KR101410970B1 - Slab floor construction methods and structures for slab construction - Google Patents

Abstract

The present invention relates to a slab construction method and a floor structure for slab construction, and more particularly, to a slab construction method and a slab construction method which are capable of rapidly constructing a slab in a short time using a construction block and a beam member, In order to minimize noise as well as excellent noise,
A method for constructing a slab after constructing a column and a wall to construct a structure, the method comprising the steps of: installing a beam member having a mounting frame on both sides thereof at equal intervals so as to have an interval at which concrete mortar is inserted into an upper portion of the wall; Wow; The front and back sides of the construction block are joined to each other so that a plurality of hollow portions are formed between the mounting frames of the beam member. The both sides of the construction block are hooked to the mounting frame, Installing a construction block; A reinforcing bar and a pipe installation step for installing a reinforcing bar and a pipe on the beam member and the upper part of the construction block; A filling step of filling the reinforced concrete and the concrete mortar poured into the upper part of the pipe; Wherein the filled concrete mortar is subjected to a curing and curing step; And a bottom structure for slab construction.

Description

Technical Field The present invention relates to a slab construction method and a slab construction method,

The present invention relates to a slab construction method and a floor structure for slab construction, and more particularly, to a slab construction method and a slab construction method which are capable of rapidly constructing a slab in a short time using a construction block and a beam member, A floor slab construction method and a floor structure for slab construction so as to minimize floor noise as well as excellent.

Generally, slabs of various structures refer to the bottom or foundation of reinforced concrete. In order to construct a slab after installing a wall like a column in the course of constructing a structure, firstly, And the step of installing the form is performed.

Then, a reinforcing rod or the like is placed on the upper part of the formwork, and a piping operation step is performed. Then, the reinforced concrete rod and the concrete mortar poured to the upper part of the pipe are filled with concrete mortar.

Thus, when the concrete mortar is filled, a series of slabs are completed after the curing step after a certain period of curing and the step of dismantling and dismantling the dies using the dike.

In the conventional slabs constructed to partition the respective layers of the structure, generally, a mold is installed on the upper part of the column and the wall, and a large amount of concrete mortar is filled with the reinforcement and piping on the upper part of the mold After curing and curing period, it is repeatedly work to dismantle the dams and molds installed to construct the slabs, so that not only the construction work is troublesome, but also the long construction period and cost are incurred. I had.

In addition, the above-mentioned slabs divide each layer of the structure, that is, the slabs correspond to the bottom surface in the lower layer and the bottom surface in the upper layer, and after the slab is installed, It is necessary to construct various facilities separately so that the construction period is delayed, as well as troublesome additional work and a further construction cost are incurred.

As a conventional conventional method for preventing noise or interlayer noise on the upper surface of the slab as described above, as described in Korean Patent No. 10-0646052 or Korean Patent No. 10-1183908, There have been proposed various methods of separately installing various types of facilities for preventing sound insulation or interlayer noise on the upper surface of the slab.

However, in the case of the above-mentioned registered patent, after the slab construction process as described above, a separate facility is installed on the upper surface of the slab, so that it takes a long period of construction and troublesome work due to the installation of additional facilities, I have had the problem of being.

On the other hand, in order to reduce the amount of concrete mortar used at the time of construction of the slab, the conventional slab method is disclosed in Japanese Patent Application No. 1147530 and Patent Application No. 10-2010-0081130, There is also a limited method of significantly reducing the amount of cone crush mortar by installing a lightweight ball.

However, the above-mentioned patent and patent application have a troublesome and inconvenient problem to install a mold as in the conventional conventional construction method described above, and then to demolish the concrete after curing and curing period of the concrete mortar.

In addition, the above-mentioned patent and patent application are particularly troublesome for installing a lightweight ball, that is, for connecting a lightweight ball, and in particular for fixing a lightweight ball, a lightweight ball is fixed And a separate fixing member for fixing is used. This also has the disadvantage that the upper end is bulky and inconvenient.

Korea Patent No. 1147530 Korean Patent Application No. 10-2010-0081130

Disclosure of Invention Technical Problem [8] The present invention has been made to overcome the above-described problems of the related art, and its main object is to rapidly construct slabs in a short time using a construction block and a beam member, The present invention also provides a slab construction method and a floor structure for slab construction, which can minimize the interlayer noise as well as reduce the amount of concrete mortar.

Another object of the present invention is to make the front and rear surfaces of the construction blocks closely contact with each other.

It is a further object of the present invention to further reduce the interlayer noise.

According to an aspect of the present invention, there is provided a method of constructing a slab after a column and a wall are installed to construct a structure, the method including: mounting a frame on both sides of the slab, A beam member installing step of installing the formed beam members at equal intervals; The front and back sides of the construction block are joined to each other so that a plurality of hollow portions are formed between the mounting frames of the beam member. The both sides of the construction block are hooked to the mounting frame, Installing a construction block; A reinforcing bar and a pipe installation step for installing a reinforcing bar and a pipe on the beam member and the upper part of the construction block; A filling step of filling the reinforced concrete and the concrete mortar poured into the upper part of the pipe; Wherein the filled concrete mortar is subjected to a curing and curing step; And the like.

A floor structure for constructing a slab after constructing a column and a wall for constructing a structure, wherein the floor structure is formed with a mounting frame formed with upper and lower sides of a gap holding band therebetween, A beam member; A plurality of hollow portions are formed in the space between the mounting frames, a coupling portion is formed on the front and rear surfaces, a middle portion is fixed to the mounting frame on both sides thereof, and the lower portion is formed by a foamed synthetic resin And a block.

The coupling portion includes an insertion protrusion formed on the front surface of the hollow portion so as to open the hollow portion, an insertion protrusion inserted into the hollow portion opened on the rear surface of the hollow portion, and a coupling groove and an engagement groove engaged with the front and rear surfaces of the hollow portion, .

Wherein each fixing groove groove is formed in the middle of both sides of the mounting block by being fixed to the fixing ring of the mounting frame by being hooked on the fixing ring of the mounting frame, And a connection groove and a connection groove are formed so as to be in contact with each other at an end of the extended portion and a surface corresponding to the connection portion.

And a plurality of space portions into which air is introduced into the rear side of the front surface are further formed inside the lower molding force of the hollow portion.

The present invention is capable of rapidly constructing a slab in a short time by using a construction block and a beam member having a foamable water-pervious place, as well as being excellent in insulation efficiency in itself, minimizing interlayer noise and reducing the amount of concrete mortar By eliminating the work of installing and dismantling the formwork, it is possible to complete the construction work in a hassle-free and quick manner, shortening the construction period for constructing the whole structure, and also preventing the insulation and interlayer noise without separate facilities, It has the effect of being more economical due to the minimum concrete mortar requirement.

Further, since the front and rear surfaces as well as both sides of the construction block can be closely adhered to each other, the airtightness can be further increased to further enhance the heat insulation efficiency, and the efficiency of interception of the interlayer noise can be further increased, It also has an effect that the leakage of the mortar can be blocked as well.

Further, since the interlayer noise can be further minimized due to the hollow portion and the space portion, the interlayer noise itself can be originally cut off without a separate facility.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a construction step of the present invention. FIG.
FIGS. 2A through 2F show construction steps according to the present invention,
2A is a schematic view schematically showing a step of installing a beam member;
Figures 2b-2d are front and exploded perspective views and side cross-sectional views schematically showing a step of installing a construction block.
FIG. 2E is a schematic view schematically showing a step of installing reinforcing bars and pipes. FIG.
FIG. 2f is a schematic view schematically showing the step of filling the concrete mortar. FIG.
3 is a schematic view schematically showing a slab constructed by the present invention;
4 is a schematic view schematically showing another embodiment of the construction block of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a construction step of the present invention.

As shown, a method for constructing a slab after installation of pillars and walls to construct a conventional structure,

The present invention is capable of rapidly constructing a slab in a short time by using a construction block and a beam member having a foamable property, and is also excellent in insulation efficiency in itself, minimizes interlayer noise as well as reducing the amount of concrete mortar To be able to do so,

As shown in FIG. 2A, the beam members 10 having the mounting frames 14 formed on both sides of the space holding bases 12 are spaced apart at equal intervals so that the concrete mortar is inserted into the upper part of the wall 100, (S1) is performed.

That is, the mounting frame 14 of the beam member 10 is formed at its lower portion with a retaining ring 14a to which a fixing ring groove of a construction block to be described later is inserted and fixed, and the beam member 10 is fixed to the mounting frame 14 Are formed at regular intervals by a plurality of spacing bins 12, so that the concrete mortar can be smoothly inserted between the mounting frames.

2B to 2D, a plurality of hollow portions 21 are formed in the space between the mounting frames 14 of the beam member 10, And a fixing ring groove 24 is formed on both sides of the mounting frame 14 so as to be fixed to the fixing ring 14a of the mounting frame 14 by an intermediate portion thereof, A construction block installation step S2 for installing a construction block 20 formed of a foamable synthetic resin is performed.

At this time, the coupling part 22 is formed with the hollow part 21 opened on its front surface, the insertion protrusion 22a inserted into the hollow part 21 opened on the rear surface so as not to generate a gap, And a coupling groove 23 and a coupling groove 23a which are coupled to each other in the longitudinal direction on the front and rear surfaces of the hollow portion 21.

That is, the insertion protrusions are first inserted into the open portion of the hollow portion and are coupled to each other. At the same time, the coupling grooves formed at the lower portion of the hollow portion are secondarily connected by the coupling jaws, The backside connection is tight and the concrete mortar to be described later is not leaked even when filled.

The extended portion 25 is formed at a lower portion of the one side fixing groove groove 24 and extends to the bottom side of the beam member 10 to be in contact with the lower side surface of another construction block. And a connecting groove 25a and a connecting groove 25b are formed to be in contact with each other.

In other words, the construction block, which is fixedly coupled with the mounting frames of the beam member, is inserted and fixed into the mounting frame to have a supporting force. In addition, both ends of the mounting block, It is installed to be connected without gap.

When the installation of the construction block is completed, as shown in FIG. 2E, the reinforcing bars and the reinforcing bars are installed on the upper part of the beam member 10 and the construction block 20, And a piping installation step (S3) is performed.

When the installation of the reinforcing bars and the piping is completed, as shown in FIG. 2F, a charging step S4 is performed to fill the reinforced concrete and the concrete mortar poured into the upper part of the pipe.

That is, the concrete mortar to be filled is filled up to the upper surface of the extension portion 25 of the construction block 20 through the space between the mounting frames 14 of the beam member 10, At this time, due to the construction block, a minimum amount of concrete mortar is required to construct the slab.

As described above, the filled concrete mortar has a finishing step (S5) through curing and curing periods; And the construction of the slab S according to the construction is completed in the structure as shown in FIG.

Accordingly, it is possible to omit the troublesome and inconvenient problem of installing and dismantling the dies using the dies when constructing the slab of the structure, and also the construction blocks can be easily inserted between the beam members without inconvenience, It is a condition that the construction period of the slab can be remarkably shortened.

In addition, since the construction block according to the slab construction requires a minimum amount of concrete mortar, the construction block itself is manufactured from a foamable synthetic resin, and thus has a high insulation efficiency. Further, the hollow block formed inside the construction block And the floor noise can be minimized by itself.

Accordingly, it is an object of the present invention to provide a method and apparatus for slab construction, which can be quickly and conveniently performed in a short period of time without inconvenience or inconvenience, Mortar also has a minimum economic cost.

4, in order to further minimize the interlayer noise in a state where the insulation between the building block itself and the interlayer noise can be minimized as described above,

In the interior of the lower construction block 20 of the hollow part 21, it is preferable that a plurality of space parts 30 in the form of ordinary pockets into which air flows in from the front to the rear side are further formed. At this time, it is preferable that the space portion is formed to have an area substantially corresponding to a bottom area of the space block.

That is, the plurality of space portions pass through the space where the air passing through the construction block passes through the air space, and cancel the vibration noise in the space portion, thereby reducing the noise and maximizing the sound insulation efficiency .

Accordingly, the interlayer noise is blocked by the hollow portion and the space portion of the construction block. Thus, the interlayer noise can be intrinsically blocked without any additional facilities.

10: beam member 12:
14: mounting frame 14a:
20: Construction block 21:
22: engaging portion 22a: insertion projection
23: engaging groove 23a: engaging jaw
24: Fixing ring groove 25: Extension part
25a: connecting jaw 25b: connecting groove
100: wall S: slab

Claims (5)

CLAIMS 1. A method for constructing a slab after construction of a column and a wall to construct a structure,
A beam member installing step (S1) of installing beam members having mounting frames on both sides at equal intervals so as to have an interval at which the concrete mortar is inserted into the upper part of the wall;
The front and back sides of the construction block are joined to each other so that a plurality of hollow portions are formed between the mounting frames of the beam member. The both sides of the construction block are hooked to the mounting frame, Installing a construction block (S2) for installing the construction block;
A reinforcing bar and a pipe installation step (S3) for installing a reinforcing bar and a pipe at the upper part of the beam member and the building block;
A filling step (S4) of filling the reinforced concrete and the concrete mortar poured into the upper part of the pipe;
A finishing step (S5) in which the filled concrete mortar is cured and cured; Wherein the slab is formed on the slab.
A floor structure for constructing a slab after a column and a wall (100) are constructed to construct a structure,
The floor structure includes a beam member 10 having a mounting frame 14 formed on both sides of the wall 100 and spaced apart from each other by a spacing support 12 therebetween and spaced apart at equal intervals;
A plurality of hollow portions 21 are formed in the mounting frame 14 and engaging portions 22 are formed on the front and rear surfaces of the mounting frame 14. , And a lower part of the floor structure (20) is formed of a foamable synthetic resin that is in contact with and connected to each other. 3. The method of claim 2,
The engaging portion 22 is formed with a hollow portion 21 on the front side and an insertion protrusion 22a inserted into the hollow portion 21 on the rear side. And a coupling groove (23) and a coupling step (23a) which are engaged with each other in the longitudinal direction at the rear surface. The method of claim 3,
Each fixing groove groove 24 is formed in the middle of both sides of the construction block 20 by being fixed to the fixing groove 14a of the mounting frame 14, Is formed with an extension part (25) extending to the bottom side of the beam member (10) and connected to the lower side face of the other construction block so as to be in contact with the lower side face of the extension part (25) And a connection groove (25a) and a connection groove (25b) are formed. 5. The method according to any one of claims 2 to 4,
The bottom structure for slab installation according to claim 1, wherein a plurality of space portions (30) for introducing air into a rear side of the front surface are formed in the lower insertion forming force (20) of the hollow portion (21).

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