KR200413600Y1 - Instrument for Absorbing Layer-to-layer Vibration and Noise - Google Patents

Abstract

The present invention relates to an interlayer vibrating noise prevention device, the upper plate member 10 of which several nuts 11 and 12 are embedded in an upper portion and a lower portion thereof; A bottom buffer block member 20 positioned in the lower center of the upper plate member 10; Anti-vibration port 30 surrounding the bottom buffer block member 20 spaced apart at a position protruding downward; The case 40 connecting the dustproof port 30 and the bottom buffer block member 20 to the lower surface of the upper plate member 10 through the center of the case 40 and the bottom buffer block member 20. A bolt 50 fastened and fixed to the embedded nut 12; Since the screw bolts are fastened to the nuts 11 embedded in the upper plate member 10 and woven with reinforcement skeletons 61 and wires 62, the support bolts 60 are installed. Since a plurality of strut bolts are vertically installed to perform the strut role, the coupling force between the upper plate member and the cement layer is improved, and cracks are prevented.

In addition, it is a very useful design that can prevent the floor from sinking or breaking even when a strong impact or a load is partially applied.

Dustproof, Soundproof, Floor Noise Control, Rebar Skeleton, Dust Block, Shoring Bolt, Crack Prevention

Description

Instrument for Absorbing Layer-to-layer Vibration and Noise

1 is a cross-sectional view showing a conventional double slab structure

2 is a cross-sectional view of the installation state of the present invention

3 is an enlarged cross-sectional view of the present invention

Figure 4 is a perspective view of the buffer block

5 is a perspective view showing the shape of the dustproof port

* Description of the major symbols in the drawings *

1: concrete slab layer 2: lightweight foam concrete layer

10: top plate member 20: floor buffer block member

30: dustproof 40: case

50: bolt 60: holding bolt

The present invention relates to an interlayer vibration noise prevention device, and more particularly, to absorb the vibration and noise generated from the floor of a building in a double slab layer structure to satisfy the strict interlayer noise regulation, and in particular, cracking of aerated foam concrete layer. In addition, it is designed to prevent the sinking by strong impact or load.

In general, in recent years, the form of residential buildings has been concentrated to multi-family housing such as apartments and villas.

Such multi-family housing has a problem such as a great inconvenience in the residential environment of residents due to the noise generated between floors, or a fight between neighbors, resulting in sound insulation material that can block the noise generated in each floor during the construction of the multi-family house. The building law which establishes compulsorily is enforced.

The standard value enacted by the house construction standard rule effective from April 22, 2004 is prescribed as 58db of light sound and 50db of heavy sound.

In addition, the floors of residential buildings constructed with underfloor floors are required to install insulation materials to save energy by increasing their efficiency during cooling and heating.In the case of residential apartment houses such as apartments and villas, insulation and floor noise are blocked. The regulations must be satisfied at the same time.

On the other hand, the concrete slab layer forming the foundation floor of the building blocks the air propagation sound, while the direct impact is applied when the vibration is generated, the solid wave sound is not attenuated and transmitted to the lower floor is radiated.

As described above, the floor impact sound generated by the walking and falling of the building, the fall of the object, and the friction and the impact caused by the movement of the object is transmitted to the lower floor through the concrete slab layer, radiated from the ceiling of the lower floor, and the lower floor. It was a cause of deterioration of the residential environment of the residents living in.

When an impact occurs on the floor of a building, natural vibration is generated by the impact, and the floor shock sound is generated due to the vibration mode corresponding to the frequency and the natural frequency of the natural vibration.

In order to solve this problem, recently, in the case of residential multi-family house, as shown in FIG. After forming the lightweight foamed concrete layer (2), and then arrange the heating pipe piping panel (5) on the upper portion of the lightweight foamed concrete layer to pipe the heating tube, and then put the finishing mortar on the upper part such as finishing panel Floor finishing is performed by using the finishing member (8).

The sound absorbing plate 1b is a plate shape having a predetermined thickness, and is used in the form of a synthetic resin material or a synthetic rubber material that absorbs noise or vibration.

However, the conventional double slab layer structure is provided with a sound absorbing plate between the concrete slab layer and the foam concrete, so that the sound absorbing plate absorbs and minimizes the floor impact sound. There was a problem that the absorption rate is insufficient by absorbing a noise.

Therefore, in order to meet the revised housing construction standards, it is necessary to increase the thickness of concrete slab layer and foam concrete.

As the thickness of concrete slab layer and foamed concrete increases, the floor height increases and the building load increases to reinforce the structure in addition to the cost caused by the increase in the amount of concrete used in construction. will be.

On the other hand, in order to insulate the lightweight foam concrete floor heating tube currently being constructed, it is directly cast on the insulation such as styrofoam without any creek prevention means.

Therefore, creep is generated in the lightweight foam concrete layer due to seasonal changes and repeated small vibrations and impacts.

In addition, the heat insulating material has a problem such as being partially recessed or broken when a large impact or sustained load is applied because the lightweight foam concrete layer is poured thereon despite the relatively low compressive strength.

The purpose of the present invention is to minimize the generation of floor vibration and impact noise by gradually absorbing and extinguishing the vibration and noise generated from the floor in multiple stages, and to satisfy the standard of inter-floor noise regulation with simple construction. To provide a noise shield.

Another object of the present invention is to provide an interlayer vibration noise prevention device to prevent cracking and depression of the lightweight foam concrete layer after pouring.

The object of the present invention is the upper and lower members of the upper plate member 10 is installed several nuts (11, 12);

A bottom buffer block member 20 positioned in the lower center of the upper plate member 10;

Anti-vibration port 30 surrounding the bottom buffer block member 20 spaced apart at a position protruding downward;

The case 40 and connecting the dustproof port 30 and the bottom buffer block member 20:

A bolt 50 fastened and fixed to a nut 12 embedded in a lower surface of the upper plate member 10 through the center of the case 40 and the bottom buffer block member 20;

It is achieved by being screwed to the nuts (11) embedded in the upper plate member 10 to be composed of holding bolts (60) which are installed by weaving with reinforcement skeleton 61 and the wire (62).

Therefore, the floor buffer block member 20 is supported in a floating state above the concrete slab layer 1 in a state connected from the dustproof port 30 to the case 40 so that vibration and noise generated from the floor of the building are buffered. Since it is effectively absorbed by the block member 20 and the anti-vibration opening 30 will be able to minimize the vibration and noise transmitted to the concrete slab layer (1).

In addition, since the holding bolts 60 screwed to the upper part of the upper plate member 10 are constructed by weaving with reinforcement skeletons 61 and wires 62, etc., after the installation, the impact of cracks and strong impact of the lightweight foam concrete layer is reduced. This can be prevented.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of the installation state of the present invention, Figure 3 is an enlarged cross-sectional view of the present invention.

Figure 4 is a perspective view of the buffer block, Figure 5 is a perspective view showing the shape of the dustproof port.

The bottom buffer block member 20 is located below the top plate member 10 formed of a square synthetic resin material, the top plate member 10 is formed in a plane so that the top thereof horizontally supports the floor of the building.

The floor buffer block member 20 is manufactured by using a synthetic resin material or rubber material and a foamed rubber material having absorbency for absorbing vibration and noise, and in the present invention, it is based on using a molded rubber material for dustproofing. It turns out that molding can be made of any material that can absorb vibration and noise.

And, as shown in Figure 4, the bottom buffer block member 20 is dug out the notch grooves 21 in a substantially checkerboard shape of vertical symmetry for the vibration and sound absorption performance of the sound absorbing hole 22 in the center formed in the columnar shape therebetween. ).

In addition, the sound-absorbing hole 23 can also be drilled laterally in terms of sound absorption effect.

Therefore, the elasticity and fluidity are improved by the notch grooves 21 so as to have a vibration absorbing function, and the noise transmitted to the lower part by the sound absorbing holes 22 and 23 drilled therebetween can be absorbed. To ensure that

In addition, dustproof openings 30 are installed around the bottom buffer block member 20 by a case 40, and the floor buffer block member 20 is formed by the dustproof opening 30. It is supported in a floating state with a predetermined diameter at the top.

As shown in FIG. 3, the case 40 supports the upper portion of the dustproof openings 30 that are bent and positioned around the bottom of the bottom buffer block member 20 at the center thereof. The case 40 and the bottom buffer block member 20 are screwed to the nut 12 embedded in the lower portion in the process of forming the upper plate member 10 by the).

The anti-vibration opening 30 has a block shape so as to dig out the notch grooves 31 so as to have the same configuration and function as the bottom buffer block member 20 and to form a sound absorbing hole 32 in the center formed in a column shape therebetween.

In addition, the sound-absorbing hole 33 also penetrates laterally in terms of sound absorption effect.

Therefore, the elasticity and fluidity are improved by the notch grooves 31 so as to have a vibration absorbing function, and the noise transmitted to the lower portion by the sound absorbing holes 32 and 33 drilled therebetween can be absorbed. To ensure that

The material of the dustproof port 30 is also manufactured using synthetic resin materials, rubber materials and foam rubber materials having air-absorbability.

On the other hand, the material of the upper plate member 10 by using a mixture of 5-77% of stone powder in PE, PP-based synthetic resin to increase the strength and allowable load.

In addition, the upper part of the upper plate member 10 is not shown to increase the bonding force when placing concrete, but the grooves or protrusions are repeatedly formed in the longitudinal and horizontal directions, and it is preferable to integrally form several ribs in the lower part to improve strength. Do.

In addition, a plurality of holding bolts 60 are fastened to the nuts 11 embedded in the upper plate member 10 in the process of forming the upper plate member 10.

The strut bolt 60 is fixed to the head of the strut bolts 60 by wire 62 after the construction of the reinforcement skeleton in the longitudinal, lateral direction before placing the concrete layer.

Therefore, since the supporting bolts 60 perform the supporting role in the state where the plurality of the supporting bolts 60 are vertically installed between the reinforcing frame 61 and the upper plate member 10, the coupling force between the upper plate member 10 and the concrete layer is improved, and cracks are observed. Will be prevented.

In addition, since the concrete layer is constructed on the heat insulating member 4 which is disposed for the heat insulating effect immediately before the heating pipe 3 is piped to the upper plate member 10, the entire load is applied to the heat insulating member 4. Can prevent and distribute the load

In addition, not only the cement bonding force is excellent but also the reinforcement skeleton 61 and the support bolt 60 distribute the force to the upper plate member 10 having a relatively high strength even when a large load or impact is applied. Along with (4), it is also possible to prevent the floor concrete from sinking or breaking.

According to the configuration of the present invention, by effectively absorbing the vibration and noise generated from the floor of the building it is possible to minimize the vibration and noise transmitted to the concrete slab layer.

High vibration and noise absorption rate can reduce the thickness of concrete slab layer and lightweight foam concrete layer when used in double slab structure.

Therefore, it is possible to provide a comfortable living environment to residents by satisfying the regulations on inter-floor noise regulation, which are being tightened in recent years, and can reduce the burden on consumers by reducing the construction cost.

In addition, between the reinforcing frame and the upper plate member because a plurality of holding bolts to perform the holding role in a vertical state is installed to improve the bonding force between the upper plate member and the cement layer, and prevents cracks.

In addition, it is a very useful design that can prevent the floor from sinking or breaking even when a strong impact or a load is partially applied.

Claims (1)

An upper plate member 10 in which several nuts 11 and 12 are buried in upper and lower portions thereof; A bottom buffer block member 20 positioned in the lower center of the upper plate member 10; Anti-vibration port 30 surrounding the bottom buffer block member 20 spaced apart at a position protruding downward; The case 40 and connecting the dustproof port 30 and the bottom buffer block member 20: A bolt 50 fastened and fixed to a nut 12 embedded in a lower surface of the upper plate member 10 through the center of the case 40 and the bottom buffer block member 20; Interlayer vibration, characterized in that consisting of holding bolts (60) screwed to the nuts (11) embedded in the upper plate member 10 is woven by the reinforcement skeleton 61 and the wire 62 Noise protection.

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