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Connecting structure for wear-resistant floor tiles

A technology for connecting structures and floor tiles, which is applied to pavements, roads, side ditches/curbstones paved with prefabricated blocks, etc. It can solve the problems of difficult access, water accumulation, uneven unevenness, and achieve the effect of difficult connection and firm connection.

Active Publication Date: 2015-12-30
深圳市科建建设集团有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Usually there is no interconnected structure between the floor tiles in gardens and ancient towns. The problem is that when a single floor tile moves up and down, it will not be involved with other floor tiles, and it is easy to cause depressions and unevenness on the surface of the floor tiles. Uneven, resulting in water accumulation, difficulty in passing and other problems; in recent years, wear-resistant floor tiles have become more popular, and stronger connection strength between floor tiles is also required

Method used

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  • Connecting structure for wear-resistant floor tiles
  • Connecting structure for wear-resistant floor tiles
  • Connecting structure for wear-resistant floor tiles

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Embodiment 1: A connection structure of wear-resistant floor tiles, including a floor tile body 1 arranged in layers and a flange 2 and a groove 3 arranged around the bottom of the floor tile body 1, the shape of the flange 2 and the groove 3 match.

[0029] The floor tile body 1 is a cube, and there are two flanges 2 and two grooves 3 respectively, which are respectively arranged on two adjacent sides of the bottommost floor of the floor tile body 1 .

[0030] The floor tile body 1 includes a water-conducting layer 11, an aquifer 12 and a connecting layer 13 connected sequentially from top to bottom; 12 connected water guide holes 112; the water storage layer 12 is made of porous material; the bottom surface of the connecting layer 13 shown is provided with continuous protrusions 131, and the floor tile body 1 also includes a water-resistant layer above the water guide layer 11 Grinding layer 14.

Embodiment 2

[0031] Example 2: Reference figure 1 and image 3 , a connection structure of wear-resistant floor tiles, including a floor tile body 1 arranged in layers and a flange 2 and a groove 3 arranged around the bottommost layer of the floor tile body 1, the shape of the flange 2 and the groove 3 match.

[0032] The floor tile body 1 is a cube, and there are two flanges 2 and two grooves 3, which are respectively arranged on the two adjacent sides of the bottommost layer of the floor tile body 1. The flange 2 is a curved surface when viewed from the side of the floor tile body 1. , the groove 3 is located on the curved surface of the flange 2 when viewed from the side of the floor tile body 1 .

[0033] The floor tile body 1 includes a water-conducting layer 11, an aquifer 12 and a connecting layer 13 connected sequentially from top to bottom; 12 connected water guide holes 112; the water storage layer 12 is made of porous material; the bottom surface of the connecting layer 13 sho...

Embodiment 3

[0037] Example 3: Reference figure 2 and Figure 4 , a connection structure of wear-resistant floor tiles, including a floor tile body 1 arranged in layers and a flange 2 and a groove 3 arranged around the bottommost layer of the floor tile body 1, the shape of the flange 2 and the groove 3 match.

[0038] The floor tile body 1 is a cube, and there are two flanges 2 and two grooves 3 respectively, which are respectively arranged on two adjacent sides of the bottommost layer of the floor tile body 1. The end surface of the flange 2 is an S-shaped curved surface, The contact surface between the groove 3 and the end of the flange 2 is an S-shaped curved surface.

[0039] The floor tile body 1 includes a water-conducting layer 11, an aquifer 12 and a connecting layer 13 connected sequentially from top to bottom; 12 connected water guide holes 112; the water storage layer 12 is made of porous material; the bottom surface of the connecting layer 13 shown is provided with continuo...

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Abstract

The invention relates to a connecting structure for wear-resistant floor tiles and belongs to the technical field of building materials. The connecting structure for the wear-resistant floor tiles comprises a floor tile body, flanges and grooves, wherein the floor tile body is arranged by layer, and the flanges and the grooves are arranged around the bottommost layer of the floor tile body; the flanges and the grooves are matched in shape; the surface of the floor tile body is provided with a greening body is a wear-resistant layer. The connecting structure for the wear-resistant floor tiles is suitable for tiles with multi-layer structures, is firm in connection and is capable of avoiding the irregularity of a floor surface paved with the floor tiles.

Description

technical field [0001] The invention relates to the technical field of building materials, in particular to a connection structure of wear-resistant floor tiles. Background technique [0002] Usually there is no interconnected structure between the floor tiles in gardens and ancient towns. The problem is that when a single floor tile moves up and down, it will not be involved with other floor tiles, and it is easy to cause depressions and unevenness on the surface of the floor tiles. Unevenness, which leads to problems such as water accumulation and difficulty in passing; in recent years, wear-resistant floor tiles have become more popular, and stronger connection strength between floor tiles is also required. Contents of the invention [0003] The object of the present invention is to solve the above problems, and provide a connection structure for wear-resistant floor tiles that is firmly connected and not prone to collapse. [0004] The technical scheme that the presen...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E01C5/04E01C15/00E01C11/22
Inventor 陈志诚芮鑫杰
Owner 深圳市科建建设集团有限公司
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