KR101068041B1 - A double elastic flooring - Google Patents

Abstract

The present invention relates to a floor-mounted double elastic furring in which a plate-shaped panel and a panel are fitted to each other through protrusions and grooves formed at outer end portions, respectively, and a vibration damping material is coupled to the bottom of each panel.
The double elastic ring ring (100), at least one row of dustproof grooves 300 are arranged in the bottom surface of the panel; A sound absorbing pad (400) made of any one of glassol, sponge, and nonwoven fabric is attached to a bottom surface of the panel except for the dustproof groove (300); The dustproof buffer 300 is to be coupled to the dustproof groove 300,
The anti-vibration shock absorbing material 200 may include a resin layer 210 made of a rubber material having embossed protrusions formed on a bottom surface thereof in an upward direction from a lowermost layer; Waste rubber chips, rice hulls, vegetable resin is mixed into a plate-like elastic elastic layer 220 is placed on the upper surface of the resin layer; An elastic support layer 230 in which an impurity stone, a rubber chip, and a binder resin are mixed and placed on an upper surface of the elastic sound absorbing layer; A cushion layer 240 in which rubber powder and vegetable resin are mixed and placed on an upper surface of the elastic support layer; A fiber sound absorbing layer 250 of fibrous material placed on an upper surface of the cushion layer; A spring elastic layer 260 which is mounted on an upper surface of the fiber sound absorbing layer and has a plurality of springs having elastic force in the vertical direction in the rubber material; A flame retardant 270 is coated on the outside of the shock absorbing material.

Description

A double elastic flooring

The present invention relates to a flooring (flooring) that is mainly applied to the floor of building structures, school facilities, physical education facilities, etc. More specifically, the impact absorbing and load blocking of the noise transmission and stepping buffering force when the load is generated, etc. It is related with the double elastic flaring.

In general, indoor flooring is to be installed on the interior floor of the building structure, to block the moisture and cold air generated in the floor during installation, and to prevent the body from directly contacting the concrete surface, as well as to achieve the beauty of the interior space To make it possible.

As the material of the indoor flooring, plywood, MDF, wood or synthetic resin including particle board, and natural stone board are widely used, and they may be attached to each other depending on their function and use.

Recently, as the taste of consumers is gradually diversified, stability, and high-end, the coating layer is applied so that the decorative pattern is expressed on the surface of the flooring material to improve the interior effect, instead of simply covering the interior floor surface. Products that have a function of preventing fragrance emission and interlayer noise by forming, mixing fragrance raw materials of chemical components, are being released.

Among the above flooring materials, the synthetic resin flooring material has the advantages of easy processing and formability due to the characteristics of the material, so that it is easy to mass-produce and inexpensive, and the wood flooring material is relatively expensive compared to the synthetic resin flooring material, but Due to its excellent texture, feel and durability, it has the advantage of maximizing the interior effect and extending the life after installation on indoor floor.

In recent years, however, the noise problem between floors has become a serious problem in multi-family apartments and apartments, and efforts have been made to reduce it.

The main cause of the noise between floors is the sound of children running or scratching while moving things, which are transmitted in the form of shaking and hitting noise. Such shaking and hitting noise can be reduced by raising the floor height of the floor. It is known to solve some of the problems by laying and finishing the structure.

As described above, the bottom plate for reducing the interlayer noise and vibration is known to laminate the plate, to form a hollow portion between the plate, or to apply a honeycomb structure and a rubber material. This is because noise is reduced by blocking excitation and expanding at the resonant frequency of the structure, reducing the effect of air bonding and increasing the transmission loss.

The soundproof structure having such a member structure has been proposed and used in a wide variety of structures, and various application structures such as filling a sound absorbing material into a space based on such member structure are also known.

However, the above-described soundproofing structure has a problem that the noise and vibration due to the impact are not effectively subtracted, and that the characteristic is transmitted as it is and the shock absorbency is not high.

In addition, although a soundproof plate having a composite plate structure using rubber or waste rubber is proposed to improve the shock absorbency of the soundproof plate material, such a structure is difficult to secure sufficient strength as a bottom plate, and an interlayer soundproofing effect only when a layer is formed at a predetermined height or more. In order to satisfy this problem, there is a disadvantage in that the height between floors must be excessively large, and accordingly, the construction cost is significantly increased, which is not realistic.

Recently, in the case of flooring applied to the floors of various buildings, it is compulsory to prevent the noise between floors, and accordingly, it is required to provide uv coating treatment to prevent abrasion and scratch resistance, and to provide elastic force for protecting joints. There is a situation.

In order to solve this problem, the presenting of the fringing has been introduced to the dust-proof rubber is combined with the bottom of the fringing for dust protection, etc. are being released.

However, since the anti-vibration rubber is made of only one specific rubber material, when a vertical or horizontal external force is applied, there is a problem in that the phenomenon of being pushed and the up and down impact force are transmitted as it is, so that the anti-vibration role cannot be properly performed.

In addition, when the dust-resistant rubber is applied to the soft material for the cushioning force, there has been a problem such that the firing ring is bent due to the plastic force is applied to the dust-proof rubber during long use.

Thus, the present invention was devised to solve the above problems, an object of the present invention is to be easily coupled and fixed when applied to the floor ring installed on the floor surface of the building structure or the floor of the interlayer slab and after installation In addition to controlling the vertical and horizontal displacement forces, the sequential noise suppression and cushioning function and the appropriate strength can be maintained continuously.

The present invention to achieve the above object,

In the floor mounting furring formed by the plate-like panel and the panel is fitted to each other through the projections and grooves formed in the outer end, respectively, and the vibration damping material is coupled to the bottom of each panel,

At least one row of dustproof grooves are formed on the bottom of the panel;

A sound absorbing pad made of any one of glassol, sponge, and nonwoven fabric is attached to a bottom surface of the panel except for the dustproof groove;

To be coupled to the vibration damping material for the dustproof groove,

The dustproof cushioning material,

Upward from the lowest layer

A resin layer of a rubber material having embossed protrusions formed on its bottom surface,

Waste rubber chips, rice hulls, vegetable resin is mixed into a plate-shaped elastic absorbing layer which is placed on the upper surface of the resin layer,

An impurity stone, a rubber chip, and a binder resin are mixed, and an elastic support layer placed on an upper surface of the elastic sound absorbing layer,

Cushion layer, which is a rubber powder, vegetable resin is mixed on the upper surface of the elastic support layer,

Fiber sound absorbing layer of the fiber material which is placed on the upper surface of the cushion layer,

A spring elastic layer which is mounted on an upper surface of the fiber sound absorbing layer and has a plurality of springs having elastic force in a vertical direction in the rubber material;

A flame retardant is coated on the outside of the shock absorbing material.

Here, the thickness ratio of the resin layer, the elastic sound absorbing layer, the elastic support layer, the cushion layer, the fiber sound absorbing layer, and the spring elastic layer constituting the anti-vibration cushioning material is preferably composed of 0.5: 1: 1: 1: 1: 0.5: 2. something to do.

In addition, in the vibration damping material,

The elastic sound-absorbing layer is mixed with 20-30 parts by weight of chaff, 10-20 parts by weight of vegetable resin, based on 100 parts by weight of waste rubber chips,

The elastic support layer, 30-40 parts by weight of crushed stone, 10-20 parts by weight of binder resin are mixed with respect to 100 parts by weight of rubber chips,

The cushion layer, 10-20 parts by weight of vegetable resin is mixed with respect to 100 parts by weight of rubber powder,

The fiber sound absorbing layer is formed by laminating a plurality of woven fibers,

The spring elastic layer may be formed so that a plurality of springs arranged in a vertical direction in the rubber material is formed.

According to the present invention, when vibration or noise is generated in the state of being installed on the floor or interlayer slab of a building structure, the vibration damping material composed of multiple layers sequentially reduces vibration and noise, and is stable even when horizontal displacement force is generated on the panel. There is an effect that can control the horizontal displacement force through the support layer.

1 is a cross-sectional separation configuration of the double elastic flaring according to the present invention,
Figure 2 is an enlarged view of the main portion of the engagement state of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in describing the present invention, if it is determined that related related arts may blur the gist of the present invention, the detailed description thereof will be omitted. do.

The present invention relates to a furring applied to the flooring of a building structure, such as sports facilities by the illustration of FIG.

According to the present invention, the plate-shaped panel 10 and the panel 10a are fitted to each other through the protrusions 11 and the grooves 12 formed at the outer ends, respectively, and the vibration damping material 200 is coupled to the bottom of each panel. It is to be made of a double elastic flooring (absorption) to absorb vibration and noise in two or more stages when the external force acts through the shock-absorbing shock absorber 200 as well as to absorb the impact force.

That is, the double elastic ring ring 100 is coupled to the panel 10 and the dustproof groove 300 of the panel 10 is arranged on one surface, the dustproof groove for transmitting the external force It is composed of a buffer member (200).

The panel 10 has at least one row of dustproof grooves 300 arranged on a bottom surface thereof. In addition, a sound absorbing pad 400 is attached to the bottom surface of the panel 10 except for the dustproof groove 300.

The sound absorbing pad 400 is for sound absorption, and glassol, sponge, nonwoven fabric, and the like may be applied.

The dustproof shock absorbing material 200 is coupled to the dustproof groove 300 so that the bottom surface of the panel 10 does not directly contact the bottom surface, and the resin layer 210 and the elastic sound absorbing material are disposed upward from the lowermost layer. The layer 220, the elastic support layer 230, the cushion layer 240, the fiber sound absorbing layer 250, and the spring elastic layer 260 are laminated to each other through a flame retardant 270.

The resin layer 210 has a plate shape in which a plurality of embossing protrusions 211 protrude from the bottom surface thereof. The embossing protrusion 211 is formed to minimize contact with the ground.

The elastic sound-absorbing layer 220 is a rubber chip, rice husk, vegetable resin is mixed to form a plate, and is mounted on the upper surface of the resin layer 210 to absorb noise along with the cushion force when the external force acts.

The elastic support layer 230 is formed in a plate shape by mixing a crushed stone, a rubber chip, and a binder resin, and is mounted on the upper surface of the elastic sound-absorbing layer 220, and secures a support force with cushioning force when an external force is applied. .

The cushion layer 240 is made of a rubber powder, a vegetable resin is mixed in the form of a plate, to maximize the buffering force when the external force is applied, and is placed on the upper surface of the elastic support layer 230.

The fiber sound absorbing layer 250, the fiber material is compression-molded in the form of a plate, performs a sound absorbing function when transmitting noise, and is mounted on the upper surface of the cushion layer 240.

The spring elastic layer 260 is mounted on the upper surface of the fiber sound absorbing layer 250 and a plurality of springs 262 having elastic force in the vertical direction are arranged inside the rubber material. The spring 262 maximizes the cushioning force when the external force is applied.

The flame retardant 270, a flame retardant made of a known flame retardant material is applicable, preferably a flame retardant material made of a mixture of waste polyester powder and a binder is applied to wrap the dust-proof cushioning material 200 in a coating form Can be.

Here, the thickness of each layer constituting the anti-vibration buffer 200, that is, the resin layer 210, the elastic sound absorbing layer 220, the elastic support layer 230, the cushion layer 240, the fiber sound absorbing layer 250, spring The thickness ratio of the elastic layer 260 is 0.5: 1: 2: 1: 10.5; It is preferable to comprise two.

The elastic sound-absorbing layer 220 is mixed with 20-30 parts by weight of chaff and 10-20 parts by weight of vegetable resin with respect to 100 parts by weight of waste rubber chips.

The elastic support layer 230 is mixed with 30-40 parts by weight of crushed stone and 10-20 parts by weight of binder resin with respect to 100 parts by weight of the rubber chip.

The cushion layer 240, 10-20 parts by weight of the vegetable resin is mixed with respect to 100 parts by weight of the rubber powder.

The fiber sound absorbing layer 250 is composed of a plurality of woven fibers are stacked.

The spring elastic layer 260, a plurality of springs 262 having an elastic force in the vertical direction is arranged inside the rubber material is applied.

Referring to the manufacturing and installation and application state of the double elastic furring according to the present invention configured as described above are as follows.

1 and 2,

In manufacturing, first, a plurality of rows of dustproof grooves 300 are formed on the bottom of each panel 10 and 10a to be opened downward. Then, the dustproof shock absorbing material 200, which is a core technology of the present invention, may be manufactured.

The dustproof shock absorbing material 200 is mixed with 20-30 parts by weight of chaff and 10-20 parts by weight of vegetable resin with respect to 100 parts by weight of waste rubber chips to form an elastic sound absorbing layer 220. Subsequently, the elastic support layer 230 is formed by mixing 30-40 parts by weight of impurity and 10-20 parts by weight of the binder resin with respect to 100 parts by weight of the rubber chip. In addition, with respect to 100 parts by weight of the rubber powder, 10-20 parts by weight of the vegetable resin is mixed so that the cushion layer 240 is formed. In addition, a plurality of woven fibers are laminated so that the fiber sound absorbing layer 250 is formed. In addition, a plurality of springs 262 having elasticity in the vertical direction are arranged inside the rubber material so that the spring elastic layer 260 is formed, and then the flame retardant 270 is coated on these laminated outer surfaces, and then cured. Just do it.

Thereafter, the dustproof shock absorbing material 200 may be inserted into the dustproof grooves 300 formed on the bottom surfaces of the panels 10 and 10a, respectively, and then installed on the bottom surface.

When the external force, that is, vibration or noise in the installed state as described above, it is transmitted to the bottom surface through the panel 10, at this time, providing a cushioning and vibration-proof force through the sequential elastic force and elasticity of the left and right jungle phenomenon To control.

That is, when an external force is applied, the elastic sound absorbing layer 220 provides elastic force and sound absorbing force, the elastic support layer 230 secures stable support force along with the elastic force, and the cushion layer 240 provides elastic force and sequentially The power is attenuated, the fiber absorbing layer 250 absorbs vibration noise, and the spring elastic layer 260 provides cushioning force.

In the above description of the preferred embodiment of the double elastic furring according to the invention, the invention is not limited to the furring applied to the flooring, but the wall panel or ceiling panel within the scope of the claims and the detailed description of the invention and the accompanying drawings. The present invention can be modified in various forms, and this is also within the scope of the present invention.

10,10a: Panel 11: Turning
12: home
100: double elastic flaring
200: shock absorber
210: resin layer 211: embossed projection
220: elastic sound absorbing layer 230: elastic support layer
240: cushion layer 250: fiber sound absorbing layer
260: spring elastic layer 262: spring
270 flame retardant
300: Dustproof Home
400: sound absorption pad

Claims (5)

In the floor-mounted frying ring 100 in which the plate-shaped panel 10 and the panel 10a are fitted to each other through the protrusions 11 and the grooves 12 respectively formed at the outer end thereof, and the vibration damping material is coupled to the bottom surface thereof.
At least one row of dustproof grooves 300 are arranged on the bottom of each of the panels 10 and 10a, and the glass 10, sponge, and nonwoven fabric are formed on the bottom of the panel except for the dustproof grooves 300. A sound absorbing pad 400 is attached, and one end of the dustproof shock absorbing material 200 is coupled to the dustproof groove 300, so that a flame retardant material 270 is formed on the outer side of the dustproof shock absorbing material 200;
The dustproof shock absorbing material 200 may include a resin layer 210 made of a rubber material having an embossing protrusion 211 formed on a bottom surface thereof from the lowest layer to an upward direction thereof; Waste rubber chips, rice hulls, vegetable resin is mixed into a plate-like elastic elastic layer 220 is placed on the upper surface of the resin layer; An elastic support layer 230 in which an impurity stone, a rubber chip, and a binder resin are mixed and placed on an upper surface of the elastic sound absorbing layer 220; Cushion layer 240 is mixed with the rubber powder, vegetable resin is placed on the upper surface of the elastic support layer 230; A fiber sound absorbing layer 250 of a fibrous material, which is placed on the upper surface of the cushion layer 240 and is formed by stacking a plurality of woven fibers; A spring elastic layer 260 mounted on an upper surface of the fiber sound absorbing layer 250 and having a plurality of springs 262 having elasticity in the vertical direction in the rubber material;
The thickness ratio of the resin layer, the elastic sound absorbing layer, the elastic support layer, the cushion layer, the fiber sound absorbing layer, and the spring elastic layer forming the dustproof shock absorbing material 200,
0.5: 1: 2: 1: 0.5: 2
So that it consists of
The elastic sound absorbing layer 220,
For 100 parts by weight of waste rubber chips,
20-30 parts by weight of chaff, 10-20 parts by weight of vegetable resin are mixed,
The elastic support layer 230,
Per 100 parts by weight of rubber chip,
30-40 parts by weight of crushed stone, 10-20 parts by weight of binder resin are mixed,
The cushion layer 240,
Per 100 parts by weight of rubber powder,
Double elastic furring, characterized in that made by mixing 10-20 parts by weight of the vegetable resin.
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