CN110230379B - Ceramic tile paving device with good sound insulation and paving method thereof - Google Patents

Abstract

The invention discloses a ceramic tile paving device with good sound insulation and a paving method thereof, comprising a supporting frame, wherein the supporting frame comprises a grid-shaped structure formed by a plurality of transverse supporting sections and longitudinal supporting sections which are mutually perpendicular, and also comprises a plurality of supporting columns, the supporting columns are detachably arranged on a mounting table body, the bottoms of the supporting columns are provided with height adjusting structures, the bottoms of all the mounting cavities are provided with sound insulation structures, and the sound insulation structures sequentially comprise a substrate layer, a sound insulation damping layer, a space insulation layer and a sound absorption layer from bottom to top. The tile with the curved bottom is paved and leveled by adjusting the height of the support column, so that the tile with the curved bottom is paved more simply and rapidly, the cost is saved, and the tile is convenient to replace; and the sound insulation structure is arranged in the installation cavity below the ceramic tile to isolate noise between the upper floor and the lower floor, so that the interference of noise radiated by the vibration of an upstairs ground object on the downstairs is reduced.

Description

Ceramic tile paving device with good sound insulation and paving method thereof

Technical Field

The invention relates to the field of tile paving, in particular to a tile paving device with good sound insulation and a tile paving method thereof.

Background

At present, tile paving is performed manually by cement mortar, and the bottom surface of a tile finished product is provided with a certain bending degree instead of a plane, namely the bottom of each tile is a curved surface, and the bending degree of each tile is different: some have large points of curvature, some have small points of curvature, and the form of curvature is also varied, some have a "W" shape, and some have a "parabolic" shape. If cement mortar is used for paving, the paved tiles are easy to be uneven due to different bending degrees of each tile; and when the cement mortar is paved, more mortar is smeared at the center of the back of the ceramic tile, the center of the ceramic tile is used as a supporting point, but the middle of the ceramic tile with the bottom being a curved surface is unstable, so that the stress of the mortar is large, the mortar on four corners of the bottom of the ceramic tile is less, and almost no mortar is left, so that the corners of the ceramic tile are easy to crack in the use process, and the ceramic tile is inconvenient to replace.

In addition, the existing ceramic tiles are paved by cement paste, the bottom of the ceramic tile cannot be provided with a sound insulation structure, so that the problem of poor sound insulation exists among floors, such as walking sound on the floors, mopping chairs, jumping of children and loud speaking are easy to pass to the floors, everyone is in touch, the noise radiated by solid vibration is caused by the impact sound and the like of the furniture dragged and objects due to walking of people on the floors, the interference to the floors is particularly serious, and the noise among floors always plagues people.

Disclosure of Invention

The invention aims to provide a ceramic tile paving device with good sound insulation and a ceramic tile paving method, cement mortar is not required to be added to fix ceramic tiles, the paving and leveling of the ceramic tiles with curved bottoms are realized by adjusting the heights of support columns, and a sound insulation structure is arranged in a mounting cavity below the ceramic tiles to isolate noise between an upper floor and a lower floor, so that the interference of noise radiated by vibration of an upstairs ground object on the downstairs is reduced.

To achieve the purpose, the invention adopts the following technical scheme:

the ceramic tile paving device with good sound insulation comprises a supporting frame, wherein the supporting frame is a grid-shaped structure formed by a plurality of transverse supporting sections and longitudinal supporting sections which are perpendicular to each other, and each grid surrounded by the transverse supporting sections and the longitudinal supporting sections is a ceramic tile installation unit;

the tile installation unit comprises an installation cavity and an installation platform body, the installation platform body is arranged around a grid formed by the transverse support section and the longitudinal support section in a surrounding mode, the top surface of the installation platform body is lower than the top surfaces of the transverse support section and the longitudinal support section, and the middle part of the installation platform body is hollowed out to form the installation cavity;

the installation platform body is provided with a plurality of support columns, and the two opposite sides or the periphery of the installation platform body are provided with the plurality of support columns;

the support column is detachably arranged on the installation platform body, the bottom of the support column is provided with a height adjusting structure, and the height of the support column on the installation platform body is adjusted through the height adjusting structure;

still include a plurality of sound insulation structure, each the bottom of installation cavity all is equipped with sound insulation structure, sound insulation structure is from supreme substrate layer, sound insulation buffer layer, separate the empty space layer and inhale the sound layer of including in proper order down, separate the empty space layer for the cavity that separates sound insulation buffer layer and inhale the sound layer by sound insulation support, the sound insulation buffer layer is equipped with the sound insulation skeleton, the sound insulation skeleton cover in the upper surface of substrate layer, the intussuseption of sound insulation skeleton is filled with sound insulation material.

Preferably, the material of the substrate layer is a rubber pad or a foam cushion, the sound insulation framework is a porous framework made of sound insulation plates, the sound insulation material filled in the sound insulation framework is sound insulation cotton or sound insulation felt, and the material of the sound absorption layer is elastic sound absorption cotton.

Preferably, the height adjusting structure of the support column is a threaded structure, a corresponding threaded hole is formed in the mounting table body, the support column is detachably connected with the mounting table body through the threaded hole in a threaded mode, and the height of the support column on the mounting table body is adjusted through rotating the support column.

Preferably, the height adjusting structure of the support column is a latch structure, external tooth-shaped protrusions are uniformly distributed on the whole side surface of the support column in parallel, corresponding mounting holes are formed in the mounting table body, and internal tooth-shaped protrusions are arranged in the mounting holes;

the external tooth-shaped bulge is two circular arc-shaped external teeth with the outer arc length smaller than 1/4 of the outer arc length, which are oppositely arranged in the horizontal direction, the internal tooth-shaped bulge is two circular arc-shaped internal teeth with the inner arc length smaller than 1/4 of the outer arc length, and the tooth shapes of the external tooth-shaped bulge and the internal tooth-shaped bulge are matched with each other.

Preferably, the tops of the support columns are provided with anti-slip pads.

Preferably, the plurality of support columns positioned on one side of the installation platform body are opposite to the plurality of support columns positioned on the opposite side; the support columns are made of metal or hard plastic, and the maximum height of the support columns is two-thirds to three-quarters of the height of the top surfaces of the transverse support sections and the longitudinal support sections.

Preferably, the top of the support frame is further provided with auxiliary grooves, and the auxiliary grooves penetrate through all the transverse support sections and the longitudinal support sections to form a grid-shaped groove structure.

Preferably, the auxiliary groove is located in the middle of the top surface of the transverse supporting section and the middle of the top surface of the longitudinal supporting section, the width of the transverse supporting section is the same as the width of the longitudinal supporting section, the width of the auxiliary groove is 1-4 mm, and the width of the transverse supporting section is 1-4 mm larger than the width of the auxiliary groove.

Preferably, the device further comprises a plurality of leveling feet, wherein a plurality of leveling feet are arranged at the bottom of the supporting frame, and each leveling foot is provided with a telescopic adjusting structure;

the leveling support legs are positioned at the intersection of the transverse support section and the longitudinal support section; the telescopic adjusting structure of the leveling support leg is of a threaded structure, a supporting frame is provided with a corresponding threaded hole, the leveling support leg is in threaded connection with the supporting frame through the threaded hole, and the telescopic length of the leveling support leg is adjusted through rotating the leveling support leg.

Preferably, the tile paving method using the tile paving device with good sound insulation is used for paving tiles with curved bottoms, and comprises the following steps:

firstly, placing a ceramic tile paving device with good sound insulation on the ground to be paved, and then keeping the support frame horizontal by adjusting the telescopic length of the leveling support legs;

placing the ceramic tile in a ceramic tile installation unit, and adjusting the height of each support column in the ceramic tile installation unit so that all support columns in the ceramic tile installation unit are attached to the curved surface of the bottom of the ceramic tile and all ceramic tiles are on the same horizontal plane;

thirdly, adding a tile seam beautifying agent into the transverse support sections and the longitudinal support sections between the tiles to beautify gaps between the tiles.

The ceramic tile paving device with good sound insulation is used for paving floor tiles, especially for paving tiles with curved bottoms, so that the surfaces of the ceramic tiles with curved bottoms are smooth after paving, and sound insulation structures are arranged in installation cavities below the ceramic tiles to isolate noise between upper floors and lower floors, and noise radiated by vibration of ground objects on the floors is reduced to disturb the floors. The ceramic tile is placed on the support column with the height adjusted, so that the positioning and the fixing can be realized, cement mortar is not required to be added to fix the ceramic tile during paving, namely, the paving and leveling of the ceramic tile with the curved surface at the bottom are realized by adjusting the height of the support column, and the paving of the ceramic tile with the curved surface at the bottom is simpler and faster, the cost is saved, and the ceramic tile is convenient to replace. The sound insulation structure sequentially comprises a substrate layer, a sound insulation and shock absorption layer, a space isolation layer and a sound absorption layer from top to bottom, the substrate layer can reduce sound wave reflection, the sound insulation and shock absorption layer isolates the propagation path of sound, the generation of the echo sound can be effectively avoided, the interference and propagation of noise are reduced, the space isolation layer forms a sound absorption channel, and the sound absorption layer reduces the sound transmission performance of high-frequency impact sound and plays a role in sound absorption and noise reduction. The noise generated by the collision of people or objects with the ceramic tiles and the noise transmitted in the air can be greatly reduced through the sound insulation structure, and the detection result shows that the reduction reaches more than 19 dB.

Drawings

The present invention is further illustrated by the accompanying drawings, which are not to be construed as limiting the invention in any way.

FIG. 1 is a schematic top view of a tile paving apparatus with good sound insulation according to one embodiment of the present invention;

FIG. 2 is another schematic top view of a tile paving apparatus with good sound insulation according to one embodiment of the present invention;

FIG. 3 is a longitudinal cross-sectional view of a tile paving device with good sound insulation according to one embodiment of the present invention;

FIG. 4 is another longitudinal cross-sectional view of a tile paving device with good sound insulation according to one embodiment of the present invention;

FIG. 5 is a front view of a sound insulation structure of one embodiment of the present invention;

FIG. 6 is a block diagram of a tile installation unit according to one embodiment of the present invention;

FIG. 7 is a block diagram of a support column latch according to one embodiment of the present invention;

FIG. 8 is a diagram of the external teeth structure of one embodiment of the present invention;

FIG. 9 is a block diagram of the internal teeth of one embodiment of the present invention;

FIG. 10 is a schematic top view of a tile paving apparatus with good sound insulation according to another embodiment of the present invention;

FIG. 11 is another schematic top view of a tile paving apparatus with good sound insulation according to another embodiment of the present invention;

FIG. 12 is a longitudinal cross-sectional view of a tile paving device with good sound insulation according to another embodiment of the present invention;

fig. 13 is another longitudinal cross-sectional view of a tile paving device with good sound insulation according to another embodiment of the present invention.

Wherein: a support frame 1; a transverse support section 11; a longitudinal support section 12; a tile installation unit 13; a mounting cavity 131; a mounting table 132; a support column 2; an outer tooth-shaped protrusion 21; an inner tooth-shaped projection 133; external teeth 211; internal teeth 134; a non-slip mat 22; an auxiliary groove 14; leveling feet 3; a sound insulation structure 4; a substrate layer 41; a sound insulation and shock absorption layer 42; a spacer layer 43; a sound absorbing layer 44; a sound insulating bracket 431.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Example 1

The ceramic tile paving device with good sound insulation of this embodiment, as shown in fig. 1, fig. 2, including braced frame 1, braced frame 1 comprises many mutually perpendicular's horizontal support section 11 and vertical support section 12 and constitutes grid-like structure, each net that horizontal support section 11 and vertical support section 12 enclose is each ceramic tile installation unit 13, its characterized in that:

the tile installation unit 13 comprises an installation cavity 131 and an installation platform body 132, the installation platform body 132 is arranged around a grid formed by the transverse support section 11 and the longitudinal support section 12 in a surrounding mode, the top surface of the installation platform body 132 is lower than the top surfaces of the transverse support section 11 and the longitudinal support section 12, and the middle part of the installation platform body 132 is hollowed out to form the installation cavity 131;

as shown in fig. 1 to 4, the mounting table further comprises a plurality of support columns 2, wherein the plurality of support columns 2 are mounted on two opposite sides or four sides of the mounting table 132;

the support column 2 is detachably mounted on the mounting table body 132, and a height adjusting structure is arranged at the bottom of the support column 2, and the height of the support column 2 on the mounting table body 132 is adjusted through the height adjusting structure;

as shown in fig. 5 and 6, the device further comprises a plurality of sound insulation structures 4, the bottom of each installation cavity 131 is provided with the sound insulation structures 4, the sound insulation structures 4 sequentially comprise a substrate layer 41, a sound insulation damping layer 42, a space layer 43 and a sound absorption layer 44 from bottom to top, the space layer 43 is a cavity formed by separating the sound insulation damping layer 42 and the sound absorption layer 44 by a sound insulation bracket 431, the sound insulation damping layer 42 is provided with a sound insulation framework, the sound insulation framework is covered on the upper surface of the substrate layer 41, and the sound insulation framework is filled with sound insulation materials.

The tile paving device is used for paving floor tiles, in particular to paving tiles with curved bottoms, so that the surfaces of the tiles with the curved bottoms are smooth after paving, and noise between upper floors and lower floors is isolated by arranging the sound insulation structure 4 in the installation cavity 131 below the tiles, and the interference of noise radiated by vibration of an upstairs floor object to the downstairs is reduced. Tiles with curved bottoms are placed in the respective mounting cavities 131 and supported by the support columns 2. Through adjusting the height of each support column 2 on each installation platform body 132 for each support column 2 suits with the bottom curved surface of ceramic tile, and then make the bottom be the ceramic tile upper surface of curved surface keep level and all ceramic tiles are in same horizontal plane, the size of the net that horizontal support section 11 and vertical support section 12 enclose is the same with the ceramic tile's that lays, the ceramic tile pastes with the net of placing, and can make the upper surface of ceramic tile be higher than the top plane of horizontal support section 11 and vertical support section 12, the ceramic tile is placed on highly adjusted support column 2 and can be realized fixing and fixing, need not to add cement mortar when laying and fix the ceramic tile, realize the laying and the leveling of ceramic tile that the bottom is the curved surface through adjusting the height of support column 2 promptly, make the laying of ceramic tile that the bottom is the curved surface more simple and fast, save cost and be convenient for change the ceramic tile. Moreover, the widths of the transverse supporting section 11 and the longitudinal supporting section 12 are fixed, so that gaps between tiles are also fixed, the problem that gaps between tiles are uneven when existing cement is paved to cause poor attractiveness is avoided, the tile joint beautifying agent is filled in the transverse supporting section 11 and the longitudinal supporting section 12 between the tiles when the tile paving device is adopted, joint beautifying work is more convenient, and the problem that the tiles are mixed with cement to be cleaned one by one when joint beautifying is avoided.

The support column 2 can be detached and the height can be adjusted, so that the height can be adjusted by reducing or adding the support column 2 and lifting the support column 2 according to the bending condition of the bottom curved surface of the ceramic tile to be paved, and the operation is flexible.

The sound insulation structure 4 sequentially comprises a substrate layer 41, a sound insulation and shock absorption layer 42, a space isolation layer 43 and a sound absorption layer 44 from top to bottom, the substrate layer 41 can reduce sound wave reflection, the sound insulation and shock absorption layer 42 isolates a sound propagation path, the generation of echo sound can be effectively avoided, the interference and propagation of noise are reduced, the space isolation layer 43 forms a sound absorption channel, and the sound absorption layer 44 reduces the sound transmission performance of high-frequency impact sound and plays a role in sound absorption and noise reduction. The noise generated by the collision of people or objects with the ceramic tiles and the noise transmitted in the air can be greatly reduced through the sound insulation structure 4, and the detection result shows that the reduction reaches more than 19 dB.

Preferably, the material of the backing layer 41 is a rubber pad or a foam pad, the sound insulation skeleton is a porous skeleton made of a sound insulation board, the sound insulation material filled in the sound insulation skeleton is a sound insulation cotton or a sound insulation felt, and the material of the sound absorption layer 44 is an elastic sound absorption cotton.

The rubber pad or the foam cushion can reduce the reflection of sound waves and play a role in damping. The sound insulation framework is a porous framework made of sound insulation plates, plays a role in damping during sound insulation, and the holes of the sound insulation framework are filled with sound insulation cotton or sound insulation felt, so that sound energy radiated downwards by upstairs noise is reduced, and noise generated by collision of people or objects with ceramic tiles and noise transmitted in air are isolated, separated and separated. The elastic sound-absorbing cotton reduces the sound transmission performance of high-frequency impact sound, has excellent rebound resilience and reduces vibration. The sound insulation structure 4 fully considers the wide frequency range related to the sound such as footsteps and speaking on the building and the propagation characteristics of sound waves (the sound waves can be reflected and transmitted when passing through materials with different densities), effectively isolates the propagation path of the sound, avoids the generation of echo sound, and reduces the interference and propagation of noise.

Preferably, the support column 2 is detachably screwed with the mounting table 132 through a screw hole, and the height of the support column 2 on the mounting table 132 is adjusted by rotating the support column 2. The height adjusting structure of the support column 2 is a threaded structure, the support column 2 is installed on the installation platform body 132 through threads, the height of the support column 2 can be adjusted through rotating the support column 2, and the operation is convenient.

Preferably, as shown in fig. 4, the top of the support column 2 is provided with a non-slip mat 22. The anti-slip pad 22 can prevent the tile on the support column 2 from moving, and improve the paving reliability of the tile.

Preferably, the plurality of support columns 2 located at one side of the mounting platform 132 are opposite to the plurality of support columns 2 located at the opposite side; the support column 2 is made of metal or hard plastic, and the maximum height of the support column 2 is two-thirds to three-quarters of the height of the top surfaces of the transverse support section 11 and the longitudinal support section 12.

The support column 2 is made of firm and durable materials. So that the upper surface of the ceramic tile is higher than the top surfaces of the transverse support section 11 and the longitudinal support section 12 after the ceramic tile is paved, the ceramic tile paving device with good sound insulation is covered after the ceramic tile is paved, the ceramic tile paving device with good sound insulation is not visible, and the paving is more attractive. Because the curved surfaces at the bottom of the ceramic tile are consistent in bending conditions at the two opposite sides, the support columns 2 at the two opposite sides can be arranged in a one-to-one correspondence manner for convenient adjustment.

Preferably, as shown in fig. 3 and 4, the device further comprises a plurality of leveling feet 3, wherein a plurality of leveling feet 3 are mounted at the bottom of the supporting frame 1, and the leveling feet 3 have telescopic adjusting structures;

the leveling feet 3 are positioned at the intersection of the transverse support section 11 and the longitudinal support section 12; the telescopic adjusting structure of the leveling support leg 3 is of a threaded structure, a corresponding threaded hole is formed in the supporting frame 1, the leveling support leg 3 is in threaded connection with the supporting frame 1 through the threaded hole, and the telescopic length of the leveling support leg 3 is adjusted through rotating the leveling support leg 3.

In practice, the ground to be tiled may have a certain inclination rather than being horizontal, which may lead to uneven tiling. Therefore, the ceramic tile paving device with good sound insulation is provided with the plurality of leveling support legs 3 at the bottom of the supporting frame 1, and the whole supporting frame 1 is horizontal by adjusting the telescopic length of the leveling support legs 3, so that the paving of ceramic tiles is ensured to be kept flat. Leveling feet 3 are arranged at the intersection, so that the structural strength and the supporting stability are improved. The fixing and the telescopic length adjustment of the leveling support legs 3 can be realized through threads, and the operation is convenient.

Preferably, the tile paving method using the tile paving device with good sound insulation is used for paving tiles with curved bottoms, and comprises the following steps:

firstly, placing a ceramic tile paving device with good sound insulation on the ground to be paved, and then keeping the support frame 1 horizontal by adjusting the telescopic length of the leveling support legs 3;

step two, placing the ceramic tile in a ceramic tile installation unit 13, and adjusting the height of each support column 2 in the ceramic tile installation unit 13 so that all support columns 2 in the ceramic tile installation unit 13 are attached to the bottom curved surface of the ceramic tile and all ceramic tiles are on the same horizontal plane;

and thirdly, adding a tile joint beautifying agent into the transverse support sections 11 and the longitudinal support sections 12 between the tiles to beautify gaps between the tiles.

The ceramic tile paving method of the ceramic tile paving device with good sound insulation can realize positioning and fixing by placing the ceramic tile on the support column 2 with good height adjustment, and cement mortar is not required to be added to fix the ceramic tile during paving, namely, the paving and leveling of the ceramic tile with the curved bottom are realized by adjusting the height of the support column 2, so that the paving of the ceramic tile with the curved bottom is simpler and faster, the cost is saved, and the ceramic tile is convenient to replace. Moreover, the widths of the transverse support section 11 and the longitudinal support section 12 are fixed, so that gaps between tiles are also fixed, the problem that gaps between tiles are uneven when existing cement is paved to cause poor attractiveness is avoided, the tile joint compound is filled in the transverse support section 11 and the longitudinal support section 12 between the tiles when the tile paving device with good sound insulation is adopted, joint compound work is more convenient, and the problem that the tiles are cleaned one by one due to cement mixed in the gaps when joint compound is avoided.

Example 2

In the tile paving device with good sound insulation, as shown in fig. 7 to 9, the height adjusting structure of the support column 2 is a latch structure, outer tooth-shaped protrusions 21 are uniformly and parallelly distributed on the whole side surface of the support column 2, corresponding mounting holes are formed in the mounting table body 132, and inner tooth-shaped protrusions 133 are arranged in the mounting holes;

the external tooth-shaped protrusion 21 is two circular arc-shaped external teeth 211 with the arc length smaller than 1/4 of the external arc length, the internal tooth-shaped protrusion 133 is two circular arc-shaped internal teeth 134 with the arc length smaller than 1/4 of the internal arc length, and the tooth shapes of the external tooth-shaped protrusion 21 and the internal tooth-shaped protrusion 133 are matched with each other. Other technical features are the same as those of embodiment 1.

When the support post 2 is inserted into the mounting hole, the external tooth-shaped protrusions 21 and the internal tooth-shaped protrusions 133 are staggered with each other by rotating the support post 2, so that the support post 2 can move up and down in the mounting hole; after the height of the support column 2 is determined, the external tooth-shaped protrusions 21 and the internal tooth-shaped protrusions 133 are meshed with each other by rotating the support column 2, so that the support column 2 is fixed on the mounting hole, and the latch structure can realize the disassembly and height adjustment of the support column 2 and is convenient to operate.

Example 3

In the tile paving device with good sound insulation of the present embodiment, as shown in fig. 10 to 13, the top of the supporting frame 1 is further provided with an auxiliary groove 14, and the auxiliary groove 14 penetrates through all the transverse supporting sections 11 and the longitudinal supporting sections 12 to form a grid-shaped groove structure. Other technical features are the same as those of embodiment 1 or other technical features are the same as those of embodiment 2.

The auxiliary groove 14 can be used for filling the seam beautifying agent and can also be used for accommodating ground pipelines such as electric wire water pipes and the like. At present, pipelines can be arranged on the ground in house decoration, then tiles are paved by cement, once the pipelines fail, the pipelines on the ground are difficult to check, and the tiles are required to be pried or smashed, so that the house decoration is very troublesome. The tile paving device with good sound insulation is provided with the auxiliary groove 14, so that the ground pipeline can be accommodated in the auxiliary groove 14, and the auxiliary groove 14 is of a grid-shaped groove structure, so that the decoration personnel can conveniently plan the wiring arrangement of the ground pipeline; after the ground pipeline is stored, the tile seam beautifying agent is filled at the top of the auxiliary groove 14, so that the ground pipeline is hidden, and the tile seam beautifying agent is attractive and convenient; when the ground pipeline is required to be checked or replaced, the tile joint beautifying agent is only required to be removed, and the tile does not need to be moved.

Preferably, the auxiliary groove 14 is located at the middle of the top surface of the transverse support section 11 and the middle of the top surface of the longitudinal support section 12, the width of the transverse support section 11 is the same as the width of the longitudinal support section 12, the width of the auxiliary groove 14 is 1 mm-4 mm, and the width of the transverse support section 11 is 1 mm-4 mm larger than the width of the auxiliary groove 14. And adjusting the width according to actual needs.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. The utility model provides a ceramic tile paving device that gives sound insulation is good, includes braced frame, braced frame comprises grid-like structure by many mutually perpendicular's horizontal support section and longitudinal support section, each net that horizontal support section and longitudinal support section enclose is each ceramic tile installation unit, its characterized in that:

the tile installation unit comprises an installation cavity and an installation platform body, the installation platform body is arranged around a grid formed by the transverse support section and the longitudinal support section in a surrounding mode, the top surface of the installation platform body is lower than the top surfaces of the transverse support section and the longitudinal support section, and the middle part of the installation platform body is hollowed out to form the installation cavity;

the installation platform body is provided with a plurality of support columns, and the two opposite sides or the periphery of the installation platform body are provided with the plurality of support columns;

the support column is detachably arranged on the installation platform body, the bottom of the support column is provided with a height adjusting structure, and the height of the support column on the installation platform body is adjusted through the height adjusting structure;

still include a plurality of sound insulation structure, each the bottom of installation cavity all is equipped with sound insulation structure, sound insulation structure is from supreme substrate layer, sound insulation buffer layer, separate the empty space layer and inhale the sound layer of including in proper order down, separate the empty space layer for the cavity that separates sound insulation buffer layer and inhale the sound layer by sound insulation support, the sound insulation buffer layer is equipped with the sound insulation skeleton, the sound insulation skeleton cover in the upper surface of substrate layer, the intussuseption of sound insulation skeleton is filled with sound insulation material.

2. A sound-insulating tile-paving device according to claim 1, wherein: the material of substrate layer is rubber pad or foam-rubber cushion, the sound insulation skeleton is the porous skeleton of being made by the acoustic celotex board, the sound insulation material that the sound insulation skeleton was filled is soundproof cotton or sound-proof felt, the material of sound absorbing layer is elasticity sound absorbing cotton.

3. A sound-insulating tile-paving device according to claim 1, wherein: the height adjusting structure of the support column is a threaded structure, a corresponding threaded hole is formed in the installation table body, the support column is detachably connected with the installation table body through the threaded hole in a threaded mode, and the height of the support column on the installation table body is adjusted through rotating the support column.

4. A sound-insulating tile-paving device according to claim 1, wherein: the height adjusting structure of the support column is a latch structure, outer tooth-shaped protrusions are uniformly distributed on the whole side surface of the support column in parallel, corresponding mounting holes are formed in the mounting table body, and inner tooth-shaped protrusions are arranged in the mounting holes;

the external tooth-shaped bulge is two circular arc-shaped external teeth with the outer arc length smaller than 1/4 of the outer arc length, which are oppositely arranged in the horizontal direction, the internal tooth-shaped bulge is two circular arc-shaped internal teeth with the inner arc length smaller than 1/4 of the outer arc length, and the tooth shapes of the external tooth-shaped bulge and the internal tooth-shaped bulge are matched with each other.

5. A sound-insulating tile-paving device according to claim 1, wherein: and the tops of the support columns are provided with anti-slip pads.

6. A sound-insulating tile-paving device according to claim 1, wherein: the support columns are arranged on one side of the installation platform body and are opposite to the support columns on the opposite side; the support columns are made of metal or hard plastic, and the maximum height of the support columns is two-thirds to three-quarters of the height of the top surfaces of the transverse support sections and the longitudinal support sections.

7. A sound-insulating tile-paving device according to claim 1, wherein: the top of the supporting frame is also provided with an auxiliary groove, and the auxiliary groove penetrates through all the transverse supporting sections and the longitudinal supporting sections to form a grid-shaped groove structure.

8. A sound-insulating tile-paving device according to claim 7, wherein: the auxiliary groove is positioned in the middle of the top surface of the transverse supporting section and the middle of the top surface of the longitudinal supporting section, the width of the transverse supporting section is the same as that of the longitudinal supporting section, the width of the auxiliary groove is 1-4 mm, and the width of the transverse supporting section is 1-4 mm larger than that of the auxiliary groove.

9. A sound-insulating tile-paving device according to claim 7, wherein: the support frame comprises a support frame, a plurality of support frames and a plurality of leveling support legs, wherein the support frames are arranged on the support frame, and the support frames are provided with a plurality of support frames;

the leveling support legs are positioned at the intersection of the transverse support section and the longitudinal support section; the telescopic adjusting structure of the leveling support leg is of a threaded structure, a supporting frame is provided with a corresponding threaded hole, the leveling support leg is in threaded connection with the supporting frame through the threaded hole, and the telescopic length of the leveling support leg is adjusted through rotating the leveling support leg.

10. A tile laying method using the tile laying device with good sound insulation as claimed in claim 9, characterized by being used for laying tiles with curved bottoms, comprising the steps of:

firstly, placing a ceramic tile paving device with good sound insulation on the ground to be paved, and then keeping the support frame horizontal by adjusting the telescopic length of the leveling support legs;

placing the ceramic tile in a ceramic tile installation unit, and adjusting the height of each support column in the ceramic tile installation unit so that all support columns in the ceramic tile installation unit are attached to the curved surface of the bottom of the ceramic tile and all ceramic tiles are on the same horizontal plane;

thirdly, adding a tile seam beautifying agent into the transverse support sections and the longitudinal support sections between the tiles to beautify gaps between the tiles.