KR100646052B1 - Carrying out method of using soundproof indoor floor and structure - Google Patents

Abstract

The present invention relates to a floor construction method and structure of a soundproof room.

The present invention comprises: an indoor floor layer forming step of partitioning between floors and layers to form a concrete slab that is a base material of flooring divided into floors or ceilings according to floors; A preparation step of preparing a porous block; An arrangement step of arranging the porous blocks on the upper side of the indoor floor layer after completing the preparation step; After the completion of the arrangement step, the piping step of piping a heating tube extending from the boiler on the upper side; 30 wt% to 60 wt% of an acrylic emulsion binder containing 10% to 30% solids based on 100% by weight of raw material of any one of raw materials of ocher, a mixture of ocher and silica, and cement mortar filtered through powder or granular state after completion of the piping step. Mixing step of mixing the mixture by weight; And a finishing layer forming step of pouring the mixture on the upper side of the heating tube to close the heating tube and form a finishing layer.

In another aspect, the present invention comprises a concrete slab partitioning between floors and divided into floors or ceilings according to floors; A plurality of porous blocks arranged on an upper side of the concrete slab and having a plurality of grooves not penetrated in a vertical direction; And a finishing layer applied to the upper side of the porous block and arranged with a heating tube connected to the boiler tube therein.

Therefore, by improving the floor construction method and structure of the room to prevent far infrared rays beneficial to the human body from the floor surface of the room, or to prevent the impact sound or living noise generated from the floor surface of the room to be transferred to the lower floor.

Perforated blocks, grooves, heating tubes, finishes, insulation sound insulation

Description

Carrying out method of using soundproof indoor floor and structure}

1 is a process diagram showing a first embodiment of the indoor floor construction process according to the present invention

Figure 2 a to d is an exemplary view showing a floor construction process of the room according to the invention

3 a to b is a perspective view showing an example of a porous block applied in the present invention

4 is a cross-sectional view showing a modified state of use of the porous block applied in the present invention

5 is a perspective view showing another modified example of the present invention

* Explanation of symbols for main parts of drawings *

10; indoor floor layer 20; porous block

21; home 30; heating tube

40; insulation insulation 50; finishing layer

60; insulation

The present invention relates to a floor construction method and structure of the room, and more particularly to improving the floor construction method and structure of the room to radiate far-infrared rays beneficial to the human body from the floor surface of the room, or the impact sound generated from the floor surface of the room or It relates to a floor construction method and structure of the indoor to prevent the transmission of noise to the lower floor.

As is generally known, the floor surface of a room is covered with concrete on top of the boiler tube with fluid (or hot water) circulating.

Boiler tubes generally have a structure in which hot water heated in a boiler flows in and out and circulates.

However, in the floor structure of the currently applied room, the boiler tube is arranged on the floor to warm the floor in winter, but in summer when the boiler is not used, the floor surface is kept cool. There was a structural problem that can not be given.

In addition, the boiler tube is not closely arranged throughout the entire area with respect to the floor surface of the room, and due to the structure arranged at regular intervals, only the portion where the boiler tube is piped is warm and the portion where the boiler tube is not piped is not warm. There was a problem in the bottom corner that was cold enough for the winter.

Therefore, since the boiler is operated to increase the internal temperature of the room by the above factors, there is a problem of increasing the economic burden of unnecessary fuel and power waste.

In addition, recently, in the floor of the room, especially in the newly constructed floor of the interior of the harmful substances for a considerable period of time has been a special concern for the modern man who pays special attention to health. I'm evading.

In addition, the floor structure that connects the floors with floors is made of concrete slabs and hard materials such as tiles or prefabricated floors. There was a problem of being delivered without being filtered down to this layer.

This problem is pointed out as not only a factor that hinders a pleasant living environment but also a problem of exposing privacy.

Therefore, the technical problem to be solved by the present invention, that is, the object of the present invention, by improving the floor construction method and structure of the room in winter, the floor is heated evenly by receiving the heat of the boiler tube throughout the floor surface of the room Accordingly, to provide a floor construction method and structure of the soundproof room that can increase the temperature of the room.

Another object of the present invention is to provide a floor construction method and structure of a soundproof room that can reduce the waste of fuel and power by reducing the operating time of the boiler.

Another object of the present invention to improve the floor structure of the indoor to provide a floor construction method and structure of the soundproof room that can keep the floor surface of the room cool in summer.

Still another object of the present invention is to provide a floor construction method and a structure of a soundproof room that can discharge a beneficial component to the human body by improving the floor structure of the room.

Still another object of the present invention is to provide a floor construction method and structure for soundproof indoors that can be efficiently utilized when constructing a floor surface of a room by separating and reprocessing copper wires generated from electric wires, etc., which are waste industrial materials. It is.

Another object of the present invention to improve the floor construction method and structure of the room to provide a floor construction method and structure of the soundproof room to prevent the impact sound or living noise generated on the floor to be transmitted to the lower floor.

Still another object of the present invention is to provide a floor construction method and structure of a soundproof indoor floor that can protect the privacy by protecting the living environment by absorbing the shock or living noise generated on the floor surface of the room.

In order to achieve the above object, a first embodiment of the present invention comprises: an indoor floor layer forming step of partitioning between floors and layers and forming a concrete slab which is a base material of flooring divided into floors or ceilings according to floors; A preparation step of preparing a porous block; An arrangement step of arranging the porous blocks on the upper side of the indoor floor layer after completing the preparation step; Piping step of piping the heating tube extending from the boiler on the upper side after the completion of the arrangement step; After the completion of the piping step in the powder or granules filtered ocher, mixture of ocher and silica sand, raw material of any one of cement mortar A mixture preparation step of mixing 30% to 60% by weight of the acrylic emulsion binder containing 10% to 30% solids relative to%; And pouring the mixture on the upper side of the heating tube to seal the heating tube and to form a finishing layer for forming a finishing layer.

A first modified example for effectively implementing the first embodiment is, in the preparation step of the mixture is ground to at least one raw material of at least one of the mortar, cement mortar mixed with the loess, ocher and silica sand It is effective that the closed copper wire is mixed at a ratio of 1: 0.1 ~ 1.

A second embodiment of the present invention, the concrete slab partitioning between floors and divided into floors or ceilings according to the floor; A plurality of porous blocks arranged on an upper side of the concrete slab and having a plurality of grooves not penetrated in a vertical direction; And it is applied to the upper side of the porous block and provides a floor structure of the soundproof room is provided with a finishing layer arranged in the heating pipe connected to the boiler tube inside.

In a first configuration example for effectively implementing the second embodiment, it is effective that a plate-shaped heat insulation soundproof material provided with a synthetic resin is disposed between the porous block and the porous block and between the porous block and the finishing layer.

In a second configuration example for effectively implementing the second embodiment, the porous block is effectively provided with any one material of synthetic resin, wood, concrete mortar.

In a fourth configuration example for effectively implementing the second embodiment, the porous block may be arranged such that the groove and the groove face each other, and an insulation sound insulation material is disposed therebetween.

In a fifth configuration example for effectively implementing the second embodiment, the porous block is disposed so as not to overlap with the groove, and an insulation sound insulation material is disposed therebetween.

In a sixth configuration example for effectively implementing the second embodiment, the porous block is effectively provided with a polygonal shape on the plane.

In the seventh configuration example for effectively implementing the second embodiment, it is effective that the porous block is provided with a rounded shape on a flat surface thereof.

In an eighth configuration example for effectively implementing the second embodiment, the porous block is effective in that at least one of the insulating material of the urethane foam, asbestos, styrofoam is filled in the groove.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

In other words, the manufacturing process of the present invention will be mainly described, and the structural part of the porous block will be described in parallel with the manufacturing process.

Indoor floor formation step

After completing the interior work of the room, the floor of the room is formed.

The indoor floor layer 10 is divided into a ceiling or a floor according to floors as shown in FIG.

Preparation step

The porous block 20, which is a feature applied in the present invention, is prepared.

The porous block 20 may be formed of any one of synthetic resin and concrete mortar for mass production, but may be manufactured by processing wood in consideration of sound insulation.

The porous block 20 is an indoor floor structure, characterized in that provided with any one material of synthetic resin, wood, concrete mortar.

The porous block 20 may be provided with a polygonal shape in the plane as shown in a to b of FIG. 3, but may be provided with a circular shape and a plurality of grooves 21 not penetrated in the vertical direction may be provided. Are arranged.

Array stage

The porous block 20 prepared as above is arranged as shown in b of FIG. 2.

Of course, when manufacturing the porous block 20 in the form of a round shape, the space formed when the curved surface and the curved surface will have to fill a separate insulation or concrete slab.

Piping Step

When the arrangement step is completed as described above is arranged on the upper side of the heating pipe 30 installed in connection with the tube of the boiler omitted the representation.

On the other hand, the heating tube 30 may be arranged on the upper side after the porous block 20 arranged in a single layer as shown in c of Figure 3, but as shown in a to b of Figure 4 to provide a double soundproof effect Blocks 20 may be arranged in multiple layers.

Of course, the porous block 20 may be disposed such that the groove 21 and the groove 21 face each other, but the groove 21 and the groove 21 do not face each other, that is, the porous block 20 of any one layer. It may be arranged so that the groove 21 arranged in the) and the sealed surface formed in the porous block 20 of the other layer face.

In order to implement the object of the present invention more effectively, when the porous block 20 is laminated in multiple layers, a separate insulating sound insulation 40 may be provided between the porous block 20 and the porous block 20.

The insulation sound insulation material 40 can be made of a soft synthetic resin that can withstand the load and finally absorb the noise when the floor surface of the room to be described later is finally formed, but may be optionally used compressed urethane foam or styrofoam. have.

Mixture Preparation Step

After completing the piping step as described above to prepare a raw material of the finishing material, that is, a mixture for forming a floor layer of the room.

The mixture is a blending ratio of 30% to 60% by weight of an acrylic emulsion binder containing 10% to 30% solids, based on 100% by weight of the raw material of any one of ocher powder or cement mortar, which is filtered with fine particles of about 400 mesh or more. Mix with.

Of course, the mixing ratio of the above mixture is limited to an appropriate ratio, but the mixing ratio can also be changed depending on the mixture.

Moreover, it is effective to mix the copper wire grains of the chip | tip (or pellet) state made from the waste copper wire mentioned later with respect to ocher powder or cement mortar in the mixture applied by this invention at a ratio of 1: 0.1-1.

Finishing layer formation step

As described above, the mixture is plastered with the finishing layer 50 so that the heating tube 30 is embedded.

When the finishing layer forming step is completed as described above to maintain the shape (solid state) in the state where the waste copper is mixed with loess in the space where it is necessary to increase the thermal conductivity of the indoor floor surface or accordingly maintain the internal temperature of the room high. For this reason, the minimum amount of waste copper wire can be increased to the minimum necessary condition, and the content of ocher can be made relatively low.

On the other hand, if the ocher floor layer constructed through the manufacturing process as described above is formed on the floor surface of the room has the excellent weakness to remove the toxicity in the human body due to the characteristics of the ocher, such weakness is toxins generated in the human body Scratch, a fungus that acts as a neutralizer, is contained in the loess to neutralize the toxins that occur in the human body, thereby providing beneficial ingredients to the human body.

In addition, as already known, since the components of ocher generate far infrared rays beneficial to the human body at room temperature, when the ocher layer according to the present invention is installed on the floor surface, it is possible to obtain an effect that can be obtained in a general public sauna or a steam room.

In addition, the heat generated from the heating tube 30 is more effectively conducted by the finishing layer 50 cured in a state in which ocher and waste copper are mixed, and thus various shapes by the heat generated from the heating tube 30. The ocher layer constructed as will continuously emit far infrared rays beneficial to the human body.

On the other hand, in another aspect of the present invention, since the impact sound or living noise generated by dropping an object on the floor surface of the room is canceled in the groove 21, which is a space portion formed in the porous block 20, the noise is not directly transmitted to the lower floor. Do not.

Although a separate description is omitted, the porous block 20 applied in the present invention can be used as a wall as well as for the floor of the room for soundproofing.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims are as follows. And all changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

As described in detail above, according to the floor construction method and structure of the indoor according to the present invention, the floor construction method and structure of the interior is improved, and in winter, the floor surface is evenly received by conducting heat from the boiler tube throughout the floor surface of the interior. It warms up and increases the temperature of the room accordingly.

In addition, the present invention has the effect of reducing the waste of fuel and power by reducing the operating time of the boiler.

In addition, the present invention has the effect of improving the floor structure of the room to keep the floor surface of the room cool in summer.

In addition, the present invention has an effect of emitting far-infrared rays beneficial to the human body by improving the floor structure of the room.

In addition, the present invention has the effect that can be effectively utilized when constructing the floor surface of the room by separating and reworking the copper wire (에서 線) generated from the wire, such as waste industrial materials.

In another aspect, the present invention has an effect of preventing the impact sound or living noise generated from the floor surface to be transmitted to the lower floor by improving the floor construction method and structure of the room.

In another aspect, the present invention has the effect of maintaining a pleasant living environment by protecting the private life by blocking the shock or living noise generated from the floor surface of the room.

Claims (10)

An indoor floor layer forming step partitioning between floors and forming a concrete slab which is a base material of floorings divided into floors or ceilings according to floors; A preparation step of preparing a porous block; An arrangement step of arranging the porous blocks on the upper side of the indoor floor layer after completing the preparation step; After the completion of the arrangement step, the piping step of piping a heating tube extending from the boiler on the upper side; 30 wt% to 60 wt% of an acrylic emulsion binder containing 10% to 30% solids based on 100% by weight of raw material of any one of raw materials of ocher, a mixture of ocher and silica, and cement mortar filtered through powder or granular state after completion of the piping step. Mixing step of mixing the mixture by weight; And And a finishing layer forming step of pouring the mixture on the upper side of the heating tube to close the heating tube and form a finishing layer. The method of claim 1, In the step of preparing the mixture, the waste copper wire crushed to a length of 0.1-5mm for at least one raw material of the ocher, the mortar mixed with the ocher and the silica sand, cement mortar mixed at a ratio of 1: 0.1 to 1 How to install floor in soundproof room. Concrete slabs that divide between floors and are divided into floors or ceilings according to floors; A plurality of porous blocks arranged on an upper side of the concrete slab and having a plurality of grooves not penetrated in a vertical direction; And Floor structure of the soundproof room is applied to the upper side of the porous block and provided with a finishing layer arranged in the heating pipe connected to the boiler tube inside. The method of claim 3, wherein The floor structure of the soundproof room further comprises a plate-shaped insulating sound insulation provided with a synthetic resin between the porous block and the porous block and between the porous block and the finishing layer. The method of claim 3, wherein The porous block is a floor structure of a soundproof room, characterized in that provided with any one material of synthetic resin, wood, concrete mortar. The method of claim 3, wherein The porous block is a floor structure of the soundproof room further comprises that the groove and the groove facing each other and the insulation sound insulation is placed therebetween. The method of claim 3, wherein The porous block is disposed so as not to overlap with the groove and the insulation layer is a floor structure of the soundproof room further comprising a space therein. The method of claim 3, wherein The porous block is a floor structure of the soundproof room further comprises that the shape is provided in a polygon on the plane. The method of claim 3, wherein The porous block is a floor structure of the soundproof room further comprises that the outer shape is provided with a circular shape on a plane. The method of claim 3, wherein The porous block is a floor structure of the soundproof room further comprises that at least one of the insulation of the urethane foam, asbestos, styrofoam filled in the groove.

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