KR20050121926A - A structural block for preventing noises and going adiabetic, and a method thereof - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs.

The present invention is to enable the insulation and noise removal between the layers of the multi-storey building, as well as the insulation and economical to eliminate the noise by sound insulation and sound absorption.

I. The technical problem to be solved by the invention.

Currently, most of the methods to solve the noise between floors in multi-story buildings are to use sound insulation or sound absorption or to make sound insulation and sound absorption at the same time. However, most of them are not economical. In the floor shock sound standard setting, the insulation between floors is applied as a standard of building law, and thus the construction of a separate insulation is required.

       All. Summary of the Solution of the Invention.

Therefore, the present invention is to make it possible to completely eliminate the insulation between the layers as well as noise removal by changing the cell structure in the styropol having a plurality of cell structure while expanding by the moisture and gas during molding. .

la. Important uses of the invention

Insulation and noise reduction between layers of multi-storey building.

Description

       A structural block for preventing noises and going adiabetic, and a method

       The present invention relates to a structural agent that enables insulation and sound insulation or sound absorption used between floors of buildings, and in particular, to a method of manufacturing styropol such as insulation and sound insulation as well as sound absorption using styropol having excellent insulation performance. will be.

       Currently, noise is removed by sound insulation and sound absorption, but sound insulation is the blocking of sound transmission by objects. Therefore, the greater the mass per unit area or the higher the frequency of sound, the greater the degree of sound blocking. It is used to drop the air, and the air in the hole is mainly made of porous so that the sound waves are vibrated by sound waves, and the resulting friction converts the sound energy into thermal energy so that it is mainly equipped with an air layer.

       Therefore, for sound insulation, the sound wall is constructed by using a material with a large mass to prevent sound from going out. However, these things are merely sound insulation, and thus sound insulation is impossible in the case of noise generated by the impact itself. And in particular, these have the disadvantage of not being insulated and not economical.

       Therefore, the sound absorbing is simultaneously made by using an elastic body having an air layer at the same time as the sound insulation, but this air layer has a disadvantage in that the sound of the vibration may cause a louder noise due to the resonance phenomenon. This flaw also means that additional insulation is required in the end.

       Therefore, in recent years, it has been developed that the sound insulation and sound absorption for noise reduction by overlapping the materials capable of cushioning and sound absorption, but due to the high characteristics of the material, practical use is impossible due to the economical efficiency, and all of these are impossible to insulate. Therefore, there is a disadvantage that a separate insulation means is required.

       Therefore, in order to solve the problem, the present invention foams granular styropol having a plurality of cells having excellent thermal insulation performance at high magnification to maximize the size of the cell, and then gradually compresses the steam when it passes slowly. The membrane of the cell is thinned by high magnification foam to be destroyed to prevent resonance and to be able to compress more, thereby increasing the sound absorption rate as well as increasing the strength and density. It is.

       In addition, the plate-shaped styropol is formed into a top plate and a bottom plate to form concave bones which are connected to each other on one side corresponding to each other, so that two pieces of bones correspond to each other, thereby forming a single aeration passage. Sound absorption, as well as excellent sound insulation and insulation.

       Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

       First of all, styropol in the present invention is petrochemical product, which is called EPS (Expandable Poly-Styrene Foamable Polystyrene) resin.

       Originally, Styrofoam-Styrofoam, Styropor-Styrofole, etc. are used in the present invention as Styrofoam in the present invention because they are generally used as a registered trademark of US and German EPS or those skilled in the art.

       First, Styropol obtains PS through polymerization reaction of SM (Styrene-Monomer) decomposed in naphtha of petrochemical, and is injected into the granular state through various processes such as blowing agent (pentane gas, etc.) which is capable of foaming. Beed-Resin, which is selected by size and processed to expand by constant pressure by steam heat (molding temperature = 108 ℃ ~ 116 ℃).

       As such, styropol is easily foamed (expanded) by pentane gas when steam is applied, and when foamed, pentane gas is blown away, and this is molded into a block and cut to a certain thickness with a hot wire to be used as a sheet. In addition, it is used to process the various forms of the mold by direct vaporization by passing steam heat to the mold.

       In addition, since styropol is usually low-density, it is expressed in magnification or specific gravity. For example, if the product is 50 times foamed, the specific gravity is 0.020 cm 3 / g. If the styropol volume is 100, 98 is air and divalent raw material. When the particles are viewed under a microscope, a plurality of minute cells, such as a honeycomb structure, are formed inside the particles by the membrane, and pores are formed between the membrane and the membrane.

       Therefore, in the present invention, the cell is destroyed in order to prevent resonance of noise due to one independent cell structure in which such pores are formed.

50 times the first expansion coefficient in order it to pieces of 110-fold higher magnification, and the temperature of the steam also is to a pressure in the range of approximately 110 ℃ ± 6 ℃ steam pressure of goam of 3kg / cm ₂ or so, steam under these conditions When the foam is injected into the molding machine and the foaming is performed, the actuator enters the inside of the fixing body of the molding machine and changes the volume inside the molding machine so that the film constituting the cell of particles to be foamed with high magnification is destroyed. .

       The operation of the actuator is to move forward slowly by using hydraulic pressure, pneumatic or mechanical method, and this advancement is compressed so that the molding is completed immediately after the molding by steam is completed, so that the drying is not necessary. will be.

       This phenomenon is that when compression is performed, steam entering the inside of the cell at the time of molding completes steam, that is, water is forcibly released and bursts at the cell membrane. At the same time, moisture is immediately compressed. As it is removed, drying is completed, and molding is completed as it is while the film of the cell is broken.

       In addition, to facilitate the entry of the steam is to easily permeate the steam to the inside of the particles by the vacuum in order to induce the burst of the membrane, this vacuum affects only the membrane of the cell while preventing the deformation of the shape as much as possible It's going crazy.

       Therefore, as the steam is transmitted from side to side inside the molding machine, the molding is performed. When the volume of the molding machine is changed in that state, the compressed styropol is applied to the molded styropol, and the moisture is removed, causing the membrane to be destroyed and expanded at high magnification. As the film of the cell is maximally thin, the compression is applied and the film is easily broken. In that state, the styropol or the like is completed in the desired form.

       Therefore, no separate drying process is required.

       The destruction of the membrane of the cell is to prevent the resonance phenomenon as the vibration of the noise moves the cells and the cells in the particles as the vibration energy of the sound is dissipated as thermal energy.

       Therefore, the sound absorption rate is increased, as well as the tissues of the cells being destroyed can be closely adhered to, thereby increasing the density, and the sound insulation is also excellent.

       In the present invention, when molding the styropol, etc., the molding machine used when molding under a constant pressure is divided into a fixed body and a working body so that the working body enters into the inside of the fixed body, but there is no pressure change due to steam, The tissue of the cell foamed by the steam is destroyed by the forced discharge of steam, which is turned by compression.

       In general, the surface of the particles is formed with a substantially fine hole, the vapor is free to enter, the surface of these particles is practically indestructible, the film of the cell constituted inside the particles is destroyed.

       When the compressed compressed plate member is molded by the fixed body and the actuator, when the compressed plate member is used as a single plate or overlapped in a plurality of layers, the degree of breakage of the cell is changed according to the degree of compression, thereby having various compression characteristics. By overlapping the different compression plates, the sound insulation is of course excellent sound absorption.

       At this time, by overlapping the compression plate member to form a coupling protrusion and a coupling recess, respectively, it is possible to simply overlap by engagement.

       In this case, the compressed plate member 10 may be embodied as the upper plate 10a and the lower plate 10b, and then the valleys recessed to a certain depth as shown in FIGS. 11) and the bone 11 is made to be in communication with each other to induce the noise of vibration by natural flow to disappear.

       At this time, the shape of the concave bone can be implemented in various forms and can be changed in the range that can be molded into a mold by steam as a raw material.

       In addition, the bone 11 is to be formed in a zigzag or be zigzag bent or angular form, such a bone can be to cross each other.

       The bone 11 formed as described above is formed so that one air passage 12 to be sealed is connected by overlapping the compression plate 10 corresponding to each other.

       At this time, the aeration can be changed in various forms by the pressure applied during molding (including during molding or after molding).

       At this time, to form a checkerboard irregularities 13 to increase the binding force of the lightweight foam concrete on the upper surface (10a) of the upper plate (10a) of the compressed plate material 10, that is to cover the uneven portion ( 13) can be in the form of a variety of patterns and can be implemented in various ways in the form of recesses and protrusions.

       In this case, an adhesive or a separate auxiliary means may be used to bind the overlapping plate 10, but in the present invention, the coupling protrusions may be formed on portions corresponding to each other of the plate 10 corresponding to each other. (14) and the lower plate (10b) corresponding to this to form a coupling recess (15) is to be able to simply bind by engaging engagement of the engaging projection and the coupling recess.

       The coupling protrusions and the coupling recesses can be used in a variety of means so that the coupling does not occur easily after coupling.

       In addition, the upper plate 10a and the lower plate 10b overlap the compressed plate member 10 so that the upper plate 10a and the lower plate 10b have different densities or the structure of each cell 100 is different from each other. And the effect of sound absorption can be excellent.

       In addition, when the coupling protrusion 14 and the coupling recess 15 are engaged with each other, the sound insulation sheet 16 having a high density is formed between the coupling protrusions 14 and 15 to form a middle layer as shown in FIG. It can be done.

       Such a structural agent is usually constructed on the upper side of the concrete sleeve in the same manner as the floor construction, and since the lightweight foam concrete is constructed on the upper side of the structural agent, lightweight foamed concrete is poured as shown in FIG. In order to prevent leakage into the joint part 20 of the plate, the outward jaw 17 is formed on one side of the upper plate of the compressed plate and the inward jaw 18 is formed on the other side corresponding thereto. By overlapping with each other, when the lightweight foam concrete is poured, it prevents permeation and at the same time prevents the escape of the impact sound caused by the gap of the joint.

       In order to prevent the escape of the impact sound can be superimposed in a variety of forms.

       Therefore, the upper plate and the lower plate are plated to the upper part of the bottom layer where the concrete slab is formed at 180 mm or more. Light-weight foam concrete, which is poured about 40mm in the upper part, can be directly poured by the inward jaw and the outward jaw without any additional process, and after the heating or cold / hot water coil pipe is formed on the upper side, it is treated with finishing mortar and the bottom The construction is completed by allowing the construction as a finishing material, and such construction is to comply with the construction standards according to the building method.

       When the impact is generated on the bottom surface in the completed construction state as described above, the shock is vibrated and moved by the destroyed tissue of the cell to be firstly extinguished, and then moved along the aeration of the compressed plate, and then the air layer of the aeration. The sound absorbed by the heat energy by friction while moving in the complete sound absorption is achieved, and in particular, the vibration sound is blocked by the elastic force of the styropol cell, so that the noise between the layers is not transmitted and the transferred is moved by the destroyed cell and aeration passage. As the noise is removed.

       In addition, the styropol is excellent in thermal insulation performance due to its own cell structure, which satisfies thermal insulation at the same time, so that sound insulation and sound absorption can be used at the same time, thereby enabling construction at a low price.

       Although the present invention has been described as a raw material for EPS, the same effect will occur even when using EPP or fried foamed synthetic resin.

 Therefore, the cells of the styropol itself are destroyed firstly and then secondly removed by the aeration, so that complete sound absorption is possible, and the sound generated by the connected aeration is extinguished from the aeration. As a result, the noise is completely eliminated, and the insulation performance of Styropol is used as it is, so that it is most economically suitable for setting the floor impact sound standard of the apartment house.

       1 is a block diagram showing a manufacturing process of the present invention.

       2 is a cross-sectional view of a cell structure of particles in a pre-molded state.

       3 is a cross-sectional view of a cell structure of particles after molding.

       Figure 4 is a perspective view of the upper plate and the lower plate state

       5 is an exploded perspective view showing the superposition of the upper plate and the lower plate.

       6 and 7 are cross-sectional views of the superimposed state

       Figure 8 is a perspective view showing the configuration of another compressed plate material.

       9 is a schematic view of one embodiment of a molding machine for compression.

Explanation of symbols on the main parts of the drawing

       10: compressed plate 10a: top plate

       10b: Bottom 11: Goal

       12: aeration 13: uneven portion

       14: coupling protrusion 15: coupling recess

       16: Sound insulation sheet 17: Outward jaw

       18: inward jaw 100: cell

       20: molding machine 21: fixed body

       22: actuator 23: piston

Claims (11)

       In molding styropol with a foaming resin molding machine, the working body slowly enters the stationary body of the molding machine in order to break through the cell structure while maximizing the foaming ratio of the foaming resin and maximizing the size of the cell while gradually passing the steam. Method of manufacturing a structural agent for the insulation of the building and the removal of noise between floors, characterized in that the cell is destroyed by changing the optimum of the molding machine.        The compressed plate material 10 is formed of the top plate 10a and the bottom plate 10b to form a styropol in which the cell structure caused by the bubble is destroyed, and a valley 11 recessed to a predetermined depth on the corresponding surface of the top plate and the bottom plate. Forming, the bone 11 is a structural agent for the insulation of the building, characterized in that the load made to penetrate the plate (10) and the removal of the noise between the floors.        The structure of claim 2, wherein the valleys are zigzag.        The structure of claim 2 or 3, wherein the valleys are alternated with each other.        The structure of claim 4, wherein the troughs (11) are formed with passages (12) penetrating through the overlapping plate (10) corresponding to each other.        The structural agent according to claim 2, wherein the concave-convex portion (13) is formed on the upper surface of the plate.        The method of claim 2, wherein the binding of the plate 10 overlapping the upper plate and the lower plate is to form a coupling protrusion 14 on the corresponding portion, that is, the upper plate to form a coupling recess 15 in the lower plate corresponding to each other. Structural agent for insulation of building and removal of noise between floors.        The insulation and interlayer noise of a building according to claim 2, wherein the upper plate 10a and the lower plate 10b have different densities of the plate 10 overlapping the upper plate 10a and the lower plate 10b. Rescue for the removal of.        The structural material for insulating a building and removing interlayer noise according to claim 2, wherein the upper and lower plates have a structure of cells different from each other.        8. The insulation and interlayer noise of the building according to claim 7, characterized in that the sound insulating sheet 16 of high density is formed between the engaging protrusion 14 and the engaging recess 15 in engagement with each other. Salvage for removal.        The structural agent according to claim 2, wherein the joints are formed on the upper plate and the lower plate so that the inward jaws and the outward jaws are formed so as to overlap each other.