CN112031322A - Building sound insulation shock attenuation floor structure - Google Patents

Abstract

The invention relates to the technical field of building sound insulation and shock absorption, and discloses a building sound insulation and shock absorption floor structure which comprises a male plate structure and a female plate structure, wherein a floor layer is arranged between the male plate structure and the female plate structure, a supporting tube layer is arranged at the bottom end of the floor layer, an installation layer is fixedly installed at the bottom end of the supporting tube layer, and the bottom end of the installation layer is fixedly bonded on the ground through a colloid for building engineering. This building shock attenuation floor structure gives sound insulation to building fills shear thickening liquid's setting in two-layer structure about the layer and the inner chamber to the bracing tube, because shear thickening liquid can be changed into the state of solid by the state of liquid when receiving pressure, compare with current shock attenuation floor structure that gives sound insulation, can increase its bearing capacity effectively, make it also be difficult for taking place deformation when receiving great pressure, thereby form stable effective support to the floor layer, in order to improve this shock attenuation floor structure's bearing capacity gives sound insulation.

Description

Building sound insulation shock attenuation floor structure

Technical Field

The invention relates to the technical field of building sound insulation and shock absorption, in particular to a building sound insulation and shock absorption floor structure.

Background

Lay the shock attenuation floor that gives sound insulation in building, as one kind to carrying out the absorbing main measure between the floor, can alleviate the propagation of noise between the floor effectively to optimize the environment in official working life place, the negative effects that people brought are given to the noise reduction, simultaneously under high-tech environment, adopt the shock attenuation floor structure that gives sound insulation can be effective avoid its influence that causes precision instruments's performance.

At present, most of the existing sound-insulation and shock-absorption floors are of elastic and hollow structures, although the floor structure can play a good role in sound insulation and shock absorption, the floor with the structure has poor bearing capacity, the problem of plastic deformation is easy to occur when a heavy object is carried for a long time, the plastic deformation can be applied to simple office and home places, but under the high-tech working environment, because the precision equipment with high quality cannot be effectively carried, the precision equipment with high quality is inclined which is difficult to observe, the use performance of the precision equipment is greatly influenced, the precision of the detection use is reduced, and even the precision elements in the precision equipment are damaged due to the slight inclination, a new sound insulation and shock absorption floor structure is urgently needed, the sound insulation and shock absorption device has good bearing capacity while ensuring sound insulation and shock absorption, and cannot deform when bearing some high-precision and high-quality equipment.

Disclosure of Invention

Technical problem to be solved

The invention provides a building sound insulation and shock absorption floor structure, which has the advantages of excellent sound insulation and shock absorption effects, higher bearing capacity and no plastic deformation caused by long-time heavy object bearing, and solves the problems that the floor structure is mostly of an elastic and hollow structure, and although the floor structure can play a good sound insulation and shock absorption role, the floor structure has poor bearing capacity and is easy to generate plastic deformation caused by long-time heavy object bearing.

(II) technical scheme

The invention provides the following technical scheme: the utility model provides a building shock attenuation floor structure that gives sound insulation, includes positive plate structure and negative plate structure, crisscross concatenation each other between positive plate structure and the negative plate structure is mated formation subaerial, all include the floor layer between positive plate structure and the negative plate structure, the bottom on floor layer is equipped with the stay tube layer, the bottom fixed mounting on stay tube layer has the installation layer, the bottom on installation layer is through the fixed bonding of colloid for the building engineering subaerial.

Preferably, a square structure with a large top and a small bottom is adopted between the floor layer and the installation layer on the male board structure, and a square structure with a small top and a large bottom is adopted between the floor layer and the installation layer on the female board structure.

Preferably, sound insulation holes are formed in the lower portion of the interior of the floor layer in the transverse direction and the longitudinal direction, and silencing sponges are filled in the sound insulation holes.

Preferably, the supporting tube layer is divided into an upper layer structure and a lower layer structure, the upper side structure and the lower side structure are arranged in a staggered mode, meanwhile, the supporting tube layer is arranged in a hollow structure, and shear thickening liquid is filled in the supporting tube layer.

Preferably, the bottom end of the mounting layer is transversely provided with a fixing clamping groove, and the cross section of the fixing clamping groove is trapezoidal.

Preferably, the female plate structure or the male plate structure can only be cut along the axial direction of the support tube layer when the cutting pavement is needed.

(III) advantageous effects

The invention has the following beneficial effects:

1. this building shock attenuation floor structure gives sound insulation to building fills shear thickening liquid's setting in two-layer structure about the layer and the inner chamber to the bracing tube, because shear thickening liquid can be changed into the state of solid by the state of liquid when receiving pressure, compare with current shock attenuation floor structure that gives sound insulation, can increase its bearing capacity effectively, make it also be difficult for taking place deformation when receiving great pressure, thereby form stable effective support to the floor layer, in order to improve this shock attenuation floor structure's bearing capacity gives sound insulation.

2. This building shock attenuation floor structure that gives sound insulation to, to the setting of floor layer transversely with vertically separate the sound hole, when not changing its structural strength, can alleviate the quality on floor layer and the raw materials of production preparation effectively, simultaneously to the setting in horizontal and vertical sound insulation hole, can increase its deformation volume effectively in order to offset the phenomenon of expend with heat and contract with cold that this floor structure appears under the climatic environment of difference, and then ensured that this floor structure is difficult for appearing the inflation under long-term service environment, the phenomenon on stick up the limit.

3. This building shock attenuation floor structure that gives sound insulation, the setting that has the amortization sponge in the hole that gives sound insulation, can play good shock attenuation effect that gives sound insulation for most sound wave can be absorbed by the sponge, and can not come along with ground propagation, causes the region of laying mat formation this floor structure to keep comfortable, comfortable office environment always, and can not receive the influence of noise.

Drawings

FIG. 1 is a schematic view of the structure of the floor of the present invention;

FIG. 2 is a schematic view of the male plate structure of the present invention;

FIG. 3 is a schematic view of a shadow mask construction of the present invention;

FIG. 4 is a schematic view of the shear direction of the structure of the present invention;

FIG. 5 is a schematic structural view of the transverse splicing of the floor boards of the present invention;

FIG. 6 is a schematic structural view of longitudinal splicing of the floor boards.

In the figure: 1. a male panel structure; 2. a negative plate structure; 3. a floor layer; 4. a support tube layer; 5. mounting a layer; 6. a sound insulation hole; 7. and fixing the clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1-3, a building sound insulation and shock absorption floor structure comprises a positive plate structure 1 and a negative plate structure 2, the positive plate structure 1 and the negative plate structure 2 are spliced and paved on the ground in a staggered manner, a floor layer 3 is arranged between the positive plate structure 1 and the negative plate structure 2, a supporting tube layer 4 is arranged at the bottom end of the floor layer 3, an installation layer 5 is fixedly installed at the bottom end of the supporting tube layer 4, and the bottom end of the installation layer 5 is fixedly bonded on the ground through a glue for construction engineering.

In the technical scheme, a square structure with a large top and a small bottom is adopted between the floor layer 3 and the installation layer 5 on the male board structure 1, and a square structure with a large top and a small bottom is adopted between the floor layer 3 and the installation layer 5 on the female board structure 2.

Wherein, the plane size between floor layer 3, support tube layer 4 and the installation layer 5 is in proper order and increases progressively or degressive boss state to can stably laminate effectively when laying this floor structure together, and can not take place to splice the problem that appears the clearance when laying in its inside at this floor structure.

Wherein, to the setting of different structures between positive plate structure 1 and the negative plate structure 2, make it become the crisscross mode of arranging of mutual extrusion when mating formation to increased its joint strength each other effectively, and then improved this syllable-dividing shock attenuation floor structure's bearing capacity effectively.

In this technical scheme, floor layer 3 inside below transversely all is equipped with vertical separating the sound hole 6, and fills in the inside of sound hole 6 and has had the amortization sponge.

Wherein, to the setting of floor layer 3 transversely with vertical sound insulation hole 6, when not changing its structural strength, can alleviate floor layer 3's quality and the raw materials of production preparation effectively, simultaneously to the setting of horizontal and vertical sound insulation hole 6, can increase its deformation volume effectively in order to offset the phenomenon of this floor structure expend with heat and contract with cold that appears under the climatic environment of difference, and then ensured that this floor structure is difficult for appearing the phenomenon of inflation, stick up the limit under long-term service environment.

And the sound-deadening sponge is filled in the sound-deadening holes 6, so that a good sound-deadening effect can be achieved, most sound waves can be absorbed by the sponge and cannot be spread along with the ground, and the region of the floor structure which is paved can always keep a comfortable and comfortable office environment and is not easy to be influenced by noise.

In this technical scheme, two-layer structure about dividing into of support tube layer 4, and crisscross the arranging each other between the upper and lower both sides structure, the inside of support tube layer 4 simultaneously is hollow structure's arrangement to it has shear thickening liquid to fill at its inside.

Wherein, to the setting of two-layer structure about the bracing tube layer 4 and crisscross arranging thereof, when floor layer 3 received great pressure, the bracing tube layer 4 mutual extrusion of arranging through crisscross can be effectively with power dispersion to effective avoided floor layer 3 to lead to stress concentration because of long-time pressure-bearing, and then lead to its sunken condition to appear.

The shear thickening liquid is filled in the inner cavity of the support tube layer 4 because the shear thickening liquid can be converted into a solid state from a liquid state when being pressurized, so that the bearing capacity of the shear thickening liquid is effectively increased, the shear thickening liquid is not easy to deform when being pressurized, the floor layer 3 is stably and effectively protected, and the shear thickening liquid is further ensured not to generate irreversible plastic deformation when being used for bearing heavy objects for a long time.

Moreover, with the arrangement in which the shear thickening fluid is present, a greater energy loss occurs when sound propagates through different media, so that further sound damping treatment can be performed during sound propagation, resulting in a better sound insulation of the floor structure.

In this technical scheme, the horizontal fixed slot 7 that is equipped with of 5 bottoms on installation layer, and fixed slot 7's cross section becomes trapezoidal form.

Wherein, to the setting of 5 bottom trapezoidal form fixed slot 7 in installation layer, make it when utilizing for the colloid mat formation this floor structure for the building engineering, the intensity of its mat formation of increase that can be effective, cause it difficult emergence after the completion of mat formation to rock, the phenomenon of skew.

Referring to fig. 4-6, in the present technical solution, the female plate structure 2 or the male plate structure 1 can only be cut along the axial direction of the support tube layer 4 when needing to be cut and laid.

Wherein, to the setting of the shearing direction of positive plate structure 1 and negative plate structure 2 when the cutting is mated formation, be for forming effectual protection to supporting tube layer 4 and the shear thickening liquid wherein, can not influence the performance and the effect of other supporting tube layers 4 when its single supporting tube layer 4 receives destruction, and then improved the application scope of this floor structure effectively, make it and normal floor structure when using and no difference.

When using this floor structure and paving, because the area of paving in the different regional places is not of uniform size, so inevitably its marginal position, need cut monoblock floor structure in order to pave, so when needing to cut this floor structure, can only cut along the axial of support tube layer 4 to the protection is filled shear thickening liquid and the crisscross mode of paving each other of whole floor structure wherein, even after having destroyed a part of floor structure, makes other parts of this floor structure can normal use and can not receive the influence.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a building shock attenuation floor structure that gives sound insulation, includes positive plate structure (1) and negative plate structure (2), crisscross concatenation each other is mated formation subaerial between positive plate structure (1) and negative plate structure (2), its characterized in that: all include floor layer (3) between positive plate structure (1) and negative plate structure (2), the bottom on floor layer (3) is equipped with supports pipe layer (4), the bottom fixed mounting that supports pipe layer (4) has installation layer (5), the bottom on installation layer (5) is through the fixed bonding of colloid for the building engineering subaerial.

2. The building sound-insulation shock-absorption floor structure as claimed in claim 1, wherein: a square structure with a large upper part and a small lower part is adopted between the floor layer (3) and the installation layer (5) on the male board structure (1), and a square structure with a small upper part and a large lower part is adopted between the floor layer (3) and the installation layer (5) on the female board structure (2).

3. The building sound-insulation shock-absorption floor structure as claimed in claim 1, wherein: the sound insulation floor is characterized in that sound insulation holes (6) are transversely and longitudinally arranged below the floor layer (3), and silencing sponges are filled in the sound insulation holes (6).

4. The building sound-insulation shock-absorption floor structure as claimed in claim 1, wherein: the supporting tube layer (4) is divided into an upper layer structure and a lower layer structure, the upper side structure and the lower side structure are arranged in a staggered mode, meanwhile, the supporting tube layer (4) is arranged in a hollow structure, and shear thickening liquid is filled in the supporting tube layer.

5. The building sound-insulation shock-absorption floor structure as claimed in claim 1, wherein: the bottom end of the mounting layer (5) is transversely provided with a fixed clamping groove (7), and the cross section of the fixed clamping groove (7) is trapezoidal.

6. The building sound-insulation shock-absorption floor structure as claimed in claim 1, wherein: the female plate structure (2) or the male plate structure (1) can only be cut along the axial direction of the support tube layer (4) when needing to be cut and paved.

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