KR102396998B1 - Floor structure for preventing noise between floors for well-being - Google Patents

Abstract

The present invention relates to a floor structure for preventing noise between floors for wellbeing, comprising: a floor slab (10); an insulation buffer mat (20) which is installed on an upper surface of the floor slab (10) and prevents heat from being lost; lightweight air bubble concrete (30) which is flatly placed on an upper surface of the insulation buffer mat (20) and has a low thermal conductivity; a finish mortar (50) which is placed on an upper surface of the lightweight air bubble concrete (30) and has a heating pipe (40) embedded inside; a finish material (60) which is installed on an upper surface of the finish mortar (50) and endures an impact from the outside; and a repair unit (70) which, when a crack forms on the finish mortar (50) layer, which is relatively thinly placed compared with other places because of the heating pipe (40), is opened by the crack and discharges a urethane foam accommodated inside to the outside to fill the crack. Accordingly, the present invention is able to, even when a crack forms in the finish mortar, naturally fill the crack with the urethane foam, fundamentally solve the cumbersome process of removing and reconstructing the finish material, reduce cost, and maximize maintenance convenience.

Description

Floor structure for preventing noise between floors for well-being

The present invention relates to a floor structure for preventing noise between floors for well-being.

1 and 2 are a perspective view and a cross-sectional view showing a conventional floor structure, which will be described with reference to the following names.

In Korea, since floor underfloor using hot water is essential in Korean apartment houses, the thermal storage method was applied in the beginning, where gravel was applied on the slab, hot water piping was installed on it, and then finished with mortar. Installs a mat-type insulating material 20 on the floor slab 10, which is a structure, as shown in FIG. A finishing mortar (30) with low thermal conductivity is poured, and a hot water pipe (40), which is a heat source, is installed on it, a finishing mortar ( 50) is installed, and it is a method of finishing the finishing mortar 50 with a finishing material 60 such as synthetic resin, wood, and stone.

However, between the floor slab 10 with high rigidity and the lightweight aerated concrete 30 including the hot water pipe 40 and the ondol plate composed of the finishing mortar 50, the structure in which the insulator 20 with relatively low rigidity is disposed. In , as the impact applied to the ondol plate is transmitted to the floor slab 10 through the insulating material 20, resonance occurs.

In addition, in the case of the conventional adiabatic construction method, as the finishing mortar 50 is relatively thinly poured in the portion where the heating pipe 40 is installed compared to other portions, cracks occur due to the change in physical properties of the finishing mortar 50 by heating water. It is easy to break, and it is easy to crack by repeated loads.

In particular, when a crack occurs in the finishing mortar 50, without removing the finishing material 60 covering the upper surface of the finishing mortar 50, the crack site cannot be predicted at all, so most people live in a state in which a crack has occurred.

1. Republic of Korea Patent No. 10-2268331

The present invention has been devised to solve the above problems, and when a crack occurs in a relatively thinly poured finishing mortar layer due to a heating pipe, urethane foam leaks out and flows into the cracked part and naturally fills it without tearing the finishing material. The purpose of this is to provide a floor structure for preventing noise between floors for well-being that can reduce costs and maximize the convenience of maintenance in that maintenance is possible.

The present invention for achieving the above object,

floor slab;

Insulation cushioning mat installed on the upper surface of the floor slab to prevent heat loss;

Lightweight foamed concrete with low thermal conductivity and flatly poured on the upper surface of the insulating cushioning mat to be relatively thinner than the insulating cushioning mat;

Finishing mortar that is poured onto the upper surface of lightweight aerated concrete and the heating pipe is buried inside;

A finishing material installed on the upper surface of the finishing mortar to withstand external shocks;

A clamp that is detachably coupled to the heating pipe, is disposed to face each other based on the clamp, and a repair and refill tank filled with urethane foam, one end communicates with the repair and refill tank, and the other end is disposed on the upper part of the heating pipe and a maintenance unit composed of a discharge pipe providing a passage so that the urethane foam filled therein can be discharged, and a stopper made of a brittle material that is fitted with both ends at the ends of the discharge pipe to control the discharge of the urethane foam; characterized by comprising: .

The present invention is capable of maximizing cost reduction and maintenance convenience in that even if cracks occur in the finishing mortar, the urethane foam naturally fills the cracked area, thereby fundamentally eliminating the hassle of tearing off the finishing material and re-constructing it. There is an advantage.

1 and 2 are a perspective view and a cross-sectional view showing a conventional floor structure.
Figure 3 is a cross-sectional view of the interlayer noise prevention floor structure for well-being according to the present invention.
4 and 5 are a perspective view and a cross-sectional view showing a maintenance unit separately from the inter-floor noise prevention floor structure for well-being according to the present invention.
6 and 7 are cross-sectional views and enlarged views of main parts for explaining the operation of the inter-floor noise prevention floor structure for well-being according to the present invention.

Hereinafter, it will be described in detail based on the accompanying drawings.

3 is a cross-sectional view of the inter-floor noise prevention floor structure for well-being according to the present invention, and FIGS. 4 and 5 are perspective and cross-sectional views showing the maintenance unit separately extracted from the inter-floor noise prevention floor structure for well-being according to the present invention.

Referring to Figure 3, the floor structure according to the present invention is a floor slab 10, an insulating cushioning mat 20, lightweight foam concrete 30, a heating pipe 40, a finishing mortar 50, a finishing material (60) and As composed of a repair unit 70, according to this, when a crack occurs in the relatively thinly poured finishing mortar 50 layer due to the heating pipe 40, urethane foam leaks out and flows into the cracked part and naturally fills the finishing material ( 60), there is a technical feature that can reduce costs and maximize the convenience of maintenance in that maintenance is possible without tearing.

Here, the lightweight foam concrete 30 is constructed relatively thinly compared to the insulation cushioning mat 20, which forms the thickness of the lightweight foam concrete 30 thinly, so that the deformation according to the load is increased and the shock absorber Since the noise is absorbed by the insulating cushioning mat 20, it is possible to prevent inter-floor noise between generations.

Here, the finishing material 60 may use a material having a cushioning function, such as PVC, or a hard material such as wood or stone may be used.

In particular, when fixing the finishing material 60 of a hard material such as wood or stone to the finishing mortar 50, it is preferable to use an adhesive having elasticity such as silicone, and the silicone adhesive applied to a predetermined thickness in this way When used, it is possible to effectively block the light impact sound of medium and high frequency components caused by light impact such as dragging a chair.

On the other hand, if the lightweight foam concrete 30 is relatively thinly constructed compared to the insulation cushioning mat 20 as described above, the concentrated load will be applied to the finishing mortar 50 instead of improving the cushioning and noise absorption according to the increase in deformation. In this case, there is a possibility that cracks may easily occur.

Accordingly, in this embodiment, the repair unit 70 is buried in the interior of the finishing mortar 50 to solve this concern at once.

The maintenance unit 70 is installed at regular intervals along the heating pipe 40 .

Here, the repair unit 70 is opened by the cracks in the finishing mortar 50 layer poured relatively thinly than other places due to the heating pipe 40, and the urethane foam accommodated therein leaks out and fills the cracked part. giving role.

The repair unit 70 includes a clamp 71 , a repair refill tank 72 , a discharge pipe 73 , and a stopper 74 .

The clamp 71 is a member of a metal material curved in a circle so that both ends are spaced apart from each other. In this embodiment, the clamp 71 is detachably installed on the outer circumferential surface of the heating pipe 40 to repair and recharge the tank 72 and the heating pipe 40. plays a role in interconnecting

The repair refill tank 72 is a metal barrel, and in this embodiment, it is disposed to face each other with respect to the clamp 71, and urethane foam is filled inside to fill the cracked part of the finishing mortar 50. .

For reference, the urethane foam is a chemical substance made by mixing a liquid polyol and a compound called isocyanate and then adding a foaming agent. , It is also used for repair work by filling the gaps during or after construction.

The discharge pipe 73 is spaced apart to face each other with respect to the clamp 71 . One end of the discharge pipe 73 arranged in this way communicates with the inside of the repair and refill tank 72, and the other end is opened to the outside so that the urethane foam filled in the repair and refill tank 72 can be discharged to the outside. serves to provide

In particular, the discharge pipe 73 is preferably disposed on the upper portion of the heating pipe 40 to be mutually spaced apart from the heating pipe 40, which is that the part where the heating pipe 40 is installed is less than the part where the finishing mortar 50 is not. As it is poured relatively thinly, it is inevitably very vulnerable to cracking due to external impact and contraction and expansion caused by the supply of heating water, and in the process of cracking, the discharge pipe 73 is pressed and the stopper 74 is induced to break to do

The stopper 74 is a member of a brittle material that is easily broken by external impact. In this embodiment, both ends are respectively installed at the ends of the discharge pipe 73 to control the flow of urethane foam through the discharge pipe 73 without permission. do

As an example, the stopper 74 is made of glass, which is a typical brittle material.

6 and 7 are cross-sectional views and enlarged views of main parts for explaining the operation of the inter-floor noise prevention floor structure for well-being according to the present invention, which will be described with reference to the following.

As shown in FIG. 6 , the insulating material 20 and the lightweight foam concrete 30 are sequentially installed on the upper side of the floor slab 10 .

And a heating pipe 40 is installed on the upper side of the lightweight foam concrete 30 , and repair units 70 are installed at regular intervals along the heating pipe 40 .

The finishing mortar 50 is poured in the state in which the repair unit 70 is installed as described above.

After the finishing mortar 50 is poured, the finishing material 60 is installed on the finishing mortar 50 .

When the external impact F is applied in the construction state as described above, there is a fear that the finishing mortar 50 may be damaged by this.

In addition, cracks may occur in the process of repeating expansion and restoration of the heating pipe 40 and the finishing mortar 50 due to the heating water.

In particular, breakage or cracking of the finishing mortar 50 easily appears in the portion where the finishing mortar 50 is relatively thinly poured due to the heating pipe 40 .

When a crack occurs in the finishing mortar 50 as described above, the cracked portion sags downward and presses the discharge pipe 73 of the repair unit 70, and a glass stopper ( 74) is destroyed.

As described above, as the stopper 74 is destroyed, the discharge pipe 73 is opened, and the urethane foam accommodated in the repair and refill tank 72 is discharged through the discharge pipe 73 due to the opening of the discharge pipe 73. Cracked part It is filled as it flows in.

Therefore, even if cracks occur in the finishing mortar 50 as described above, as the urethane foam naturally fills the cracks, the hassle of tearing off the finishing material 60 and re-construction can be fundamentally eliminated in that it is possible to reduce and maintain costs. There is an advantage of maximizing the convenience of maintenance.

Although the present invention has been described in detail only with respect to the specific embodiments described, it is natural for those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

10: floor slab 20: insulation cushioning material 30: lightweight foam concrete
40: heating pipe 50: finishing mortar 60: finishing material
70: repair unit 71: clamp 72: repair refill tank
73: discharge pipe 74: stopper

Claims (1)

floor slab (10);
Insulation cushioning mat 20 installed on the upper surface of the floor slab 10 to prevent heat loss;
Lightweight foam concrete 30 with low thermal conductivity and flatly poured on the upper surface of the insulating cushioning mat 20 to be relatively thinner than the insulating cushioning mat 20;
The finishing mortar 50 is poured into the upper surface of the lightweight foam concrete 30 and the heating pipe 40 is buried therein;
The finishing material 60 is installed on the upper surface of the finishing mortar 50 to withstand the impact from the outside;
A clamp 71 detachably coupled to the heating pipe 40, a repair and refill tank 72 disposed opposite to each other based on the clamp 71, and a urethane foam filled therein, and one end of the repair and refill tank A discharge pipe 73 that communicates with 72 and the other end is disposed on the upper portion of the heating pipe 40 to provide a passage so that the urethane foam filled therein can be discharged, and both ends at the ends of the discharge pipe 73, respectively A maintenance unit 70 consisting of a stopper 74 of a brittle material that is inserted to control the discharge of urethane foam.

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