CN211817644U - Floating micro-floor structure for reducing floor impact sound - Google Patents

Abstract

The utility model provides a floating micro-floor structure for reducing floor impact sound, which comprises a honeycomb sound absorption support structure layer, wherein the honeycomb sound absorption support structure layer comprises a plurality of hollow honeycomb frame bodies, porous sound absorption materials are arranged in the honeycomb frame bodies, and a sealing frame is arranged at the periphery of the honeycomb sound absorption support structure layer; a surface decoration material arranged on the honeycomb-shaped sound absorption support structure layer; the elastic vibration isolation layer is arranged below the honeycomb-shaped sound absorption support structure layer; so, it enables the construction equipment modularization of floor and has splendid convenience, can make it inhale the sound through the design of this structure, the sound insulation effect can greatly promote to have more comfortable, safe practical result of use.

Description

Floating micro-floor structure for reducing floor impact sound

Technical Field

The utility model relates to a floor brick stone structure indicates a convenient site operation's modularization combination operation especially, and has the little floor structure of floating of reducing floor impact sound of splendid security, fastness and syllable-dividing effect.

Background

Modern people have a quiet and comfortable life, and the requirement for home decoration is higher and higher, so a floor tile or floor is usually laid on a common floor slab/floor to improve the beauty and comfort effect, and as the floor slab is usually an RC solid structure, when people walk (such as high-heeled shoes), move furniture appliances (such as impact and ground scraping sound of tables and chairs) and the like, various noises of impact sound are generated, and the floor slab impact noise is prevented and treated to achieve a silent environment for preventing noise interference, which is the problem to be solved for home peace.

As shown in fig. 1, a conventional construction structure 90A for reducing floor impact noise is provided with an elastic vibration isolation layer 91 on an RC floor 90, a cement mortar layer 92 is laid on the vibration isolation layer 91, and the cement mortar layer 92 is adhered with cement slurry and adhesive, such as: surface finishing materials 93 such as tiles and marble. In the conventional construction structure 90A, the surface finishing member 93 may be broken due to the cement mortar layer 92 on the elastic vibration isolation layer 91 failing to receive the bending moment.

As shown in fig. 1a, another construction structure 90B for reducing floor impact noise in the prior art is to install an elastic vibration isolation layer 91 on an RC floor 90, lay a clamp plate 94 on the elastic vibration isolation layer 91, pour a layer of RC plate 95 on the clamp plate 94, lay a cement mortar layer 92 on the RC plate 95, and stick the cement mortar layer 92 with cement mortar and adhesive, such as: surface finishing materials 93 such as tiles and marble. In the conventional construction structure 90B, the clamp plates 94 are first laid on the elastic vibration isolation layer 91, and then the RC plates 95 are poured to form a layer, so that the dead load of 200Kg per square meter of the whole floor slab is increased, and the load and the structural cost of the whole building are increased.

The above-mentioned conventional constructions 90A and 90B for reducing floor impact noise have their drawbacks, and thus are not ideal and need to be improved. Therefore, it is an object of the present invention to solve and overcome the above-mentioned drawbacks of the construction structure for reducing floor impact noise.

Therefore, in view of the fact that the present construction structure for reducing the floor impact sound is not ideal in manufacturing, assembling, using, and structural design, the present inventor has developed its solution scheme promptly, and hopefully develops a floating micro-floor structure for reducing the floor impact sound with better sound insulation effect, construction convenience, light weight, safety and practicability, and excellent economic benefit, so as to serve the public and promote the development of this industry, and then have the production concept in many times.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a little floor structure floats, its construction equipment that enables floor has splendid modularization and convenience, and its sound absorption, the sound insulation effect can very promote through the design of this structure to have more comfortable, safe practical result of use person.

The utility model discloses a still another aim at is providing and can utilize the little floor structure concept of floating and derive and develop a honeycomb masonry floor structure that floats that reduces the floor and strike sound, makes under the trend that construction worker lacks day by day, can will construct worker's method batch production, precasting, and then convenient, simply construct and reduce the manpower demander.

The technical means adopted by the utility model to achieve the above purpose comprises a floating micro-floor structure, which comprises an elastic vibration isolation layer, a honeycomb sound absorption supporting structure layer and surface decoration materials; wherein, the elastic vibration isolation layer is arranged below the honeycomb sound absorption supporting structure layer, and the surface decoration material is arranged above the honeycomb sound absorption supporting structure layer; the honeycomb sound-absorbing support structure layer comprises a plurality of hollow honeycomb frame bodies, wherein a porous sound-absorbing material is arranged in each honeycomb frame body, a frame is arranged on the periphery of each honeycomb sound-absorbing support structure layer, and the frame and the honeycomb sound-absorbing support structure layer are adhered into a whole to bind and solidify the honeycomb frame bodies.

In the embodiment of the present invention, the porous sound-absorbing material is a network structure formed by interconnected or closed pores, rather than a dense entity, to achieve the sound-absorbing and sound-reducing effects, and the material is not limited thereto.

In this embodiment, at least one outer periphery of the frame may also be coated with a polymer adhesive layer to facilitate the connection with the adjacent honeycomb sound-absorbing support structure layer assembly;

in the embodiment, the adhesive layer is a double-sided adhesive layer.

In the embodiment of the present invention, the elastic vibration isolation layer is a plate layer with a thickness, which is made of rubber, glass wool, polyester wool, foam wool or cork.

In the embodiment, a bottom sealing plate is further disposed below the honeycomb-shaped sound-absorbing support structure layer.

In the embodiment of the present invention, the surface decoration material is adhered to the honeycomb-shaped sound absorption support structure layer by an adhesive layer.

In the present embodiment, a thermal isolation layer is further disposed between the floating micro-slab floor structure and a wall, and the thermal isolation layer can prevent heat exchange between the floating micro-slab floor structure and the wall.

In the embodiment of the present invention, the frame outside the honeycomb sound-absorbing support structure layer is flush with the surface decoration material in the vertical height direction.

The utility model discloses reduce little floor structure of floating of floor impact sound and rely on above-mentioned group, its construction equipment that enables floor masonry has splendid modularity, convenience, simplicity, and its hinders sound, the sound insulation effect can be very promoted through the design that supports its structural layer of sound absorbing layer to have more comfortable, safe practical result of use. And simultaneously, the utility model discloses can utilize little floor structure concept of floating and derive and develop a honeycomb masonry floor that floats that reduces floor impact sound and constitute, make under the trend that construction worker lacks day by day, can be with construction worker's factory ization, precasting, and then convenient, simply construct and reduce the manpower demand.

For further understanding and appreciation of the technical features and advantages of the present invention, reference should be made to the accompanying drawings, which are illustrated in the accompanying drawings, and detailed description thereof.

Drawings

FIG. 1 is a first schematic view of a prior art floor masonry.

FIG. 1a is a schematic view of a prior art floor masonry construction.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is an exploded view of the present invention.

Fig. 4 is a schematic perspective sectional view of the present invention.

Fig. 5 is a perspective view of the construction assembly of the present invention.

Fig. 6 is a schematic sectional view of the three-dimensional assembly of the present invention.

Description of reference numerals: a floating micro-floor structure 1; an elastic vibration-isolating layer 10; a honeycomb sound-absorbing support structure layer 20; a top surface 21A; a honeycomb frame body 22; a porous sound absorbing material 23; a frame 24; a back cover plate 25; an adhesive layer 26; a primer 27; a surface finishing material 30; a glue layer 31; a wall 40; a heat insulating and vibration isolating layer 41; a floor 100.

Detailed Description

Referring to fig. 2 to 4, for describing the embodiment of the floating micro-floor structure for reducing the floor impact sound of the present invention in detail, the floating micro-floor structure 1 shown in the present embodiment is a floor masonry laid on the floor of a building, and the floating micro-floor structure 1 includes an elastic vibration isolation layer 10, a honeycomb-shaped sound-absorbing support structure layer 20 and a surface decoration material 30; the elastic vibration isolation layer 10 is disposed below the honeycomb sound absorption support structure layer 20, and the surface decoration material 30 is disposed above the honeycomb sound absorption support structure layer 20, so as to form the present embodiment by the integral combination, and the following detailed description and technical details of the floating micro-floor structure 1 are provided.

Wherein, the honeycomb sound-absorbing support structure layer 20 comprises a plurality of hollow honeycomb frame bodies 22, so that the honeycomb sound-absorbing support structure layer 20 has very strong toughness and bearing capacity; the honeycomb frame body 22 is provided with a porous sound-absorbing material 23, and the porous sound-absorbing material 23 is a light sound-absorbing material composed of through or closed holes, rather than a compact solid, for achieving the effects of sound absorption and sound reduction, and the material is not limited thereto.

In addition, the periphery of the honeycomb sound-absorbing support structure layer 20 is further framed with a sealing frame 24, and the sealing frame 24 is bonded with the honeycomb sound-absorbing support structure layer 20 into a whole for binding and fixing the honeycomb frame body 22; the outer periphery of the edge frame 24 may also be coated with a polymer adhesive layer 26 (as shown in fig. 5) to facilitate combination and connection with the adjacent honeycomb sound-absorbing support structure layer 20 during use; a bottom sealing plate 25 is also disposed below the honeycomb-shaped sound-absorbing support structure layer 20, for example: is disposed in an adhesive manner for providing a tensile force for vertical loading, thereby completing the fabrication and assembly of the honeycomb-shaped sound-absorbing support structure layer 20.

As shown in fig. 4, in a suitable embodiment, the top end of the edge sealing frame 24 may be flush with the top surface 21A of the honeycomb sound-absorbing support structure layer 20, so that the edge sealing frame 24 and the top surface 21A of the honeycomb sound-absorbing support structure layer 20 form a flush surface for facilitating the subsequent assembly and attachment of the surface decoration 30.

The elastic vibration isolation layer 10 is a plate layer with a certain thickness, and the elastic vibration isolation layer 10 can be made of rubber, glass wool, polyester wool, foam wool, cork and other materials, so as to have proper elasticity. The elastic vibration isolation layer 10 is disposed (e.g., adhered) below the honeycomb sound absorption support structure layer 20 (i.e., the back cover plate 25), i.e., the honeycomb sound absorption support structure layer 20 (back cover plate 25) is adhered to the elastic vibration isolation layer 10 by a primer 27 (see fig. 6), so that when the honeycomb sound absorption support structure layer 20 is disposed on the elastic vibration isolation layer 10, the principle is the same as that a raft foundation structure is usually designed for building houses with weak ground to bear the weight of the upper structure, and the elastic vibration isolation layer 10 is the same as the weak ground, so that the honeycomb sound absorption support structure layer 20 is the same as the raft foundation structure.

The surface decoration material 30 is disposed on the honeycomb-shaped sound-absorbing support structure layer 20, and the surface decoration material 30 includes, but is not limited to, a tile, a marble, a floor tile, a vitrified tile, a plastic floor tile, or a wood board tile; the surface decoration material 30 is adhered to the upper side of the honeycomb sound-absorbing support structure layer 20 by an adhesive layer 31, in this embodiment, the honeycomb sound-absorbing support structure layer 20 is pressed to be in a downward pushing pressure-resistant state, and the overall stability and the aesthetic property are enhanced.

In appropriate embodiments, the floating micro-floor structure 1 for this assembly can be cut and customized at the factory and conveniently transported to the construction site; thus, when the floor is laid, a plurality of floating micro-floor structures 1 can be placed on the floor, and then the polymer adhesive layer 26 (or double-sided adhesive layer) coated on the outer periphery of the edge frame 24 is used to quickly connect the floating micro-floor structures 1 into a large floating floor. The edge sealing frame 24 outside the honeycomb sound-absorbing support structure layer 20 is preferably flush with the surface decoration material 30 in the vertical height direction.

Please refer to fig. 5 and fig. 6, the floating micro-floor structure for reducing floor impact noise of the present invention is assembled and applied by arranging and splicing the floating micro-floor structure 1 on the first floor 100 (or floor), i.e. the elastic vibration isolation layer 10 of the floating micro-floor structure 1 is disposed on the first floor 100 (or floor), and the bonding between the two adjacent floating micro-floor structures 1 is achieved by the adhesion layer 26 between the two adjacent sealing frames 24, so that the floating micro-floor structure 1 is firmly linked to form a floor masonry layer (floating sound insulation floor), i.e. completing the construction assembly on site, which is quite convenient. Since the surface decoration material 30 (surface decoration plate) is adhered to the honeycomb-shaped sound absorption support structure layer 20, the plural floating micro-floor structures 1 can be used after being laid, which is very convenient and fast.

As shown in fig. 5, after the floating micro-floor structures 1 are linked to form a floor masonry layer (floating sound insulation floor), a thermal insulation layer 41 is further disposed between the wall 40 and the periphery of the floating micro-floor structure 1, and the thermal insulation layer 41 is used to block heat exchange and solid vibration sound conduction between the floating micro-floor structures 1 and the wall 40, so that the cold or heat of the wall 40 is not easily conducted to the floating micro-floor structures 1.

The utility model discloses when reducing little floor structure of floating of floor impact sound and using, because this little floor structure 1 of floating can inhale sound bearing structure layer 20 by the honeycomb with concentrated load on the floor and activity load and bear, on evenly distributing whole elastic vibration isolation layer 10 again, will bear weight by elastic vibration isolation layer 10 again and transmit RC floor/floor on, have splendid holding power. Furthermore, the honeycomb sound absorption support structure layer 20 is filled with porous sound absorption material 23 to form a sound absorption effect. Moreover, because the drumhead effect is that the closed air is compressed when the drumhead is knocked, and knocking sound is transmitted to the cortex lycii radicis at the lower layer to be emitted, the utility model is designed in such a way, and on one hand, the drumhead effect generated by impact when the hollow honeycomb structure is closed can be eliminated; on the other hand, when the surface decorative materials 30 such as ceramic tiles and marble are knocked, solid sound transmission is generated, and sound energy is emitted into air in the honeycomb sound-absorbing support structure layer 20, and can be absorbed by the porous sound-absorbing material 23 filled in the honeycomb frame body 22; in the third aspect, when the surface finishing material 30 such as tile, marble, etc. is hit, air noise is generated behind the surface finishing material, and the air noise can be absorbed by the porous sound-absorbing material 23 filled in the honeycomb frame body 22. Therefore, the utility model has excellent silent effect and comfort in use.

The utility model discloses reduce little floor structure of floating of floor impact sound and rely on above-mentioned group, its construction equipment that enables floor masonry has splendid modularity, convenience, simplicity, and its hinders sound, the sound insulation effect can be very promoted through the design that supports its structural layer of sound absorbing layer to have more comfortable, safe practical result of use. And simultaneously, the utility model discloses can utilize little floor structure concept of floating and derive and develop a honeycomb masonry floor that floats that reduces floor impact sound and constitute, make under the trend that construction worker lacks day by day, can be with construction worker's factory ization, precasting, and then convenient, simply construct and reduce the manpower demand.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. The utility model provides a reduce little floor structure of floating of floor impact sound which characterized in that, including:

a honeycomb sound absorption supporting structure layer, which comprises a plurality of hollow honeycomb frame bodies, wherein a porous sound absorption material is arranged in each honeycomb frame body, and a frame sealing frame is arranged at the periphery of each honeycomb sound absorption supporting structure layer;

a surface decoration material arranged on the honeycomb-shaped sound absorption support structure layer;

and the elastic vibration isolation layer is arranged below the honeycomb-shaped sound absorption support structure layer.

2. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: the elastic vibration isolation layer is made of rubber, glass wool, polyester wool, foam cotton or cork.

3. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: a sealing bottom plate is arranged below the honeycomb-shaped sound absorption supporting structure layer.

4. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: at least one outer side of the frame is provided with an adhesive layer.

5. The floating micro-floor structure for reducing floor impact sound according to claim 4, wherein: the adhesive layer is a double-sided adhesive layer.

6. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: the surface decoration material is adhered to the honeycomb-shaped sound absorption support structure layer by an adhesive layer.

7. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: still be equipped with a thermal-insulated vibration isolation layer between this little floor structure of floating and a wall, this thermal-insulated vibration isolation layer can obstruct the heat exchange and the solid vibration sound conduction between this little floor structure of floating and this wall.

8. The floating micro-floor structure for reducing floor impact sound according to claim 1, wherein: the frame outside the honeycomb sound absorption support structure layer is flush with the surface decoration material in the longitudinal height direction.

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