portion 6 b is provided in the center of the main body 6. Moreover, you may make it support by the one bolt body 4a by providing the surrounding part 6a on both sides.

  Further, one or two through portions 6d (through holes 7a) are provided in the surrounding portion 6a, but three or more through portions 6d (through holes 7a) having different diameters or the same diameter are provided. Also good.

  Further, the outer surface of the holding body 7 and the entire holding body 7 are formed symmetrically (in the illustrated embodiment, left-right symmetrical) in a direction orthogonal to the axial direction P of the bolt body 4a and the direction in which the wiring / piping material 2 extends. Alternatively, it may be formed asymmetrically.

  Moreover, the surrounding part 6a may have other members inside the strip, even if it does not consist only of strips, such as a steel plate. Similarly, the holding body 7 may have other members on the outside or inside thereof.

  Further, the mounting surface 1 to which the bolt body 4a is fixed may be a wall surface or a ceiling surface, for example, instead of the basic floor surface. Further, the bolt body 4a may be fixed by being embedded in one end of the mounting surface 1 without being fixed to the mounting surface 1 via the base plate 4b.

  Further, it goes without saying that the constituent elements in the plurality of embodiments described above may be appropriately combined without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Mounting surface 2 Wiring and piping material 2a 1st wiring and piping material 2b 2nd wiring and piping material 4a Bolt body 5 Holder (wiring and piping material holder)
6 Body 6a Enclosing part 6b Attachment part 6c Internal space 6d Through part 7 Holding body 7a Through hole 7b Opening P Axial direction X Center of rotation Y Center of through part

Claims (7)

A wiring / pipe material holder that is attached to a bolt body fixed to a mounting surface and holds a wiring / piping material extending in a direction intersecting the axial direction of the bolt body,
A main body and a holding body that is used with or without use selected,
The main body includes an enclosing portion and an attachment portion that is movable integrally with the enclosing portion in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. ,
The surrounding portion is formed so as to surround the first wiring / piping material as the wiring / piping material in a circumferential direction,
Wherein the first wiring and piping material More be arranged to penetrate the inside of the surrounding portion, abuts against the outer surface of the inner surface of the surrounding member is the first wiring and piping material, in its first Wiring / piping material is held inside the enclosure without using the holding body,
The holding body is disposed inside the enclosure, and an outer surface abuts against an inner surface of the enclosure,
As the wiring / piping material having a smaller diameter than the first wiring / piping material, the inner surface of the holding body, or the inner surface of the holding body and the inner surface of the surrounding portion are formed inside the enclosing portion. Having a penetrating part through which the second wiring / piping material penetrates,
By arranging the holding body inside the enclosure and arranging the second wiring / piping material so as to pass through the penetration part, the inner surface of the enclosure abuts the outer surface of the holding body, And the inner surface that forms the penetrating part is in contact with the outer surface of the second wiring / pipe material, and the second wiring / pipe material is held inside the enclosure together with the holding body,
The second wiring / piping material is movable in the axial direction of the bolt body, and at least two locations where the positions with respect to the axial direction are different inside the surrounding portion arranged at a required position in the axial direction. The holding body can be arranged in at least two rotation postures on the inner side of the enclosure so that the holder can be selectively arranged in any one of the above and the penetrating through the rotation axis. Wiring / piping material holder, characterized in that the shaft center of the part is eccentric. A wiring / pipe material holder that is attached to a bolt body fixed to a mounting surface and holds a wiring / piping material extending in a direction intersecting the axial direction of the bolt body,
A main body and a holding body that is used with or without use selected,
The main body includes an enclosing portion and an attachment portion that is movable integrally with the enclosing portion in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. ,
The surrounding portion is formed so as to surround the first wiring / piping material as the wiring / piping material in a circumferential direction,
By disposing the first wiring / piping material so as to penetrate the inside of the enclosure, the inner surface of the enclosure abuts on the outer surface of the first wiring / piping material, and the first wiring -Piping material is held inside the enclosure without using the holding body,
The holding body is disposed inside the enclosure, and an outer surface abuts against an inner surface of the enclosure,
As the wiring / piping material having a smaller diameter than the first wiring / piping material, the inner surface of the holding body, or the inner surface of the holding body and the inner surface of the surrounding portion are formed inside the enclosing portion. Having a penetrating part through which the second wiring / piping material penetrates,
By arranging the holding body inside the enclosure and arranging the second wiring / piping material so as to pass through the penetration part, the inner surface of the enclosure abuts the outer surface of the holding body, And the inner surface that forms the penetrating part is in contact with the outer surface of the second wiring / pipe material, and the second wiring / pipe material is held inside the enclosure together with the holding body,
The second wiring / piping material is movable in the axial direction of the bolt body, and at least two locations where the positions with respect to the axial direction are different inside the surrounding portion arranged at a required position in the axial direction. A wiring / piping material holder, wherein the penetrating portion is provided in at least two places with different positions in the axial direction inside the surrounding portion so as to be selectively arranged in any one of the above. A wiring / pipe material holder that is attached to a bolt body fixed to a mounting surface and holds a wiring / piping material extending in a direction intersecting the axial direction of the bolt body,
A main body and a holding body;
The main body includes an enclosing portion and an attachment portion that is movable integrally with the enclosing portion in the axial direction of the bolt body and is attached to a required position in the axial direction of the bolt body. ,
The surrounding portion is formed so as to surround the holding body in a circumferential direction,
The holding body is disposed inside the enclosure, and an outer surface abuts against an inner surface of the enclosure,
Inside the enclosure, the inner surface of the holding body, or formed by the inner surface of the holding body and the inner surface of the enclosure, and having a penetrating portion through which the wiring / pipe material penetrates,
By disposing the holding body inside the enclosure, and arranging the wiring / piping material so as to penetrate the penetrating portion, the inner surface of the enclosure abuts the outer surface of the holding body, and The inner surface that forms the penetrating part is in contact with the outer surface of the wiring / pipe material, and the wiring / pipe material is held inside the enclosure with the holding body,
The wiring / piping material is movable in the axial direction of the bolt body, and inside the surrounding part arranged at a required position in the axial direction, at least one of two positions different in the axial direction The holding body can be arranged in at least two rotation postures on the inner side of the encircling portion, and the axis of the penetrating portion with respect to the axis of rotation. The center is eccentrically positioned, and at least two through portions with different diameters corresponding to at least two types of wiring and piping materials are provided as the through portion, and one of these through portions is selected. Wiring / pipe material holder characterized by being able to be used in general.   4. The outer surface of the holding body is formed symmetrically in a direction orthogonal to the axial direction and the direction in which the wiring / piping material extends. 5. Wiring and piping material holder.   The wiring / pipe material holder according to claim 1, wherein the holding body is formed in a disk shape. The holding body has a through-hole serving as the through-hole so that the penetrating portion is formed by the inner surface of the holding body,
In the state where the holding body is arranged inside the enclosure and the wiring / pipe material is arranged so as to penetrate the penetration, the enclosure is arranged so as to reduce the internal space inside the enclosure. The inner surface of the enclosing portion is pressed against the outer surface of the holding body, and the peripheral surface of the through hole is pressed against the outer surface of the wiring / pipe material. The wiring / pipe material holder according to any one of items 5 to 5. The holding body has a through hole that opens to the outer surface thereof, and the peripheral surface of the through hole and the through hole so that the through portion is formed by the inner surface of the holding body and the inner surface of the surrounding portion. The through portion is formed with the inner surface of the surrounding portion facing the opening of
In the state where the holding body is arranged inside the enclosure and the wiring / pipe material is arranged so as to penetrate the penetration, the enclosure is arranged so as to reduce the internal space inside the enclosure. The inner surface of the surrounding portion is in pressure contact with the outer surface of the holding body, and the peripheral surface of the through hole and the inner surface of the surrounding portion are in pressure contact with the outer surface of the wiring / pipe material. The wiring / piping material holder according to any one of claims 1 to 5.

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