CN220013266U - Brick mosaic structure permeates water - Google Patents

Abstract

The utility model relates to the technical field of water permeable bricks, in particular to a water permeable brick splicing structure, which comprises a water permeable brick body, wherein chamfers are formed at four edges of the upper surface of the water permeable brick body, a first connecting block and a second connecting block are fixed on one side wall of the water permeable brick body, a third connecting block and a fourth connecting block are fixed on the side wall of the water permeable brick body on the same side as the first connecting block, two side connecting grooves are formed on the other side wall of the water permeable brick body, the water permeable brick body can be matched with the side connecting grooves through the side connecting blocks, and then the water permeable brick body is interlocked, so that the water permeable brick body of an integral pavement is not easy to take out, and a tire cannot take out the interlocked water permeable brick body from the interlocked water permeable brick body after a cart is pressed, so that materials are well preserved, and a large amount of material resources are saved.

Description

Brick mosaic structure permeates water

Technical Field

The utility model relates to the technical field of water permeable bricks, in particular to a water permeable brick splicing structure.

Background

The water permeable brick belongs to a green environment-friendly novel building material, and the raw materials are mainly formed by adopting environment-friendly materials such as cement, sand, slag, fly ash and the like at high pressure, but not sintered at high temperature; the whole brick is formed by one-time compression, and cannot be pressed in layers, so that the homogeneous brick which is consistent up and down and not layered is formed. The surface has no cracking and delamination phenomenon; the wear resistance is good, no surface falling off occurs after extrusion, and the high-strength steel plate is suitable for higher load use environments; good water permeability and strong anti-skid function; natural and durable color. The service life is long; smooth appearance, clear corners and regular lines; the freezing resistance and the salt and alkali resistance are high; the anti-cracking and anti-breaking strength is higher than that of similar products, and the driving is safe; the maintenance cost is low, the replacement is easy, and the pipeline under the road surface is convenient to embed; the color and shape are various, and the color and shape are reflected with the surrounding environment, and the color and shape are natural and beautiful.

In real life, the water permeable bricks are paved on the road surface, so that high-quality experience is provided for walking of pedestrians, the walking of the pedestrians is quite comfortable through paving the leveling of the rear surface, and the good water permeability can provide high-quality experience for daily traveling of the pedestrians in rainy days.

However, the common pavement water permeable bricks are paved with defects, and the existing water permeable bricks are arranged flatly or have simple splicing structure shapes, so that the water permeable bricks paved on the pavement are taken out and taken away easily, or a cart is pressed to enable one end of the water permeable bricks to tilt easily, so that the pavement is uneven, the tilted water permeable bricks are subjected to larger pressure again, damage can be directly caused, and resource waste is caused.

Therefore, the utility model aims to design the water permeable brick with the self-locking function, so that the water permeable brick can be prevented from being taken out easily and can be prevented from being tilted to be damaged.

Disclosure of Invention

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a brick mosaic structure permeates water, includes the brick body permeates water, four edges of brick body upper surface have all offered the chamfer permeates water, brick body one side wall permeates water is fixed with first connecting block and second connecting block, be fixed with third connecting block and fourth connecting block on the lateral wall of brick body and first connecting block homonymy permeates water, two side spread grooves have been seted up to another lateral wall of brick body permeates water.

Specifically, two side spread groove upper surfaces all are fixed with the wedge, one of them side spread groove both sides wall has all seted up circular spread groove, another side spread groove both sides wall has all seted up square spread groove.

Specifically, first connecting block and second connecting block cooperation are used, the space forms the draw-in groove form between first connecting block and the second connecting block, first connecting block and the equal slidable mounting of second connecting block lateral wall have the cylinder piece, two the one end side that the cylinder piece is close to each other is the slope setting, uses with the wedge cooperation, and the draw-in groove that forms between side spread groove and first connecting block and the second connecting block of seting up square spread groove is located same horizontal line.

Specifically, the cooperation of third connecting block and fourth connecting block is used, the space forms the draw-in groove form between third connecting block and the fourth connecting block, equal slidable mounting of third connecting block and fourth connecting block lateral wall has square piece, two square piece one end side that is close to each other is the slope setting, uses with the wedge cooperation, sets up the draw-in groove that forms between side spread groove and third connecting block and the fourth connecting block of circular spread groove and is located same horizontal line.

Specifically, the lateral wall is fixed with two semi-cylindrical blocks before the water permeable brick body, two semi-circular spread grooves have been seted up to the lateral wall behind the water permeable brick body, semi-cylindrical block and semi-circular spread groove cooperation use.

Specifically, the anti-skid grooves are formed in the cross-shaped mode on the upper surface of the water permeable brick body.

The utility model has the beneficial effects that:

(1) According to the water permeable brick splicing structure, the connecting blocks at the side edges can be matched with the side edge connecting grooves for use, so that the water permeable brick bodies of the whole pavement are not easy to take out, the tire cannot bring out the interlocked water permeable bricks after the cart is pressed, the water permeable brick bodies are difficult to take out from the space between the interlocked water permeable brick bodies, the materials are well preserved, and a large amount of material resources are saved.

(2) According to the water permeable brick splicing structure, the anti-skid grooves formed in the upper surface of the water permeable brick body can help to drain rainwater in rainy days, the water permeability of the water permeable brick can be well exerted by matching with the chamfer design of the side edge of the upper surface, so that a road surface is dry and comfortable, shoes are prevented from being wetted in the walking process of pedestrians, people walk daily more comfortably, the anti-skid grooves can help to assist in the cutting operation of the water permeable brick body, when the corners of the road surface need to be spliced, the cutting operation can be carried out along the anti-skid groove lines, and then the spare parts of the corners are spliced, so that the cleanliness of the road surface is improved.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a water permeable brick splicing structure provided by the utility model;

FIG. 2 is a schematic diagram of the bottom surface of a water permeable brick splicing structure provided by the utility model;

FIG. 3 is a schematic cross-sectional view of a water permeable brick splicing structure provided by the utility model;

FIG. 4 is a schematic view of a wedge-shaped block of a water permeable brick splicing structure provided by the utility model;

fig. 5 is a schematic diagram of a square block of a water permeable brick splicing structure provided by the utility model.

In the figure: 1. a water permeable brick body; 2. a first connection block; 3. a second connection block; 4. a third connecting block; 5. a fourth connecting block; 6. a cylindrical block; 7. square blocks; 8. semi-cylindrical blocks; 9. a side connecting groove; 10. wedge blocks; 11. a semicircular connecting groove; 12. a circular connecting groove; 13. a square connecting groove; 14. an anti-skid slot.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1-5, the water permeable brick splicing structure of the utility model comprises a water permeable brick body 1, chamfers are respectively arranged at four edges of the upper surface of the water permeable brick body 1, a first connecting block 2 and a second connecting block 3 are fixed on one side wall of the water permeable brick body 1, a third connecting block 4 and a fourth connecting block 5 are fixed on the side wall of the water permeable brick body 1 on the same side as the first connecting block 2, and two side connecting grooves 9 are arranged on the other side wall of the water permeable brick body 1.

The connecting block of side can use with side spread groove 9 cooperation, and then interlocks water permeable brick body 1 for water permeable brick body 1 on whole road surface is difficult for taking out, and then the tire can not take out the water permeable brick of interlock after the cart is pressed, and is difficult to take out water permeable brick body 1 from between the water permeable brick body 1 of interlock, makes the material obtain good preservation, has saved a large amount of material resources.

Specifically, wedge-shaped blocks 10 are fixed on the upper surfaces of the two side connecting grooves 9, one of the side connecting grooves 9 is provided with a circular connecting groove 12 on both side walls, and the other side connecting groove 9 is provided with a square connecting groove 13 on both side walls.

Specifically, the cooperation of first connecting block 2 and second connecting block 3 is used, the space forms the draw-in groove form between first connecting block 2 and the second connecting block 3, the equal slidable mounting of first connecting block 2 and the 3 lateral walls of second connecting block has cylinder piece 6, two the one end side that cylinder piece 6 is close to each other is personally submitted the slope and is set up, uses with wedge 10 cooperation, and the draw-in groove that forms between side spread groove 9 and first connecting block 2 and the second connecting block 3 of square spread groove 13 is located same horizontal line.

The wedge-shaped blocks 10 press down the cylindrical blocks 6 in the downward paving process, so that the two cylindrical blocks 6 slide in opposite directions and are embedded into the circular connecting grooves 12 formed in the side walls of the side connecting grooves 9.

Specifically, the cooperation of third connecting block 4 and fourth connecting block 5 is used, the space forms the draw-in groove form between third connecting block 4 and the fourth connecting block 5, the equal slidable mounting of third connecting block 4 and fourth connecting block 5 lateral wall has square piece 7, two square piece 7 are close to each other one end side and are the slope setting, use with wedge 10 cooperation, the draw-in groove that forms between side spread groove 9 and third connecting block 4 and the fourth connecting block 5 of circular spread groove 12 is located same horizontal line.

The wedge-shaped blocks 10 press down the square blocks 7 in the downward paving process, so that the two square blocks 7 slide in opposite directions and are embedded into square connecting grooves 13 formed in the side walls of the side connecting grooves 9.

The staggered arrangement of the cylindrical blocks 6 and the circular connecting grooves 12 can enable the staggered splicing method to be used in the laying process, so that the water permeable brick body 1 laid on the ground is finally formed to show more attractive effect, and the attractive degree of urban construction is greatly improved.

Specifically, the front side wall of the water permeable brick body 1 is fixed with two semi-cylindrical blocks 8, the rear side wall of the water permeable brick body 1 is provided with two semi-circular connecting grooves 11, and the semi-cylindrical blocks 8 are matched with the semi-circular connecting grooves 11.

The semi-cylindrical blocks 8 and the semicircular connecting grooves 11 are matched for use to form a limiting effect on the water permeable brick bodies 1, so that the water permeable brick bodies 1 are better and tightly connected in the laying process, and the phenomenon of splicing and skewing is avoided.

Specifically, the upper surface of the water permeable brick body 1 is crisscrossed to form an anti-slip groove 14.

The anti-slip groove 14 that the brick body 1 upper surface that permeates water offered can help dredge the rainwater in rainy day, the chamfer design of cooperation upper surface side can make the water permeability of brick obtain fabulous performance, and then make the road surface dry and comfortable, pedestrian walk in-process avoid wetting shoes, people daily walking is more comfortable, and anti-slip groove 14 can help carrying out the auxiliary action to the cutting operation of brick body 1 that permeates water, when the road surface corner need splice the operation, can cut the operation along anti-slip groove 14 line, and then splice the spare part of corner, increase the neatness of road surface.

Working principle: in the laying process, the staggered splicing method is adopted, the water permeable brick body 1 with the first connecting block 2 and the rear half side wall of the other water permeable brick body 1 are matched and laid, so that the wedge block 10 presses down the cylindrical blocks 6 in the downward laying process, further the two cylindrical blocks 6 slide in opposite directions, the circular connecting grooves 12 formed in the side wall of the side connecting groove 9 are embedded, meanwhile, the front half side wall of the other water permeable brick body 1 is matched and laid, the square blocks 7 are pressed down in the downward laying process under the wedge block 10, further the two square blocks 7 slide in opposite directions, the square connecting grooves 13 formed in the side wall of the side connecting groove 9 are embedded, and the laying quantity is determined by analogy in sequence according to the laying length actually required by a road surface until the area to be laid is fully paved with the water permeable brick body 1, the side wall cylindrical blocks 6 and the square blocks 7 are embedded into the circular connecting grooves 12 and the square connecting grooves 13, the interlocking purpose between the water permeable brick bodies 1 can be achieved, and the tire can not bring out of the water permeable brick body in the downward laying process after the cart is pressed, the water permeable brick body is difficult to be taken out from the water permeable brick body 1, and the material resources of the water permeable brick 1 are saved.

It should be mentioned that, the anti-skidding groove 14 that water permeable brick body 1 upper surface was seted up can help dredge the rainwater in rainy day, the chamfer design of cooperation upper surface side can make water permeable brick's water permeability obtain fabulous performance, and then make the road surface dry and comfortable, pedestrian walk in-process avoid wetting shoes, people daily walking is more comfortable, and anti-skidding groove 14 can help carrying out the auxiliary role to the cutting operation of water permeable brick body 1, when the road surface corner need carry out the concatenation operation, can carry out the cutting operation along anti-skidding groove 14 line, and then splice the spare part of corner, increase the neatness of road surface.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a water permeable brick mosaic structure, includes water permeable brick body (1), its characterized in that: chamfer angles are formed at four edges of the upper surface of the water permeable brick body (1), a first connecting block (2) and a second connecting block (3) are fixed on one side wall of the water permeable brick body (1), a third connecting block (4) and a fourth connecting block (5) are fixed on the side wall of the same side of the water permeable brick body (1) as the first connecting block (2), and two side connecting grooves (9) are formed in the other side wall of the water permeable brick body (1); wedge-shaped blocks (10) are fixed on the upper surfaces of the two side connecting grooves (9), wherein circular connecting grooves (12) are formed in the two side walls of one side connecting groove (9), and square connecting grooves (13) are formed in the two side walls of the other side connecting groove (9); the side walls of the first connecting block (2) and the second connecting block (3) are respectively provided with a cylindrical block (6) in a sliding manner, and one end side surfaces of the two cylindrical blocks (6) close to each other are obliquely arranged and matched with the wedge-shaped block (10); the side walls of the third connecting block (4) and the fourth connecting block (5) are respectively provided with a square block (7) in a sliding manner, and one end side surfaces of the square blocks (7) close to each other are obliquely arranged and matched with the wedge-shaped blocks (10).

2. The water permeable brick splicing structure according to claim 1, wherein: the first connecting block (2) is matched with the second connecting block (3), a clamping groove is formed in a gap between the first connecting block (2) and the second connecting block (3), and a side connecting groove (9) provided with a square connecting groove (13) is positioned on the same horizontal line as the clamping groove formed between the first connecting block (2) and the second connecting block (3).

3. The water permeable brick splicing structure according to claim 2, wherein: the third connecting block (4) is matched with the fourth connecting block (5), a clamping groove is formed in a gap between the third connecting block (4) and the fourth connecting block (5), and a clamping groove formed between a side edge connecting groove (9) provided with a circular connecting groove (12) and the third connecting block (4) and the fourth connecting block (5) is located on the same horizontal line.

4. The water permeable brick splicing structure according to claim 1, wherein: the water permeable brick is characterized in that two semi-cylindrical blocks (8) are fixed on the front side wall of the water permeable brick body (1), two semi-circular connecting grooves (11) are formed in the rear side wall of the water permeable brick body (1), and the semi-cylindrical blocks (8) are matched with the semi-circular connecting grooves (11).

5. The water permeable brick splicing structure according to claim 1, wherein: the upper surface of the water permeable brick body (1) is crisscrossed to be provided with an anti-slip groove (14).