Taida ultra-thin plate truss is an innovative structural patent. Through the effective use of steel, combined with refined automatic manufacturing, it forms a factory-produced ultra-thin truss with super in-plane and out-of-plane stiffness. Plate structural unit. This is a technical solution for thin roofs based on product thinking and created through extreme design and standardization.
Schematic diagram of cross-sectional force transmission of plate trusses
The main feature of plate trusses is ultra-thinness. The reason why it is ultra-thin is that the following innovative technologies are used:
1) The structure is the building. Through various technologies such as machining, the surface layer is ensured to be smooth and beautiful, without the need for additional aluminum plate decoration, thus saving money. The decorative layer thickness is about 200mm on both sides.
2) The surface layer is the structure. Compared with the dispersed beam structure, the surface steel plate of the plate structure has strong stiffness.
3) The clever W-shaped web makes the two-way force transmission effect of the plate truss obvious, greatly improving the overall effect of the structure.
Therefore, the finished building thickness of plate trusses can be 50mm~100mm, and the edge thickness can even be 5mm, which is much lighter than the finished building thickness of conventional structures, which is often more than 300mm. The 100mm floor trusses have a cantilever capacity of 8m.
The second distinctive feature of the plate truss is the continuous seamless appearance. Its seamless appearance is even better than the traditional aluminum plate decoration scheme. The silicone at the seams of the aluminum plates is prone to deformation and discoloration due to aging. The plate truss structure does not have such concerns about affecting the appearance. The finished surface of the structure can be used directly in place of the building surface layer, and can be widely used in roofs, awnings, covered bridges and other structural types.
The third advantage of plate trusses is the flexible arrangement of fulcrums. Since plate trusses have good two-way force transmission performance, architects can flexibly arrange columns according to space requirements, without having to do so like conventional beam structures. Consider the relationship to the superstructure.
In terms of cost and construction period, compared with the traditional structural system, although the expenditure on the structure of the plate truss has increased, the overall cost will basically not increase due to the savings in the cost of decorative aluminum plates. Moreover, simple on-site procedures can greatly reduce the complexity of Party A’s project management and reduce management costs. The plate trusses adopt standardized pre-production. The construction is completed when the on-site construction structure is completed. The aluminum plate decoration process is omitted, and the on-site construction period can be shortened by 50%. Schematic cross-sections of the two structures