JP4619678B2 - Wiring and piping material support - Google Patents

Description

The present invention relates to a support for supporting a wiring / piping material partially arranged in the air in a stepped portion or an aerial portion from below.

  As a support (fixing tool) for the wiring / piping material described above, the one described in Patent Document 1 is known. The fixture described in Patent Document 1 is manufactured by sheet-metal processing a steel plate, and tube holding portions that hold the outer side of the tube so as to hold the tube are integrally connected to both ends of the bendable connecting piece. Fixing portions for fixing the fixing device itself to the mounting surface are continuously formed outside the tube holding portion. In order to pipe the pipes at the stepped portion using the fixing tool, as shown in FIG. 3 of Patent Document 1, the surface on the high side facing the stepped portion is low and separated from the stepped portion by a predetermined distance. The connecting piece is inclined between the side surface, each fixing portion is fixed to the mounting surface, and the pipes are arranged on the step portion along the inclined connecting piece. I support it.

  In the fixture disclosed in Patent Document 1, since the length of the connecting piece is constant, the inclination angle of the connecting piece changes according to the height of the stepped portion, and the pipes are piped to the stepped portion at the target inclination angle. Can not. In addition, the bent portion of the fixture is concentrated on the connecting portion between the connecting piece and the tube holding portion at both ends of the connecting piece, and only the portions at both ends of the connecting piece are greatly bent, so the tubes are sheath tubes. In such a case, when inserting a water supply pipe or the like into the inside of the sheath tube, the portion supported by both ends of the connection piece in the sheath pipe is bent corresponding to the sudden bending of the connection piece. For this reason, the water supply pipe or the like cannot be inserted smoothly.

  In addition, because the length of the fixture is fixed, the length of the portion where the fixture is inclined is changed according to the height of the step, so the fixture is stepped down from the step. Since the distance abutting on changes depending on the height of the stepped portion (in other words, the inclination angle of the fixing tool at the stepped portion), piping cannot be performed by bringing the fixing tool into contact with the lower target position.

In order to solve the above problems, it may be possible to bend the connecting piece of the fixture in the middle to obtain the desired shape as a whole. However, like the stepped part, the two heights connected via the stepped part are considered. If the different surfaces are almost horizontal (exactly, the surfaces are substantially parallel to each other), the connecting pieces are not bent and used in a straight shape. When a large load is applied, such as when a person gets on, the connecting piece is greatly deformed at the bent portion, and the initial bent shape cannot be maintained.
JP-A-11-344156

  In the present invention, when the wiring / piping material is mainly supported at the step portion from below, the wiring / piping is continuously bent with a desired inclination angle without significant bending (buckling). It is an object to provide a wiring / pipe material support that can be used for wiring / piping material and has high bending strength.

The invention of claim 1 for solving the above-described problem is a support tool for supporting wiring / piping material partially disposed in the air in the stepped portion or in the air from below, even if a person gets on An elongated metal plate having a bending rigidity that does not deform is formed as a whole, and a rigid plate portion having a fixing portion with respect to the installation surface and a connecting plate portion that connects the rigid plate portions are arranged along the longitudinal direction. The connecting plate portions are alternately formed, and the connecting plate portions have bending rigidity smaller than the rigid plate portions so that the adjacent rigid plate portions can be bent at an appropriate angle. The length along the longitudinal direction of the entire tool simultaneously satisfies the two conditions that the bending is possible and that the bending rigidity of the entire support tool is maintained so that it does not deform even if a person gets on it. stipulated in the minimum required length may be, supported by the connecting plate portion Ingredients is bent, is formed a portion which is the air disposed in the support, portions which are air disposed in the wiring and piping material is characterized in that is supported from below by aerial arrangement portion of the support device .

  According to the first aspect of the present invention, the connecting plate portion for connecting the rigid plate portions has a bending rigidity smaller than that of the rigid plate portion so that the adjacent rigid plate portions can be bent at an appropriate angle. The length of the connecting plate portion along the longitudinal direction of the entire support is maintained so that the bending is possible and the bending rigidity of the entire support is not deformed even if a person rides. Since it is set to the minimum required length that can satisfy both of the two conditions at the same time, it is necessary to ensure that the support as a whole is rigid enough to prevent deformation even if a person rides on it. The support plate of the rigid plate portion can be freely bent at the connection plate portion portion. Therefore, for example, when wiring and piping at a stepped portion, a predetermined number of rigid plate portions immediately before and after the installation are partially bent at a small angle in opposite directions with respect to the two installation surfaces constituting the stepped portion. By combining the respective bends, both ends of the support can be fixed in a tangential state with respect to the two installation surfaces constituting the stepped portion. For this reason, the wiring / pipe material supported by the step portion can be supported in a substantially continuous curved state without a large bent portion on the way, and the subsequent line / pipe insertion work can be performed smoothly.

  Moreover, with respect to the change in the height of the stepped portion, the wiring / pipe material can be supported at a target inclination angle by adjusting the number of rigid plate portions arranged in the air in an inclined state. Furthermore, when installing the support tool on the stepped portion, avoiding the connection plate portion being disposed at the protruding corner portion of the stepped portion, and fixing the rigid plate portion in a state where a part thereof is disposed in the air, Even when a person rides, the support becomes more difficult to deform.

  Further, in the invention of claim 2, in the invention of claim 1, the connecting plate portion is formed with notches in the width direction at both ends so as to be narrower than the rigid plate portion, The bending rigidity is smaller than that of the rigid plate portion. For this reason, according to the invention of claim 2, the bending rigidity of the connecting plate portion can be made smaller than that of the rigid plate portion due to the presence of the concave portion formed in at least one of the connecting plate portions in the width direction. The rigid plate portion can be reliably bent at the connecting plate portion. In addition, the recess formed in the connecting plate portion in a cut shape along the width direction functions as a wire hooking portion that can fix the wiring / pipe material supported by the wire with the wire rod. The wire / pipe material can be firmly fixed to the support by fixing the wire wound integrally with the support to the recess of the support. Therefore, it is not necessary to separately form a wire rod hooking portion.

  Further, the invention of claim 3 is that, in the invention of claim 1 or 2, the connecting plate part is formed with a recess in the width direction, and the bending rigidity is smaller than that of the rigid plate part. It is a feature. According to the invention of claim 3, since the bending rigidity of the portion of the connecting plate portion where the recess is provided is smaller than that of the other portion, the connecting rigid plate portion is surely secured at the portion of the connecting plate portion. To be bent.

  The invention of claim 4 is the invention of claim 2, wherein the recess functions as a wire hooking portion capable of fixing the wiring / pipe material supported by itself with the wire. The wire / pipe material can be securely fixed to the support by fixing the wire and the support that are integrally wound on the recess of the support.

  The invention of claim 5 is characterized in that, in the invention of any one of claims 1 to 4, the fixing portion is a fixing hole formed through each rigid plate portion. By inserting a nail into the hole and driving it into the installation surface, the support can be easily fixed to the installation surface.

  In the wiring / pipe material support according to the present invention, the connecting plate portion for connecting the rigid plate portions to each other is more rigid than the rigid plate portion so that the adjacent rigid plate portions can be bent at an appropriate angle. It has a small bending rigidity, and the length of the connecting plate portion along the longitudinal direction of the entire support is such that the bending is possible, and the bending rigidity of the entire support is deformed even if a person gets on it. It is set to the necessary minimum length that can satisfy the two conditions of being held at the same time, and both ends of the support tool can be fixed tangentially to the two installation surfaces constituting the stepped portion. , Can smoothly support the wiring and piping material without greatly bending at the stepped portion, and can smoothly perform the subsequent insertion work of wires and pipes, and is arranged in the air in an inclined state corresponding to the height of the stepped portion. By adjusting the number of rigid plate parts In step portion, it can be supported at a tilt angle desired regardless wiring and piping material is its height. In addition, during work, even if a part placed in the air in an inclined posture is stepped on by an operator, etc., the entire support tool has bending rigidity that does not deform under human load. The aerial arrangement part is not bent.

Hereinafter, the present invention will be described in more detail with reference to the best mode. FIG. 1 is a perspective view of a state in which a support S for wiring / piping material according to the present invention is installed in a stepped portion A ₁ , and FIG. 2 shows that a sheath pipe P is attached by the support S installed in the stepped portion A _1. FIG. 3 is a side view, FIG. 4 is a partial plan view of the support S, and FIG. 5 is a partial side view.

As shown in FIGS. 1, 4, and 5, the support tool S that supports the sheath pipe P at the stepped portion A ₁ is formed of an elongated steel plate and has a bending rigidity that does not deform even when a person rides on the support tool S. have. The support S is formed by alternately forming rectangular rigid plate portions 1 and connecting plate portions 2 that connect the rigid plate portions 1 along the longitudinal direction. The connecting plate portion 2 is formed by cutting the recesses 3 at both end portions in the width direction while maintaining the same thickness as the rigid plate portion 1. The concave portion 3 is a wire rod for fixing the supporting sheath tube P to the support S for the purpose of lowering the rigidity of the connecting plate portion 2 with respect to the rigid plate portion 1 and facilitating partial bending. It also functions as a “wire rod latching portion” for latching B. That is, as shown in FIGS. 4 and 5, the width (W ₂ ) of the connecting plate portion 2 is narrower than the width (W ₁ ) of the rigid plate portion 1 and the longitudinal direction of the connecting plate portion 2. The dimension (L ₂ ) along the line is much smaller than the dimension (L ₁ ) along the longitudinal direction of the rigid plate portion 1. Further, on both the front and back surfaces of the connecting plate portion 2, concave grooves 4 are respectively formed along the width direction, and the rigidity of the connecting plate portion 2 with respect to the rigid plate portion 1 is lowered in cooperation with the concave portion 3, The partial bending is facilitated.

Each rigid plate portion 1 is formed with a pair of first nail insertion holes 5 at a predetermined interval along the longitudinal direction, and between the pair of first nail insertion holes 5 along the longitudinal direction, Three second nail insertion holes 6 smaller than the first nail insertion hole 5 are formed at predetermined intervals along the width direction. Each of the first and second nail insertion holes 5 and 6 has a nail N for fixing the support S to the first and second installation surfaces F ₁ and F ₂ forming the stepped portion A _1. Although it is for insertion, it can also be used for attaching the saddles for fixing the supporting sheath pipe P to the support tool S in the second nail insertion hole 6. The support S of the embodiment is composed of a steel plate having a length of about 600 mm, a width of about 50 mm, and a plate thickness of 2 to 2.5 mm.

And, using the support tool S according to the present invention, to arrange the sheath tube P in a supported state on the stepped portion A ₁ formed between the first and second installation surfaces F ₁ and F ₂ , This is done as follows. First, as shown in FIG. 1 and FIG. 3, the rigid plate portions 1 that are adjacent to each other on the first and second installation surfaces F ₁ and F ₂ of the support S are arranged in directions opposite to each other. The support tool S is arranged in a tangential state with the first and second installation surfaces F ₁ and F ₂ . That is, in the portion arranged at the connection portion between the first installation surface F ₁ on the higher side and the aerial part, the several rigid plate parts 1 that are adjacent to each other are partially bent downward slightly, In the portion arranged at the connection portion between the second installation surface F ₂ on the lower side and the aerial part, the several successive rigid plate parts 1 are slightly turned upward so as to be opposite to the above. When the remaining continuous rigid plate portion 1 of the support tool S that is partially bent and disposed in the air is left in a continuous plate shape without being bent, the support tool S is provided with each of the rigid plate portions 1 constituting the support plate S. Are partially bent in the above direction at a small angle, and are arranged in a substantially continuous curved shape at the stepped portion A ₁ by combining the bending of the rigid plate portions 1.

Also, when installing the support S to the step portion A _1, to avoid the connecting plate portion 2 is disposed on the external corner portion 7 of the stepped portion A _1, is part of a specific rigid plate part 1 part The support tool S is stepped on by the operator or the like at the projecting corner portion 7 by being disposed in the air and cantilevered so that the remaining portion is installed on the first installation surface F _1. For example, the support tool S is not bent even if a large load is applied to the support tool S at the protruding corner 7. As described above, the specific rigid plate portion 1 of the support S arranged in a curved line substantially continuous with the stepped portion A ₁ is attached to the first and second installation surfaces F ₁ and F ₂ with the nail N. Use to fix. That is, the nail N inserted through the first nail insertion hole 5 of the specific rigid plate portion 1 is driven and fixed to the first and second installation surfaces F ₁ and F ₂ . In the example shown in the drawing, when viewed from the air-arranged side, first, each of the rigid plate portions 1 installed on the first and second installation surfaces F ₁ and F ₂ and the rigid plate portions 1 at both ends are provided. The rigid plate portion 1 is fixed to the installation surfaces F ₁ and F ₂ via nails N, respectively.

Next, as shown in FIG. 2 and FIG. 3, a support tool that is arranged in a substantially continuous curve at the stepped portion A ₁ and is fixed to the first and second installation surfaces F ₁ and F _2. by S, to support the sleeve pipe P placed on the step portion a _1, in an appropriate position, using the wire B, and fixing the sheath tube P to the bracket S. That is, when the wire B hooked to the recess 3 formed in the connecting plate portion 2 of the support S is wound around the sheath tube P and both ends of the wire B are connected, the sheath is interposed via the plurality of wires B. The tube P is fixed to the support tool S at a plurality of locations along the longitudinal direction, and the sheath tube P does not fall off from the support tool S.

Thus, since the supporting sleeve pipe P to be piped to the stepped portion A ₁ by support S disposed almost continuously curved step portion A _1, the sleeve pipe P at the step portion A ₁ is The pipe is arranged in a substantially continuous curved line following the arrangement shape of the support S without being greatly bent. For this reason, when inserting a wire / tube into the sheath pipe P in a subsequent process, the wire / tube can be smoothly inserted into the stepped portion A ₁ without being caught by the inner peripheral surface of the sheath pipe P.

In addition, since the length (L ₂ ) along the longitudinal direction of the connecting plate portion 2 constituting the support S of the above-described embodiment is a necessary minimum length, for example, the worker is in an inclined posture during the work. Even if a large load is applied to the part arranged in the air by stepping on the part arranged in the air, it is difficult to be deformed. That is, since the length (L ₂ ) along the longitudinal direction of the connecting plate portion 2 is a necessary minimum length, after satisfying the condition that the connecting plate portion 2 can be bent between the adjacent rigid plate portions 1, The structure is strong against bending force.

6A and 6B are schematic side views showing a state in which the same support S is installed at substantially the same inclination angle (θ) on the stepped portions A ₁ and A ₂ having different heights H ₁ and H ₂ . The rigid plate portion 1 constituting the support S is shown in a broken line shape. Height H ₂ of the step portion A ₂ is the higher than the height H ₁ of A _1, when placed in the same and the step portion A ₁ (distance in contact with the under stage counted from the stepped portion is at the same In some cases, the inclination angle becomes large, and there is a risk of hindering the line / pipe insertion work in the subsequent process. Therefore, in the step A _{2 having} a large step, as shown in FIG. 6B, the number of rigid plate portions 1 arranged in the air is increased and the bending positions of the adjacent rigid plate portions 1 are shifted. Accordingly, the support S can be disposed at substantially the same inclination angle (θ) as the stepped portion A ₁ having a small step. Thus, the same support tool S can support the sheath tube P in a substantially continuous curved shape corresponding to the stepped portions having different heights.

Further, FIG. 7 shows that several existing pipes 12 are provided on the installation surface F _3, and the aerial arrangement portion of the sheath pipe P is supported when the sheath pipe P is provided across the existing pipe 12. It is a side view of the usage example supported by the tool S. Also in this usage example, the rigid plate portions 1 that are adjacent to each other are slightly bent so that both end portions of the portion of the support S that is disposed in the air are tangential to the installation surface F ₃ , As a continuous curve.

Moreover, in the said Example, since each 1st and 2nd nail penetration holes 5 and 6 are each formed in each rigid board part 1 which comprises the support tool S, the part arrange | positioned in the air of the support tool S Regardless of the length, the rigid plate portion 1 closest to the portion of the support S that is disposed in the air can be fixed to the installation surface, and the fixing of the support to the installation surface is ensured. However, each rigid plate portion 1 may have a structure in which, for example, every other first and second nail insertion holes 5 and 6 are provided, or the length of the connecting plate portion 2 along the longitudinal direction. It is also possible to provide a nail insertion hole (fixing portion for fixing the support tool S to the installation surface) in the connecting plate portion 2 by making L ₂ a size that can form a nail insertion hole.

  Further, regarding the number of fixing portions for fixing the support tool to the installation surface, it is necessary to provide a plurality of fixing portions at intervals along the longitudinal direction of the support tool. As for the arrangement of the fixing part, the central part in the longitudinal direction of the support tool is arranged in the air and is rarely installed on the installation surface. Therefore, the fixing part is provided in the central part in the longitudinal direction of the support tool. It is desirable that the number of the fixing portions is reduced or reduced when the fixing portions are provided, and the fixing portions are concentrated on the portion excluding the central portion in the longitudinal direction of the support, which is a portion that must be installed on the installation surface.

  In addition, as a part which latches the wire rod B which fixes the sheath pipe P with respect to the support tool S with respect to this support tool S, it is not restricted to the said recessed part 3, It is a locking hole opened in the rigid board part 1. FIG. It is also possible to use the first nail insertion hole 5 as the retaining hole.

The support S of the wiring and piping material according to the present invention is a perspective view of a state installed in the stepped portion A _1. It is a perspective view of a support state inclined to the sleeve pipe P by support S installed in the stepped portion A _1. It is a side view similarly. 3 is a partial plan view of a support tool S. FIG. It is a partial side view similarly. (A), (B) is a schematic side view of a state in which the same support S is installed at substantially the same inclination angle (θ) at step portions A ₁ and A ₂ having different heights H ₁ and H ₂ . . When the pipe sheath tube P in a state straddling the existing pipe 12 of the several that are plumbed to the installation surface F _3, is a side view of a use case for supporting the aerial arrangement portion of the sleeve pipe P at support S.

A ₁ , A ₂ : steps
B: Wire rod
F _{1 to} F ₃ : Installation surface
H ₁ , H ₂ : Height of the step
P: Sheath tube (wiring / piping material)
S: Support tool
1: Rigid plate
2: Connecting plate
3: Concave portion (wire rod retaining portion)
5: First nail insertion hole (fixed part)
6: 2nd nail insertion hole (fixed part)

Claims (5)

A support tool for supporting wiring / piping material partially disposed in the air in the stepped portion or the aerial portion from below,
The whole is composed of an elongated metal plate with bending rigidity that does not deform even when a person rides,
Rigid plate portions provided with fixing portions with respect to the installation surface and connecting plate portions that connect the rigid plate portions are alternately formed along the longitudinal direction,
The connecting plate portion has a bending rigidity smaller than that of the rigid plate portion so that the rigid plate portions that follow each other can be bent relatively at an appropriate angle.
The length of the connecting plate portion along the longitudinal direction of the entire support is such that the bending is possible and that the bending rigidity of the entire support is not deformed even if a person rides. It is set to the minimum required length that can satisfy both conditions at the same time,
The support plate is bent at the connecting plate portion to form a portion arranged in the air on the support device, and the portion arranged in the air in the wiring / pipe material is supported from below by the air arrangement portion of the support device. support of the wiring and piping material, characterized in that that. The connecting plate portion is formed with notches at both ends in the width direction so as to be narrower than the rigid plate portion, and the bending rigidity is smaller than that of the rigid plate portion. The wiring / piping material support according to claim 1. The wiring / piping material support device according to claim 1, wherein a concave line is formed in the width direction in the connecting plate portion, and bending rigidity is smaller than that of the rigid plate portion. . The said recessed part functions as a wire hooking part which can fix the wiring and piping material which it supports by itself with a wire, The wiring / piping material support tool of Claim 2 characterized by the above-mentioned. 5. The wiring / pipe material support according to claim 1, wherein the fixing portion is a fixing hole formed through each rigid plate portion. 6.

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