An embeddedly installed wear brick

By using an embedded aluminum alloy frame and wear-resistant brick base structure, the problems of reduced adhesion and difficulty in disassembly caused by adhesive installation are solved, achieving secure installation and efficient maintenance of wear-resistant bricks, and improving the anti-slip effect.

CN224413034UActive Publication Date: 2026-06-26FUJIAN ANTAI BUILDING MATERIALS IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN ANTAI BUILDING MATERIALS IND CO LTD
Filing Date
2025-05-27
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing adhesive installation method for wear-resistant bricks leads to a decrease in adhesion, making them prone to hollowing and falling off. They are also difficult to disassemble and have high maintenance costs. Furthermore, rainwater affects their anti-slip effect.

Method used

The system employs an embedded installation method, using an aluminum alloy frame and a wear-resistant brick base. Square protrusions and columns are embedded into the sand, and trapezoidal limiting blocks and dovetail grooves are used to achieve rapid splicing and disassembly of the bricks.

Benefits of technology

It improves the installation stability of wear-resistant bricks, reduces maintenance costs and difficulty, enhances anti-slip performance, and prevents brick displacement and sliding.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an embedded wear -resisting brick of installation relates to wear -resisting brick technical field, and the aluminium clad alloy base frame is connected with wear -resisting brick base in the inside of square groove, the upper surface of wear -resisting brick base is provided with the decorative tile, the lower surface of square lug evenly distributed has multiple groups of convex post, the intermediate inner wall of wear -resisting brick base and square lug is provided with the honeycomb groove of penetration, the symmetry of two groups of side of wear -resisting brick base is provided with multiple groups of trapezoidal limit block, and the inner wall of two groups of adjacent side is provided with the dovetail groove corresponding with trapezoidal limit block. The utility model discloses an embedded wear -resisting brick of installation, through the wear -resisting brick base and decorative tile cooperation of setting, combine into wear -resisting brick main part, through the multiple groups of convex post embedding of setting, increase the adhesion of wear -resisting brick, when using outdoors, through the honeycomb groove of setting can prevent wear -resisting brick surface water, prevent the foot from slipping when walking on it.
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Description

Technical Field

[0001] This utility model relates to the field of wear-resistant brick technology, and in particular to an embedded wear-resistant brick. Background Technology

[0002] With the improvement of personal income and aesthetic taste, the demand for mid-to-high-end ceramic tile products continues to expand. In addition, with the increasing investment in infrastructure renovation and residential housing construction, and the steady growth of GDP, the income of ordinary people is also increasing, and they are beginning to pay attention to home decoration. The demand for building materials such as ceramic tiles is rising, and the future market prospects for ceramic tiles are broad. At present, wear-resistant tiles are usually used in places with high requirements for floor wear resistance, such as industrial plants, commercial places, and public areas.

[0003] Existing wear-resistant bricks are mostly installed using adhesive bonding. However, the adhesive used in this process may age over time, leading to decreased adhesion between the brick and the subfloor, resulting in hollow areas and detachment. Furthermore, when wear-resistant bricks are damaged and need replacement, the tight bonding makes disassembly difficult and can easily damage surrounding bricks and the subfloor, resulting in high repair costs and low efficiency. In rainy weather, residual rainwater on the surface reduces its anti-slip properties, increasing the risk of slips and falls, thus negatively impacting user experience. To address these shortcomings, we propose an embedded installation method for wear-resistant bricks. Utility Model Content

[0004] The main objective of this invention is to provide an embedded wear-resistant brick that can effectively solve the problems in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] An embedded wear-resistant brick is provided, encased in an aluminum alloy base frame. Multiple sets of square grooves are formed on the inner side of the aluminum alloy base frame, and wear-resistant brick bases are embedded within these grooves. A decorative brick is provided on the upper surface of the wear-resistant brick base, and multiple sets of fixing pins are symmetrically arranged on the lower surface of the decorative brick. The bottom of each fixing pin is a conical cylinder. A square protrusion is provided on the lower surface of the aluminum alloy base frame. Positioning holes corresponding to the fixing pins and penetrating the inner walls of both the wear-resistant brick base and the square protrusion are provided on their inner walls. Multiple sets of protruding pillars, also conical cylinders, are evenly distributed on the lower surface of the square protrusion. A through honeycomb groove is provided in the middle inner wall of the wear-resistant brick base and the square protrusion. Multiple sets of trapezoidal limiting blocks are symmetrically arranged on two adjacent sets of sides of the wear-resistant brick base, and dovetail grooves corresponding to the trapezoidal limiting blocks are provided on the inner walls of the other two adjacent sets of sides.

[0007] Preferably, the square protrusion below the wear-resistant brick base is embedded in the square groove inside the aluminum alloy base frame, and multiple sets of protrusions on the lower surface of the square protrusion are inserted into the sand below the square protrusion.

[0008] Preferably, the upper surface of the decorative brick is a flat plane with a certain friction, and the fixing pin is fixedly set on the lower surface of the decorative brick.

[0009] Preferably, the inner diameter of the positioning hole is slightly larger than the outer diameter of the fixing pin, and the decorative brick is detachably connected to the wear-resistant brick base through the fixing pin and the positioning hole.

[0010] Preferably, the upper surface of the honeycomb groove is flush with the upper surface of the wear-resistant brick base, and the inside of the honeycomb groove is hollow.

[0011] Preferably, the trapezoidal limiting block is fixedly installed on the adjacent side of the wear-resistant brick base, and is engaged in the dovetail groove of another set of wear-resistant brick bases whose size matches that of the trapezoidal limiting block, thereby connecting multiple sets of wear-resistant brick bases to each other.

[0012] Compared with the prior art, the present invention has the following beneficial effects:

[0013] 1. In this utility model, by embedding a square protrusion set below the wear-resistant brick base into the groove inside the aluminum alloy base frame, and at the same time, protruding posts evenly surrounding the lower surface of the square protrusion are inserted into the sand, the installation firmness of the wear-resistant brick is greatly improved compared with the traditional pasting method, effectively preventing the brick from becoming hollow or falling off, and extending the service life of the wear-resistant brick.

[0014] 2. In this utility model, the trapezoidal limiting block and the dovetail groove are used in conjunction to enable the quick and accurate splicing of adjacent wear-resistant brick bases, thereby improving installation efficiency. When a wear-resistant brick is damaged, it can be disassembled and replaced individually by separating it from the trapezoidal limiting block and the dovetail groove of the adjacent wear-resistant brick base, without causing damage to the surrounding bricks and the ground base, thus reducing maintenance costs and improving maintenance efficiency. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the connection structure between the decorative facing brick and the wear-resistant brick base of this utility model;

[0017] Figure 3 This is a schematic diagram of the bottom structure of the wear-resistant brick base of this utility model.

[0018] In the diagram: 1. Aluminum alloy base frame; 2. Wear-resistant brick base; 3. Decorative facing brick; 4. Fixing pin; 5. Trapezoidal limiting block; 6. Dovetail groove; 7. Honeycomb groove; 8. Square protrusion; 9. Protruding column; 10. Positioning hole. Detailed Implementation

[0019] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0020] Example 1, as Figures 1-3 As shown, an embedded wear-resistant brick includes an aluminum alloy base frame 1 with a square groove inside. During installation, the ground substrate is first prepared to ensure flatness. The aluminum alloy base frame 1 is then fixed to the ground as needed. Sand is filled into the square groove inside the aluminum alloy base frame 1. The square protrusion 8 below the wear-resistant brick base 2 is aligned with the square groove inside the aluminum alloy base frame 1, and gently pressed to embed the square protrusion 8 into the groove. During pressing, multiple sets of protruding posts 9, evenly surrounding the lower surface of the square protrusion 8, are inserted into the sand, and the lower half of the honeycomb groove 7 is also embedded in the sand, enhancing the grip of the wear-resistant brick base 2. Compared to traditional adhesive methods, this method significantly improves the installation stability of wear-resistant bricks. When used indoors, after the workers have installed the wear-resistant brick base 2, the surface of the decorative brick 3 is relatively flat. The workers can use existing suction cups to hold the surface of the decorative brick 3 in place. Then, the decorative brick 3 is placed directly above the wear-resistant brick base 2, so that the fixing pin 4 below the decorative brick 3 is inserted into the positioning hole 10 on the inner wall of the wear-resistant brick base 2. This allows the decorative brick 3 to be installed above the wear-resistant brick base 2. When pedestrians walk on the decorative brick 3, the fixing pin 4 and the positioning hole 10 counteract the friction between the pedestrian's foot and the surface of the decorative brick 3, thereby preventing the decorative brick 3 from shifting above the wear-resistant brick base 2.

[0021] Example 2, as Figures 1-3As shown, an embedded wear-resistant brick, when used outdoors, only requires the square protrusion 8 below the wear-resistant brick base 2 to be embedded in the square groove inside the aluminum alloy base frame 1. There is no need to install decorative facing bricks 3. Since the upper surface of the honeycomb groove 7 is flush with the upper surface of the wear-resistant brick base 2, it will not affect people walking on the surface of the wear-resistant brick base 2. In rainy weather, rainwater falling on the surface of the wear-resistant brick base 2 can be directly discharged into the sand below through the honeycomb groove 7, effectively preventing people from slipping on the surface of ordinary wear-resistant bricks and causing serious falls. Simultaneously, when used indoors, when heavy facilities such as vehicles frequently pass over the decorative facing brick 3, an appropriate amount of existing damping rubber can be filled inside the honeycomb groove 7 during installation to absorb the impact energy received by the decorative facing brick 3, thus protecting the wear-resistant brick as a whole.

[0022] It should be noted that this utility model is an embedded wear-resistant brick. During installation, the worker first prepares the ground substrate to ensure it is flat, and then fixes the aluminum alloy base frame 1 to the ground as needed. Next, sand is filled into the square groove inside the aluminum alloy base frame 1. The worker then installs the wear-resistant brick base 2 by engaging the square protrusion 8 at the bottom of the base 2 into the square groove inside the aluminum alloy base frame 1, so that the extended edges of the base 2 rest on top of the aluminum alloy base frame 1. Then, another set of wear-resistant bricks... The brick base 2 is installed according to the above steps. During installation, the trapezoidal limiting block 5 corresponding to the edge of the wear-resistant brick base 2 needs to be engaged in the dovetail groove 6 on the inner wall of the edge of the adjacent wear-resistant brick base 2. The trapezoidal limiting block 5 and the dovetail groove 6 work together to facilitate the connection of multiple sets of wear-resistant brick base 2 by the staff. When one set of wear-resistant brick base 2 and decorative brick 3 is damaged, it can be disassembled and replaced individually by simply separating it from the trapezoidal limiting block 5 and the dovetail groove 6 connecting it to the adjacent brick. This will not damage the surrounding brick and the ground base, reduce maintenance costs and improve maintenance efficiency.

[0023] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An embedded wear-resistant brick, encased in an aluminum alloy base frame (1), characterized in that: The aluminum alloy base (1) has multiple sets of square slots on its inner side, and wear-resistant brick bases (2) are embedded inside the square slots. Decorative bricks (3) are provided on the upper surface of the wear-resistant brick bases (2), and multiple sets of fixing pins (4) are symmetrically provided on the lower surface of the decorative bricks (3). The bottom of the fixing pins (4) is set as a conical cylinder. Square protrusions (8) are provided on the lower surface of the aluminum alloy base (1). The inner walls of the wear-resistant brick bases (2) and the square protrusions (8) are provided with corresponding fixing pins (4). The positioning hole (10) penetrates the inner wall of the wear-resistant brick base (2) and the square protrusion (8). Multiple sets of protrusions (9) are evenly distributed on the lower surface of the square protrusion (8), and the protrusions (9) are also set as conical cylinders. A honeycomb groove (7) is provided in the middle inner wall of the wear-resistant brick base (2) and the square protrusion (8). Multiple sets of trapezoidal limiting blocks (5) are symmetrically arranged on the two adjacent sides of the wear-resistant brick base (2). The inner walls of the other two adjacent sides are provided with dovetail grooves (6) corresponding to the trapezoidal limiting blocks (5).

2. The embedded wear-resistant brick according to claim 1, characterized in that: The square protrusion (8) below the wear-resistant brick base (2) is embedded in the square groove inside the aluminum alloy base frame (1), and multiple sets of protrusions (9) on the lower surface of the square protrusion (8) are inserted into the sand below the square protrusion (8).

3. The embedded wear-resistant brick according to claim 1, characterized in that: The upper surface of the decorative brick (3) is a flat plane with a certain friction, and the fixing pin (4) is fixedly set on the lower surface of the decorative brick (3).

4. The embedded wear-resistant brick according to claim 1, characterized in that: The inner diameter of the positioning hole (10) is slightly larger than the outer diameter of the fixing pin (4). The decorative brick (3) is detachably connected to the wear-resistant brick base (2) through the fixing pin (4) and the positioning hole (10).

5. The embedded wear-resistant brick according to claim 1, characterized in that: The upper surface of the honeycomb groove (7) is flush with the upper surface of the wear-resistant brick base (2), and the inside of the honeycomb groove (7) is hollow.

6. The embedded wear-resistant brick according to claim 1, characterized in that: The trapezoidal limiting block (5) is fixedly installed on the adjacent side of the wear-resistant brick base (2) and is snapped into the dovetail groove (6) of another set of wear-resistant brick bases (2) whose size matches that of the trapezoidal limiting block (5), thus connecting multiple sets of wear-resistant brick bases (2) to each other.