CN115807519B - Detachable assembled ground installation adjusting system and assembling method thereof - Google Patents

Abstract

The invention discloses a detachable assembled ground installation adjusting system and an assembling method thereof, wherein the system comprises an aluminum alloy base main keel, an aluminum alloy base auxiliary keel, an adjustable foot margin assembly, a detachable silicon-calcium plate base layer and a modularized decoration surface layer; the aluminum alloy base main joist and the aluminum alloy base auxiliary joist are fixed on the adjustable foundation assembly to form a foundation frame stress system, the foundation frame stress system is connected with the original concrete ground structure by rotating the adjustable foundation assembly to adjust the height, the detachable calcium silicate board base layer and the modularized decoration surface layer form an assembled ground plate, and the foundation frame stress system and the assembled ground plate are assembled on site to form a whole. The invention can realize the construction of the decorative floor which is quick and economical, has high quality and does not depend on the original floor, and can realize the detachable and repeated utilization of the surface layer.

Description

Detachable assembled ground installation adjusting system and assembling method thereof

Technical Field

The invention relates to the technical field of ground assembly for interior decoration, in particular to a detachable assembled ground installation adjusting system and an assembling method thereof.

Background

The prefabricated building has been widely used in recent years due to the excellent characteristics of high efficiency, high precision, good structural earthquake resistance and the like, and the standardized production of prefabricated parts, the convenient and quick integral hoisting and the efficient control of construction precision provide powerful support and guarantee for the popularization and the use of the prefabricated building. Like fabricated structural systems, fabricated decorations are increasingly being used as an important component of fabricated constructions in the decoration industry. With the appearance of novel materials and the development of novel processes, diversified selection and short-period replacement of decorative surface layers are normal, and the assembled type decoration rapid-assembly system can meet the requirements.

When the traditional decoration and fitment process is used for finishing the surface layer of the ground, the dry paving process of the wood floor and the block materials is usually adopted on the original concrete ground, the surface layer of stone, ceramic tile and the like is required to be subjected to wet operation paving of the surface layer after being leveled by cement mortar on the ground, the original ground is leveled, the high flatness requirement is provided, the base layer can be treated to meet the process quality requirement of the surface layer, the wet operation in the base layer construction process often causes waste of materials and energy sources, and the level of operators constructing the base layer is also not less tested. Ceramic tile, stone material surface course are connected through cement mortar and concrete floor, although have satisfied the demand of roughness and firmness, can't carry out effectual and the change of environmental protection when the surface course is damaged, often need chisel to remove corresponding damaged region and carry out the secondary again and spread the subsides to receive environmental factor, can not fine satisfy the demand of changing instant use promptly.

Aiming at the problems that the traditional decoration and fitment ground base layer can not realize systematic and standardized rapid installation and is greatly dependent on the barrier of the base layer, the conventional method firstly needs to treat the original base layer, when a pipeline is embedded, thickening treatment is needed to be carried out on the ground base layer or slotting is needed to be carried out on the original ground, and the surface layer is laid after the pipeline is embedded, so that the requirements of the construction period of rapid construction can not be met and the waste of materials is caused; in addition, the existing assembled ground overhead system is mainly fixedly connected with structural adhesive, once the ground decoration surface layer is damaged, the surface layer is required to be broken and detached, different decoration surface layers cannot be paved and pasted by the same process, and the functional requirement of multiple detachable utilization cannot be met.

Disclosure of Invention

The invention aims to: in order to solve the problems that the adaptability of the conventional ground decoration is low, the conventional ground decoration cannot be disassembled and recycled, and the like, the invention aims to provide the disassembled and assembled ground installation and adjustment system and the assembling method thereof, which can realize the construction of the decorative ground which is rapid and economical, high-quality and independent of the original ground, and can realize the disassembly and recycling of the surface layer.

The technical scheme is as follows: the invention relates to a detachable assembled ground installation adjusting system, which comprises an aluminum alloy base main keel, an aluminum alloy base auxiliary keel, an adjustable foot margin assembly, a detachable silicon-calcium plate base layer and a modularized decoration surface layer, wherein the aluminum alloy base main keel is arranged on the aluminum alloy base auxiliary keel;

the adjustable ground anchor assembly is arranged at equal intervals according to a field plane, and is provided with a lower disc which is in contact with the ground, a vertical rod which is arranged in the center of the lower disc and can be adjusted in height, and an upper disc which is arranged at the top of the vertical rod, wherein the upper disc of the adjustable ground anchor assembly in the field plane is supported at the same height through the vertical rod;

the aluminum alloy base main keels and the aluminum alloy base auxiliary keels are provided with protruding triangular areas in the middle, and are transversely or longitudinally arranged on the upper disc of the adjustable foundation assembly and fixedly connected with the middle of the upper disc, and the aluminum alloy base auxiliary keels are arranged between adjacent aluminum alloy base main keels at intervals and fixedly connected with the edges of the upper disc; the aluminum alloy base main keels and the aluminum alloy base auxiliary keels are connected to form a base layer frame stress system, the base layer frame stress system is of a grid structure, and a single grid is of a square frame structure matched with the detachable calcium plate base layer;

the modularized device surface layer is arranged on the upper surface of the detachable calcium plate to form an integral structure, the side edge of the detachable calcium plate base layer is provided with a shockproof pad, and the detachable calcium plate base layer is placed in a grid of a base frame stress system and is connected with inclined plane contact of a convex triangular area of the aluminum alloy base main keel and the aluminum alloy base auxiliary keel through the shockproof pad.

Further perfecting the technical scheme, still be equipped with the reinforcing disc spare in the pole setting of adjustable lower margin subassembly, be equipped with the screw thread section in the pole setting, the reinforcing disc spare in the scene plane is in same height in the pole setting through threaded connection, links to each other through the connecting pull rod between the reinforcing disc spare in horizontal or vertical adjacent pole setting.

Further, the modularized decorative surface layer is made of any one of a block material, a direct surface coating material, a ceramic tile and a stone material.

Further, the detachable calcium plate base layer is a standard plate with any specification of 800 x 800mm, 600 x 600mm and 600 x 1200 mm.

Further, the cross section structures of the aluminum alloy base main joist and the aluminum alloy base auxiliary joist are the same, the middle part of the cross section is a convex triangular area, two sides of the cross section are concave triangular areas, and a platform area is arranged between the convex triangular area and the concave triangular areas on two sides; four main joist mounting holes are formed in the middle of the upper disc, two auxiliary joist mounting holes are formed in two sides of the upper disc respectively, and the aluminum alloy base main joists and the aluminum alloy base auxiliary joists are mounted on the upper disc and fixed with the corresponding mounting holes through flat head screws located triangular areas of grooves on two sides.

The assembling method adopting the detachable assembled ground installation adjusting system comprises the following steps:

s1: selecting an adjustable anchor assembly with proper length according to the height of the ground overhead, carrying out equidistant distribution on the adjustable anchor assembly according to the on-site planar arrangement, rotating an upper disc of the adjustable anchor assembly, adjusting the vertical rod to the required height, rotating a fixing nut at the bottom of the upper disc, and fixing the adjustable anchor assembly;

s2: fixing the aluminum alloy base main keels at the middle part of an upper disc of the adjustable foundation assembly through fixed flat head screws, rotating the fixed flat head screws to realize fine adjustment, and sequentially installing aluminum alloy base auxiliary keels between adjacent aluminum alloy base main keels at intervals according to the size of the plate so as to form a grid-shaped base frame stress system;

s3: the modularized decorative surface layer and the detachable silicon-calcium board base layer are assembled together in advance in a factory to be used as an assembled floor block to be transported to the site;

s4: and adding an anti-vibration gasket on the side edge of the detachable calcium silicate board base layer, putting the assembled floor block into a grid of a grid-shaped base layer frame stress system, and performing friction contact with inclined planes of the aluminum alloy base main joists and the aluminum alloy base auxiliary joist protruding triangular areas to realize assembly.

Further, the reinforcing disc piece is connected to the vertical rod in a threaded manner, and after the adjustable foundation assembly is fixed in the step S1, the reinforcing disc is rotated to the same height and the connecting pull rod is fixed to the adjacent reinforcing disc piece.

Furthermore, the detachable calcium silicate board base layer 7 firstly calculates the stress load of the overhead ground when being arranged, and carries out a stress test in a laboratory to determine the density and the material adopted by the detachable calcium silicate board base layer to meet the field practical requirements.

Further, when the modularized decorative surface layer is made of a block material or a direct coating material, different material effects and patterns can be sprayed or transferred according to the effect requirements, and the formed assembled floor block is placed in a grid of a base frame stress system and is installed in a close-spliced mode; when the modularized decorative surface layer adopts stone or ceramic tile surface layer, the formed assembled floor block is placed in a grid of a base frame stress system and is installed in a joint glue filling manner.

Further, if the assembled floor block needs to be replaced, sucking the assembled floor block needing to be replaced out of the base frame stress system by utilizing the sucking disc, and then placing a new assembled floor block into a grid of the base frame stress system.

The beneficial effects are that: compared with the prior art, the invention has the advantages that: according to the detachable assembled ground installation adjusting system provided by the invention, the aluminum alloy base main joist, the aluminum alloy base auxiliary joist, the adjustable foot margin assembly, the reinforcing disc piece, the connecting pull rod and the detachable calcium silicate board base layer are designed in a special structure, so that the adjustable foot margin assembly is placed on the conventional concrete ground and rotated under the condition that the effective connection of all devices in the system is met, and the adjustment and leveling of the base layer ground and the modularized decoration surface layer can be realized under the condition that the stress requirement is met. The reinforcing disc piece and the connecting pull rod are additionally arranged on the vertical rod of the adjustable ground leg assembly, so that the problem of weak stress caused by overlarge overhead height is effectively solved, and the size between the adjustable ground leg assemblies is further quantized. The system reserves the position of aluminum alloy base fossil fragments between adjustable lower margin subassembly and detachable silicon calcium board basic unit, the later stage of being convenient for and the bolt hole effective connection on the adjustable lower margin subassembly.

According to different requirements of flatness of a ground base layer, the invention can enable the whole system base layer to be in the same plane by rotating the upright rods of the adjustable foundation component and adjusting the distance between the aluminum alloy base keels and the discs on the adjustable foundation component in the installation process, can realize the detachable and reusable assembled type fixed installation ground system by tightly connecting the detachable calcium silicate board base layer and the aluminum alloy base keels, is applicable to different ground base layers, has the characteristics of strong applicability, adjustable ground base layer height, unified die opening customization, high component precision and the like, meets the requirement of effectively systematic and modularized assembly construction of different decorative surface layers under different ground conditions, can realize the quick and economical construction of decorative ground without depending on the original ground, and can realize the detachable and reusable use of the surface layer.

Drawings

FIG. 1 is a vertical section view of the present removably mounted floor mounted adjustment system.

Fig. 2 is a cross-sectional view of the present removably mountable wall mount adjustment system.

Fig. 3 is a three-dimensional view of a floor frame system.

FIG. 4 is an assembled three-dimensional view of the fabricated floor mounted adjustment system.

Fig. 5 is a three-dimensional view of the assembled floor with the addition of reinforcing disks and connecting ties.

Fig. 6 is a plan view of the assembly of the reinforcing disc and the connecting links.

Fig. 7 is an enlarged view of a portion of the reinforced disc member.

Figure 8 is a three-dimensional view of assembled panels of different dimensions.

In the figure: 1. the adjustable foundation comprises an aluminum alloy base main keel, an aluminum alloy base auxiliary keel, an adjustable foundation assembly, a reinforced disc piece, a connecting pull rod, a fixed flat head screw, a detachable silicon-calcium plate base layer, an anti-vibration gasket, a modularized decorative surface layer and a fixing nut.

Detailed Description

The technical scheme of the invention is described in detail below through the drawings, but the protection scope of the invention is not limited to the embodiments.

Example 1: the detachable assembled ground installation adjusting system shown in fig. 1 is formed by combining and assembling an aluminum alloy base main keel 1, an aluminum alloy base auxiliary keel 2, an adjustable ground component 3, a reinforcing disc piece 4, a connecting pull rod 5, a detachable calcium silicate board base layer 7, a modularized decoration surface layer 9 and the like, wherein the adjustable ground component 3 is arranged at equal intervals according to a field plane, the aluminum alloy base main keel 1 and the aluminum alloy base auxiliary keel 2 are fixed on the adjustable ground component 3 to form a foundation frame stress system, the foundation frame stress system is connected with an original concrete ground structure by rotating the adjustable ground component 3 to adjust the height, and when the height is higher, the firmness of the ground component 3 is enhanced by additionally arranging the reinforcing disc piece 4 and the connecting pull rod 5 on a vertical rod of the adjustable ground component 3; the detachable silica-calcium board base layer 7 and the modularized decoration surface layer 9 form an assembled floor block, and the foundation framework stress system and the assembled floor block are assembled into a whole on site.

The technical characteristics of the detachable assembled ground fixed installation adjusting system are as follows:

1. adjustable foot assembly 3: the assembly formed by combining an upper galvanized disc, a lower galvanized disc and a stand column, wherein the upper disc is reserved with corresponding mounting holes for being connected with the aluminum alloy base main secondary keel according to requirements, as shown in fig. 2; the lower disc contacts with the ground of the concrete base layer, the upper disc can be rotated and adjusted to adjust the upright post to the required height, and then the fixing nut 10 is used for tightening to ensure the stability of the stress of the whole system, so that the device is a main component for adjusting the height of the overhead ground.

2. Reinforcing disc 4: the steel plate is made of round galvanized iron plates, the shape of the steel plate is similar to that of a plate buckle, a threaded hole is reserved at the center of a circle of the steel plate for being convenient to be in rotary connection with an upright post of the adjustable foundation assembly 3, as shown in fig. 6, the reinforced round plate 4 is placed in the middle of an upright post with a higher overhead height through stress calculation, and the reinforced round plate 4 is connected by using a connecting pull rod 5, as shown in fig. 7.

3. Aluminum alloy base keel: the base keels are divided into an aluminum alloy base main keel 1 and an aluminum alloy base auxiliary keel 2 according to room settings, as shown in fig. 3, and the aluminum alloy base main keel 1 and the aluminum alloy base auxiliary keel 2 are connected with each other through a bolt and a reserved mounting hole on an adjustable foundation assembly 3. The aluminum alloy base main joist 1 can be effectively fixed on the disc on the adjustable foundation assembly 3 and transmits force to the base floor, the middle part of the cross section of the aluminum alloy base main joist 1 is a convex triangular area, two sides are concave triangular areas, a platform area is arranged between the convex triangular area and the concave triangular areas on two sides, the inclined slope of the convex triangular area in the middle part is convenient for providing support for the detachable calcium silicate board layer in the assembled floor module, the aluminum alloy base joist can realize fine adjustment by utilizing a knob of a screw when being connected with the disc on the adjustable foundation assembly 3, so that the overall balance of the base joist is better, and the aluminum alloy base joist is a main component for supporting a decoration panel in the whole assembled floor system.

4. Detachable silicon-calcium plate base layer 7: according to the decoration requirement, a silicon-calcium plate is used as a base layer, a detachable silicon-calcium plate base layer 7 can be made into 800-800 mm or 600-1200 mm standard plates according to the actual assembly design size, the detachable silicon-calcium plate base layer 7 and a modularized decoration surface layer 9 are spliced together in a factory to be used as an assembled floor block, the middle parts of an aluminum alloy base main keel 1 and an aluminum alloy base auxiliary keel 2 are shaped into triangular slopes, a shockproof gasket 8 is placed at the side edge of the plate to facilitate the fixation of the plate, and the effect of placing the aluminum alloy base keel is shown in fig. 4 and 5. The plate surface layer can be sprayed or transferred with different material effects and patterns according to the effect requirement, and the assembled floor plates with different thicknesses and widths are shown in figure 8.

5. The layer frame system is adjustable: the aluminum alloy base keel and the adjustable ground leg assembly 3 are connected by the up-down rotation of the adjustable ground leg assembly 3 to carry out the height adjustment of a large extent, and the aluminum alloy base keel and the adjustable ground leg assembly 3 are subjected to fine adjustment by the aid of the fixing screws.

6. The installation is simple: can dismantle aluminum alloy base fossil fragments respectively with lower part adjustable lower margin subassembly 3 and upper portion can dismantle silicon calcium board basic unit 7 be connected, set up the pair equipment through the slope of aluminum alloy base fossil fragments and become wholly, realized the assembledly, promoted the efficiency of construction greatly.

7. Can dismantle in time and change: when the modularized decorative surface layer 9 is damaged or the local color needs to be replaced, the corresponding assembled floor can be prepared in advance according to the size of the site, the plate needing to be replaced is sucked out by the sucker on the site, then the corresponding plate is placed into the groove of the base keel, and the detachable floor can be realized only by separating the silicon-calcium plate base layer 7 from the aluminum alloy base keel during replacement without influencing the use.

Example 2: the method for assembling the ground by adopting the detachable assembled ground installation adjusting system comprises the following steps:

firstly, measuring the flatness of an original concrete ground base layer, selecting an adjustable anchor assembly 3 with proper length according to the height of ground overhead, ensuring that a foundation framework stress system can be effectively placed on the concrete ground base layer, ensuring that the adjustment distance meets the use requirement, carrying out equidistant distribution on the adjustable anchor assembly 3 according to the arrangement of a site plane, meeting the requirement of an actual modularized decorative surface layer 9, rotating an upright rod of the adjustable anchor assembly 3, adjusting an upper disc to the same height, rotating a fixing nut 10 at the back of the upper disc, and fixing the adjustable anchor assembly 3; the reinforcing disc piece 4 and the connecting pull rod 5 are increased according to the overhead height, if the reinforcing disc piece 4 is required to be installed, the reinforcing disc piece 4 is rotated to the same height, and the connecting pull rod 5 is fixed on the adjacent reinforcing disc piece 4, so that the stress reinforcement of the whole frame base layer is realized.

Then, according to the size of the field floor decoration plate, the positions of the aluminum alloy base main joist 1 and the aluminum alloy base auxiliary joist 2 are arranged, the positions of an assembled floor module consisting of a detachable calcium silicate plate base layer 7 and a modularized decoration surface layer 9 are reserved for facilitating later installation, the aluminum alloy base main joist 11 is fixed on an upper disc of the adjustable foundation assembly 3 through a fixed flat head screw 6, fine adjustment is realized by rotating the fixed flat head screw 6, and the distance between the upper disc and the floor can be greatly adjusted due to the adjustable foundation assembly 3 during installation, and bolt holes are reserved between the aluminum alloy base main joist 1 and the upper disc of the adjustable foundation assembly 3 for facilitating fine adjustment of the floor height, so that the defect of uneven floor of an original base layer is effectively eliminated; and the aluminum alloy base auxiliary keels 2 are sequentially arranged according to the sizes of the plates, so that the whole frame stress system is established, and the whole base frame stress system is completed.

After the base layer stress frame system is regulated and leveled, the assembled floor blocks are placed on the stress frame, and the surface layer is spliced in a seam-beautifying or close-spliced mode. When the detachable silica-calcium plate base layer 7 is arranged, the stress load of the overhead ground is calculated firstly, a stress test is carried out in a laboratory, the density and the material adopted by the detachable silica-calcium plate base layer 7 are determined to meet the field practical requirement, the side edge of the detachable silica-calcium plate base layer 7 is additionally provided with the anti-vibration gasket 8, the friction force between the detachable silica-calcium plate base layer 7 and the aluminum alloy base main keel 11 can be effectively increased when the detachable silica-calcium plate base layer is placed, so that the effect of stabilizing the layout is achieved, meanwhile, due to the arrangement of the anti-vibration gasket 88, the noise is reduced when the impact is carried out, the detachable silica-calcium plate base layer 7 and the modularized decoration surface layer 9 are processed and combined in advance in a factory, and when the material of a block material or a direct coating is adopted, different material effects and patterns can be sprayed or transferred according to the effect requirement; when the ceramic tile or the stone surface layer is adopted, the ceramic tile or the stone surface layer is prefabricated in advance in a factory and then is transported to the site, and the stone or the ceramic tile surface layer is filled with the seam beautifying glue to finish the installation.

When the modularized decorative surface layer 9 is damaged or the local color needs to be replaced, the corresponding assembled floor can be prepared in advance according to the size of the site, the plate needing to be replaced is sucked out by the suction disc on the site, the corresponding plate is placed into the groove of the aluminum alloy base keel, the detachable silicon-calcium plate base layer 7 and the aluminum alloy base keel are separated during replacement, the detachment can be realized, the use is not influenced, and when the detached plate needs to be replaced, the detachable and reusable plate can be realized by sucking out the corresponding plate by the suction disc, so that the improvement of the indoor assembled ground construction quality and the adaptability function of the fixed installation system are realized.

The aluminum alloy base main joist 1, the aluminum alloy base auxiliary joist 2, the adjustable foot component 3, the reinforced disc piece 4, the connecting pull rod 5 and the detachable silica-calcium plate base layer 7 are designed in a special structure, and the adjustable foot component 3 is arranged on the conventional concrete ground and rotates under the condition that the effective connection of all devices in the system is met, so that the adjustment leveling of the base ground and the modularized decoration surface layer 9 can be realized under the condition that the stress requirement is met. The reinforcing disc piece 4 and the connecting pull rod 5 are additionally arranged on the vertical rod of the adjustable ground leg assembly 3, so that the problem of weak stress caused by overlarge overhead height is effectively solved, and the size between the adjustable ground leg assemblies 3 is further quantized. The system reserves the position of aluminum alloy base fossil fragments between adjustable lower margin subassembly 3 and detachable silicon calcium board basic unit 7, the later stage of being convenient for and the bolt hole effective connection on the adjustable lower margin subassembly 3. Aiming at the problems that the traditional decoration and fitment ground base layer can not realize systematic and standardized rapid installation and is greatly dependent on the barrier of the base layer, the conventional method firstly needs to treat the original base layer, when a pipeline is embedded, thickening treatment is needed to be carried out on the ground base layer or slotting is needed to be carried out on the original ground, and the surface layer is laid after the pipeline is embedded, so that the requirements of the construction period of rapid construction can not be met and the waste of materials is caused; in addition, the existing assembled ground overhead system takes structural adhesive as auxiliary fixed connection, once the ground decoration surface layer 9 is damaged, the surface layer needs to be broken and disassembled, and different decoration surface layers 9 cannot be paved and pasted by the same process, so that the functional requirements of disassembly and repeated utilization cannot be met. Meanwhile, according to different requirements of flatness of the ground base layer, the whole system base layer can be located on the same plane by rotating the vertical rods of the adjustable foundation component 3 in the installation process and adjusting the distance between the aluminum alloy base keels and the upper supporting plates of the adjustable foundation component 3, and the uniform assembly type ground fixed installation system can be applicable to different ground base layers and can realize the detachable installation function requirement by tightly connecting the detachable silicon-calcium plate base layer 7 and the aluminum alloy base keels.

As described above, although the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the invention itself. Various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A removable modular floor mounted conditioning system, characterized by: the aluminum alloy foundation composite decoration surface layer comprises an aluminum alloy foundation main keel, an aluminum alloy foundation auxiliary keel, an adjustable foundation assembly, a detachable silicon-calcium plate base layer and a modularized decoration surface layer;

the adjustable ground anchor assembly is arranged at equal intervals according to a field plane, and is provided with a lower disc which is in contact with the ground, a vertical rod which is arranged in the center of the lower disc and can be adjusted in height, and an upper disc which is arranged at the top of the vertical rod, wherein the upper disc of the adjustable ground anchor assembly in the field plane is supported at the same height through the vertical rod;

the aluminum alloy base main keels and the aluminum alloy base auxiliary keels are provided with protruding triangular areas in the middle, and are transversely or longitudinally arranged on the upper disc of the adjustable foundation assembly and fixedly connected with the middle of the upper disc, and the aluminum alloy base auxiliary keels are arranged between adjacent aluminum alloy base main keels at intervals and fixedly connected with the edges of the upper disc; the aluminum alloy base main keels and the aluminum alloy base auxiliary keels are connected to form a base layer frame stress system, the base layer frame stress system is of a grid structure, and a single grid is of a square frame structure which is matched with the detachable calcium silicate board base layer;

the modularized decorative surface layer is arranged on the upper surface of the detachable silicon-calcium plate to form an integral structure, the side edge of the detachable silicon-calcium plate base layer is provided with a shockproof gasket, and the detachable silicon-calcium plate base layer is arranged in a grid of a base frame stress system and is contacted and connected with inclined surfaces of the convex triangular areas of the aluminum alloy base main joist and the aluminum alloy base auxiliary joist through the shockproof gasket;

the adjustable foundation assembly comprises a foundation assembly, wherein the foundation assembly is characterized in that a vertical rod of the adjustable foundation assembly is further provided with a reinforcing disc piece, the vertical rod is provided with a threaded section, the reinforcing disc pieces in the field plane are located at the same height in the vertical rod through threaded connection, and the reinforcing disc pieces in the adjacent vertical rods in the transverse direction or the longitudinal direction are connected through a connecting pull rod.

2. The removably mountable floor mounted adjustment system of claim 1, wherein: the modularized decorative surface layer is made of any one of direct surface coating materials, ceramic tiles and stones.

3. The removably mountable floor mounted adjustment system of claim 1, wherein: the detachable calcium silicate board base layer is a standard board with any specification of 800 x 800mm, 600 x 600mm and 600 x 1200 mm.

4. The removably mountable floor mounted adjustment system of claim 1, wherein: the aluminum alloy base main joists and the aluminum alloy base auxiliary joists have the same cross-section structure, the middle part of the cross section is a convex triangular area, two sides of the cross section are concave triangular areas, and a platform area is arranged between the convex triangular area and the concave triangular areas on two sides; four main joist mounting holes are formed in the middle of the upper disc, two auxiliary joist mounting holes are formed in two sides of the upper disc respectively, and the aluminum alloy base main joists and the aluminum alloy base auxiliary joists are mounted on the upper disc and fixed with the corresponding mounting holes through flat head screws located triangular areas of grooves on two sides.

5. A method of assembling using the removably mountable floor mounted adjustment system of claim 1, comprising the steps of:

s1: selecting an adjustable anchor assembly with proper length according to the height of the ground overhead, carrying out equidistant distribution on the adjustable anchor assembly according to the on-site planar arrangement, rotating an upper disc of the adjustable anchor assembly, adjusting the vertical rod to the required height, rotating a fixing nut at the bottom of the upper disc, and fixing the adjustable anchor assembly;

s2: fixing the aluminum alloy base main keels at the middle part of an upper disc of the adjustable foundation assembly through fixed flat head screws, rotating the fixed flat head screws to realize fine adjustment, and sequentially installing aluminum alloy base auxiliary keels between adjacent aluminum alloy base main keels at intervals according to the size of the plate so as to form a grid-shaped base frame stress system;

s3: the modularized decorative surface layer and the detachable silicon-calcium board base layer are assembled together in advance in a factory to be used as an assembled floor block to be transported to the site;

s4: adding an anti-vibration gasket on the side edge of the detachable calcium silicate board base layer, putting the assembled floor block into a grid of a grid-shaped base layer frame stress system, and performing friction contact with inclined planes of the aluminum alloy base main joists and the aluminum alloy base auxiliary joist protruding triangular areas to realize assembly;

the vertical rod is connected with a reinforcing disc piece in a threaded mode, and after the adjustable foundation assembly is fixed in the S1, the reinforcing disc piece is rotated to the same height, and the connecting pull rod is fixed on the adjacent reinforcing disc piece.

6. The method of assembly of claim 5, wherein: when the detachable silicon-calcium plate base layer is arranged, the stress load of the overhead ground is calculated first, and a stress test is carried out in a laboratory, so that the density and the material adopted by the detachable silicon-calcium plate base layer are determined to meet the field practical requirements.

7. The method of assembly of claim 5, wherein: when the modularized decorative surface layer is made of block materials or direct coating materials, different material effects and patterns are sprayed or transferred according to the effect requirements, and the formed assembled floor block is placed in a grid of a base frame stress system and is installed in a close-spliced mode.

8. The method of assembly of claim 5, wherein: when the modularized decorative surface layer adopts stone or ceramic tile surface layer, the formed assembled floor block is placed in a grid of a base frame stress system and is installed in a joint glue filling manner.

9. The method of assembly of claim 5, wherein: if the assembled floor block needs to be replaced, sucking the assembled floor block needing to be replaced out of the base frame stress system by utilizing the sucking disc, and then placing the new assembled floor block into a grid of the base frame stress system.