KR102383131B1 - interlayer noise abatement system - Google Patents

Abstract

The present invention relates to an interlayer noise abatement system which aims to remove the new house syndrome by easily removing moisture on a floor at an early stage of residing in a building such as a house, an apartment building, or a small apartment building, and block noise and vibration transferred from an upper layer to a lower layer. The interlayer noise abatement system improves the structure of an interlayer noise relief panel and a sound absorption pipe configuring the interlayer noise abatement system, thereby more effectively blocking interlayer noise such as vibration and echo transferred to the lower layer, and reduces the thickness of concrete slab, thereby reducing the construction cost and improving workability. According to the present invention, in an interlayer structure of a building with a large number of interlayer noise relief panels (10) constructed on a floor slab and air bubble concrete (20), a hot water pipe (30), and finish materials constructed on the interlayer noise relief panels, a sound absorption pipe is built between the large number of interlayer noise relief panels constructed on the floor slab, and the sound absorption pipe (50) is placed in a grid shape or a cross shape between the large number of interlayer noise relief panels. The interlayer noise relief panels are formed in a cube shape, and have an upper side made of a flat panel shape and a lower side having a large number of bump units. The sound absorption pipe is formed in a square pipe shape with an opened lower side, and has a large number of sound absorption holes formed through both side parts at regular intervals in a longitudinal direction.

Description

Interlayer noise abatement system

The present invention relates to a technology for an "inter-floor noise prevention system" for blocking noise and vibration transmitted from the upper floors to the lower floors of a building, such as a house, apartment, or villa. By improving the structure of the noise cushioning panel and sound-absorbing tube, it is possible to more effectively block inter-floor noise such as vibration and echo transmitted to the lower floor, and to reduce the thickness of the concrete slab, thereby further reducing construction costs and improving workability. It is a technology related to "inter-floor noise prevention system".

In general, the floor of a building is constructed in various forms, and among them, for the floor of a residential building such as a house, apartment, or villa, a Styrofoam cushioning material or a rubber cushioning material is installed on a reinforced concrete slab, and foamed concrete is poured on it, and a heating pipe is installed thereon. After burial and finishing with cement mortar, the floor is made of synthetic resin or floorboards, tiles, etc.

The floor of such a building acts to attenuate the noise of the concrete with a styrofoam cushioning material or a rubber cushioning material on the concrete slab, but the noise attenuation effect is not very good. has a

In other words, the types of floor impact sound cushioning materials in Korea include EPS (expanded polystyrene), a raw material for Styrofoam insulation, EVA (Ethylene Vinyl Acetate), a rubber cushioning material, and PE (Poly Ethylene), a sponge cushioning material. there is. Styrofoam cushioning material or rubber material cushioning material has a function of attenuating the gas transmission noise generated by human voice and various sound devices, but has a function of attenuating and blocking the solid transmission noise caused by people walking or dropping objects from the upper floor. because it falls

Due to the problem that the floor structure of these apartment houses does not effectively absorb and block noise between floors, disputes between the residents living in the upper and lower floors are becoming more and more serious. being made compulsory

Accordingly, interlayer noise reduction materials using various materials are being developed. Among them, Styrofoam (EPS) installed between the concrete slab layer and the aerated concrete layer has excellent price/quality ratio and accounts for 80-90% of the total market demand. . Styrofoam (EPS) has an excellent thermal insulation function, but has insignificant sound insulation and sound absorption effects, and a polyethylene non-crosslinked resin layer or a polyethylene chemically crosslinked resin layer has poor sound insulation and structural stability.

Recently, as the noise problem between floors in an apartment building has been seriously raised, regulations on housing construction standards are being strengthened, and in these regulations, the floor impact sound between each floor is 58 decibels (dB) or less, and the weight impact sound is 50 decibels (dB) or less. It is stipulated that it should be below decibel (dB) or a standard floor structure determined and announced by the Minister of Construction and Transportation.

As a representative prior art for reducing noise between upper and lower floors in a conventional apartment house, Republic of Korea Registered Utility Model No. 20-0473491 (interfloor noise prevention device) has been proposed.

The prior art is a plate having an upper surface and a lower surface parallel to the upper surface and a plurality of engaging members having a coupling groove formed along the longitudinal direction of the plate and installed to cross the plate on the lower surface of the plate and the internal space is filled with air, , It is configured to include a plurality of tubes having a coupling part fitted and fixed in the coupling groove of the coupling member material and a buffer part exposed to the outside of the coupling member member to support the coupling member and the plate material away from the bottom surface.

This prior art can be easily installed on the floor of an already completed apartment building and has the effect that it can be freely manufactured according to the flat structure of the living room or room, but it does not effectively block noise such as vibration and echo transmitted from the upper floor to the lower floor of the building. There is a problem that I cannot.

Accordingly, the present applicant has previously applied for and obtained a patent for Registration Patent No. 10-2221119 (inter-floor noise prevention system) in order to effectively block noise and vibration transmitted from the upper floor to the lower floor of a building, such as a house, apartment, or villa.

Korean Registered Patent No. 10-001590. Republic of Korea Patent No. 10-1244461. Republic of Korea Patent No. 10-1267523. Republic of Korea Patent No. 10-1267576. Republic of Korea Registered Utility Model No. 20-0473491.

The present invention is a technology made to improve the problems of the interfloor noise prevention device presented in the prior art, in which a sound absorbing tube is built-in in the form of a grid between the interfloor noise cushioning material panels 10 constructed on the floor structure slab, and the edge wall of the living room or room By connecting the elbow and the grating exhaust lid to the sound-absorbing tube 50 in a close part to the sound-absorbing tube 50, the sound-absorbing tube 50 absorbs the noise and vibration transmitted to the lower floor and attenuates the process of flowing out into the living room or room of the upper floor. It aims to provide an "inter-floor noise prevention system".

In addition, the implemented example of the present invention is to improve the structure of the sound-absorbing material panel and the sound-absorbing pipe between the floors constituting the "inter-floor noise prevention system", thereby more effectively attenuating inter-floor noise such as vibration and resonance transmitted to the lower floor, and floor structure An object of the present invention is to provide an "inter-floor noise prevention system" that can reduce the thickness of the slab 100 while further reducing construction costs and improving workability.

In the present invention, in order to realize the desired object as described above, a plurality of inter-floor noise buffer panels 10 are placed on a floor structure slab and constructed, and foam concrete, hot water pipe and finishing materials are installed on the inter-floor noise buffer panel between floors of a building. in the structure

A sound-absorbing pipe is built-in between a plurality of interlayer noise-absorbing material panels constructed on the structure slab, and the sound-absorbing tube is arranged in a grid or cross shape between a plurality of inter-layer noise-absorbing material panels, and the interlayer noise-absorbing material panel is in a square shape. A plurality of hexagonal protrusions are formed at the lower portion while the upper portion is configured in a flat panel shape, and the sound-absorbing tube is configured in a square pipe shape with an open lower portion, and a plurality of It is characterized in that the sound-absorbing ball is formed through.

In addition, as an implementation example of the present invention, the interlayer noise cushioning material panel is characterized in that a plurality of protrusions are formed at the bottom to allow air to flow from side to side, and the protrusions are formed to protrude in a hexagonal shape that gradually decreases downward.

In addition, as an example of the present invention, the sound-absorbing tube 50 is configured in a rectangular pipe shape with an open lower portion, and is characterized in that there is no support piece formed on both sides of the open lower portion in the inward direction, respectively.

An example of the present invention is that the sound-absorbing tube 50 is built-in in the form of a lattice or cross between the inter-floor noise cushioning panel 10 constructed on the floor structure slab 100, so that the noise and vibration transmitted from the upper layer to the lower layer are reduced. Since the sound-absorbing tube 50 absorbs and attenuates it in the process of flowing out to the living room or room of the upper space, there is an effect of effectively extinguishing inter-floor noise such as vibration and ringing.

In addition, the implemented example of the present invention is to improve the structure of the interlayer noise cushioning panel 10 and the sound absorbing tube 50, more effectively blocking interlayer noise such as vibration and resonance transmitted to the lower floor, and reduce the thickness of the concrete slab This has the effect of further reducing the construction cost and improving the workability.

In addition, the implemented example of the present invention is that the interlayer noise cushioning panel 10 and the sound-absorbing tube 50 are made of a material that is harmless to the human body, and effectively block inter-floor noise such as vibration and sound, thereby providing a quiet and cozy indoor environment This has the effect of resolving disputes between the residents living on the upper and lower floors.

1 is a cross-sectional perspective view showing an installation state in the present invention.
Figure 2 is a sectional view showing the main part of the installation state in the present invention.
Figure 3 is a side cross-sectional view showing the installation state in the present invention.
Figure 4 is a sectional view showing the main part of the installation state of the sound-absorbing tube in the present invention.
Figure 5 is a bottom perspective view showing the interlayer noise panel in the present invention.
6 is a front view showing the interlayer noise panel in the present invention.
Figure 7 is a perspective view showing an embodiment of the sound-absorbing tube in the present invention.
Figure 8 is a front view showing an embodiment of the sound-absorbing tube in the present invention.
Figure 9 is a side view showing an embodiment of the sound-absorbing tube in the present invention.
10 is a cross-sectional view showing a main part in another installation state in the present invention.
11 is a perspective view showing another embodiment of the sound-absorbing tube in the present invention.
Figure 12 is a front view showing another embodiment of the sound-absorbing tube in the present invention.
13 is a side cross-sectional view showing another embodiment of the sound-absorbing tube in the present invention.

The main configuration according to the practiced example of the present invention is a silver foil mat 11 coated on one side with silver foil on the floor concrete slab 100, a nonwoven fabric, a heat reflective insulation material, a synthetic resin sheet, polyethylene (PE), EVA resin, etc. are used. In the case of a silver foil mat, when a hard PVC pipe is in direct contact with the concrete slab, the upper shock can be transmitted to the lower part through the PVC, and as a means to prevent the heat and vibration of the upper part from dissipating downward, it is used as a buffer base. A silver foil mat is laid to support the PVC pipe. A plurality of interlayer noise cushioning material panels 10 are laid on a silver foil mat and constructed, and the sound-absorbing tube 50 is installed in close contact with the cushioning material panel at regular intervals, and a strong adhesive tape 55 is attached over the tube, and one side is silver foil on it. Cover the coated silver foil mat 11, non-woven fabric, heat reflective insulation, synthetic resin sheet, PE poly bag (0.05~0.15), etc., and close between the silver foil mat 11 and the silver foil mat 11 with strong adhesive tape (55) And, in the interlayer structure of the building where the foam concrete 20 and the hot water pipe 30 are installed and the finishing material 40 is applied and plastered;

The sound-absorbing tube 50 is formed through a plurality of sound-absorbing holes 51 at regular intervals, and is disposed in a grid or cross tee form between a plurality of inter-floor noise cushioning panels 10, while vertical at the edge wall portion of the living room or room The elbow 53 is coupled to the upper side, and a grating exhaust lid 54 having an air hole formed on the upper side of the elbow 53 is coupled and installed.

On the other hand, as for the finishing material 40 on top of installing the hot water pipe 30 and applying plaster, synthetic resin, tile or reinforced flooring, wooden flooring, etc. are recently applied, and various materials are used depending on the resident of the building.

An example of the implementation of the present invention is the interlayer noise cushioning panel 10 and the sound absorbing pipe 50 constituting the "interlayer noise prevention system" in Registered Patent No. By improving the structure of the floor, it is possible to more effectively block inter-floor noise such as vibration and sound transmitted to the lower floors, and to reduce the thickness of the slab of the floor structure, thereby further reducing construction costs and improving workability.

Hereinafter, with reference to the accompanying drawings, the configuration of the interlayer noise cushioning material panel 10 and the sound-absorbing tube 50 according to an embodiment of the present invention will be described in detail.

In an implementation example of the present invention, the interlayer noise cushioning panel 10 is a silver foil mat 11 coated with silver foil on one side on the floor concrete slab 100 first, nonwoven fabric, heat reflective insulation, Put on a synthetic resin sheet, PE poly bag (0.05~0.15), etc. It is installed to block the warmth, noise and vibration transmitted from the upper floor to the lower floor by breaking the silver foil mat.

In the above, the size of the interlayer noise cushioning material panel 10 is not specified, but in consideration of manufacturing and constructability, it is preferable to have a square shape of 60 to 120 (±2) cm in width and length, and the upper part is flat. A plurality of protrusions 10a are formed in the lower portion while being configured in a panel shape.

Meanwhile, in the above, the interlayer noise cushioning material panel 10 has excellent thermal insulation and buffering power, and is manufactured by 1 or 2 types of Expandable Polystyrene (EPS) bead methods that are harmless to the human body, and the noise transmitted from the upper layer to the lower layer as a buffering action and vibration is blocked.

In addition, the interlayer noise cushioning material panel 10 has a thickness (A-1) of 25 to 40 (±2) mm, and the upper panel (A-2) and the lower protrusion (10a) are each 1/2 of the thickness. And, the protrusion (10a) is formed to protrude downward in a hexagonal shape gradually smaller, and the width is composed of 30 ~ 50 (±2) mm. The reason for the hexagonal shape is the principle that the amplitude of sound vibration increases due to resonance, but it is easily crushed by the phenomenon that the wavelength decreases due to the reflection of sound as it collides with the hexagonal angle, and naturally disappears without resonating.

Therefore, the interlayer noise cushioning material panel 10 has excellent thermal insulation and buffering power, and is manufactured by 1 or 2 types of Expandable Polystyrene (EPS) bead methods that are harmless to the human body, and a plurality of protrusions 10a are formed at the bottom. Therefore, noise and vibration transmitted from the upper floor to the lower floor of the building are blocked.

In addition, in the practiced example of the present invention, the sound-absorbing tube 50 is a function of absorbing noise and vibration transmitted from the upper floor to the lower floor of the building, and the sound-absorbing tube 50 is a floor slab as shown in Figures 1 to 4 in the drawings. It is installed in the form of a grid and a cross tee between a plurality of interlayer noise cushioning panels 10 constructed on the 100, and a plurality of sound-absorbing holes 51 are formed through both sides at regular intervals.

In the above, the sound-absorbing tube 50 is configured in a rectangular pipe shape with an open lower portion as shown in 7 to 9 in the drawings, and a plurality of sound-absorbing holes 51 are formed through both sides at regular intervals along the longitudinal direction, Support pieces 51a are formed on both sides of the open lower part in the inward direction, respectively.

In addition, the support pieces (51a) formed on both sides of the lower open in the above performs a function of supporting the sound absorbing tube 50, the width (B-5) is formed in 3 ~ 7 (±2) mm, in the above The sound-absorbing tube 50 is extrusion-molded to have an overall thickness of 1 to 2.5 mm, and thus has excellent manufacturability.

In addition, there is also a case without the support piece 51a as shown in Fig. 13 in the drawings.

In the above, the sound-absorbing tube 50 is also formed with 9 and 2 in the drawing, and the height (B-1) is 25-40 (±2) mm, the same as the thickness of the interlayer noise cushioning panel 10, and the width ( B-1') ) is composed of a square shape of 30~60(±2)mm.

In addition, the sound-absorbing ball 51 in the above is arranged in the longitudinal direction in the center of both sides of the sound-absorbing tube 50, and is composed of a long hole in which a square or round is formed on the upper and lower sides, the height (B-2) is 10 to 20 (±2)mm, the width (B-3) is 0.7 to 15 (±2)mm, and the interval (B-4) is preferably formed to be 0.7 to 15 (±2)mm.

The support piece (51a) formed on both sides of the lower open in the above performs a function of supporting the sound-absorbing tube 50, the width (B-5) is formed in 3 ~ 7 (±3)mm, in the sound-absorbing tube (50) is extrusion-molded with an overall thickness of 1 to 2.5 (±2) mm, so it is excellent in rewriting.

In addition, the implemented example of the present invention can configure the sound-absorbing tube 50 so that the lower part is opened by removing the support piece 51a from the sound-absorbing tube 50, as shown in Figs. 51) is formed through a rectangular shape, and the corners are each slightly rounded, and the size and spacing may be the same as described above.

In the above, the sound-absorbing pipe 50 is made of vinyl chloride resin (PVC) and has excellent water resistance, acid resistance, alkali resistance, electrical insulation, and non-toxic flame retardancy. In addition, ABS resin has excellent impact resistance, rigidity, and fluidity, and also has excellent properties such as dimensional stability, molding processability, and chemical resistance.

Therefore, the sound-absorbing tube 50 is excellent in flame retardancy and is made of synthetic resin (PVC) material or ABS resin that is harmless to the human body, and by forming a plurality of sound-absorbing holes 51 through the both sides at regular intervals, the building's Absorbs and attenuates noise and vibration transmitted from the upper layer to the lower layer, attaching a strong adhesive tape 55 on the sound absorbing tube 50, and then attaching a silver foil mat 11 coated with silver foil on one side thereon, non-woven fabric, heat reflection Insulation material, synthetic resin sheet, PE poly bag (0.05 ~ 0.15), etc. are laid, and a strong adhesive tape 55 is attached between the silver foil mat 11 and the silver foil mat 11, and then the aerated concrete 20 and the hot water pipe 30 ) The finishing mortar 31 and the finishing material 40 are sequentially constructed.

On the other hand, in the practiced example of the present invention, the sound absorbing tube 50 is placed in close contact with the sound absorbing tube 50 in the form of a lattice or cross tee between a plurality of interlayer noise cushioning panels 10, and the sound absorbing tube 50 and the interlayer adjacent to both sides After attaching the strong adhesive tape 55 to the noise cushioning panel 10, a silver foil mat 11 coated on one side with silver foil, non-woven fabric, heat reflective insulation, synthetic resin sheet, PE poly bag (0.05 to 0.15), etc. After attaching a strong adhesive tape 55 between the silver foil mat 11 and the silver foil mat 11, the aerated concrete 20 is poured and constructed.

In addition, in the implemented example of the present invention, as shown in Figure 10 in the drawings, the insulating material 300 is attached to the inside of the wall 200 constituting the living room or room of the building, and the adhesive part between the insulating material 300 and the floor of the room is attached to the inside. The side cushioning material 12 can be installed on the side, which can more effectively block inter-floor noise such as vibration and reverberation occurring in the living room or room.

An example of the present invention having such a configuration is as shown in Figure 3, when inter-floor noise such as vibration and sound occurs in the living room or room on the upper floor of the building, the vibration and noise transmitted to the lower floor are prioritized in the inter-floor noise buffer panel (10). ), the noise flowing in the crevice of the floor space of the inter-floor noise cushioning panel 10 and absorbed through the plurality of sound-absorbing holes 51 formed in the sound-absorbing pipe 50, and then the elbow placed at the edge of the living room or room ( 53) and the exhaust lid 54 before reaching the grating mesh, the inter-floor noise is not transmitted to the lower floor and is attenuated, and effectively disappears at the source.

In addition, in the case of sound absorption and habit, when aerated concrete and finished concrete are poured, moisture flows down and accumulates in a space with a low degree of smoothness between floor slabs. Moisture accumulated in this way is not evaporated to the outside because it is covered by the floor finishing material, so it remains for a long time, then evaporates and expands due to the increased temperature such as heating, and slowly escapes into the room through cracks in the floor or wall. As such, the moisture that escapes into the room continues even after moving in, discoloring or deforming the flooring or wall materials, as well as causing mold on the walls and sides of the floor. In addition, the moisture of the floor and walls contains the toxicity of cement, which causes fatigue, headache, shortness of breath, rhinitis and asthma, allergic dermatitis, etc., called sick house syndrome, to the occupants.

Therefore, the sound absorption and habit woven like a mesh on the floor allows the moisture to be removed quickly and smoothly in the central part, and the resonance that occurs in the excited space between the structural concrete and the floor finishing material is removed from the elbow and the end of the pipe extending toward the wall. It is a "inter-floor noise prevention system" with a circulation structure that completely removes noise and moisture as it is ventilated to the outside through the grating cap.

Therefore, the implemented example of the present invention improves the structure of the interlayer noise cushioning material panel 10 and the sound absorbing tube 50 constituting the "interlayer noise prevention system", thereby further reducing interfloor noise such as vibration and reverberation transmitted to the lower floor. By effectively blocking and reducing the thickness of the slab, it is possible to further reduce the construction cost and improve the workability.

In addition, the implemented example of the present invention is that the interlayer noise cushioning panel 10 and the sound-absorbing tube 50 are made of a material that is harmless to the human body, and effectively block inter-floor noise such as vibration and reverberation, so that a quiet and cozy indoor environment By providing the

In the above, the preferred embodiment of the present invention has been described with reference, and the subject matter of the present invention is not limited to the above-executed examples, but those of ordinary skill in the art to which the present invention pertains through the above-described implemented examples. In the case of making a hexagonal, round, or square protrusion at the bottom of 1/2 of the cushioning material, installing a member with a sound-absorbing ball in a round or square-shaped sound-absorbing pipe on the floor, and installing an exhaust pipe discharged from the floor in any form) It can be implemented with various changes outside the scope.

10: inter-floor noise cushioning panel 10a: protrusion
11: Silver foil mat (1.5T~5T) 12: Side cushioning material
20: aerated concrete 30: hot water pipe
31: finishing mortar 40: finishing material
50: sound-absorbing tube 51: sound-absorbing ball
52: PVC cross tee 53: elbow
54: exhaust lid 55: strong adhesive tape
100: slab (floor structure) 200: wall
300: insulation

Claims (4)

A system for preventing noise between floors in a building in which a plurality of interfloor noise cushioning panels are placed on a floor slab and constructed, and foam concrete, hot water pipes and finishing mortar are installed on the interfloor noise cushioning panel;
A silver foil mat 11 coated with silver foil on one side is placed on the floor slab 100 and covered, and a sound absorbing tube 50 is built-in between the plurality of interlayer noise cushioning panels 10, and the sound absorbing tube 50 is closely arranged in a grid shape between a plurality of interlayer noise cushioning material panels 10,
The interlayer noise cushioning material panel 10 is configured in a square shape, the upper part is configured in a flat panel shape, while a plurality of protrusions (10a) are formed in the lower part, and the protrusions (10a) are gradually smaller downward. It is formed to protrude in a hexagonal shape,
The sound-absorbing tube 50 is configured in a rectangular pipe shape with an open lower part, and a plurality of sound-absorbing balls 51 are formed through both sides at regular intervals along the longitudinal direction, and are respectively supported on both sides of the open lower part in the inward direction. A piece 51a is formed, and a silver foil mat 11 coated with silver foil on one side is placed on the upper portion of the sound absorbing tube 50 and covered,
An interfloor noise prevention system, characterized in that the insulation 300 is attached to the inside of the building wall 200, and the side cushioning material 12 is attached to the bonding portion between the insulation 300 and the floor of the room. delete delete delete

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