JP7033405B2 - Installation structure of wall material mounting members - Google Patents

Description

The present invention relates to a member for mounting a wall material.

Conventionally, when installing an ALC board, a retrofit method has been proposed in which a hole is made in a solidified concrete slab and the ALC board is attached to an ALC board mounting bracket installed in this hole (see, for example, Patent Document 1). ). However, in such a retrofit method, holes are made in the concrete, which may reduce the strength of the slab. In order to prevent this decrease in strength, a pre-attached method in which ALC board mounting brackets are installed in advance before concrete is placed has also been proposed. In such a pre-attachment method, the ALC board mounting bracket is welded so as to protrude upward with respect to the slab bar, and after the concrete is placed, the ALC board is attached to the ALC board mounting bracket protruding above the concrete upper surface. It was installed.

Japanese Unexamined Patent Publication No. 2005-200984

However, in such a method, the metal fittings for mounting the ALC board cannot be installed until the slab reinforcements are arranged, and the construction procedure is limited after the slab reinforcements are arranged. In addition, since it is necessary to weld a plurality of ALC board mounting brackets to the slab reinforcement, it takes time and cost to weld, and since the welding work is performed on the slab reinforcement, the workability is lowered and the risk at the time of construction is increased. There was a possibility. Therefore, there is a demand for ALC board mounting metal fittings which can reduce the labor and cost required for welding without limiting the construction timing after arranging the slab reinforcements, and can improve the workability and reduce the risk. rice field.

In view of the above facts, the present invention makes it possible to improve the degree of freedom in construction timing, reduce the labor and cost of construction, and further reduce the risk of construction work. It is an object of the present invention to provide a member for mounting a wall material.

In order to solve the above-mentioned problems and achieve the object, the installation structure of the wall material mounting member according to claim 1 includes a base portion that can be installed on an installation base located below the slab bolt. An installation structure for a wall material mounting member , comprising a projecting portion that can be mounted so as to project from the base portion and a nut portion that mutually fixes the base portion and the projecting portion . The protruding portion is an exposed portion exposed on the space side above the slab concrete covering the slab bar, the exposed portion to which a wall material can be attached, and a bolt portion protruding from the exposed portion. It has the bolt portion screwed to both the base portion and the nut portion, and the distance between the exposed portion and the base portion can be adjusted, and the nut portion is the base portion. And the protruding portion, the nut portion is provided between the base portion and the exposed portion, and the nut portion is pressed against the end portion of the base portion on the exposed portion side. By doing so, the base portion and the projecting portion are mutually fixed, the exposed portion is a flat plate, and the exposed portion is opposite to the end portion of the bolt portion on the side screwed with the base portion. It is provided at the tip of the side.

According to the installation structure of the wall material mounting member according to claim 1, since the base portion can be installed on the installation base, the wall material mounting member is installed regardless of whether or not the slab bar has been installed. It is possible to improve the degree of freedom in construction timing. In particular, since the wall material mounting member can be constructed without the slab reinforcement being constructed, the construction space can be widened and the risk of the construction work can be reduced. In addition, since the slab muscles can be prevented from becoming an obstacle, it is possible to reduce the labor of construction. In addition, since the labor of construction can be reduced, the work time of construction work can be shortened, and the construction cost can be reduced.
Further, since the height relationship between the slab concrete and the exposed portion can be adjusted, the height between the slab concrete and the exposed portion can be easily matched, and the wall material mounting member can be used. It is possible to further improve workability.

It is an exploded perspective view which shows the wall material mounting member which concerns on this embodiment. It is sectional drawing of the slab in the state which the member for attaching a wall material is provided. It is a top view of the slab in the state where the wall material mounting member is provided. It is an enlarged view of the wall material mounting member of FIG.

Hereinafter, embodiments of the wall material mounting member according to the present invention will be described in detail with reference to the accompanying drawings. First, [I] the basic concept of the embodiment will be described, then [II] the specific contents of the embodiment will be described, and finally, [III] a modification to the embodiment will be described. However, the present invention is not limited to the embodiments.

[I] Basic concept of the embodiment First, the basic concept of the embodiment will be described. Embodiments typically relate to wall material mounting members.

Here, the "wall material mounting member" is a mounting means for mounting the wall material, and specifically, is used when the wall material is mounted on a slab of a building, for example, with a base portion. , With a protrusion.

The "wall material" is a member that forms the wall of the building, and specifically, is attached to a slab. For example, ALC (Autoclaved Lightweight aerated Concrete): lightweight aerated concrete cured by high temperature and high pressure steam. ) It is a concept including a member formed of a panel, a member formed of an arbitrary material other than an ALC panel, and the like. A "slab" is one that forms the floor structure of a building, for example, one that has at least an installation base and a slab streak, for example, a concrete slab with concrete in addition to these elements, or , A concept that includes slabs and the like provided with any building material other than concrete in addition to these elements. The "installation base" is a base for a slab, and is a concept including, for example, a deck slab made of an arbitrary material, a beam steel frame, or the like. The "slab bar" is a reinforcing bar provided on the slab, and is a concept including, for example, a reinforcing bar provided above the installation base and parallel to the installation base.

Further, the "base portion" is a part of the wall material mounting member, and specifically, is a portion that can be installed on an installation base located below the slab bar.

Further, the "protruding portion" is a part of the wall material mounting member, specifically, a portion that can be mounted so as to project upward with respect to the base portion, and is provided with, for example, an exposed portion. Is. The "exposed portion" is a part of the protruding portion, specifically, a portion exposed on the space side above the slab concrete covering the slab streaks, and a portion to which a wall material can be attached.

Then, in the embodiment shown below, the case where the "wall material" is an ALC panel and the "slab" is a concrete slab will be described.

[II] Specific contents of the embodiment Next, the specific contents of the embodiment will be described.

(Constitution)
First, the configuration of the wall material mounting member according to the present embodiment will be described. FIG. 1 is an exploded perspective view showing a wall material mounting member according to the present embodiment, FIG. 2 is a cross-sectional view of a slab in a state where the wall material mounting member is provided, and FIG. 3 is a cross-sectional view. It is a top view of the slab in a state where the wall material mounting member is provided.

As for the slab 200 in FIG. 1, the slab 200 before placing the concrete material 23 in FIG. 2 is shown. Further, FIG. 2 is a cross-sectional view of a position corresponding to the position indicated by the arrow AA in FIG. 1, but for convenience of explanation, the hatching of the concrete material 23 is omitted, and each element is shown by a solid line. Has been done. In reality, a plurality of wall material mounting members 100 are provided for the slab 200, but for convenience of explanation, one wall material mounting member 100 is shown in FIG. 1, and FIGS. 2 and 2 and FIGS. In No. 3, two wall material mounting members 100 are shown. In the following description, the wall material mounting member 100 is specified only when it is necessary to clearly indicate that there are a plurality of wall material mounting members 100, and in other cases, attention is paid to one wall material mounting member 100. explain.

Then, in the following, the slab 200, the wall material 300, and the wall material fixture 400 will be described, and then the wall material mounting member 100 will be described.

(Composition-Slab)
The slab 200 of FIGS. 2 and 3 has a floor structure in which the wall material 300 of FIG. 1 is provided. The specific type and configuration of the slab 200 are arbitrary, and can be configured in the same manner as the conventional slab 200 except that the wall material mounting member 100 is provided, and only the outline will be described. The slab 200 includes, for example, an installation base 21, a slab bar 22, and a concrete material 23.

(Composition-Slab-Installation base)
The installation base 21 is a base of the slab 200, and is, for example, one that extends along the XY plane as a whole, and has a stepped shape that repeats peaks and valleys in the X direction. It is also made of metal.

(Composition-Slab-Slab muscle)
The slab bar 22 reinforces the slab 200, for example, one provided above the installation base 21 (+ Z direction), and a plurality of slab bars 22 provided so as to be orthogonal to each other. Yes, and it is made of metal.

(Composition-Slab-Concrete material)
The concrete material 23 is slab concrete that covers the slab bar 22, for example, is provided above the installation base 21 (+ Z direction), and is said from below the slab bar 22 (−Z direction). It extends above the slab bar 22 (in the + Z direction) and is formed by placing concrete.

(Composition-Wall material)
The wall material 300 in FIG. 1 forms a wall of a building. The specific type and configuration of the wall material 300 is arbitrary, and can be configured in the same manner as the conventional one except for how it is attached, but for example, it has a rectangular shape, and an ALC panel is used. It was formed.

(Composition-Wall material fixture)
The wall material fixture 400 of FIG. 1 is for attaching the wall material 300 to the slab 200. The specific type and configuration of the wall material fixture 400 is arbitrary, and can be configured in the same manner as the conventional one except for the mounting method, but is, for example, an L-shaped vertical cross-sectional view. It is also made of metal.

(Structure-Wall material mounting member)
FIG. 4 is an enlarged view of the wall material mounting member of FIG. The wall material mounting member 100 of FIG. 4 is for mounting the wall material 300 on the slab 200, specifically, for mounting via the wall material fixture 400, for example, the base portion 11. , A protrusion 12, and a nut 13.

(Structure-Wall material mounting member-Base)
The base portion 11 can be installed on the installation base 21 located below the slab bar 22 (in the −Z direction). The specific type and configuration of the base portion 11 is arbitrary, for example, it is made of metal, and as an example, it includes a base portion 111 and a cylindrical portion 112.

(Structure-Wall material mounting member-Base-Base)
The base 111 is, for example, a portion welded to the installation base 21 and is a disk-shaped portion.

(Structure-Wall material mounting member-Base part-Cylindrical part)
The cylindrical portion 112 is, for example, a portion to which the protruding portion 12 is attached, and also projects upward (+ Z direction) in the height direction (Z direction) from the vicinity of the center of the base portion 111, and the protruding portion 12 It is provided with a screw hollow portion 112a in which a screw thread to be screwed with is formed on the inner surface. The length of the cylindrical portion 112 is arbitrary, but is set shorter than the distance from the upper surface of the installation base 21 to the slab bar 22 as shown in FIG. 2, for example, from the viewpoint of improving workability. ..

(Structure-Wall material mounting member-Protruding part)
The protruding portion 12 is a portion that can be attached so as to project upward (+ Z direction) with respect to the base portion 11. The specific type and configuration of the protruding portion 12 are arbitrary, for example, those made of metal, and as an example, an exposed portion 121 and a bolt portion 122 are provided.

(Structure-Wall material mounting member-Protruding part-Exposed part)
The exposed portion 121 is a portion exposed on the space side above (+ Z direction) of the concrete material 23 covering the slab bar 22, and is a portion to which the wall material 300 can be attached. Specifically, the wall material fixing tool. It is a part to which the wall material 300 can be attached via the 400. The exposed portion 121 is, for example, a rectangular portion and is a flat plate parallel to the XY plane.

(Structure-Wall material mounting member-Protruding part-Bolt part)
The bolt portion 122 is, for example, a portion attached to the base portion 11, and also projects downward (-Z direction) in the height direction (Z direction) from the vicinity of the center of the exposed portion 121, and the base portion 122. A screw thread that is screwed with the cylindrical portion 112 of the portion 11, that is, a screw thread corresponding to the screw thread of the screwed hollow portion 112a of the cylindrical portion 112 of the base portion 11 is formed. In particular, since the bolt portion 122 is screwed with the screwed hollow portion 112a of the cylindrical portion 112, by rotating the bolt portion 122 and the cylindrical portion 112 with each other, each of these portions is in the height direction (Z-axis direction). That is, the distance between the exposed portion 121 and the base portion 11 can be adjusted. Further, the length of the bolt portion 122 is arbitrary, but it is relatively relatively possible to match the upper surface of the exposed portion 121 with the upper surface of the concrete material 23 when the protruding portion 12 is attached to the base portion 11. It has been set for a long time.

(Structure-Wall material mounting member-Nut part)
The nut portion 13 is a fixing means for fixing the base portion 11 and the protruding portion 12 to each other. The specific type and configuration of the nut portion 13 is arbitrary, and for example, a screw thread that is screwed with the bolt portion 122 of the protruding portion 12, that is, a screw thread corresponding to the screw thread of the bolt portion 122 of the protruding portion 12 is provided. The screw hole 13a formed on the inner surface is formed.

(Installation of wall material)
Next, a method of forming the slab 200 by providing the wall material mounting member 100 configured as described above and mounting the wall material 300 to the slab 200 using the wall material mounting member 100 will be described. In reality, a plurality of wall material mounting members 100 are provided, and the wall material 300 is mounted using the plurality of wall material mounting members 100. Since the method of providing the same is the same as each other, a method of providing one wall material mounting member 100 will be described as a representative.

First, the installation base 21 shown in FIG. 2 is constructed at a position that becomes the floor structure of the building, and the base portion 11 of the wall material mounting member 100 is installed on the installation base 21. The installation method of the installation base 21 is arbitrary, but for example, the base 111 of the installation base 21 is fixedly installed by welding to the mountain portion of the installation base 21.

Next, the slab muscle 22 is arranged. Specifically, although it is arbitrary, for example, reinforcement is arranged slightly above (+ Z direction) from the cylindrical portion 112 of the installation base 21.

Next, the nut portion 13 is provided on the protruding portion 12 of FIG. Specifically, although it is optional, for example, the nut portion is formed by aligning the bolt portion 122 of the protruding portion 12 with the screw hole 13a of the nut portion 13 and then rotating the nut portion 13 with respect to the bolt portion 122. 13 is moved toward the exposed portion 121 along the longitudinal direction of the bolt portion 122, and the nut portion 13 is screwed near the center of the bolt portion 122.

Next, the protruding portion 12 is attached to the base portion 11 of FIG. Specifically, although it is arbitrary, for example, after aligning the bolt portion 122 of the projecting portion 12 with the screwed hollow portion 112a of the cylindrical portion 112 of the base portion 11, the bolt portion 122 is attached to the cylindrical portion 112 of the base portion 11. By rotating the protrusion 12 in the height direction (Z direction), the bolt portion 122 is screwed to the base portion 11. Specifically, as described above, the threads on the outer surface of the bolt portion 122 of the protruding portion 12 and the threads on the inner surface of the screwed hollow portion 112a of the cylindrical portion 112 of the base portion 11 correspond to each other. By changing the rotation direction of the bolt portion 122 with respect to the cylindrical portion 112, it is possible to move the protruding portion 12 upward (+ Z direction) or downward (-Z direction). Position and screw. More specifically, by rotating the bolt portion 122 with respect to the cylindrical portion 112, the upper surface of the exposed portion 121 of the protruding portion 12 coincides with the upper surface of the concrete material 23 provided later (that is, each upper surface has the same height). Positioning is performed so that the protrusion 12 is screwed into the base 11.

Next, the protruding portion 12 is fixed to the base portion 11. Specifically, although it is arbitrary, for example, the nut portion 13 provided on the bolt portion 122 of the protruding portion 12 is rotated and moved to the opposite side of the exposed portion 121 to move the upper end of the cylindrical portion 112 of the base portion 11. Press on. In this case, the protruding portion 12 is fixed by the pressing force of the base portion 11 of the base portion 11 provided on the bolt portion 122 of the protruding portion 12 against the cylindrical portion 112 to prevent rotation, and is fixed to the base portion 11. Will be.

Next, as described above, the concrete material 23 is formed by providing the plurality of wall material mounting members 100 and then placing concrete. Specifically, although it is optional, for example, the upper surface of the concrete material 23 and the upper surface of the exposed portion 121 of the protruding portion 12 of the wall material mounting member 100 are aligned (that is, the upper surfaces are at the same height). In addition, the concrete material 23 is formed. In particular, as shown in FIG. 3, the upper surface of the exposed portion 121 of the protruding portion 12 of the wall material mounting member 100 is not covered by the concrete material 23 but is exposed in the space above the concrete material 23 (+ Z direction). The concrete material 23 is formed on the surface. In this way, as shown in FIGS. 2 and 3, the slab 200 is formed in a state where a plurality of wall material mounting members 100 are provided.

Next, the wall material fixture 400 of FIG. 1 is fixed to the slab 200. Specifically, although it is arbitrary, for example, a known method is performed after one wall material fixture 400 is hung on the exposed portions 121 of the plurality of wall material mounting members 100 shown in FIGS. 2 and 3. The wall material fixture 400 is fixed to the exposed portion 121 of the wall material mounting member 100 by (for example, welding, screwing, etc.).

Next, the wall material 300 is attached to the wall material fixture 400 fixed to the slab 200. Specifically, although it is arbitrary, for example, the wall material 300 is attached to the wall material fixture 400 by a known method (for example, screwing or the like). In this way, the wall material 300 is attached to the slab 200. This completes the installation of the wall material 300.

(Effect of this embodiment)
According to the present embodiment, since the base portion 11 can be installed on the installation base 21, the wall material mounting member 100 can be installed regardless of whether or not the slab bar 22 has been installed. It is possible to improve the degree of freedom in timing. In particular, since the wall material mounting member 100 can be constructed in a state where the slab bar 22 is not constructed, the construction space can be widened and the risk of the construction work can be reduced. Further, since the slab muscle 22 can be prevented from becoming an obstacle, it is possible to reduce the labor of construction. In addition, since the labor of construction can be reduced, the work time of construction work can be shortened, and the construction cost can be reduced.

Further, since the height relationship between the concrete material 23 and the exposed portion 121 can be adjusted, the height between the concrete material 23 and the exposed portion 121 can be easily matched, and the wall material can be easily matched. It is possible to further improve the workability of the mounting member 100.

Further, since the wall material 300 can be attached by using the wall material fixture 400 having an L-shaped vertical cross-sectional view, it is possible to improve the attachment strength of the wall material 300.

[III] Modifications to the Embodiment The embodiment of the present invention has been described above, but the specific configuration and means of the present invention are within the scope of the technical idea of each invention described in the claims. Can be arbitrarily modified and improved. Hereinafter, such a modification will be described.

(About the problem to be solved and the effect of the invention)
First, the problem to be solved by the invention and the effect of the invention are not limited to the above-mentioned contents, and may differ depending on the implementation environment and the details of the configuration of the invention, and only a part of the above-mentioned problems. May be resolved or only some of the above effects may be achieved.

(About distribution and integration)
Further, each of the above-mentioned electrical components is a functional concept and does not necessarily have to be physically configured as shown in the figure. That is, the specific form of dispersion or integration of each part is not limited to the one shown in the figure, and all or part of them may be functionally or physically dispersed or integrated in any unit according to various loads and usage conditions. Can be configured.

(About shape, numerical value, structure, time series)
With respect to the components exemplified in the embodiments and drawings, the shape, numerical value, or the mutual relationship of the structure or time series of the plurality of components shall be arbitrarily modified and improved within the scope of the technical idea of the present invention. Can be done.

(About the construction of wall material mounting members)
Further, in the above embodiment, after the base portion 11 of the wall material mounting member 100 is installed on the installation base 21, the slab reinforcement 22 is arranged, and then the protruding portion 12 of the wall material mounting member 100 is provided. The case of attaching to the base portion 11 has been described, but the present invention is not limited to this, and the construction order of the base portion 11 of the wall material mounting member 100, the protruding portion 12 of the wall material mounting member 100, and the slab bar 22 is arbitrarily changed. May be good. For example, the slab reinforcement 22 may be arranged after the base portion 11 is installed and the protrusion portion 12 is attached to the base portion 11. Further, for example, after arranging the slab reinforcement 22, the base portion 11 may be installed, and the protrusion portion 12 may be attached to the base portion 11.

(About the base and protrusions)
Further, the configuration of the cylindrical portion 112 of the base portion 11 of the above embodiment and the configuration of the bolt portion 122 of the protruding portion 12 may be interchanged with each other. That is, the base portion 11 side may have a bolt structure (that is, a structure such as the bolt portion 122), and the protruding portion 12 side may have a cylindrical portion structure (a structure such as the cylindrical portion 112) screwed with the bolt structure.

(About exposed parts)
Further, the exposed portion 121 of the above embodiment may have an arbitrary shape other than the rectangular shape (for example, a circle, an ellipse, a triangle, etc.).

(Concrete material and exposed parts)
Further, in the above embodiment, the case where the heights of the upper surface of the exposed portion 121 and the upper surface of the concrete material 23 are matched has been described, but the present invention is not limited to this, and the upper surface of the exposed portion 121 and the upper surface of the concrete material 23 are not limited to this. The heights may be different from each other. That is, the upper surface of the exposed portion 121 may be installed so as to be provided below (in the −Z direction) the upper surface of the concrete material 23, or may be installed so as to be provided above (+ Z direction).

(Additional note)
The wall material mounting member of Appendix 1 includes a base portion that can be installed on an installation base located below the slab bar, and a protruding portion that can be mounted so as to project upward with respect to the base portion. The protruding portion is an exposed portion exposed on the space side above the slab concrete covering the slab bar, and has an exposed portion to which a wall material can be attached.

In the wall material mounting member described in Appendix 1, the distance between the exposed portion and the base portion can be adjusted in the wall material mounting member described in Appendix 1.

The wall material mounting member of Appendix 3 is the wall material mounting member according to Appendix 1 or 2, wherein the exposed portion is a flat plate, and an L-shaped wall material fixture in a vertical cross-sectional view is attached to the flat plate. The wall material can be attached via the plumb bob.

(Effect of appendix)
According to the wall material mounting member described in Appendix 1, since the base portion can be installed on the installation base, the wall material mounting member can be installed regardless of whether or not the slab bar has been installed. , It is possible to improve the degree of freedom in construction timing. In particular, since the wall material mounting member can be constructed without the slab reinforcement being constructed, the construction space can be widened and the risk of the construction work can be reduced. In addition, since the slab muscles can be prevented from becoming an obstacle, it is possible to reduce the labor of construction. In addition, since the labor of construction can be reduced, the work time of construction work can be shortened, and the construction cost can be reduced.

According to the wall material mounting member described in Appendix 2, the height relationship between the slab concrete and the exposed portion can be adjusted, so that the height between the slab concrete and the exposed portion can be easily adjusted. It is possible to make them match, and it is possible to further improve the workability of the wall material mounting member.

According to the wall material mounting member described in Appendix 3, the wall material can be mounted by using the wall material fixture having an L-shaped vertical cross-sectional view, so that the mounting strength of the wall material can be improved. ..

11 Base part 12 Protruding part 13 Nut part 13a Screw hole 21 Installation base 22 Slab bar 23 Concrete material 100 Wall material mounting member 111 Base 112 Cylindrical part 112a Screwed hollow part 121 Exposed part 122 Bolt part 200 Slab 300 Wall material 400 Wall material fixture

Claims (1)

A base that can be installed with respect to the installation base located below the slab muscle ,
A protrusion that can be attached so as to protrude from the base,
It is an installation structure of a wall material mounting member provided with a nut portion for mutually fixing the base portion and the projecting portion .
The protrusion is
An exposed portion exposed on the space side above the slab concrete covering the slab streaks, and the exposed portion to which a wall material can be attached.
It has a bolt portion that protrudes from the exposed portion and that is screwed to both the base portion and the nut portion.
The distance between the exposed portion and the base portion can be adjusted.
The nut portion is a separate component from the base portion and the protruding portion.
The nut portion is provided between the base portion and the exposed portion.
By pressing the nut portion against the end portion of the base portion on the exposed portion side, the base portion and the projecting portion are mutually fixed.
The exposed portion is a flat plate and
The exposed portion is provided at the tip end portion of the bolt portion on the side opposite to the end portion on the side where the base portion is screwed.
Installation structure of wall material mounting members.

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