CN109025150B - Dry-type floor tile splicing structure and splicing method thereof - Google Patents

Abstract

The invention provides a dry type floor tile splicing structure and a splicing method thereof. The invention comprises a laying surface, wherein a support frame is arranged on the laying surface, floor tiles are laid on the support frame, and caulking strips are arranged between adjacent floor tiles; the supporting frame comprises a mounting surface and a mounting groove, a plurality of mounting grooves are formed in the supporting frame, the mounting surface is arranged on the circumferential direction of the mounting groove of the supporting frame, and a clamping groove is formed in the mounting surface; the floor tile comprises a connecting plate and a bulge, the bulge clamped in the mounting groove is arranged on the back surface of the floor tile, the connecting plate is positioned on the circumferential direction of the floor tile and is abutted against the mounting surface, and a clamping block matched with the clamping groove is arranged on the back surface of the connecting plate; the invention also provides a splicing method of the floor tile. The floor tile is directly spliced on the support frame through a dry method, cement mortar and a binder are not needed, the construction process is simple, the construction condition is not required, the splicing is easy, the structure is firm, the construction efficiency is high, the phenomena of bulging, cracking and tilting cannot occur, the surface is flat after the splicing, and the height is consistent.

Description

Dry-type floor tile splicing structure and splicing method thereof

Technical Field

The invention relates to the technical field of architectural decoration engineering, in particular to a dry-type floor tile splicing structure and a splicing method thereof.

Background

The floor tile is a kind of floor decorating material, and is used mainly in floor and floor of public and civil buildings. The existing floor tile paving technology is that cement mortar is firstly used for paving a floor tile on the ground, and a rubber hammer is required to knock the floor tile in the paving process so as to ensure the adhesion of the floor tile mortar and avoid later-stage hollowing; and after the paving mortar is solidified, pointing the brick joints of the floor tiles by using a powdery pointing agent.

In the floor tile paving technology, because cement mortar or adhesive is used for paving, the construction process requirement is high, for example: the method has certain requirements on the mixing proportion of cement mortar, water immersion before floor tile construction, leveling of paving height, temperature during construction, mixing and stirring of adhesives and the like; if the control is improper, the phenomena of expansion with heat and contraction with cold, bulging and cracking are easily generated after paving, the height difference of joints after the floor tiles are densely spliced and paved is obvious, the surface flatness is poor, and the problems of hollowing and tilting of the floor tiles and the like are generated; moreover, maintenance is needed after paving and pasting, and the construction efficiency is not high.

Disclosure of Invention

The invention provides a dry floor tile splicing structure and a splicing method thereof, which solve the problems that the floor tile paving technology in the prior art is complex in process, long in construction period, influenced by environment in construction conditions and difficult to guarantee construction quality.

The invention relates to a dry-type floor tile splicing structure, which adopts the technical scheme that: the floor tile paving machine comprises a paving surface, wherein a support frame is arranged on the paving surface, floor tiles are paved on the support frame, and caulking strips are arranged between the adjacent floor tiles; the supporting frame comprises a mounting surface and mounting grooves, a plurality of mounting grooves are formed in the supporting frame, the mounting surface is arranged on the circumferential direction of the mounting grooves of the supporting frame, and clamping grooves are formed in the mounting surface; the floor tile comprises a connecting plate and bulges, the bulges clamped in the mounting grooves are arranged on the back surface of the floor tile, the connecting plate is located in the circumferential direction of the floor tile and abutted against the mounting surface, and clamping blocks matched with the clamping grooves are arranged on the back surface of the connecting plate.

The support frame is directly fixed on a laying surface, the top of the support frame is directly spliced and connected with the floor tiles through the matching of the mounting grooves, the protrusions, the clamping grooves and the clamping blocks, the floor tile splicing structure is a dry splicing process, cement mortar and a binder are not needed in the dry splicing process, the limit of the environmental temperature is avoided, the mixing ratio of the cement mortar and the mixing and stirring ratio of the binder are not needed to be controlled, the laying surface is not needed to be soaked before construction, and the leveling of the laying height is not needed; insert the mounting groove with the arch and can accomplish the concatenation with the fixture block in inserting the draw-in groove, the concatenation is easy, and arch and mounting groove and fixture block and draw-in groove cooperation are inseparable, and sound construction can not appear bulging, fracture and perk phenomenon, has fully guaranteed the uniformity in gap between the ceramic tile, and the concatenation back surfacing, highly uniform.

As a preferred embodiment, the supporting frame includes a plurality of cross bars and a plurality of longitudinal bars, the cross bars and the longitudinal bars are perpendicularly crossed to form the mounting grooves, the locking grooves are inclined planes located on the circumferential direction of the mounting grooves, and the mounting surfaces are upper surfaces of the cross bars and the longitudinal bars. The support frame can be the nylon frame that latticed set up, and the mounting groove is exactly the net in the frame, and the inclined plane inclines towards the direction of laying the face, and one side on inclined plane is connected with the installation face, and the opposite side on inclined plane is the inner wall of mounting groove, and the support frame simple structure of this kind, the quality is light, and simple to operate practices thrift the consumptive material, and is fixed firm.

In a preferred embodiment, the latch is a ramp located on the back of the connecting plate. The floor tile is thickened through the protrusions, the thickness of the floor tile is generally more than 28mm, one side, close to the support frame, of the floor tile is the back side, and the side, which can be seen by people after splicing, of the floor tile is the front side; a circle of connecting plate is reserved on the outermost layer of the floor tile, then the floor tile is processed into a sloping platform shape, the slope is consistent with the slope of the inclined plane on the supporting frame, and the inner side of the sloping platform is the whole bulge; one side of the sloping platform is connected with the lower surface of the connecting plate, the other side of the sloping platform is connected with the lower surface of the bulge, the inclined plane is tightly matched with the sloping platform, the structure is simple, the splicing is easy, and the whole floor tile dry-type splicing structure is compact and firm.

In a preferred embodiment, the angle between the inclined plane and the horizontal plane is 75-80 degrees. The setting up on inclined plane makes the inseparable concatenation of ceramic tile on the support frame, because the support frame can be at the mill customization processing in batches, fully guaranteed the even uniformity on all mounting grooves and inclined planes, the ceramic tile surface after the concatenation is level, highly uniform. The sloping platforms on the back of the floor tiles are matched with the inclined planes on the support frame, and the round corners at the root parts of the sloping platforms on the floor tiles are designed to be smaller than the round corners at the top parts of the inclined planes on the support frame, so that the connecting plates on the periphery of the floor tiles can be tightly clamped on the mounting surface of the support frame, and the support frame can fully support the floor tiles.

As a preferred embodiment, a moisture-proof layer is further arranged between the laying surface and the support frame. The arrangement of the moisture-proof layer increases the moisture-proof effect of the dry type splicing structure of the floor tile, and the moisture-proof layer is arranged between the laying surface and the supporting frame; when the support frame is arranged in a grid shape, the moisture-proof layer can be arranged in the grid of the support frame, so that the support frame is more convenient to install; typically, the moisture barrier is a moisture barrier film having a thickness of about 2 mm.

As a preferred embodiment, a plurality of blind holes are formed on the protrusion. The blind holes can be in any shape and can be arranged randomly; in general, the blind holes can be cylindrical and are uniformly arrayed; the blind hole can lighten the weight of the floor tile and save materials.

As a preferred embodiment, the pavement is provided with a self-leveling layer, and the height difference of the self-leveling layer within the range of two meters is less than 4 mm. After the pavement surface is built, in order to ensure the flatness, the pavement surface needs to be subjected to self-leveling treatment in advance, the pavement surface after the self-leveling treatment needs to be flat, and the height difference within the range of two meters is less than 4mm, so that the flatness of the dry-type splicing structure of the floor tiles is fully ensured.

As a preferred embodiment, the supporting frame is provided with mounting holes at four corners of the mounting groove, expansion bolts are arranged in the mounting holes, and the supporting frame is connected with the paving surface through the expansion bolts. According to the invention, the expansion bolt is embedded in the pavement surface, and the other end of the expansion bolt is fixedly connected with the support frame through the mounting hole, so that the installation is convenient and the fixation is firm.

As a preferred embodiment, the mounting hole comprises a counter bore arranged above the supporting frame and a through hole concentrically arranged at the bottom of the counter bore. The installation hole enables the expansion bolt to be tightly matched with the through hole on one hand, and play is prevented; on the other hand, the expansion bolt is convenient for installation tools to enter the counter bore, so that the expansion bolt is firmly fixed.

The invention discloses a splicing method of a dry-type floor tile splicing structure, which adopts the technical scheme that the method comprises the following steps: the method comprises the following steps: 1) selecting a laying surface, and connecting a support frame on the laying surface; 2) and the floor tiles are spliced on the support frame.

The invention is a real dry splicing method, cement mortar and binder are not needed between the laying surface and the supporting frame and between the supporting frame and the floor tile, the construction is not limited by the environmental temperature, the mixing proportion of the cement mortar and the mixing and stirring proportion of the binder are not needed to be controlled, the laying surface is not needed to be soaked before the construction, and the leveling of the laying height is not needed; the construction process is simple, the construction efficiency is high, the support frame is tightly matched with the floor tiles, the splicing structure is firm, the gap between the adjacent floor tiles after splicing is not larger than 1.5mm, the gap is subjected to caulking treatment by using a caulking agent, and the splicing quality is good.

Compared with the prior art, the invention has the beneficial effects that: the support frame is directly fixed on a laying surface, the top of the support frame is directly spliced and connected with the floor tiles through the matching of the mounting grooves, the protrusions, the clamping grooves and the clamping blocks, the floor tile splicing structure is a dry splicing process, cement mortar and a binder are not needed in the dry splicing process, the limit of the environmental temperature is avoided, the mixing ratio of the cement mortar and the mixing and stirring ratio of the binder are not needed to be controlled, the laying surface is not needed to be soaked before construction, and the leveling of the laying height is not needed; this construction process is simple, inserts the mounting groove with the arch and can accomplish the concatenation with the fixture block inserts the draw-in groove in, and the concatenation is easy, and the efficiency of construction is high, and arch and mounting groove and fixture block and draw-in groove cooperation are inseparable, and sound construction can not appear bulging, fracture and perk phenomenon, has fully guaranteed the uniformity in gap between the ceramic tile, and the surface is level and smooth after the concatenation, and highly uniform, the concatenation is of high quality and guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic plan view of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of FIG. 1;

FIG. 3 is a schematic top view of the supporting frame shown in FIG. 1;

fig. 4 is a bottom view of the floor tile of fig. 1;

in the figure: 1-floor tile; 2-a support frame; 3-a moisture barrier; 4-expansion bolts; 5-paving surface; 6-caulking strips; 11-a connecting plate; 12-a fixture block; 13-a bump; 14-blind holes; 21-a mounting surface; 22-mounting grooves; 23-a card slot; 24-mounting holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to the attached drawings 1, 2, 3 and 4, the dry type splicing structure of the floor tiles 1 comprises a laying surface 5, wherein a support frame 2 is arranged on the laying surface 5, the floor tiles 1 are laid on the support frame 2, and caulking strips 6 are arranged between the adjacent floor tiles 1; the support frame 2 comprises an installation surface 21 and installation grooves 22, a plurality of installation grooves 22 are formed in the support frame 2, the installation surface 21 is formed in the circumferential direction of the installation grooves 22 of the support frame 2, and clamping grooves 23 are formed in the installation surface 21; the floor tile 1 comprises a connecting plate 11 and protrusions 13, the protrusions 13 clamped in the mounting grooves 22 are arranged on the back surface of the floor tile 1, the connecting plate 11 is located on the periphery of the floor tile 1 and abutted to the mounting surface 21, and clamping blocks 12 matched with the clamping grooves 23 are arranged on the back surface of the connecting plate 11. The support frame 2 of the invention is directly fixed on the laying surface 5, the floor tile 1 is spliced and connected at the top of the support frame 2 directly through the matching of the mounting groove 22, the bulge 13, the clamping groove 23 and the clamping block 12, the splicing structure of the floor tile 1 is a dry splicing process, the dry splicing process does not need cement mortar, does not need a binder, is not limited by the environmental temperature, does not need to control the mixing ratio of the cement mortar and the mixing and stirring ratio of the binder, the laying surface 5 does not need to be soaked before construction, does not need to carry out paving height leveling, the bulge 13 is inserted into the mounting groove 22 and the clamping block 12 is inserted into the clamping groove 23 to complete splicing, the splicing is easy, the bulge 13 is tightly matched with the mounting groove 22 and the clamping groove 12 are 23, the structure is firm, the phenomena of bulging, cracking and upwarping can not occur, the consistency of gaps between the floor tiles 1 can, the height is consistent, and the splicing quality is good.

Referring to fig. 3, in the present embodiment, the supporting frame 2 includes a plurality of horizontal bars and a plurality of vertical bars, the horizontal bars and the vertical bars are perpendicularly crossed to form the mounting groove 22, the locking groove 23 is an inclined surface located on the circumferential direction of the mounting groove 22, and the mounting surface 21 is an upper surface of the horizontal bar and the vertical bar. Support frame 2 can be the nylon frame of latticed setting, and mounting groove 22 is exactly the net in the frame, and the inclined plane inclines towards the direction of laying face 5, and support frame 2 of this kind simple structure, the quality is light, simple to operate practices thrift the consumptive material, and is fixed firm. Meanwhile, the latch 12 is a ramp located on the back surface of the connection plate 11. The back surface of the floor tile 1 is thickened by arranging the bulges 13, the thickness is generally more than 28mm, one surface of the floor tile 1 close to the support frame 2 is the back surface, the surface far away from the support frame 2 is the front surface, and the front surface is the surface which can be seen by people after splicing; a circle of connecting plates 11 are reserved on the outermost layer of the floor tile 1, then the floor tile is processed into a sloping platform shape, the slope is consistent with the slope of the upper slope of the supporting frame 2, and the whole bulge 13 is arranged on the inner side of the sloping platform; the inclined plane is matched with the sloping platform tightly, the structure is simple, the splicing is easy, and the dry type splicing structure of the whole floor tile 1 is compact and firm. The included angle between the inclined plane and the horizontal plane is 75-80 degrees. The inclined plane is arranged to ensure that the floor tiles 1 are tightly spliced on the supporting frame 2, and the supporting frame 2 can be customized and processed in batches in a factory, so that the uniformity of all the mounting grooves 22 and the inclined plane is fully ensured, and the spliced floor tiles 1 are smooth in surface and consistent in height. The sloping platform at the back of the floor tile 1 is matched with the sloping surface on the support frame 2, and because the round angle at the root of the sloping platform on the floor tile 1 is designed to be smaller than the round angle at the top of the sloping surface on the support frame 2, the connecting plate 11 at the periphery of the floor tile 1 can be tightly clamped on the mounting surface 21 of the support frame 2, and the support frame 2 can fully support the floor tile 1.

Referring to fig. 2 and 3, in the present embodiment, the support frame 2 is provided with mounting holes 24 at four corners of the mounting groove 22, expansion bolts 4 are provided in the mounting holes 24, and the support frame 2 is connected to the paving surface 5 through the expansion bolts 4. According to the invention, the expansion bolt 4 is embedded in the pavement surface 5, and the other end of the expansion bolt 4 is fixedly connected with the support frame 2 through the mounting hole 24, so that the installation is convenient and the fixation is firm. The mounting hole 24 includes a counterbore provided above the support frame 2 and a through-hole concentrically provided at the bottom of the counterbore. The installation hole 24 is arranged, on one hand, the expansion bolt 4 is tightly matched with the through hole, and the play is prevented; on the other hand, the expansion bolt 4 is fixed firmly by facilitating the entering of a mounting tool into the counter bore.

Referring to fig. 2, in the present invention, a moisture-proof layer 3 may be further disposed between the laying surface 5 and the supporting frame 2. The arrangement of the moisture-proof layer 3 increases the moisture-proof effect of the dry splicing structure of the floor tile 1, and the moisture-proof layer 3 is arranged between the laying surface 5 and the support frame 2; when the support frame 2 is arranged in a grid shape, namely in the embodiment, the moisture-proof layers 3 are arranged in the grids of the support frame 2, and one moisture-proof layer 3 is uniformly arranged in one grid, namely the mounting groove 22, so that the mounting is more convenient; typically, the moisture barrier 3 is a moisture barrier film having a thickness of about 2 mm.

Referring to fig. 4, in the present invention, a plurality of blind holes 14 are formed on the protrusions 13. The blind holes 14 can be in any shape, and the blind holes 14 can be arranged in any arrangement; in this embodiment, the blind holes 14 are cylindrical and are arranged in a uniform array; the blind holes 14 can reduce the weight of the floor tile 1, avoid the increase of the weight caused by the increase of the thickness of the floor tile 1 and also save the consumable materials.

In addition, in the invention, the laying surface 5 is provided with a self-leveling layer, and the height difference of the self-leveling layer within the range of two meters is less than 4 mm. After the paving surface 5 is built, in order to ensure the flatness, the paving surface 5 needs to be subjected to self-leveling treatment in advance, the paving surface 5 subjected to the self-leveling treatment needs to be flat, and the height difference within the range of two meters is less than 4mm, so that the flatness of the dry splicing structure of the floor tile 1 is fully ensured.

Example two

The invention discloses a splicing method of a dry type splicing structure of floor tiles 1, which comprises the following steps: 1) selecting a laying surface 5, and connecting the support frame 2 on the laying surface 5 by the method; 2) the floor tiles 1 are spliced on the support frame 2. In this embodiment, the paving surface 5, the supporting frame 2 and the floor tiles 1 all have the structures described in the first embodiment, the paving surface 5 is connected with the supporting frame 2 through the expansion bolts 4, and the supporting frame 2 is connected with the floor tiles 1 through the matching and splicing of the mounting grooves 22, the protrusions 13, the clamping grooves 23 and the clamping blocks 12.

Compared with the prior art, the invention has the beneficial effects that: the support frame 2 is directly fixed on the laying surface 5, the floor tiles 1 are directly spliced and connected at the top of the support frame 2 through the matching of the mounting groove 22, the protrusion 13, the clamping groove 23 and the clamping block 12, the splicing structure of the floor tiles 1 is a dry splicing process, cement mortar and a binder are not needed in the dry splicing process, the limitation of the environmental temperature is avoided, the mixing ratio of the cement mortar and the mixing and stirring ratio of the binder are not needed to be controlled, the laying surface 5 is not needed to be soaked before construction, and the leveling of the laying height is not needed; this construction process is simple, insert mounting groove 22 with arch 13 and can accomplish the concatenation with fixture block 12 in inserting draw-in groove 23, the concatenation is easy, and the efficiency of construction is high, and arch 13 and mounting groove 22 and fixture block 12 and draw-in groove 23 cooperation are inseparable, and sound construction can not appear bulging, fracture and perk phenomenon, has fully guaranteed the uniformity in gap between the ceramic tile 1, and the concatenation back surface is level and smooth, highly uniform, and the concatenation is of high quality and guaranteed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. A dry-type mosaic structure of floor tile which characterized in that: the floor tile paving machine comprises a paving surface, wherein a support frame is arranged on the paving surface, floor tiles are paved on the support frame, and caulking strips are arranged between the adjacent floor tiles;

the supporting frame comprises a mounting surface and a mounting groove, a plurality of mounting grooves are formed in the supporting frame, the mounting surface is arranged on the supporting frame in the circumferential direction of the mounting groove, a clamping groove is formed in the mounting surface, the supporting frame comprises a plurality of transverse rods and a plurality of longitudinal rods, the transverse rods and the longitudinal rods are perpendicularly crossed to form the mounting groove, the clamping groove is an inclined surface located on the circumferential direction of the mounting groove, and the mounting surface is the upper surface of each of the transverse rods and the longitudinal rods;

the floor tile comprises a connecting plate and a bulge, the bulge clamped in the mounting groove is arranged on the back surface of the floor tile, the connecting plate is located in the circumferential direction of the floor tile and abutted to the mounting surface, a clamping block matched with the clamping groove is arranged on the back surface of the connecting plate, and the clamping block is an oblique table located on the back surface of the connecting plate.

2. The dry tile splicing structure according to claim 1, wherein:

the included angle between the inclined plane and the horizontal plane is 75-80 degrees.

3. The dry tile splicing structure according to claim 1, wherein:

and a moisture-proof layer is also arranged between the laying surface and the support frame.

4. The dry tile splicing structure according to claim 1, wherein:

the protrusions are provided with a plurality of blind holes.

5. The dry tile splicing structure according to claim 1, wherein:

and a self-leveling layer is arranged on the pavement surface, and the height difference of the self-leveling layer within the range of two meters is less than 4 mm.

6. The dry tile splicing structure according to any one of claims 1 to 5, wherein:

the supporting frame is provided with mounting holes at four top corners of the mounting groove, expansion bolts are arranged in the mounting holes, and the supporting frame is connected with the laying surface through the expansion bolts.

7. The dry tile splicing structure according to claim 6, wherein:

the mounting hole comprises a counter bore arranged above the supporting frame and a through hole concentrically arranged at the bottom of the counter bore.

8. The method for splicing a dry tile splicing structure according to any one of claims 1 to 7, wherein: the method comprises the following steps:

1) selecting a laying surface, and connecting a support frame on the laying surface;

2) and the floor tiles are spliced on the support frame.

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