KR102056162B1 - Floor construction of apartment house - Google Patents

Abstract

The present invention relates to a floor construction structure for an apartment house, and more specifically, to a floor construction structure for an apartment house, which suppresses leakage generation while minimizing damage to a household at a lower floor when leakage is generated, is easy for maintenance, and is improved to prominently mitigate generation of a noise between floors which is a chronic problem of an apartment house.

Description

Floor construction of apartment house

The present invention relates to the floor construction structure of a multi-family house in the field of construction technology, more specifically, to minimize the damage to the lower generation generation when the leakage occurs, while suppressing the occurrence of leakage, easy maintenance, interlayer noise, which is a chronic problem of the multi-family house The floor construction structure of the MDU improved to be able to significantly alleviate the occurrence.

Recently, in multi-storey multi-family apartments such as apartments, noises and impact noises from the upper floors have been raised as a big social problem due to the noise between floors.

The noise between floors is mostly caused by footsteps or doors generated when moving upstairs in the living spaces, opening and closing of doors, impacts on various objects, impacts on the floor, and children running or rolling.

Such interlayer noise occurs because of the very good transmission of solid solids such as concrete structures. If neglected, serious social problems such as quarrels between neighbors and even casualties are required. Therefore, a thorough countermeasure is required.

Therefore, the construction of the floor noise preventing means that can prevent noise or shock vibration is almost essential in the floor construction of the multi-storey multi-family house. Currently, various methods of reducing noise between floors have been disclosed. It is not effective because it is a form of padding on.

On the other hand, leaks in hot water pipes often cause tremendous damage to the downstairs generation, becoming a new factor of conflict, and sometimes complaining problems, leading to court disputes.

For example, as shown in FIG. 1, conventionally, a structure in which a hot water pipe 12 is installed on a bottom concrete 10 and then finished with a finishing mortar 14 is the most common floor structure.

Therefore, as well as the interlayer noise problem, if the water leakage occurs in the hot water pipe 12, the fungus is severely generated by polluting all the walls and ceiling of the downstairs generation by directly flowing down the voids and cracks of the floor concrete 10 to the downstairs generation. Causing serious problems.

However, since the current floor structure is not a structure that can minimize leakage, a search for a new structure should be made at all.

Republic of Korea Patent Registration No. 0741757 (2007.07.16.), 'Interlayer structure of multi-storey building'

The present invention was created in view of the above-mentioned problems in the prior art, and was created to solve this problem. The main objective is to provide an improved floor construction structure for multi-unit houses to significantly reduce noise.

The present invention as a means for achieving the above object, as a floor construction structure of a multi-family house is constructed or installed on the floor concrete 100 to perform the noise between the floor and waterproof function,

A waterproofing layer 110 formed by applying a waterproofing solution on the bottom concrete 100;

A finishing sheet layer 120 formed by laying a finishing sheet formed by molding a resin solution mixed in a weight ratio of polyurethane resin and polyethylene resin 2: 1 on the waterproof layer 110 in a sheet form;

A metal sheet layer 130 formed by laying the aluminum sheet of 0.5 mm or less on the finish sheet layer 120;

A buffer layer (140) formed on the metal thin layer (130) with a lightweight foam concrete to form a support surface to install a hot water pipe (P) while having a function of impact relief and noise reduction;

A lower sheet 150 disposed above the buffer layer 140 and having a semicircular pipe groove recessed downwardly so as to install a hot water pipe P;

An upper foam layer 160 formed of foamed urethane foam to be insulated and waterproof at the same time while protecting the hot water pipe P seated on the lower sheet 150 while being protected from being wrapped thereon;

A protective layer 170 formed by pouring light-weight foam concrete on top of the upper foam layer 160;

Provides a floor construction structure of a multi-family house comprising a; the finishing layer 180, the surface is leveled with cement mortar on the top of the protective layer 170.

According to the present invention, it is possible to minimize the damage to the downstairs generation when leakage occurs, to suppress the occurrence of leakage, and to easily maintain the maintenance and significantly reduce the generation of interlayer noise, which is a chronic problem of the apartment house.

1 is an illustration of a floor construction structure of a multi-unit house according to the prior art.
Figure 2 is an illustration of the floor construction structure of a multi-family house according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Prior to the description of the present invention, the following specific structures or functional descriptions are merely illustrated for the purpose of describing embodiments according to the inventive concept, and the embodiments according to the inventive concept may be implemented in various forms, It should not be construed as limited to the embodiments described herein.

In addition, embodiments in accordance with the concepts of the present invention may be modified in various ways and may have various forms, specific embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As shown in Figure 2, the floor construction structure of the multi-unit housing according to the present invention is designed to have a completely different configuration from the existing structure is designed to significantly reduce the noise between floors, as well as damage to the lower floor generation when leaking It is configured to minimize it.

That is, the floor construction structure of the multi-family house according to the present invention includes a floor concrete (100).

The floor concrete 100 is a foundation floor layer that separates the layers.

The waterproof layer 110 is formed on the bottom concrete 100.

The waterproof layer 110 is formed by applying a waterproofing liquid, the waterproofing liquid is 4.5% by weight of perfluoro-1,3-dioxol, 2.5% by weight of C ₁₈ H ₂₄ N ₂ , and gutta-percha and silica gel of 2: 1 It is composed of 10% by weight of the liquid dissolved in chloroform, 6.5% by weight of methylsulfonic methane and the remaining polyurethane resin mixed in a weight ratio.

At this time, the perfluoro-1,3-diosol induces the resin liquid to be uniformly dispersed without aggregation, thereby enhancing the stability of the dispersion and having a high oxygen absorption ability to suppress oxidation of the metal sheet to be described later.

In addition, the C ₁₈ H ₂₄ N ₂ (N- (1,3-Dimethylbutyl) -N'-phenyl-p-phenylenediamine) is added to achieve dimensional stability while increasing the binding force, and to inhibit oxidation by heat.

In addition, gutta-perca has a trans-type long chain by polymerizing 1000-5000 isoprene units, which has less elasticity than rubber but does not erode by acids and alkalis, thereby ensuring acid resistance, alkali resistance, and corrosion resistance, and oxygen. Silica gel should be mixed in a weight ratio of 2: 1 to have water resistance and water repellency characteristics while preventing decomposition by reacting with and dissolved in chloroform to increase solubility.

In addition, the methylsulfonic methane is added to suppress cracks and cracks and enhance waterproofness while maintaining flexibility, and the polyurethane resin is a base resin as a representative waterproof resin.

On the other hand, the finish sheet layer 120 is formed on the waterproof layer 110.

In other words, the finishing sheet layer 120 as a new layer that does not exist in the past is completely different from the conventional concept simply made by pouring only concrete or mortar, and installed a finishing sheet of 2 mm or less on the waterproof layer 110 to cushion the shock absorbing function Of course, it also has a noise reduction function, and further to protect the fall of the waterproof layer (110).

The finish sheet layer 120 is formed by using a finish sheet formed by molding a resin liquid mixed in a weight ratio of polyurethane resin and polyethylene resin 2: 1 in order to increase the interlocking with the waterproof layer 110.

Then, the metal sheet layer 130 is formed on the finish sheet layer 120.

The metal thin film layer 130 is formed by laying the aluminum thin plate of 0.5mm or less, is disposed at intervals below the hot water pipe (P) to reflect the heat to the top to reduce the heat loss while increasing the heating efficiency This is to contribute to reducing the heating cost.

However, it is preferable to use a thin plate in consideration of construction and cost.

In addition, a buffer layer 140 is formed on the metal thin plate layer 130.

The buffer layer 140 is cast with lightweight foam concrete to perform a pipe support function to install the hot water pipe (P) while achieving a shock-absorbing and noise-reducing function having a void therein.

In addition, a lower sheet 150 having a semicircular pipe groove recessed downward is installed at the upper portion of the buffer layer 140 so as to install the hot water pipe P.

The lower sheet 150 is a silicon sheet, which is based on a silicone resin for waterproofing, and is molded into a sheet by mixing paraffin wax and polysiloxane by 2.5 wt%.

In addition, the upper foam layer 160 formed by foaming urethane foam is formed so as to be protected from movement while at the same time wrapping and protecting the hot water pipe P seated on the lower sheet 150 from being protected.

In addition, the upper portion of the upper foam layer 160 has a protective layer 170 formed by pouring lightweight foam concrete is formed to a predetermined thickness.

Then, the hot water pipe (P) is interposed between the protective layer 170 and the buffer layer 140 is interposed, in particular, the hot water pipe (P) is a silicone sheet with excellent waterproofness, so the bottom surface is wrapped form Even if a leak occurs in the pipe P, it is suppressed to flow down to the generation of the lower floor.

In particular, even though water penetrates through the metal thin film layer 130, the water is trapped by the waterproof layer 110 before reaching the bottom concrete 100, so that leakage of water is almost blocked to prevent the damage of the lower generation.

In addition, the leaked water remaining on the waterproof layer 110 may be absorbed and extracted during maintenance later. For example, the absorbent fabric may be used, and if one side is dug up to the waterproofing layer 110, it can be maintained in a manner of discharging the deceased.

Lastly, the upper surface of the protective layer 170 is cast with cement mortar, but not thick, placed in a thickness of 2-3cm, the leveling layer 180 to guide the floor covering or flooring, such as flooring flat ) Is further formed.

The newly constructed floor structure is expected to be a good way to solve the problem of inter-floor noise as well as waterproof function without any significant increase in cost.

100: floor concrete
110: waterproof layer
120: finishing sheet layer
130: metal thin layer
140: buffer layer
150: lower seat
160: upper foam layer
170: protective layer
180: finishing layer

Claims (1)

As a floor construction structure of a multi-family house constructed to be installed or installed on the floor concrete 100 to perform the noise between the floor and waterproof function,
A waterproofing layer 110 formed by applying a waterproofing solution on the bottom concrete 100;
A finishing sheet layer 120 formed by laying a finishing sheet formed by molding a resin solution mixed in a weight ratio of polyurethane resin and polyethylene resin 2: 1 on the waterproof layer 110 in a sheet form;
A metal sheet layer 130 formed by laying the aluminum sheet of 0.5 mm or less on the finish sheet layer 120;
A buffer layer (140) formed on the metal thin layer (130) with a lightweight foam concrete to form a support surface to install a hot water pipe (P) while having a function of impact relief and noise reduction;
A lower sheet 150 disposed above the buffer layer 140 and having a semicircular pipe groove recessed downwardly so as to install a hot water pipe P;
An upper foam layer 160 formed of foamed urethane foam to be insulated and waterproofed at the same time while protecting the hot water pipe P seated on the lower sheet 150 while being protected from the top while being protected from movement;
A protective layer 170 formed by pouring light-weight foam concrete on the upper foam layer 160;
Flooring structure of a multi-family house comprising a; the finishing layer 180, the surface is leveled with cement mortar on the top of the protective layer 170.

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