CN221740813U - Interlocking anti-loosening floor tile - Google Patents

Abstract

The utility model relates to the technical field of outdoor floor tiles, and in particular to an interlocking anti-loosening floor tile. The technical solution adopted by the utility model is: it includes a floor tile main structure, the main shape of the floor tile main structure is a rectangular parallelepiped structure, the rear side of the floor tile main structure is close to the right end and is provided with a first interlocking matching groove opening to the rear side, the left end face of the first interlocking matching groove is parallel to the end face of the floor tile main structure in the left and right directions, the right side of the first interlocking matching groove is an inclined surface structure inclined to the rear side, and the front of the floor tile main structure is provided with a V-shaped second interlocking matching groove opening to the front end. The advantages of the utility model are: by setting anti-loosening stabilizing grooves in three directions and with different depths at the bottom position, a larger fusion area with the bottom mortar can be ensured during construction, and an up-and-down staggered force can be formed, which can achieve a reliable anti-loosening effect.

Description

Interlocking anti-loosening floor tile

Technical Field

The utility model relates to the technical field of outdoor floor tiles, in particular to an interlocking anti-loosening floor tile.

Background Art

Floor tiles are usually required to be laid in various environments such as outdoor parks and scenic spots. The laid floor tiles are prone to loosening when people walk on adjacent floor tiles. In severe cases, the adjacent floor tiles are deformed, resulting in an uneven paved surface. When the existing floor tiles are spliced and laid, the cooperation between the adjacent floor tiles is a flat fitting connection, and there is no interlocking cooperation effect between the tiles. They are prone to loosening during use, and the construction efficiency is relatively low and the construction cost is relatively high during splicing. The tightness between the adjacent floor tiles is difficult to ensure during subsequent use, resulting in an uneven surface of the floor tiles and a safety hazard.

The company previously designed an interlocking and secure floor tile. During construction, the fusion space between the bottom of the floor tile and the cement mortar during construction was relatively small. The overall anti-loosening strength during use was relatively poor, and the durability and stability during later use were difficult to guarantee.

Utility Model Content

The utility model aims to provide an interlocking anti-loosening floor tile, which adopts a brand-new structural design, and arranges interlocking matching structures of different shapes on the front and rear sides of the main structure of the floor tile, which can form interlocking matching forces in different directions with adjacent floor tiles during construction, and then by arranging isolation safety support columns on the outer side of the overall structure, it can fit with adjacent floor tiles during splicing, and have a precise isolation space after splicing, and cooperate more closely with the pressurized sand and soil materials, which can achieve an interlocking connection effect, and the bottom position is arranged by arranging anti-loosening stabilizing grooves in three directions and with different depths, During construction, it can ensure a larger fusion area with the bottom mortar, and can form an up and down staggered force, which can play a reliable anti-loosening effect, and can also play a combination effect of multiple interlocking between adjacent floor tiles during splicing construction. The floor tile connection during splicing construction is more firm, the splicing operation during construction is more convenient, and the overall safety during later use is higher, which effectively reduces the occurrence of looseness between adjacent floor tiles. Anti-loosening grooves can be set at the bottom as needed, which can be integrated with the main body of the construction foundation, and can play a stronger grip, making the overall laying firmer.

The technical solution of the utility model is as follows:

An interlocking anti-loosening floor tile, characterized in that: it includes a floor tile main structure, the main shape of the floor tile main structure is a rectangular parallelepiped, a first interlocking matching groove opening to the rear side is provided at the right end position of the rear side of the floor tile main structure, the right side of the first interlocking matching groove is an inclined surface structure inclined to the rear side, a V-shaped second interlocking matching groove opening to the front end is provided at the front side of the floor tile main structure, the opening angle of the second interlocking matching groove is 170 degrees, a conical integral fixed matching anti-loosening groove is provided at the center position of the lower end of the floor tile main structure, a first anti-loosening stabilizing groove completely penetrating the right side and the lower end of the integral fixed matching anti-loosening groove is provided on the right side of the integral fixed matching anti-loosening groove, and the integral fixed matching anti-loosening groove is provided on the right side thereof. A second anti-loosening and stabilizing groove is provided on the left side of the fixed mating anti-loosening groove, which completely penetrates the left side and the lower end of the whole. A third anti-loosening and stabilizing groove is provided on the front position of the overall fixed mating anti-loosening groove, which completely penetrates the rear side and the lower end of the whole. The depths of the first anti-loosening and stabilizing groove, the second anti-loosening and stabilizing groove and the third anti-loosening and stabilizing groove increase successively. The opening angle position of the second interlocking mating groove is on the same plane as the left end face of the first interlocking mating groove. Integrally formed splicing interlocking isolation columns are respectively provided on the inclined structure of the first interlocking mating groove, on the side of the second interlocking mating groove and on the outer side of the main structure of the floor tile. The upper end of the splicing interlocking isolation column is provided with a safety chamfer structure.

Furthermore, the left end surface of the first interlocking groove is parallel to the left-right end surface of the floor tile main structure, and the left-right width of the first interlocking groove is half of the left-right length of the floor tile main structure.

Furthermore, the upper end surface of the third anti-loosening stabilizing groove is on the same plane as the upper end surface of the integral fixed matching anti-loosening groove, and the lower end surface of the spliced interlocking isolation column is on the same plane as the lower end surface of the floor tile main structure.

Beneficial effects of the utility model:

The utility model adopts a brand-new structural design, and interlocking cooperation structures of different shapes are arranged on the front and back sides of the main structure of the floor tiles, so that interlocking cooperation forces in different directions can be formed between adjacent floor tiles during construction, and then by arranging isolation safety support columns on the outer side of the overall structure, it can be fitted with adjacent floor tiles during splicing, and there is a precise isolation space after splicing, and the pressed sand and soil materials can be more closely matched with each other, which can achieve an interlocking connection effect, and the bottom position is provided with anti-loosening stabilizing grooves in three directions and with different depths, so that a larger fusion area with the bottom mortar can be ensured during construction, and an upper and lower staggered force can be formed, which can achieve a reliable anti-loosening effect, and can also achieve a combined effect of multiple interlocking between adjacent floor tiles during splicing construction, so that the floor tiles during splicing construction have better connection firmness, the splicing operation during construction is more convenient, and the overall safety during later use is higher, which effectively reduces the occurrence of looseness between adjacent floor tiles, and anti-loosening grooves can be arranged at the bottom as needed, which can be integrated with the main body of the construction foundation, and can achieve a stronger gripping force, so that the overall laying firmness is better.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the three-dimensional structure of the utility model;

FIG2 is a front schematic diagram of the utility model;

Fig. 3 is a schematic diagram of the left side of the utility model;

FIG4 is a schematic diagram of the right side of the utility model;

FIG5 is a schematic top view of the utility model;

FIG6 is a bottom view schematic diagram of the utility model;

FIG7 is a schematic diagram of the three-dimensional structure of the utility model in the second direction;

In the figure: 1. main structure of floor tiles, 2. first interlocking matching groove, 3. second interlocking matching groove, 4. splicing interlocking isolation column, 5. overall fixed matching anti-loosening groove, 6. first anti-loosening stabilizing groove, 7. second anti-loosening stabilizing groove, 8. third anti-loosening stabilizing groove.

DETAILED DESCRIPTION

As shown in Figures 1 to 7, an interlocking anti-loosening floor tile includes a floor tile main structure 1, the main shape of the floor tile main structure 1 is a rectangular structure, and the rear side of the floor tile main structure 1 is provided with a first interlocking matching groove 2 opening to the rear side, which can be spliced and matched with the floor tiles on the rear side, and can form an interlocking matching effect in the left direction. The left end face of the first interlocking matching groove 2 is parallel to the left and right end faces of the floor tile main structure 1, so that the flatness of the left position is better, and the interlocking structure at the front end position can form a stable overall interlocking strength. The right side of the first interlocking matching groove 2 is a slope structure inclined to the rear side, which ensures a larger contact area during matching. The front of the floor tile main structure 1 is provided with a V-shaped second interlocking groove 3 opening to the front end, and the opening angle of the second interlocking groove 3 is 170 degrees. It is spliced with the floor tile at the front end to ensure that there is interlocking cooperation in the left and right directions between them, and then the interlocking structure at the rear position can form a stable splicing force with each other, ensuring that the firmness of the interlocking is more reliable. This angle is more convenient during production and processing, and the efficiency of the mold molding is higher, thereby effectively reducing the production cost. The opening angle position of the second interlocking groove 3 is on the same plane as the left end face of the first interlocking groove 2. The inclined structure of the first interlocking groove 2, the side of the second interlocking groove 3 and the outer side of the floor tile main structure 1 are respectively provided with an integrally formed splicing interlocking isolation column 4. When splicing with adjacent floor tiles, this structure can ensure that the mutual isolation space is more accurate, and when cooperating with each other in sand and soil construction, it can form an interlocking effect on the surface, ensure the matching strength between adjacent floor tiles, and enable the overall interlocking position to form a multiple interlocking matching effect. The upper end of the splicing interlocking isolation column 4 is provided with a safety chamfer structure, which is easier to form during production. A conical integral fixed anti-loosening groove 5 is provided at the center of the lower end of the floor tile main structure 1, and the bottom can be integrated with the cement mortar in a larger area during construction. The right side of the integral fixed anti-loosening groove 5 is provided with a first anti-loosening stabilizing groove 6 that completely penetrates the right side and the lower end of the whole, and the left side of the integral fixed anti-loosening groove 5 is provided with a second anti-loosening stabilizing groove 7 that completely penetrates the left side and the lower end of the whole. The front position of the integral fixed anti-loosening groove 5 is provided with a third anti-loosening stabilizing groove 8 that completely penetrates the rear side and the lower end of the whole. The depths of the first anti-loosening stabilizing groove 6, the second anti-loosening stabilizing groove 7 and the third anti-loosening stabilizing groove 8 increase successively. The structural setting of different depths in different directions can achieve better integration stability with the cement mortar during construction, and different matching forces can be formed in different directions during later use, thereby ensuring a better overall anti-loosening effect. This product sets interlocking structures of different shapes on the front and back sides of the main structure of the floor tiles, which can form interlocking forces in different directions with adjacent floor tiles during construction. Then, by setting isolation safety support columns on the outside of the overall structure, it can fit with adjacent floor tiles during splicing to have a precise isolation space after splicing, and cooperate more closely with the pressurized sand and soil materials to achieve an interlocking connection effect. The bottom position sets anti-loosening stabilizing grooves in three directions and with different depths to ensure a larger fusion area with the bottom mortar during construction, and can form an up and down staggered force, which can achieve a reliable anti-loosening effect. It can also achieve a combination effect of multiple interlocking between adjacent floor tiles during splicing construction. The floor tiles have better connection firmness during splicing construction, the splicing operation during construction is more convenient, and the overall safety during later use is higher, which effectively reduces the occurrence of looseness between adjacent floor tiles. Anti-loosening grooves can be set at the bottom as needed to cooperate with the main body of the construction foundation to achieve a stronger grip and better overall laying firmness.

Preferably, the width of the first interlocking groove 2 in the left-right direction is half of the length of the floor tile main structure 1 in the left-right direction, so that the structural strength of the rear position is better, and the interlocking structure of the right position is more concentrated, which can improve the matching strength of the interlocking position, and the interlocking effect during later use can be further improved. The left end face of the first interlocking groove 2 is parallel to the left-right end face of the floor tile main structure 1, so the overall structural strength during production and processing can be further improved, and the side interlocking effect is also better.

Preferably, the widths of the second interlocking groove 3 on both sides are the same as the length of the floor tile main structure 1 in the left-right direction, so that the space at the front end is larger and a larger area combination can be performed with the spliced floor tiles.

Preferably, the lower end surface of the splicing interlocking isolation column 4 is on the same plane as the lower end surface of the floor tile main structure 1, so that the flatness of the lower end position is better, and the mold used for forming during production has lower production costs, thereby reducing the processing cost of local brick production. The upper end surface of the third anti-loosening stabilizing groove 8 is on the same plane as the upper end surface of the integral fixed anti-loosening groove 5, which makes the internal structure more flat during production and processing, and the processing efficiency during production can be further improved.

The above is a preferred embodiment of the present invention. It should be pointed out that for ordinary technicians in this technical field, several improvements or substitutions can be made without departing from the principles of the present invention. These improvements or substitutions should also be regarded as the protection scope of the present invention.

Claims (4)

1. An interlocking anti-loosening floor tile, characterized in that: it comprises a floor tile main structure (1), the main body shape of the floor tile main structure (1) is a rectangular parallelepiped, a first interlocking matching groove (2) opening to the rear side is provided at the right end position of the rear side of the floor tile main structure (1), the right side of the first interlocking matching groove (2) is an inclined surface structure inclined to the rear side, a V-shaped second interlocking matching groove (3) opening to the front side is provided at the front side of the floor tile main structure (1), the opening angle of the second interlocking matching groove (3) is 170 degrees, a conical integral fixed matching anti-loosening groove (5) is provided at the center position of the lower end of the floor tile main structure (1), a first anti-loosening stabilizing groove (6) completely penetrating the right side and the lower end of the whole is provided on the right side of the integral fixed matching anti-loosening groove (5), the integral fixed matching anti-loosening groove (5) is provided with a first anti-loosening stabilizing groove (6) completely penetrating the right side and the lower end of the whole, and the integral fixed matching anti-loosening groove (5) is provided with a first anti-loosening stabilizing groove (6) penetrating the right side and the lower end of the whole. A second anti-loosening stabilizing groove (7) is provided on the left side of the interlocking anti-loosening groove (5) and completely penetrates the left side and the lower end of the whole. A third anti-loosening stabilizing groove (8) is provided on the front position of the integral fixed anti-loosening groove (5) and completely penetrates the rear side and the lower end of the whole. The depths of the first anti-loosening stabilizing groove (6), the second anti-loosening stabilizing groove (7) and the third anti-loosening stabilizing groove (8) increase in sequence. The opening angle position of the second interlocking matching groove (3) is on the same plane as the left end face of the first interlocking matching groove (2). An integrally formed splicing interlocking isolation column (4) is respectively provided on the inclined surface structure of the first interlocking matching groove (2), the side surface of the second interlocking matching groove (3) and the outer side surface of the main structure (1) of the floor tile. The upper end of the splicing interlocking isolation column (4) is provided with a safety chamfer structure. 2. An interlocking anti-loosening floor tile according to claim 1, characterized in that the left end surface of the first interlocking matching groove (2) is parallel to the left-right end surface of the floor tile main structure (1), and the left-right width of the first interlocking matching groove (2) is half of the left-right length of the floor tile main structure (1). 3. An interlocking anti-loosening floor tile according to claim 1, characterized in that the widths of the left and right sides of the second interlocking matching groove (3) are the same as the length of the floor tile main structure (1) in the left and right directions. 4. An interlocking anti-loosening floor tile according to claim 1, characterized in that: the upper end surface of the third anti-loosening stabilizing groove (8) is on the same plane as the upper end surface of the integral fixed anti-loosening groove (5), and the lower end surface of the spliced interlocking isolation column (4) is on the same plane as the lower end surface of the floor tile main structure (1).