KR100863295B1 - Wood floor structure which has elastic property - Google Patents

Abstract

An elastic wood floor structure is provided to completely perform a function of elastic reinforcing adhesive and maximally absorbing impact, noise and vibration by modifying a structure of an elastic sound absorbing member. An elastic wood floor structure comprises an elastic sound absorbing member(20) formed with a plurality of insertion holes and adhesive holes and installed on bottom concrete(1). Vibration isolation rubber(30) is inserted into the insertion holes. Elastic reinforcing adhesive(22) is filled in the adhesive holes and cured. A wood panel(50) is installed on the elastic sound absorbing member. A wood floor board(40) is installed on the wood panel. The elastic sound absorbing member has a concave-convex section(21) on the upper surface thereof. The insertion holes and adhesive holes are alternately repeated.

Description

Wood floor structure which has elastic property

The present invention relates to a wooden floor structure, and more particularly, to an elastic wood floor structure that gives the floor dustproof, soundproofing performance and shock absorption performance.

The existing floor structure for installing wooden floor is divided into three categories.

First, the adhesive is applied to the front surface of the formed lower base surface, and the floorboard is attached on the front surface. This structure has good adhesion between the floor and the floor, but various noises and impact sounds generated from the floorboard are filtered without filtration. In addition to being delivered as it is, when the lower structure is a yoke, joist structure there is a phenomenon that a space is formed inside the expansion to the resonance sound. At present, about 50% of domestic floor constructions use such structures, and in Europe, about 40% use such structures. In addition, when hard adhesive is used, the flooring of wood, such as plywood flooring (aka plywood flooring), cannot be used because the adhesive does not withstand the expansion and contraction of wood. In addition, if you want to remove the old floor after long term use, it is difficult to dismantle due to the hard adhesive applied to the front of the floor, and if the construction is performed with less moisture on the foundation floor, the adhesive will not harden and immediately If it expands due to influence and the smoothness of the floor is not good, a squeaking sound is generated, so it is necessary to carefully examine the site conditions before construction.

Secondly, the elastic foam sheet is laid between the bottom surface of the floor and the flooring material, and the floor board is installed on it. It does not use the adhesive, but only the adhesive on the groove and tongue on the side of the floor connecting the floor to the floor to prevent the floor from being separated from each other. It is easy to construct and easy to dismantle, so it is about 10% in Korea and about 60% in Europe is very popular. The open cell type polyethylene foam sheet (OPEN CELL TYPE XL PE FOAM LAYER) is mainly used for economic reasons between the floor and the floor. Because of its excellent resilience, most of them use a closed cell type cross-linked polyethylene foam sheet (CLOSED CELL TYPE NON-XL PE FOAM LAYER). However, when used for a long time or continuously pressed by heavy objects, the closed cell type non-crosslinked polyethylene foam sheet (CLOSED CELL TYPE NON-XL PE FOAM LAYER) is pressed against the weight of the upper part and loses its elasticity. have.

Thirdly, it is a structure that uses a nail or staple as a means of forming the lower frame structure of the wood material between the floor and the lower base surface and binding the frame and the floor board. Space is needed because the timber frame is necessary under the floor, and most of Europe is currently in need due to hygiene problems of empty space, floor collapse and squeaking due to corrosion of the lower frame and nails over long periods of use, and excessive installation cost. These structures are only used in very few parts of the country, and in our country they are used only in limited places such as special-purpose gymnasiums or school classrooms.

Each of these three structures has advantages and disadvantages. Patent No. 0470327, “Wood Floor Structure Using Elastic Sound Absorbing Materials,” filed on October 12, 2001 and registered on February 4, 2005, has the advantages of existing structures. In addition, it is evaluated as a floor structure that absorbs vibrations, shocks, and noises at high air and low cost.

The "wood floor structure using the elastic sound absorbing material" is a floor concrete (1) as shown in Figure 1 and 2; An elastic sound absorbing material (20) installed on the floor concrete (1) without an additional surface unevenness, and having an adhesive hole 24 for filling the elastic reinforcing adhesive 22; On the elastic sound absorbing material 20, the wooden parquet 40 is constructed after the elastic reinforcing adhesive 22 is filled; It is configured to include.

However, [Patent No. 0470327] "wood floor structure using the elastic sound absorbing material" in the "detailed description of the invention" "the elastic sound absorbing material 20 used in the present invention has a good sound absorbing effect, but due to the nature of the open cell structure of continuous pressure However, if there is a load, the elasticity is insufficient to bear it. Therefore, the elastic reinforcing adhesive 22 used in the present invention is a liquid having a certain viscosity at the time of filling or when a certain time after filling is changed to a physical property such as rubber to have elasticity to bear it if there is a load on the top If the absorber is absorbed and the load disappears, it must be restored to its original state and the function of minimizing the influence of the load directly on the elastic sound absorbing material 20 should be performed. ”The problem and countermeasures of Patent No. 0470327 are disclosed. 3 sides)

However, in the construction process of Patent No. 0470327, the elastic sound absorbing material 20 is pressed by an external load, so that the elastic reinforcing adhesive 22 may not be able to spread out of the adhesive hole 24 before the hardening adhesive 22 is hardened to exhibit its function. It was difficult to overcome, and furthermore, since the wooden floorboard 40 and the elastic sound absorbing material 20 are directly bonded by the elastic reinforcing adhesive 22, the elastic sound absorbing material 20 also changes when the wooden floorboard 40 is replaced. There was also the problem of tearing and replacing.

The present invention, the above-described patent No. 0470327 "wood floor structure using the elastic sound absorbing material" is kept intact, and further improves it to be able to fully exhibit the function of the elastic reinforcing adhesive, regardless of the construction process, Its purpose is to provide a wood flooring structure that can maximize shock, noise and vibration absorption by improving the structure, and improve the convenience of maintenance.

In order to solve the above problems, the present invention applies the following means.

1. Insert the anti-vibration rubber into the elastic sound absorber and install the wooden panel on the elastic sound absorber.

Before the elastic reinforcing adhesive filled in the adhesive hole formed in the elastic sound absorbing material is cured, in order to prevent the elastic sound absorbing material from being pressed out of the elastic reinforcing adhesive, a dustproof rubber such as physical property after curing of the elastic reinforcing adhesive is applied. It is previously inserted into the elastic sound absorbing material. In addition, a wooden panel is installed on the elastic sound absorbing material.

With this configuration, the external load generated during the construction process is directly received by the wood panel, and the wood panel is supported by the anti-vibration rubber so that the elastic sound absorbing material is not pressed by the external load. It doesn't flow out so I can do my part.

2. Forming irregularities on the upper surface of the elastic sound absorbing material

By forming an uneven portion on the upper surface of the elastic sound absorbing material, concave space such as an egg plate may be formed to be unevenly formed. Since the space is formed between the wood panel and the elastic sound absorbing material by the uneven portion, noise and vibration are halved through the space.

3. Forming adhesive hole on dustproof rubber

Instead of forming the bonding hole in the elastic sound absorbing material, it can be formed in the anti-vibration rubber. That is, it is configured to fill the adhesive reinforcing adhesive into the adhesive hole formed in the anti-vibration rubber.

This configuration is to minimize the phenomenon that the elastic reinforcing adhesive flows out before curing, and is particularly useful when the uneven portion is formed on the upper surface of the elastic sound absorbing material.

 According to the elastic wood floor structure according to the present invention has the following effects.

1. Absorbs the noise, shock and vibration generated by contact with and impact on the wood flooring, and effectively absorbs the noise of the wood flooring caused by walking or various impacts, and improves the sound insulation performance between floors. The impact can be alleviated even if the impact of falling down, and the walking feeling is also improved.

2. Regardless of the construction process, it is possible to fully demonstrate the dust-proof, sound-proof and shock-absorbing functions of the elastic reinforcing adhesive, and to maximize the absorption of shock, noise and vibration from the outside by forming irregularities on the upper surface of the elastic sound absorbing material.

3. The timber floorboards can be prefabricated on the wood panel, so that only the damaged wood floorboards can be replaced selectively, thus improving the convenience of maintenance.

I. Resilient wood flooring constructed directly on floor concrete

The present invention is a plurality of insertion holes 23 and the adhesive hole 24 is formed, the elastic sound absorbing material 20 constructed on the floor concrete (1); Anti-vibration rubber 30 is inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; A wood panel 50 constructed on the elastic sound absorbing material 20; And wood parquet 40 is constructed on the wooden panel 50; It provides an elastic wood floor structure configured to include (see FIGS. 1 and 2).

The elastic wood flooring structure according to the present invention can be installed on a concrete floor or any previously formed bottom floor (including plywood, tile, metal, etc.) and can be installed even where the surface is not very uniform. Do.

The elastic sound absorbing material 20 has an insertion hole 23 and an adhesive hole 24. The insertion hole 23 is inserted into the anti-vibration rubber 30 to be described later, the adhesive hole 24 is filled with an elastic reinforcing adhesive 22 to be described later as such an elastic sound absorbing material 20 to the floor concrete (1). ), And the connection between the adjacent elastic sound absorbing material 20 is connected to the tape or fill the gap with the elastic reinforcing adhesive 22 to prevent the transfer of moisture to the top. After the elastic sound absorbing material 20 is fully developed in the bottom concrete 1 in this manner, the anti-vibration rubber 30 is installed in the insertion hole 23, and the elastic reinforcing adhesive 22 is attached to the adhesive hole 24. After it is completely filled, a wooden panel 50 is installed thereon. Thereafter, a wooden parquet 40 is installed on the wooden panel 50.

In this case, even though there is an elastic sound absorbing material 20 between the bottom concrete surface 1 and the wood panel 50, since the direct binding is made through this elastic reinforcing adhesive 22, the bottom floor concrete 1 and the wood panel 50 ) Is directly connected. In addition, the existing wood flooring structure is equipped with a dustproof rubber structure in the lower structure in consideration of the impact absorption rate of the floor and the half-ball ratio of the ball during the construction of the gym floor, etc. Since the physical properties of (22) are the same, it is possible to omit the trouble of installing the yoke and the joist in order to install the anti-vibration rubber by applying the present invention.

The elastic reinforcing adhesive 22 used in the present invention should have excellent adhesive performance, and when cured, it should satisfy the property of having a permanent property such as rubber. In addition, it should have a liquid form at the beginning for constructability, but even if the liquid has a certain viscosity inherent to flow down itself or it should not be deformed soon after injection. In the present invention, the elastic reinforcing adhesive 24, which plays various roles such as an adhesive effect, the same effect as the anti-vibration rubber, and the protective effect of the elastic sound absorbing material 20, is a quantum leap forward in the world's leading chemical companies. As it is developed by, it is easy to purchase. Specifically, for example, 'Sika Australia Pty. Limited's 'sikaflex-292' has excellent shock absorption and adhesion, and excellent resilience. In the case of preservation, it is preserved in the liquid state in which a certain viscosity is inherent in the airtight pack. As soon as it is filled, it starts to harden and has elastic properties. 'Sikaflex-292' having this property has excellent restoring force (elasticity) that can support or tolerate it when there is an upper load, inhibits bacterial growth at the construction site, and does not have corrosive action, so it is excellent in adhesive strength and thus the elasticity of the present invention. It is suitable as a reinforcing adhesive 22.

However, if only the elastic reinforcing adhesive (22) is applied, even before it is cured by the weight of the worker in the process of construction, it is not possible to spread out the adhesive hole 24 to exert its function. Therefore, when the anti-vibration rubber 30 is installed in the insertion hole 23 in advance, the anti-vibration rubber 30 is received from the wooden panel 50 until the elastic reinforcing adhesive 22 is cured. The same problem is solved. In order to prevent the elastic reinforcing adhesive 22 from being subjected to external load before curing, the insertion hole 23 and the adhesive hole 24 are arranged in a pattern in which both are alternately repeated as shown in FIGS. 6A and 6B. It is desirable to.

The elastic sound absorbing material 20 used in the present invention is specifically a foam having an open cell structure (Open cell type), the connection of the foam cells can be produced by a cross-linking (Cross linked = XL) method in consideration of durability. The elastic sound absorbing material 20 processed with such an open cell type crosslinked polyethylene foam sheet (OPEN CELL TYPE XL PE FOAM LAYER) has excellent sound absorption effect, high flame retardancy, excellent heat insulation, and is not harmful to the human body and is durable. It is long and has excellent oil and chemical resistance. In addition, since the elastic sound absorbing material 20 is in close contact with the wood panel 50, when the waveform vibration energy of the sound wave due to the impact or walking on the wood flooring 40, it is the elastic sound absorbing material ( 20) is converted into thermal energy, which effectively absorbs noise. The elastic sound absorbing material 20 can be installed not only in the lower part of the wood panel 50, but also between the wall surface to which the wood panel 50 is touching, thereby preparing for expansion due to water absorption of the wood panel 50, It blocks the transmission of sound waves to the wall.

In addition, when the smoothness of the floor concrete (1) to be installed the wooden panel 50 or requires a high impact absorption rate, such as gymnasium, it is possible to freely control the thickness and foaming rate of the elastic sound absorbing material (20). In the production of the elastic sound absorbing material 20, the raw material is first foamed by a constant magnification, and then, it is cut to a suitable thickness and width using a heating wire, and then the insertion hole 23 and the adhesive hole 24 are formed using a perforator. Can be.

On the other hand, compared with the embodiment shown in Figure 1, the embodiment shown in Figure 1, there is a difference in that the uneven portion 21 is formed on the upper surface of the elastic sound absorbing material (20). The uneven portion 21 is to form a concave space such as an egg plate on the upper surface of the elastic sound absorbing material 20 to improve the noise and vibration absorption of the elastic sound absorbing material 20.

The present invention is provided with a plurality of insertion holes 23, the elastic sound absorbing material 20 constructed on the floor concrete (1); A dustproof rubber 30 having an adhesive hole 24 formed in the center thereof and inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; A wood panel 50 constructed on the elastic sound absorbing material 20; And wood parquet 40 is constructed on the wooden panel 50; Provides with an elastic wood flooring structure configured to include.

Details of each of the components are as described above, but only the insertion hole 23 is formed in the elastic sound absorbing material 20, and the adhesive hole 24 is formed in the center of the anti-vibration rubber 30. It is characterized by.

By this configuration, the phenomenon that the elastic reinforcing adhesive 22 filled in the adhesive hole 24 can be minimized before curing, and such a configuration is the uneven portion 21 on the upper surface of the elastic sound absorbing material 20. It is particularly useful when is formed.

Although this embodiment is not directly shown in the drawings, the point on the positional feature of the adhesive hole 24 is as shown in FIG.

II. On the floor concrete The underframe  Elastic wooden floor structure constructed after installation

The present invention, the lower frame 60 constructed on the floor concrete (1); A lower wood panel 50a constructed on the lower frame 60; A plurality of insertion holes 23 and adhesive holes 24 formed therein, and an elastic sound absorbing material 20 constructed on the lower wood panel 50a; Anti-vibration rubber 30 is inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; An upper wood panel 50b constructed on the elastic sound absorbing material 20; And wood parquet 40 is constructed on the wooden panel 50; It provides with an elastic wood flooring structure configured to include (see FIGS. 3 and 4).

The elastic wood floor structure is to install the lower wooden panel 50a on the lower frame 60 and the elastic sound absorbing material 20, the upper wooden panel 50b and the wooden floor board 40 on the lower wooden panel 50a. In order to construct.

The lower surface of the lower frame 60 can increase the elasticity of the wood floor by installing a dustproof pad 70, the dustproof pad 70 is the same as the anti-vibration rubber 30 is installed in the insertion hole of the elastic sound absorbing material (20) Material can be applied.

The structure and effects of the elastic sound absorbing material 20, the anti-vibration rubber 30 and the elastic reinforcing adhesive 22 are as described above. 4 has a difference in that the uneven portion 21 is formed on the upper surface of the elastic sound absorbing material 20 as compared with the embodiment shown in FIG. 3, as described above.

In addition, the present invention is a lower frame 60 constructed on the floor concrete (1); A lower wood panel 50a constructed on the lower frame 60; A plurality of insertion holes 23 formed therein, and an elastic sound absorbing material 20 constructed on the lower wood panel 50a; A dustproof rubber 30 having an adhesive hole 24 formed in the center thereof and inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; An upper wood panel 50b constructed on the elastic sound absorbing material 20; And wood parquet 40 is constructed on the wooden panel 50; Provided with an elastic wood flooring structure configured to include (see Figure 5).

Details of each of the components are the same as described above, the elastic sound absorbing material 20 is formed only the insertion hole 23, the adhesive hole 24 is formed in the center of the anti-vibration rubber 30 There is a characteristic in point.

By this configuration, the phenomenon that the elastic reinforcing adhesive 22 filled in the adhesive hole 24 can be minimized before curing, and such a configuration is the uneven portion 21 on the upper surface of the elastic sound absorbing material 20. It is particularly useful when is formed.

1 is a structural diagram of a first embodiment of an elastic wood floor structure constructed directly on floor concrete according to the present invention.

2 is a structural diagram of a second embodiment of an elastic wood floor structure constructed directly on a floor concrete according to the present invention.

3 is a structural diagram of a first embodiment of an elastic wood floor structure constructed after installing a lower frame on a concrete floor according to the present invention.

Figure 4 is a structural diagram of a second embodiment of the elastic wood floor structure constructed after installing the lower frame on the floor concrete according to the present invention.

5 is a structural diagram of a third embodiment of the elastic wood floor structure constructed after installing the lower frame on the floor concrete according to the present invention.

6A and 6B illustrate an elastic sound absorbing material formed in a pattern in which the insertion hole and the adhesive hole are alternately repeated.

<Explanation of symbols for main parts of the drawings>

1: floor concrete 20: elastic sound absorbing material

21: uneven portion 22: adhesive for elastic reinforcement

23: insertion hole 24: adhesive hole

30: dustproof rubber 40: wood parquet

50: wood panel 50a: lower wood panel

50b: upper wood panel 60: lower frame

70: dustproof pad

Claims (7)

A plurality of insertion holes 23 and adhesive holes 24, the elastic sound absorbing material 20 constructed on the floor concrete (1); Anti-vibration rubber 30 is inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; A wood panel 50 constructed on the elastic sound absorbing material 20; And A wood parquet 40 constructed on the wood panel 50; Elastic wood flooring structure consisting of. A plurality of insertion holes 23 are formed, the elastic sound absorbing material 20 constructed on the floor concrete (1); A dustproof rubber 30 having an adhesive hole 24 formed in the center thereof and inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; A wood panel 50 constructed on the elastic sound absorbing material 20; And A wood parquet 40 constructed on the wood panel 50; Elastic wood flooring structure consisting of. A lower frame 60 constructed on the floor concrete 1; A lower wood panel 50a constructed on the lower frame 60; A plurality of insertion holes 23 and adhesive holes 24 formed therein, and an elastic sound absorbing material 20 constructed on the lower wood panel 50a; Anti-vibration rubber 30 is inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; An upper wood panel 50b constructed on the elastic sound absorbing material 20; And A wood parquet 40 constructed on the wood panel 50; Elastic wood flooring structure consisting of. In claim 3, Resilient wood flooring structure, characterized in that the anti-vibration pad 70 is constructed on the bottom of the lower frame (60). A lower frame 60 constructed on the floor concrete 1; A lower wood panel 50a constructed on the lower frame 60; A plurality of insertion holes 23 formed therein, and an elastic sound absorbing material 20 constructed on the lower wood panel 50a; A dustproof rubber 30 having an adhesive hole 24 formed in the center thereof and inserted into the insertion hole 23; An elastic reinforcing adhesive 22 filled and cured in the adhesive hole 24; An upper wood panel 50b constructed on the elastic sound absorbing material 20; And A wood parquet 40 constructed on the wood panel 50; Elastic wood flooring structure consisting of. The method according to any one of claims 1 to 5, The elastic sound absorbing material 20 is an elastic wood flooring structure, characterized in that the concave-convex portion 21 is formed on the upper surface. The method according to any one of claims 1 to 5, The elastic wood flooring structure, characterized in that the insertion hole 23 and the adhesive hole 24 formed in the elastic sound absorbing material 20 are formed in an alternately repeating pattern.

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