CN212153995U

CN212153995U - Self-locking floor tile

Info

Publication number: CN212153995U
Application number: CN202020612243.1U
Authority: CN
Inventors: 张美玲
Original assignee: Taizhou Zhongrun Decoration Co ltd
Current assignee: Taizhou Zhongrun Decoration Co ltd
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2020-12-15
Anticipated expiration: 2030-04-22

Abstract

The utility model relates to a self-locking floor tile, it includes the brick body, the dovetail has been seted up on the lateral wall of one of them side of the brick body, set up the forked tail piece of being connected with the dovetail slides on the lateral wall of brick body opposite side, install the spacing subassembly that is used for restricting two adjacent brick bodies and removes along vertical direction on the position that the brick body is close to the dovetail. The utility model discloses in, after the staff paves the brick body and accomplishes, dovetail between the adjacent brick body is pegged graft with the forked tail piece and is cooperated to this plays good restriction along the ascending removal in horizontal direction to the brick body, and simultaneously, spacing subassembly has played good restriction to the adjacent brick body along the ascending removal in vertical side, makes the linkage effect between the adjacent brick body more firm, has reduced the probability that the brick body takes place to stick up after long-term the use.

Description

Self-locking floor tile

Technical Field

The utility model belongs to the technical field of the ceramic tile technique and specifically relates to a auto-lock ceramic tile is related to.

Background

Most of floor tiles in the current market are of a single-layer square or rectangular structure with smooth four sides, a layer of cement is paved on the ground firstly during construction, then the floor tiles are paved on the cement layer, and the floor tiles are mutually bonded with the ground through the cement layer.

The patent document of the Chinese utility model with the publication number of CN202466604U discloses a self-locking protective brick, wherein the brick body is a square body, dovetail groove-shaped self-locking male tenons protruding outwards are symmetrically arranged at two corresponding sides of the brick body respectively, and dovetail groove-shaped self-locking female tenons recessed inwards are symmetrically arranged at the other two corresponding sides of the brick body respectively; the middle part of the brick body is provided with a through hole. The utility model discloses a from locking-type design, guaranteed that the back wholeness of mating formation is strong, anti erosion, impact strength are strong.

However, the above prior art solutions have the following drawbacks: the adjacent brick bodies are connected only through inserting and matching of the dovetail groove-shaped self-locking female tenon and the dovetail groove-shaped self-locking male tenon, the connection mode only can limit the movement of the brick bodies in the horizontal direction, but cannot limit the movement of the brick bodies in the vertical direction, and after the brick bodies are used for a long time, the brick bodies are easy to tilt.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a not enough to prior art exists, the utility model aims at providing a auto-lock ceramic tile, this auto-lock ceramic tile can play good limiting action to the removal of the brick body in vertical side, has reduced the probability that the brick body takes place to stick up after using for a long time.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a self-locking floor tile, includes the brick body, the dovetail has been seted up on the lateral wall of one of them side of the brick body, set up the forked tail piece of being connected with the dovetail slides on the lateral wall of brick body opposite side, install the spacing subassembly that is used for restricting two adjacent brick bodies and removes along vertical direction on the position that the brick body is close to the dovetail.

Through adopting above-mentioned technical scheme, after the staff is accomplished the brick body paving, dovetail between the adjacent brick body is pegged graft with the forked tail piece and is cooperated to this plays good limited effect to the brick body along the ascending removal in horizontal direction, and simultaneously, spacing subassembly has played good limited effect to the adjacent brick body along the ascending removal in vertical direction, makes the linkage effect between the adjacent brick body more firm, has reduced the probability that the brick body took place to stick up after long-term use.

The present invention may be further configured in a preferred embodiment as: spacing subassembly is including offering in the brick body and with the last spout of dovetail intercommunication, installing in last spout and with it the upper sliding block of sliding connection, keeping away from the one end of dovetail with the upper sliding block and fixed and by the last rubber column that elastic rubber material made, keeping away from the fixed guide of one end of last rubber column with the upper sliding block and connecing the piece and offering on the dovetail and with leading the grafting groove of connecing piece grafting complex, go up the inside wall butt that the one end that the upper sliding block was kept away from to the rubber column and last spout kept away from dovetail one side, the cross section of leading the piece is triangle-shaped.

By adopting the technical scheme, in the process of installing the brick bodies, a worker only needs to insert the dovetail block of one brick body into the dovetail groove of the other brick body from top to bottom, when the bottom of the dovetail block is abutted against the inclined surface at the top of the guide connecting block and continuously moves downwards, the upper slide block moves to one side far away from the dovetail block along the upper slide groove, the upper rubber column made of elastic rubber material has good elastic performance, so that the upper rubber column is compressed after being stressed, the guide connecting block is gradually accommodated into the upper sliding groove, the upper rubber column is reset under the elastic action until the guide connecting block corresponds to the insertion groove, thereby leading the connecting block to be inserted into the inserting groove, at the moment, the upper rubber column, the upper sliding block and the connecting block are matched, the vertical limiting device has the advantages that the vertical limiting device has a good limiting effect on the movement between the two adjacent bricks in the vertical direction, and is favorable for enabling the connection between the adjacent bricks to be firmer.

The present invention may be further configured in a preferred embodiment as: the limiting assembly further comprises a middle sliding groove, a connecting block, a lower sliding groove, a lower sliding block and a limiting groove, wherein the middle sliding groove is arranged on the bottom wall of the upper sliding groove and communicated with the dovetail groove, the connecting block is fixed to the bottom surface of the upper sliding groove and connected with the middle sliding groove in a sliding mode, the lower sliding groove is arranged on the bottom wall of the middle sliding groove and communicated with the dovetail groove, the lower sliding block is fixed to the bottom surface of the connecting block and connected with the lower sliding groove in a sliding mode, the limiting groove is arranged on the dovetail block and matched with the lower sliding block in an inserting mode, and when the guide connecting.

Through adopting above-mentioned technical scheme, at forked tail piece bottom and the inclined plane butt of guide connection piece top and continue the in-process of downward movement, the slider that goes up drives the connecting block and with the fixed lower slider synchronous motion of connecting block bottom surface, make the connecting block move to one side of keeping away from the dovetail along well slider, the slider moves to one side of keeping away from the dovetail along the lower spout, until when guide connection piece shrink to the supreme spout in, the slider shrinks to the lower spout in, afterwards, when the position of guide connection piece corresponds with the position of grafting groove, go up the rubber post and restore to the throne under the elastic action, with this make the slider and guide connection piece restore to the throne, under the connection effect of connecting block, the slider resets and pegs graft with the spacing groove, thereby further played good limiting action to the removal between the adjacent brick, the stability of connecting between the adjacent brick has been strengthened.

The present invention may be further configured in a preferred embodiment as: the thickness of the connecting block is 0.7-1 cm.

By adopting the technical scheme, if the thickness of the connecting block is too large, the upper sliding block is difficult to pull the lower sliding block through the connecting block, and the lower sliding block is enabled to move along the lower sliding groove; if the thickness of connecting block is the undersize, then the staff of not being convenient for installs spacing subassembly.

The present invention may be further configured in a preferred embodiment as: the lateral wall of the lower sliding block, which is close to one side of the upper rubber column, is fixedly provided with a lower rubber column made of elastic rubber material, and one end, far away from the lower sliding block, of the lower rubber column is abutted against the inner lateral wall, far away from one side of the dovetail groove, of the lower sliding groove.

Through adopting above-mentioned technical scheme, at the in-process that the staff will be adjacent the brick body and assemble, when the position of leading the splice block corresponds with the position of inserting groove, go up the rubber column and reset and promote the top shoe and remove to inserting groove one side under the elastic action, the lower rubber column of being made by elastic rubber material has good elasticity performance, lower rubber column resets and promotes the bottom shoe and remove to spacing groove one side under the elastic action, through setting up lower rubber column, with this motion to the bottom shoe has played good helping hand effect, be favorable to pegging graft between bottom shoe and the spacing groove.

The present invention may be further configured in a preferred embodiment as: the side wall of one side, far away from the lower rubber column, of the lower sliding block is fixedly provided with a guide connection piece, the cross section of the guide connection piece is trapezoidal, and the area of the longitudinal section of the guide connection piece is linearly increased from the guide connection piece to one side, close to the lower rubber column.

Through adopting above-mentioned technical scheme, lead the splicing through setting up to this degree of difficulty that has reduced lower slider and spacing groove and pegged graft is favorable to lower slider and spacing groove to peg graft in order to realize auto-lock between the adjacent brick body.

The present invention may be further configured in a preferred embodiment as: the distance between the inner top wall of the upper sliding groove and the inner bottom wall of the lower sliding groove is smaller than half of the thickness of the brick body.

Through adopting above-mentioned technical scheme, if the interior roof of going up the spout and the interior diapire of spout down between the distance is too big, then can exert an influence to the bearing capacity of the brick body.

The present invention may be further configured in a preferred embodiment as: and a frosting layer is arranged on the side wall of the brick body adjacent to the dovetail groove.

Through adopting above-mentioned technical scheme, the dull polish layer is polished by the brick body surface and is formed, and its surface has great coefficient of friction to this makes the adjacent brick body accomplish the back in the shop, makes the frictional force increase between the adjacent brick body, is favorable to strengthening the stability after the brick body shop.

To sum up, the utility model discloses a following at least one useful technological effect:

in the utility model, after the worker paves the brick bodies, the dovetail groove between the adjacent brick bodies is in splicing fit with the dovetail block, so that the brick bodies can be well limited in moving along the horizontal direction, and meanwhile, the limiting component can well limit the moving of the adjacent brick bodies along the vertical direction, so that the connection between the adjacent brick bodies is firmer, and the probability of the brick bodies being warped after long-term use is reduced;

the utility model discloses at the in-process of the installation brick body, the staff only needs to insert the forked tail piece top-down of one of them brick body in the dovetail of another brick body, when forked tail piece bottom with lead the inclined plane butt at joint piece top and continue the downstream, the upper sliding block moves to one side far away from the forked tail piece along last spout, the last rubber post of making by elastic rubber material has good elasticity performance, compress after making the upper rubber post atress with this, lead the joint piece and accomodate gradually to the upper sliding groove, until the position of leading joint piece and grafting groove corresponds, the upper rubber post resets under the elastic action, thereby make lead joint piece and grafting groove peg graft, at this moment, go up the rubber post, upper sliding block and lead the joint piece cooperation, to having played good restriction effect in the removal in the vertical direction between two adjacent brick bodies;

the utility model discloses at forked tail piece bottom and the in-process of leading the inclined plane butt at joint piece top and continuing downstream, the top shoe drives the connecting block and with the fixed lower slider synchronous motion in connecting block bottom surface, make the connecting block move to one side of keeping away from the dovetail along well slider, the lower slider moves to one side of keeping away from the dovetail along the lower chute, until leading in the joint piece shrink to the spout in, the lower slider contracts to the lower chute in, afterwards, when the position of leading the joint piece corresponds with the position of grafting groove, go up the rubber column and reset under the elastic action, with this make the top shoe and lead the joint piece and reset, under the connection effect of connecting block, the lower slider resets and pegs graft with the spacing groove, thereby further played good limiting action to the removal between the adjacent brick, the stability of connecting between the adjacent brick has been strengthened.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is a sectional view of a partial structure of the present invention.

Reference numerals: 1. a brick body; 11. a dovetail groove; 12. a dovetail block; 13. sanding layer; 2. a limiting component; 20. an upper chute; 21. an upper slide block; 22. mounting a rubber column; 23. a connecting block; 24. inserting grooves; 25. a middle chute; 26. connecting blocks; 27. a lower chute; 28. a lower slide block; 29. a limiting groove; 3. a lower rubber column; 4. a guide tab.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the self-locking floor tile disclosed by the present invention comprises a tile body 1, wherein the tile body 1 is a cuboid structure, and the thickness of the tile body 1 is 5-6 cm. A dovetail groove 11 is formed in the side wall of one side of the brick body 1, the cross section of the dovetail groove 11 is in a dovetail shape, and the extending direction of the dovetail groove 11 is consistent with the thickness direction of the brick body 1. The dovetail block 12 is fixed on the brick body 1, the cross section of the dovetail block 12 is in a dovetail shape, the dovetail block 12 and the side wall of the brick body 1 far away from one side of the dovetail groove 11 are fixed, and the dovetail block 12 is matched with the dovetail groove 11 in a sliding mode, so that the adjacent brick bodies 1 can be conveniently spliced by a worker. All be equipped with dull polish layer 13 on the brick body 1 and two lateral walls that dovetail 11 is adjacent, dull polish layer 13 is polished by the brick body 1 surface and is formed, through setting up dull polish layer 13 to this makes the coefficient of friction on the brick body 1 surface increase, thereby makes the frictional force increase between the adjacent brick body 1 after the concatenation is accomplished, is favorable to strengthening the stability between the adjacent brick body 1.

Referring to fig. 1, a limiting assembly 2 is mounted on a position of a brick body 1 close to a dovetail groove 11 and used for limiting two adjacent brick bodies 1 to move in a vertical direction, and as shown in fig. 2, the limiting assembly 2 includes an upper chute 20, an upper slide block 21, an upper rubber column 22, a guide connecting block 23, an insertion groove 24, a middle chute 25, a connecting block 26, a lower chute 27, a lower slide block 28 and a limiting groove 29. The cross section of the upper chute 20 is rectangular, the upper chute 20 is arranged on the brick body 1 close to the dovetail groove 11, and the upper chute 20 is communicated with the dovetail groove 11. The upper sliding block 21 is a rectangular block structure and is horizontally arranged, the upper sliding block 21 is installed in the upper sliding groove 20 and is in sliding fit with the upper sliding groove, and the cross-sectional area of the upper sliding block 21 is smaller than that of the upper sliding groove 20, so that the upper sliding block 21 is accommodated in the upper sliding groove 20. The upper rubber column 22 is a cylindrical structure with a horizontal axis, one end of the upper rubber column is fixed with one end of the upper slide block 21 far away from the dovetail groove 11, the other end of the upper rubber column 22 is abutted against the inner side wall of the upper slide groove 20 far away from one side of the dovetail groove 11, and the upper rubber column 22 is made of elastic rubber materials and has good elastic performance. The guide connecting block 23 is a block-shaped structure with the cross section of an isosceles triangle, the side wall of one side of the guide connecting block close to the upper rubber column 22 is fixed with the side wall of one side of the upper sliding block 21 far away from the upper rubber column 22, the area of the longitudinal section of the guide connecting block 23 is linearly increased from the guide connecting block 23 to the side close to the upper rubber column 22, the distance between one end of the guide connecting block 23 far away from the upper rubber column 22 and the side wall of one side of the upper sliding block 21 far away from the dovetail groove 11 is smaller than the groove depth of the upper sliding groove 20, and therefore the guide connecting block 23 and the upper sliding block 21 are accommodated. The cross section of the insertion groove 24 is rectangular, the insertion groove is arranged on the position, close to the dovetail groove 11, of the brick body 1, the top of the insertion groove 24 is communicated with the bottom of the upper sliding groove 20, and the insertion groove 24 is also communicated with the dovetail groove 11. The cross section of the middle sliding groove 25 is rectangular, the middle sliding groove is arranged on the position, close to the dovetail groove 11, of the brick body 1, the top of the middle sliding groove 25 is communicated with the bottom of the upper sliding groove 20, and the middle sliding groove 25 is also communicated with the dovetail groove 11. The connecting block 26 is a rectangular block structure, and is installed in the middle sliding groove 25 and connected with the middle sliding groove in a sliding manner, the upper surface of the connecting block 26 is fixed with the bottom surface of the upper sliding block 21, and the area of the cross section of the connecting block 26 is smaller than that of the cross section of the middle sliding groove 25, so that the middle sliding groove 25 can accommodate the connecting block 26. The cross section of the lower chute 27 is rectangular, and the lower chute 27 is arranged at a position of the brick body 1 close to the dovetail groove 11, the top of the lower chute 27 is communicated with the bottom of the middle chute 25, and the lower chute 27 is also communicated with the dovetail groove 11. The lower sliding block 28 is a rectangular block structure, and is installed in the lower sliding groove 27 and connected with the lower sliding groove 27 in a sliding manner, the upper surface of the lower sliding block 28 is fixed with the bottom surface of the connecting block 26, and the distance between the side wall of the lower sliding block 28 far away from the upper rubber column 22 and the side wall of the lower sliding block 28 far away from the dovetail groove 11 is smaller than the groove depth of the lower sliding groove 27, so that when the guide connecting block 23 is contracted into the upper sliding groove 20, the lower sliding block 28 is contracted into the lower sliding groove 27. The cross section of the limiting groove 29 is rectangular, the limiting groove is arranged on the dovetail block 12, and the limiting groove 29 is matched with the lower sliding block 28 in an inserted mode. When splicing adjacent bricks 1, a worker only needs to align the dovetail block 12 of one brick 1 with the dovetail groove 11 of the other brick 1 and slide the dovetail block 12 into the dovetail groove 11 from top to bottom, when the bottom of the dovetail block 12 abuts against the inclined surface at the top of the guide block 23 and continues to move downwards, the upper rubber column 22 is pressed by the upper sliding block 21 to contract, so that the upper sliding block 21 moves towards one side far away from the dovetail groove 11 along the upper sliding groove 20, the connecting block 26 moves towards one side far away from the dovetail groove 11 along the middle sliding groove 25, the lower sliding block 28 moves towards one side far away from the dovetail groove 11 along the lower sliding groove 27 until the guide block 23 is completely accommodated into the upper sliding groove 20, the lower sliding block 28 is accommodated into the lower sliding groove 27, and the upper rubber column 22 is restored under the action of the elastic force until the position of the upper sliding block 21 corresponds to the position of the insertion groove 24, so that the upper sliding block 21 moves along one side of the dovetail groove 20, the guide and connection block 23 is connected with the connection groove 24 in an inserting mode, at the moment, the lower sliding block 28 is connected with the limiting groove 29 in an inserting mode, accordingly, the adjacent brick bodies 1 are well limited in movement in the vertical direction, and the connection stability between the adjacent brick bodies 1 is enhanced.

Referring to fig. 2, if the thickness of the connecting block 26 is too large, the upper slider 21 is difficult to pull the lower slider 28 to move along the lower chute 27 through the connecting block 26, so that the lower slider 28 is not easily accommodated in the lower chute 27, and when the bottom of the dovetail block 12 moves to the lower slider 28, the lower slider 28 easily blocks the movement of the dovetail block 12. If the thickness of the joint block 26 is too small, it is inconvenient for a worker to process and install the joint block 26, and thus, in the present embodiment, the thickness of the joint block 26 is set to 0.7-1 cm. The distance between the inner top wall of the upper chute 20 and the inner bottom wall of the lower chute 27 is less than half of the thickness of the brick body 1, and if the distance between the inner top wall of the upper chute 20 and the inner bottom wall of the lower chute 27 is too large, the condition that the pressure bearing capacity of the brick body 1 is affected easily due to the too large hollow thickness of the brick body 1 occurs in the processing process of the brick body 1.

Referring to fig. 2, the lower slider 28 is provided with the lower rubber column 3 and the guide connecting piece 4, the lower rubber column 3 is of a cylindrical structure with a horizontal axis, one end of the lower rubber column 3 and the side wall of the lower slider 28 close to one side of the upper rubber column 22 are fixed, the other end of the lower rubber column 3 is abutted against the inner side wall of the lower chute 27 far away from one side of the dovetail groove 11, and the lower rubber column 3 is made of an elastic rubber material and has good elastic performance. Through setting up rubber column 3 down to this makes when leading the splice 23 and inserting groove 24 to correspond, goes up rubber column 22 and lower rubber column 3 and all plays good elastic property, thereby makes upper sliding block 21 and lower slider 28 slide along upper chute 20, lower chute 27 respectively, is favorable to leading splice 23 and lower slider 28 to reset, so that lower slider 28 pegs graft with spacing groove 29.

Referring to fig. 2, the cross section of the guide connecting piece 4 is in an isosceles trapezoid sheet structure, and the guide connecting piece is fixed to the side wall of the lower sliding block 28 on the side far away from the lower rubber column 3, and the area of the longitudinal section of the guide connecting piece 4 is linearly increased from the guide connecting piece 4 to the side close to the lower rubber column 3, so that the difficulty of inserting the lower sliding block 28 into the limiting groove 29 is reduced, and the lower sliding block 28 is favorably reset and inserted into the limiting groove 29.

The implementation principle of the embodiment is as follows: after the staff is accomplished the brick body 1 paving, dovetail 11 between the adjacent brick body 1 is pegged graft with forked tail piece 12 and is cooperated to this play good restriction effect to the brick body 1 along the ascending removal in horizontal direction, and simultaneously, spacing subassembly 2 has played good restriction effect to the adjacent brick body 1 along the ascending removal in vertical direction, makes the linkage effect between the adjacent brick body 1 more firm, has reduced the probability that the brick body 1 took place to stick up after long-term use.

When the scheme is used for splicing adjacent bricks 1, a worker only needs to align the dovetail block 12 of one brick 1 with the dovetail groove 11 of the other brick 1 and slide the dovetail block 12 into the dovetail groove 11 from top to bottom, when the bottom of the dovetail block 12 is abutted against the inclined surface at the top of the guide connecting block 23 and continues to move downwards, the upper rubber column 22 is pressed by the upper sliding block 21 to contract, so that the upper sliding block 21 moves towards one side far away from the dovetail groove 11 along the upper sliding groove 20, the connecting block 26 moves towards one side far away from the dovetail groove 11 along the middle sliding groove 25, the lower sliding block 28 moves towards one side far away from the dovetail groove 11 along the lower sliding groove 27 until the guide connecting block 23 is completely accommodated in the upper sliding groove 20, the lower sliding block 28 is accommodated in the lower sliding groove 27, and the upper rubber column 22 is restored under the action of elasticity until the position of the upper sliding block 21 is aligned with the position of the inserting groove 24, so that the upper sliding block 21 moves along one side of the upper sliding groove 20, the guide and connection block 23 is connected with the connection groove 24 in an inserting mode, at the moment, the lower sliding block 28 is connected with the limiting groove 29 in an inserting mode, accordingly, the adjacent brick bodies 1 are well limited in movement in the vertical direction, and the connection stability between the adjacent brick bodies 1 is enhanced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a self-locking floor tile, includes the brick body (1), dovetail (11) have been seted up on the lateral wall of one of them side of the brick body (1), set up dovetail (12) of being connected with dovetail (11) slide on the lateral wall of the brick body (1) opposite side, its characterized in that: and the position of the brick body (1) close to the dovetail groove (11) is provided with a limiting component (2) for limiting the movement of two adjacent brick bodies (1) along the vertical direction.

2. The self-locking floor tile of claim 1, wherein: spacing subassembly (2) including offer in brick body (1) inside and with last spout (20) of dovetail (11) intercommunication, install in last spout (20) and with it slide upper slide block (21) of being connected, keep away from the one end of dovetail (11) with last slider (21) fixed and by last rubber column (22) that elastic rubber material made, keep away from with last slider (21) and lead joint block (23) that the one end of last rubber column (22) is fixed and offer on dovetail (12) and with lead joint block (23) grafting complex inserting groove (24), go up the one end that upper slide block (21) were kept away from in rubber column (22) and last spout (20) and keep away from the inside wall butt of dovetail (11) one side, the cross section of leading joint block (23) is triangle-shaped.

3. The self-locking floor tile of claim 2, wherein: spacing subassembly (2) still including offer on the diapire of last spout (20) and with well spout (25) of dovetail (11) intercommunication, with fixed and with well spout (25) connection block (26) that slide in upper slide (21) bottom surface, offer on the diapire of well spout (25) and with lower spout (27) of dovetail (11) intercommunication, with fixed and with lower spout (27) connection down slider (28) that slide in connection of connection block (26) bottom surface and offer on dovetail (12) and with lower slider (28) grafting complex spacing groove (29), work as when lead when connecting block (23) shrink to in last spout (20), lower slider (28) shrink to in lower spout (27).

4. The self-locking floor tile of claim 3, wherein: the thickness of the connecting block (26) is 0.7-1 cm.

5. The self-locking floor tile of claim 3, wherein: the lower rubber column (3) made of elastic rubber materials is fixed on the side wall of the lower sliding block (28) close to one side of the upper rubber column (22), and one end, far away from the lower sliding block (28), of the lower rubber column (3) is abutted to the inner side wall, far away from one side of the dovetail groove (11), of the lower sliding groove (27).

6. The self-locking floor tile of claim 5, wherein: the side wall of one side, far away from the lower rubber column (3), of the lower sliding block (28) is fixedly provided with a guide connection piece (4), the cross section of the guide connection piece (4) is trapezoidal, and the area of the longitudinal section of the guide connection piece (4) is linearly increased from the guide connection piece (4) to the side close to the lower rubber column (3).

7. The self-locking floor tile of claim 3, wherein: the distance between the inner top wall of the upper sliding chute (20) and the inner bottom wall of the lower sliding chute (27) is less than half of the thickness of the brick body (1).

8. The self-locking floor tile of claim 1, wherein: and a frosting layer (13) is arranged on the side wall of the brick body (1) adjacent to the dovetail groove (11).