KR200318901Y1 - Sound insulation pannel using plastic polymer with adiabatic quality - Google Patents

Abstract

The present invention relates to an interlayer floor sound insulation material having a high thermal insulation and excellent thermal insulation by using a high-density material layer effective for reducing heavy impact sound and a polymer material having excellent rigidity, impact resistance and electrical properties. The main structure of the present invention is formed of the upper high-density material layer using asphalt sheets, polyethylene, expanded chloroprene, rubber ceramic materials, and nonwoven fabrics, and is formed of the lower polymer material layer using polypropylene, high-impact polystyrene, etc., It is formed of a plurality of patterned convex protrusions recessed inwardly of the bottom surface, or formed of a plurality of patterned convex protrusions protruding upward of the bottom surface. The sound insulation material according to the present invention has excellent sound insulation performance due to impact resistance and elasticity, excellent thermal insulation performance due to low thermal conductivity, and does not cause sag or deformation due to the load on the floating floor structure due to stiffness. However, due to its small specific gravity, the material is light, so it is excellent in workability and workability.

Description

Sound insulation pannel using plastic polymer with adiabatic quality}

The present invention relates to an interlayer floor sound insulation material having excellent thermal insulation and impact sound reduction, and more particularly, using a high-density material layer having rigidity and effective for reducing heavy impact sound, and a polymer material having excellent rigidity, impact resistance, and electrical properties. The present invention relates to an interlayer floor sound insulation material using a plastic polymer compound having excellent heat insulating properties together with reduction of impact sound.

As buildings, such as apartments, villas, multi-family houses, officetels, and schools, have become larger, higher, and more advanced, they are emerging as a new environmental problem due to the noise generated by floor impacts from the upper floors. Dissatisfaction with this is a social issue.

The noise generated by the impact is largely divided into light impact sound and heavy impact sound. At this time, the light impact sound is a noise generated when the object falls, the impact sound is measured using the tapping machine as the impact source, the heavy impact sound is a noise generated when the person runs as a shock sound measured using the tire as a shock source.

In general, apartments have been constructed using concrete for economic feasibility and mass supply from the time it was built in the mass supply period. However, although concrete has better shielding against noise that transmits air to the medium than other materials of the same thickness due to the material property, impact sound generated by direct impact on concrete is easily transmitted to adjacent generations and lower floors. Have.

In order to further reduce the impact sound using such concrete, lightweight foamed concrete 22 and cement mortar 23 were cast on the concrete sleeve 21, and a vinyl sheet was used as the final finishing material 24 to complete the floor.

In addition, when the interlayer sound insulation material is installed and installed under the light weight foam concrete, the thickness of the light weight foam concrete decreases by the thickness of the interlayer sound insulation material. In addition, it is urgently needed to develop a material having both insulating properties.

Accordingly, an object of the present invention is to provide an interlayer bottom sound insulation material using a plastic-based polymer compound having excellent heat insulating properties together with reduction of impact sound.

1 is a cross-sectional view of a conventional apartment house

Figure 2 is an overall cross-sectional view showing the floor insulation sound insulating material using a plastic polymer compound having a thermal insulation of the present invention.

Figure 3a is a detailed cross-sectional view of the interlayer floor sound insulating material using a plastic polymer compound having a heat insulating property according to the present invention.

Figure 3 is a bottom plan view of the interlayer floor sound insulating material using a plastic-based polymer compound having thermal insulation according to the present invention.

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

1: concrete slab 2: lightweight foam concrete

3: cement mortar 4: finish

5: interlayer insulation material 6: upper high density material layer

7: lower polymer material layer 8: protrusion forming portion

9: concave protrusion 10: linear protrusion

In order to achieve the above object, the interlayer bottom sound insulation material having heat insulation of the present invention is characterized by consisting of an upper layer of an asphalt sheet and a lower layer of polypropylene.

Preferably, the upper layer is characterized in that any one of the asphalt sheet or polyethylene.

Preferably, the upper layer is characterized in that the use of expanded chloroprene, rubber ceramic material and nonwoven material, respectively.

Preferably, the lower layer is any one selected from polystyrene, high-impact polystyrene (improved polystyrene), polypropylene-improved polystyrene mixed material, and the like.

Preferably, the lower portion of the lower layer is formed of a plurality of patterned convex protrusions protruding upward of the bottom surface of the lower layer, or includes a protrusion forming portion formed of a plurality of patterned concave protrusions recessed inwardly of the bottom surface. Characterized in that.

Hereinafter, it will be described in detail by the accompanying drawings of the insulating layer between the floor having a thermal insulation according to the present invention.

2 is a view showing the interlayer floor sound insulation of the present invention, Figure 3a is a cross-sectional view of the floor insulation sound insulation according to the present invention, Figure 3b is a bottom plan view of the interlayer floor sound insulation according to the present invention.

As shown in FIG. 2, the interlayer bottom sound insulation material having heat insulation according to the present invention has a 20 mm thick interlayer sound insulation material 5 between the concrete slab 1 and the lightweight foamed concrete 2, and thereafter, the lightweight foam concrete ( 2) Wet the cement mortar (3) and finish the floor using the final finishing material (4).

The interlayer bottom sound insulating material 5 is composed of an upper sheet of high density material 6 formed of asphalt sheet, polyethylene, foamed chloroprene, rubber ceramic material, and nonwoven fabric, polypropylene, polystyrene, high impact polystyrene, polypropylene, and improved polystyrene. It is formed of the lower polymer material layer 7 formed as the selected material. In this case, it is preferable that the upper high density material layer has a height of 1 to 2 mm, and the lower polymer material layer has a height of 18 to 19 mm.

Meanwhile, as shown in FIGS. 3A and 3B, the bottom of the interlayer bottom sound insulation material may be formed as an embossed protrusion forming part 8.

As shown in FIG. 3A, the protrusion forming portion 8 formed on the bottom of the lower polymer material layer 7 is formed of a plurality of patterned concave protrusions 9 recessed into the bottom of the bottom surface, or the bottom thereof. It is formed of a plurality of patterned convex protrusions (not shown) protruding upward of the surface.

In addition, as illustrated in FIG. 3B, the linear protrusions 10 may be formed between the concave protrusions 9 and the convex protrusions to be coupled to each other like a checker board.

Protruding portion 9 formed in this way is to increase the flexibility of the sound insulating material.

In other words, the higher the stiffness that indicates the rigidity of the building material, the lower the impact sound absorption rate of the building material itself, and the lower the stiffness, the higher the shock absorption rate of the building material itself. The reciprocal of the stiffness (s) is called the flexibility of the building, and the greater the flexibility (1 / s) of the building material, the better the building material can absorb the impact sound from the outside. As a result, shock absorption becomes high.

However, the flexibility of building materials (1 / s ') consists of the flexibility of building materials themselves (1 / s' _m ) and the flexibility of their contact surfaces (1 / _s'k ). Is established.

1 / s '= 1 / s' _m + 1 / _s'k . . . . . . . . . . . . (One)

As described above, according to the above formula (1), the absorption rate of the impact sound due to the flexibility (1 / s') of the building material is its own flexibility (1 / _s'm ) and the flexibility of the contact surface (1 / s' _k ). In this case, the flexibility of the building material itself (1 / s ' _m ) is a constant value in the same material, in order to increase the overall flexibility of the building material to increase the flexibility of the contact surface (1 / s' _k ) of the impact sound It is possible to improve the absorption rate.

Meanwhile, the interlayer bottom sound insulation material 5 according to the present invention uses the asphalt sheet, polyethylene, expanded chloroprene, rubber ceramic material, and nonwoven fabric, etc., which are effective for reducing the weight impact sound, to form the upper high density material layer 6, and furthermore, Polypropylene, polystyrene, high-impact polystyrene, polypropylene-improved polystyrene mixture, etc., which have excellent impact resistance and electrical properties, use the lower polymer material layer 7 and thus have excellent thermal insulation and sound insulation.

<Example 1>

For the 27-square-foot apartment living room built in Daejeon, the interlayer floor sound insulation material made of 2 mm of asphalt sheet and 18 mm of polypropylene is placed on top of the concrete slab, and the 45 mm of lightweight foam concrete is poured, and then 50 mm of cement mortar is poured. The plastic sheet was used as the final finishing material to complete the floor. Light impact impact and weight impact sound were measured on the finished floor and are shown in Table 1.

Comparative Example 1

For the 24-room apartment living room in Gimpo, lightweight foam concrete 65mm and cement mortar 50mm were placed on the top of the sleeve and the plastic sheet was used as the final finishing material. Light impact and heavy impact sounds for the finished floor were measured and shown in Table 1.

Method Grand Apartment L index (dB) Remarks Lightweight impact sound Heavy impact sound Example 1 (invention) Daejeon D Apartment 27 L-63 L-54 Equilibrium is larger than existing methods, but the effect is excellent Comparative Example 1 (existing construction method) Gimpo K Apartment 24 L-73 L-57

As can be seen from the table, the sound insulation material of the present invention, despite the increase of the equilibrium of the living room, as a whole, compared with the conventional conventional methods, 10dB less than the light impact sound, the weight impact sound is reduced by 3dB has a good impact sound reduction effect Able to know.

<Example 2>

Insulation performance of the interlayer bottom sound insulation material of the present invention formed of 2 mm of asphalt sheet layer and 18 mm of polypropylene and the conventional sound insulation material generally known are shown in Table 2, respectively.

Insulation (W / mK) This invention 0.035-0.036 Existing sound insulation 0.036-0.05

As shown in Table 2, it can be seen that the interlayer bottom sound insulation material of the present invention has an excellent heat insulating property by reducing a maximum of 0.015 W / m · K or more than conventionally used sound insulation materials.

On the other hand, if you look at the interlayer heat permeation of the living room installed the sound insulation material of the present invention, the thermal conductivity is 0.036W / mK = 0.031Kcal / m · h · C,

Overall thermal resistance (R) =

ego,

Therefore, the heat transmission rate (K) = to be.

At this time, A is 0.17 (floor plate), B is 1.4 (cement mortar (40mm)), C is 0.085 (lightweight foam concrete (50mm)), D is 0.031 (interlayer insulation material (20mm)), E is 1.6 (concrete slab ( 150 mm), F is 0.086 (air layer), G is 0.18 (ceiling), and H is 0.086 (air).

Therefore, it can be seen that the interlayer sound insulation material of the present invention exhibits a significantly reduced heat permeability than 0.7, which is a criterion of the inter-floor heat permeability rate, of the multi-family house.

The present invention is not limited to the embodiments described above to those of ordinary skill in the art and the present invention can be carried out in other forms without departing from the technical spirit of the invention. All design changes made within the scope of the Utility Model Claims and equivalent technical scope shall be deemed to be included in the scope of the present invention.

The interlayer bottom sound insulation material using the plastic polymer compound having heat insulation according to the present invention has excellent sound insulation performance by impact resistance and elasticity, and has excellent thermal insulation performance due to low thermal conductivity.

In addition, the rigidity does not cause sagging or deformation due to the load on the floating floor structure, and the specific gravity of the composite material is small, so that the material is light and excellent in workability and workability.

Claims (5)

In the interlayer floor sound insulation material, the floor sound insulation material is laid on the concrete slab and light weight foam concrete is placed thereon, wherein the upper layer of the sound insulation material is an asphalt sheet made of a high density material, and the lower layer is made of polypropylene which is a polymer compound. Interlayer bottom sound insulation material using plastic polymer compound. According to claim 1, wherein the upper layer is an interlayer bottom sound insulating material using a plastic-based polymer compound having thermal insulation, characterized in that any one of asphalt sheet or polyethylene. According to claim 1, wherein the upper layer is an interlayer bottom sound insulating material using a plastic-based polymer compound having thermal insulation, characterized in that composed of any one selected from foamed chloroprene, rubber ceramic material and non-woven material. According to claim 3, wherein the lower layer is an interlayer bottom sound insulating material using a plastic-based polymer compound having thermal insulation, characterized in that any one selected from polystyrene, high-impact polystyrene (improved polystyrene), polypropylene-polystyrene mixed material. According to claim 1, wherein the lower portion of the lower layer is formed of a plurality of patterned convex protrusions protruding upward of the bottom surface of the lower layer, or a projection formed of a plurality of patterned concave protrusions recessed inwardly of the bottom surface An interlayer bottom sound insulating material using a plastic polymer compound having heat insulation, characterized in that it further comprises a forming portion.