KR20010067920A - Method for finishing the surface of a sound absorbing and insulating material, and its apparatus - Google Patents

Abstract

PURPOSE: A method and a device for treating surface of a sound absorbing insulating material are provided to reduce sound absorption to minimum by forming an integument layer on the whole surface and sustaining the surface vesicles and to improve productivity by changing the intermittent surface treating operation into the continuous operation. CONSTITUTION: In the method and the device for treating surface of a sound absorbing insulating material, electric heat rollers(11A, 11B), withdrawal guide rollers(12A, 12B) and metal net belts(13A, 13B) are included. The electric heat rollers(11A, 11B) heat the metal net belts(13A, 13B). The withdrawal guide rollers(12A, 12B) are installed on the outlet to be separated from the electric heat rollers(11A, 11B). The metal net belts(13A, 13B) are installed on the circumference of the electric heat rollers(11A, 11B) and the withdrawal guide rollers(12A, 12B) and the caterpillar type process is carried out by the electric heat rollers(11A, 11B) and the withdrawal guide rollers(12A, 12B). The metal net belts(13A, 13B) are composed of a metal net, which is made by weaving the metal wire.

Description

Method for finishing the surface of a sound absorbing and insulating material, and its apparatus

According to the present invention, a plurality of thermoplastic fiber sheets made of thermoplastic fibers are laminated, and then heated and pressed to form an outer layer in which a regular pattern is formed on the surface of the sound-absorbing heat insulating material made of a plate mat. The present invention relates to a method and apparatus for treating a surface of a heat insulator, and more particularly, a surface having a very soft surface and a large number of baffles formed throughout the surface is not only aesthetically undesirable, but also damaged and unsuitable for construction. On the surface of the sound-absorbing heat insulating material made of the same thermoplastic resin, a metal mesh belt made of a metal mesh having a plurality of through-holes moved in an endless track by two rollers, a heat transfer roller and a drawing guide roller, and heated by the heat transfer roller. Sound-absorbing insulation of the outer skin layer having appropriate strength and pattern by contact Surface treatment of a sound-absorbing insulating material to be formed on the surface of a method and apparatus.

Insulation material, which is essential for energy saving of buildings, should also have characteristics as sound absorbing material to secure a pleasant indoor environment by blocking noise flowing from outside of building and various noises generated in building.

The heat insulating material is preferably a low thermal conductivity of the material itself, but most of the heat insulating material itself is not so small, usually in order to reduce the thermal conductivity of the heat insulating material by making it porous to form the air inside the heat insulating material Insulation materials have been manufactured so that they can be used together.

However, as the sound absorbing material, soft and porous materials such as cloth and acoustic tiles are suitable, and cork, felt, cork carbide, asbestos, styrofoam, and the like, which are used as a material of heat insulating material, are not very preferable as sound absorbing materials.

All materials, including insulation, absorb sound, but the material used to adjust the noise or sound time is more effective, such as cloth or acoustic tiles, soft and porous. As a sound-absorbing insulating material, glass wool is representative of environmental pollution when disposed In addition, the fine particles generated from glass wool are used as carcinogens and are therefore not used for any special purpose.

The glass wool is replaced with a spinning fiber of a thermoplastic resin such as PTI, and the sound absorbing material manufactured by using the glass wool has an advantage of being environmentally recyclable and generating little toxic gas in a fire.

The disadvantage of the sound-absorbing heat insulating material made of a plate-like mat by laminating a large number of spinning fiber sheets of thermoplastic resin having a shape similar to that of a thin nonwoven fabric made of a thermoplastic fiber made of thermoplastic resin has a large number of surfaces throughout its surface. It is flexible enough to have a sponge-like cushion because a baffle is formed and the appearance is undesirable and not manufactured at high pressure.

Therefore, it is not suitable to use the sound-absorbing heat insulating material made of the thermoplastic fiber as described above due to its appearance or flexible physical properties, and attaching a separate exterior material to the surface for improving the appearance and physical properties will result in a price increase. There is.

Therefore, in order to use the sound absorbing heat insulating material as it is without using the surface covering material, an apparatus for forming an outer skin layer such as a stratum corneum layer by applying heat to the surface to melt and cool the radial fiber of the thermoplastic resin on the surface has been developed.

The apparatus heats the metal plate, and then presses the surface of the sound-absorbing heat insulating material made of the thermoplastic fiber of the thermoplastic resin with the heated plate, melts and cools the surface of the thermoplastic resin of the thermoplastic resin on the surface, and melts and cools the surface layer to a certain degree of strength. Apparatus for forming the outer skin layer having a pattern with, but has the following disadvantages.

Since the entire surface of the metal plate is in close contact with the surface of the sound absorbing insulation in a heated state, the entire surface of the sound absorbing insulation becomes an outer skin layer, so that pores on the surface passing through the inside of the sound absorbing insulation disappear and the performance of the sound absorbing material is deteriorated. In addition, as the outer skin layer is formed, the thickness of the sound absorbing insulation material is reduced more than necessary, and thus, there is a disadvantage in that the heat insulating property is also reduced with sound absorption.

In addition, in the pressurization method using the metal plate, productivity is reduced by an intermittent process, and when the metal plate in the uncooled state is separated from the surface of the sound absorbing heat insulating material, the thermoplastic fiber of the thermoplastic resin forming the surface of the sound absorbing heat insulating material is formed on the surface of the metal plate. The surface of the sound-absorbing insulation is damaged.

Therefore, since the metal plate must be separated from the surface of the sound absorbing insulation material after the cooling of the metal plate surface is completed, the productivity is further reduced.

In addition, since the metal plates of various sizes should be provided according to the length of the sound absorbing material, there is a problem in that an additional cost required for forming the outer skin layer of the sound absorbing material is increased.

The present invention has been made in order to solve the problems of the surface treatment apparatus of the sound absorbing insulation made of the thermoplastic fibers of the conventional thermoplastic resin as described above, forming an outer skin layer on the entire surface of the sound absorbing insulation, but not microscopically It preserves a substantial portion of the pores on the surface of the sound absorbing heat insulating material, thereby minimizing the decrease in air-absorbability, and prevents the decrease in the thickness of the sound absorbing heat insulating material when forming the outer skin layer, thereby reducing the insulation. SUMMARY OF THE INVENTION An object of the present invention is to provide a method and apparatus for surface treatment of a sound absorbing insulation material which can be changed in a continuous operation to significantly improve productivity.

1 is a schematic configuration diagram of an apparatus for treating a surface of a sound insulating material according to an embodiment of the present invention.

Figure 2 shows the sound-absorbing insulating material to form an outer skin layer with an embodiment of the present invention,

(A) is a partial section,

(B) is a partial perspective view.

3 is a partial plan view of a metal mesh constituting an embodiment of the present invention.

((Description of main part of drawing))

11.heat roller 12.guide roller

13. Metal mesh belt 31. Metal mesh

I. Sound-absorbing insulation L. Outer layer

The above object of the present invention is a metal mesh belt having a porosity of 50% or more of the surface, a heat transfer roller for transferring heat to the metal mesh belt at a melting point of a thermoplastic fiber constituting a thermoplastic resin, and a metal mesh with a heat transfer roller. It is achieved by a drawing guide roller for driving the belt.

The surface treatment method of the sound-absorbing insulating material of the present invention is a plate-shaped sound-absorbing insulating material made of a thermoplastic fiber of a thermoplastic resin between a pair of metal mesh belts which are mounted and driven on the outer circumferential surface of the heat transfer roller and the extraction guide roller in a state spaced apart from each other. While passing through the heat transfer roller is heated above the melting point of the thermoplastic fiber of the thermoplastic resin to melt the radial fiber of the thermoplastic resin forming the surface of the sound-absorbing heat insulating material in close contact with the metal mesh belt, and then to the draw guide roller side in the process of moving the metal mesh The surface melt portion of the belt and the sound-absorbing insulating material is cooled to form a cured outer skin layer.

At this time, the heating temperature of the heat transfer roller is preferably 200 to 500 ℃ for the temperature of the cured layer formed on the melting temperature of the thermoplastic fiber of the thermoplastic resin and the surface of the sound absorbing insulation. When heating temperature is less than 200 degreeC, melting time will be used for a long time, productivity will fall, and when it exceeds 500 degreeC, excessive melting will arise and control of the said hardened layer will become difficult.

Apparatus for performing the surface treatment method of the sound-absorbing insulating material of the present invention, has a technical feature on the metal mesh belt is mounted and driven on the heat transfer roller and the guide roller, the metal mesh belt is made of metal wire, such as stainless steel mesh It is made of woven metal mesh.

Since the through-hole shape of the metal mesh belt becomes the surface pattern of the outer skin layer, which is a hardened layer formed on the surface of the sound absorbing heat insulating material, the shape thereof is appropriately selected.

In the apparatus of the present invention, the heat transfer rollers and the lead guide rollers arranged before and after are respectively installed above and below the traveling line of the sound absorbing heat insulating material, and the metal mesh belt is disposed on the outer circumferential surfaces of the two rollers of the heat transfer roller and the lead guide rollers spaced apart from each other. The sound-absorbing insulating material is charged between the two metal mesh belts facing up and down by the heat-transfer roller and the drawing guide roller, and the upper and lower surfaces of the sound-absorbing insulating material are brought into close contact with each other. At this time, the surface of the sound absorbing heat insulating material in close contact with the surface of the metal mesh belt heated by the heat transfer roller is melted and cooled to form an outer skin layer of the sound absorbing heat insulating material.

The metal mesh belt constituting the apparatus of the present invention is heated by the inlet-side heat transfer roller of the apparatus of the present invention to form an outer skin layer on the surface of the sound-absorbing insulation material, but withdrawal guide on the outlet side with the metal mesh belt in contact with the sound-absorbing insulation material. Since the cooling is sufficiently performed while moving to the roller side, the surface of the sound absorbing insulating material is not damaged when the metal mesh belt and the sound absorbing insulating material are separated from the draw guide roller side.

When the metal mesh belt and the sound absorbing insulation are separated, the metal mesh belt is easily cooled to prevent surface damage of the outer skin layer of the sound absorbing insulation, which occurs when the thermoplastic fibers forming the surface of the sound absorbing insulation adhere to the surface of the metal mesh belt. This is because a large number of through-holes are formed in the metal mesh belt constituting the present invention and the thickness thereof is thin, whereby a cooling effect by air can be sufficiently obtained.

In addition, the porosity of the metal mesh belt means the ratio of the penetration hole area to the surface area of the metal mesh belt, and the reason for limiting the porosity to 50% or more is that when the porosity is less than 50%, the surface of the sound absorbing insulation material The number of pores remaining therein and connected to the inside decreases the sound absorption performance, the cooling time of the metal belt increases and the productivity decreases, or the length of the metal mesh belt is increased to secure sufficient cooling time. This is because the cost increases due to the larger size.

The above objects and detailed technical features and operational effects of the present invention will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

FIG. 1 is a schematic configuration diagram of a surface treatment apparatus of an embodiment of the sound absorbing insulating material of the present invention, and a cross-sectional view and a perspective view of the sound absorbing insulating material of which the outer skin layer is formed by the device of FIGS.

As shown in the drawing, the apparatus of the present invention is spaced apart from the heat transfer rollers 11A and 11B provided up and down on the inlet side and the heat transfer rollers 11A and 11B on the outlet side with respect to the traveling direction of the sound absorbing insulation. The upper and lower draw guide rollers 12A and 12B provided and paired with the heat transfer rollers 11A and 11B, and hang on the outer circumferential surface of each pair of heat transfer rollers and draw guide rollers 11A-12A and 11B-12B. It consists of metal mesh belts 13A and 13B which move while being in contact with the outer circumferential surfaces of the lower heat transfer roller and the extraction guide rollers 11A-12A and 11B-12B.

Therefore, when the sound-absorbing heat insulating material (I) is drawn between the upper and lower heat transfer rollers (12) at the inlet side of the apparatus of the present invention, the metal mesh belt (13) heated by the heat-transfer rollers is made of thermoplastic resin on the surface of the sound absorbing heat insulating material (I). The surface of the metal mesh belt is cooled while melting the spinning fibers, and cooling the metal mesh belt and the spinning fibers of the molten thermoplastic resin while advancing toward the withdrawal guide roller 12 while the metal mesh belt and the sound absorbing insulation are in close contact with each other. After the outer skin layer L is formed on the surface of the sound absorbing heat insulating material, the metal mesh belt traveling along the outer circumferential surface of the lead guide roller 12 is separated from the outer skin layer of the sound absorbing heat insulating material.

In this case, the outer skin layer having appropriate strength may be selectively formed only on the upper and lower surfaces or one surface of the sound absorbing insulation material according to the use of the sound absorbing heat insulating material, and the thickness of the outer skin layer is controlled by controlling the heating temperature of the heat transfer roller and the moving speed of the metal mesh belt. Can be controlled.

3 is a partial plan view of the metal mesh belt constituting the apparatus of the present invention.

As shown in the drawing, the metal mesh belt 13 is formed of a metal mesh 31 formed with a through hole H by naturally weaving a metal wire to form an outer layer embossed with various patterns on the surface of the sound insulating material. have.

As described above, the surface treatment method of the sound-absorbing insulation material of the present invention using a metal mesh belt moving like a caterpillar, by forming a skin layer on the surface of the sound-absorbing insulation material in a continuous operation, the productivity is significantly improved It is possible to reduce the production cost, and it is possible to form the outer layer with a single metal mesh belt regardless of the length of the sound-absorbing heat insulating material, and there is an advantage that the additional cost can be reduced compared to the conventional method of having various sizes of metal plates. .

In addition, since the pores connected to the inside of the outer layer of the sound absorbing insulation material remain by the plurality of through-holes formed in the metal mesh belt, there is an advantage that can minimize the sound-absorbing decrease due to the outer layer formation.

Claims (4)

The plate-shaped sound-absorbing insulating material made of thermoplastic fiber is passed between a pair of mutually opposed metal mesh belts mounted and driven on a heat-transfer roller and a drawing guide roller spaced apart from each other, and the heat-absorbing insulating material Melting occurs on the surface portion, and the molten surface portion is hardened during the transfer to the draw guide roller side to cool the surface melt portion of the metal mesh belt and the sound absorbing insulation material, thereby forming a hardened outer skin layer on the surface of the sound absorbing insulation material. Surface treatment method of the sound-absorbing insulating material characterized in that. The method of claim 1, wherein the heat transfer roller is heated to between 200 and 500 ° C. Vertically mounted on the inlet side and heated up and down on the exit side so as to be spaced apart from the heat transfer rollers 11A and 11B for heating the metal mesh belt 13 that is in close contact with a part of the outer circumferential surface. Installed on the outer circumferential surfaces of the pair of draw guide rollers 12A and 12B and paired with the heat transfer rollers 11A and 11B, and the pair of heat transfer rollers and the draw guide rollers 11A-12A and 11B-12B. Of the sound-absorbing heat insulating material, characterized in that the heat transfer roller and the lead guide roller (11A-12A) (11B-12B) is an endless track progression and composed of a metal mesh belt (13A) (13B) having a porosity of 50% or more. Surface treatment unit. 4. The apparatus of claim 3, wherein the metal mesh belts (13A) (13B) are made of a metal mesh woven of a metal wire.