Z-shaped heat-preservation board heat-free bridge self-heat-preservation building block
A technology of self-insulation blocks and insulation boards, which is applied in building materials and other directions to achieve the effect of improving seismic performance, high speed and good mechanical properties
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Embodiment 1
[0018] Embodiment 1: as Figure 1-Figure 3 As shown, the present invention includes an outer row of Z-shaped thermal insulation boards 1, an inner row of Z-shaped thermal insulation boards 2, horizontal ash joint energy transfer cut-off ladders 7, concrete 8, continuous ladder energy transfer concrete extension ribs 9, etc. in the block concrete 8 The inner and outer rows of Z-shaped insulation boards 2 and 1 are arranged side by side, and the outer layer longitudinal board 3 and the inner layer longitudinal board 5 of the same row of adjacent Z-type insulation boards overlap each other; the outer layer longitudinal boards of the two rows of Z-type insulation boards Plate 3, transverse plate 4 and inner longitudinal plate 5 divide the concrete 8 into multiple continuous ladder energy transfer concrete extension ribs 9, and the longitudinal plates of the two rows of Z-shaped insulation boards at both ends of the block respectively extend out of the block to form an external heat...
Embodiment 2
[0021] Embodiment 2: The difference between this example and Embodiment 1 is that the distance between the outer row of Z-shaped insulation boards 1 and the inner row of Z-type insulation boards 2 in this example is 20mm from the horizontal gray joint energy transmission cut-off step 7; each row of Z-type insulation boards The distance between the Z-type insulation boards is 30mm, the length of the outer longitudinal board and the inner longitudinal board is not less than 1 / 2 the thickness of the block, and the overlapping length of adjacent Z-type insulation boards in the longitudinal direction is 50mm; the longitudinal length of the continuous ladder energy transfer concrete extension rib 9 The ribs are twice as long as the transverse ribs; the overhanging length of the overhanging insulation board 6 is 9 mm.
Embodiment 3
[0022] Embodiment 3: The difference between this example and Embodiment 1 is that the distance between the outer row of Z-shaped insulation boards 1 and the inner row of Z-type insulation boards 2 in this example is 25mm from the energy transfer cut-off step 7 of the horizontal gray joint; each row of Z-type insulation boards The distance between the type insulation boards is 40mm, the length of the outer layer longitudinal board and the inner layer longitudinal board is 2 / 3 of the block thickness, and the overlapping length of adjacent Z-type insulation boards in the longitudinal direction is 60mm; the longitudinal rib of the continuous ladder energy transfer concrete extension rib 9 is 4 times of the transverse rib; the overhang length of the overhanging insulation board 6 is 8mm.
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