KR101745295B1 - Construction method for reducing noise between floors of building and building construction - Google Patents

Abstract

The present invention relates to a method and a building structure for reducing noise between buildings to reduce impact noise or noise (hereinafter referred to as " inter-floor noise ") generated in an upper layer of various buildings made up of multi- This paper deals with the construction method and the building structure for the noise reduction of the building so as to significantly reduce the transmission of the interlayer noise to the lower layer through a new method of separating the ceiling slab of the building from the lower layer wall.
According to the present invention, a supporting tuck is formed inside the upper end portion of the lower-layer wall, a sound insulating material or a waterproof plate is laid on the upper surface of the supporting tuck, and a ceiling slab is formed on the upper side thereof, so that the ceiling slab is not directly supported on the upper surface of the lower- So that it is possible to provide a pleasant residential environment by significantly reducing interlayer noise.
In addition, it is possible not only to integrate gangbang but also to reduce the construction cost by eliminating the need for subsequent soundproofing, and it is possible to accommodate the shaking due to the earthquake because the lower layer wall and ceiling slab are not cured together, You can expect.

Description

TECHNICAL FIELD [0001] The present invention relates to a construction method and a building structure for reducing noise between buildings,

The present invention relates to a method and a building structure for reducing noise between buildings to reduce impact noise or noise (hereinafter referred to as " inter-floor noise ") generated in an upper layer of various buildings made up of multi- This paper deals with the construction method and the building structure for the noise reduction of the building so as to significantly reduce the transmission of the interlayer noise to the lower layer through a new method of separating the ceiling slab of the building from the lower layer wall.

Generally, in the case of apartment houses or multi-storey buildings, when shocks or vibrations are directly applied to the floor due to human walking or dropping of objects, the floor is almost attenuated and transferred to the lower floor through the ceiling slab or wall So that interlayer noise is generated. The above-mentioned interlayer noise may interfere with the life of the other person, or may be caused by quarreling or fighting in severe cases.

Particularly, since the floor with children is running, the vibration is transmitted as it is. Therefore, unless the flooring material is buried very thickly from the time of construction frame construction, the vibration will be transmitted as it is. To avoid such noise, There was an inconvenience such as laying a mat on the same floor.

In order to prevent the above-mentioned interlayer noise, construction workers have tried to overcome by applying new method and application of new material. However, sound absorption and sound insulation have not been effective since they are ineffective in the past. In recent years, As a social issue, the Ministry of Construction and Transportation is promoting the regulation to strengthen the standards such as increasing the thickness of the slabs in order to prevent the interlayer noise. However, this is not a fundamental measure. If the slabs are formed thick, Of the total cost of the building.

On the other hand, in the construction of the floor impact sound preventing structure of the utility model registration No. 20-0378892 (Mar. 16, 2005), the first and second damping layers are laid on the slab layer to reduce the interlayer noise. However, simply laying a damping layer such as a sound insulating material on the slab layer is unlikely to have a great effect on the interlayer noise such as a shock directly applied to the slab layer. In addition, in the impact noise reduction structure and method of the bottom plate of the Japanese Laid-Open Patent Application No. 10-2005-0114553 (Dec. 2005, 2005), the anti-vibration member is provided at the corner portion constituting the slab and the wall, This is also a structure that can not be expected to have a great effect.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for reducing noise between building structures that significantly reduces the transmission of the interlayer noise to the lower layer through a new method of separating the ceiling slab of the building from the lower layer wall. We want to provide the building structure.

According to an aspect of the present invention, there is provided a method of manufacturing a reinforced concrete building, the method including: a first step of installing a gantry together with a reinforcement to form a lower layer wall above a floor; A second step of curing the lower layer wall with concrete pouring therein when the installation of the gangue is completed, and a supporting step protruding inwardly on the inside of the upper part; A third step of installing a mold panel for forming a ceiling slab to be a ceiling when the lower layer wall is cured, and installing a gantry with reinforcement to form an upper layer wall above the lower layer wall; A fourth step of curing the upper wall having the same shape as that of the lower wall when the gangue is installed; And curing the ceiling slab spaced apart from the upper surface of the lower layer wall by placing reinforcing bars on the upper side of the form panel and laying concrete on the upper surface of the supporting wall of the lower layer wall when the upper wall is cured, The method comprising the steps of:

Preferably, in the fourth step, an auxiliary bar is additionally provided in a horizontal direction below the gang foam before the concrete is poured so that a through hole is formed horizontally below the upper wall which is cured. In the fifth step, The reinforcing bars are arranged in the through holes formed on the lower side of the upper side wall when the reinforcing bars are arranged, so that the side walls of the ceiling slab can be supported by the upper side walls to disperse the load.

Preferably, a waterproof plate is provided instead of the sound insulating material on the upper surface of the supporting wall of the lower layer wall, or the sound insulating material and the waterproof plate are installed in parallel with each other.

A lower layer wall formed on an upper side of the bottom surface and having a supporting protrusion protruding inwardly on the inside of the upper portion; An upper layer wall formed on the lower layer wall and having the same shape as the lower layer wall; A sound insulating material disposed on the upper surface of the supporting jaw of the lower layer wall; And a ceiling slab formed on the upper side of the sound insulating material so as to be supported while being separated from the upper surface of the lower wall.

Preferably, the ceiling slab is configured such that a side is supported by a lower side of the upper wall through reinforcing work, thereby distributing the load.

Preferably, a waterproof plate is provided instead of the sound insulating material on the upper surface of the supporting wall of the lower layer wall, or the sound insulating material and the waterproof plate are installed in parallel with each other.

According to the present invention, a supporting tuck is formed inside the upper end portion of the lower-layer wall, a sound insulating material or a waterproof plate is laid on the upper surface of the supporting tuck, and a ceiling slab is formed on the upper side thereof, so that the ceiling slab is not directly supported on the upper surface of the lower- So that it is possible to provide a pleasant residential environment by significantly reducing interlayer noise.

In addition, it is possible not only to integrate gangbang but also to reduce the construction cost by eliminating the need for subsequent soundproofing, and it is possible to accommodate the shaking due to the earthquake because the lower layer wall and ceiling slab are not cured together, You can expect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram illustrating a method for reducing noise between buildings in accordance with a preferred embodiment of the present invention. FIG.
2 is a cross-sectional view showing a process of installing a gantry for forming a lower-layer wall according to a preferred embodiment of the present invention, and Fig. 2 is a sectional view showing a process of curing a lower-layer wall.
3 is a cross-sectional view illustrating a process of installing a gum for forming a top wall according to a preferred embodiment of the present invention, and FIG. 3 is a cross-sectional view illustrating a process of curing a top wall.
4 is a sectional view showing a process of forming a ceiling slab according to a preferred embodiment of the present invention.
FIG. 5 is an enlarged sectional view of a portion A of a building structure for reducing interlayer noise according to a preferred embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of terms in order to describe their invention in the best way. It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

FIG. 1 is a block diagram illustrating a method for reducing noise between buildings in accordance with a preferred embodiment of the present invention. FIG. 2 is a block diagram of a method for reducing the noise between building layers according to a preferred embodiment of the present invention. 3 is a cross-sectional view showing a process of curing a lower-layer wall, and Fig. 3 is a cross-sectional view showing a process of installing a gum for forming an upper wall according to a preferred embodiment of the present invention 4 is a cross-sectional view showing a process of forming a ceiling slab according to a preferred embodiment of the present invention, and FIG. 4 is a cross- 5 is an enlarged cross-sectional view of a portion A of a building structure for reducing interlayer noise according to a preferred embodiment of the present invention.

Referring to FIG. 1, the method for reducing noise between buildings of a building according to the present invention can be proposed as a five-step process (S10 to S50).

First, step S10 is a step of installing a gantry 500 for forming a lower wall 100. As shown in Fig. 2, the lower wall 100 is formed on the lower side of the bottom wall 100 600) and installing the gang form 500 together with the laying work. Particularly, in the case of the gantry 500, it is also preferable to use the one manufactured in accordance with the length and shape of the wall determined in the building design stage, thereby realizing installation efficiency and cost reduction. In the case of the light box 500 installed on the inner side of the gang 500, a type in which the upper end thereof is bent inward is provided, which is determined by the shape of the wall to be described later.

Next, step S20 is a step of forming the lower-layered wall 100. As shown in "B" of FIG. 2, concrete is placed in the gantry 500 installed in the first step S10, The lower wall 100 is formed according to the shape of the gantry 500 and the lower wall 100 is formed with an inwardly protruding support jaw 110 inside the upper end of the lower wall 100, Will be formed. A part of the reinforcement 600 laid in the first step S10 is protruded upward from the upper wall of the lower wall 100. This is because the reinforcing bars 600 and the reinforcing bars 600 are formed when the upper wall 200 is formed Which is a conventional structure. It is also obvious that, as shown in the supporting jaw 110, the reinforcing bars are laid as well as the reinforcing springs can be used in parallel instead of the reinforcing bars.

Next, in a third step (S30), a form panel 700 supported on a floor surface for forming a lower-layer ceiling is installed on the ceiling surface as shown in Fig. 3 (A) And the upper reinforcing bars 600 are connected to the reinforcing bars 600 attached to the lower reinforcing walls 100 to form the upper reinforcing bars 600 and the upper reinforcing bars 600, And the gantry 500 is installed by moving the gantry 500 used to form the lower wall 100 directly upward. The gang form 500 installation process itself is generally well known and will not be described in detail. However, as described above, the present invention is not limited to the use of the divided gang form 500, The installation efficiency is good and the unit cost is reduced.

Next, the fourth step S40 is a step of forming the upper wall 200. As shown in "B" in FIG. 3, concrete is poured into the gantry 500 installed in the third step S30 It is natural that the upper side wall 200 has the same shape as that of the lower side wall 100. The auxiliary bar 800 is installed horizontally below the gantry 500 to form the upper wall 200 to form a through hole 210 horizontally below the upper wall 200 cured. Is more preferable. Of course, the through-hole 210 may be formed through the upper wall 200 and the through-hole after the upper wall 200 is formed. However, since the working efficiency is lowered, the auxiliary bar 800 is installed to cure the upper wall 200 It is more preferable that the through hole 210 is formed naturally.

Finally, the fifth step S50 is a step of forming a lower-layer ceiling slab 400, and as shown in Fig. 4A, the upper side of the form panel 700 installed in the third step S30, The sound insulating material 300 is laid on the upper surface of the support tuck 110 of the lower layer wall 100 and the concrete is poured into the lower layer wall 100 And curing the ceiling slab 400 separated from the upper surface. At this time, when the reinforcement 600 for the ceiling slab 400 is installed, the reinforcement 600 is laid on the through hole 210 formed in the lower side of the upper side wall 200 formed in the fourth step S40, It is more preferable that the load of the ceiling slab 400 is dispersed by connecting the side surface of the ceiling slab 400 to be supported by the upper side wall 200.

It is obvious that a waterproof plate 310 may be installed in place of the sound insulating material 300 on the upper surface of the supporting wall 110 of the lower wall 100 and the sound insulating material 300 and the waterproof plate 310 may be installed in parallel . It is most preferable to lay the waterproof plate 310 along the upper surface edge of the support jaw 110 and to cover the sound insulating material 300 along the inside thereof. It is well known that the water level plate 310 is used in a concrete structure where water tightness is required.

The uppermost roof layer is finished by forming a roof slab 410 above the upper wall 200 as indicated by the broken line in "I" in FIG. 4 This rooftop slab 410 applies a well-known structure.

In particular, as shown in FIG. 5, the ceiling slabs 400 are formed separately from the upper and lower walled walls 100 and 200, in order to reduce the interlayer noise by applying the new method. The ceiling slab 400 may be formed to support the upper and lower walls 100 and 200 through the reinforcing rods 600. Alternatively, the ceiling slab 400 may be formed by supporting the upper and lower walls 100, The structural improvement in which the sound insulating material 300 is provided on the upper surface and the ceiling slab 400 is supported thereby greatly reduces the direct transmission of the noise transmitted through the ceiling slab 400 to the lower layer, . Here, although the supporting step 110 is formed at the upper end of the lower wall 100, since the ceiling finishing plate is usually provided under the supporting step 110, it is recognized that the supporting step 110 is not exposed to the outside Will be. In addition, reinforcing rods 600 are arranged so that the side surfaces of the ceiling slabs 400 are supported on the lower side of the upper wall 100, thereby providing a stable structure by distributing loads.

The waterproof panel 300 may be installed in place of the sound insulating panel 300 on the upper surface of the supporting wall 110 of the lower wall 100 and the waterproof panel 300 and the waterproof panel 310 may be installed in parallel with each other. It is self-evident. It is most preferable to lay the waterproof plate 310 along the upper surface edge of the support jaw 110 and to cover the sound insulating material 300 along the inside thereof.

A sound insulating material 300 or a water level plate 310 is laid on the upper surface of the supporting step 110 and a ceiling slab 400 is formed on the upper side of the supporting step 110 So that the ceiling slab 400 is not directly supported on the upper surface of the lower wall 100 but is spaced apart from the ceiling slab 400. Thus, It is possible to provide a new structure that is different from the conventional structure, thereby greatly reducing the interlayer noise.

In addition, since the lower wall 100 and the ceiling slab 400 are not cured together and are spaced apart from each other, it is possible to accommodate the shaking when an earthquake occurs.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims of the invention to be described below may be better understood. Additional features and advantages that constitute the claims of the present invention will be described in detail below. It should be appreciated by those skilled in the art that the disclosed concepts and specific embodiments of the invention can be used immediately as a basis for designing or modifying other structures to accomplish the invention and similar purposes.

It is also to be understood that such modified or altered equivalent structures by those skilled in the art as a basis for modifying or designing the invention to the other structures for carrying out the same purpose of the invention disclosed in the present invention, It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit or scope of the invention as defined by the appended claims.

S10: First step S20: Second step
S30: Third step S40: Fourth step
S50: fifth step 100: lower layer wall
110: support jaw 200: upper wall
210: Through hole 300: Sound insulating material
310: Index plate 400: Ceiling slab
500: Reformed 600: Reinforced
700: Formwork panel 800: Auxiliary bar

Claims (6)

A first step of installing a gantry together with a reinforcement to form a lower layer wall above the floor;
A second step of curing the lower layer wall with concrete pouring therein when the installation of the gangue is completed, and a supporting step protruding inwardly on the inside of the upper part;
A third step of installing a mold panel for forming a ceiling slab to be a ceiling when the lower layer wall is cured, and installing a gantry with reinforcement to form an upper layer wall above the lower layer wall;
A fourth step of curing the upper wall having the same shape as that of the lower wall when the gangue is installed; And
A fifth step of curing the ceiling slab spaced apart from the upper surface of the lower layer wall by placing a sound insulating material on the upper surface of the supporting wall of the lower wall when the upper wall is cured, placing reinforcing bars on the upper side of the form panel, ;
And a method for reducing noise between buildings. The method according to claim 1,
In the fourth step, an auxiliary bar is further provided horizontally on the lower side of the gang foam before the concrete is poured to form a through hole horizontally below the upper wall which is cured,
In the fifth step, when the reinforcing bars are placed on the upper side of the formwork panel, reinforcement rods are inserted into the through holes formed in the lower side of the upper side wall so that the side faces of the overlay slab can be supported on the upper side wall to disperse the load A method for reducing noise between buildings. The method according to claim 1,
Wherein a waterproof material is installed instead of a sound insulating material on the upper surface of the supporting wall of the lower wall, or the sound insulating material and the waterproofing plate are installed in parallel with each other. A lower layer wall formed on an upper side of the bottom surface and having a supporting protrusion protruding inwardly on the inside of the upper portion;
An upper layer wall formed on the lower layer wall and having the same shape as the lower layer wall;
A sound insulating material disposed on the upper surface of the supporting jaw of the lower layer wall; And
A ceiling slab formed on the upper side of the sound insulating material and formed to be spaced apart from the upper surface of the lower wall;
The building structure for reducing the interlayer noise. 5. The method of claim 4,
Wherein the ceiling slab is configured to support a side of a lower side of an upper side wall of the ceiling slab through a reinforcement work so as to disperse a load. 5. The method of claim 4,
Wherein the soundproofing material is installed on the upper surface of the supporting wall of the lower layer wall in place of the sound insulating material or the sound insulating material and the waterproofing plate are installed in parallel with each other.

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