CN220451312U - Improved dry-hanging floor tile mounting structure - Google Patents

Abstract

The utility model provides an improved dry-hanging floor tile mounting structure, which comprises a keel frame, floor tiles, a connecting assembly and supporting legs, wherein the keel frame is arranged on the keel frame; the keel frame comprises a main keel and an auxiliary keel which are arranged in a crossing way, the section of the auxiliary keel comprises a supporting top plate, a buckling groove formed by the concave of the supporting top plate and fixed side plates which extend downwards from the two outer sides of the supporting top plate, and the bottom edges of the fixed side plates are curled into curled edges; the main keel is square, the top surface of the main keel is provided with a supporting groove for avoiding the buckling groove and a fixing groove for avoiding the fixing side plate, the side wall of the fixing groove is provided with a hook-shaped part buckled with the curled edge part, and the top surface of the main keel between the supporting groove and the fixing groove is propped against the bottom of the supporting top plate; the top surface of main joist is equipped with first blotter, and the top surface of auxiliary joist is equipped with the second blotter, and the top surface of first blotter, second blotter and coupling assembling forms the supporting plane who supports the ceramic tile jointly. The floor tile installation structure is stable and silent, is easy to install and is suitable for home decoration.

Description

Improved dry-hanging floor tile mounting structure

Technical Field

The utility model relates to the technical field of home decoration, in particular to an improved dry-hanging type floor tile mounting structure.

Background

The traditional floor tile is fixed by adopting cement adhesion, the construction period is long, the cost is high, the construction technical requirement is high, and when the floor tile is maintained or remounted in the later period, the demolition difficulty is high, and a large amount of construction waste can be generated. The dry-hanging type installation is a novel construction process, can be installed in a standardized manner and has no construction waste, but at present, no unified technical standard exists, so that the existing structure is various and the quality is uneven, and the dry-hanging type installation is mainly used for temporary house construction. If the dry-hanging floor tile structure is adopted in the house decoration, the reliability of the structure must be considered to prevent loosening and noise caused in long-term use, however, the metal keel frame adopted in the dry-hanging installation is easy to loosen and collide at each intersection point of the keel frame and between the contact surfaces of the floor tile and the keel frame, so that the structure is unstable and the metal friction and collision noise is large, and the installation is very complex due to the adoption of the excessively fastened structure. Therefore, how to make the dry-hanging floor tile installation structure stable and mute and easy to install is a problem to be solved at present.

Disclosure of Invention

The utility model aims to provide a dry-hanging floor tile installation structure which is stable and silent and is easy to install.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

an improved dry-hanging floor tile installation structure comprises a keel frame, a plurality of floor tiles, a plurality of connecting components, and a plurality of supporting feet, wherein the top ends of the connecting components are fixed with the bottom surface of the floor tile, the lower ends of the connecting components are fastened and fixed with the keel frame, and the supporting feet are used for supporting the keel frame; the keel frame comprises a plurality of transverse main keels and a plurality of longitudinal auxiliary keels which are arranged in a crossing way, the cross section structure of the auxiliary keels comprises a horizontal supporting top plate, a buckling groove which is formed by the concave of the supporting top plate and is used for buckling and fixing the connecting component, and fixed side plates which extend downwards from the two outer sides of the supporting top plate, and the bottom edges of the fixed side plates are curled into curled edges; the main keel is square-tube-shaped, the main keel is provided with a supporting groove which is formed by cutting downwards from the top surface and used for avoiding the buckling groove, and a fixing groove which is used for avoiding the fixing side plate, the side wall of the fixing groove is provided with a hook-shaped part which can be buckled with the curled edge part to enable the auxiliary keel to be fixedly matched with the main keel, and the top surface of the main keel between the supporting groove and the fixing groove is propped against and supported at the bottom of the supporting top plate; and part or all of the top surfaces of the main keels are provided with first buffer pads at intervals along the length direction of the main keels, and part or all of the top surfaces of the auxiliary keels are provided with second buffer pads at intervals along the length direction of the auxiliary keels, and the first buffer pads, the second buffer pads and the top surfaces of the connecting assemblies jointly form a supporting plane for supporting the floor tiles.

Preferably, at least the upper section of the supporting groove is equal in width with the widest part of the buckling groove; the curled edge parts at two sides of the auxiliary keel are curled towards the inner side in opposite directions, and the outer sides of the hook-shaped parts are propped against the inner wall of the fixed side plate.

Preferably, the top surface of main joist has the amalgamation seam along length direction's central line, first blotter including laminate in the first adhesive tape of main joist top surface, and by first adhesive tape bottom surface downwardly extending can with the first joint adhesive tape of amalgamation seam lock joint fixed.

Preferably, the second cushion pad includes striding in the lock joint groove both sides and laminate in the second adhesive tape of supporting the roof top surface, and the shaping in second adhesive tape bottom surface and can with the lock joint groove both sides are along the second lock joint adhesive tape of lock fixation, both sides the bottom of second lock joint adhesive tape is through a horizontal supporting adhesive tape interconnect.

The auxiliary keels are arranged below the longitudinal splicing lines corresponding to two adjacent floor tiles, the auxiliary keels at the positions are provided with two parallel buckling grooves, a common supporting surface is formed by the supporting top plates between the two buckling grooves, and the two buckling grooves are respectively buckled and fixed with the two adjacent floor tiles through the connecting assembly; and the main joist at the corresponding position is provided with two supporting grooves matched with the auxiliary joists.

A preferred scheme is that a third buffer cushion is arranged on the common supporting surface and comprises a third adhesive tape attached to the common supporting surface and a third buckling adhesive tape which is formed by curling two side edges of the third adhesive tape and can be buckled with the edges of the buckling grooves on two sides.

One main keel is arranged below the transverse splicing lines corresponding to two adjacent floor tiles, and two parallel groups of connecting assemblies which are respectively fastened and fixed with the two adjacent floor tiles are arranged on the auxiliary keel corresponding to the position.

Preferably, the connecting component comprises an elastic buckle which can be elastically buckled into the buckling groove and can be longitudinally adjusted relative to the auxiliary keel, and a connecting piece which is assembled at the top end of the elastic buckle and can be transversely adjusted relative to the elastic buckle.

Preferably, the connecting piece comprises a rectangular bottom plate which is adhered and fixed on the bottom surface of the floor tile, and C-shaped grooves which are curled downwards and oppositely by two transverse edges of the bottom plate; the elastic buckle comprises a square columnar buckle body, two transverse edges at the top end of the buckle body extend outwards to form columnar parts matched with the C-shaped groove, two longitudinal edges at the bottom end of the buckle body extend upwards to form a buckle plate clamped with the inner wall of the buckling groove, a clearance space for deformation of the buckle plate is reserved between the buckle plate and the buckle body, and after the elastic buckle is buckled into the buckling groove, the inner side of the top end of the buckle plate abuts against the side wall of the buckle body.

Preferably, the connecting piece is arranged on two sides of the buckling groove in a straddling mode, and the bottom of the connecting piece is in abutting contact with the supporting top plate.

The beneficial effect of above-mentioned scheme lies in: the main keel and the auxiliary keel of the keel frame are fastened and fixed with each other only through the curled edge part and the hooked part, so that the keel frame is simple to install, and meanwhile, the top surface of the main keel between the supporting groove and the fixing groove is propped against and supported at the bottom of the supporting top plate, so that the main keel and the auxiliary keel are combined reliably; the installation mode that the auxiliary keel is embedded into the main keel not only reduces the overall height of the keel frame, but also provides stronger supporting force for the floor tile by the supporting plane formed together, and meanwhile, the relative displacement between the main keel and the auxiliary keel is avoided, so that the keel frame structure is more stable and reliable; the floor tiles are buckled and installed with the keel frame through the connecting component, so that the installation is simple; the first buffer cushion and the second buffer cushion are arranged, so that the floor tile can be supported, buffered and silenced, the connecting components can be pulled upwards, the connecting components can be prevented from loosening in the buckling grooves, and meanwhile, the height error caused by installation between the connecting components can be eliminated. Therefore, the floor tile installation structure is stable and silent, is easy to install and is suitable for home decoration.

Drawings

The utility model will now be described in further detail with reference to the drawings and to specific examples.

FIG. 1 is a schematic diagram of a tile installation structure according to an embodiment;

FIG. 2 is a schematic cross-sectional view of a cross-sectional structure of a cross runner in an embodiment;

figure 3 is a partial structural side view of a main runner of an embodiment;

fig. 4 is a schematic view of a mating structure between a main runner and a cross runner in an embodiment;

FIG. 5 is a schematic view of the mounting structure of the main runner and the first cushion in an embodiment;

FIG. 6 is a schematic view of the mounting structure of the cross runner and the second cushion in an embodiment;

FIG. 7 is a partial schematic view of the mounting structure at the longitudinal splice lines of adjacent tiles according to one embodiment;

FIG. 8 is a schematic view of an example mounting structure for a cross runner and a third cushion;

FIG. 9 is a partial schematic view of the mounting structure at the lateral splice lines of adjacent tiles according to one embodiment;

FIG. 10 is an exploded view of the connection assembly of the embodiment;

FIG. 11 is a side view of a mounting structure for a keel frame and connection assembly according to an embodiment;

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to fig. 1, this embodiment is illustrated by taking an improved dry-hanging type tile installation structure as an example, and the dry-hanging type tile 2 installation structure includes a keel frame 1, a plurality of tiles 2, a plurality of connecting components 3 with top ends fixed to the bottom surface of the tiles 2 and lower ends fastened and fixed to the keel frame 1, and a plurality of supporting legs 4 for supporting the keel frame 1.

Referring to fig. 1, the keel frame 1 includes a plurality of transverse main keels 11 and a plurality of longitudinal auxiliary keels 12 which are arranged in a crossing manner, referring to fig. 2, the cross-section structure of the auxiliary keels 12 includes a horizontal supporting top plate 121, a fastening slot 122 formed by the supporting top plate 121 in a concave manner for fastening and fixing the connecting assembly 3, and fixing side plates 123 extending downwards from two outer sides of the supporting top plate 121, and the bottom edges of the fixing side plates 123 are curled into curled edges 124; referring to fig. 3 and 4, the main runner 11 is square, the main runner 11 has a supporting groove 111 cut downward from a top surface for avoiding the fastening groove 122, and a fixing groove 112 for avoiding the fixing side plate 123, the side wall of the fixing groove 112 has a hook 113 that can be fastened with the curled edge 124 to make the auxiliary runner 12 and the main runner 11 fixedly fit, and the top surface 11a of the main runner 11 between the supporting groove 111 and the fixing groove 112 is propped against and supported on the bottom of the supporting top plate 121; the top surfaces of part or all of the main keels 11 are provided with first cushion pads 5 at intervals along the length direction, the top surfaces of part or all of the auxiliary keels 12 are provided with second cushion pads 6 at intervals along the length direction, and the top surfaces of the first cushion pads 5, the second cushion pads 6 and the connecting components 3 together form a supporting plane for supporting the floor tiles 2.

During construction, the supporting feet 4 are uniformly supported below the main keels 11 and leveled according to the shape and the area of the bottom surfaces and the lengths of the main keels 11 and the auxiliary keels 12, so that the main keels 11 are positioned on the same plane, the auxiliary keels 12 are correspondingly clamped into the main keels 11 to be fixed, and the first buffer pads 5 and the second buffer pads 6 are respectively arranged on the top surfaces of the main keels 11 and the auxiliary keels 12. The top end of the connecting component 3 is fixed with the floor tile 2, and then the connecting component 3 is integrally clamped into the buckling groove 122 of the auxiliary keel 12 downwards, so that the floor tile 2 and the keel frame 1 can be fixed.

The main keel 11 and the auxiliary keel 12 of the keel frame 1 are fastened and fixed with each other only through the curled edge 124 and the hooked part 113, so that the keel frame 1 is simple to install, and meanwhile, the top surface of the main keel 11 between the supporting groove 111 and the fixing groove 112 is propped against and supported at the bottom of the supporting top plate 121, so that the main keel 11 and the auxiliary keel 12 are combined reliably; the installation mode that the auxiliary keel 12 is embedded into the main keel 11 not only reduces the overall height of the keel frame 1, but also provides stronger supporting force for the floor tile 2 by the commonly formed supporting plane, and meanwhile, the relative displacement between the main keel 11 and the auxiliary keel 12 is avoided, so that the structure of the keel frame 1 is more stable and reliable; the floor tile 2 is buckled and installed with the keel frame 1 through the connecting component 3, so that the installation is simple; the first cushion pad 5 and the second cushion pad 6 not only can support, buffer and mute the floor tile 2, but also can enable the connecting components 3 to be pulled upwards, so that the connecting components 3 can be prevented from loosening in the buckling grooves 122, and meanwhile, the height error generated by installation between the connecting components 3 can be eliminated. Therefore, the floor tile 2 mounting structure is stable and silent, is easy to mount, and is suitable for home decoration.

Referring to fig. 4, in order to further improve stability of the keel frame 1 and reduce noise, a preferred embodiment is provided in which at least the upper section of the supporting groove 111 is as wide as the widest part of the fastening groove 122; the curled portions 124 on both sides of the cross runner 12 curl toward each other toward the inside, and the outer sides of the hook portions 113 abut against the inner walls of the fixed side plates 123. The upper section of the supporting groove 111 and the fastening groove 122 have the same width, and the fastening groove 122 can be limited to move or deform to two sides, so that the loose and friction of the auxiliary keel 12 is avoided, and meanwhile, the fastening groove 122 is prevented from widening to enable the connecting assembly 3 to be loose; the outer side of the hook 113 abuts against the inner wall of the fixed side plate 123, so that the fixed side plate 123 is prevented from loosening and rubbing inwards; in addition, the main joist 11, the auxiliary joist 12 and the connecting component 3 can be combined more stably and reliably, and friction noise caused by loosening is avoided.

Referring to fig. 5, in a preferred embodiment of the first cushion pad 5, the top surface of the main runner 11 has a joint 114 along a central line in the length direction, and the first cushion pad 5 includes a first adhesive tape 51 attached to the top surface of the main runner 11, and a first fastening adhesive tape 52 extending downward from the bottom surface of the first adhesive tape 51 and capable of being fastened and fixed to the joint 114. The square tubular main joist 11 is usually formed by bending, a splicing seam 114 is formed at the joint line, and the first cushion pad 5 is fastened and fixed with the splicing seam 114 through the first fastening adhesive tape 52, so that the first cushion pad can be fixed on the top surface of the main joist 11 without back adhesive, the operation is very simple, and the flatness of the first cushion pad 5 can be ensured. The first fastening strip 52 may have various forms, and the bottom edge thereof may have a limit portion having a width larger than that of the engagement seam 114, such as a rounded shape, etc. Because of the flexibility of the material, the first snap strip 52 may be conveniently inserted downwardly into the split joint 114 of the main runner 11.

Referring to fig. 6, in a preferred embodiment of the second cushion pad 6, the second cushion pad 6 includes a second adhesive tape 61 straddling two sides of the fastening groove 122 and attached to the top surface of the supporting top plate 121, and a second fastening adhesive tape 62 formed on the bottom surface of the second adhesive tape 61 and capable of being fastened to two sides of the fastening groove 122, wherein bottom ends of the second fastening adhesive tape 62 on two sides are connected to each other by a transverse supporting adhesive tape 63. The second cushion 6 is fastened and fixed above the fastening groove 122 through the second fastening adhesive tape 62, so that the second cushion 6 is convenient to install and can maintain flatness. The fastening groove 122 is wider, so that the supporting adhesive tape 63 can prevent the second fastening adhesive tapes 62 on two sides from deforming to the middle to be loosened.

Referring to fig. 7, in a preferred implementation structure, the auxiliary keels 12 are disposed below the longitudinal splicing lines corresponding to two adjacent tiles 2, the auxiliary keels 12 at this position have two parallel fastening slots 122, the supporting top plates 121 between the two fastening slots 122 form a common supporting surface 121a, and the two fastening slots 122 are fastened and fixed with the two adjacent tiles 2 through the connecting component 3 respectively; and the main runner 11 at the corresponding position has two of the support grooves 111 fitted with the cross runner 12. On one hand, the adjacent floor tiles 2 are all fixed on the same auxiliary keel 12 through the connecting assembly 3, so that the edges of the floor tiles 2 are supported by the auxiliary keel 12 and are tensioned by the connecting assembly 3, the structural stability is improved, and the adjacent floor tiles 2 can be aligned on the same plane; on the other hand, because the adjacent floor tiles 2 are respectively fastened and fixed with the auxiliary keels 12 through the connecting components 3, the positions of the adjacent floor tiles 2 can be independently and finely adjusted, and the adjacent floor tiles do not interfere with each other.

Referring to fig. 8, a third cushion pad 7 is further disposed on the common supporting surface 121a, and the third cushion pad 7 includes a third adhesive tape 71 attached to the common supporting surface 121a, and a third fastening adhesive tape 72 formed by curling two sides of the third adhesive tape 71 and capable of being fastened to edges of the fastening grooves 122 on two sides. The third cushion pad 7 is fastened and fixed to the edge of the adjacent fastening groove 122 through the third fastening adhesive strips 72 on two sides, so that the third cushion pad 7 is convenient to install and can keep flatness; meanwhile, the third buffer pad 7 is arranged on the common supporting surface 121a, so that the support can be provided for two adjacent floor tiles 2 at the same time, the consumption of the third buffer pad 7 is saved, and the installation is simplified.

Referring to fig. 9, in a preferred implementation structure, a main keel 11 is disposed below the transverse splicing lines corresponding to two adjacent tiles 2, and two parallel groups of connecting assemblies 3 respectively fastened and fixed with two adjacent tiles 2 are disposed on the auxiliary keel 12 corresponding to the position. The edges of the adjacent floor tiles 2 are supported by the same main keel 11 and are respectively tensioned by the connecting components 3, so that the structural stability is improved, and the alignment of the two adjacent floor tiles 2 on the same plane can be ensured; in addition, because the adjacent floor tiles 2 are respectively fastened and fixed with the auxiliary keels 12 through the connecting assemblies 3, the positions of the adjacent floor tiles 2 can be independently and finely adjusted, and the adjacent floor tiles are not interfered with each other.

Referring to fig. 10, in a preferred embodiment, the connection assembly 3 includes an elastic buckle 31 that can be elastically buckled 31 into the buckling groove 122 and can be longitudinally adjusted with respect to the cross runner 12, and a connection member 32 that is assembled at the top end of the elastic buckle 31 and can be laterally adjusted with respect to the elastic buckle 31. The connecting component 3 is provided with two parts, namely the elastic buckle 31 and the connecting piece 32, which can adjust the relative positions along the transverse direction, so that the floor tile 2 and the false keel 12 can be finely adjusted along the transverse direction after being installed, and meanwhile, the elastic buckle 31 can be longitudinally adjusted in the buckling groove 122, so that the floor tiles 2 can be aligned along the transverse direction and the longitudinal direction.

Further, the connecting piece 32 includes a rectangular bottom plate 321 attached to the bottom surface of the tile 2, and C-shaped grooves 322 curled downward and toward each other from two lateral edges of the bottom plate 321; the elastic buckle 31 comprises a square columnar buckle body 311, two lateral edges at the top end of the buckle body 311 extend outwards to form a columnar portion 312 matched with the C-shaped groove 322, two longitudinal edges at the bottom end of the buckle body 311 extend upwards to form a buckle plate 313 clamped with the inner wall of the buckle groove 122, a gap space 314 for deformation of the buckle plate 313 is formed between the buckle plate 313 and the buckle body 311, and when the elastic buckle 31 is buckled into the buckle groove 122, the inner side of the top end of the buckle plate 313 abuts against the side wall of the buckle body 311. The whole connecting piece 32 is thinner, so that the gaps between the bottom surface of the floor tile 2 and the top surfaces of the auxiliary keels 12 and the main keels 11 are smaller, the first cushion pad 5 and the second cushion pad 6 are convenient to set for filling the gaps, the whole installation thickness of the floor tile 2 is reduced, and the supporting strength of the top surface of the keel frame 1 to the floor tile 2 is ensured; the top end of the buckle 313 abuts against the side wall of the buckle body 311, so that the elastic buckle 31 cannot deform in the buckle slot 122, thereby preventing the elastic buckle 31 from loosening or even separating from the buckle slot 122, and further providing support for the buckle slot 122, and preventing the buckle slot 122 from deforming inwards.

Referring to fig. 11, further, the connecting piece 32 spans on two sides of the fastening slot 122 and the bottom contacts with the supporting top plate 121 in a propping manner. The connecting piece 32 is straddled on two sides of the buckling groove 122, so that the connecting component 3 is prevented from sinking towards the bottom of the buckling groove 122, and the elastic buckle 31 is fastened with the buckling groove 122, so that the connecting component 3 is prevented from moving upwards, and the connecting component 3 is stably fixed on the keel frame 1, and the loosening of the structure is avoided.

The above description should not be taken as limiting the scope of the utility model, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (10)

1. An improved dry-hanging floor tile mounting structure is characterized in that: the floor tile comprises a keel frame, a plurality of floor tiles, a plurality of connecting components, and a plurality of supporting feet, wherein the top ends of the connecting components are fixed with the bottom surface of the floor tile, the lower ends of the connecting components are fastened and fixed with the keel frame, and the supporting feet are used for supporting the keel frame; the keel frame comprises a plurality of transverse main keels and a plurality of longitudinal auxiliary keels which are arranged in a crossing way, the cross section structure of the auxiliary keels comprises a horizontal supporting top plate, a buckling groove which is formed by the concave of the supporting top plate and is used for buckling and fixing the connecting component, and fixed side plates which extend downwards from the two outer sides of the supporting top plate, and the bottom edges of the fixed side plates are curled into curled edges; the main keel is square-tube-shaped, the main keel is provided with a supporting groove which is formed by cutting downwards from the top surface and used for avoiding the buckling groove, and a fixing groove which is used for avoiding the fixing side plate, the side wall of the fixing groove is provided with a hook-shaped part which can be buckled with the curled edge part to enable the auxiliary keel to be fixedly matched with the main keel, and the top surface of the main keel between the supporting groove and the fixing groove is propped against and supported at the bottom of the supporting top plate; and part or all of the top surfaces of the main keels are provided with first buffer pads at intervals along the length direction of the main keels, and part or all of the top surfaces of the auxiliary keels are provided with second buffer pads at intervals along the length direction of the auxiliary keels, and the first buffer pads, the second buffer pads and the top surfaces of the connecting assemblies jointly form a supporting plane for supporting the floor tiles.

2. An improved dry-hang tile installation structure as claimed in claim 1, wherein: at least the upper section of the supporting groove is as wide as the widest part of the buckling groove; the curled edge parts at two sides of the auxiliary keel are curled towards the inner side in opposite directions, and the outer sides of the hook-shaped parts are propped against the inner wall of the fixed side plate.

3. An improved dry-hang tile installation structure as claimed in claim 1, wherein: the top surface of main joist has the amalgamation seam along length direction's central line, first blotter including laminate in the first adhesive tape of main joist top surface, and by first adhesive tape bottom surface downwardly extending can with the first joint adhesive tape of amalgamation seam lock joint fixed.

4. An improved dry-hang tile installation structure as claimed in claim 1, wherein: the second buffer pad comprises a second adhesive tape which is arranged on two sides of the buckling groove in a straddling mode and is attached to the top surface of the supporting top plate, and a second buckling adhesive tape which is formed on the bottom surface of the second adhesive tape and can be buckled and fixed with two sides of the buckling groove along the buckling mode, and the bottom ends of the second buckling adhesive tape on two sides are connected with each other through a transverse supporting adhesive tape.

5. An improved dry-hang tile installation structure as claimed in claim 1, wherein: the auxiliary keels are arranged below the longitudinal splicing lines of two adjacent floor tiles, the auxiliary keels at the positions are provided with two parallel buckling grooves, a common supporting surface is formed by the supporting top plates between the two buckling grooves, and the two buckling grooves are respectively buckled and fixed with the two adjacent floor tiles through the connecting components; and the main joist at the corresponding position is provided with two supporting grooves matched with the auxiliary joists.

6. The improved dry-hang tile installation structure of claim 5, wherein: the common supporting surface is provided with a third buffer pad, and the third buffer pad comprises a third adhesive tape attached to the common supporting surface and a third fastening adhesive tape which is formed by curling two side edges of the third adhesive tape and can be fastened with the edges of the fastening grooves on two sides.

7. An improved dry-hang tile installation structure as claimed in claim 1, wherein: and two parallel groups of connecting components which are respectively buckled and fixed with the adjacent two floor tiles are arranged on the auxiliary keel corresponding to the position.

8. An improved dry-hang tile installation structure as claimed in claim 1, wherein: the connecting component comprises an elastic buckle which can be elastically buckled into the buckling groove and can be longitudinally adjusted relative to the auxiliary keel, and a connecting piece which is assembled at the top end of the elastic buckle and can be transversely adjusted relative to the elastic buckle.

9. The improved dry-hang tile installation structure of claim 8, wherein: the connecting piece comprises a rectangular bottom plate which is adhered and fixed on the bottom surface of the floor tile, and C-shaped grooves which are curled downwards and oppositely by two transverse edges of the bottom plate; the elastic buckle comprises a square columnar buckle body, two transverse edges at the top end of the buckle body extend outwards to form columnar parts matched with the C-shaped groove, two longitudinal edges at the bottom end of the buckle body extend upwards to form a buckle plate clamped with the inner wall of the buckling groove, a clearance space for deformation of the buckle plate is reserved between the buckle plate and the buckle body, and after the elastic buckle is buckled into the buckling groove, the inner side of the top end of the buckle plate abuts against the side wall of the buckle body.

10. The improved dry-hang tile installation structure of claim 8, wherein: the connecting piece is arranged on two sides of the buckling groove in a straddling mode, and the bottom of the connecting piece is in propping contact with the supporting top plate.