KR200357992Y1 - Double Slab Structure of Building - Google Patents

Abstract

The present invention relates to a double slab structure of a building, the base slab layer (2) formed by pouring concrete with a predetermined thickness, and formed by pouring the concrete to a predetermined thickness on top of the base slab layer (2) In the upper slab layer 3, the upper portion of the base slab layer 2 has a predetermined thickness, and a plurality of coupling holes 11 drilled from the upper surface to the lower surface are drilled in the coupling hole 11. The upper slab layer is arranged by arranging the sound absorbing panel 10 to which the elastic support member 20 for elastically supporting the upper slab layer 3 is bonded, and placing concrete on the upper part of the sound absorbing panel 10 to a predetermined thickness. By forming (3), it is possible to reduce vibration and noise generated in each floor of building.

In addition, when the sound absorbing panel 10 is arranged on the base slab layer 2 and the upper slab layer 3 is formed, the construction process is reduced when the double slab layer is constructed using a conventional jack-up mount. As a result, the cost of materials can be reduced, and the construction period can be shortened significantly.

Therefore, minimizing the transmission of vibration and noise generated in each floor of the building to other floors, it is a very useful design that can maintain a comfortable living environment and increase construction convenience and economics at the same time.

Description

Double Slab Structure of Building

The present invention relates to a double slab structure of a building. More specifically, the concrete slab layer constituting the floor of a building is composed of a double slab structure filled with a buffer panel inserted therebetween, thereby reducing the noise between floors. It is designed to simplify the construction process.

In general, buildings in urban areas are caused by external vibrations applied to vehicles or subways, vibrations and noises caused by residential shocks, and vibrations generated by mechanical equipment such as air conditioners, fans, and pumps installed in buildings. It is transmitted to the room through the floor of each floor, causing pollution, such as noise and vibration, which has been a factor to deteriorate the living environment.

In particular, from April 2004, due to the regulation on the noise between floors of buildings, the regulation on the noise generated between floors has become strict, and it is necessary to reduce the noise between floors of multi-story buildings.

On the other hand, in order to reduce the noise and vibration generated in the floor or each floor of the building as described above, using the jack-up mount to form an air layer between the upper slab layer and the base slab layer, or rubber in front of the concrete slab layer A structure for providing a buffer panel having a predetermined thickness as a material has been proposed.

And a method of forming an air layer between the upper slab layer and the base slab layer using a jack-up mount is a polyethylene film 40 on the front of the base slab layer 2 formed to a predetermined thickness, as shown in Figure 1a to 1b After covering, arrange several jack-up mounts 30 at intervals, and then cast concrete on top of the base slab layer 2 to cure the upper slab layer 3 having a predetermined thickness, and then the upper slab of the jack-up mount 30. The layer 3 is lifted to a predetermined height.

In addition, the jack-up mount 30 has a locking portion 31a protruding outwardly, a mounting groove 31b having a predetermined size is formed in the lower portion thereof, and a screw hole 31c penetrating the mounting groove 31b at an upper surface thereof. The housing 31 is formed,

The support member is inserted into the mounting groove 31b of the housing 31 and has a support plate 32a on which an engaging bar 32b having a spiral groove is protruded on the outer surface thereof to be coupled to the screw hole 31c. It consists of 32.

In addition, the support member 32 is made of a neoprene material so that the upper slab layer 3 is elastically supported when the upper slab layer 3 is lifted to a predetermined height by the jack-up mount 30.

That is, when the upper slab layer 3 is cured and completely hardened, the jack screw bar 50 is inserted into the screw hole 31c penetrated through the housing 31 of each of the jack up mounts 30 mounted in the housing. As 31 moves upward along the coupling bar 32b, the upper slab layer 3 is lifted.

In addition, the support member 32 of the jack-up mount 30 does not move in a state of being seated on the base slab layer 2 so as to elastically support the raised upper slab layer 3 so that the upper slab layer 3 It is to cushion the generated shock and vibration.

Moreover, the space | interval which generate | occur | produces between the upper slab layer 3 and the wall surface raised as mentioned above is airtight-processed with the compound which is the airtight material 60. As shown in FIG.

However, as described above, a structure in which the concrete slab layer is separated into a base slab layer and an upper slab layer by using a jack-up mount to form an air layer therebetween, to prevent interlayer noise, is difficult to construct due to its complicated construction process. There was a dissolution.

In addition, since the construction is long through a number of processes, the construction period is long, the overall construction period of the building increases, there was a problem that increases the construction cost to lower the economics.

And when the buffer panel made of rubber material is installed on the upper surface of the slab layer to prevent the noise between floors, the construction period is shortened, but the material cost is increased due to the buffer panel made of expensive rubber material, and the vibration or noise generated in the building There was a limiting problem in reducing.

The purpose of the present invention is to insert and fill the sound absorbing panel coupled with the support member between the base slab layer and the upper slab layer to reduce the noise between each floor of the building, and to simplify the construction to shorten the construction period, so the convenience and economical efficiency It is to provide a double slab structure of the building which can be increased at the same time.

1a to 1b is an enlarged cross-sectional view showing the main portion showing the construction of a double slab layer using a conventional jack-up mount.

Figure 2 is a cross-sectional view showing a double slab structure of the present inventors building.

Figure 3 is an exploded perspective view showing an enlarged sound absorbing panel of the present invention.

Figure 4 is an enlarged cross-sectional view showing an embodiment of the present invention.

* Description of the major symbols in the drawings *

1-concrete slab layer 2-base slab layer

3-upper slab layer 10-sound absorption panel

11-coupling hole 20-elastic support member

The object of the present invention is the base slab layer (2) formed by pouring concrete with a predetermined thickness;

In the configuration of the upper slab layer (3) formed by pouring the concrete to the upper portion of the base slab layer 2 to have a predetermined thickness,

The upper portion of the base slab layer 2 has a predetermined thickness, and a plurality of coupling holes 11 drilled from the upper surface to the lower surface of the base slab layer 2 to elastically support the upper slab layer 3 to the coupling hole 11. It is achieved by arranging the sound absorbing panel 10 to which the elastic support member 20 is coupled and casting the concrete to a predetermined thickness on the upper part of the sound absorbing panel 10 to form the upper slab layer 3.

That is, an elastic support member 20 for elastically supporting the upper slab layer 3 is coupled between the base slab layer 2, which is the concrete slab layer 1, which forms the floor of the building, and the upper slab layer 3. The sound absorbing panel 10 is inserted to reduce the interlayer noise and vibration generated in each layer to prevent the transfer to other layers.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view illustrating a double slab structure of a building of the present invention, in which a sound absorbing panel coupled with an elastic support member is arranged on an upper portion of a base slab layer, and an upper slab layer is formed on the sound absorbing panel.

Figure 3 is an exploded perspective view showing an enlarged sound absorbing panel of the present invention, a plurality of coupling holes penetrated from the top to the bottom in a sound absorption panel having a predetermined thickness at a predetermined interval, the elastic support member is coupled to the coupling hole It is shown.

Figure 4 is an enlarged cross-sectional view showing the main portion of an embodiment of the present invention, it shows that the construction of the ondol floor layer on top of the slab layer of the present invention.

Hereinafter, as shown in FIGS. 2 to 3, the concrete slab layer (1) forming the floor of the present invention is made of a predetermined thickness by placing concrete, the base slab layer (2) for separating each layer of the building And an upper slab layer 3 made of a predetermined thickness by pouring concrete to have a predetermined distance from the base slab layer 2.

In addition, a sound absorbing panel 10 is inserted between the base slab layer 2 and the upper slab layer 3 to fill the gap therebetween without an air layer. The sound absorbing panel 10 is coupled to the upper surface through the lower surface. A plurality of holes 11 are drilled at regular intervals, in which the upper surface supports the lower surface of the upper slab layer 3, and the lower surface is seated on the base slab layer 2. The elastic support member 20 for elastically supporting the upper slab layer 3 is coupled.

That is, a plurality of coupling holes 11 are drilled in the front surface of the upper surface of the base slab layer 2 cast to a predetermined thickness, so that the sound absorbing panel 10 having the elastic support member 20 coupled to the coupling holes 11 is formed. After arranging and curing the concrete to have a predetermined thickness on the upper surface of the sound absorbing panel 10 to form the upper slab layer 3, the construction of the concrete slab layer 1 of the building is completed.

In addition, by attaching or arranging the decorative finishing material 7 such as tiles or floorboards on the upper slab layer 3 constructed as described above, the floor layer of the building is completed.

And when the bottom layer of the building to form an ondol floor layer should be finished after piping the heating pipe (5) to the top of the upper slab layer (3), as shown in Figure 4 to the top of the upper slab layer (3) After arranging and fixing the insulation board (4) for heating pipe piping, pipe the heating pipe (5) to the insulation board (4) for heating pipe piping, and then finish the bottom surface with the finishing material (6) on the top. What is necessary is just to attach or arrange the decorative finishing material 7, such as a tile or a floor plate, to the upper part of this finishing material 6.

In addition, in the case of the wet method, the finishing material 6 is constructed by pouring mortar, and in the case of the dry method, the floorboard member having a predetermined thickness is arranged and used to complete the flooring floor of the building.

Therefore, the floor of the building constructed by the present invention is reduced by elastically absorbing and buffering the elastic support member 20 to absorb vibrations or shocks generated during housing in the upper portion of the upper slab layer (3), the inter-layer noise is absorbed panel It is absorbed and reduced by (10) to block the transmission of vibrations and noises generated in each floor to other floors in the housing, thereby maintaining a comfortable living environment.

On the other hand, the sound absorbing panel 10 is formed so that the upper and lower surfaces have a flat plane so that no air layer is formed between the base slab layer 2 and the upper slab layer 3, the sound absorbing panel 10 The elastic support member 20 coupled to the coupling hole 11 of the upper and lower surfaces of the elastic support member 20 is formed so as to coincide with both ends of the coupling hole 11 so that the elastic support member 20 of the sound absorbing panel 10 is connected. It is preferable to match the upper and lower surfaces so as to support the upper slab layer 3.

And the coupling hole 11 of the sound absorbing panel 10 is basically formed in a circular shape, but may be a polygon, such as a square or a triangle, or any shape, the elastic support member 20 of the coupling hole 11 It is formed in a shape corresponding to the shape is fitted to completely block the coupling hole (11).

In addition, the sound absorbing panel 10 is made of a foamed polypropylene resin having heat insulation and sound absorption, and in addition to that formed of any material having heat insulation and sound absorption is also included in the configuration of the present invention.

In addition, the elastic support member 20 coupled to the coupling hole 11 of the sound absorbing panel 10 is made of neoprene having elasticity and excellent rigidity. However, the upper slab layer 3 is elastically firmly supported. Note that any material that can be included in the composition of the present invention.

According to the configuration of the present invention, the concrete slab layer constituting the floor of the building of the base slab layer and the upper slab layer composed of a sound absorbing panel coupled to the elastic support member for elastically supporting the upper slab layer therebetween. By installing it, it is possible to reduce vibration and noise generated in each floor of the building.

In addition, as a simple construction step to arrange the upper slab layer after arranging the sound absorbing panel on the base slab layer, the construction process can be reduced, material cost can be reduced, and construction period can be reduced when the double slab layer is constructed using the conventional jack-up mount. This can dramatically shorten.

Therefore, minimizing the transmission of vibration and noise generated in each floor of the building to other floors, it is a very useful design that can maintain a comfortable living environment and increase construction convenience and economics at the same time.

Claims (3)

A base slab layer (2) formed by pouring concrete with a predetermined thickness; In the configuration of the upper slab layer (3) formed by pouring the concrete to the upper portion of the base slab layer 2 to have a predetermined thickness, The upper portion of the base slab layer 2 has a predetermined thickness, and a plurality of coupling holes 11 drilled from the upper surface to the lower surface of the base slab layer 2 to elastically support the upper slab layer 3 to the coupling hole 11. The upper slab layer (3) is formed by arranging the sound absorbing panel (10) to which the elastic support member (20) is coupled, and placing concrete to a predetermined thickness on the upper part of the sound absorbing panel (10). Double slab structure. 2. The double slab structure of a building according to claim 1, wherein the sound absorbing panel (10) is made of expanded polypropylene resin. 2. The double slab structure of claim 1, wherein the elastic support member is made of neoprene.