JP3548862B2 - Wiring and piping material holder - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wire / pipe receiving member formed by welding a metal wire material into a net shape, and on which a wiring / pipe material such as a cable is placed, and particularly to a wire / pipe that can be stacked in transportation and storage. It is related to the receiving device of the material.
[0002]
[Prior art]
As a conventional receiving member of this type of wiring and piping material, for example, a technique disclosed in Japanese Patent Application Laid-Open No. 7-184309 is disclosed.
4 and 5 show a conventional receiving device for wiring and piping material. A receiving device 1 includes a mounting portion 2 on which a cable C as a wiring and piping material is mounted, and a standing portion from both ends of the mounting portion 2. And the side portions 3 provided. This receiving device 1 connects a plurality of metal supporting wires 4 bent in a substantially U-shape with a bottom portion 5 forming a mounting portion 2 and a rising portion 6 forming both side portions 3 in a longitudinal direction. Are connected to each other by a metal connecting wire 7 and a holding wire 9 disposed on the upper end portion and the mounting portion 2, respectively, to form a vertical and horizontal mesh. The outer surface of the upper end of the rising portion 6 of the support wire 4 and the connection wire 7 are connected by welding at a fusion portion 8 where they intersect. Also, the lower surface of the bottom 5 of the support wire 4 and the holding wire 9 are similarly connected by welding.
[0003]
[Problems to be solved by the invention]
However, since the conventional wire and pipe receiving device 1 is formed in a net shape by welding the supporting wire 4 to the connecting wire 7 and the holding wire 9, the supporting wire 4 and the connecting wire 7 are connected to each other. Since both are melted in the fusion portion 8, after welding, as shown in FIG. 6, the inside dimension L1 of both connecting wires 7 is outside the rising portion 6 of the supporting wire 4 by the amount of the left and right elution allowances a. It becomes smaller than the dimension L2. As a result, during storage, transportation, or the like, the one support 1 is shifted in the longitudinal direction, that is, the laying direction with respect to the support wire 4 of the other support 1 in the longitudinal direction, that is, the installation direction. Even when the support wires 4 are to be stacked, the outer surface of the rising portion 6 of the support wire 4 interferes with the inner surface of the connection wire 7, so that the support wire 4 of one support 1 is connected to the connection wire 7 of the other support 1. Can not be fitted. Therefore, it is not possible to stack a large number of receiving devices 1 vertically in multiple stages without creating useless space, which increases the storage space and inconvenience of transportation.
[0004]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a wiring / piping material receiving member which can be easily stacked in multiple layers without wasteful space, and which can enhance transport and storage efficiency.
[0005]
[Means for Solving the Problems]
Bracket as wiring and piping material according to the invention of claim 1, standing for forming the wiring and piping material is erected on both sides of the bottom and the placing portion forming a mounting portion to be mounted side A metal supporting wire formed at an upper portion thereof and arranged at intervals in a wiring direction of the wiring / piping material, and at least a side surface abutting on the supporting wire is formed in a plane, and a supporting upper portion of the supporting wire is formed. together and a connecting wire made of metal for connecting the supporting wires each other is welded to the outer surface of the upper end of, before Symbol support wire, a support wire one receiving fixture, the support wire of the other receiving fixture In a state shifted in the longitudinal direction, a stepped portion is formed to be bent inward below a fusion-bonded portion by welding with the connecting wire so that the receiving members can be stacked in multiple stages. The bending dimension due to the step portion is provided larger than the elution allowance of the fused portion, In which the raised portion below the step portion is provided so as to be inserted between the connecting wires of the other receiving fixture.
Further, in the receiving device for a wiring and piping material according to the second aspect of the present invention, the connecting wire according to the first aspect is configured such that a part of the supporting wire is formed on the outer side surface of the upper end of the upper portion of the supporting wire. It is welded while projecting upward.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
In the drawing, a receiving member 1 is formed of a mounting portion 2 on which a cable C as a wiring and piping material is mounted, and side portions 3 erected from both ends of the mounting portion 2. The receiving device 1 includes a plurality of metal supporting wires 4 bent in a substantially U-shape at a bottom portion 5 forming a mounting portion 2 and a rising portion 6 forming both side portions 3, and is connected to a side portion in a longitudinal direction. 3 are connected to each other by a metal connecting wire 7 and a holding wire 9 disposed on the upper end portion and the mounting portion 2, respectively, to form a vertical and horizontal mesh. The outer surface of the upper end of the rising portion 6 of the support wire 4 and the connection wire 7 are connected by welding at a fusion portion 8 where they intersect. Also, the lower surface of the bottom 5 of the support wire 4 and the holding wire 9 are similarly connected by welding.
[0007]
The connecting wire 7 is flattened up and down, and at least a side surface in contact with the supporting wire 4 is formed flat. The flattening of the connecting wire 7 can be performed by crushing in the lateral direction by a known means. The connecting wire 7 does not have to be flattened up and down. Wherein by connecting member 7 in contact at least with the support wire 4 equivalents side is formed in a plane, the welding is facilitated, and its intensity shall be greater is obtained. Further, the connecting wire 7 is connected so as to protrude slightly upward from the upper end of the rising portion 6 of the supporting wire 4 .
[0008]
Here, the supporting upper portion 6 of the supporting wire 4 is formed with a stepped portion 6a which is bent in a stepped shape at an intermediate portion thereof, and a portion below the fused portion 8 with the connecting wire 7 is located at an upper end portion. It protrudes inside the receiving member 1 by the size of the step b. Further, in the welded portion 8 where the support wire 4 and the connection wire 7 are welded, either due to the elution of both the support wire 4 and the connection wire 7 or due to the difference in the material between the support wire 4 and the connection wire 7. When only one of them is eluted, the contact surface between the supporting wire 4 and the connecting wire 7 is recessed into the other member by the elution margin a due to the elution of one of them. Here, the dimensional difference between the step b, that is, the outer surface of the upper end of the rising portion 6 and the outer surface of the portion below the step 6a protruding inside the receiving member 1 is formed to be at least larger than the elution allowance a. Here, the step b corresponds to the bending dimension of the claims.
[0009]
In FIG. 2, L1 indicates the inside dimension of the connecting wire 7 at the fusion bonding portion 8, and L2 indicates the outside dimension of the rising portion 6 of the support wire 4. Here, between the inner dimension L1 of the connecting wire 7 and the outer dimension L2 of the rising portion 6, as described above, since b> a, a relationship of L1> L2 always holds.
[0010]
Next, the operation of the receiving device of the present embodiment configured as described above will be described.
In the receiving device 1 of this embodiment, since the step portion 6a where b> a is formed, the relationship is always L1> L2, and the connecting wires 7 are provided on both side portions 3 of the receiving device 1, respectively. Only one is provided. For this reason, when storing and transporting, when the support wires 4 of one receiver 1 are shifted in the longitudinal direction, that is, the laying direction with respect to the support wire 4 of another receiver 1, when the receivers 1 are stacked one above the other. In addition, the support wire 4 of one receiving tool 1 can be fitted between the connection wires 7 without being interfered with by the other connection wires 7. After the fitting, as shown in FIG. 3, the connecting wires 7 of each receiving device 1 may have a gap in the vertical direction, but at least the lower surface of the supporting wire 4 at the bottom 5 of each receiving device 1 The bottom of the other receiver 1 is securely brought into contact with the upper surface of the support wire 4. Therefore, a large number of holders 1 can be easily stacked vertically in multiple stages with at least the bottom support wires 4 in contact with each other, so that they can be compactly stored and transported easily.
[0011]
In addition, since the connecting wire 7 is flattened and at least the side surface in contact with the supporting wire 4 is formed in a plane, the supporting wire 4 can be easily welded to a predetermined position even if the supporting wire 4 has a round bar shape. The welding strength can be increased.
[0012]
Further, since the connecting wire 7 is welded at a position protruding slightly above the upper end of the rising portion 6 of the supporting wire 4, the cable C is drawn into the installation path of the receiving device 1 from the side of the receiving device 1. In this case, it is possible to prevent the cable C from being in contact with the upper end corner of the rising portion 6 of the supporting wire 4 and being damaged.
[0013]
【The invention's effect】
As described above, the wiring and piping material receiving device according to claim 1 has a bottom portion that forms a mounting portion on which the wiring and piping material is mounted , and side portions that are erected on both sides of the mounting portion. And a metal supporting wire disposed at intervals in the direction in which the wiring and piping materials are laid, and at least a side surface in contact with the supporting wire is formed in a plane, and together and a metallic connecting wire for connecting the supporting wires each other is welded to the outer surface of the upper end of both the upper, front Symbol support wire is the support wire of one receiving fixture, the other receiving fixture In the state shifted in the longitudinal direction with respect to the supporting wire, a stepped portion is formed to be bent inward below the fusion portion by welding with the connecting wire so that the receiving members can be stacked in multiple stages. The bending dimension by the step portion is provided larger than the elution allowance of the fused portion, Rising portion below the Kidan unit is one that was provided to be inserted between the connecting wires of the other receiving fixture. Therefore, since the inner dimension of the connecting wire is always larger than the outer dimension of the supporting wire, the supporting wire of one receiving member is shifted in the longitudinal direction, that is, the laying direction with respect to the supporting wire of the other receiving member. When the components are stacked up and down, the supporting wire of one receiving member can be inserted between the connecting wires without interfering with the other connecting wires. As a result, the receivers can be stacked one above the other in multiple stages, so that a large number of receivers can be stored compactly without creating a useless space, and transport can be performed easily.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a receiving member for wiring and piping materials according to an embodiment of the present invention.
FIG. 2 is a front view of the receiving device of FIG. 1;
FIG. 3 is a front view showing a state in which the receivers of FIG. 1 are stacked in multiple stages.
FIG. 4 is a perspective view showing a conventional receiving member for wiring and piping materials.
FIG. 5 is a front view showing a state before welding a support wire and a connecting wire of the receiver of FIG. 4;
FIG. 6 is a front view showing a state after welding the supporting wire and the connecting wire of the receiving device of FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Receiving tool 2 Mounting part 3 Side part 4 Support wire 6 Rise 6a Step 7 Connecting wire 8 Fusion part a Elution margin b Step C Cable L1 Inner dimension of connecting wire L2 Outer dimension of supporting wire

Claims (2)

It is composed of a mounting portion on which wiring and piping materials are mounted, and side portions erected on both sides of the mounting portion,
A metal supporting wire rod formed by a bottom part forming the mounting part and a rising part forming the side part, and arranged at intervals in a wiring direction of the wiring and piping material;
Together and at least said support wire abutting side is formed in a plane, said support wire metallic connection wire is welded to the outer surface of the upper end of both upper connecting the support wires mutual,
Before Symbol support wire is the support wire of one receiving fixture, in a state shifted in the longitudinal direction with respect to the support wire of another female component, the female component with each other in order to enable stacking in multiple stages, and the connecting wires A step portion bent inward is formed below the welded portion by welding, and a bending dimension of the step portion is provided to be larger than an elution allowance of the fused portion, and a rising portion below the step portion is formed. A wiring and piping material receiving member provided so as to be inserted between connecting wires of another receiving member. 2. The wiring / pipe according to claim 1, wherein the connecting wire is partially welded to an outer surface of an upper end portion of both upper portions of the support wire so as to protrude upward from an upper end portion of the upper portion. 3. Receiving material.

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