KR102365142B1 - Method for manufacturing noise prevention building materials, noise prevention building materials manufactured through the same, and buildings using the same to block and prevent noise - Google Patents

Abstract

The present invention relates to a method for manufacturing noise prevention building materials with reduced generation of a toxic gas in an event of a fire, the noise prevention building materials manufactured through the method, and a building blocking and preventing a noise using the same. The noise prevention building materials according to an embodiment of the present invention is formed of a combination of a first noise prevention member, a second noise prevention member, and a third noise prevention member.

Description

Method for manufacturing noise prevention building materials, noise prevention building materials manufactured through the same, and buildings using the same to block and prevent noise prevent noise}

The present invention relates to a method for manufacturing a noise prevention building material, a noise prevention building material manufactured through the same, and a building that blocks and prevents noise using the same. A method for manufacturing a noise prevention building material that has a more eco-friendly and effective noise prevention structure by using an anti-noise building material and reduces the generation of toxic gas in the event of a fire It's about architecture.

Recently, PET is a new material produced by science in the 20th century. In the 21st century, as an environmentally friendly and safe material, and as a necessities of human life, PET has become an indispensable material for human life. It is occupying its place as a waste due to limitations and difficulties in collection, and transparent containers among PET are easy to recycle, but colored containers such as brown or green such as beer containers are several times more expensive than transparent containers. There were limited places to do it, so only a small part was used, such as egg packaging materials.

As such, waste PET is not recycled and exported to developing countries is a waste of resources, and research on a new alternative to recycle colored PET was required by making use of the advantages of waste PET and supplementing the disadvantages.

On the other hand, along with the waste PET problem, noise between floors is causing a social problem with the increase in demand for complex buildings or apartment houses in recent years.

In general, inter-floor noise has always been pointed out as the main problem that promotes discord between neighboring households, especially in the case of apartment houses, as daily noise and vibrations generated from the upper floors are transmitted without any significant attenuation rate. It is not a problem, but it has always been there until the present, many years have passed since the construction of the apartment complex, and fists between neighboring generations who should always help each other and make a sleeper go back and forth. there is also

On the other hand, the generation of inter-floor noise is largely divided into light impact sound (125Hz to 2000Hz) and heavy impact sound (63Hz - 500Hz) according to KS, KS F 2863 - 2002 (63Hz - 4000Hz) on the domestic standard floor impact sound measurement and evaluation method. However, it is known that the light impact sound belonging to the low frequency (0 to 500 Hz) is generated by a human voice, and the heavy impact sound belonging to the high frequency (500 to 3000 Hz) is generated by a high decibel horn, machine sound, etc.

As a result, these two types of impact sound are noise, so it can be seen that effectively blocking these two low-frequency and high-frequency noises fulfills the role of noise prevention material between floors. It can be said that it is desirable to find

In addition, the noise generated in the residential space is not limited to the light impact sound and the heavy impact sound, and the noise caused by the actual floor impact and the floor impact sound caused by the vibration are also frequently generated, so a lot of research is needed.

For example, in Korean Patent Publication No. 10-0977168, a wooden panel arranged in the form of a square or rectangular plate and connected to each other through a connector, is attached to the bottom of the wooden panel, and is made of a rubber material or a synthetic resin material. An intermediate cushion plate in which protrusions are formed at equal intervals on the upper and lower surfaces, respectively, are spaced apart from each other on the upper and lower surfaces around the intermediate cushion plate, and the upper side is attached to the bottom surface of the wooden panel and the lower side is in close contact with the bottom surface of the interlayer slab The upper and lower perforated sound insulation plates, the upper and lower surfaces of the intermediate cushion plate, and the upper and lower perforated sound insulation plates are respectively filled with a filling material that is filled with fine sand impregnated with a vegetable adhesive binder, and a sound absorbing material attached to the side edge of the filler is combined. An elastic flooring material for preventing noise between floors made of a noise prevention panel is disclosed.

However, the elastic flooring for preventing noise between floors as described above requires a variety of materials for forming the same, and due to the complexity of the method in which it is provided, it takes a lot of money and time to form a product, and as a problem that follows, , there was a risk of releasing a large amount of toxic gas harmful to the user's health in the event of a fire. There was an urgent need for technological development.

The present invention has been devised to solve the above problems, and by providing a noise prevention building material using recycled PET fibers formed using needle punching and thermocompression processes, it is more environmentally friendly and has the purpose of effectively preventing noise .

In addition, the present invention is compatible with other construction materials to meet the needs of the constructors who construct the building, along with the insulation performance of the noise prevention building material, and the purpose of providing a noise prevention building with reduced emission of toxic gas in the event of a fire have

A noise prevention building material according to an embodiment of the present invention according to an embodiment of the present invention for solving the above problems, a first noise prevention member formed in the form of a tetrahedron having an area, is formed on the upper surface of the first noise prevention member A noise prevention building material that is formed by a combination of a second noise prevention member and a third noise prevention member formed on the upper surface of the second noise prevention member, and the first to third noise prevention members are formed of PET fiber. , the first noise blocking member and the third noise blocking member are formed by needle punching and thermocompression processes to increase strength by improving the density of PET fibers, and the second noise blocking member includes: By thermocompression bonding between the preventing member and the third noise preventing member, the first to third noise preventing members may be integrally formed.

In addition, the second noise preventing member may be penetrated by a heating line provided for indoor heating in the building flooring in which the noise preventing building material is embedded, or a heating line hole into which the heating line is inserted is inserted into the noise preventing building material. may be formed along the longitudinal direction of the heating line.

In addition, in the noise prevention building material according to an embodiment of the present invention, the surface area of the first noise prevention building material is formed to be larger than the surface area of the third noise prevention building material, so that the front, side and rear of the noise prevention building material are made of iron By being formed to form a shape, by being formed to fit each other at the radius forming the corners of the floor, sidewalls, and ceiling of the building to be constructed, the noise prevention building material can form a soundproof booth in the interior of the building.

In addition, the noise prevention building material is provided between the roof and the ceiling panel of the building on which the noise prevention building material is constructed, the surface of the noise prevention building material is water-repellent coated, and it is installed on the inner surface of the roof or the upper surface of the ceiling panel. It can absorb and block vibration and noise.

In addition, the noise prevention building material according to an embodiment of the present invention prevents slipping between the construction material in contact with the upper surface of the noise prevention building material and the construction material in contact with the lower surface, and further comprises an auxiliary coated paper having sound absorption performance, the auxiliary coated paper , a first auxiliary coated paper provided on a lower surface of the first noise preventing member and a second auxiliary coated paper provided on an upper surface of the third noise preventing member, wherein the first auxiliary coated paper and the second auxiliary coated paper are PET material is formed, and a checkerboard arrangement may be formed on the surface exposed to the outside.

In addition, the noise prevention building material further comprises a movement mat mounted on the upper surface of the third noise prevention member, wherein the movement mat is formed so as to be able to fit with each other between other objects of the movement mat, the noise prevention building material It is formed to have a predetermined area on the upper surface, and may be an exercise mat formed of a PVC material.

In addition, the noise prevention building material further comprises an air layer forming member provided inside the second noise preventing member to improve noise and heat insulation performance by forming an air layer, wherein the air layer forming member has elasticity and vibration resistance It is formed of a material, and the overall shape is formed in a spherical ball type, and a porous hollow hole may be provided on the surface of the ball type air layer forming member.

On the other hand, in the method for manufacturing a noise prevention building material according to an embodiment of the present invention, the first noise prevention member and the third noise prevention member by needle punching and thermocompression processes to increase the strength by improving the density of the PET fiber in the form of a nonwoven fabric A preparatory step to form into; An arrangement step of inserting a second noise prevention member between the first noise prevention member and the third noise prevention member formed through the preparation step for sound absorption and heat insulation performance, and the first to third noises arranged through the arrangement step It may include a molding step of thermally bonding the prevention member to form a single noise prevention building material.

In addition, the noise prevention building material manufacturing method, after the forming step, may further include a heating line insertion hole forming step in which a heating line provided in the flooring material of the building is inserted into the inside of the second noise prevention member for indoor heating. there is.

In addition, the noise prevention building material manufacturing method according to an embodiment of the present invention, after the forming step, the attachment step of attaching an auxiliary coated paper to block the pushing and noise on the lower surface of the first noise prevention member and the upper surface of the third noise prevention member And it may further include a mat arrangement step of arranging the exercise mat on the upper surface of the third noise preventing member to which the auxiliary coated paper is attached.

In addition, the noise prevention building material manufacturing method, after the disposing step, is formed of heat-resistant silicone in the interior of the second noise prevention member, the air layer forming step of inserting a spherical air layer forming member forming a porous hollow hole more may include

The noise prevention building material manufactured according to an embodiment of the present invention has the advantage of being able to more effectively prevent external noise or interlayer noise by being formed using a needle punching and thermocompression process.

In addition, the noise prevention building material according to an embodiment of the present invention takes a form compatible with a heating line provided for heating the interior of a building, so that a constructor who wants to construct an interior of a building using the present invention can easily operate it. have an advantage

In addition, the noise prevention building material according to an embodiment of the present invention is provided with an anti-slip member for preventing slipping with other construction materials, thereby increasing the convenience of a user using the present invention.

In addition, the noise prevention building material according to an embodiment of the present invention has the advantage that it can be conveniently installed in an indoor sports facility or an outdoor sports facility by using an exercise mat arranged on the upper surface of the noise prevention building material.

In addition, the noise prevention building material according to an embodiment of the present invention is provided inside the noise prevention building material, and by using a spherical air layer forming member forming a hollow hole, it has the advantage of deriving a more effective thermal insulation effect. .

1 (a) and (b) are a perspective view and a front sectional view of a noise prevention building material according to an embodiment of the present invention.
2 is an exemplary view of a noise-proof building material into which a heating line is inserted.
3 is a construction example of a noise-proof building material into which a heating line is inserted.
4 is an exemplary construction view of a noise-preventing building material that forms a soundproof booth by being provided on the inside front of the building.
5 is a partial enlarged view for showing a front view of FIG. 4 and a detailed coupling method.
6 is a view illustrating a construction example of a noise prevention building material provided between a roof and a ceiling.
7 is an exemplary view of a noise prevention building material provided with an auxiliary coated paper.
8 is an exemplary view of the construction of a noise prevention building material using the exercise mat according to an embodiment of the present invention.
9 is an exemplary view of a noise prevention building material into which an air layer forming member is inserted.
10 is an exemplary view for showing a detailed form of the air layer forming member according to an embodiment of the present invention.
11 is a flowchart of a method for manufacturing a noise-proof building material according to an embodiment of the present invention.
12 is a flowchart of a method for manufacturing a noise-proof building material further comprising the step of forming a heating line insertion hole into which a heating line of a building can be inserted.
13 is a flowchart of a method for manufacturing a noise-proof building material further comprising an attaching step and a mat arranging step;
14 is a flowchart of a method for manufacturing a noise-proof building material further comprising the step of forming an air layer;

Hereinafter, the description of the present invention is not limited to specific embodiments, and various transformations may be applied and various embodiments may be provided. In addition, it should be understood that the contents described below include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention.

In the following description, terms such as 1st, 2nd, etc. are terms used to describe various components, meanings are not limited thereto, and are used only for the purpose of distinguishing one component from other components.

As used herein, the singular expression includes the plural expression unless the context clearly dictates otherwise. In addition, terms such as "comprises", "comprising" or "have" described below are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist. It should be construed as not precluding the possibility of addition or existence of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, with respect to the noise-blocking building material according to an embodiment of the present invention and a building blocking and preventing noise using the same, it will be described in detail with reference to FIGS. 1 to 10 .

First, (a) and (b) of Figure 1 is a perspective view and a front sectional view of a noise prevention building material according to an embodiment of the present invention.

Referring to FIG. 1 , a noise prevention building material 1 according to an embodiment of the present invention includes a first noise prevention member 100 and the first noise prevention member 100 formed in the form of a quadrangular tetrahedron having a predetermined area. It may be formed by a combination of the second noise preventing member 200 formed on the upper surface of the , and the third noise preventing member 300 formed on the upper surface of the second noise preventing member 200 .

Specifically, the first noise prevention member 100, the second noise prevention member 200, and the third noise prevention member 300 may be formed in the shape of a tetrahedron having a predetermined area, and a process of compressing them may be performed. What is produced in the form of a non-woven fabric through the can be used.

Here, as a material for forming the first noise preventing member 100 , the second noise preventing member 200 , and the third noise preventing member 300 , polyester formed of PET fiber or PE fiber Although the material of the present invention may be used, any synthetic material capable of exhibiting a thermal insulation effect while the noise barrier construction material 1 of the present invention has dustproof and soundproofing performance may be used.

Specifically, as the most preferable material for forming the first to third noise preventing members 100, 200, and 300, PET fiber, that is, a material of polyethylene terephthalate may be used. .

The PET fibers may be recycled PET fibers produced from disposable products such as waste PET bottles or egg carton covers. After processing, it is produced in the form of a non-woven fabric through the bonding of yarns, and LM fibers to be described in detail later, that is, low-melting fibers, are mixed and placed, and then through a thermocompression process, without using an adhesive. , by using recycled PET fibers, it has the advantage of being able to form a more environmentally friendly noise-preventing building material (1).

In addition, the PET fiber is a linear polymer and has crystallization properties, and by being crystallized through needle punching and thermocompression bonding, the hardness or strength of the surface is improved, and it has a property of having heat resistance. can

In addition, PET fiber has excellent resilience and is restored to its original state after being compressed, that is, it has excellent elasticity and resilience. Therefore, damage to users can be minimized, and there is an advantage that organic solvents are not applied.

In addition, the noise prevention building material 1 according to the embodiment of the present invention is made of PET fiber, and thus has the advantage of suppressing the yellowing phenomenon and the generation of hardened powder.

In addition, in the noise prevention building material 1 according to an embodiment of the present invention, in bonding the first to third noise prevention members 100 , 200 , 300 , low-melting-point (LM) fibers are used instead of general adhesives. It does not harm the health of the user, and it is environmentally friendly because it can be decomposed naturally, and has the advantage of better rebound elasticity and compression set.

On the other hand, as the PET fiber, recycled polyester fiber is preferably used, but is not limited thereto, and various types of polyester fiber may be applied, for example, PE fiber may be used.

Specifically, the PE fiber is an abbreviation of polyethylene, high-density polyethylene (HDPE) having high crystallinity and hard properties, and a portion in which the molecular structure is branched, that is, low-density polyethylene (LDPE) with many branches and low crystallinity (LDPE) ) and very little branched linear low density polyethylene (LDPE).

In addition, PE fibers have excellent chemical resistance, electrical insulation, and moldability, so that a flexible product can be obtained without using a plasticizer, and it does not become soft even at a relatively low temperature.

As such, the noise prevention building material 1 formed of PET or PE fibers has the advantage of providing a cushioning feeling.

Hereinafter, to describe the detailed configuration of the noise prevention building material 1 according to the embodiment of the present invention, the first noise prevention member 100 and the third noise prevention member 300 are formed by needle punching and thermocompression processes. By being formed, it can be formed to have a high density and to have rigid rigidity and strength.

Here, the density for achieving high strength of the first noise prevention member 100 and the third noise prevention member 300 is 150K to It may be desirable to be formed to have a density of 300K, but the state of the above-mentioned density is not necessarily limited.

In addition, the first noise preventing member 100 and the third noise preventing member 300 may be formed to have a thickness of 0.02mm to 20mm.

Here, when the average thickness of the first noise prevention member 100 and the third noise prevention member 300 is formed to be less than 0.02 mm or more than 20 mm, the first noise prevention member 100 and the third noise prevention member 30 ) cannot easily withstand the impact applied from the outside, and a problem of excessively high weight may occur, so that the first noise prevention member 100 and the third noise prevention member 300 have a thickness of 0.02mm to 20mm It may be desirable to be formed to have.

In addition, the second noise preventing member 200 is formed to have a lower density than that of the first noise preventing member 100 and the third noise preventing member 300 , and thus the first noise preventing member 100 . and the third noise prevention member 300 may be formed to have a buffering force and a higher sound absorption and warmth at the same time.

Here, as the density at which the second noise prevention member 200 can achieve effective sound absorption and heat insulation performance, it is preferably formed of 50K to 140K, which is lower than the above-mentioned 150K to 300K, but is not necessarily limited thereto. not.

Also, the second noise preventing member 200 may be formed to have a thickness of 30 mm to 150 mm.

Here, when the average thickness of the second noise prevention member 200 is less than 30mm or is formed to a thickness exceeding 150mm, the first noise prevention member inserted between the first noise prevention member 100 and the third noise prevention member 300 is Since the sound absorption performance may be reduced along with the heat insulation performance of the second noise prevention member 200, it may be preferable that the second noise prevention member 200 is formed to have a thickness of 30mm to 150mm.

In addition, the second noise preventing member 200 is thermocompression-bonded between the first noise preventing member 100 and the third noise preventing member 300 , so that the first to third noise preventing members 100 and 200 are thermally compressed. , 300) may be integrally formed.

To this end, in order for the first noise prevention member 100 and the third noise prevention member 300 to form a binding force between the second noise prevention member 200, a heat-resistant adhesive, a silicone bond, a styrofoam bond, acetone, or a hot melt bond , an adhesive method using any one of the adhesives may be used, but most preferably, it is inserted between the first noise prevention member 100 , the second noise prevention member 200 and the third noise prevention member 300 . It can be bonded through a thermal bonding process using a low-melting fiber (LM).

Here, the thermal bonding process may be a thermal bonding process using one of heating, hot air, radiant heat (infrared), vibration energy (ultrasound, high frequency, etc.).

At this time, the thermal bonding process may be performed within a temperature range of 80 ℃ to 100 ℃.

Specifically, the above-described thermal bonding process is a process for forming adhesion by applying heat to the low-jum point fiber to form viscosity. This cannot be sufficiently achieved, and when it exceeds 100°C, over-dissolution of the low-melting-point fiber occurs, adhesion workability is lowered, and twisting between layers may occur, so the temperature at which the thermal bonding process is performed is 80°C to It may most preferably be carried out within a temperature range of 100°C.

That is, as shown in (b) of FIG. 1, the first noise preventing member 100 and the third noise preventing member 300 constituting the present invention are needle punched and thermocompressed, whereby the second noise preventing member ( 200) may be formed to have a thinner thickness, and the second noise prevention member 200 is formed to have a thicker thickness compared to the first noise prevention member 100 and the third noise prevention member 30, , it is possible to form an adhesive force with the first noise preventing member 100 and the third noise preventing member 300 by the thermal bonding process.

Once again, referring to FIG. 1 , the noise prevention building material 1 according to the embodiment of the present invention is such that the first noise prevention member 100 is placed under the second noise prevention member 200 as shown in the drawing. and a second noise preventing member 200 having a lower density than that of the first noise preventing member 100 is placed on it, and a third having a higher density than the second noise preventing member 200 is placed on it. The noise prevention member 300 is to be arranged.

Accordingly, the noise prevention building material 1 according to the embodiment of the present invention having the arrangement as described above, due to a plurality of floor surfaces having various densities, occurs when the user steps on the noise prevention building material 1 of the present invention By blocking noise, it can serve as a noise-inhibiting material, and because of its excellent thermal insulation performance, it can serve as an insulator.

However, the arrangement of the first noise prevention member 100, the second noise prevention member 200, and the third noise prevention member 300 is a preferable arrangement for maximizing the cushioning effect together with the sound absorption performance. Its arrangement may be formed differently according to the needs of the It may be formed to have more than four layer surfaces.

Accordingly, in the noise prevention building material 1 according to an embodiment of the present invention, the densities of the respective layer surfaces 100 , 200 , 300 for forming the same are formed differently, so that hardness, strength, and heat resistance are formed differently from each other. Has the advantage of superior heat insulation and sound absorption performance than the noise prevention material used, and also, the noise prevention building material 1 according to the embodiment of the present invention, the first noise prevention member 100 and the third noise prevention member 300 is formed using the needle punching and thermocompression process, and at the same time prevents the problem that the noise prevention building material 1 sinks or is distorted by the impact generated on the surface of the noise prevention building material 1, and at the same time, these The second noise preventing member 200 inserted between the liver has the advantage of more effectively preventing noise and exhibiting the effect of heat insulation.

Next, FIG. 2 is an exemplary view of a noise prevention building material into which a heating line is inserted, and FIG. 3 is a construction exemplary view of a noise prevention building material into which a heating line is inserted.

Before the description, the shape of the heating line HL shown in FIGS. 2 and 3 may be provided in the form of a cylindrical PB (polybutylene) pipe having a lattice arrangement, but this is one for helping those skilled in the art to understand. It may be provided in the form of an integrated heating hose that forms a gentle curve arrangement, which is not necessarily limited, and the method for heating is a method using heating water, heat is applied A heating cable method that receives and heats up, ultimately, a carbon fiber heating element that is more eco-friendly and can reduce heating costs can be used.

Hereinafter, referring to FIGS. 2 and 3 , the inside of the noise preventing building material 1 according to an embodiment of the present invention, more specifically, the inside of the second noise preventing member 200 , a heating line hole 210 . This can be provided.

Specifically, the noise prevention building material (1) is to be penetrated by a heating line (HL, Heating Line) provided for indoor heating inside the building flooring material (FM) in which the noise prevention building material 1 is buried. can

Here, the heating line hole 210 is provided in the form of a hole in the longitudinal direction of the heating line HL so that the heating line HL can be inserted into the second noise prevention member 200 . can be

In addition, the noise prevention building material 1 includes a third noise prevention member 300 and a second noise prevention member ( 200), and may further include a heating line fixing pin (not shown) formed in the shape of a 'U'.

In addition, the inside of the noise prevention building material 1, more specifically, the inside of the second noise prevention member 200, by inserting a thermal insulation material formed of a carbon fiber material, heat insulation and heat insulation of the noise prevention building material 1 performance can be increased.

Meanwhile, a sealing member such as a gasket or a bushing for preventing leakage of hot water may be provided at the coupling portion between the heating lines HL provided inside the second noise preventing member 200 .

Accordingly, the noise prevention building material 1 according to the embodiment of the present invention takes a form compatible with the heating line HL provided for heating the interior of the building BD, and thus the building BD using the present invention ), it has the advantage of excellent constructability as it can be easily operated by a contractor who wants to construct the interior of the room.

In addition, FIG. 4 is a construction example of a noise prevention building material that forms the shape of a soundproof booth by being provided in the front of the building, and FIG. 5 is a partial enlarged view to show the front view of FIG. 4 and a detailed coupling method.

4 and 5, the noise prevention building material (1) according to an embodiment of the present invention, the floor (F, Floor) and side walls of the building (BD, Building) constructed by the noise prevention building material (1) ( W, Wall) and by being provided on the ceiling (C), the noise prevention building material (1) may be formed to form the shape of the soundproof booth (SB) inside the building (BD).

At this time, for the corner construction between the noise prevention building materials 1 according to the embodiment of the present invention, a step or groove of a predetermined depth may be formed in the side portion of the noise prevention building material 1 .

More specifically, as a square-shaped step is formed in the noise prevention building material 1 having a rectangular shape as a whole, the surface area of the lower end of the noise prevention building material 1, that is, the first noise prevention member 100, reduces the noise By being formed to be smaller than the surface area of the upper end of the noise prevention building material 1, that is, the surface area of the third noise prevention member 300, the front, sides, and rear of the noise prevention building material 1 can be formed in the shape of an iron (凸). As there is, it can be formed so that it is possible to fit between the noise prevention building materials 1 as shown in FIG. 5 .

Accordingly, since the noise prevention building material 1 according to the embodiment of the present invention can be constructed in a form that covers the interior of the building BD, the soundproof booth SB, which has enhanced insulation performance with more effective noise prevention, Soundproof Booth) type construction is possible.

In addition, Figure 6 is a construction example of a noise prevention building material provided between the roof and the ceiling.

Referring to FIG. 6 , the noise prevention building material 1 according to the embodiment of the present invention is between the ceiling C, Ceiling and the R, Roof of the building BD on which the noise prevention building material 1 is constructed. Doedoe provided in the roof (R) or installed so as to be in contact with the upper surface of the ceiling (C), it is possible to absorb and block vibration and noise generated during rain.

At this time, a water repellent coating may be performed on the surface of the noise prevention building material 1 to prevent deterioration of heat insulation and sound absorption performance caused by wetness by rainwater infiltrating from the roof R, and the water repellent coating is A water repellent containing a fluororesin may be used.

Accordingly, the noise prevention building material 1 according to the embodiment of the present invention has the advantage of not only preventing noise generated between floors, but also absorbing vibration and impact sound generated from the outside of the building BD. .

In addition, Figure 7 is an exemplary view of the noise prevention building material provided with the auxiliary coated paper.

Referring to FIG. 7 , the noise prevention building material 1 according to the embodiment of the present invention prevents slipping between the construction material in contact with the upper surface of the noise prevention building material 1 and the construction material in contact with the lower surface, and an auxiliary having sound absorption performance It may further include a coated paper 400 .

Specifically, the auxiliary coated paper 400 may include a first auxiliary coated paper 410 and a second auxiliary coated paper 420 .

First, the first auxiliary coated paper 410 is provided on the lower surface of the first noise preventing member 100, and the lower surface of the first noise preventing member 100 and the construction material, that is, the floor (F) or flooring material It is possible to prevent the sliding between the (FM) and at the same time absorb the noise generated from the contacting construction materials.

In addition, on the surface of the first auxiliary coated paper 410, the first auxiliary protrusions 411 are provided in a shape protruding from the first auxiliary coated paper 410 at a predetermined height, and have a grid arrangement, that is, a checkerboard arrangement. can be provided.

In addition, the second auxiliary coated paper 420 is a construction material that is attached to the upper surface of the third noise prevention member 300 and comes into contact with the upper surface of the third noise prevention member 300 , that is, a flooring material (FM) or later. It is possible to prevent the problem of sliding with the exercise mat 500 to be described in detail and at the same time absorb the noise generated from the abutting exercise mat 500 .

In addition, a second auxiliary protrusion 421 provided in the same shape as the first auxiliary protrusion 411 may be provided on the surface of the second auxiliary coated paper 420 .

Here, the first auxiliary coated paper 410 and the second auxiliary coated paper 420 may be the same waste PET used in manufacturing the noise prevention member 100, 200, 300, but polystyrene butadiene rubber , polybutadiene rubber or a synthetic rubber between them, or carbon brack process oil made by mixing norbornene and styrene rubber, or a rubber composition synthesized by adding other rubber chemicals to vulcanize and pulverize a pulverized product can be used

Accordingly, the noise prevention building material 1 according to an embodiment of the present invention is provided with an auxiliary coated paper 400 capable of absorbing noise generated from other construction materials while preventing slippage between other construction materials. It is possible to increase the performance of noise blocking together with the safety of the user using the present invention.

In addition, Figure 8 is a construction example of a noise-proof building material using the exercise mat according to an embodiment of the present invention.

Referring to FIG. 8 , the noise prevention building material 1 according to the embodiment of the present invention may further include an exercise mat 500 mounted on the upper surface of the third noise prevention member 300 .

Specifically, the exercise mat 500 may be formed to have a predetermined area on the upper surface of the noise prevention building material (1).

In addition, the exercise mat 500 may be an exercise mat 500 formed of a PVC material, that is, a polyvinyl chloride material.

Here, the exercise mat 500 formed of a PVC material has the characteristics of durability, chemical resistance and flame retardancy, and has the advantage of being able to be stored for a longer time than a general exercise mat.

In addition, the PVC material has excellent dyeability, making it easier to insert dyeing or painting on the surface of the exercise mat 500, so that products of various shapes can be manufactured, and products with excellent aesthetics to meet the needs of users can be manufactured. have an advantage

In addition, protrusions of a tatami pattern formed in a grid are provided on the surface of the exercise mat 500 to prevent the user from slipping using the exercise mat 500 .

In addition, the exercise mat 500 may be formed so that other objects of the exercise mat 500 can fit each other.

To this end, a coupling protrusion 510 is provided on one side of the exercise mat 500 , and a coupling groove 520 is provided on the other side thereof, so that it can be formed in a manner to fit each other.

However, the configuration of the coupling protrusion 510 and the coupling groove 520 may be omitted according to the request of the installer.

Accordingly, the noise prevention building material 1 according to an embodiment of the present invention can be conveniently installed in an indoor sports facility or an outdoor sports facility by using the exercise mat 500 arranged on the upper surface of the noise prevention building material 1 have an advantage

In addition, FIG. 9 is an exemplary view of a noise prevention building material into which an air layer forming member is inserted, and FIG. 10 is an exemplary view for showing a detailed form of an air layer forming member according to an embodiment of the present invention.

9 and 10 , the noise prevention building material 1 according to an embodiment of the present invention is provided inside the second noise prevention member 200, and forms an air layer to improve noise and heat insulation performance. A forming member 600 may be further included.

Specifically, the air layer forming member 600 may be formed of a heat-resistant silicone material having elasticity and vibration resistance, and the overall shape may be formed in a spherical ball type.

In addition, in the surface of the ball-type air layer forming member 600 , in the above-described thermocompression process, a porous hollow hole 610 so that the yarns of PET fibers can penetrate into the inside of the air layer forming member 600 . may be provided, and the air layer forming member 600 provided with such a hollow hole 610 may be firmly coupled inside the second noise preventing member 200 , and heat insulation of the second noise preventing member 200 . It is possible to secure effective resilience along with performance.

Accordingly, the noise prevention building material 1 according to the embodiment of the present invention is provided inside the noise prevention building material 1, and using a spherical air layer forming member 600 forming a hollow hole 610. , has the advantage of deriving a more effective thermal insulation effect.

Hereinafter, a manufacturing method for manufacturing the above-described noise-proof building material 1 will be described in detail with reference to FIGS. 11 to 14 , and contents overlapping with the above-described contents will be omitted or implied.

First, FIG. 11 is a flowchart of a method for manufacturing a noise prevention building material according to an embodiment of the present invention, and FIG. 12 is a flowchart of a method for manufacturing a noise prevention building material further comprising the step of forming a heating line insertion hole into which a heating line of a building can be inserted. , and FIG. 13 is a flowchart of a method for manufacturing a noise prevention building material further including an attaching step and a mat arrangement step, and FIG. 14 is a flowchart of a method for manufacturing a noise prevention building material further including an air layer forming step.

Referring to FIG. 11 , the method for manufacturing a noise prevention building material according to an embodiment of the present invention may include a preparation step ( S100 ), an arrangement step ( S200 ), and a molding step ( S300 ).

First, in the preparation step ( S100 ), the first noise preventing member and the third noise preventing member may be formed through needle punching and thermocompression processes.

Here, the needle punching process may be performed by a needle punching device in which the needle reciprocates vertically, and the density of the first noise prevention member and the third noise prevention member may be increased, and excellent elasticity may be provided.

In addition, the first noise preventing member and the third noise preventing member may be formed to have a specific density or more in order to prevent an off phenomenon by an external force, and in this case, the density may have a high density of 150K to 300K or more there is.

In addition, the thermocompression process may be performed at a temperature of 120 ° C. to 160 ° C. for a time of 3 minutes to 7 minutes, and the first noise prevention member and the third noise prevention member manufactured through this process are, It can have rigidity and strength as hard as marble.

In addition, the disposing step (S200) is a step of inserting a second noise preventing member between the first noise preventing member and the third noise preventing member formed through the preparing step (S100).

Here, as a material for forming the first to third noise preventing members, the above-described PET fiber, that is, polyethylene terephthalate (Polyethylene Terephthalate) material may be used.

In addition, the forming step (S300) is a step of thermally bonding the first to third noise preventing members disposed through the disposing step (S200) to form a single noise preventing building material.

Specifically, the thermal bonding method may be performed at a temperature of 80° C. to 100° C., and is a method of attaching the surfaces of two or more thermoplastic plastics by applying heat and pressure, and each noise prevention member without adding a substance harmful to the user A way to attach the liver.

In this case, the bonding method using heat may include an bonding method of a high-temperature hot air bonding method, a calender bonding method, an infrared irradiation method, and an ultrasonic bonding method.

In addition, referring to FIG. 12 , the method for manufacturing a noise prevention building material according to an embodiment of the present invention may further include a heating line insertion hole forming step ( S400 ).

Specifically, in the heating line insertion hole forming step (S400), after the forming step (S300), a heating line is inserted into the second noise prevention member for indoor heating, a heating line provided inside the flooring of a building is inserted This is the step of forming a hole.

In addition, referring to FIG. 13 , the method for manufacturing a noise prevention building material according to an embodiment of the present invention may further include an attaching step ( S500 ) and a mat arrangement step ( S600 ).

First, in the attaching step (S500), after the forming step (S300), on the lower surface of the first noise preventing member and the upper surface of the third noise preventing member, auxiliary coated paper that can prevent sliding and absorb noise at the same time This is the attaching step.

Here, the anti-skid composition, PET fiber, natural rubber, polystyrene butadiene rubber, polybutadiene rubber, or a mixed rubber thereof is used, or carbon black process oil or other mixture of norbornene and high styrene rubber A pulverized product obtained by vulcanizing and pulverizing a rubber composition synthesized by adding a rubber chemical may be used.

In addition, the mat arrangement step (S600) is a step of arranging the exercise mat on the upper surface of the third noise prevention member to which the auxiliary coated paper is attached.

In addition, referring to FIG. 14 , the method for manufacturing a noise prevention building material according to an embodiment of the present invention may further include an air layer forming step ( S250 ).

Specifically, the air layer forming step (S250), after the disposing step (S20), is formed of heat-resistant silicone inside the second noise prevention member, and a spherical air layer forming member forming a porous hollow hole is inserted. is a step

Accordingly, the noise prevention building material manufactured through the manufacturing method according to the embodiment of the present invention is more environmentally friendly and effective at the same time by providing a noise prevention building material using recycled PET fibers formed using a needle punching and thermocompression process. It has the advantage of preventing noise, less toxic gas emission in case of fire, and noise prevention building materials manufactured through the heating line insertion hole formation step 400, the mat arrangement step 600 and the air layer formation step (S250). Through this, it has the advantage of being able to provide a noise preventing building material having a multifunctional effect while heating compared to a conventional noise preventing building material.

As described above, with reference to FIGS. 1 to 14 , the noise prevention building material manufacturing method according to an embodiment of the present invention, the noise prevention building material 1 manufactured through the same, and the building BD that blocks and prevents noise using the same Although described, those of ordinary skill in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Accordingly, the embodiments described above are illustrative in all respects and not restrictive.

1: noise-proof building materials
100: first noise preventing member 200: second noise preventing member
210: heating line hole 300: third noise prevention member
400: auxiliary coated paper 410: first auxiliary coated paper
411: first auxiliary protrusion 420: second auxiliary coated paper
421: second auxiliary projection 500: exercise mat
510: coupling protrusion 520: coupling groove
600: air layer forming member 610: hollow hole
BD: Building HL: Heating line
FM : Flooring F : Flooring
W: side wall C: ceiling
R: Roof SB: Soundproof booth

Claims (12)

A combination of a first noise prevention member formed in the shape of a facet having an area, a second noise prevention member formed on an upper surface of the first noise prevention member, and a third noise prevention member formed on an upper surface of the second noise prevention member As a noise preventing building material formed of, the first to third noise preventing members are formed of PET fibers,
The first noise preventing member and the third noise preventing member,
Formed by needle punching and thermocompression processes to increase the strength by improving the density of PET fibers,
The second noise prevention member,
By thermocompression bonding between the first noise preventing member and the third noise preventing member, the first to third noise preventing members are integrally formed,
The noise-proof building material,
Prevents slipping between the construction material in contact with the upper surface of the noise prevention building material and the construction material in contact with the lower surface, and further includes an auxiliary coated paper having sound absorption performance,
The auxiliary coating paper,
A first auxiliary coated paper provided on the lower surface of the first noise preventing member and a second auxiliary coated paper provided on the upper surface of the third noise preventing member,
The first auxiliary coated paper and the second auxiliary coated paper,
It is formed of PET material, and noise prevention building material, characterized in that a checkerboard arrangement is formed on the surface exposed to the outside
The method of claim 1,
The second noise prevention member,
The noise prevention building material is penetrated by a heating line provided for indoor heating in the interior of the building flooring material to be buried, or a heating line hole into which the heating line is inserted is formed along the longitudinal direction of the heating line inside the noise prevention building material Noise-proof building material, characterized in that
The method of claim 1,
The noise-proof building material,
The surface area of the first noise prevention building material is formed to be wider than the surface area of the third noise prevention building material, and the front, side, and rear of the noise prevention building material are formed to form an iron shape,
Noise prevention building material, characterized in that by being fitted to each other at the radius forming the corners of the floor, side walls, and ceilings of the building to be constructed, the noise prevention building material forms the form of a soundproof booth inside the building
The method of claim 1,
The noise-proof building material,
It is provided between the roof and the ceiling panel of the building where the noise prevention building material is being constructed, and the surface of the noise prevention building material is water-repellent coated and installed on the inner surface of the roof or the upper surface of the ceiling panel to absorb and block vibration and noise generated during rain. Noise prevention building material, characterized in that
delete The method of claim 1,
The noise-proof building material,
Further comprising an exercise mat mounted on the upper surface of the third noise prevention member,
The exercise mat is
By being formed to fit each other between the different objects of the exercise mat, it is formed to have a predetermined area on the upper surface of the noise prevention building material, characterized in that the exercise mat is formed of a PVC material.
A combination of a first noise prevention member formed in the shape of a facet having an area, a second noise prevention member formed on an upper surface of the first noise prevention member, and a third noise prevention member formed on an upper surface of the second noise prevention member As a noise preventing building material formed of, the first to third noise preventing members are formed of PET fibers,
The first noise preventing member and the third noise preventing member,
Formed by needle punching and thermocompression processes to increase the strength by improving the density of PET fibers,
The second noise prevention member,
By thermocompression bonding between the first noise preventing member and the third noise preventing member, the first to third noise preventing members are integrally formed,
The noise-proof building material,
It further comprises an air layer forming member provided inside the second noise prevention member to improve noise and heat insulation performance by forming an air layer,
The air layer forming member,
It is formed of a material having elasticity and vibration resistance, and the overall shape is formed in a spherical ball type, and a porous hollow hole is provided on the surface of the ball type air layer forming member.
A preparation step of needle punching and thermocompression processes to increase strength by improving the density of PET fibers in the form of non-woven fabric to form a first noise preventing member and a third noise preventing member;
A disposing step of inserting a second noise preventing member for sound absorption and thermal insulation performance between the first noise preventing member and the third noise preventing member formed through the preparation step;
A method for manufacturing a noise prevention building material comprising a molding step of thermally bonding the first to third noise prevention members disposed through the disposing step to form a single noise prevention building material,
The noise prevention building material manufacturing method,
After the forming step, an attaching step of attaching an auxiliary coated paper for blocking the pushing and noise on the lower surface of the first noise preventing member and the upper surface of the third noise preventing member, and
The method for manufacturing a noise prevention building material, characterized in that it further comprises a mat arrangement step of arranging an exercise mat on the upper surface of the third noise prevention member to which the auxiliary coated paper is attached.
9. The method of claim 8,
The noise prevention building material manufacturing method,
After the forming step, the noise prevention building material manufacturing method further comprising the step of forming a heating line insertion hole into which a heating line provided inside the flooring material of a building for indoor heating is inserted into the inside of the second noise prevention member.
delete A preparation step of needle punching and thermocompression processes to increase strength by improving the density of PET fibers in the form of non-woven fabric to form a first noise preventing member and a third noise preventing member;
A disposing step of inserting a second noise preventing member for sound absorption and thermal insulation performance between the first noise preventing member and the third noise preventing member formed through the preparation step;
A method for manufacturing a noise prevention building material comprising a molding step of thermally bonding the first to third noise prevention members disposed through the disposing step to form a single noise prevention building material,
The noise prevention building material manufacturing method,
After the arranging step, the second noise preventing member is formed of heat-resistant silicone inside the noise preventing building material manufacturing, characterized in that it further comprises the air layer forming step of inserting a spherical air layer forming member forming a porous hollow hole. method
A building that blocks and prevents inter-floor noise or external noise by using the noise prevention building material of any one of claims 1 to 4, 6, and 7

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