Tetris series hollow ecological brick and application method thereof
A technology of Tetris and application methods, applied in the field of ecological slope protection, can solve problems such as production efficiency, low practicability, difficulty in ensuring brick stability, complex brick structure, etc., and achieve high promotion and application value, good anti-corrosion ability, structural simple effect
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Embodiment 1
[0061] only with Figure 11 Take the A1+A1 brick laying combination form as an example. Such as Figure 12 As shown, the left circular anchor hole 2 of the lower hollow slope protection brick A is aligned and spliced with the right circular anchor hole 2 of the upper hollow slope protection brick A to form a vertically connected tunnel. Such as Figure 15 As shown, the concrete member a6 is arranged in the planting hole 3 to play the role of pocketing soil. Such as Figure 16 As shown, the overall splicing of the A1+A1 brick laying combination forms a stepped slope protection form in which the upper layer is the hollow slope protection brick A of the laying form A1 and the lower layer is the hollow slope protection brick A of the laying form A1, and the same brick is used in the same layer Body 1 performs side-by-side splicing. The internal joint gap between the brick body 1 and the brick body 1 is filled with asphalt 8, and the joint gap close to the surface of the bri...
Embodiment 2
[0067] only with Figure 11 The A2+A2 brick body laying combination form is an example, and the structural form and technical scheme are as described in Embodiment 1, the difference is: as Figure 13 As shown, the right circular anchor hole 2 of the lower hollow slope protection brick A is aligned and spliced with the left circular anchor hole 2 of the upper hollow slope protection brick A to form a vertically connected tunnel. Such as Figure 17 As shown, when the rainwater is relatively abundant, the arrangement of the concrete member a6 in the vegetation hole 3 is beneficial to reduce the rainwater entering the vegetation hole 3, and reduce the amount of water infiltrating into the slope through the vegetation hole 3, which not only ensures the vegetation hole 3 The survival rate of the slope protection vegetation planted in the slope can also reduce the pore water pressure in the slope and improve the stability of the slope. Such as Figure 17 As shown, the overall sp...
Embodiment 3
[0070] Taking the laying combination of two brick bodies D and E as an example, the structural form and technical scheme are as described in Example 1, the difference is that the brick body D and the brick body E form Figure 11 The combination of D+D, E+D and D+E laying. The concrete member b7 is arranged in the planting hole 3 of the brick body D to play the role of pocketing soil. The brick body E is a concave structure, and the cubes E-2 and E-5 on the left and right sides of each brick body E can play the role of pocketing soil. The component b7 is beneficial to reduce the rainwater entering into the vegetation hole 3 and reduce the amount of water infiltrating into the slope.
[0071] Such as Figure 23 As shown, the stepped water conservancy slope protection formed by the combination of D and E bricks is different from embodiment 1 in that the stepped water conservancy slope protection formed in embodiment 3 is suitable for slopes with gentle slopes.
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