KR101449672B1 - the sound and shock absorption structure of slave in apartment - Google Patents

Abstract

The present invention provides a floor slab soundproofing and shock absorption structure for an apartment building including a floor heating section (H); an insulation plate (100) that is disposed below the floor heating section (H) and has multiple buffering tool fixing holes (101) formed therein; a buffering tool (200) whose upper portion is inserted into the buffering tool fixing hole (101) and lower end is exposed below the insulation plate (100); and a floor slab (S) that is disposed to be in contact with a lower end of the buffering tool (200), in which the buffering tool (200) is elastically deformed so as to mitigate vibration and shock transmitted from above. The buffering tool (200) includes a disk mount (230) in which a cylinder insertion hole (232) having the same diameter as the buffering tool fixing hole (101) is formed at the center with a grounding portion (234) in close contact with a lower portion of the insulation plate (100); a cylinder (210) that is inserted into the buffering tool fixing hole (101) and the cylinder insertion hole (232), is blocked at an upper end, and has a main body (213) where an open hollow (212) is formed therein and at a lower end formed therein and a step (211) formed at a lower end; and an elastic body (220) that is inserted into the hollow (212), is exposed below the hollow (212) at a lower end, and is disposed in contact with the floor slab (S), in which the elastic body (220) is elastically deformed so as to mitigate the vibration and the shock transmitted from above.

Description

[0001] The present invention relates to a soundproof and dustproof structure of a floor slab in a multi-

The present invention relates to a floor impact sound preventing system for a multi-storey house, which is superior to a conventional mat-type compressive elastic structure system and is particularly effective for a low-frequency impact sound which is a problem in heavy impact sound, The present invention relates to a soundproofing and dustproof structure of a floor slab in a multi-storeyed building, which is effective for a lightweight impact sound due to the sound insulation performance of a space formed between the floor and the floor, and is applicable to any of the wet type construction and semi-

Since the 1980s, when apartment houses, such as apartment buildings, became the center of attention, the interstratial noise, which is a big problem in society, can be classified into heavy impact sound and light impact sound.

In the case of lifting barefoot in the room like in Korea, heavy impact sound of a low frequency component due to a heavy and soft impact generated when walking is larger than a light weight impact sound of a used frequency component such as a chair pull sound.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing a conventional floor structure in a multi-family house. FIG.

Since floor ounces using hot water are essential in domestic houses in Korea, as shown in Fig. 1, between the light-weight foamed concrete including the slab and the hot water pipe and the ondol plate made of the finishing mortar, Floating floor structures used are generally applied.

The above-mentioned mat type cushioning material is a preferred method in the field because it is easy to construct, has low cost, has little deviation from impact sound and is easy to apply to existing ondol construction using lightweight foamed concrete.

However, since the Ondol plate requires a thickness of 80 to 90 mm, the thickness of the buffer material is limited to 30 mm.

In order to suppress the heat loss of the ondol, a very low level of insulation performance is required and a material having a low water absorption rate should be applied. Therefore, the material to be cushioned satisfying the above-mentioned level is limited to EPS and foam rubber (EVA) It is very difficult to achieve satisfactory performance.

When the conventional mat type cushioning material is subjected to compressive force, there is a limit to the elastic deformation due to the geometrical limitation including the influence of the Poisson's ratio. Therefore, even if the dynamic elastic modulus of the cushioning material is reduced to improve the buffering property, In case of excessive reduction, there is a problem in construction and long-term deflection.

As a solution to this problem, there is a movement to apply the method of improving the dynamic elastic property by reducing the area of the action load by the irregular process of the protrusion or embossing on the bottom of the mat (registered patent No. 0736200, etc.), but the flat plate and the projection are integrated The elastic deformation does not occur only in the protrusions but occurs in the flat plate portions connected with the protrusions. As a result, the buffering performance is not effective, and the long protrusion problem is caused by applying the shape of the protrusions with unreasonably increased burden area or reduced ground area.

As another improvement method, there is proposed a method of inducing elastic deformation only in the protrusion by separating the protrusion for the flat plate and the buffer like the double-layered floor structure capable of achieving the desired cushioning performance by engineering (Patent No. 0884158, etc.) It is necessary to provide a heat insulating material of 20 mm or more which does not affect the buffering function and the height of the protruding part serving as a buffer is limited to 10 mm or less so that the buffering performance is limited, It is the reality that it is becoming.

In addition, since the regulation of long-term deflation is strengthened in the "Standard for Recognition and Management of Structural Impact Sound Insulation for Residential Buildings (Ministry of Land, Infrastructure and Transport No. 2013-611)", which was enforced in May 2014, An alternative is needed.

[Patent Document 1] Korean Registered Patent No. 0736200 'Method for manufacturing a panel for preventing floor-to-floor noise in a floor for a residential house', 2004.12.10. [Literature 2] Korean Patent No. 0884158 'Interphase sound insulating material', 2007.08.02.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is aimed to provide a soundproofing and dustproof structure of a floor slab in a multi-storeyed house having improved buffering ability by securing sufficient cushioning space while applying a conventional method.

Second, we provide a soundproof and dustproof structure of a floor slab in a dwelling unit that can achieve the desired damping performance by engineering without regard to the limitation of the insulation standard.

Third, we want to provide a soundproof and dustproof structure of the floor slab in a multi - family house that satisfies the regulation of long - term deflection.

According to an aspect of the present invention, there is provided an oven (H); An insulating plate 100 provided under the ondol part H and having a plurality of buffer holes 101 formed therein; A buffer (200) having an upper portion inserted into the buffer fixing hole (101) and a lower end exposed to a lower portion of the heat insulating plate (100); And a bottom slab S installed in contact with the lower end of the buffer 200. The buffer 200 is elastically deformed to reduce vibration and impact noise transmitted from the upper portion of the buffer 200. [ And to provide a soundproof and dustproof structure of the floor slab in the apartment house.

The buffer 200 has a cylinder insertion hole 232 having the same diameter as that of the buffer fixing hole 101 at the center and a grounding portion 234 formed in a disc mount (230); A body 213 inserted into the buffer bore fixing hole 101 and the cylinder insertion hole 232 and having an upper end closed and a hollow 212 opened to the inside and a lower end thereof and a cylinder 210 having a step 211 formed at a lower end thereof ); And an elastic body 220 which is inserted into the hollow 212 and whose lower end is exposed to a lower portion of the hollow 212 to be installed in contact with the bottom slab S, wherein the elastic body 220 is elastically deformed And vibration and impact noise transmitted from the upper portion of the floor slab are reduced.

According to the present invention, the following effects are expected.

First, it provides a soundproofing and dustproof structure of a floor slab in a multi-storey apartment with improved buffering capacity by securing a sufficient cushioning space while applying a conventional method.

Second, it provides the soundproofing and dustproof structure of the floor slab in the apartment house which can achieve the desired cushioning performance by engineering regardless of the restriction of the insulation standard.

Third, it provides the soundproofing and dustproof structure of the floor slab in the apartment complex that satisfies the regulation of the strengthened long - term deflection.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing a conventional floor structure in a multi-family house. FIG.
2 is a perspective view showing an insulating plate and a buffer in the present invention.
3 is an exploded perspective view of a buffer solution in the present invention.
4 is a cross-sectional view of a soundproof and dustproof structure of a floor slab in a multi-unit house of the present invention.
5 is a conceptual view showing the behavior of the soundproof and anti-vibration structure of the floor slab in the apartment house of the present invention.
Fig. 6 is a detailed view of Fig. 4. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view of a soundproof and dustproof structure of a floor slab in a multi-unit house of the present invention.

The soundproof and anti-vibration structure of the floor slab in the apartment house of the present invention includes an oven (H); An insulating plate 100 provided under the ondol part H and having a plurality of buffer holes 101 formed therein; A buffer (200) having an upper portion inserted into the buffer fixing hole (101) and a lower end exposed to a lower portion of the heat insulating plate (100); And a bottom slab S installed in contact with the lower end of the buffer 200,

The shock absorber 200 is elastically deformed to reduce vibration transmitted from the upper portion and impact noise.

That is, when the insulating plate 100 collects the impact force transmitted through the ondol portion H and concentrates the impact force on the buffer 200, most of the transmitted impact force, particularly, the heavy impact sound is absorbed by the buffer 200 Which is characterized in that it has a hybrid function.

The insulating plate 100 is spaced apart from the bottom slab S by the buffer 200 so that an air layer is naturally formed between the insulating plate 100 and the bottom slab S, Effectively cope with impact noise reduction.

Any material can be used as the material of the heat insulating plate 100 as long as it can be processed into a plate shape and satisfies the heat insulation criterion. However, styrofoam (EPS) or foamed rubber (EVA) is preferable considering workability and economical efficiency.

Fig. 6 is a detailed view of Fig. 4. Fig.

The ondol portion H is filled with the lightweight foamed concrete H1 installed at the lower portion, the Ondol pipe H2 installed at the upper portion of the lightweight foamed concrete H1 and the Ondol pipe H2 and the lightweight foamed concrete H1 And a finishing mortar (H3) installed on the upper portion.

FIG. 2 is a perspective view showing an insulating plate and a buffer in the present invention, and FIG. 3 is an exploded perspective view of a buffer in the present invention.

The buffer (200)

A disk mount 230 in which a cylinder insertion hole 232 having the same diameter as the bush fixing hole 101 is formed at the center and the grounding portion 234 is in close contact with the lower portion of the heat insulating plate 100; A body 213 inserted into the buffer bore fixing hole 101 and the cylinder insertion hole 232 and having an upper end closed and a hollow 212 opened to the inside and a lower end thereof and a cylinder 210 having a step 211 formed at a lower end thereof ); An elastic body 220 inserted into the hollow 212 and exposed at a bottom of the hollow 212 to be in contact with the bottom slab S; , ≪ / RTI >

The elastic body 220 is elastically deformed to reduce vibration transmitted from the upper portion and impact noise.

The disk mount 230 and the cylinder 210 can be integrally manufactured as a single piece. Plastic is preferably used in consideration of workability.

Since the elastic body 220 is always deformed as well as the elastic restoring function, it is desirable that the elastic body 220 should have durability and have chemical resistance that is not affected by the surrounding environment. As a material, a general rubber system is preferable, but a spring is also possible.

When the spring is used, the elastic body 220 is formed of a spring,

And when the load is applied to the spring from the top, the length of the spring is reduced and the compressive deformation increases as the cross-sectional area increases.

5 is a conceptual view showing the behavior of the soundproof and anti-vibration structure of the floor slab in the apartment house of the present invention.

5 is a state diagram and a cross-sectional view explaining countermeasures against the influence of the Poisson's ratio, which is an embodiment in which a rubbery system is applied as an elastic body. (a) shows the normal state, and (b) shows the state where the compression deformation occurs due to the impact.

As shown in Figure 5,

The elastic body (220)

An expansion control groove 221 connected to the slit 223 is formed at the center of the slit 223 perpendicular to the outer circumferential surface of the elastic body 220. When a load is applied to the elastic body 220 from an upper portion thereof, And the deformation control groove (221) receives the increased volume of the slit (223) and the expansion control groove (221).

Specifically, when a compressive force is generated in the elastic body 220, the elastic body 220 expands in a direction perpendicular to the force direction due to the influence of the Poisson's ratio. When the periphery of the elastic body 220 is constrained by the cylinder 210, The coefficient is increased and the efficiency of the dustproof function is lowered.

As an alternative to this, the elastic body 220 has an expansion control groove 221 formed by processing the slit 223 in the shape of 'omega (Ω)

The elastic body 220 is expanded not to the outer circumferential surface but to the inner slit 223 and the hollow space 221 to reduce an increase in the elastic modulus depending on the influence of the Poisson's ratio .

As described above, according to the present invention, since the elastic body 220 is moved in the cylinder 210, the amount of deformation necessary for the elastic body 220 to be soundproofed and secured, and the countermeasures against the foam stiffness caused by compressive deformation of the elastic body 220 .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

H: Ondol Department
H1: Lightweight foam concrete
H2: Ondol piping
H3: Finishing mortar
S: floor slab
100:
101: Buffer fixing hole
200: buffer
210: cylinder
211: step
212: hollow
213:
220: elastomer
221: Expansion control groove
223: Slit
230: Mounting the disk
232: Cylinder insertion hole
234:

Claims (5)

Ondol portion (H); An insulating plate 100 provided under the ondol part H and having a plurality of buffer holes 101 formed therein; A buffer (200) having an upper portion inserted into the buffer fixing hole (101) and a lower end exposed to a lower portion of the heat insulating plate (100); And a bottom slab S installed in contact with the lower end of the buffer 200,
Characterized in that the shock absorber (200) is elastically deformed to reduce vibration transmitted from the upper portion and impact noise,
The buffer (200)
A disk mount 230 in which a cylinder insertion hole 232 having the same diameter as the bush fixing hole 101 is formed at the center and the grounding portion 234 is in close contact with the lower portion of the heat insulating plate 100;
A body 213 inserted into the buffer bore fixing hole 101 and the cylinder insertion hole 232 and having an upper end closed and a hollow 212 opened to the inside and a lower end thereof and a cylinder 210 having a step 211 formed at a lower end thereof );
An elastic body 220 inserted into the hollow 212 and exposed at a lower end of the hollow 212 to be in contact with the bottom slab S;
, ≪ / RTI >
Wherein the elastic body (220) is elastically deformed to reduce vibration transmitted from the upper portion and impact noise.
The method of claim 1,
The ondol portion H is filled with the lightweight foamed concrete H1 installed at the lower portion, the Ondol pipe H2 installed at the upper portion of the lightweight foamed concrete H1 and the Ondol pipe H2 and the lightweight foamed concrete H1 And a finishing mortar (H3) installed on the upper part of the floor slab.
delete The method of claim 1,
The elastic body (220)
An expansion control groove 221 connected to the slit 223 is formed at the center of the slit 223 perpendicular to the outer circumferential surface,
Wherein the slit (223) and the expansion control groove (221) are accommodated in an increased volume when a load is applied to the elastic body (220) from an upper portion thereof, Soundproofing and dustproof structure of.
The method of claim 1,
The elastic body (220)
Formed by a spring,
And a compressive deformation is performed in which the cross-sectional area of the spring is reduced when the load is applied to the spring from an upper portion thereof.

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