KR101456159B1 - Foothold for Slab Construction of Structure - Google Patents

Abstract

A main body which is made of mortar and is formed into a plate shape and installed on the upper side of a reinforcing bar for constructing a slab of a building, a main body which is installed at a predetermined interval and is fixed in a state where one end is embedded in the main body, A plurality of binding lines for supporting the main body from the reinforcing bars, the plurality of binding lines being provided at a predetermined distance from the bottom of the main body and supporting the main body from the reinforcing bars.

Description

{Foothold for Slab Construction of Structure}

The present invention relates to a footplate for slab construction of a building and a method of constructing a slab using the footplate. More particularly, the present invention relates to a method of constructing a slab by using a footplate as a reference plane, Slabs for construction of slabs which are constructed to improve the smoothness of slabs and to facilitate the construction of slopes, and slab construction method using the slabs. .

Generally, buildings and structures such as houses, shopping malls, buildings, factories, etc. are mainly manufactured by using concrete. In order to improve the strength, reinforcing bars are arranged inside slabs and walls.

In the case of the slab construction which constitutes the floor of the conventional reinforced concrete structure, after the form is installed, the reinforcement and electric piping are performed first, then the concrete is laid, and the worker such as the skilled worker forms the bottom surface smoothly. It is done through construction.

In this case, the concrete mortar is supplied mainly from the pump car. In this case, the worker moves his / her foot between the reinforcing bars by hanging the reinforced bar with the hose which discharges the concrete mortar. There is a problem that the operation is difficult.

Conventionally, slab construction requires a highly skilled worker and requires a long working time in order to accurately construct the slab so as to have excellent smoothness (horizontality). Since the worker tries to work on the concrete mortar during the smoothing work, do.

Conventionally, the slab construction is dependent on the skill of a worker, and work quality is uneven, smoothness is lowered, slope is required for drainage, and it is difficult to precisely construct slabs.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a foot plate for conveniently performing an operation without stepping on a concrete mortar pushed by a worker, , A slab construction method capable of easily constructing a slab with an excellent smoothness and capable of constructing a floor with a uniform quality and relatively easily and accurately constructing a floor surface at the time of slope construction, and a slab construction method using the same .

The footplate for constructing a slab of a building proposed by the present invention comprises a main body formed of mortar and formed in a plate shape and installed on the upper side of a reinforcing bar for constructing a slab of a building, A plurality of binding wires fixed in the main body in a state of being embedded in the main body and connected to the reinforcing bars; and a plurality of support holes provided at a predetermined interval in the lower portion of the main body to support the main body from the reinforcing bars.

It is also possible that the main body is made of steel fiber mortar and a reinforcing material using a wire mesh is further installed inside.

The binding wire is made of wire and one end is connected to the reinforcing member.

The support hole has a rod shape, a support hole formed at both ends of the support hole and formed on the reinforcing bar, and a pair of rotary shafts screwed to the support hole of the support and supporting the support body.

And a clip portion supported at the center of the support rod so as to surround the reinforcing bar.

The slab construction method of a building proposed by the present invention comprises a main body formed of mortar and formed into a plate shape, a plurality of binding wires fixedly installed at one end thereof in a state of being embedded in the main body, A step of preparing a foot plate made up of a plurality of base plates provided on a base plate of the base plate, preparing a foot plate comprising a plurality of base plates installed on the base plate, A step of setting a reference horizontal plane by rotating the base and fixing the main body to the reinforcing bar with the binding line, a placing process of placing mortar for slab on the reinforcing bar, and a step of placing the surface of the mortar, And a flattening process in which the flattening process is performed smoothly in a plane corresponding to Loses.

According to the slab construction method of a slab construction of the present invention and the slab construction method of a building using the slab construction method of the present invention, workability can be improved because the slab installation work can be performed while stepping on a foot plate during the flat work or the plaster work after the mortar is poured.

According to the slab construction method of a building according to the present invention and the slab construction method of a building using the same, it is possible to set the body of the footing plate as a reference plane for smoothness, thereby improving smoothness and facilitating smooth operation .

1 is an exploded perspective view showing a foot plate for slab construction of a building according to a first embodiment of the present invention.
2 is a perspective view showing the inside of a plate body of a footplate for slab construction of a building according to a first embodiment of the present invention.
3 is a side sectional view showing a foot plate for slab construction of a building according to a first embodiment of the present invention.
FIG. 5 is an exploded perspective view showing a footrest in a footplate for slab construction of a building according to a first embodiment of the present invention. FIG.
6 is a block diagram showing a slab construction method of a building according to a second embodiment of the present invention.
7 is a cross-sectional view illustrating a construction method of a slab according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a slab construction method for a building according to the present invention and a slab construction method using the same will be described in detail with reference to the drawings.

In the following description, the same reference numerals are used for the same technical elements, and detailed descriptions for avoiding redundant description are omitted.

The embodiments described below are intended to illustrate the preferred embodiments of the present invention in an effective manner and should not be construed to limit the scope of the present invention.

As shown in Figs. 1 to 5, the footplate for slab construction according to the first embodiment of the present invention is formed by using mortar and is formed into a plate shape, and is provided on the upper side of the reinforcing bars 4 for slab construction of the building And a plurality of binding wires (11) fixed to the main body (11) at predetermined intervals and fixed at one end thereof in a state embedded in the main body (11) And a plurality of support openings 15 installed at a lower portion of the main body 11 at predetermined intervals to support and support the main body 11 from the reinforcing bars 4.

The main body 11 is made of a steel fiber mortar, and a reinforcement 12 made of wire mesh is installed inside.

The binding line 14 is formed by using a wire and one end is connected to the reinforcing member 12.

The support hole 15 is formed in a rod-like shape and has a coupling hole 17 formed at both ends thereof. The support hole 16 extends over the reinforcing bar 4. The coupling hole 17 of the support hole 16, And a pair of rotary shafts (18) screwed to the body (11) and supporting the body (11).

The rotating shaft 18 of the receiving hole 15 is formed flat and includes a receiving piece 18a on which the main body 11 is placed and a connecting hole 18a which is connected to the bottom surface of the receiving piece 18a, And a tool assembly 18c extending from the lower end of the coupling shaft portion 18b and having a rectangular or hexagonal outer peripheral surface so as to be rotatable using a tool .

A clip portion 20 may be further provided at the center of the support 16 of the support 15 to support the reinforcement 4.

The clip portion 20 is made of spring steel and is formed in a "C" shape.

6 and 7, the slab construction method of a building according to a second embodiment of the present invention includes a preparation process (P10) for preparing the footplate 10, a process for installing the footplate 10 A scaffolding process P20, a placing process P30 for placing the slab mortar 6, and a flattening process P40.

In the preparation process (P10), a plurality of scaffolds (10) for constructing a slab according to the first embodiment of the present invention are prepared.

In the step of installing the footsteps (P20), the prepared footsteps 10 are installed at regular intervals on the reinforcing bars 4 placed on the formwork 3 for slab construction and the upper surface of the main body 11 is slid on a reference horizontal plane S The main body 11 is fixed to the reinforcing bar 4 with the binding line 14 by fixing the reference horizontal plane S by rotating the rotary shaft 18 of the support 15.

In the casting process (P30), the slab mortar 6 is uniformly laid over the reinforcing bars.

In the flattening process P40, the surface of the installed mortar is smoothly formed into a plane corresponding to the reference horizontal plane S.

4: Rebar 6: Mortar for slabs
10: footstool 11: body
12: Stiffener 14: Bonding line
15: support base 16: support base
18:

Claims (7)

A main body formed of mortar and formed in a plate shape and installed on the upper side of a reinforcing bar for slab construction of a building,
A plurality of binding wires provided at a predetermined interval in the main body and fixed at one end thereof in a state of being embedded in the main body,
And a plurality of support holes provided at a lower portion of the main body at regular intervals to support and support the main body from the reinforcing bars,
And a pair of rotating shafts which are screwed to the engaging holes of the supporting frame and which support the body and support the body, wherein the supporting shaft has a bar shape and has engaging holes formed at both ends thereof,
A rotation shaft of the support shaft is formed flat and includes a support piece on which the main body is mounted; an engagement shaft portion connected to the bottom surface of the support piece and screwed to the engagement hole; And a tool assembly having a square or hexagonal outer peripheral surface so as to be rotatable using a tool. The method according to claim 1,
Wherein the main body is made of a steel fiber mortar and a reinforcing material using a wire mesh is further installed inside the main body. The method of claim 2,
Wherein the binding wire is made of wire and the one end portion is connected to the reinforcing member. delete The method according to claim 1,
And a clipping part for supporting the reinforcing bars is further provided at the center of the support of the support hole. The method of claim 5,
Wherein the clip portion is formed by using spring steel and is formed in a "C" shape. delete

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