KR20150089103A - building material to noise prevention - Google Patents

Abstract

The present invention relates to a floor material to prevent noise transmission between floors to absorb live noise and vibration. According to the present invention, a shock and vibration damping block-100A includes a vibration damping sphere (10), a lower cushioning material (20), and an upper cushioning material (30). The present invention provides an elastic ball buried cushioning body (X) with the internal vibration damping sphere (10) comprising the steps of: manufacturing the vibration damping sphere (10) by injection or compression-molding one material from rubber, silicone, urethane, and epoxy; manufacturing a lower and an upper cushioning material (20, 30) by making one material from PE, EVA, EPP, EPS, urethane, and sponges foam in a mold, wherein a plurality of vibration damping sphere insertion grooves (a) is formed downwards on a top of a square plate; and injecting the vibration damping sphere (10) into the vibration damping sphere insertion grooves (a) on a top of the lower cushioning material (20) after applying an adhesive to the top of the lower cushioning material (20), and pressing and attaching the lower and upper cushioning materials (20, 30) onto each other after placing the upper cushioning material (30) on the top of the lower cushioning material (20) with the vibration damping sphere placed between them.

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 floor heating system, which is installed on a floor heating system and installed on an existing floor heating system, or after construction curing, or after construction of a building structure using iron or wood, Floor noise preventing flooring material ".

It should absorb shock vibration caused in daily life, maintain strength even under heavy load or momentary impact, and be easy to handle and install.

1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,

   It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,

   (11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)

2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)

   A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,

   A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced

3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The lower cushioning member 20 and the upper cushioning member 30 are pressed against the upper surface of the lower cushioning member 20 so as to house the vibration damping opening 10,

 The elastic ball-incorporated cushion body X having the vibration damping opening 10 provided therein is provided as an impact vibration damping block -100A

       An impact vibration damping block of the present invention comprises:

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

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

       3. Easy handling and construction.

Figure 1: Structure of the shock vibration mitigation block A of the present invention
Figure 2: Cross-sectional detail of the A-type impact vibration alleviating block of the present invention
Figure 3: Detailed cross-sectional view of the A-type impact vibration reducing block of the present invention
4: Structure of Impact Vibration Reduction Block B of the Present Invention
Figure 5: Detailed cross-sectional view of the impact shock mitigation block B type of the present invention
Figure 6: Structure of the shock vibration mitigation block C type of the present invention
Fig. 7: Detailed sectional view of the shock vibration reduction block C type of the present invention
Fig. 8: Example of thermal construction using the shock vibration mitigation block of the present invention

The present invention relates to an impact vibration mitigating block that can be installed on a floor of a building after being installed on an ondol and a base plate in use, or after building concrete is cured, or after construction of an iron structure or a wooden structure.

Consumer Protection Agency According to the press release on December 16, 2013, the conventional interlayer sound absorbing material is a flooring material or mat installed on the ondol, and most of the products sold on the market are lightweight impact sound (falling of small objects, (Which is represented by the sound of the children pounding, and the duration is long). However, there is a tendency to decrease the impact of the heavy impact sound The effect of mitigation is minimal or insignificant.

However, the shock-absorbing mitigation block of the present invention is superior to the conventional interlayer sound-absorbing material of the same thickness in that the interlayer noise reduction force is excellent.

That is, in the impact vibration reducing block of the present invention, the elastic cushion body (X) including the lower cushion material (20), the upper cushion material (30) It effectively reduces the vibration noise transmitted to the floor concrete by dispersing it, and maintains the supporting force (supporting strength) as the flooring.

The reason for adopting such a structure is that when the interlayer noise reducing material is made of a single material made of soft cushioning material, its thickness must be very thick, and it is inconvenient for walking or cleaning.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

end. Impact vibration mitigation block - Composition of 100A

As shown in Figs. 1, 2 and 3, in the impact vibration reducing block 100A of the present invention,

A lower cushioning member 20, and an upper cushioning member 30, as shown in Fig.

I. Production of shock vibration mitigation block -100A

Shock vibration mitigation block -100A,

1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,

   It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,

   (11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)

2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)

   A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,

   A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced

3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The lower cushioning member 20 and the upper cushioning member 30 are pressed against the upper surface of the lower cushioning member 20 so as to house the vibration damping opening 10,

The elastic ball-incorporated cushion body X having the vibration damping opening 10 therein is provided as an impact vibration damping block -100A.

All. Configuration of shock vibration mitigation block - 100B

As shown in FIGS. 4 and 5, in the impact vibration reducing block 100B of the present invention,

A lower cushioning member 20, an upper cushioning member 30, and an upper stiffener 40. The vibration damping member 10,

la. Manufacture of shock vibration mitigation block - 100B

In the shock vibration mitigation block -100B,

1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,

   It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,

   (11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)

2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)

   A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,

   A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced

3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The upper cushioning member 20 and the upper cushioning member 30 are pressed against each other so that the vibration reducing mouthpiece 10 is housed in the lower cushioning member 20 and the elastic cushioning body X )

4. Using one of the molded, cut or machined plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, The upper stiffener 40 is formed by 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

5. After the adhesive is applied to the upper surface of the elastic cushion body X, the lower surface of the upper stiffener 40 is attached to the upper surface of the elastic cushion body X,

Shock vibration mitigation block -100B.

hemp. Shock vibration mitigation block - Composition of 100C

As shown in Figs. 6 and 7, in the impact vibration reducing block 100C of the present invention,

An upper cushion material 30, an upper stiffener 40 and a matted pressure sensitive adhesive sheet 50. The lower cushion material 20, the upper cushion material 30,

bar. Manufacture of shock vibration mitigation block - 100C

Impact vibration mitigation block - 100C,

1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,

   It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,

   (11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)

2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)

   A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,

   A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced

3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The upper cushioning member 20 and the upper cushioning member 30 are pressed against each other so that the vibration reducing mouthpiece 10 is housed in the lower cushioning member 20 and the elastic cushioning body X )

4. Using one of the molded, cut or machined plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, The upper stiffener 40 is formed by 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

5. Attach the mercury-free adhesive sheet 40, which is one of the printing adhesive film, the printing pressure-sensitive adhesive cloth and the printing pressure-bonded nonwoven fabric, to the upper surface of the upper stiffener 40

6. After the adhesive is applied to the upper surface of the resilient ball cushion body X, the lower surface of the upper stiffener 40 to which the weft adhesive sheet 40 is attached is attached to the upper surface of the resilient ball cushion body X

Shock vibration reduction block -100C.

four. Thermal construction using impact vibration mitigation block

[Figure 8] shows the impact vibration damping block of the present invention Used It is an example of installation of hot installation.

Although the cement mortar construction and the heating line or the hot water pipe can be installed directly on the installed shock vibration mitigation block 100,

As shown in FIG. 8, a flooring panel having a concave-convex structure is installed on the impact vibration damping block 100, a hot water pipe or a heating line is installed on the floor panel of the concave and convex structure, It is possible to finish the relaxation work.

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

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

   b. An impact vibration mitigation block 100 is installed on a heat insulating sheet,

   (c) A floor panel of concavo-convex structure is installed on the impact vibration mitigation block 100,

   d) A hot water pipe or heating line is installed on the floor panel of the uneven structure,

   e) Reinforcing cover plate is installed on the flooring panel of the uneven structure,

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

Thermal construction using other impact vibration mitigation blocks

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

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

   b. An impact vibration mitigation block 100 is installed on a heat insulating sheet,

   c) Install a heating line or hot water pipe on the impact vibration mitigation block (100)

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

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

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

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

   b. An impact vibration mitigation block 100 is installed on a heat insulating sheet,

   c) pouring the foamed concrete over the impact vibration damping block (100)

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

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

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

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

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

   b. An impact vibration mitigation block 100 is installed on a heat insulating sheet,

   c) Install a heating line or hot water pipe over the impact vibration damping block (100)

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

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

*. The impact vibration damping block 100 is one of an impact vibration damping block -100A, an impact vibration damping block -100B and an impact damping block -100C.

*. 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, 100C: Impact vibration mitigation block
X: elastic cushion body with built-in ball
10: vibration damping sphere (rubber, silicone, urethane, epoxy injection molded or compression molded or vibration damping of double structure)
20: Lower cushioning material (PE, EVA, EPP, EPS, urethane, sponge foam board or foamed foam)
a: Vibration reduction mouth fit groove
30: Upper cushioning material (PE, EVA, EPP, EPS, urethane, sponge foam board or foam)
40: Upper stiffener (Plate of plastic plate, steel plate, plywood etc. which is formed or cut, or sheet of PVC, PE, PC, PET, nylon, acrylic, urethane, epoxy or PE, EVA, EPP, EPS, urethane, sponge Foil, foil, laminated nonwoven fabric, etc.)
50: Beige adhesive sheet (printed adhesive film, printed adhesive cloth, printed adhesive nonwoven fabric)

Claims (3)

Impact vibration mitigation block - With 100A,
A vibration damping member 10, a lower cushion member 20, and an upper cushion member 30,
1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,
It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,
(11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)
2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)
A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,
A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced
3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The lower cushioning member 20 and the upper cushioning member 30 are pressed and attached so that the vibration damping member 10 is embedded in the upper cushioning member 20 so that the elastic cushioning body 10 X)
Shock vibration mitigation block -100A Impact vibration mitigation block - With 100B,
A lower cushion member 20, an upper cushion member 30, and an upper stiffener member 40,
1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,
It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,
(11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration mitigating tool (10)
2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)
A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,
A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced
3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The upper cushioning member 20 and the upper cushioning member 30 are pressed against each other so that the vibration reducing mouthpiece 10 is housed in the lower cushioning member 20 and the elastic cushioning body X )
4. Using one of the molded, cut or machined plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, The upper stiffener 40 is formed by 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
5. Adhesive is applied to the upper surface of the elastic cushion body X and the lower surface of the upper stiffener 40 is attached to the upper surface of the elastic cushion body X,
Shock vibration mitigation block -100B Impact vibration mitigation block - With 100C,
A lower cushion material 20, an upper cushion material 30, an upper stiffener 40 and a matted pressure sensitive adhesive sheet 50,
1. A vibration damping tool 10 is produced by injection molding or compression molding of a ball into one of rubber, silicone, urethane or epoxy material,
It is possible to manufacture a vibration damping member 10 in which a spherical silicon or spherical rubber is positioned as a center core and an outer surface of the center core is surrounded by an outer skin of rubber, silicone, urethane or epoxy material,
(11) is filled in the inner space of the outer skin made of one of rubber, silicone, urethane and epoxy material to produce a silicone vibration relief (10)
2. Molded in a mold by one of PE, EVA, EPP, EPS, urethane and sponge so that a plurality of vibration damping ring fitting grooves (a) can be formed downward from the upper surface of the rectangular flat plate to form a lower cushion material (20) 30)
A foam sheet material of one of PE, EVA, EPP, EPS, urethane and sponge material is thermally pressed by a press to form a plurality of vibration relief groove insertion grooves a downward from the upper surface of the foam sheet material, The cushioning material 30 may be manufactured,
A foam board of one of PE, EVA, EPP, EPS, urethane and sponge is passed through a groove cutter to form a plurality of vibration mitring groove fitting grooves a downward from the upper face of the foam board, The cushioning material 30 is produced
3. After the adhesive is applied to the upper surface of the lower cushioning member 20, the vibration reducing port 10 is inserted into the plurality of vibration damping port fitting grooves a formed on the upper surface of the lower cushioning member 20, The upper cushioning member 20 and the upper cushioning member 30 are pressed against each other so that the vibration reducing mouthpiece 10 is housed in the lower cushioning member 20 and the elastic cushioning body X )
4. Using one of the molded, cut or machined plastic, steel or plywood, or one of the plates made of one of PVC, PE, PC, PET, nylon, acrylic, urethane or epoxy, The upper stiffener 40 is formed by 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
5. Attach the mercury-free adhesive sheet 40, which is one of the printing adhesive film, the printing pressure-sensitive adhesive cloth and the printing pressure-bonded nonwoven fabric, to the upper surface of the upper stiffener 40
6. An elastic ball-retaining cushion according to any one of the preceding claims, wherein an adhesive is applied to the upper surface of the elastic cushion body (X), and the lower surface of the upper stiffener (40)
Impact vibration mitigation block -100C

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