Arc-shaped wear-resistant functional brick

Abstract

The utility model discloses an arc surface wear -resisting function brick, whole is square, including face brick and bottom brick, face brick upper side has arc surface, and lower side is plane side, bottom brick upper side is plane side, and coincides with face brick lower side, and is fixed with adhesive type, face brick's upper side has the convex of arc surface shape, the convex is the dot matrix distribution of horizontal and longitudinal, and the adjacent convex has the arc surface transition section between, and the adjacent transition section has the recess of arc surface shape. The convex of face brick's arc surface formation has comfortable treading feeling after laying, has the massage function to the sole, and the convex also plays the function of antiskid simultaneously. The side position of face brick is the transition section position and recess position, and when laying, the corresponding transition section coincides after the splicing of adjacent brick block, and the recess position coincides, makes the whole ground tile smooth transition.

Description

Technical Field

[0001] This utility model belongs to the technical field of functional floor tiles, and in particular relates to a wear-resistant functional tile with an arc-shaped surface. Background Technology

[0002] The bricks used for paving municipal streets, scenic areas, and green belts are mainly concrete bricks with various aesthetically pleasing designs. After the bricks are spliced ​​and installed, drainage channels are installed in the gaps between the bricks to facilitate the rapid drainage of water.

[0003] As a flooring material, a crucial aspect of bricks is slip resistance to prevent feet from slipping. Most existing bricks are designed with horizontal and vertical stripes to increase friction with shoes and also to drain water, preventing rainwater from lingering on the surface and causing moss growth, which further increases slipperiness.

[0004] When concrete bricks are exposed to the outdoors, their surface is easily weathered and loosened by wind and sun. In addition, with constant foot traffic, the protrusions on the surface of the bricks are easily worn down, and the anti-slip texture without edges and corners basically loses its anti-slip function. Utility Model Content

[0005] The purpose of this utility model is to provide a curved surface wear-resistant functional brick to solve the problem that existing anti-slip floor tiles are prone to powdering, resulting in loss of anti-slip effect.

[0006] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0007] A type of arc-shaped wear-resistant functional brick, which is square in shape; includes a face brick and a bottom brick. The face brick has an arc-shaped surface on its upper side and a flat surface on its lower side. The bottom brick has a flat surface on its upper side and overlaps with the lower side of the face brick, and is fixed by adhesive bonding.

[0008] The upper side of the brick has arc-shaped protrusions, which are distributed in a dot matrix pattern in both the horizontal and vertical directions. There are arc-shaped transition sections between adjacent protrusions, and adjacent transition sections have arc-shaped depressions.

[0009] Furthermore, a circular groove is formed at the center of the recess corresponding to the facing brick, and the circular groove penetrates both the facing brick and the bottom brick. The lower side of the bottom brick is a flat side, and a first semi-circular groove is formed both horizontally and vertically. A second semi-circular groove is formed on the side of both the bottom brick and the facing brick corresponding to the end of the first semi-circular groove. A quarter-circular groove is formed on the corner side of the facing brick and the bottom brick, and on the lower side of the bottom brick.

[0010] The present invention has the following beneficial effects: the raised surface of the brick has a comfortable stepping feel after the brick is laid, and has a massage function for the soles of the feet. At the same time, the raised surface also has an anti-slip function.

[0011] The edges of the tiles form transition sections and recessed areas. When laying the tiles, the corresponding transition sections and recessed areas overlap after adjacent tiles are joined, resulting in a smooth transition of the entire floor tile. Attached Figure Description

[0012] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below.

[0013] Figure 1 : Schematic diagram of the upper structure of a single brick of this utility model.

[0014] Figure 2 : Schematic diagram of the lower structure of a single brick of this utility model.

[0015] Figure 3 : Schematic diagram of the single-brick splicing structure of this utility model.

[0016] Figure 4 : Schematic diagram of the full-pave brick structure of this utility model.

[0017] The components represented by each number in the attached diagram are listed below: facing brick 1, bottom brick 2, circular groove 11, base plate 3, positioning post 31, first semicircular groove 21, second semicircular groove 22, and quarter-circular groove 23. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0019] like Figures 1-4 As shown: A type of arc-shaped wear-resistant functional brick, which is square in shape overall;

[0020] It includes a face brick 1 and a bottom brick 2. The face brick 1 has an arc-shaped surface on the upper side and a flat surface on the lower side. The bottom brick 2 has a flat surface on the upper side and overlaps with the lower side of the face brick 1. It is fixed by adhesive bonding.

[0021] The base bricks are made of poured concrete mortar, which is less expensive, and are about 6cm thick. The facing bricks are made of a mixture of resin, stone powder, and pigments, which has better hardness and wear resistance, and are about 5cm thick. The base bricks are inexpensive and serve as a support material for the bricks, saving on brick processing costs. The bonding side is a cement layer.

[0022] The upper side of the brick 1 has arc-shaped protrusions, which are distributed in a dot matrix pattern in the horizontal and vertical directions. There are arc-shaped transition sections between adjacent protrusions, and adjacent transition sections have arc-shaped depressions.

[0023] The upper side of the entire tile has a smooth, curved surface, with both raised and recessed surfaces. The raised and recessed surfaces are connected by a curved transition. Specifically, a single tile has 9 raised surfaces and 4 recessed surfaces.

[0024] The raised surface of the brick, formed by its curved shape, provides a comfortable feel when stepped on after installation, massages the soles of the feet, and also serves as an anti-slip feature.

[0025] The edges of the tiles form transition sections and recessed areas. When laying the tiles, the corresponding transition sections and recessed areas overlap after adjacent tiles are joined, resulting in a smooth transition of the entire floor tile.

[0026] A circular groove 11 is provided at the center of the depression corresponding to the facing brick 1, and the circular groove 11 penetrates the facing brick 1 and the bottom brick 2. It is used to drain water from the depression, guiding the water to the ground and allowing it to seep into the ground.

[0027] like Figure 3 As shown: The face bricks and the bottom bricks are produced by molds respectively. During the splicing and installation, there is a mounting frame for positioning. The mounting frame includes a base plate 3, and the base plate 3 has positioning posts 31. The positioning posts 31 correspond to the circular grooves 11. The bottom bricks 2 and the face bricks 1 are arranged in sequence according to the positioning posts, so that the bottom bricks 2 and the face bricks 1 can be accurately overlapped.

[0028] like Figure 2 As shown: The lower side of the bottom brick 2 is a flat side, with first semi-circular grooves 21 formed laterally and longitudinally. The first semi-circular grooves form a grid of bricks, with the corresponding cross points corresponding to the circular grooves. This is used to disperse the water introduced into the circular grooves laterally and longitudinally, increasing the surface infiltration area.

[0029] Both the bottom brick 2 and the top brick 1 have a second semicircular groove 22 at the end of the first semicircular groove 21 on their sides. This is used when the bricks are laid together, so that the second semicircular grooves merge to form a complete circular groove, improving drainage. The corner sides of the top brick 1 and the bottom brick 2, as well as the lower side of the bottom brick 2, each have a quarter-circular groove 23. This is used when the bricks are laid together, so that the quarter-circular grooves merge to form a complete semicircular groove, further improving drainage.

[0030] These embodiments are selected and specifically described in this specification in order to better explain the principles and practical applications of this utility model, so that those skilled in the art can better understand and utilize this utility model.

Claims

1. A type of arc-shaped wear-resistant functional brick, which is square in shape; characterized in that: It includes a face brick (1) and a bottom brick (2). The face brick (1) has an arc-shaped surface on the upper side and a flat surface on the lower side. The bottom brick (2) has a flat surface on the upper side and overlaps with the lower side of the face brick (1). It is fixed by adhesive bonding. The upper side of the brick (1) has an arc-shaped protrusion, which is distributed in a matrix pattern in the horizontal and vertical directions. There is an arc-shaped transition section between adjacent protrusions, and an arc-shaped depression between adjacent transition sections.

2. The arc-shaped wear-resistant functional brick according to claim 1, characterized in that: Each of the facing bricks (1) has a circular groove (11) at the center of the corresponding recess, and the circular groove (11) penetrates the facing brick (1) and the bottom brick (2).

3. The arc-shaped surface wear-resistant functional brick according to claim 2, characterized in that: The bottom brick (2) has a planar side on its lower side and a first semi-circular groove (21) is provided in both the horizontal and vertical directions.

4. The arc-shaped surface wear-resistant functional brick according to claim 3, characterized in that: The bottom brick (2) and the top brick (1) are each provided with a second semicircular groove (22) at the end of the first semicircular groove (21).

5. The arc-shaped surface wear-resistant functional brick according to claim 4, characterized in that: A quarter-circular groove (23) is provided on the corner side of the facing brick (1) and the bottom brick (2) and on the side of the bottom brick (2).

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