KR20150092447A - building material to noise prevention - Google Patents

Abstract

The present invention relates to a thermal shock and vibration damping block-100A including an uneven cushioning material (10) and an uneven hypocaust unit (20). The thermal shock and vibration damping block-100A is manufactured by: a step of manufacturing the uneven cushioning material (10) by making one material from PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone, and sponges foam in a mold; a step of manufacturing the uneven hypocaust unit (20) through plastic injection molding, wherein a plurality of hot water pipe protective posts (22) protrudes upward from the top of a rectangular plate part having a predetermined thickness; and a step of attaching the bottom of the uneven hypocaust unit (20) to the top of the uneven cushioning material (10) after applying an adhesive to the top of the uneven cushioning material (10). Therefore, uneven hypocaust (Y1) attached with an elastic cushioning body can be provided.

Description

[0001] Building material to noise prevention [0002]

Floor-to-floor noise prevention floor material manufacturing technology and construction technology

The problem of inter-floor noise is causing a great social crowd. In recent years, there has been a great deal of social wave so that there are several murders due to the interlayer noise between the upper stories.

This problem is caused by the fact that the builder of the building constructs the building by the cheap construction method, but the building material which can reduce the noise between the floor at the time of the construction of the building is not common in the market.

The present invention relates to a method for installing a hot water pipe or a heating line, which is installed at the time of construction of a building after building concrete is cured or after building an architectural structure with iron or wood, and is capable of absorbing vibrations and noise The present invention relates to an interlayer noise-preventing floor installation material.

It should be possible to install fast, and it should be easy to install hot water pipe or heating line, to absorb impact vibration caused in daily life, to maintain strength even under heavy load or momentary impact, and to be easy to handle and install.

1. A method of manufacturing a molded product, comprising the steps of: (1) foaming a mold into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone and sponge material, to form a plurality of hemispherical recessed dome A concavo-convex cushioning member 10 having a plurality of concavo-convex grooves 12 formed on the upper surface of a rectangular flat portion downward,

   A plurality of semi-spherical recessed and recessed dome 11 protruding downward from a bottom surface of a rectangular flat portion having a predetermined thickness by being injection-molded or compression-molded into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, And a concave-convex cushioning member (10) in which a plurality of concave-convex grooves (12) are formed downward from the upper surface of the rectangular flat portion

2. A plurality of hot water pipe protection columns 22 are protruded upward from the upper surface of a rectangular flat portion 21 having a predetermined thickness and the upper cushioning material insertion groove or the upper ondol fitting groove or the ondol- And the hot water pipe protection column strength holding holes 24 are formed in the same number as the hot water pipe protection columns 22 in the plurality of hot water pipe protection columns 22 from the upper surface of the hot water pipe protection columns 22, The Ondol 20 having a concavo-convex structure formed upwardly from the Ondol lower surface is injection-molded by plastic into a plurality of hot water pipe protection columns 22 coaxially with the column 22

3. After the adhesive is applied to the upper surface of the recessed cushioning material 10, the bottom surface of the Ondol 20 having the concave-convex structure is attached to the upper surface of the recessed cushioning material 10 to complete the recessed structure Ondol Y1 with the elastic cushion,

Provided as thermal shock vibration mitigation block for -100A

       In the impact shock mitigation block for a thermal shock absorber according to the present invention,

1. It is possible to finish the construction of the thermal floor without the construction of lightweight foamed concrete or ondol mortar which requires dry curing time, so that the flooring noise reduction floor construction time can be shortened,

2. It is easy to install hot water pipe or heating line,

3. It absorbs shock vibration noise generated in daily life,

4. Strength is maintained even under heavy load or momentary impact,

5. Easy handling and construction.

Fig. 1: Structure of a shock-absorbing block A of the present invention
Fig. 2: Detailed sectional view of a block A of the invention for mitigating thermal impact vibration of the present invention
Fig. 3: Structure of the shock absorbing block B of the present invention for thermal shock
Fig. 4: Detailed sectional view of the block B of the present invention for mitigating thermal shock vibration
5: Example of thermal construction using the shock vibration mitigating block for thermal shock of the present invention

The present invention relates to a shock absorbing block for thermal shocks which can be installed at the time of construction of a building after building concrete is cured, or iron or wood is constructed.

INDUSTRIAL APPLICABILITY The present invention can easily install and protect a hot water pipe without the construction of a lightweight foamed concrete and a mortar for an ondol for covering a hot water pipe, and can alleviate a vibration impact sound. Therefore, it is possible to finish the construction time within a short period of time by constructing the thermal floor of the present invention by mitigating the interlayer noise by the impact shock mitigation block for the thermal.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

end. For heating Impact vibration mitigation block - Composition of 100A

As shown in Figs. 1 and 2, the thermal shock vibration mitigation block 100A of the present invention includes:

A concave-convex cushioning member 10, and an ondol 20 having a concave-convex structure.

I. For heating Production of shock vibration mitigation block -100A

For the thermal impact vibration reduction block -100A,

1. A method of manufacturing a molded product, comprising the steps of: (1) foaming a mold into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone and sponge material, to form a plurality of hemispherical recessed dome A concavo-convex cushioning member 10 having a plurality of concavo-convex grooves 12 formed on the upper surface of a rectangular flat portion downward,

   A plurality of semi-spherical recessed and recessed dome 11 protruding downward from a bottom surface of a rectangular flat portion having a predetermined thickness by being injection-molded or compression-molded into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, And a concave-convex cushioning member (10) in which a plurality of concave-convex grooves (12) are formed downward from the upper surface of the rectangular flat portion

2. A plurality of hot water pipe protection columns 22 are protruded upward from the upper surface of a rectangular flat portion 21 having a predetermined thickness and the upper cushioning material insertion groove or the upper ondol fitting groove or the ondol- And the hot water pipe protection column strength holding holes 24 are formed in the same number as the hot water pipe protection columns 22 in the plurality of hot water pipe protection columns 22 from the upper surface of the hot water pipe protection columns 22, The Ondol 20 having a concavo-convex structure formed upwardly from the Ondol lower surface is injection-molded by plastic into a plurality of hot water pipe protection columns 22 coaxially with the column 22

3. After the adhesive is applied to the upper surface of the recessed cushioning material 10, the bottom surface of the Ondol 20 having the concave-convex structure is attached to the upper surface of the recessed cushioning material 10 to complete the recessed structure Ondol Y1 with the elastic cushion,

Thermal shock vibration reduction block is available in -100A.

All. For heating Configuration of shock vibration mitigation block - 100B

As shown in FIGS. 3 and 4, the thermal shock damping block 100B of the present invention comprises:

A stepped cushioning member 10, an ondol 20 having a concave-convex structure, and an upper stiffener 30.

la. For heating Manufacture of shock vibration mitigation block - 100B

The thermal shock vibration mitigation block -100B,

1. A method of manufacturing a molded product, comprising the steps of: (1) foaming a mold into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone and sponge material, to form a plurality of hemispherical recessed dome A concavo-convex cushioning member 10 having a plurality of concavo-convex grooves 12 formed on the upper surface of a rectangular flat portion downward,

   A plurality of semi-spherical recessed and recessed dome 11 protruding downward from a bottom surface of a rectangular flat portion having a predetermined thickness by being injection-molded or compression-molded into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, And a concave-convex cushioning member (10) in which a plurality of concave-convex grooves (12) are formed downward from the upper surface of the rectangular flat portion

2. A plurality of hot water pipe protection columns 22 are protruded upward from the upper surface of a rectangular flat portion 21 having a predetermined thickness and the upper cushioning material insertion groove or the upper ondol fitting groove or the ondol- And the hot water pipe protection column strength holding holes 24 are formed in the same number as the hot water pipe protection columns 22 in the plurality of hot water pipe protection columns 22 from the upper surface of the hot water pipe protection columns 22, The Ondol 20 having a concavo-convex structure formed upwardly from the Ondol lower surface is injection-molded by plastic into a plurality of hot water pipe protection columns 22 coaxially with the column 22

3. Using one of the molded or cut plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, (30) using one of foam board materials made of one of EVA, EPP, EPS, urethane and sponge materials, or one of sheets made of felt or laminated nonwoven fabric material

4. An adhesive is applied to the upper surface of the concave-convex cushioning member 10, and then the lower surface of the upper reinforcing member 30 is attached to the upper surface of the concave-convex cushioning member 10 to produce an elastic cushioning member X having a laminated structure

5. After the adhesive is applied to the upper surface of the elastic cushion body X of the laminated structure, the bottom surface of the ondol 20 of the concave-convex structure is attached to the upper surface of the elastic cushion body X of the laminated structure, Y2)

It is provided as a shock vibration mitigation block for heating - 100B.

hemp. Thermal construction using shock vibration mitigation block for thermal

[Fig. 5] Fig. 5 is a cross-sectional view Used It is an example of installation of hot installation.

It is possible to install the heating line or the hot water pipe directly with the mortar construction for the ondol above the installed shock vibration mitigation block (100)

As shown in FIG. 5, after the hot water pipe or the heating line is installed on the thermal shock-absorbing mitigation block 100, the interlayer noise reduction work may be completed by installing the reinforcement cover plate and the unfinished fire.

The heat of the present invention Impact Cushioning and Thermal Floor Construction Using Impact Vibration Reduction Block -A

   a) installing an insulating sheet on the cured concrete or structure,

   b. An impact shock mitigation block (100) for heating is installed on a heat insulating sheet,

   c) A hot water pipe or heating line is installed on the thermal shock vibration mitigation block (100)

   d) Install a reinforcement cover plate on the hot impact vibration mitigation block (100) with hot water pipe or heating line,

e. Finish the floor-to-ceiling noise flooring by installing unfinished fire on the reinforcement cover plate.

Other for heating Thermal construction using impact vibration mitigation block

The heat of the present invention Shock buffering and thermal floor construction method using impact vibration mitigation block -B

   a) installing an insulating sheet on the cured concrete or structure,

   b. An impact shock mitigation block (100) for heating is installed on a heat insulating sheet,

   c) A hot water pipe or heating line is installed on the thermal shock vibration mitigation block (100)

   d. Mortar for ondol is installed on the hot-water pipe or heating line and the thermal impact vibration reduction block (100)

e. Finish the floor-to-ceiling noise flooring by installing finishing fire on top of the cured Ondol mortar.

The heat of the present invention Impact Cushioning and Thermal Floor Construction with Impact Vibration Reduction Block -C

   a) installing an insulating sheet on the cured concrete or structure,

   b. An impact shock mitigation block (100) for heating is installed on a heat insulating sheet,

   c. Foam concrete is laid over the thermal shock-absorbing relaxation block (100)

   d) Install hot water pipes or heating lines on cured foam concrete,

   e. Install mortar for ondol over hot water pipe or heating line,

f. Finish the floor-to-ceiling noise flooring by installing finishing fire on top of the cured Ondol mortar.

*. The thermal shock damping block 100 is one of a thermal shock damping block -100A and a thermal shock damping block -100B.

*. In all of the above methods, the side cushioning material is attached to the bottom of the wall that abuts the floor (shock cushioning and the height of the thermal floor installation - except for the final finish fire height).

100, 100A, 100B: shock vibration mitigation block for thermal
X: elastic cushion body of a laminated structure, Y1, Y2: concave-convex structure ondol with an elastic cushion body
10: Uneven cushion body (PE, EVA, EPP, EPS, urethane, rubber, silicone, sponge)
11: uneven dome, 12: uneven groove
20: Ondol (plastic injection molded article) having a concave and convex structure
21: flat part, 22: hot water pipe protection column, 23: upper cushioning material fitting groove or upper ondol fitting groove or ondol mortar input groove, 24:
30: Upper stiffener (Plate of plastic plate, steel plate, plywood etc. formed or cut or PVC, PE, PC, PET, nylon, acrylic, urethane, epoxy or PE, EVA, EPP, EPS, urethane, sponge Foil, foil, laminated nonwoven fabric, etc.)

Claims (2)

Thermal shock vibration mitigation block - 100A,
A concave-convex cushioning member 10, and an ondol 20 having a concave-convex structure.
1. A method of manufacturing a molded product, comprising the steps of: (1) foaming a mold into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone and sponge material, to form a plurality of hemispherical recessed dome A concavo-convex cushioning member 10 having a plurality of concavo-convex grooves 12 formed on the upper surface of a rectangular flat portion downward,
A plurality of semi-spherical recessed and recessed dome 11 protruding downward from a bottom surface of a rectangular flat portion having a predetermined thickness by being injection-molded or compression-molded into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, And a concave-convex cushioning member (10) in which a plurality of concave-convex grooves (12) are formed downward from the upper surface of the rectangular flat portion
2. A plurality of hot water pipe protection columns 22 are protruded upward from the upper surface of a rectangular flat portion 21 having a predetermined thickness and an upper cushioning material insertion groove or an upper ondol fitting groove or an ondol- And the hot water pipe protection column strength holding holes 24 are formed in the same number as the hot water pipe protection columns 22 in the plurality of hot water pipe protection columns 22 from the upper surface of the hot water pipe protection columns 22, The Ondol 20 having a concavo-convex structure formed upwardly from the Ondol lower surface is injection-molded by plastic into a plurality of hot water pipe protection columns 22 coaxially with the column 22
3. A method of manufacturing a cushioning structure comprising a step of applying an adhesive to an upper surface of a concave-convex cushioning material (10) and then providing a concave-convex structure ondol (Y1)
Thermal shock vibration reduction block -100A Thermal shock vibration mitigation block - 100B,
A stepped cushioning member 10, an ondol 20 of a concave-convex structure, and an upper stiffener 30,
1. A method of manufacturing a molded product, comprising the steps of: (1) foaming a mold into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, silicone and sponge material, to form a plurality of hemispherical recessed dome A concavo-convex cushioning member 10 having a plurality of concavo-convex grooves 12 formed on the upper surface of a rectangular flat portion downward,
A plurality of semi-spherical recessed and recessed dome 11 protruding downward from a bottom surface of a rectangular flat portion having a predetermined thickness by being injection-molded or compression-molded into one of PE, EVA, EPP, EPS, urethane, epoxy, rubber, And a concave-convex cushioning member (10) in which a plurality of concave-convex grooves (12) are formed downward from the upper surface of the rectangular flat portion
2. A plurality of hot water pipe protection columns 22 are protruded upward from the upper surface of a rectangular flat portion 21 having a predetermined thickness and an upper cushioning material insertion groove or an upper ondol fitting groove or an ondol- And the hot water pipe protection column strength holding holes 24 are formed in the same number as the hot water pipe protection columns 22 in the plurality of hot water pipe protection columns 22 from the upper surface of the hot water pipe protection columns 22, The Ondol 20 having a concavo-convex structure formed upwardly from the Ondol lower surface is injection-molded by plastic into a plurality of hot water pipe protection columns 22 coaxially with the column 22
3. Using one of the molded or cut plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, (30) using one of foam board materials made of one of EVA, EPP, EPS, urethane and sponge materials, or one of sheets made of felt or laminated nonwoven fabric material
4. An adhesive is applied to the upper surface of the concave-convex cushioning member 10, and then the lower surface of the upper reinforcing member 30 is attached to the upper surface of the concave-convex cushioning member 10 to produce an elastic cushioning member X having a laminated structure
5. After the adhesive is applied to the upper surface of the elastic cushion body X of the laminated structure, the bottom surface of the ondol 20 of the concave-convex structure is attached to the upper surface of the elastic cushion body X of the laminated structure, Y2)
Heat shock vibration reduction block -100B

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