CN212453476U

CN212453476U - Leveling base plate assembly

Info

Publication number: CN212453476U
Application number: CN202020726784.7U
Authority: CN
Inventors: 周东珊; 丁欣欣; 丁泽成; 王文广; 张建平; 余文钊
Original assignee: Zhejiang Yasha Decoration Co Ltd
Current assignee: Zhejiang Yasha Decoration Co Ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2021-02-02
Anticipated expiration: 2030-05-06

Abstract

The utility model discloses a leveling base plate assembly, include: the leveling base plate comprises a plurality of leveling base plate bodies which are distributed in sequence, wherein a first clamping structure and a second clamping structure are respectively arranged at two opposite ends of each leveling base plate body, and two adjacent leveling base plate bodies are connected in a clamping manner through the first clamping structure and the second clamping structure; a plurality of leveling holes are uniformly distributed between the first clamping structure and the second clamping structure of the same leveling substrate body; the adjusting foot supporting base can be arranged in the leveling hole in a penetrating way and is connected with the leveling base plate body in a lifting way; a third clamping structure which can be clamped and connected with the first clamping structure is arranged at one end of the first edge sealing plate, which faces the leveling base plate body, and one end of the first edge sealing plate, which faces the wall body, is abutted against the wall body; and one end of the second edge sealing plate, which faces the leveling base plate body, is provided with a fourth clamping structure which can be clamped and connected with the second clamping structure, and one end of the second edge sealing plate, which faces the wall body, is abutted against the wall body. The utility model provides a leveling base plate assembly carries out the leveling to the ground product.

Description

Leveling base plate assembly

Technical Field

The utility model relates to an interior decoration, more specifically relates to a leveling base plate assembly suitable for floor mat formation.

Background

The ground pavement is an important component of indoor decoration, and the requirement on the flatness of the ground is high in the installation process of ground products, so that the ground leveling operation is one of important processes of the ground pavement, and once deviation exists in the construction process, the ground can be increased.

Before installing a ground product, a layer of leveling structure is required to be arranged between the ground and the ground product, and the height and the flatness of the ground product are ensured by arranging the height and the flatness of the leveling structure. In the prior art, cement mortar is used as a leveling structure to level the ground, the construction mode has high requirements on the technical level of constructors, and the cement mortar needs to be manufactured on site on a construction site, so that the construction environment is severe and the construction time is long. If the leveling base plate is adopted as the leveling structure, the problems can be avoided. However, the leveling base plates have limited size and need to be spliced, and the existing adjacent leveling base plates have no connection relationship, so that the stability and the flatness of the connection position are influenced. Moreover, the side of the leveling base plate close to the wall body is usually a non-flush surface, and if the edge sealing cannot be effectively performed, the stability and the aesthetic property of the leveling base plate at the wall body are relatively poor.

Therefore, there is a need for a leveling base plate assembly that addresses the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a leveling base plate assembly to solve the above problems.

Based on above-mentioned purpose the utility model provides a pair of leveling base plate assembly, include:

the leveling base plate comprises a plurality of leveling base plate bodies which are distributed in sequence, wherein a first clamping structure and a second clamping structure are respectively arranged at two opposite ends of each leveling base plate body, and two adjacent leveling base plate bodies are connected in a clamping mode through the first clamping structure and the second clamping structure; a plurality of leveling holes are uniformly distributed between the first clamping structure and the second clamping structure of the same leveling substrate body;

the adjusting foot supporting base can be arranged in the leveling hole in a penetrating way and is connected with the leveling base plate body in a lifting way;

the first edge sealing plate is provided with a third clamping structure which can be clamped and connected with the first clamping structure of the leveling base plate body positioned at the end part, and one end of the first edge sealing plate, facing the wall body, is abutted against the wall body;

the second edge sealing plate faces towards the leveling base plate body, one end of the leveling base plate body is provided with a fourth clamping structure which can be connected with the leveling base plate body located at the end portion in a clamping mode through the second clamping structure, and the second edge sealing plate faces towards one end of the wall body and is abutted to the wall body.

Preferably, a plurality of bearing ribs arranged at intervals along the length direction are arranged on the leveling base plate body, a plurality of leveling holes are arranged at intervals along the length direction of the bearing ribs, and each leveling hole penetrates through the bearing ribs along the thickness direction of the bearing rib.

Preferably, the two opposite ends of the leveling substrate body are respectively a first end and a second end, and the first end comprises a first top surface and a first bottom surface which are arranged in a thickness direction in an opposite way and a first end surface between the first top surface and the first bottom surface; the second end comprises a second top surface and a second bottom surface which are arranged oppositely in the thickness direction and a second end surface between the second top surface and the second bottom surface;

the first clamping structure comprises a first clamping groove arranged between the first end surface and the first top surface, and the first end surface and the first top surface respectively extend towards a notch of the first clamping groove to form a first limiting bulge and a second limiting bulge;

the second clamping structure comprises a first clamping portion arranged between the second end face and the second top face, the first clamping portion is used for being connected with the first clamping groove in a clamping mode, the first clamping portion faces towards the second top face, a second clamping groove which is connected with the first limiting protrusion in an embedded mode is arranged on one side of the second top face, and a third clamping groove which is connected with the second limiting protrusion in an embedded mode is arranged on one side of the second bottom face.

Preferably, a first bearing rib extending along the width direction is arranged at a position of the first bottom surface corresponding to the first clamping groove; the second bottom surface is provided with a second bearing rib extending along the width direction, a first accommodating groove used for accommodating the first bearing rib is formed between the first clamping part and the second end surface, and the second bearing rib and the first bearing rib positioned in the first accommodating groove are connected in a seamless mode to form the bearing rib.

Preferably, the first edge sealing plate comprises a third top surface and a third bottom surface which are arranged oppositely in the thickness direction, and a third end surface and a fourth end surface which are arranged oppositely in the length direction; a second accommodating groove is formed between the third end face and the third bottom face, a second clamping portion used for being clamped and connected with the first clamping structure of the leveling substrate body located at the end portion is formed between the second accommodating groove and the third top face, a fourth clamping groove is formed in one side, facing the third top face, of the second clamping portion, and a fifth clamping groove is formed in one side, facing the third bottom face, of the second clamping portion; the third top surface with the third bottom surface respectively with the top surface and the bottom surface parallel and level setting of leveling base plate body, fourth terminal surface is used for the seamless butt with the wall body.

Preferably, the second edge sealing plate comprises a fourth top surface and a fourth bottom surface which are arranged oppositely in the thickness direction, and a fifth end surface and a sixth end surface which are arranged oppositely in the length direction; a sixth clamping groove for accommodating the first clamping part of the leveling substrate body positioned at the end part is arranged between the fifth end surface and the fourth top surface, a third limiting bulge and a fourth limiting bulge which are respectively embedded and lapped with the second clamping groove and the third clamping groove extend from the fifth end surface and the fifth top surface towards the notch of the sixth clamping groove, and the sixth clamping groove, the third limiting bulge and the fourth limiting bulge are enclosed to form a fourth clamping structure; the fourth top surface with the fourth bottom surface respectively with the top surface and the bottom surface parallel and level setting of leveling base plate body, the sixth terminal surface be used for with the seamless butt of wall body.

Preferably, the adjusting foot supporting base comprises an adjusting column and a supporting seat, and the supporting seat is sleeved on the adjusting column and can lift along the adjusting column; the supporting seat is provided with a clamping groove connected with the bearing rib in a clamping mode, and at least part of the clamping groove is covered with an adhesive layer.

Preferably, the adjusting column is provided with a base towards one end of the ground, the diameter of the base is larger than that of the adjusting column, and the adjusting column is in contact with the ground through the base.

Preferably, the adjusting column is provided with an adjusting hole penetrating along the axial direction, the base is internally provided with a hollow structure, the hollow structure is internally provided with a drainage channel, the adjusting hole is communicated with the drainage channel, and the drainage channel is used for draining the hollow structure.

In addition, preferably, at least one flow guide hole is arranged in the circumferential direction of the base, and the flow guide hole is communicated with the hollow structure.

From the foregoing, it can be seen that the utility model provides a leveling base plate assembly, compared with the prior art, has following advantage: the leveling base plate structure is formed after the leveling base plate bodies are sequentially clamped and connected, edge sealing treatment is carried out on the leveling base plate structure through the first edge sealing plate and the second edge sealing plate, the leveling base plate structure after edge sealing treatment is arranged between the ground and a ground product, and effective support is provided for the ground product. The clamping connection is easy to assemble, the requirement on the technical level of operating personnel is limited, and the clamping stability is good, so that the leveling base plate structure has good flatness, a cement mortar process is further replaced, a good environment is guaranteed to be provided for a construction site, and the construction period is shortened. The adjusting foot supports the base and provides the supporting role for leveling base plate body and ground product, and leveling base plate body can support the base along adjusting the foot and go up and down, comes the regulation support height, and then realizes leveling to ground product, reduces the influence of ground roughness to the installation, improves the efficiency of construction. Respectively sealing the leveling substrate bodies positioned at the two ends through a first edge sealing plate and a second edge sealing plate; the edge sealing is realized quickly and effectively, and the stability and the attractiveness of the leveling base plate assembly at the wall can be improved.

Drawings

The above features and technical advantages of the present invention will become more apparent and readily appreciated from the following description of the embodiments thereof, taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic view of a leveling base plate assembly used in an embodiment of the present invention.

Fig. 2 is a side view of the leveling base plate assembly shown in fig. 1 in a use state.

Fig. 3 is a schematic view of a leveling base plate body of the leveling base plate assembly shown in fig. 1.

Fig. 4 is a side view of the leveling base body of the leveling base assembly shown in fig. 1.

Fig. 5 is a schematic view of a first clamping structure of the leveling substrate body shown in fig. 3.

Fig. 6 is a schematic view of a second clamping structure of the leveling substrate body shown in fig. 3.

FIG. 7 is a schematic view of an adjustment foot support base of the leveling base plate assembly shown in FIG. 1.

Fig. 8 is a side view of an adjustment foot support base of the leveling base plate assembly shown in fig. 7.

FIG. 9 is a schematic view of the leveling base plate assembly of FIG. 7 in use with an adjustment foot support base.

FIG. 10 is a schematic view of another use of the adjustment foot support base of the leveling base plate assembly of FIG. 7.

Fig. 11 is a schematic view of a first edge sealing plate of the leveling substrate assembly shown in fig. 1.

FIG. 12 is a partial schematic view of the first bead plate shown in FIG. 11.

Fig. 13 is a schematic view illustrating a process of engaging the first edge sealing plate with the first engaging structure of the leveling substrate body shown in fig. 11.

Fig. 14 is a schematic view of a second edge sealing plate of the leveling base plate assembly shown in fig. 1.

FIG. 15 is a partial schematic view of the second bead plate shown in FIG. 14.

Fig. 16 is a schematic view illustrating a second clamping structure of the second edge sealing plate and the leveling substrate body shown in fig. 14 in a clamping state.

Fig. 17 is a schematic view illustrating a process of engaging the second edge sealing plate with the second engaging structure of the leveling substrate body shown in fig. 14.

Wherein the reference numbers:

100: leveling the substrate assembly; 10: a first clamping structure; 11: a first hollow structure;

12: a first card slot; 13: a first load-bearing rib; 14: a second limit bulge;

15: a first limit protrusion; 20: a second clamping structure; 21: a second hollow structure;

22: a first engaging portion; 23: a second load bearing rib; 24: a third card slot;

25: a second card slot; 30: leveling the substrate body; 40: a load-bearing rib; 50: leveling the hole;

60: an exhaust hole; 70: an adjusting foot supporting base; 71: a supporting seat; 72: an adjustment column;

73: a base; 74: an adjustment hole; 75: an adhesive layer; 80: a first edge sealing plate;

81: a third hollow structure; 82: a second engaging portion; 83: a third load bearing rib;

84: a fifth card slot; 85: a fourth card slot; 86: a second accommodating groove;

87: a third arc-shaped groove; 90: a second edge sealing plate; 91: a fourth hollow structure;

92: a sixth card slot; 93: a fourth load bearing rib; 94: a fourth limit bulge;

95: a third limiting bulge; 96: a first arc-shaped groove; 200: a ground product;

300: an adhesive layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings. The terms "inner" and "outer" are used to refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 2 is a side view of the leveling base plate assembly shown in fig. 1 in a use state. Fig. 3 is a schematic view of a leveling base plate body of the leveling base plate assembly shown in fig. 1. Fig. 4 is a side view of the leveling base body of the leveling base assembly shown in fig. 1. As shown in fig. 1 to 4, the leveling base plate assembly 100 includes: a plurality of leveling base plate bodies 30, adjusting foot supporting bases 70, first edge sealing plates 80 and second edge sealing plates 90 which are distributed in sequence.

The leveling substrate assembly 100 comprises a plurality of leveling substrate bodies 30 which are distributed in sequence, a first clamping structure 10 and a second clamping structure 20 are respectively arranged at two opposite ends of each leveling substrate body 30, and two adjacent leveling substrate bodies 30 are clamped and connected through the first clamping structure 10 and the second clamping structure 20; a plurality of leveling holes 50 are uniformly distributed between the first clamping structure 10 and the second clamping structure 20 of the same leveling substrate body 30;

the adjusting foot supporting base 70 can be inserted into the leveling hole 50 and can be connected with the leveling base plate body 30 in a lifting manner.

A third clamping structure which can be clamped and connected with the first clamping structure 10 of the leveling base plate body 30 positioned at the end part is arranged at one end, facing the leveling base plate body 30, of the first edge sealing plate 80, and one end, facing the wall body, of the first edge sealing plate 80 is abutted to the wall body;

the second edge sealing plate 90 is provided with a fourth clamping structure towards one end of the leveling base plate body 30, the fourth clamping structure can be clamped and connected with the second clamping structure 20 of the leveling base plate body 30 located at the end, and the second edge sealing plate is abutted against the wall towards one end of the wall 90.

Sequentially laying a plurality of leveling substrate bodies 30, and connecting the first clamping structure 10 and the second clamping structure 20 of two adjacent leveling substrate bodies 30 in a clamping manner, so that the adjacent leveling substrate bodies 30 have the same supporting height, the height difference of a joint caused by ground flatness and installation errors is avoided, and the whole body is reinforced; arranging a first edge sealing plate 80 between the first clamping structure 10 of the leveling base plate body 30 at one end and the wall, and after the third clamping structure is clamped and connected with the first clamping structure 10, abutting the third clamping structure with the wall through the first edge sealing plate 80; arranging a second edge sealing plate 90 between the second clamping structure 20 of the leveling substrate body 30 at one end and the wall, and after the fourth clamping structure is clamped and connected with the second clamping structure 20, abutting the wall through the second edge sealing plate 90; the floor product 200 (including but not limited to tiles, etc.) is placed on the leveling base plate body 30, the adjusting foot supporting base 70 is installed in each leveling hole 50, and the flatness and supporting height of the leveling base plate assembly as a whole are adjusted by raising or lowering the position of the leveling base plate body 30 on the adjusting foot supporting base 70. The leveling base plate structure formed after the plurality of leveling base plate bodies are sequentially clamped and connected is arranged between the ground and a ground product, and effective support is provided for the ground product. The clamping connection is easy to assemble, the requirement on the technical level of operating personnel is limited, and the clamping stability is good, so that the leveling base plate structure has good flatness, a cement mortar process is further replaced, a good environment is guaranteed to be provided for a construction site, and the construction period is shortened. The adjusting foot supports the base and provides the supporting role for leveling base plate body and ground product, and leveling base plate body can support the base along adjusting the foot and go up and down, comes the regulation support height, and then realizes leveling to ground product, reduces the influence of ground roughness to the installation, improves the efficiency of construction. Respectively sealing the leveling substrate bodies positioned at the two ends through a first edge sealing plate and a second edge sealing plate; the edge sealing is realized quickly and effectively, and the stability and the attractiveness of the leveling base plate assembly at the wall can be improved.

In this embodiment, the first clamping structure 10 and the fourth clamping structure are lock-type female slot structures, and the second clamping structure 20 and the third clamping structure are lock-type male slot structures; or the first clamping structure 10 and the fourth clamping structure are lock catch type male groove structures, and the second clamping structure 20 and the third clamping structure are lock catch type female groove structures.

In the present embodiment, the leveling substrate body 30 is integrally formed by an injection molding process.

Preferably, the leveling base body 30 is provided with a plurality of load-bearing ribs 40 spaced apart along the longitudinal direction, a plurality of leveling holes 50 are spaced apart along the longitudinal direction of the load-bearing ribs 40, and each leveling hole 50 penetrates the load-bearing rib 40 along the thickness direction of the load-bearing rib 40. By additionally arranging the bearing ribs 40, the overall structural strength of the leveling base plate body 30 can be improved, and the leveling holes 50 are arranged on the bearing ribs 40, so that the overall structural strength can be prevented from being influenced.

In this embodiment, the top surface of the leveling base plate body 30 is used for supporting the floor product 200, an adhesive layer 300 can be disposed between the floor product 200 and the leveling base plate body 30, and the bottom surface of the leveling base plate body 30 is used for disposing the bearing rib 40; each of the load-bearing ribs 40 is provided to penetrate in the width direction of the leveling base body 30.

The arrangement position and number of the load-bearing ribs 40 can be designed according to the shape and weighing requirements of the leveling base body 30. In this embodiment, a load-bearing rib 40 is disposed in the middle of the leveling base body 30, and two half load-bearing ribs (a first load-bearing rib 13 and a second load-bearing rib 23, respectively) are disposed at two opposite ends of the leveling base body 30, and when the first clamping structure 10 is clamped to the second clamping structure 20, the first load-bearing rib 13 and the second load-bearing rib 23 on two sides are spliced to form one load-bearing rib 40.

In this embodiment, the cross-section of the load-bearing ribs 40 is square or approximately trapezoidal; the bearing rib 40 is provided therein with a plurality of first hollow structures 11 sequentially spaced apart and a plurality of second hollow structures 21 sequentially spaced apart.

Fig. 5 is a schematic view of a first clamping structure of the leveling substrate body shown in fig. 3. Fig. 6 is a schematic view of a second clamping structure of the leveling substrate body shown in fig. 3. As shown in fig. 5 and 6, the first and

second latch structures

10 and 20 are disposed at first and second ends, respectively.

Preferably, the two opposite ends of the leveling substrate body 30 are a first end and a second end, respectively, the first end includes a first top surface and a first bottom surface which are arranged opposite to each other in the thickness direction, and a first end surface therebetween; the second end comprises a second top surface and a second bottom surface which are arranged oppositely in the thickness direction and a second end surface between the second top surface and the second bottom surface;

the first clamping structure 10 comprises a first clamping groove 12 arranged between a first end surface and a first top surface, and the first end surface and the first top surface respectively extend towards a notch of the first clamping groove to form a first limiting bulge 15 and a second limiting bulge 14;

the second clamping structure 20 includes a first clamping portion 22 disposed between the second end surface and the second top surface, the first clamping portion 22 is used for being clamped with the first clamping groove 12, a second clamping groove 25 capable of being embedded with the first limiting protrusion 15 is disposed on one side of the first clamping portion 22 facing the second top surface, and a third clamping groove 24 capable of being embedded with the second limiting protrusion 14 is disposed on one side of the first clamping portion 22 facing the second bottom surface.

The first clamping part 22 is clamped in the first clamping groove 12, the first limiting bulge 15 is connected in the second clamping groove 25 in an embedded mode, the second limiting bulge 14 is connected in the third clamping groove 24 in an embedded mode, and the first clamping part 22 can be limited to be separated from the first clamping groove 12 by the first limiting bulge 15 and the second limiting bulge 14. Adopt above-mentioned first joint structure 10 and second joint structure 20 to mutually support, the equipment is easy, and the block is stable, is difficult for deviating from, can provide the outrigger for ground product.

In this embodiment, the top surface of the first limiting protrusion 15, the top surface of the first engaging portion 22, the first top surface and the second top surface are all disposed in a flush manner; the first end face and the second end face are in staggered butt joint due to the fact that clamping connection is achieved; the second bottom surface and the first bottom surface are arranged in a flush manner.

In the embodiment, the first engaging portion 22 extends from the second end surface, and slightly smaller than the thickness of the leveling substrate body 30 (the thickness of the portion without the load-bearing rib 40) from the second top surface, to be engaged with the first engaging groove 12, the overlapping thickness of the first engaging portion 22 and the sidewall of the first engaging groove 12 facing the second top surface is the same as the thickness of the leveling substrate body 30 (the thickness of the portion without the load-bearing rib 40).

In this embodiment, the top surface of the first engaging portion 22 is flush with the second top surface; the second clamping groove 25 is arranged at the free end of the top surface and is in a transverse L shape; one end of the first clamping part 22, which is far away from the second end face, is provided with a trapezoidal protrusion, and the width of the trapezoidal protrusion gradually increases from far to near towards the second end face; the partial bottom surface of the first engaging portion 22 abuts against the first engaging groove 12, the third engaging groove 24 is disposed on the partial bottom surface of the first engaging portion 22 close to the second end surface, and the width of the third engaging groove 24 is gradually reduced from far to near toward the second top surface.

In this embodiment, the second clamping structure 20 is provided with at least one hollow structure extending along the width direction. By providing the hollow structure, a certain deformation space is provided for the second engaging portion 22, and the assembly difficulty is reduced.

In the present embodiment, three hollow structures having different cross sections and arranged in parallel are provided in the first engaging portion 22 according to the shape of the first engaging portion 22. After the first engaging portion 22 is engaged with the first engaging groove 12, particles can be filled into each hollow structure, so that the first engaging portion 22 has sufficient structural strength to provide effective support for the ground product.

Preferably, a first bearing rib 13 extending along the width direction is arranged at a position of the first bottom surface corresponding to the first clamping groove 12; the second bottom surface is provided with a second bearing rib 23 extending along the width direction, a first accommodating groove for accommodating the first bearing rib 13 is arranged between the first clamping part 22 and the second end surface, and the second bearing rib 23 and the first bearing rib 13 positioned in the first accommodating groove are connected in a seamless manner to form a bearing rib 40.

By providing the first and second load-

bearing ribs

13 and 23, the structural strength of the first and

second clamping structures

10 and 20 can be enhanced. The first bearing rib 13 and the second bearing rib 23 are abutted to form a complete bearing rib 40, so that the structural strength of the clamping connection part is improved, and meanwhile, a mounting foundation can be provided for the adjusting foot support base 70.

In this embodiment, the first load-bearing ribs 13 are provided with a plurality of first hollow structures 11 spaced apart in the length direction and extending in the width direction to reduce the overall weight of the leveling base plate body 30, and the first hollow structures 11 are filled with particles, so that the first load-bearing ribs 13 have good load-bearing performance.

In this embodiment, the second load-bearing rib 23 and the first load-bearing rib 13 may have the same structure and are symmetrically distributed.

In the present embodiment, the first load-bearing rib 13 is integrally formed with the leveling base body 30, the second load-bearing rib 23 is integrally formed with the leveling base body 30, and the leveling base body 30 of each load-bearing rib 40 is integrally formed. And the integral forming structure is adopted, so that the structural strength can be improved.

In this embodiment, the leveling substrate body 30 has a plurality of hollow structures spaced apart along the length direction, and the hollow structures have filling layers. The use of manufacturing materials can be reduced by providing the hollow structure, and the structural performance of the leveling base plate body 30 can be improved by providing the filling layer.

In this embodiment, a rib is disposed between adjacent hollow structures, and the leveling substrate body 30 can be divided into two parts by cutting at the rib, wherein one end of one leveling substrate body 30 is provided with the first clamping structure 10, and the other end is a flush end face; one end of the other leveling substrate body 30 is provided with a second clamping structure 20, and the other end is a flush end face.

In the present embodiment, the filling layer includes, but is not limited to, polystyrene particles, and has thermal insulation, heat insulation and sound insulation effects.

FIG. 7 is a schematic view of an adjustment foot support base of the leveling base plate assembly shown in FIG. 1. Fig. 8 is a side view of an adjustment foot support base of the leveling base plate assembly shown in fig. 7. FIG. 9 is a schematic view of the leveling base plate assembly of FIG. 7 in use with an adjustment foot support base. FIG. 10 is a schematic view of another use of the adjustment foot support base of the leveling base plate assembly of FIG. 7. As shown in fig. 7 to 10, the adjustment foot support base 70 includes an adjustment column 72 and a support base 71.

Preferably, the adjusting foot supporting base 70 comprises an adjusting column 72 and a supporting seat 71, and the supporting seat 71 is sleeved on the adjusting column 72 and can be lifted along the adjusting column 72; the supporting seat 71 is provided with a clamping groove which is clamped and connected with the bearing rib 40, and at least part of the clamping groove is covered with an adhesive layer 75.

The bottom end of the adjusting column 72 is in contact with the ground, the supporting seat 71 can be sleeved and connected on the adjusting column 72 from the top end of the adjusting column 72, the supporting seat 71 can move upwards or downwards along the adjusting column 72 until the supporting seat moves to a preset position, and the adjusting column 72 and the supporting seat 71 are locked with each other; the leveling base plate body 30 is clamped and connected with the clamping groove on the supporting seat 71 through the bearing rib 40, and the contact surface of the bearing rib 40 and the clamping groove is bonded together through the bonding layer 75. The ground product is arranged on the ground through the adjusting foot supporting base 70, the supporting base 71 provides a supporting effect for the ground product, and the supporting base 71 can lift along the adjusting column 72 to adjust the supporting height, so that the ground product is leveled, the influence of the ground flatness on the installation is reduced, and the construction efficiency is improved; the bonding layer 75 can increase the connection strength between the support base and the ground product, and reduce the assembly difficulty.

In the present embodiment, the adjusting column 72 includes, but is not limited to, a screw, and the adjusting column 72 and the supporting seat 71 can be connected by a screw thread, and the supporting seat 71 can be rotated to raise or lower the relative position of the supporting seat 71 on the adjusting column 72.

In this embodiment, the adhesive layer 75 includes, but is not limited to, a double-sided tape, and multiple segments of double-sided tapes are uniformly distributed in the slots of the supporting base 71.

In this embodiment, the leveling base plate body 30 and the floor product may be an integrally formed structure, or the leveling base plate body 30 is a separate structure for the floor product, and the leveling base plate body 30 provides effective support for the floor product.

In this embodiment, a load-bearing rib 40 is disposed in the middle of each leveling base body 30, a first load-bearing rib 13 and a second load-bearing rib 23 are disposed at two opposite ends of each leveling base body 30, and a plurality of leveling holes 50 are disposed at intervals in the length direction of the load-bearing ribs 40 and penetrate through the load-bearing ribs in the thickness direction; the first bearing rib 13 is provided with a fourth arc-shaped groove, the second bearing rib 23 is provided with a second arc-shaped groove, when two adjacent leveling base plate bodies 30 are connected in a clamping manner, the first bearing rib 12 and the second bearing rib 23 are spliced to form a bearing rib 40, and the second arc-shaped groove and the fourth arc-shaped groove can be spliced to form a leveling hole 50 penetrating through the second clamping structure 20.

In the present embodiment, at least one air discharge hole 60 is provided between adjacent leveling holes 50 of the leveling base plate body 30. Through reserving exhaust hole 60, gas can circulate at both sides of leveling base plate body 30 through exhaust hole 60, promoting the rapid solidification of glue layers such as nail-free glue.

Preferably, the adjusting column 72 is provided with a base 73 at one end facing the ground, the diameter of the base 72 is larger than that of the adjusting column 72, and the adjusting column 72 is in contact with the ground through the base 73. By arranging the base 73, the contact area with the ground is increased, and the stability of the lower part of the adjusting column 72 is improved.

In this embodiment, the base 73 and the adjusting column 72 may be an integrally formed structure, and the maximum diameter of the base 73 is 1.5 to 2 times the diameter of the adjusting column 72.

In this embodiment, the diameter of the base 73 increases away from the adjustment post 72 from the proximal end to the distal end. The base 73 has a gradual diameter, the further away from the adjustment post 72, the larger the diameter, the more stable the base 73, the more conducive to the transfer of force.

In order to further improve the connection strength, an adhesive layer may be provided on the free end surface of the base 73, and the base 73 is adhered to the ground through the adhesive layer.

Preferably, the adjusting column 72 is provided with an adjusting hole 74 penetrating along the axial direction, the base 73 is internally provided with a hollow structure, a drainage channel is arranged in the hollow structure, the adjusting hole 74 is communicated with the drainage channel, and the drainage channel is used for draining the drainage to the hollow structure. The adhesive (e.g., nail-free glue) can enter the drainage channel of the base 73 through the adjusting hole 74 along the adjusting column 72, and enter the hollow structure through the drainage channel, and the hollow structure can contain the adhesive, so that the base 73 can be bonded with the ground, and the connection strength is further improved.

In the present embodiment, the adjustment holes 74 include, but are not limited to, socket head holes, and a socket head wrench may be used to engage the socket head holes to adjust the position of the adjustment posts 72.

Preferably, the base 73 is provided with at least one flow guide hole in the circumferential direction, and the flow guide hole is communicated with the hollow structure. The adhesive in the hollow structure can flow out of the base 73 through the diversion holes, the influence of the ground flatness on installation is reduced, and the overflowed adhesive plays a fixing role from the outside of the base 73.

In this embodiment, the number of the guide holes is plural, and the plural guide holes are uniformly distributed along the circumferential direction of the base 73. Through the quantity that increases the water conservancy diversion hole, can improve adhesive outflow speed, all have the adhesive to flow out in the circumferencial direction moreover, improve the fixed action on base 73 and ground.

In this embodiment, the guiding hole is a notch formed on the edge of the end of the base 73 contacting the ground. The gap sets up on the border of base 73, makes things convenient for the adhesive can spread along the border of base 73, further improves the fixed action of base 73 and ground.

In this embodiment, the notch is a U-shaped notch disposed on the edge of the base 73, and the U-shaped notch penetrates the base 73 in the thickness direction.

In this embodiment, a plurality of uniformly distributed reinforcing ribs are provided between the drainage channel and the side wall of the hollow structure. By adding the reinforcing ribs, the structural strength of the base 73 can be improved, providing effective support for the adjustment post 72.

In this embodiment, the diameter of the drainage channel is smaller than the diameter of the regulation hole 74, and the drainage channel is disposed opposite to the regulation hole 74; the reinforcing rib divides the space between the drainage channel and the side wall of the hollow structure into a plurality of cavities, and each cavity is arranged corresponding to at least one opening. The fluid output from the adjustment orifice 74 can enter the drainage channel and each cavity simultaneously, and excess adhesive can escape through the gap.

In this embodiment, the supporting seat 71 is provided with an installation channel penetrating along the depth direction of the engaging groove, and the supporting seat 71 is sleeved on the adjusting post 72 through the installation channel and can be lifted along the adjusting post 72. By additionally arranging the installation channel, the connection strength of the supporting seat 71 and the adjusting column 72 can be increased, and the assembly difficulty is reduced.

In this embodiment, the installation channel is a column, a screw hole penetrating along the axial direction is formed in the middle of the installation channel, and the height of the support seat 71 is adjusted by matching the adjusting column 72 with the screw hole through threads.

In this embodiment, the supporting seat 71 includes a supporting plate and side walls extending from two opposite ends of the supporting plate to the same side, the supporting plate and the two side walls enclose to form a clamping groove, the installation channel is arranged on the supporting plate in a penetrating manner, and the bonding layer 75 is arranged on the supporting plate and evenly distributed along the circumferential direction of the installation channel. The supporting seat 71 is connected with the bearing rib 40 in a clamping manner through a clamping groove, the adjusting column 72 penetrates through the mounting channel, and the relative position of the supporting seat 71 and the adjusting column 72 can be changed by rotating the supporting seat or the adjusting column 72; when the load-bearing ribs 40 enter the notches, the adhesive layer 75 bonds the load-bearing ribs 40 to the notches, further improving the connection strength.

In this embodiment, the locking groove may be fastened to the bearing rib 40, or the bearing rib 40 is decomposed into a first bearing rib 13 and a second bearing rib 23, which are respectively disposed at adjacent edges of two adjacent leveling base bodies 30, and when the two leveling base bodies 30 are assembled, the first bearing rib 13 and the second bearing rib 23 form the bearing rib 40, which is then matched with the locking groove.

In this embodiment, the leveling base plate bodies 30 corresponding to the bearing ribs 40 are provided with leveling holes 50, the mounting channel can be inserted into the leveling holes 50, the leveling holes 50 can be disposed on the bearing ribs 40 and penetrate through the corresponding leveling base plate bodies 30, or can be divided into two arc-shaped holes, which are respectively disposed on the first bearing ribs 13 and the second bearing ribs 23 of the two adjacent leveling base plate bodies 30, and after the first bearing ribs 13 and the second bearing ribs 23 are spliced, the leveling holes 50 penetrating through the leveling base plate bodies 30 are formed and then are matched with the mounting channel.

Fig. 11 is a schematic view of a first edge sealing plate of the leveling substrate assembly shown in fig. 1. FIG. 12 is a partial schematic view of the first bead plate shown in FIG. 11. Fig. 13 is a schematic view illustrating a process of engaging the first edge sealing plate with the first engaging structure of the leveling substrate body shown in fig. 11. As shown in fig. 11 to 13, the first edge sealing plate 80 includes a third clamping structure.

Preferably, the first edge sealing plate 80 includes a third top surface and a third bottom surface opposite to each other in the thickness direction, and a third end surface and a fourth end surface opposite to each other in the length direction; a second accommodating groove 86 is formed between the third end surface and the third bottom surface, a second clamping portion 82 for clamping connection with the first clamping structure 10 of the leveling substrate body 30 located at the end portion is formed between the second accommodating groove 86 and the third top surface, a fourth clamping groove 85 is formed on one side, facing the third top surface, of the second clamping portion 82, and a fifth clamping groove 84 is formed on one side, facing the third bottom surface, of the second clamping portion 82; the third top surface and the third bottom surface are respectively arranged in parallel and level with the top surface and the bottom surface of the leveling base plate body 30, and the fourth end surface is used for being in seamless butt joint with a wall body.

When the leveling base plate body 30 is laid on the ground, the leveling base plate body 30 at one end extends out of the first clamping structure 10 towards one end of the wall, the first edge sealing plate 80 is arranged between the wall and the first clamping structure 10, the second clamping part 82 is clamped and connected in the first clamping groove 12, the second accommodating cavity 86 is used for accommodating the first bearing rib 13, the fourth clamping groove 85 and the fifth clamping groove 84 are respectively embedded and connected with the first limiting bulge 15 and the second limiting bulge 14, and at the moment, the top surface of the first edge sealing plate 80 is flush with the top surface of the leveling base plate body 30, so that effective support can be provided for the ground product 200 together; the bottom surface of the first edge sealing plate 80 is flush with the bottom surface of the leveling base plate body 30, and can be clamped and connected with the ground or the adjusting pin support base 70 together, so that uniform flatness is provided for the ground product 200; the first edge sealing plate 80 is in seamless butt joint with the wall body on the side end face back to the leveling base plate body 30, so that a gap between the first edge sealing plate and the wall body can be reduced, and the whole body is stable.

In this embodiment, the second receiving groove 86 of the first edge sealing plate 80 is used for receiving the first bearing rib 13 of the first clamping structure 10 of the leveling substrate body 30, the third bearing rib 83 is disposed at the lower right of the second clamping portion 82, and the third bearing rib 83 and the first bearing rib 13 are spliced to form a complete bearing rib structure. The third bearing rib 83 is additionally arranged, so that the overall structural strength of the first edge sealing plate 80 can be improved; each of the third load bearing ribs 83 is provided to penetrate in the width direction of the first bead plate 80. At least one third hollow structure 81 is arranged in the third bearing rib 83, and manufacturing materials can be saved by arranging the third hollow structure 81; the third hollow structure 81 may be filled with particles to secure structural strength.

In the present embodiment, the first edge sealing plate 80 is an integrally formed structure, such as manufactured by an injection molding process.

In this embodiment, the second engaging portion 82 extends from the third end surface, slightly smaller than the thickness of the leveling substrate body 30 (not provided with the bearing rib 40) from the third top surface, and is to be engaged with the first engaging groove 12, and the overlapping thickness of the second engaging portion 82 and the side wall of the first engaging groove facing the third top surface is the same as the thickness of the leveling substrate body (not provided with the bearing rib 40).

In the present embodiment, the top surface of the second engaging portion 82 is flush with the third top surface; the fourth clamping groove 85 is arranged at the free end of the top surface and is in a transverse L shape; a trapezoidal protrusion is arranged at one end of the second clamping part 82 far away from the third end surface, and the width of the trapezoidal protrusion gradually increases from far to near towards the third end surface; the partial bottom surface of the second engaging portion 82 abuts against the first engaging groove 12, the fifth engaging groove 84 is disposed on the partial bottom surface of the second engaging portion 82 close to the third end surface, and the width of the fifth engaging groove 84 gradually decreases from far to near toward the third top surface.

In this embodiment, at least one third arc-shaped groove 87 is disposed on a side wall of the second receiving groove 86 close to the third bottom surface, a fourth arc-shaped groove is disposed at a corresponding position of the side wall in the first clamping structure 10 and the second receiving groove 86, and the third arc-shaped groove 87 and the fourth arc-shaped groove which are disposed oppositely enclose and form the leveling hole 50 for installing the adjusting foot supporting base 70.

After the first edge sealing plate 80 is connected with the first clamping structure 10 of the leveling base plate body 30 in a clamping manner, the third arc-shaped groove 87 and the fourth arc-shaped groove are enclosed to form leveling holes 50, an adjusting foot supporting base 70 is installed in each leveling hole 50, and the flatness and the supporting height are adjusted by rising or lowering the positions of the leveling base plate body 30 and the first edge sealing plate 80 on the adjusting foot supporting base 70.

In this embodiment, the second guiding surface is smoothly transited between the third bottom surface and the fourth end surface. When the adjusting foot supporting base 70 is installed, the adjusting foot supporting base 70 is connected with the third bearing rib 83 in a clamping mode, the second bearing rib 23 is guided to enter the clamping groove of the adjusting foot supporting base 70 through the second guide surface, and the assembling difficulty of the adjusting foot supporting base 70 and the third bearing rib 83 can be reduced.

Fig. 14 is a schematic view of a second edge sealing plate of the leveling base plate assembly shown in fig. 1. FIG. 15 is a partial schematic view of the second bead plate shown in FIG. 14. Fig. 16 is a schematic view illustrating a second clamping structure of the second edge sealing plate and the leveling substrate body shown in fig. 14 in a clamping state. Fig. 17 is a schematic view illustrating a process of engaging the second edge sealing plate with the second engaging structure of the leveling substrate body shown in fig. 14. As shown in fig. 14 to 17, the second edge sealing plate 90 includes a fourth clamping structure.

Preferably, the second edge sealing plate 90 includes a fourth top surface and a fourth bottom surface opposite to each other in the thickness direction, and a fifth end surface and a sixth end surface opposite to each other in the length direction; a sixth clamping groove 92 used for accommodating the first clamping part 22 of the leveling substrate body 30 positioned at the end part is arranged between the fifth end surface and the fourth top surface, the fifth end surface and the fifth top surface respectively extend towards the notch of the sixth clamping groove 92 to form a third limiting bulge 95 and a fourth limiting bulge 94 which are respectively embedded and lapped with the second clamping groove 25 and the third clamping groove 24, and the sixth clamping groove, the third limiting bulge 95 and the fourth limiting bulge 94 are enclosed to form a fourth clamping structure; the fourth top surface and the fourth bottom surface are respectively arranged in parallel and level with the top surface and the bottom surface of the leveling base plate body 30, and the sixth end surface is used for being in seamless butt joint with a wall body.

When the leveling base plate body 30 is laid on the ground, the leveling base plate body 30 at one end extends out of the second clamping structure 20 towards one end of the wall, the second edge sealing plate 90 is arranged between the wall and the second clamping structure 20, the second clamping part 22 is clamped and connected in the sixth clamping groove 92, the third limiting bulge 95 and the fourth limiting bulge 94 are respectively embedded and connected in the second clamping groove 25 and the third clamping groove 24, and at the moment, the top surface of the second edge sealing plate 90 is flush with the top surface of the leveling base plate body 30, so that effective support can be provided for the ground product 200 together; the bottom surface of the second edge sealing plate 90 is flush with the bottom surface of the leveling base plate body 30, and can be clamped and connected with the ground or the adjusting pin support base 70 together, so that uniform flatness is provided for the ground product 200; the second edge sealing plate 90 is in back-to-back seamless butt joint with the wall body on one side end face of the leveling base plate body, so that a gap between the second edge sealing plate and the wall body can be reduced, and the whole body is stable.

In this embodiment, a fourth bearing rib 93 is disposed below the sixth locking groove 92 of the second edge sealing plate 90, and the overall structural strength of the second edge sealing plate 90 can be improved by additionally providing the fourth bearing rib 93; each of the fourth load bearing ribs 93 is provided to penetrate in the width direction of the second bead plate 90. At least one fourth hollow structure 91 is arranged in the fourth bearing rib 93, and manufacturing materials can be saved by arranging the fourth hollow structure 91; the fourth hollow structure 91 may be filled with particles to secure structural strength.

In the present embodiment, the second edge sealing plate 90 is an integrally formed structure, such as manufactured by an injection molding process.

In this embodiment, the third limiting protrusion 95 and the fourth limiting protrusion 94 can prevent the first engaging portion 22 from entering the first sixth groove 92, and can prevent the first engaging portion 22 from coming out of the sixth engaging groove 92 after the engaging connection. The top surface of the third limiting protrusion 95 is flush with the fourth top surface; the outer side surface of the fourth limiting protrusion 94 is flush with the sixth end surface.

In this embodiment, at least one first arc-shaped groove 96 is disposed on the fifth end surface, a second arc-shaped groove is disposed at a corresponding position of the first engaging portion 22 facing the fifth end surface, and the first arc-shaped groove 96 and the second arc-shaped groove disposed oppositely can enclose to form the leveling hole 50 for installing the adjusting foot supporting base 70. After the second edge sealing plate 90 is engaged with the first engaging portion 22 of the leveling base plate body 30, the first arc-shaped groove 16 and the second arc-shaped groove surround to form leveling holes 50, an adjusting pin supporting base 70 is installed in each leveling hole 50, and the flatness and the supporting height are adjusted by raising or lowering the positions of the leveling base plate body 30 and the second edge sealing plate 90 on the adjusting pin supporting base 70.

In this embodiment, the first guide surface is smoothly transited between the fourth bottom surface and the sixth end surface. When the adjusting foot supporting base 70 is installed, the adjusting foot supporting base 70 is connected with the fourth bearing rib 93 in a clamping mode, the fourth bearing rib 93 is guided to enter a clamping groove of the adjusting foot supporting base 70 through the arrangement of the first guide surface, and the assembling difficulty of the adjusting foot supporting base 70 and the fourth bearing rib 93 can be reduced.

The use of the leveling base plate assembly is further described below.

Setting a plurality of leveling base plate bodies 30 distributed in sequence according to the construction area, and clamping and connecting the adjacent leveling base plate bodies 30 through a first clamping structure 10 and a second clamping structure 20; namely, the first clamping part 22 is clamped in the first clamping groove 12, the first limiting bulge 15 is connected in the second clamping groove 25 in an embedded manner, the second limiting bulge 14 is connected in the third clamping groove 24 in an embedded manner, the first clamping part 22 can be limited by the first limiting bulge 15 and the second limiting bulge 14 to be separated from the first clamping groove 12, and the first bearing rib 13 and the second bearing rib 23 are abutted to form a complete bearing rib 40.

Arranging a first edge sealing plate 80 between the first clamping structure 10 of the leveling base plate body 30 at one end and the wall, and after the third clamping structure is clamped and connected with the first clamping structure 10, abutting the third clamping structure with the wall through the first edge sealing plate 80; set up second banding board 90 between second joint structure 20 and the wall body of the leveling base plate body 30 that is located one end, fourth joint structure and the second joint structure 20 block are connected the back, then through second banding board 90 and wall body butt.

Two adhesive layers 75 are provided on the support base 71, respectively on the left and right sides of the mounting passage. The side, facing the supporting seat 71, of the leveling base plate body 30 is provided with a bearing rib 40, and the side, facing away from the supporting seat 71, of the leveling base plate body 30 is provided with a supporting surface for supporting a ground product; the load bearing ribs 40 are snapped into the pockets and are reinforced by the adhesive layer 75. If the supporting height of the adjusting foot supporting base 70 needs to be adjusted, the adjusting column 72 is rotated by using a hexagonal wrench to be matched with the adjusting hole 74, so that the relative positions of the supporting seat 71 and the adjusting column 72 are changed, and the height is adjusted. The adhesive can enter the drainage channel of the base 73 along the adjusting column 72 through the adjusting hole 74 and enter the hollow structure through the drainage channel, the hollow structure can contain the adhesive, the base 73 can be bonded with the ground, the adhesive in the hollow structure can flow out of the base 73 through the guiding hole, the influence of the flatness of the ground on installation is reduced, and the overflowed adhesive plays a role in fixing from the outside of the base 73.

From the above description and practice, the present invention provides a leveling base plate assembly having the following advantages over the prior art: the leveling base plate structure formed after the plurality of leveling base plate bodies are sequentially clamped and connected is arranged between the ground and a ground product, and effective support is provided for the ground product. The clamping connection is easy to assemble, the requirement on the technical level of operating personnel is limited, and the clamping stability is good, so that the leveling base plate structure has good flatness, a cement mortar process is further replaced, a good environment is guaranteed to be provided for a construction site, and the construction period is shortened. The adjusting foot supports the base and provides the supporting role for leveling base plate body and ground product, and leveling base plate body can support the base along adjusting the foot and go up and down, comes the regulation support height, and then realizes leveling to ground product, reduces the influence of ground roughness to the installation, improves the efficiency of construction. Respectively sealing the leveling substrate bodies positioned at the two ends through a first edge sealing plate and a second edge sealing plate; the edge sealing is realized quickly and effectively, and the stability and the attractiveness of the leveling base plate assembly at the wall can be improved.

Those of ordinary skill in the art will understand that: the above description is only for the specific embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit of the present invention should be included in the protection scope of the present invention.

Claims

1. A leveling base plate assembly, comprising:

2. The leveling base plate assembly of claim 1,

the leveling base plate body is provided with a plurality of bearing ribs arranged at intervals along the length direction, the leveling holes are arranged at intervals along the length direction of the bearing ribs, and each leveling hole penetrates through the bearing ribs along the thickness direction of the bearing rib.

3. The leveling base plate assembly of claim 2,

the two opposite ends of the leveling substrate body are respectively a first end and a second end, and the first end comprises a first top surface and a first bottom surface which are arranged in a thickness direction in an opposite mode and a first end surface between the first top surface and the first bottom surface; the second end comprises a second top surface and a second bottom surface which are arranged oppositely in the thickness direction and a second end surface between the second top surface and the second bottom surface;

4. The leveling base plate assembly of claim 3,

a first bearing rib extending along the width direction is arranged at the position, corresponding to the first clamping groove, of the first bottom surface; the second bottom surface is provided with a second bearing rib extending along the width direction, a first accommodating groove used for accommodating the first bearing rib is formed between the first clamping part and the second end surface, and the second bearing rib and the first bearing rib positioned in the first accommodating groove are connected in a seamless mode to form the bearing rib.

5. The leveling base plate assembly of claim 4,

the first edge sealing plate comprises a third top surface and a third bottom surface which are arranged in a thickness direction in an opposite mode, and a third end surface and a fourth end surface which are arranged in a length direction in an opposite mode; a second accommodating groove is formed between the third end face and the third bottom face, a second clamping portion used for being clamped and connected with the first clamping structure of the leveling substrate body located at the end portion is formed between the second accommodating groove and the third top face, a fourth clamping groove is formed in one side, facing the third top face, of the second clamping portion, and a fifth clamping groove is formed in one side, facing the third bottom face, of the second clamping portion; the third top surface with the third bottom surface respectively with the top surface and the bottom surface parallel and level setting of leveling base plate body, fourth terminal surface is used for the seamless butt with the wall body.

6. The leveling base plate assembly of claim 5,

the second edge sealing plate comprises a fourth top surface and a fourth bottom surface which are arranged in the thickness direction in an opposite mode, and a fifth end surface and a sixth end surface which are arranged in the length direction in an opposite mode; a sixth clamping groove for accommodating the first clamping part of the leveling substrate body positioned at the end part is arranged between the fifth end surface and the fourth top surface, a third limiting bulge and a fourth limiting bulge which are respectively embedded and lapped with the second clamping groove and the third clamping groove extend from the fifth end surface and the fifth top surface towards the notch of the sixth clamping groove, and the sixth clamping groove, the third limiting bulge and the fourth limiting bulge are enclosed to form a fourth clamping structure; the fourth top surface with the fourth bottom surface respectively with the top surface and the bottom surface parallel and level setting of leveling base plate body, the sixth terminal surface be used for with the seamless butt of wall body.

7. The leveling base plate assembly of any one of claims 2 to 6,

the adjusting foot supporting base comprises an adjusting column and a supporting seat, and the supporting seat is sleeved on the adjusting column and can lift along the adjusting column; the supporting seat is provided with a clamping groove connected with the bearing rib in a clamping mode, and at least part of the clamping groove is covered with an adhesive layer.

8. The leveling base plate assembly of claim 7,

the base is arranged at one end, facing the ground, of the adjusting column, the diameter of the base is larger than that of the adjusting column, and the adjusting column is in contact with the ground through the base.

9. The leveling base plate assembly of claim 8,

the adjusting column is provided with an adjusting hole penetrating along the axial direction, the base is internally provided with a hollow structure, a drainage channel is arranged in the hollow structure, the adjusting hole is communicated with the drainage channel, and the drainage channel is used for draining the hollow structure.

10. The leveling base plate assembly of claim 9,

at least one flow guide hole is formed in the circumferential direction of the base and communicated with the hollow structure.