KR101991089B1 - Flooring construction method for preventing noise between stairs - Google Patents

Abstract

A method for constructing a floor for reducing interfloor noise according to an embodiment of the present invention comprises: a waterproof layer construction step; a first noise reduction module construction step of installing a plurality of noise reduction modules on a waterproof layer to reduce noise; a second noise reduction module construction step of accumulating the plurality of noise reduction modules; a hot water pipe construction step of constructing a hot water pipe; a third noise reduction module construction step of accumulating the plurality of noise reduction modules; a mortar construction step of placing mortar; and a finishing material construction step of constructing a finishing material on the mortar.

Description

[0001] The present invention relates to a floor construction method for reducing interlayer noise,

The present invention relates to a floor construction method for reducing interlayer noise, and more particularly, to a floor construction method for reducing interlayer noise by using a noise reduction module.

Generally, as buildings such as apartments, villas, multi-family houses, apartment buildings, schools, and other buildings are enlarged, high-leveled and upgraded, the floor noise of the upper level directly transmitted to residents and users directly below is transmitted as it is. It is becoming a new social and environmental problem that develops.

In order to limit the impact noise between the floors, the government proposed 'standard floor structure' after May 2004, stipulated slab thickness to be 180mm, interlayer noise to be 50dB or less, The construction company should construct the slab with a thickness of 180mm when constructing the building or arbitrarily construct the thickness of the slab but to construct the slab with a floor noise of 50dB or less, The construction cost increases due to the weight of the building, the design cost due to the weight, and the cost of the foundation construction. Therefore, the construction worker of the apartment complex has to solve the construction method urgently to reduce the noise.

On the other hand, Korean Patent Registration No. 10-1859577 (Registered on August 21, 2014) discloses a floor structure for a floor structure of a house for preventing interlayer noise.

However, in order to reduce noise, a plurality of different sound insulating materials such as a bottom sound insulating material, an intermediate sound insulating material, and a top sound insulating material must be used.

An object of the present invention is to provide a floor construction method for reducing interlayer noise that maximizes usability by using a noise reduction module.

It is to be understood that the present invention is not limited to the above-described embodiments and that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the following claims .

A floor construction method for reducing interlayer noise according to an embodiment of the present invention includes: a waterproof layer construction step of forming a waterproof layer on a slab; A first noise reduction module construction step of installing a plurality of noise reduction modules for reducing noise on the waterproof layer; A second noise reduction module construction step of stacking a plurality of the noise reduction modules so as to form a space in a height direction on the noise reduction module installed by the first noise reduction module construction step; A hot water piping construction step of constructing a hot water piping on the noise reduction module constructed by the second noise reduction module construction step; A third noise reduction module construction step of stacking a plurality of the noise reduction modules on the noise reduction module installed by the second noise reduction module construction step so as to cover the hot water pipeline; A mortar construction step of placing mortar on the noise reduction module installed by the third noise reduction module construction step; And a finish material applying step of applying a finishing material on the mortar, wherein the first noise reduction module construction step includes disposing the noise reduction module so that a space is formed between a plurality of the noise reduction modules in the lateral direction, Wherein the second noise reduction module construction step includes disposing the noise reduction module so that a space is formed between the plurality of noise reduction modules in the lateral direction and the third noise reduction module construction step includes a plurality of The noise reduction module is disposed so as to form a space between the noise reduction modules, and the noise reduction module constructed by the first noise reduction module construction step and the noise reduction module constructed by the second noise reduction module construction step A step of installing a sound insulation material in the space formed between the modules in the height direction; Wherein the soundproofing material application step is performed in a spacing space formed between the noise reduction module installed by the first noise reduction module construction step and the noise reduction module installed by the second noise reduction module construction step The noise reduction module includes a main body, a receiving recess formed in the upper surface of the main body to receive the hot water pipe, a side insertion hole formed in a side surface of the main body, A lower surface inserting hole formed in a lower surface of the main body portion, a lower surface spacing member engaged with the lower surface inserting hole, and a side surface inserting hole formed in the side inserting hole, And the side inserting holes to fill the plurality of recessed spaces through the lower side inserting holes, And a communication hole communicating between the lower insertion hole and the insertion space and between the insertion space and a plurality of the insertion spaces, wherein the first noise reduction module construction step includes: a lower surface of the noise reduction module The second noise reduction module construction step is arranged such that the top face of the noise reduction module is directed upward and the third noise reduction module construction step is arranged such that the bottom face of the noise reduction module faces upward have.

According to the floor construction method for reducing interlayer noise according to an embodiment of the present invention, the noise reduction module can be used to maximize the usability.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

1 is a schematic partial cross-sectional view of a floor constructed by a floor construction method for reducing interlayer noise according to an embodiment of the present invention;
2 is a schematic perspective view of a top surface of a noise reduction module used in a floor construction method for reducing interlayer noise according to an embodiment of the present invention.
3 is a schematic perspective view of a lower surface of a noise reduction module used in a floor construction method for reducing interlayer noise according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

A floor construction method for reducing interlayer noise according to an embodiment of the present invention includes: a waterproof layer construction step of forming a waterproof layer on a slab; A first noise reduction module construction step of installing a plurality of noise reduction modules for reducing noise on the waterproof layer; A second noise reduction module construction step of stacking a plurality of the noise reduction modules so as to form a space in a height direction on the noise reduction module installed by the first noise reduction module construction step; A hot water piping construction step of constructing a hot water piping on the noise reduction module constructed by the second noise reduction module construction step; A third noise reduction module construction step of stacking a plurality of the noise reduction modules on the noise reduction module installed by the second noise reduction module construction step so as to cover the hot water pipeline; A mortar construction step of placing mortar on the noise reduction module installed by the third noise reduction module construction step; And a finish material applying step of applying a finishing material on the mortar, wherein the first noise reduction module construction step includes disposing the noise reduction module so that a space is formed between a plurality of the noise reduction modules in the lateral direction, Wherein the second noise reduction module construction step includes disposing the noise reduction module so that a space is formed between the plurality of noise reduction modules in the lateral direction and the third noise reduction module construction step includes a plurality of The noise reduction module is disposed so as to form a space between the noise reduction modules, and the noise reduction module constructed by the first noise reduction module construction step and the noise reduction module constructed by the second noise reduction module construction step A step of installing a sound insulation material in the space formed between the modules in the height direction; Wherein the soundproofing material application step is performed in a spacing space formed between the noise reduction module installed by the first noise reduction module construction step and the noise reduction module installed by the second noise reduction module construction step The noise reduction module includes a main body, a receiving recess formed in the upper surface of the main body to receive the hot water pipe, a side insertion hole formed in a side surface of the main body, A lower surface inserting hole formed in a lower surface of the main body portion, a lower surface spacing member engaged with the lower surface inserting hole, and a side surface inserting hole formed in the side inserting hole, And the side inserting holes to fill the plurality of recessed spaces through the lower side inserting holes, And a communication hole communicating between the lower insertion hole and the insertion space and between the insertion space and a plurality of the insertion spaces, wherein the first noise reduction module construction step includes: a lower surface of the noise reduction module The second noise reduction module construction step is arranged such that the top face of the noise reduction module is directed upward and the third noise reduction module construction step is arranged such that the bottom face of the noise reduction module faces upward have.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a schematic partial sectional view of a floor constructed by a floor construction method for reducing interlayer noise according to an embodiment of the present invention.

FIG. 2 is a schematic perspective view of a top surface of a noise reduction module used in a bottom construction method for reducing interlayer noise according to an embodiment of the present invention. FIG. 3 is a bottom view And a lower surface of the noise reduction module used in the construction method.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

As to the definition of the preferred direction, the height direction in FIG. 1 may mean the up and down direction, and the lateral direction may mean the left and right direction.

As shown in FIGS. 1 to 3, the floor construction method for reducing the interlayer noise according to an embodiment of the present invention may be a floor construction method applied on a slab B of a building such as an apartment, .

For example, the floor construction method for reducing the interlayer noise may include a waterproof layer construction step of forming the waterproof layer 100 on the slab B.

For example, the waterproof layer 100 may be a waterproof coating on the slab B, and may be formed by sheet waterproofing, coating waterproofing, and the like.

Herein, for example, the floor construction method for reducing the interlayer noise may further include a first noise reduction module installation step of installing a plurality of noise reduction modules (M) for reducing noise on the waterproof layer (100) .

The noise reduction module M may be a key construction for reducing interlayer noise.

Hereinafter, the noise reduction module M will be described in more detail.

For example, the noise reduction module M may include a main body M100.

The main body M100 may be configured to support a hot water pipe P to be described below and to reduce noise.

For example, the main body M100 may be made of a material such as a metal that can receive heat from the hot water pipe P and transmit heat in another configuration

For example, the noise reduction module M may be inserted from the upper surface of the main body M100 to form a receiving groove R for receiving the hot water pipe P. [

For example, the receiving grooves R may be formed on the upper surface of the main body M100 so as to be spaced apart from each other.

Here, the noise reduction module M may form a side insertion hole H1 formed on a side surface of the main body M100. Further, the noise reduction module M may include a side surface It may further comprise a spacing member M200.

For example, the side insertion holes H1 may be spaced apart from each other on the side surface of the main body M100 and may have a plurality of threads.

For example, the side spacing member M200 may be a bolt that can be screwed into the side insertion hole H1.

Here, for example, the noise reduction module M may form a plurality of recessed spaces S formed by being joined from the lower surface of the main body M100.

For example, the recessed space S may be a key component for reducing noise.

For example, the sound absorbing material 200 to be described below may be disposed in the recessed space S, and further, an air layer may be formed to reduce noise.

In this case, the noise reduction module M may form a lower insertion hole H2 formed in the lower surface of the main body M100, and further, It may further comprise a spacing member M300.

For example, the insertion holes H2 may be formed on the lower surface of the main body M100 and may have a plurality of holes.

For example, the lower surface separation member M300 may be a bolt that can be screwed into the lower surface insertion hole H2.

Here, the noise reduction module M may be configured such that the sound insulation material 200 is filled in the plurality of recessed spaces S through the side insertion hole H1 and the bottom insertion hole H2, It is possible to form a communication hole H3 between the lower insertion hole H2 and the insertion space S and between the plurality of the insertion spaces S between the hole H1 and the insertion space S have.

That is, the operator can fill the sound insulation material 200 into the insertion space S through the side insertion hole H1 or the bottom insertion hole H2, and the sound insulation material 200 injected into the insertion space S (200) may be injected into the neighboring recessed space (S) through the communication hole (H3).

Hereinafter, a floor construction method for reducing the interlayer noise by using the noise reduction module M will be described in more detail.

As described above, the floor construction method for reducing the interlayer noise further includes the step of installing the first noise reduction module, which installs a plurality of the noise reduction modules (M) for reducing noise on the waterproof layer (100) can do.

The first noise reduction module construction step may mean installing a plurality of the noise reduction modules M on the waterproof layer 100 in parallel in the lateral direction.

At this time, the first noise reduction module construction step may be arranged such that the lower surface of the noise reduction module M faces upward.

As a result, the receiving groove (R) can face the waterproof layer (100).

At this time, the noise reduction module M may be disposed such that a space is formed between the plurality of noise reduction modules M in the lateral direction.

At this time, the side spacing member M200 is disposed on the neighboring main body M100 so that a space is formed between the plurality of noise reduction modules M in the lateral direction, and the neighboring main body M100 A spacing space may be formed.

The floor construction method for reducing the interlayer noise after the first noise reduction module installation step may be such that a space is formed in the height direction on the noise reduction module M constructed by the first noise reduction module construction step And a second noise reduction module construction step of stacking a plurality of the noise reduction modules (M).

The second noise reduction module construction step includes installing a plurality of the noise reduction modules M in the lateral direction side by side on the noise reduction module M constructed by the first noise reduction module construction step can do.

At this time, the second noise reduction module construction step may be arranged such that the top surface of the noise reduction module M faces upward.

As a result, the receiving groove R can be arranged to face upward.

At this time, the noise reduction module M may be disposed in the second noise reduction module construction step so that a space is formed between the plurality of noise reduction modules M in the lateral direction.

At this time, the side spacing member M200 is disposed on the neighboring main body M100 so that a space is formed between the plurality of noise reduction modules M in the lateral direction, and the neighboring main body M100 A spacing space may be formed.

At this time, in the second noise reduction module construction step, a plurality of noise reduction modules (not shown) are formed on the noise reduction module M constructed by the first noise reduction module construction step, (M) can be arranged.

At this time, the lower surface separation member M300 is protruded from the lower surface insertion hole H2 so as to form a space between the plurality of noise reduction modules M in the height direction, A spacing space may be formed between portions M100.

The floor construction method for reducing the inter-layer noise after the second noise reduction module installation step includes a step of installing the hot water piping P on the noise reduction module M constructed by the second noise reduction module construction step And a piping construction step.

The noise reduction module M constructed by the second noise reduction module construction step may be constructed such that the hot water pipe P is installed on the receiving groove R in that the receiving groove R faces upward .

Herein, for example, the floor construction method for reducing the interlayer noise may include a noise reduction module installed by the first noise reduction module installation step and a noise reduction module installed by the second noise reduction module construction step And the sound insulation material 200 is filled in the space formed between the modules M in the height direction.

For example, the sound insulating material 200 may be in a liquid state at room temperature, and may be a solidified material over time.

For example, the sound insulating material 200 may be an elastomeric and / or polymeric synthetic resin.

At this time, the step of installing the soundproofing material may be performed by the noise reduction module M constructed by the first noise reduction module construction step and the noise reduction module M constructed by the second noise reduction module construction step The sound insulating material 200 can be filled in such a manner that the air layer is formed in the spacing space formed in the height direction.

More specifically, FIG. 1 shows the relationship between the noise reduction module M constructed by the first noise reduction module construction step and the noise reduction module M constructed by the second noise reduction module construction step The sound insulation material 200 is completely filled on the space formed in the height direction. However, the sound insulation material construction step may include a step of installing the noise reduction module M and the second noise insulation module The soundproofing material 200 is not completely filled in the spaces formed in the height direction between the noise reduction modules M constructed by the noise reduction module construction step and filled up to a predetermined height, And the noise reduction module (M) installed by the second noise reduction module construction step, May be such that the air layer formed in the space formed by the spacing direction.

As a result, the noise reduction effect can be maximized.

The floor construction method for reducing the inter-layer noise after the step of installing the soundproofing material includes a step of installing a plurality of the noise reduction modules M on the noise reduction module M constructed by the second noise reduction module construction step so as to cover the hot water pipe P And a third noise reduction module construction step of stacking the reduction module (M).

The third noise reduction module construction step is a step of installing a plurality of the noise reduction modules M in the lateral direction side by side on the noise reduction module M constructed by the second noise reduction module construction step can do.

At this time, the third noise reduction module construction step may be arranged such that the top face of the noise reduction module M faces downward, that is, the bottom face of the noise reduction module M faces upward.

That is, in the third noise reduction module construction step, the noise reduction module M may be disposed so that the receiving recess R covers the upper side of the hot water pipe P.

At this time, the noise reduction module M may be arranged such that a spacing space is formed between the plurality of noise reduction modules M in the lateral direction in the third noise reduction module construction step.

At this time, in the third noise reduction module construction step, the noise reduction module M is placed in contact with the noise reduction module M constructed in the second noise reduction module construction step in the height direction .

As a result, the heat transferred from the hot water piping P to the noise reduction module M constructed by the second noise reduction module installation step is transmitted to the noise reduction module M constructed by the third noise reduction module construction step (M).

As a result, the heat transfer area can be increased.

The floor construction method for reducing the inter-layer noise after the third noise reduction module installation step may include a mortar construction method for installing the mortar (300) on the noise reduction module (M) installed by the third noise reduction module construction step And a finish material constructing step of constructing the finish material 400 on the mortar 300.

As described above, the floor construction method for reducing the interlayer noise has an advantage that the floor can be easily constructed using a plurality of the noise reduction modules M having the same shape.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

M: Noise reduction module
100: waterproof layer
200: Soundproofing material
300: Mortar
400: Finishing material

Claims (1)

A floor construction method for reducing interlayer noise,
A waterproof layer forming step of forming a waterproof layer on the slab;
A first noise reduction module construction step of installing a plurality of noise reduction modules for reducing noise on the waterproof layer;
A second noise reduction module construction step of stacking a plurality of the noise reduction modules so as to form a space in a height direction on the noise reduction module installed by the first noise reduction module construction step;
A hot water piping construction step of constructing a hot water piping on the noise reduction module constructed by the second noise reduction module construction step;
A third noise reduction module construction step of stacking a plurality of the noise reduction modules on the noise reduction module installed by the second noise reduction module construction step so as to cover the hot water pipeline;
A mortar construction step of placing mortar on the noise reduction module installed by the third noise reduction module construction step; And
And a finishing material constructing step of finishing the mortar on the mortar,
The first noise reduction module construction step includes:
The noise reduction module is disposed such that a space is formed between the plurality of noise reduction modules in the lateral direction,
The second noise reduction module construction step includes:
The noise reduction module is disposed such that a space is formed between the plurality of noise reduction modules in the lateral direction,
In the third noise reduction module construction step,
The noise reduction module is disposed such that a space is formed between the plurality of noise reduction modules in the lateral direction,
A sound insulation material filling step of filling the sound insulation material in the space defined between the noise reduction module installed by the first noise reduction module construction step and the noise reduction module installed by the second noise reduction module construction step ; ≪ / RTI >
In the step of installing the soundproofing material,
A sound insulation material is filled in the space formed in the height direction between the noise reduction module installed by the first noise reduction module construction step and the noise reduction module installed by the second noise reduction module construction step In addition,
The noise reduction module includes:
The body portion,
A receiving groove which is inserted from the upper surface of the main body and accommodates the hot water pipe,
A side insertion hole formed in a side surface of the main body portion,
A side spacer member screwed to the side insertion hole,
A plurality of recessed spaces formed integrally from the lower surface of the main body,
A lower insertion hole formed in a lower surface of the main body,
A lower surface separating member which is screwed to the insertion hole,
Wherein the sound insulation material is communicated between the side insertion hole and the insertion space, between the insertion hole and the insertion space, and between the insertion space and the plurality of insertion spaces so as to be filled with the plurality of insertion spaces through the side insertion hole and the bottom insertion hole, And a communication hole,
The first noise reduction module construction step may include:
The lower surface of the noise reduction module is oriented upward,
The second noise reduction module construction step includes:
Wherein the noise reduction module is disposed such that an upper surface thereof faces upward,
In the third noise reduction module construction step,
And the lower surface of the noise reduction module is oriented upward,
Floor construction method to reduce interlayer noise.

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