KR102188533B1 - Sound-absorbing material for preventing noise between layers with waterproof film on the upper and lower surfaces - Google Patents

Abstract

The present invention relates to a sound-absorbing material for preventing noise between floors, which has waterproof membranes on upper and lower surfaces, thereby securing thermal insulation and prominently reducing the noise between the floors. According to the present invention, the sound-absorbing material for preventing noise between floors with the waterproof membranes on the upper and lower surfaces comprises: plate-shaped polystyrene (10); plastic (20) attached to an upper surface of the polystyrene (10); and waterproof paint (30) applied to the bottom of the polystyrene (10), wherein the polystyrene (10), the plastic (20), and the waterproof paint (30) are integrally formed.

Description

Sound-absorbing material for preventing noise between layers with waterproof film on the upper and lower surfaces}

The present invention relates to a sound-absorbing material for preventing interlayer noise by providing a waterproof membrane on the upper and lower surfaces so as to significantly reduce heat insulation and interlayer noise.

With the development of technology, the number of apartments is increasing, and the conflict between neighbors due to inter-floor noise that occurs here is emerging as a social problem.

The floor structure of a typical building that is being constructed in apartments is to lay styrofoam on the concrete slab, pour foamed concrete on it, install heating pipes on it, and pour finishing mortar on it, Flooring was common.

In the above-described floor structure, styrofoam mainly played a role of attenuating noise, but as the regulation of inter-floor noise was strengthened, there was a limit to reducing inter-floor noise with only styrofoam.

In order to improve this, the conventionally proposed method, as in the prior art literature, is to apply glass wool or expensive cushioning material or sound absorbing material (hereinafter referred to as sound absorbing material) instead of styrofoam that is normally applied on the concrete slab, or to lift the sound absorbing material to have a certain height with the slab layer. A method of construction with a floating floor structure has been proposed.

However, these conventional methods have a problem that not only the material of the sound-absorbing material is expensive, but also the construction cost is high to form the floating floor structure, and the inter-floor noise is not significantly improved compared to the ordinary floor structure compared to the investment cost. there was.

In particular, in common floor structures and conventional methods, a sound-absorbing material is laid on a concrete slab, and foamed concrete is poured thereon. At this time, the sound-absorbing material absorbs the water of the foamed concrete, and the absorbed water is reduced to a less dry sieve. When the construction is finished, moisture remains in the sound-absorbing material, and the remaining moisture plays a role of amplifying the transmission of noise when interlayer noise is generated, so that the conventional and conventional methods did not significantly reduce interlayer noise.

Therefore, when the foamed concrete is placed on the sound-absorbing material and floor construction, the structure and construction method of the sound-absorbing material that prevents water from the foamed concrete from entering the sound-absorbing material must be made to significantly reduce inter-floor noise, as well as the manufacture and floor of the sound-absorbing material. It can reduce construction cost.

For reference, the following prior art documents have listed five recent prior art documents searched for "interlayer noise" as a keyword through the Patent Information Net Keyprise, and the technical fields related to the present invention with reference to the following prior art documents You will be able to grasp the background technology and its development status.

Publication/Registration No.: 1021242160000, 1020200076630, 1021189300000, 1021136920000, 1020769430000.

The present invention was developed to solve the conventional problems mentioned in the background art, and in particular, it is intended to not only significantly reduce inter-floor noise, but also to manufacture a sound-absorbing material for preventing inter-floor noise at low cost and to construct the floor of a building. It is an object of the present invention in order to solve this problem and solve it.

The present invention is a means for solving the problem, Styrofoam in the form of a plate; Vinyl attached to the upper surface of the styrofoam; A waterproof paint applied to the bottom of the styrofoam; proposes a sound-absorbing material for interlayer noise prevention made integrally.

In addition, the sound-absorbing material for inter-floor noise prevention is the surface on which the waterproof paint is applied on the concrete slab during the floor construction of the building faces the floor, the attached side of the vinyl is disposed on the upper surface, and the upper surface of the gap between the sound-absorbing materials for inter-floor noise prevention We propose a means to install an interlayer noise-prevention layer by attaching it, and to sequentially construct a foamed concrete, heating pipe, finishing mortar, and flooring material corresponding to a conventional floor structure on the inter-level noise-prevention layer.

The sound-absorbing material for interlayer noise prevention according to the present invention has an effect of improving insulation and blocking noise by forming an independent air space by forming a waterproof film on the upper and lower surfaces of the styrofoam, as well as water that can flow into the styrofoam when pouring foamed concrete. By blocking the vinyl and waterproof tape, it has the effect of completely blocking the noise propagation caused by moisture and significantly reducing interlayer noise.

In addition, the waterproof paint applied on the bottom surface of the styrofoam blocks the absorption of the moisture remaining on the concrete slab by the styrofoam to maintain the sound-absorbing ability, and the vinyl attached to the upper surface of the styrofoam is used by workers who come and go when constructing the floor. It has the effect of preventing damage such as breakage of styrofoam by the foot of the body.

In addition, the sound-absorbing material for preventing interlayer noise according to the present invention is not only easy to manufacture, but also has an effect that can be manufactured and constructed at low cost due to simple construction.

1 is a perspective view of the present invention
Figure 2 is a bottom perspective view of Figure 1
3 is a partial cross-sectional view of FIG. 1
Figure 4 is a construction cross-sectional view of Figure 1
5 is a perspective view of attaching a waterproof tape to FIG. 1
6 to 11 are process diagrams of applying a waterproof paint to the styrofoam of FIG. 1
12 to 15 are process diagrams of attaching vinyl to the styrofoam of FIG. 1
16 to 18 is another perspective view of FIG. 1
19 is a device diagram for forming the uneven groove of FIG. 17
20 to 22 are devices for forming the embossing groove of FIG. 18

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically illustrated for the convenience of explanation of the main parts, and terms and names used in the description are implicitly defined by the shape, function, role, etc. The description of the direction is determined based on the direction initially presented from the drawing initially presented, and the description of the position is determined inside and outside the center of each component or the center of the circle. In addition, since detailed descriptions of pre-registered known technologies and conventional technologies may obscure the subject matter, they are omitted or replaced with simple symbols or names. In addition, the detailed structure, shape, shape, arrangement, size, etc. of the configuration that can be identified through the drawings, the operation of the configuration that can be inferred through the drawings, and the resulting effects may also obscure the subject, so a detailed description will be omitted. In addition, bolts, welds, holes, etc. that are applied for bonding between components can be omitted from the drawing because the subject matter may be blurred, and the shape of the plane is circular or square unless the shape of the configuration is specifically specified. In this case, the plan view may be omitted.

Below, Fig. 1 To Figure 5 The present invention will be described with reference to the following.

As shown in the present invention, a plate-shaped styrofoam 10; A vinyl 20 attached to the upper surface of the styrofoam 10; The waterproof paint 30 applied to the bottom of the styrofoam 10; characterized in that it is made integrally.

As shown, the styrofoam 10 is disposed so that the surface on which the waterproof paint 30 is applied on the concrete slab (A1) faces the floor, and the attached surface of the vinyl 20 faces upward when constructing the floor of the building. , A waterproof tape (40) is attached to the upper surface of the gap between the sound-absorbing materials for interlayer noise prevention to construct an interlayer noise prevention layer, and on the interlayer noise prevention layer, foam concrete (A2), heating pipe (A3), which corresponds to the general floor structure, and finishes It is characterized in that the mortar (A4), flooring (A5) is sequentially constructed.

In this way, by forming a waterproof film on the upper and lower surfaces of the styrofoam 10, an independent air space is formed to improve insulation and block noise, as well as water that can flow into the styrofoam 10 when the foamed concrete is poured. By blocking the vinyl 20 and the waterproof tape 40, there is an effect of remarkably reducing inter-layer noise by completely blocking noise propagation caused by moisture.

In addition, the waterproof paint 30 applied to the bottom of the styrofoam 10 has the effect of preventing the styrofoam 10 from absorbing the moisture remaining in the concrete slab A1, thereby maintaining the sound absorption ability. The vinyl (20) attached to the upper surface of (10) has the effect of preventing damage such as the styrofoam 10 being broken and separated by the feet of the operator who comes and goes during the floor construction.

In addition, the sound-absorbing material for preventing interlayer noise according to the present invention is not only easy to manufacture, but also has an effect that can be manufactured and constructed at low cost due to simple construction.

Below, Fig. 6 To Figure 11 The present invention will be described with reference to the following.

As shown, the waterproof paint 30 includes a conveyor (C) for transporting the plate-shaped styrofoam 10; An air cleaning nozzle 51 installed on one side of the conveyor C to clean the upper surface of the styrofoam 10 with air; An enclosure (H) is installed on the rear conveyor (C) of the air cleaning nozzle (51), and is installed in the enclosure (H) and diluted with water on the upper surface of the styrofoam (10) that is transported along the conveyor (C). A waterproof coating nozzle 52 for applying the waterproof paint 30 by spraying; An air flattening knife 53 installed on the rear conveyor C of the enclosure H of the waterproofing nozzle 52 to flatten the waterproof paint 30 applied to the upper surface of the styrofoam 10 with air; The waterproof paint applied to the upper surface of the styrofoam 10 is installed on the rear conveyor (C) of the air flattening knife (53) and installed in the housing (H) and transported along the conveyor (C). (30) a plurality of hot air drying ducts 54 for drying hot air; And an air drying duct 55 which is alternately installed between the hot air drying ducts 54 to dry the waterproof paint 30 with air. A light emitting lamp 56 installed on the rear conveyor (C) of the housing (H) of the hot air drying duct (54) to dry the waterproof paint (30) by irradiation of light; And a blower fan 57 that is alternately installed between the light emitting lamps 56 to dry the waterproof paint 30 with wind power; the waterproof paint 30 is automatically applied and dried on one side of the styrofoam 10 by Can be done.

In this way, the surface of the styrofoam 10 to which the waterproof paint 30 is to be applied is cleaned with air by the air cleaning nozzle 51 to completely remove dust and foreign substances, thereby making it easier to conceive of the waterproof paint 30. In addition, by diluting the waterproof paint 30 in water by the waterproof coating nozzle 52 and applying it in a spray method, the application of the waterproof paint 30 is quick and the transfer speed of the styrofoam 10 is increased. There is an effect of flattening the waterproof paint 30 sprayed on the styrofoam 10 by the air flattening knife 53 to make the coating thickness of the waterproof paint 30 uniform, and the hot air drying duct It has an effect of quickly deodorizing moisture from the waterproof paint 30 applied to the styrofoam 10 by 54 and drying quickly, and the air drying duct 55 alternately installed with the hot air drying duct 54 As a result, as the amount of heat increases by the heat of the hot air drying duct 54, the styrofoam 10 is prevented from melting, and at the same time, there is an effect of improving the drying ability as well as deodorizing moisture by cross-supplying hot and cold air. It has the effect of drying the waterproof paint 30 applied to the styrofoam 10 by the light emitting lamp 56 with light and drying it quickly, and air drying by the blower fan 57 installed alternately with the light emitting lamp 56 Like the duct 55, the heat of the light emitting lamp 56 increases the amount of heat and prevents the styrofoam 10 from melting, while cross-supplying hot and cold air to deodorize moisture as well as improve drying ability. There is.

On the other hand, in the present invention, the reason why the bottom of the styrofoam 10 is coated with waterproof paint 30 is that attaching the vinyl 20 to both the top and bottom of the styrofoam 10 has excellent waterproofing ability, but the location of the floor construction Compared to attaching the vinyl 20 to both the upper and lower surfaces by applying a waterproof paint 30 on the bottom of the styrofoam 10, which can be slightly apart from the upper surface of the styrofoam 10, the manufacturing cost of the present invention is significantly reduced. This is to obtain an effect that can be saved.

In addition, since the above-described waterproof paint application process is finished from application to drying in one continuous process, the product is completed, so that mass production, continuous production, and rapid production are possible.

Below, Figure 12 To Figure 15 The present invention will be described with reference to the following.

As shown, the vinyl 20 includes a conveyor (C) for transporting the styrofoam 10 in the form of a plate coated with a waterproof paint 30 on the bottom surface; An air cleaning nozzle 51 installed on one side of the conveyor C to clean the upper surface of the styrofoam 10 with air; An adhesive receiver 61 installed on the rear conveyor (C) of the air cleaning nozzle 51, provided with an adhesive supply nozzle 61a for supplying the adhesive 21 to the upper portion, and an open side of the air cleaning nozzle 61; An adhesive coating drum 62 which is installed to contact and rotate the upper surface of the sieve styrofoam 10 close to the open side of the adhesive receiver 61 to apply the adhesive 21 to the upper surface of the styrofoam 10; It is installed on the rear conveyor (C) of the adhesive-coated drum (62), a vinyl winding drum (63a) with a vinyl (20) wound thereon is provided, and the vinyl (20) of the vinyl winding drum (63a) is withdrawn. A vinyl attachment drum 63 for attaching the vinyl 20 to the surface of the adhesive 21 applied from the adhesive application drum 62 by rotating in contact with the styrofoam 10; A cutting cutter installed on the rear conveyor (C) of the vinyl-attached drum (63) to cut the vinyl (20) attached to the styrofoam (10); the vinyl (20) on the other side of the styrofoam (10) is automatically It can be made to be attached to.

In this way, the surface of the styrofoam 10 to which the vinyl 20 is to be attached is cleaned with air by the air cleaning nozzle 51 to completely remove dust and foreign matter, thereby making it easy to attach the vinyl 20. , There is an effect of storing a certain amount of the adhesive 21 in a flat state by the adhesive holder 61, and the adhesive 21 stored flat on the adhesive holder 61 by the adhesive application drum 62 ) Is applied to the styrofoam 10 flatly, and the adhesive 21 is applied to the styrofoam 10 by the vinyl attaching drum 63. There is an effect that the vinyl 20 can be continuously attached.

In addition, in the above-described vinyl attaching process, the product is completed by continuously attaching the vinyl 20 to the styrofoam 10 in a single continuous process, similar to the waterproof paint application process, so mass production, continuous production, and rapid production are possible. have.

Below, Figure 16 The present invention will be described with reference to the following.

As shown, the present invention may include applying a waterproof paint 30 to the side of the styrofoam 10 as well.

Although not shown, the waterproof paint 30 applied to the side is installed on both sides and front and rear sides of the enclosure (H) of the waterproof coating nozzle 52, and is transported along the conveyor (C) on both sides of the styrofoam (10). And spraying a waterproof paint 30 on the front and rear surfaces to be applied.

In this way, since moisture remaining in the concrete slab (A1) can be completely blocked from being absorbed through the side of the styrofoam (10), there is an effect of being able to firmly maintain heat insulation and sound absorption capacity.

Below, Figure 17 The present invention will be described with reference to the following.

As shown, the present invention may include that an uneven groove 11 is formed on the bottom surface of the styrofoam 10, and a waterproof paint 30 is applied to the surface of the uneven groove 11.

The concave-convex groove 11 may be formed in a rhombus shape as shown, and although not shown, the concave-convex groove 11 may be formed in various shapes such as a square, a triangle, and a wave shape.

In this way, when the sound-absorbing material is installed on the floor, parallel air spaces trapped between the sound-absorbing material and the concrete slab (A1) are formed at regular intervals by the uneven grooves 11 on the bottom surface, and heat insulation is improved through the air space. In addition, by suppressing, dispersing, and removing interlayer noise, the sound-absorbing function can be further increased.

Below, Figure 18 The present invention will be described with reference to the following.

As shown, the present invention may include that the embossing groove 12 is formed on the bottom surface of the styrofoam 10, and the waterproof paint 30 is applied to the surface of the embossing groove 12.

The embossing groove 12 may be formed in a hemispherical shape as shown, and although not shown, the embossing groove 12 may be formed in various shapes such as a square, a pyramid, and a semicircle.

In this way, when the sound-absorbing material is installed on the floor, a plurality of air spaces that are trapped between the sound-absorbing material and the concrete slab (A1) are formed by the embossing groove 12 on the bottom surface, and heat insulation is improved through the air space. By suppressing, dispersing, and removing interlayer noise, the sound-absorbing function can be further increased.

In particular, the embossing groove 12 is smaller than the concave-convex groove 11 and a large number of confined narrow spaces are independently distributed, so that the sound-absorbing and heat-insulating effect is further increased compared to the concave-convex groove 11.

Below, Figure 19 The present invention will be described with reference to the following.

As shown, the uneven groove 11 includes winding rods 70 installed on both sides of the conveyor (C) for transferring the styrofoam 10; A heating wire 71 wound around the winding rod; A guide 72 for guiding the lifting of the winding rod 71; A contact roller 73 protruding from the bottom of the guide 72; A rotating disk 74 which is in contact with the contact roller 73 and has a shape of an uneven groove 11 formed on the surface thereof; It can be manufactured by a device consisting of; a motor (not shown) that rotates the rotating disk 74.

In this way, there is an effect that the uneven groove 11 can be easily and continuously formed.

Below, Figure 20 The present invention will be described with reference to the following.

As shown, the embossing groove 12 is a heating drum 80 having an embossing irregularity 81 installed in the transverse direction and rotating on the upper surface of the styrofoam 10 transported along a conveyor (not shown). Can be manufactured.

In this way, since the embossing groove 12 is formed while being melted by the heating heat of the heating drum 80, the embossing groove 12 can be easily and continuously formed.

Below, Figure 21 The present invention will be described with reference to the following.

As shown, the embossing groove 12 is installed in a transverse direction on the upper surface of the styrofoam 10 conveyed along a conveyor (not shown), and a heating wire 82 having an embossing irregularity 81 that rotates or moves up and down. It can be manufactured by

In this way, compared to the heating drum 80 of FIG. 20, the embossing groove 12 can be formed more efficiently with less power.

In the above, the heating wire 82 may be moved up and down in the same manner as in FIG. 19.

Below, Figure 22 The present invention will be described with reference to the following.

As shown, the embossing groove 12 is installed in a transverse direction on the upper surface of the styrofoam 10 to be transferred along a conveyor (not shown), and a wire 83 having an embossing irregularity 81 that rotates or moves up and down; It may be manufactured by a heating heating wire 84 that is coupled along the bottom of the wire 83.

That is, in FIG. 22, the heating wire 82 of FIG. 21 is composed of a general wire 83, and a heating heating wire 84 that is thinner than the heating wire 82 is coupled to the wire 83.

In this way, compared to heating the thick heating wire 82, by heating the thin heating heating wire 84, the loss of power can be significantly reduced, as well as further increasing the calorific value, so that the styrofoam 10 There is an effect of further improving the melt cutting ability.

As described above, the description of the present invention has been completed, and the present invention describes the configuration of the present invention and specific components included in the configuration in order to help understand the principle of the configuration to be pursued in the present invention, and the drawings Based on the description, the structure, shape, shape, arrangement, direction, and quantity are determined in consideration of the principle to be pursued, and the configuration and its specific components included in the present invention can be variously changed as necessary. There will be. The configuration and its specific components presented in the present invention illustrate the effect that a person skilled in the art wants to obtain from the present invention and which principle is most preferable to apply to obtain a better effect from the effect. I did it. Accordingly, the present invention is most preferable to complete the present invention, including all of the above-described configurations, but can be completed by selecting or excluding some of the above-described configurations according to cost reduction, convenience of manufacturing, environmental conditions, or needs. In addition, one or part of the composition can be separated and merged with another composition to complete. In addition, each configuration described above may be independently applied to other technical fields other than this technical field in consideration of principles, uses, functions, roles, actions, and effects. Based on this, the scope of the present invention was specified in the range as comprehensive as possible to the claims of the present invention, and the order was determined from the claims with broad rights, and through this, if a person skilled in the art has the above It seems that the subject matter to be pursued in the present invention can be sufficiently grasped through one specific content and the claims to be described below, and the effect on the part which is illustrated but not described will be sufficiently inferred through the drawings. Accordingly, a person of ordinary skill in the art will be able to apply various modifications and changes in this technical field based on the contents mentioned in the present invention, thereby further increasing the efficiency in use as well as the development of the technical field.

Claims (2)

Styrofoam 10 in the form of a plate; A vinyl 20 attached to the upper surface of the styrofoam 10; Including that a waterproof paint 30 applied to the bottom of the styrofoam 10; is made integrally,
The styrofoam 10 is disposed so that the surface on which the waterproof paint 30 is applied on the concrete slab (A1) when constructing the floor of the building faces the floor, and the attached surface of the vinyl 20 faces upward, and the interlayer Constructing by attaching a waterproof tape 40 to the upper surface of the gap between sound-absorbing materials for noise prevention;
The waterproof paint 30 includes a conveyor (C) for transporting the styrofoam 10 in the form of a plate; An air cleaning nozzle 51 installed on one side of the conveyor C to clean the upper surface of the styrofoam 10 with air; An enclosure (H) is installed on the rear conveyor (C) of the air cleaning nozzle (51), and is installed in the enclosure (H) and diluted with water on the upper surface of the styrofoam (10) that is transported along the conveyor (C). A waterproof application nozzle 52 for applying a waterproofing solution by a spray method; An air flattening knife 53 installed on the rear conveyor C of the enclosure (H) of the waterproofing nozzle 52 to flatten the waterproofing liquid applied to the upper surface of the styrofoam 10 with air; The enclosure (H) is installed on the rear conveyor (C) of the air flattening knife (53), and the waterproofing liquid applied to the upper surface of the styrofoam (10) installed in the enclosure (H) and transported along the conveyor (C) A plurality of hot air drying ducts 54 for drying hot air; And an air drying duct 55 which is alternately installed between the hot air drying ducts 54 to dry the waterproof liquid with air. A light-emitting lamp 56 installed on the rear conveyor (C) of the housing (H) of the hot air drying duct (54) to dry the waterproof liquid by irradiation of light; And a blower fan 57 that is alternately installed between the light emitting lamps 56 to dry the waterproofing liquid with wind power;
The vinyl 20 is a conveyor (C) for transporting the styrofoam 10 in the form of a plate coated with a waterproof paint 30 on the bottom surface; An air cleaning nozzle 51 installed on one side of the conveyor C to clean the upper surface of the styrofoam 10 with air; An adhesive receiver 61 installed on the rear conveyor (C) of the air cleaning nozzle 51, provided with an adhesive supply nozzle 61a for supplying the adhesive 21 to the upper portion, and an open side of the air cleaning nozzle 61; An adhesive coating drum 62 which is installed to contact and rotate the upper surface of the sieve styrofoam 10 close to the open side of the adhesive receiver 61 to apply the adhesive 21 to the upper surface of the styrofoam 10; It is installed on the rear conveyor (C) of the adhesive-coated drum (62), a vinyl winding drum (63a) with a vinyl (20) wound thereon is provided, and the vinyl (20) of the vinyl winding drum (63a) is withdrawn. It is manufactured by a vinyl attaching drum 63 which attaches the vinyl 20 to the surface of the adhesive 21 applied from the adhesive application drum 62 by rotating in contact with the styrofoam 10;
Sound-absorbing material for interlayer noise prevention provided with a waterproof membrane on the upper and lower surfaces including any one or two or more. delete

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