KR100718698B1 - Plate for sound insulation - Google Patents

Abstract

The present invention relates to a floor noise reduction material of a building, and additionally installs a rubber member having excellent elasticity at a predetermined interval in a buffer member located at the bottom to more reliably reduce the floor noise of the building, It is an object of the present invention to provide a noise reduction material of a building which prevents a deterioration of a function of a cushioning member by increasing the binding force between the mortar to which the Excel pipe is applied internally and the buffering member so as to eliminate a gap therebetween.

The present invention for achieving the above object is made of foamed polystyrene or foamed polypropylene, grooves are formed on the bottom of each of the predetermined intervals, the upper surface of the guide foam having a predetermined height and a certain width as the predetermined width This integrally molded buffer member; It is characterized in that it comprises a plurality of rubber members that are inserted into the recess of the buffer member, and fixed to the buffer function.

Apartment, Architecture, Building, Floor Noise, Sound Insulation Material, Noise Reduction Material

Description

Interlayer noise reduction material of building {Plate for sound insulation}

1 is a schematic cross-sectional view showing the interlayer structure of a conventional building.

2 is a cross-sectional view of a conventional interlayer noise reducing material.

Figure 3 is a bottom perspective view showing the configuration of the floor noise reduction material of the building according to the invention.

4 is a cross-sectional view of FIG. 3.

5 is a plan view of the inter-layer noise reducing material of the building according to the present invention.

Figure 6 is a cross-sectional view of the floor noise reduction material of the building according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

20: buffer member 22: groove

30: guide form 32: guide groove

40: Excel pipe 50: Rubber member

52: uneven portion 54: groove

56: exhaust groove 60: reinforcing member

The present invention relates to a floor noise reduction material of a building, and more particularly, it is constructed between floors of a building to completely block noise generated between floors, thereby improving customer satisfaction, as well as providing an excel pipe for heating. The present invention relates to a floor noise reduction material of a building to facilitate construction.

In general, the impact sound that is applied to the building structure of apartment houses such as apartments and villas is transmitted to all directions of solid sound generated by people walking, opening and closing of doors, moving objects, starting or stopping equipment, etc. This causes the surface of the building structure to vibrate, as well as being switched to airborne sound, which is perceived as noise when it is heard by people around it.

For example, the impact of falling objects on the floor or the sound of moving chairs generates solid sound, which is transmitted through the floor slab and the walls to other adjacent rooms, especially the floor slab. The propagation through the floor below is called interlayer noise.

Nowadays, as these inter-floor noise problems are seriously raised in multi-unit houses, regulations on housing construction standards have been strengthened and revised.

The regulations stipulate that the floor impact sound between floors should be 58 decibels (db) or less, and the heavy impact sounds should be 50 decibels (db) or less or have a standard floor structure as determined and announced by the Minister of Construction and Transportation.

As such, conventional interlayer floor structures for reducing and minimizing severely raised interlayer noise have been proposed. Such conventional interlayer floor structures are based on the concrete slab 1, as shown in FIG. Lightweight foam concrete layer (2) is formed on the upper part, and an excel pipe (3) for heating and a mortar layer (4) for finishing are formed thereon, and a floor decorative layer (monorium, solid wood, tile, etc.) is formed thereon ( 5) consists of.

In the interlayer floor structure of the above structure, the lightweight foam concrete layer 2 formed on the concrete slab 1 is responsible for attenuating the impact sound or noise, but the effect is insignificant.

For this reason, in order to more effectively block noise and impact, a construction method for forming an interlayer shock-absorbing material between the concrete slab and lightweight foamed concrete is disclosed.

The conventional interlayer shock sound absorbing material 10 is provided as various structures, and typically has hard styrofoam materials 11 and 12 having a predetermined thickness in the upper and lower portions as shown in FIG. It is provided with a structure in which the intermediate sound insulating material 3 made of polyester material having a large gap is sandwiched in a sandwich form.

However, the above-described conventional interlayer shock sound absorbing material also does not reliably alleviate the impact, thereby failing to completely reduce the interlayer noise of the building.

In addition, as shown in FIG. 1, the excel pipe for heating is installed on the interlayer impact sound absorbing material, and after the mortar is applied and cured, a flooring material is installed. In this case, a gap may occur between the shock absorbing material and the mortar. In this case, when the gap is generated, there is a problem in that the function of the cushioning material is deteriorated due to the filling of the gap with moisture.

Accordingly, the present invention has been made to solve the above problems, by additionally installing a rubber member having excellent elasticity at regular intervals in the buffer member located at the bottom to reduce the noise between floors of the building more reliably. In addition, by increasing the binding force between the mortar and the cushioning member to which the Excel pipe is applied internally to eliminate the gap between each other, to provide an interlayer noise reduction material of the building to prevent the functional degradation of the buffer member. There is this.

The present invention for achieving the above object is made of foamed polystyrene or foamed polypropylene, grooves are formed on the bottom of each of the predetermined intervals, the upper surface of the guide foam having a predetermined height and a certain width as the predetermined width This integrally molded buffer member; It is characterized in that it comprises a plurality of rubber members that are inserted into the recess of the buffer member, and fixed to the buffer function.

In this case, the rubber member, it is preferable that the insertion portion is fixed to the buffer member, and the contact surface portion extending from the insertion portion and protruding from the buffer member by a certain height.

In addition, it is preferable that the contact surface portion is formed to have a larger diameter than the insertion portion so as to support the contact portion in a state of wrapping around the buffer member into which the insertion portion is inserted.

In addition, a plurality of irregularities are formed in the circumferential direction at a predetermined interval on the flat portion of the contact surface portion, grooves are formed along the circumference at a predetermined depth between the irregularities, and a straight exhaust groove connecting the grooves is constant. It is preferable that a plurality are formed at angular intervals.

On the other hand, the plurality of guide forms integrally formed on the upper surface of the shock absorbing member is formed with a plurality of predetermined height and a predetermined arrangement, it is preferable that the guide pipe is formed in a linear direction through which the Excel pipe passes, in this case, Preferably, the guide grooves cross each other in a cross shape.

On the other hand, it is preferable that the reinforcing member made of PVC or PE material is interposed between the buffer member and the rubber member.

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

Figure 3 is a bottom perspective view showing the interlayer noise reduction material configuration of the building according to the invention, Figure 4 is a cross-sectional view of Figure 3, Figure 5 is a plan view of the present invention.

As shown, the floor noise reduction material of the building according to the invention is made of expanded polystyrene (EPS: Expandable Polystyrene) or expanded polypropylene (EPP: Expandable Polypropylene) material, the bottom of the grooves 22 at regular intervals It is formed, the buffer member 20 is formed integrally with the guide form 30 having a predetermined height and a predetermined width size at regular intervals to form a main body.

The recess 22 of the shock absorbing member 20 has a portion of the rubber member 50 in charge of the shock absorbing function inserted and fixed.

3 and 4, the rubber member 50 is formed in a circular shape, the insertion portion 50-1 is fixed to the groove 22 of the buffer member 20, and the It is formed from the contact portion 50-2 extending from the insertion portion 50-1 and protruding from the buffer member 20 by a predetermined height.

In this case, the contact surface portion 50-2 is formed to have a larger diameter than the insertion portion so that the contact surface portion 50-2 is in close contact with the inserting portion 50-1 to surround the buffer member 20 inserted therein.

On the other hand, the concave-convex portion 52 is formed in the circumferential direction at regular intervals on the planar portion of the contact surface portion 50-2.

Therefore, when an impact is applied by the cylindrical grooves 54 formed between the uneven parts 52, the buffering effect is increased.

In this case, it is preferable to form the exhaust groove 56 to cross the uneven parts 52 of the contact surface part 50-2 over about four directions.

That is, when an impact is applied to the interlayer noise reduction material of the building including the rubber member 50, the impact is applied to the contact surface part 50-2 of the rubber member 50, thereby compressing the uneven parts 52. In this case, air existing in the grooves 54 formed between the uneven parts 52 may be compressed to reduce the buffering effect, so that pressure is applied to the uneven parts 52 to prevent this. In the case of being compressed and compressed, the air present in the groove 54 is allowed to escape to the outside through the exhaust groove 56, thereby making it possible to have a more certain shock absorbing effect.

On the other hand, the plurality of guide forms 30 integrally formed on the upper surface of the buffer member 20, as shown in Figure 4 and 5, has a predetermined height and a plurality of formed in a predetermined arrangement, the Excel pipe 40 is It consists of a structure in which the guide groove 32 is formed in the straight direction passing.

The guide groove 32, the installation direction of the Excel pipe 40 may be longitudinal or transverse direction, it is preferable to be formed to cross in the cross (+) shape.

Therefore, in the plurality of guide forms 30 integrally formed on the upper surface of the shock absorbing member 20, in the state where the Excel pipe 40 is seated along the guide groove 32 of the guide form 30, mortar When the coating is cured, the mortar is in a state of gripping the guide form 30 of the buffer member 20 so that the binding force is increased so that a gap does not occur between the mortars.

In the state where the interlayer noise reduction material of the building having the structure described above is installed, when the interlayer noise is generated by the impact, the shock absorbing member 20 simultaneously absorbs the shock and simultaneously absorbs the shock absorbing member 20. The rubber member 50 installed at a predetermined interval in the) absorbs the impact again, and thus the noise between the layers is more completely blocked.

In this case, as described above, the contact surface portion 50-2 in close contact with the upper surface of the concrete slab in the rubber member 50 is easily crushed by a plurality of irregularities 52 formed in a circumferential shape at a predetermined interval and impact. Of course, the air present in the grooves 54 formed between the uneven parts 52 is discharged to the outside through the exhaust grooves 56, thereby absorbing the shock more reliably.

On the other hand, Figure 6 is a cross-sectional view showing the configuration of the floor noise reduction material of the building according to another embodiment of the present invention, as shown, a reinforcing member having a predetermined thickness between the buffer member 20 and the rubber member ( 60) may be further laminated.

In this case, the reinforcing member 60 is made of a PVC or PE material, but by introducing a portion of the recess 22 of the buffer member 20, the rubber member 50 is a buffer member ( In the state inserted into the groove 22 of 20) it is possible to prevent the separation is easily made.

That is, since the separation is not easily performed by the frictional force between the reinforcing member 60 and the rubber member 50, the structural binding force can be further strengthened.

As described above, according to the floor noise reduction material of the building according to the present invention, the rubber for absorbing the shock to the bottom of the shock absorbing member as well as blocking the interlayer noise in the shock absorbing member with excellent shock absorption function. By the installation of the member, there is a very useful effect that the customer satisfaction is satisfied by almost completely blocking the interlayer noise.

In addition, the upper surface of the cushioning member is formed integrally with a guide form formed with a guide groove for seating and supporting the Excel pipe, there is no gap due to the excellent binding force between the mortar and the cushioning member to be applied later There is also an effect that problems such as loss of moisture due to no moisture, etc. are prevented.

Claims (8)

A cushioning member made of foamed polystyrene or foamed polypropylene, the bottom of which grooves are formed at regular intervals, and the upper surface of which is formed integrally with a guide foam having a predetermined height and a width corresponding to a predetermined width; The interlayer noise reduction material of a building, comprising a plurality of rubber members inserted into and fixed to the recesses of the shock absorbing member to perform a shock absorbing function. The method of claim 1, The rubber member, the interlayer noise reduction material of the building, characterized in that consisting of the insertion portion is fixed to the buffer member and the contact surface portion extending from the insertion portion and protruding from the buffer member by a certain height. The method of claim 2, The close contact surface portion is formed larger than the diameter of the insert portion is characterized in that the interlayer noise reduction material of the building, characterized in that the support is in close contact with the circumference surrounding the inserted buffer member. The method of claim 2 or 3, The floor noise reduction material of the building, characterized in that a plurality of irregularities are formed in the circumferential direction at a predetermined interval on the planar portion of the contact surface portion. The method of claim 4, wherein Concave grooves are formed along the circumference at a predetermined depth between the concave and convex portions, and the floor noise reduction material of a building, characterized in that a plurality of linear exhaust grooves connecting the concave grooves are formed at regular angle intervals. The method of claim 1, The plurality of guide forms integrally formed on the upper surface of the shock absorbing member may have a predetermined height, and a plurality of guide foams may be formed in a predetermined arrangement, and the interlayer noise of the building may include a guide groove formed in a straight direction through which the Excel pipe passes. Moderator. The method of claim 6, Said guide groove is cross-shaped noise reduction material of the building, characterized in that the cross formed. The method of claim 1, The noise reduction material of the building, characterized in that the reinforcing member made of PVC or PE material is interposed between the buffer member and the rubber member.

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