CN110857587A - Floor overhead system and overhead laying method of floor based on floor overhead system - Google Patents

Abstract

The embodiment of the invention discloses a floor overhead system and an overhead laying method of a floor based on the floor overhead system. The system comprises: the device comprises a first adjusting pin bracket, a second adjusting pin bracket, a first supporting pin and a substrate; the first adjusting leg support is arranged along a wall corner in the first direction; the second adjusting leg support is arranged along a wall corner in the second direction; the first supporting feet are arranged at the joint part of the substrate; the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw are perpendicular to the floor slab and used for leveling the base plate by adjusting the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw after the base plate is laid. Through adopting the technical scheme that this application provided, can realize simplifying ground leveling technology, ground is spread and is pasted the lightweight and be favorable to setting up and the effect of rectifying the pipeline.

Description

Floor overhead system and overhead laying method of floor based on floor overhead system

Technical Field

The embodiment of the invention relates to the technical field of decoration and fitment, in particular to a floor overhead system and an overhead laying method of a floor based on the floor overhead system.

Background

Along with the development of the building industry, the indoor decoration industry achieves remarkable performance, but the decoration process is not integrally improved, and still stays on the traditional process.

Traditional building ground system of making level mainly has cement mortar to make level, gypsum makes level and self-leveling makes level, and wherein, there are many problems in current building ground technology of making level: traditional wet operation building ground system of making level has the period long, and technology is loaded down with trivial details, and work load is big, and the construction waste material is many, and is with high costs, and prior art's bottom surface is spread and is pasted the structure simultaneously, need carry out pre-buried, be unfavorable for maintenance and secondary construction to water supply and drainage pipeline etc..

The conventional process, which depends on the technology at the time, has not been able to meet the existing production requirements and is no longer advanced, so that it is necessary to completely replace this technology.

Disclosure of Invention

The embodiment of the invention provides a floor overhead system and an overhead laying method of a floor based on the floor overhead system, which can realize the effects of simplifying the ground leveling process, paving and pasting the ground to be light and facilitating the arrangement and the modification of pipelines.

In a first aspect, an embodiment of the present invention provides a floor rack vacancy system, including:

the device comprises a first adjusting foot bracket, a second adjusting foot bracket, a first supporting foot and a substrate laid on the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot; wherein,

the first adjusting foot supports are arranged along the wall corners in the first direction; the second adjusting leg support is arranged along a wall corner in a second direction; the first supporting feet are arranged at the joint part of the substrate; the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot are vertically fixed on a floor slab;

the first adjusting foot bracket comprises a first adjusting foot bracket leveling screw rod, the second adjusting foot bracket comprises a second adjusting foot bracket leveling screw rod, and the first supporting foot comprises a first supporting foot leveling screw rod; the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw are perpendicular to the floor slab and used for leveling the base plate by adjusting the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw after the base plate is laid;

the substrate is rectangular, the first direction is the long side direction of the substrate, and the second direction is the short side direction of the substrate.

Further, the system further comprises a second support leg;

the second supporting legs are used for arranging the positions of the movable partition walls arranged on the substrate and reinforcing the support.

Further, the first adjusting leg bracket and the second adjusting leg bracket respectively comprise a first preset number of adjusting legs and a second preset number of adjusting legs, and respectively comprise a bracket part;

the first adjusting foot support leveling screw and the second adjusting foot support leveling screw are respectively arranged on the first preset number of adjusting feet and the second preset number of adjusting feet.

Further, the length of the first adjusting leg support and the second adjusting leg support is 900-1200 mm;

the arrangement distance of the first adjusting foot supports along the first direction is 50-200 mm;

the arrangement distance of the second adjusting foot support along the second direction is 50-200 mm.

Furthermore, double-sided adhesive viscoelastic sponge is arranged between the first adjusting foot support, the second adjusting foot support and the wall body, and is used for overcoming the defect that the wall body is not flat.

Further, the length of the long side of the substrate is 2400 mm, and the length of the short side of the substrate is 600 mm;

the laying gap of the substrate is 10-15 mm;

the laying gap is sealed by adopting a seam sealing material.

Furthermore, the first supporting leg, the second supporting leg and the base of the adjusting leg comprise rubber cushion layers, and the rubber cushion layers are used for small-amplitude inclined support;

the inclination angle of the small-amplitude inclined support is 5 degrees at most.

Furthermore, the first supporting leg, the second supporting leg and the adjusting leg are provided with cavities; the cavity is used for glue dripping fixation.

In a second aspect, an embodiment of the present invention further provides an overhead paving method for a floor based on the floor overhead system provided by the embodiment of the present invention, where the method includes:

measuring and paying off, determining the mounting positions of the first adjusting foot bracket and the second adjusting foot bracket, and mounting;

laying a first row of base plates, laying a group of adjacent long sides and short sides of a first base plate of the first row on a first adjusting foot support and a second adjusting foot support, and determining the position of a first supporting foot at the position of the other group of adjacent long sides and short sides of the first base plate of the first row; the first row of second substrates and the first row of first substrates are laid along the long edge direction, one group of adjacent long edges and short edges of the first row of second substrates are laid on the first adjusting leg support and the first supporting leg at the short edge position of the first row of first substrates, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the first row of second substrates is determined; thus, the first row of substrates is laid;

laying an Nth row of substrates, wherein a group of adjacent long sides and short sides of the Nth row of first substrates are laid on the first supporting leg and the second adjusting leg bracket at the edge of the long side of the Nth-1 row of substrates; determining the position of a first supporting leg at the position of the other group of adjacent long sides and short sides of the first substrate in the Nth row; the second substrate in the Nth row and the first substrate in the Nth row are laid along the long edge direction, one group of adjacent long edges and short edges of the second substrate in the Nth row are laid on the first supporting leg at the long edge of the substrate in the (N-1) th row and the first supporting leg at the short edge of the first substrate in the Nth row, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the second substrate in the Nth row is determined; thus, the N row of substrates are paved; wherein N is a positive integer greater than or equal to 2;

after the base plate is paved, the base plate is leveled by adjusting the first adjusting foot support leveling screw rod, the second adjusting foot support leveling screw rod and the first supporting foot leveling screw rod.

Further, the method further comprises:

determining the position of the movable partition wall;

determining the position of a second supporting leg according to the position of the movable partition wall, and dripping glue for fixing;

and leveling the substrate by adjusting the leveling screw of the second supporting leg.

According to the technical scheme provided by the embodiment of the application, a first adjusting foot support, a second adjusting foot support, a first supporting foot and a substrate laid on the first adjusting foot support, the second adjusting foot support and the first supporting foot are arranged; the first adjusting foot support is arranged along a wall corner in the first direction; the second adjusting leg support is arranged along a wall corner in a second direction; the first supporting feet are arranged at the joint part of the substrate; the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot are vertically fixed on a floor slab; the first adjusting foot bracket comprises a first adjusting foot bracket leveling screw rod, the second adjusting foot bracket comprises a second adjusting foot bracket leveling screw rod, and the first supporting foot comprises a first supporting foot leveling screw rod; the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw are perpendicular to the floor slab and used for leveling the base plate by adjusting the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw after the base plate is laid; the substrate is rectangular, the first direction is the long side direction of the substrate, and the second direction is the short side direction of the substrate. Through adopting the technical scheme that this application provided, can realize simplifying ground leveling technology, ground is spread and is pasted the lightweight and be favorable to setting up and the effect of rectifying the pipeline.

Drawings

Fig. 1 is a schematic view of a floor overhead system according to an embodiment of the present invention;

FIG. 2 is a schematic view of a first supporting leg according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a first supporting leg according to an embodiment of the invention;

fig. 4 is a schematic layout diagram of a substrate according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a schematic diagram of a floor overhead system according to an embodiment of the present invention, where the embodiment is applicable to a floor overhead paving system, and the system may be implemented by hardware and may be embodied in a house decoration process.

As shown in fig. 1, the floor overhead system includes:

a first alignment foot bracket 110, a second alignment foot bracket 120, a first support foot 130, and a substrate 140 laid on the first alignment foot bracket 110, the second alignment foot bracket 120, and the first support foot 130; wherein,

the first adjusting leg support 110 is arranged along a wall corner in a first direction; the second adjusting leg support 120 is arranged along a second direction corner; the first supporting legs 130 are disposed at the joint portions of the substrate 140; the first adjusting leg support 110, the second adjusting leg support 120 and the first support leg 130 are vertically fixed on the floor;

the first adjustment leg bracket 110 comprises a first adjustment leg bracket leveling screw 111, the second adjustment leg bracket 120 comprises a second adjustment leg bracket leveling screw 121, and the first support leg 130 comprises a first support leg leveling screw 131; the first adjusting leg support leveling screw 111, the second adjusting leg support leveling screw 121 and the first supporting leg leveling screw 131 are perpendicular to the floor slab, and are used for leveling the base plate 140 by adjusting the first adjusting leg support leveling screw 111, the second adjusting leg support leveling screw 121 and the first supporting leg leveling screw 131 after the base plate 140 is laid;

the substrate 140 is rectangular, the first direction is a long side direction of the substrate 140, and the second direction is a short side direction of the substrate 140.

The first adjusting foot support and the second adjusting foot support comprise support parts and adjusting foot parts, the adjusting foot parts can be used for adjusting the height of the supports, and the support parts can be used for supporting the substrate.

Wherein, the lower extreme and the floor of the adjustment foot of first adjustment foot support and second adjustment foot support and first supporting leg are directly laminated through sticky mode, if adopt slow gel, foamed adhesive etc.. The part of the upper end of the first supporting leg, which is used for supporting the base plate, can be a supporting surface in the shape of a square, a rectangle and the like, and the supporting surface can be provided with an adhesive for being firmly bonded with the base plate, so that the subsequent floor panel laying process after the base plate is laid is more stable.

Among them, since the first supporting leg is also used for leveling the substrate after the substrate is laid, it is necessary to lay the substrate at a joint portion provided in the substrate laying process. Fig. 2 is a schematic view of a first supporting leg according to an embodiment of the present invention, as shown in fig. 2, the first supporting leg is disposed at a gap between two substrates, and the first supporting leg supports two substrates connected to each other at the same time, wherein a first supporting leg leveling screw is disposed in the middle of the first supporting leg, and the leveling screw can be adjusted between the gap between the two substrates by using a tool such as a screwdriver, so as to raise or lower the height of the upper supporting surface and the lower supporting surface of the first supporting leg, and the lower supporting surface and the floor slab can be fixed by using an adhesive, such as a gel retarder, a foam adhesive, and the like.

Fig. 3 is a schematic cross-sectional view of a first supporting leg according to an embodiment of the invention. As shown in fig. 3, a cavity is arranged in the middle of the leveling screw, and glue can be directly dripped through the cavity and flows to the position between the lower supporting surface and the floor slab through the cavity, so that the fixing effect on the first supporting leg is formed. In this embodiment, the adjusting leg portions of the first adjusting leg support and the second adjusting leg support may be configured by a structure similar to that of the first supporting leg, except that the upper supporting surface is replaced by the support portion, which is not described herein again.

In this embodiment, it is preferred, can lay the back at the base plate in whole room, again from the seam crossing of base plate through the cavity of first supporting legs, second supporting legs, first adjustment foot support and second adjustment foot support carry out the glue dripping fixed, the benefit of setting up like this can lay the back and carry out the leveling and glue dripping fixed at whole base plate layer, is favorable to improving staff's efficiency, reduces the degree of difficulty to the base plate layer leveling.

In this embodiment, preferably, the first and second adjusting leg brackets respectively include a first preset number of adjusting legs and a second preset number of adjusting legs, and respectively include a bracket portion; the first adjusting foot support leveling screw and the second adjusting foot support leveling screw are respectively arranged on the first preset number of adjusting feet and the second preset number of adjusting feet. In this embodiment, optionally, the first preset number may be 3, and the second preset number may be 2, that is, 3 adjusting legs are provided on the first adjusting leg bracket, and 2 adjusting legs are provided on the second adjusting leg bracket, so that the load-bearing requirement may be determined according to the sizes of the long side and the short side of the substrate, and thus the number of the adjusting legs on the adjusting leg bracket is determined, and the adjustment of the first adjusting leg bracket and the second adjusting leg bracket is facilitated, and the leveling steps for the first adjusting leg bracket and the second adjusting leg bracket are not too complicated due to too many adjusting legs. The substrate laid on the substrate can be kept horizontal.

In this embodiment, optionally, a double-sided adhesive viscoelastic sponge is disposed between the first adjusting leg support, the second adjusting leg support and the wall body, so as to overcome the defect of unevenness of the wall body. Wherein, double faced adhesive tape elasticity sponge can set up in the support frame part, and the benefit that sets up like this can strengthen the support intensity of first adjustment foot support and second adjustment foot support, can also increase the transverse strength after laying the base plate simultaneously, can effectively avoid because the whole horizontal dislocation that the horizontal atress of base plate is too big to lead to etc.. Meanwhile, the elastic sponge can overcome the defect of unevenness of the wall surface, the wall surface does not need to be subjected to flatness treatment by workers, the workload of the workers is reduced, and the construction and the use are easy.

In this embodiment, optionally, the lengths of the first adjusting leg support and the second adjusting leg support are 900-1200 mm; the arrangement distance of the first adjusting foot supports along the first direction is 50-200 mm; the arrangement distance of the second adjusting foot support along the second direction is 50-200 mm.

The lengths of the first adjusting foot bracket and the second adjusting foot bracket can be related to the strength of the adjusting foot part and the bracket part of the adjusting foot bracket, and can also be related to factors such as the size of a substrate in the floor laying process, and in the embodiment, the lengths can be standardized, namely, the lengths are in the range of 900-1200 mm, wherein the lengths can be understood as the lengths of the bracket parts, so that the production and the transportation of construction materials are facilitated. In addition, this embodiment has still provided the interval of first adjustment foot support and second adjustment foot support in laying direction separately, and the benefit of setting up like this can guarantee the intensity requirement of base plate laying in-process, does not have complicated butt joint part simultaneously and can alleviate staff's the construction degree of difficulty to can be according to local conditions, select the tailor of suitable interval in order to avoid the length of first adjustment foot support and second adjustment foot support.

In this embodiment, optionally, the length of the long side of the substrate is 2400 mm, and the length of the short side of the substrate is 600 mm; the laying gap of the substrate is 10-15 mm; the laying gap is sealed by adopting a seam sealing material. Wherein lay the gap and can leave the space for adjusting first bracing piece leveling screw, and carry out the standardization to the long limit and the minor face of base plate, be favorable to the batch production and the use of base plate, also be favorable to the staff to design according to the inside structure in house, just so need not the staff to carry out the on-the-spot size of cutting apart into to a monoblock base plate and want, can directly prefabricate in the mill, reduce staff's on-the-spot work burden. Can adopt materials such as soundproof cotton to seal the seam to laying the seam, the benefit that sets up like this is because the floor is built on stilts and is favorable to laying of pipeline, can effectively reduce the noise interference between pipeline and the floor, plays fine syllable-dividing effect.

In this embodiment, optionally, the system further comprises a second support foot; the second supporting legs are used for arranging the positions of the movable partition walls arranged on the substrate and reinforcing the support. The thickness of the second supporting legs and the layout density of the second supporting legs can be controlled, so that powerful support is provided for the position where the movable partition wall is arranged, and in addition, the second supporting legs can be arranged on the lifting parts such as the hallway.

In this embodiment, optionally, the first supporting leg and the second supporting leg, and the base of the adjusting leg include rubber cushions, and the rubber cushions are used for small-amplitude inclined support; the inclination angle of the small-amplitude inclined support is 5 degrees at most. Wherein, the thickness of rubber cushion can be 5mm to 30mm, specifically can confirm according to the demand, and in this embodiment, the rubber cushion can provide certain inclination.

The elasticity of the rubber gasket can be used for ensuring that the first supporting leg and the second supporting leg still keep good supporting strength and stability within the range of 5 degrees of inclination. In addition, because the rubber gasket has certain elasticity, the rubber gasket can play a better buffering role in a floor overhead system, can improve the use experience of a user, particularly shows the weakening of the impact force of the collision between the old and the child, and protects the knee from being worn.

According to the technical scheme provided by the embodiment of the application, a first adjusting foot support, a second adjusting foot support, a first supporting foot and a substrate laid on the first adjusting foot support, the second adjusting foot support and the first supporting foot are arranged; the first adjusting foot support is arranged along a wall corner in the first direction; the second adjusting leg support is arranged along a wall corner in a second direction; the first supporting feet are arranged at the joint part of the substrate; the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot are vertically fixed on a floor slab; the first adjusting foot bracket comprises a first adjusting foot bracket leveling screw rod, the second adjusting foot bracket comprises a second adjusting foot bracket leveling screw rod, and the first supporting foot comprises a first supporting foot leveling screw rod; the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw are perpendicular to the floor slab and used for leveling the base plate by adjusting the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw after the base plate is laid; the substrate is rectangular, the first direction is the long side direction of the substrate, and the second direction is the short side direction of the substrate. Through adopting the technical scheme that this application provided, can realize simplifying ground leveling technology, ground is spread and is pasted the lightweight and be favorable to setting up and the effect of rectifying the pipeline.

Example two

The second embodiment of the invention provides an overhead floor laying method. The overhead laying method of the floor provided by the embodiment is provided based on the floor overhead system provided by the above embodiment, and provides a specific laying method in the floor overhead system. The method can be implemented to realize the overhead laying of the floor, thereby achieving the effects of simplifying the ground leveling process, paving and pasting the ground to be light and being beneficial to the arrangement and the rectification of the pipeline.

And S1, measuring and paying off, determining the mounting positions of the first adjusting foot bracket and the second adjusting foot bracket, and mounting.

S2, laying a first row of base plates, laying a group of adjacent long sides and short sides of a first base plate in the first row on a first adjusting foot support and a second adjusting foot support, and determining the position of a first supporting foot at the position of the other group of adjacent long sides and short sides of the first base plate in the first row; the first row of second substrates and the first row of first substrates are laid along the long edge direction, one group of adjacent long edges and short edges of the first row of second substrates are laid on the first adjusting leg support and the first supporting leg at the short edge position of the first row of first substrates, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the first row of second substrates is determined; thus, the first row of substrate laying is completed.

In specific laying process, after a worker can firstly measure the paying-off, firstly the first adjusting foot support and the second adjusting foot support are laid, after the laying is finished, a base plate can be taken, the long edge and the short edge of the base plate are respectively fixed on the corners of the first adjusting foot support and the second adjusting foot support in two directions, and then the position of the first supporting foot is determined according to the positions of the two long edges and the short edge of the first base plate. In addition, if the specification of the base plate is prefabricated, the position of the first supporting leg can be determined according to the specification of the base plate, and due to the fact that the number of the first supporting legs is large, the position of the first supporting leg can be made to be elastic on the base plate or a floor slab in advance in the paying-off process for the uniform arrangement of the first supporting leg, so that construction can be facilitated, the whole leveling is achieved after the base plate of the whole house is laid, and the first supporting leg is fixed in a glue dripping mode. Can wait thirty minutes, after first supporting leg is sticky stable, carry out local omission point fine setting to it to seal the seam, carry out next floor and lay. In this embodiment, can keep the double faced adhesive tape to have the protection film in the transportation through setting up the double faced adhesive tape at the last holding surface of first supporting leg, after needs use, tears the protection film of double faced adhesive tape, reaches quick simple and convenient effect of pasting between first supporting leg and the base plate.

S3, laying an Nth row of substrates, wherein a group of adjacent long sides and short sides of the Nth row of first substrates are laid on the first supporting leg and the second adjusting leg bracket at the edge of the long side of the Nth-1 row of substrates; determining the position of a first supporting leg at the position of the other group of adjacent long sides and short sides of the first substrate in the Nth row; the second substrate in the Nth row and the first substrate in the Nth row are laid along the long edge direction, one group of adjacent long edges and short edges of the second substrate in the Nth row are laid on the first supporting leg at the long edge of the substrate in the (N-1) th row and the first supporting leg at the short edge of the first substrate in the Nth row, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the second substrate in the Nth row is determined; thus, the N row of substrates are paved; wherein N is a positive integer greater than or equal to 2.

Fig. 4 is a schematic diagram of laying up a substrate according to a second embodiment of the present invention, in this embodiment, the substrate may be laid up row by row in the laying manner shown in fig. 4, and an i-shaped seam is formed between rows.

In this embodiment, when the width of the last row is less than 200 mm, the width of the penultimate row may be adjusted, and the specific adjustment manner may be to make the width of the last row 200 mm, or to directly adjust the width of the penultimate row by 400 mm, so that the width of the last row of the substrate is always over 200 mm, which is beneficial to the integrity of the substrate and convenient construction.

And S4, after the base plate is paved, leveling the base plate by adjusting the first adjusting foot support leveling screw rod, the second adjusting foot support leveling screw rod and the first supporting foot leveling screw rod.

The present embodiment provides, on the basis of the above embodiments, an overhead floor laying method, including: measuring and paying off, determining the mounting positions of the first adjusting foot bracket and the second adjusting foot bracket, and mounting; laying a first row of base plates, laying a group of adjacent long sides and short sides of a first base plate of the first row on a first adjusting foot support and a second adjusting foot support, and determining the position of a first supporting foot at the position of the other group of adjacent long sides and short sides of the first base plate of the first row; the first row of second substrates and the first row of first substrates are laid along the long edge direction, one group of adjacent long edges and short edges of the first row of second substrates are laid on the first adjusting leg support and the first supporting leg at the short edge position of the first row of first substrates, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the first row of second substrates is determined; thus, the first row of substrates is laid; laying an Nth row of substrates, wherein a group of adjacent long sides and short sides of the Nth row of first substrates are laid on the first supporting leg and the second adjusting leg bracket at the edge of the long side of the Nth-1 row of substrates; determining the position of a first supporting leg at the position of the other group of adjacent long sides and short sides of the first substrate in the Nth row; the second substrate in the Nth row and the first substrate in the Nth row are laid along the long edge direction, one group of adjacent long edges and short edges of the second substrate in the Nth row are laid on the first supporting leg at the long edge of the substrate in the (N-1) th row and the first supporting leg at the short edge of the first substrate in the Nth row, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the second substrate in the Nth row is determined; thus, the N row of substrates are paved; wherein N is a positive integer greater than or equal to 2; after the base plate is paved, the base plate is leveled by adjusting the first adjusting foot support leveling screw rod, the second adjusting foot support leveling screw rod and the first supporting foot leveling screw rod. Through adopting the technical scheme that this embodiment provided, can realize accomplishing laying of floor overhead system by a staff, great reduction the cost of labor, improved work efficiency.

On the basis of the above technical solution, optionally, the method further includes: determining the position of the movable partition wall; determining the position of a second supporting leg according to the position of the movable partition wall, and dripping glue for fixing; and leveling the substrate by adjusting the leveling screw of the second supporting leg. When the second supporting leg is located at the joint of the substrate, the substrate can be leveled after the substrate is laid, and the specific leveling manner can be the leveling manner of the first supporting leg in the above embodiment. When the second supporting legs are located at the lower position of the substrate, the second supporting legs need to be leveled according to the paying-off result, then the substrate is laid for covering, the upper supporting surface of the second supporting legs can be attached to the substrate, and the supporting effect on the substrate is achieved.

After the base plate is paved and leveled, follow-up steps can be carried out, the floor is finally paved, the effect of paving light weight on the ground is achieved, the arrangement of pipelines is facilitated, secondary disassembly and assembly are facilitated, the construction process can be simplified, and the effect of reducing consumable materials is achieved under the condition that the supporting strength is guaranteed.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A floor rack void system, comprising: the device comprises a first adjusting foot bracket, a second adjusting foot bracket, a first supporting foot and a substrate laid on the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot; wherein,

the first adjusting foot supports are arranged along the wall corners in the first direction; the second adjusting leg support is arranged along a wall corner in a second direction; the first supporting feet are arranged at the joint part of the substrate; the first adjusting foot bracket, the second adjusting foot bracket and the first supporting foot are vertically fixed on a floor slab;

the first adjusting foot bracket comprises a first adjusting foot bracket leveling screw rod, the second adjusting foot bracket comprises a second adjusting foot bracket leveling screw rod, and the first supporting foot comprises a first supporting foot leveling screw rod; the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw are perpendicular to the floor slab and used for leveling the base plate by adjusting the first adjusting foot support leveling screw, the second adjusting foot support leveling screw and the first supporting foot leveling screw after the base plate is laid;

the substrate is rectangular, the first direction is the long side direction of the substrate, and the second direction is the short side direction of the substrate.

2. The system of claim 1, further comprising a second support foot;

the second supporting legs are used for arranging the positions of the movable partition walls arranged on the substrate and reinforcing the support.

3. The system of claim 1, wherein the first and second alignment foot mounts comprise a first and second predetermined number of alignment feet, respectively, and a mount portion, respectively;

the first adjusting foot support leveling screw and the second adjusting foot support leveling screw are respectively arranged on the first preset number of adjusting feet and the second preset number of adjusting feet.

4. The system as claimed in claim 1, wherein the length of the first and second support legs is 900-1200 mm;

the arrangement distance of the first adjusting foot supports along the first direction is 50-200 mm;

the arrangement distance of the second adjusting foot support along the second direction is 50-200 mm.

5. The system according to claim 1, wherein double-sided adhesive viscoelastic sponge is arranged between the first adjusting foot bracket, the second adjusting foot bracket and the wall body, so as to overcome the defect of unevenness of the wall body.

6. The system of claim 1, wherein the substrate has a length of 2400 mm on a long side and 600 mm on a short side;

the laying gap of the substrate is 10-15 mm;

the laying gap is sealed by adopting a seam sealing material.

7. The system of claim 2 or 3, wherein the first and second support feet, and the base of the adjustment foot comprise a rubber cushion for small amplitude tilt support;

the inclination angle of the small-amplitude inclined support is 5 degrees at most.

8. A system according to claim 2 or 3, wherein the first and second support feet, and the adjustment foot are provided with a cavity; the cavity is used for glue dripping fixation.

9. Overhead laying method of a floor based on the floor overhead system according to claims 1-8, characterized in that it comprises:

measuring and paying off, determining the mounting positions of the first adjusting foot bracket and the second adjusting foot bracket, and mounting;

laying a first row of base plates, laying a group of adjacent long sides and short sides of a first base plate of the first row on a first adjusting foot support and a second adjusting foot support, and determining the position of a first supporting foot at the position of the other group of adjacent long sides and short sides of the first base plate of the first row; the first row of second substrates and the first row of first substrates are laid along the long edge direction, one group of adjacent long edges and short edges of the first row of second substrates are laid on the first adjusting leg support and the first supporting leg at the short edge position of the first row of first substrates, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the first row of second substrates is determined; thus, the first row of substrates is laid;

laying an Nth row of substrates, wherein a group of adjacent long sides and short sides of the Nth row of first substrates are laid on the first supporting leg and the second adjusting leg bracket at the edge of the long side of the Nth-1 row of substrates; determining the position of a first supporting leg at the position of the other group of adjacent long sides and short sides of the first substrate in the Nth row; the second substrate in the Nth row and the first substrate in the Nth row are laid along the long edge direction, one group of adjacent long edges and short edges of the second substrate in the Nth row are laid on the first supporting leg at the long edge of the substrate in the (N-1) th row and the first supporting leg at the short edge of the first substrate in the Nth row, and the position of the first supporting leg at the other group of adjacent long edges and short edges of the second substrate in the Nth row is determined; thus, the N row of substrates are paved; wherein N is a positive integer greater than or equal to 2;

after the base plate is paved, the base plate is leveled by adjusting the first adjusting foot support leveling screw rod, the second adjusting foot support leveling screw rod and the first supporting foot leveling screw rod.

10. The overhead flooring method of claim 9, further comprising:

determining the position of the movable partition wall;

determining the position of a second supporting leg according to the position of the movable partition wall, and dripping glue for fixing;

and leveling the substrate by adjusting the leveling screw of the second supporting leg.

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