CN101586390A - Storey noise control structure and method for constructing same - Google Patents

Abstract

The invention relates to a storey noise control structure and a method for constructing the same. The interlayer noise control structure is used for controlling direct vibration noise transferred among slabs of the storeys of an apartment, preventing and absorbing indirect resonance noise in vibration and impact noise transmitting systems among the storeys of the apartment. The interlayer noise control structure comprises a noise absorption floor, grid-shaped anti-vibration components, moisture-proof components, rubber sheets, a spongy sheet and a second horny comb sheet; the noise absorption floor is formed by rubber components clung to slabs; the grid-shaped anti-vibration components are arranged on the noise absorption floor to form preset curved noise source channels; the rubber sheets are overlapped on the moisture-proof components; the spongy sheets are overlapped on the rubber sheets; the second horny comb sheets are overlapped on the spongy sheets and used for filling cement mortar or butter in the case that floor heat supply pipelines are provided; non-woven fabrics are stuck to the upper surfaces and the lower surfaces of the moisture-proof components, and first horny comb sheets containing vermiculite are integrated in the middle parts of the moisture-proof components; silver foil sheets are stuck to the bottom surfaces of the second horny comb sheets; and top floor materials are stuck to the top surfaces of the second horny comb sheets.

Description

Interlayer noise-proof structure and use the interlayer noise of this structure to prevent building method

Technical field

A kind of interlayer noise-proof structure, this interlayer noise-proof structure intercepts and is delivered to the direct vibrating noise of the slab between each floor of apartment and prevents and absorb indirect resonance noise in the broadcasting system of the vibration that is delivered to the slab between each floor of apartment and impact noise, and provides a kind of interlayer noise of this structure that uses to prevent building method.

Background technology

Known have the vibration between many each floors that is used for intercepting the residential building such as block of flats and a structure of noise.

Korean Patent Registration number is to have put down in writing a kind of like this noise in the patent documentation on February 9th, 2006 to prevent member and use the interlayer noise of this member to prevent building method that it comprises for No.10-0552981, registration date: upper plate portion; Support the support portion of this upper plate portion; Be filled in the filler portion between this first half and the support portion; Reach noise and prevent portion, it is formed on the soffit of this support portion.Here, the shank that supports this support portion can be long or short.Yet, use this noise to prevent that the interlayer facility structure of portion has such defective, promptly vibration and impact noise still are delivered to bottom slab (slab) by heating tube structure and the noise portion of preventing that is supported on the soffit of this support portion.

In addition, Korean Patent Publication No. is No.10-2006-0003302, open date to be to have put down in writing the interlayer noise that is used for residential building or block of flats in the document on January 10th, 2006 to prevent method and device, it comprises that the floor heating layer (is called a heatable brick bed layer (ondol layer), it is the floor type unit heater of Korean traditional), this floor heating layer and slab separate, so that provide the noise barriering effect by the space between slab and the floor.Here, leg-supporting be arranged at a heatable brick bed layer near, that is to say, near wall, form built on stilts space, so that stop vibration and impact noise at the middle part of a heatable brick bed layer.Though this interlayer noise that uses flooring structure at interval prevents that method is by using leg-supporting and air compressed pipe to have to reduce the advantage of the impact of transmitting via leg-supporting from the floor, top, but still have some defectives, promptly still there are vibration and impact noise, and floor is at interval sealed, cause the space of this sealing to play a part resonant cavity thus, thereby the space that makes sealing is owing to the impact from the top slab of floor heating pipeline is resonated, thereby makes vibration and impact noise be delivered to its underpart plate slab.

In addition, known have a multiple interlayer noise-proof structure, and it adopts the noise-proof structure of a plurality of slabs.Here, leg-supporting is cushioned to only absorbing noise, so that prevent and intercept the noise that transmits from the floor, top, perhaps flooring structure is at interval formed the effect that only realizes that noise intercepts.

Yet, for the noise-proof structure of at interval flooring structure, on slab, form the space, this space be sealing, and therefore impact noise can't spread out of from this space, cause thus resonating, may cause singing (howling) phenomenon and resonate.

Therefore, in order to prevent to pass the interlayer noise of flooring structure at interval, should avoid traditional slab structure and facility.That is to say, should prevent vibration by contact member, and by this contact member absorption impact noise, so that mainly prevent vibration and absorb impact noise, simultaneously, impact noise should not produce singing phenomenon repeatedly by floor at interval, and therefore the remaining noise ripple that passes the noise source passage should spread out of the interior space by reflection, thereby reduces the resonance on the floor at interval.Secondly, vibration and impact noise should be discharged into the outside from the gravity vent that is arranged on the ceiling, eliminate vibration and impact noise with this.

Summary of the invention

For solving the problems referred to above of conventional art, the objective of the invention is to, a kind of interlayer noise-proof structure is provided and uses the interlayer noise of this structure to prevent building method, wherein, at first strengthened the absorption of sound member, so that can absorb transmission rings from the floor impact sound of floor heating pipe layers, secondly, the horn shape cellular board that setting is made by polypropylene (horny comb sheet), its surface is covered with vibration-proof rubber plate and nonwoven layer, in order to prevent directly vibration and impact noise, and the resonance sound wave that alleviates the floor noise transmitted by at interval, and make the resonance sound wave simultaneously by spreading out of indoorly with the channel attached vent passages of the sound source that is formed on the noise-proof structure both sides, and get rid of structure and be discharged into the outside via being arranged on noise on the ceiling.

Another object of the present invention is to, a kind of interlayer noise-proof structure is provided and uses the interlayer noise of this interlayer noise-proof structure to prevent building method, wherein, use the horn shape cellular board so that the sound barriering effect of floor heating pipe layers is passed through in maximization, with this, enhanced level intensity when filling concrete mortar or butter, thus prevent to break.

Another purpose of the present invention is, a kind of interlayer noise-proof structure is provided and uses the interlayer noise of this interlayer noise-proof structure to prevent building method, wherein, use horn shape cellular board and nonwoven layer to prevent member as the noise that is arranged at floor heating pipe layers bottom.

For realizing above-mentioned purpose of the present invention, a kind of interlayer noise-proof structure is provided, this interlayer noise-proof structure comprises:

The sound absorption flooring material, it is made of the rubber component that is close on the slab;

Lattice-shaped vibrationproof member, it installs on this sound absorption flooring material the sound source passage that forms a plurality of predetermined meander-like;

Moisture-proof components, the upper surface of this moisture-proof components and soffit are covered with nonwoven respectively, and are combined with the first horn shape cellular board that comprises vermiculite (vermiculite) in the inside of this moisture-proof components;

Rubber tile, it is layered on this moisture-proof components, so that sound barriers function and absorption of sound function are provided;

Porous plate (sponge sheet, sponge plate), it is layered on this rubber tile, and

The second horn shape cellular board, it is layered on this porous plate, and under the state that a plurality of floor heating pipelines are set, be filled with predetermined cement mortar or butter, and on the bottom surface of this second horn shape cellular board, be covered with the silver foil plate, on the upper surface of this second horn shape cellular board, be covered with the top flooring material.

Preferably but not necessarily, this interlayer noise-proof structure also comprises a plurality of vent passages, described vent passages is formed on the two side of this interlayer noise-proof structure, so that along being formed at the formed vibration of described sound source passage in this lattice-shaped vibrationproof member and the sound wave of impact noise, can spread out of indoor in.

Preferably but not necessarily, this interlayer noise-proof structure also comprises noise eliminating portion, this noise eliminating portion comprises: a plurality of gravity vents, described gravity vent vertically is communicated with described vent passages, so that along being formed at the formed vibration of described sound source passage in this lattice-shaped vibrationproof member and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of; And the pipe hole that is formed with sufficient length, this pipe hole on ceiling with external communications, the noise ripple that passes described gravity vent is discharged into the outside by this pipe hole.

In addition, provide a kind of interlayer noise to prevent building method, this interlayer noise prevents that building method from comprising:

Lattice-shaped vibrationproof member installation process, it may further comprise the steps: lay the sound absorption flooring material on slab, and lattice-shaped vibrationproof member is installed, form the sound source passage of a plurality of meander-like of flooring structure at interval then, so that on this sound absorption flooring material, form a plurality of predetermined vent passages;

Sound barrier layer forming process, it may further comprise the steps: the damp member of setting up defences on this lattice-shaped vibrationproof member upper berth, the upper surface of this moisture-proof components and soffit are covered with nonwoven respectively, and, in the inside of this moisture-proof components, be combined with the first horn shape cellular board that comprises vermiculite, form the sound barrier layer by on this moisture-proof components, laying rubber tile, porous plate and silver foil plate successively then, so that sound barriers function and absorption of sound function are provided;

The floor heating layer formation process, it may further comprise the steps: be provided with under the state of a plurality of floor heating pipelines on this sound barrier layer, form the floor heating layer that is filled with predetermined cement mortar or butter, and lay on this floor heating layer and finish flooring material; And

The noise exclusion process, it may further comprise the steps: form a plurality of gravity vents, described gravity vent vertically is communicated with described vent passages, so that by the predetermined floor vibration sound wave that described vent passages produced that in the step that this lattice-shaped vibrationproof member is installed, forms, can spread out of by the two side of interlayer noise-proof structure, and the noise ripple that will pass described gravity vent by the pipe hole that is formed with abundant length is discharged into the outside, get rid of noise with this, wherein this pipe hole on ceiling with external communications.

Preferably but not necessarily, this floor heating material forms by the second horn shape cellular board that stacks gradually porous plate, silver foil plate and be full of predetermined cement mortar.

Preferably but not necessarily, this rubber tile is layered between this lattice-shaped vibrationproof member and this moisture-proof components, replaces this rubber tile is layered between this moisture-proof components and this porous plate, so that sound barriers function and absorption of sound function are provided.

Preferably but not necessarily, can from this interlayer noise-proof structure, omit this floor heating material and this rubber tile.

By reference accompanying drawing the following detailed description of the embodiment of the present invention, above-mentioned purpose and advantage with other of the present invention will become more apparent understandable.

Description of drawings

Fig. 1 is the combination stereogram of biopsy cavity marker devices, and it illustrates interlayer (in the floor) noise-proof structure according to the embodiment of the invention;

Fig. 2 is the exploded perspective view that the interlayer noise-proof structure of Fig. 1 is shown;

Fig. 3 is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 1 to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation;

Fig. 4 is the combination stereogram of biopsy cavity marker devices, and it illustrates interlayer noise-proof structure according to another embodiment of the present invention;

Fig. 5 is the exploded perspective view that the interlayer noise-proof structure of Fig. 4 is shown;

Fig. 6 is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 4 to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation;

Fig. 7 A is the combination stereogram of biopsy cavity marker devices, and it shows interlayer noise-proof structure according to yet another embodiment of the invention;

Fig. 7 B is the exploded perspective view that the interlayer noise-proof structure of Fig. 7 A is shown;

Fig. 8 A is the combination stereogram of biopsy cavity marker devices, and it shows the interlayer noise-proof structure according to further embodiment of this invention;

Fig. 8 B is the exploded perspective view that the interlayer noise-proof structure of Fig. 8 A is shown;

Fig. 9 A is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 7 A to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation;

Fig. 9 B is used for illustrating that the interlayer noise of the interlayer noise-proof structure that uses Fig. 8 A prevents the interlayer sound insulation of building method and the sectional view of ventilation function.

The specific embodiment

By below with reference to description of drawings interlayer noise-proof structure and use the interlayer noise of this structure to prevent building method according to the preferred embodiment of the invention.

Fig. 1 is the combination stereogram of biopsy cavity marker devices, and it illustrates the interlayer noise-proof structure according to the embodiment of the invention.Fig. 2 is the exploded perspective view that the interlayer noise-proof structure of Fig. 1 is shown.Fig. 3 is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 1 to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation.

As shown in Figure 1 to Figure 3, comprise according to the interlayer noise-proof structure of first embodiment of the invention: sound absorption flooring material 110, it is made of the rubber component or the porous plate material that are close on the slab; Lattice-shaped vibrationproof member 120, it installs the sound source passage 121 that forms a plurality of predetermined meander-like on sound absorption flooring material 110; Moisture-proof components 130, its upper surface and soffit are covered with nonwoven 134 respectively, are combined with the first horn shape cellular board 132 that comprises vermiculite in moisture-proof components 130 inside; And rubber tile 140, porous plate 150, silver foil sheet 160, the second horn shape cellular board 170 that is filled with predetermined cement mortar 180, a plurality of floor heating pipeline 190 and top flooring material 200, they stack gradually, so that sound barriers function and absorption of sound function are provided.

Rubber tile 140 is layered on the moisture-proof components 130.Porous plate 150 is layered on the rubber tile 140.The second horn shape cellular board 170 is layered on the porous plate 150, and under the state that is provided with a plurality of floor heating pipelines 190, be filled with predetermined cement mortar or butter 180, and be covered with silver foil sheet 160 in the bottom surface of the second horn shape cellular board 170, be covered with top flooring material 200 at the upper surface of the second horn shape cellular board 170.

The interlayer noise-proof structure also comprises vent passages 210, vent passages 210 is formed on the two side of interlayer noise-proof structure, so as along the sound wave that is formed at sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and impact noise can spread out of indoor in.

The interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, waveform expanded to indoor 220 noise ripple and is discharged into the outside via the inside of pipe hole 231.

That is to say, the interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 comprises gravity vent 232, gravity vent 232 vertically is communicated with vent passages 210, so that, can spread out of via the two side of this interlayer noise-proof structure along being formed at the sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and the sound wave of impact noise; And the pipe hole 231 that is formed with sufficient length, its on ceiling with external communications, the noise ripple that passes gravity vent 232 is discharged into the outside by this pipe hole 231.

Fig. 4 is the combination stereogram of biopsy cavity marker devices, and it shows the interlayer noise-proof structure according to second embodiment of the invention.Fig. 5 is the exploded perspective view that the interlayer noise-proof structure of Fig. 4 is shown.Fig. 6 is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 4 to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation.

, comprise to shown in Figure 6 as Fig. 4 according to the interlayer noise-proof structure of second embodiment of the invention: sound absorption flooring material 110, it is made of the rubber component or the porous plate material that are close on the slab; Lattice-shaped vibrationproof member 120, it installs the sound source passage 121 that forms a plurality of predetermined meander-like on sound absorption flooring material 110; Rubber tile 140, it is layered on the lattice-shaped vibrationproof member 120, so that sound barriers function and absorption of sound function are provided; Moisture-proof components 130, its upper and lower surface is covered with nonwoven 134 respectively, and moisture-proof components 130 inside are combined with the first horn shape cellular board 132 that comprises vermiculite, and moisture-proof components 130 is layered on the rubber tile 140; And porous plate 150, silver foil sheet 160, the second horn shape cellular board 170 that is filled with predetermined cement mortar 180, a plurality of floor heating pipeline 190 and top flooring material 200, they stack gradually on moisture-proof components 130.

Porous plate 150 is layered on moisture-proof components 130.The second horn shape cellular board 170 is layered on the porous plate 150, and under the state that is provided with floor heating pipeline 190, be filled with predetermined cement mortar or butter 180, and be covered with silver foil sheet 160 in the bottom surface of the second horn shape cellular board 170, be covered with top flooring material 200 at the upper surface of the second horn shape cellular board 170.

The interlayer noise-proof structure also comprises vent passages 210, and vent passages 210 is formed on the two side of interlayer noise-proof structure, so as the sound wave of vibration that forms along sound source passage 121 and impact noise can spread out of indoor in.

The interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, by pipe hole 231, waveform expanded to indoor 220 noise ripple and be discharged into the outside via the inside of pipe hole 231.

That is to say, the interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 has gravity vent 232, gravity vent 232 vertically is communicated with vent passages 210, so that along being formed at the sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of, noise eliminating portion 230 also comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, the noise ripple that passes gravity vent 232 is discharged into the outside via this pipe hole 231.

Fig. 7 A is the combination stereogram of biopsy cavity marker devices, and it shows the interlayer noise-proof structure according to third embodiment of the invention.Fig. 7 B is the exploded perspective view that the interlayer noise-proof structure of Fig. 7 A is shown.Fig. 9 A is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 7 A to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation.

Shown in Fig. 7 A, Fig. 7 B and Fig. 9 A, comprise according to the interlayer noise-proof structure of third embodiment of the invention: sound absorption flooring material 110, it is made of the rubber component or the porous plate material that are close on the slab; Lattice-shaped vibrationproof member 120, it installs the sound source passage 121 that forms a plurality of predetermined meander-like on sound absorption flooring material 110; Moisture-proof components 130, its upper and lower surface is covered with nonwoven 134 respectively, and moisture-proof components 130 inside are combined with the first horn shape cellular board 132 that comprises vermiculite, and moisture-proof components 130 is layered on the lattice-shaped vibrationproof member 120; And a plurality of floor heating pipelines 190 and top flooring material 200, they stack gradually on moisture-proof components 130.

The interlayer noise-proof structure also comprises vent passages 210, vent passages 210 is formed on the two side of interlayer noise-proof structure, so as along the sound wave that is formed at sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and impact noise can spread out of indoor in.

The interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, by pipe hole 231 waveform is expanded to indoor 220 noise ripple and is discharged into outside (external world) via the inside of pipe hole 231.

That is to say, the interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 has gravity vent 232, gravity vent 232 vertically is communicated with vent passages 210, so that along being formed at the sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of, noise eliminating portion 230 also comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, the noise ripple that passes gravity vent 232 is discharged into the outside via this pipe hole 231.

Fig. 8 A is the combination stereogram of biopsy cavity marker devices, and it shows the interlayer noise-proof structure according to fourth embodiment of the invention.Fig. 8 B is the exploded perspective view that the interlayer noise-proof structure of Fig. 8 A is shown.Fig. 9 B is a sectional view, uses the interlayer noise of the interlayer noise-proof structure of Fig. 8 A to prevent the interlayer sound insulation and the ventilation function of building method in order to explanation.

Shown in Fig. 8 A, Fig. 8 B and Fig. 9 B, comprise according to the interlayer noise-proof structure of fourth embodiment of the invention: sound absorption flooring material 110, it is made of the rubber component or the porous plate material that are close on the slab; Lattice-shaped vibrationproof member 120, it installs the sound source passage 121 that forms a plurality of predetermined meander-like on sound absorption flooring material 110; Rubber tile 140, it is layered on the lattice-shaped vibrationproof member 120, so that sound barriers function and absorption of sound function are provided; Moisture-proof components 130, its upper and lower surface is covered with nonwoven 134 respectively, and moisture-proof components 130 inside are combined with the first horn shape cellular board 132 that comprises vermiculite, and moisture-proof components 130 is layered on the rubber tile 140; And a plurality of floor heating pipelines 190 and top flooring material 200, they stack gradually on moisture-proof components 130.

The interlayer noise-proof structure also comprises vent passages 210, vent passages 210 is formed on the two side of interlayer noise-proof structure, so that along the sound wave that is formed in sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and impact noise can spread out of indoor in, sound source passage 121 shapes wherein.

The interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, by pipe hole 231, waveform expanded to indoor 220 noise ripple and be discharged into the outside via the inside of pipe hole 231.

That is to say, the interlayer noise-proof structure also comprises noise eliminating portion 230, noise eliminating portion 230 has gravity vent 232, gravity vent 232 vertically is communicated with vent passages 210, so that along being formed at the sound source passage 121 formed vibrations in the lattice-shaped vibrationproof member 120 and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of, noise eliminating portion 230 also comprises the pipe hole 231 that is formed with sufficient length, pipe hole 231 on ceiling with external communications, be discharged to the outside via the noise ripple of gravity vent 232 by pipe hole 231.

Hereinafter will illustrate and use the interlayer noise of the plate noise-proof structure separately of first to fourth embodiment to prevent building method according to the present invention.This interlayer noise prevents that building method from comprising:

(a) lattice-shaped vibrationproof member installation process, it may further comprise the steps: lay sound absorption flooring material 110 on slab, and installation lattice-shaped vibrationproof member 120, form the sound source passage 121 of a plurality of meander-like of flooring structure at interval then, so that on this sound absorption flooring material 110, form a plurality of predetermined vent passages;

(b) sound barrier layer forming process, it may further comprise the steps: the damp member 130 of setting up defences on these lattice-shaped vibrationproof member 120 upper berths, the upper surface of this moisture-proof components 130 and soffit are covered with nonwoven 134 respectively, and in the inside of this moisture-proof components, be combined with the first horn shape cellular board 132 that comprises vermiculite, form the sound barrier layer by on this moisture-proof components 130, laying rubber tile 140, porous plate 150 and silver foil plate 160 successively then, so that sound barriers function and absorption of sound function are provided;

(c) floor heating layer formation process, it may further comprise the steps: be provided with under the state of a plurality of floor heating pipelines 190 on this sound barrier layer, formation is filled with the floor heating layer of predetermined cement mortar or butter 180, and finishes the laying of flooring material 200 on this floor heating layer; And

(d) noise exclusion process, it may further comprise the steps: form a plurality of gravity vents 232, described gravity vent 232 vertically is communicated with described vent passages 210, so that the predetermined floor vibration sound wave that is produced by the described vent passages 210 that in the step of this lattice-shaped vibrationproof member 120 is installed, forms, can spread out of via the two side of interlayer noise-proof structure, and the noise ripple that passes described gravity vent 232 will be discharged into the outside via the pipe hole 231 that is formed with abundant length, get rid of noise with this, wherein this pipe hole 231 on ceiling with external communications.

Here, the floor heating material forms by the second horn shape cellular board 170 that stacks gradually porous plate 150, silver foil plate 160 and be full of predetermined cement mortar 180.

Here, this rubber tile 140 can be layered between this lattice-shaped vibrationproof member 120 and this moisture-proof components 130, with replacement this rubber tile 140 is layered between this moisture-proof components 130 and this porous plate 150, so that sound barriers function and absorption of sound function are provided.

Selectively, can from the interlayer noise-proof structure, omit floor heat-providing material and/or rubber tile 140.

As mentioned above, according to interlayer noise-proof structure of the present invention and use the interlayer noise of this structure to prevent that the sound of building method by the horn shape honeycomb structure from intercepting net and cushioned and absorbed vibration and impact noise by the lattice-shaped absorption of sound member that rubber is made, the effect that prevents directly vibration and impact noise is provided, ring so that can absorb the floor impact sound that transmits from floor heating sound barrier layer, thereby reduce vibration and impact noise.

In addition, except above-mentioned prevention to direct vibration and impact noise, the resonance noise that produces by floor at interval reflects via the gravity vent on the two side that is formed on the interlayer noise-proof structure brokenly indoor, and absorbs and the discharging resonance noise by the absorption of sound hole that is arranged on the ceiling subsequently.

Therefore, the invention solves the defective that traditional vibration and impact noise prevent that structure from having, this traditional noise-proof structure only uses flooring structure at interval and constitutes, or only use floor heating sound barrier layer and support portion and constitute, thereby and directly directly intercept sound by whole stepped construction, side by side except the random scatters process of a part via the interlayer resonance at interval floor.Therefore, the present invention can further reduce the vibration that produced and impact noise is propagated via the interlayer of the multiple interlayer propagation path of apartment slab.

As mentioned above, describe the present invention with reference to specific preferred embodiment.Yet the present invention is not exceeded with the foregoing description, and this area has the personnel of common technology under the situation that does not deviate from spirit of the present invention, can make multiple modification and distortion.

Claims (10)

1. interlayer noise-proof structure, this interlayer noise-proof structure comprises:

Sound absorption flooring material (110), it is made of the rubber component that is close on the slab;

Lattice-shaped vibrationproof member (120), it installs the sound source passage (121) that go up to form a plurality of predetermined meander-like at this sound absorption flooring material (110);

Moisture-proof components (130), upper surface of this moisture-proof components (130) and soffit are covered with nonwoven (134) respectively, and are combined with the first horn shape cellular board (132) that comprises vermiculite in the inside of this moisture-proof components (130);

Rubber tile (140), it is layered on this moisture-proof components (130), so that sound barriers function and absorption of sound function are provided;

Porous plate (150), it is layered on this rubber tile (140), and

The second horn shape cellular board (170), it is layered on this porous plate (150), and under the state that a plurality of floor heating pipelines (190) are set, be filled with predetermined cement mortar or butter (180), and on the bottom surface of this second horn shape cellular board (170), be covered with silver foil plate (160), on the upper surface of this second horn shape cellular board (170), be covered with top flooring material (200).

2. interlayer noise-proof structure according to claim 1, also comprise a plurality of vent passages (210), described vent passages (210) is formed on the two side of this interlayer noise-proof structure, so that, can spread out of in indoor (220) along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise.

3. interlayer noise-proof structure according to claim 1 and 2, also comprise noise eliminating portion (230), this noise eliminating portion (230) comprising: a plurality of gravity vents (232), described gravity vent (232) vertically is communicated with described vent passages (210), so that along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of; And the pipe hole (231) that is formed with sufficient length, this pipe hole (231) on ceiling with external communications, the noise ripple that passes described gravity vent (232) is discharged into the outside by this pipe hole (231).

4. interlayer noise-proof structure, this interlayer noise-proof structure comprises:

Sound absorption flooring material (110), it is made by the rubber component or the porous plate material that are close on the slab;

Lattice-shaped vibrationproof member (120), it installs the sound source passage (121) that go up to form a plurality of predetermined meander-like at this sound absorption flooring material (110);

Moisture-proof components (130), upper surface of this moisture-proof components (130) and soffit are covered with nonwoven (134) respectively, and are combined with the first horn shape cellular board (132) that comprises vermiculite in the inside of this moisture-proof components (130);

The second horn shape cellular board (170), it is layered on this moisture-proof components (130), and under the state that a plurality of floor heating pipelines (190) are set, be filled with predetermined cement mortar or butter (180), on the upper surface of this second horn shape cellular board (170), be covered with top flooring material (200);

A plurality of vent passages (210), described vent passages (210) is formed on the two side of this interlayer noise-proof structure, so that, can spread out of in indoor (220) along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise; And

Noise eliminating portion (230), this noise eliminating portion (230) comprising: a plurality of gravity vents (232), described gravity vent (232) vertically is communicated with described vent passages (210), and be formed on the ceiling, so that along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise, the two side that can pass this interlayer noise-proof structure spreads out of; And the pipe hole (231) that is formed with sufficient length, its on this ceiling with external communications, the noise ripple that passes described gravity vent (232) is discharged into the outside by this pipe hole (231).

5. interlayer noise-proof structure, this interlayer noise-proof structure comprises:

Sound absorption flooring material (110), it is made by the rubber component or the porous plate material that are close on the slab;

Lattice-shaped vibrationproof member (120), it installs the sound source passage (121) that go up to form a plurality of predetermined meander-like at this sound absorption flooring material (110);

Rubber tile (140), it is layered on this lattice-shaped vibrationproof member (120), so that sound barriers function and absorption of sound function are provided;

Moisture-proof components (130), upper surface of this moisture-proof components (130) and soffit are covered with nonwoven (134) respectively, and in the inside of this moisture-proof components (130), be combined with the first horn shape cellular board (132) that comprises vermiculite, and this moisture-proof components (130) is layered on this rubber tile (140);

Porous plate (150), it is layered on this moisture-proof components (130);

The second horn shape cellular board (170), it is layered on this porous plate (150), and under the state that a plurality of floor heating pipelines (190) are set, be filled with predetermined cement mortar or butter (180), and on the bottom surface of this second horn shape cellular board (170), be covered with silver foil plate (160), on the upper surface of this second horn shape cellular board (170), be covered with top flooring material (200);

A plurality of vent passages (210), it is formed on the two side of this interlayer noise-proof structure, so that, can spread out of in indoor (220) along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise; And

Noise eliminating portion (230), it comprises: a plurality of gravity vents (232), described gravity vent (232) vertically is communicated with described vent passages (210), and be formed on the ceiling, so that, can spread out of by the two side of this interlayer noise-proof structure along being formed at the formed vibration of described sound source passage (121) in this lattice-shaped vibrationproof member (120) and the sound wave of impact noise; And the pipe hole (231) that is formed with sufficient length, this pipe hole (231) on this ceiling with external communications, the noise ripple that passes described gravity vent (232) is discharged into the outside by this pipe hole (231).

6. an interlayer noise prevents building method, and this interlayer noise prevents that building method from comprising:

(a) lattice-shaped vibrationproof member installation process, it may further comprise the steps: lay sound absorption flooring material (110) on slab, and installation lattice-shaped vibrationproof member (120), form the sound source passage (121) of a plurality of meander-like of flooring structure at interval then, so that go up a plurality of predetermined vent passages of formation at this sound absorption flooring material (110);

(b) sound barrier layer forming process, it may further comprise the steps: the damp member (130) of setting up defences on this lattice-shaped vibrationproof member (120) upper berth, upper surface of this moisture-proof components (130) and soffit are covered with nonwoven (134) respectively, and in the inside of this moisture-proof components, be combined with the first horn shape cellular board (132) that comprises vermiculite, form the sound barrier layer by on this moisture-proof components (130), laying rubber tile (140), porous plate (150) and silver foil plate (160) successively then, so that sound barriers function and absorption of sound function are provided;

(c) floor heating layer formation process, it may further comprise the steps: be provided with on this sound barrier layer under the state of a plurality of floor heating pipelines (190), formation is filled with the floor heating layer of predetermined cement mortar or butter (180), and finishes the laying of flooring material (200) on this floor heating layer; And

(d) noise exclusion process, it may further comprise the steps: form a plurality of gravity vents (232), described gravity vent (232) vertically is communicated with described vent passages (210), so that the predetermined floor vibration sound wave that is produced by the described vent passages (210) that in the step of this lattice-shaped vibrationproof member (120) is installed, forms, can spread out of by the two side of interlayer noise-proof structure, and the noise ripple that will pass described gravity vent (232) by the pipe hole (231) that is formed with abundant length is discharged into the outside, get rid of noise with this, wherein this pipe hole (231) on ceiling with external communications.

7. interlayer noise according to claim 6 prevents building method, and wherein the floor heating material forms by the second horn shape cellular board (170) that stacks gradually porous plate (150), silver foil plate (160) and be full of predetermined cement mortar (180).

8. interlayer noise according to claim 6 prevents building method, wherein this rubber tile (140) is layered between this lattice-shaped vibrationproof member (120) and this moisture-proof components (130), with replacement this rubber tile (140) is layered between this moisture-proof components (130) and this porous plate (150), so that sound barriers function and absorption of sound function are provided.

9. interlayer noise according to claim 6 prevents building method, wherein omits this floor heating material or this rubber tile (140) from this interlayer noise-proof structure.

10. interlayer noise according to claim 6 prevents building method, wherein omits this floor heating material and this rubber tile (140) from this interlayer noise-proof structure.

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