Search

CN-116607681-B - Water splicing method for flexible curtain wall

CN116607681BCN 116607681 BCN116607681 BCN 116607681BCN-116607681-B

Abstract

The invention discloses a water splicing method of a flexible curtain wall, which comprises the following steps of S1, numbering the flexible curtain wall single plates according to the positions of the flexible curtain wall single plates in a whole flexible curtain wall, S2, sequentially tiling the flexible curtain wall single plates with the number on an inflatable air cushion, using the inflatable air cushion to sequentially transport the flexible curtain wall single plates to a preset position on water, S3, connecting the adjacent flexible curtain wall single plates by adopting a buckle assembly, installing a longitudinal framework, arranging an inflatable pontoon on the buckle assembly in the length direction of the flexible curtain wall single plates, S4, extracting the inflatable air cushion below the flexible curtain wall single plates which are completed in the step S3, floating the flexible curtain wall single plates on the water surface by the inflatable pontoon, S5, transporting the extracted inflatable air cushion back, and circulating the steps S2-S4 until the whole flexible curtain wall is spliced on the water surface. The flexible curtain wall water splicing method can safely, efficiently and energy-effectively perform large-area curtain wall splicing operation on the water surface.

Inventors

  • PAN JIANGYANG
  • YIN FU
  • YANG CHAO
  • WANG HONGBIN
  • ZHANG HAO
  • LIU LIANGPING
  • HUANG FEIFENG
  • HE LEIHUI

Assignees

  • 中国电建集团中南勘测设计研究院有限公司

Dates

Publication Date
20260512
Application Date
20230625

Claims (10)

  1. 1. The water splicing method of the flexible curtain wall is characterized by comprising the following steps of: S1, numbering the flexible curtain wall single plates (1) according to the positions of the flexible curtain wall single plates (1) in the whole flexible curtain wall; S2, sequentially spreading the flexible curtain wall single plates (1) with the coded numbers on an inflatable air cushion (2), floating the inflatable air cushion (2) on the water surface, and transferring the flexible curtain wall single plates (1) to a preset position on the water according to the serial numbers by using the inflatable air cushion (2); S3, connecting adjacent flexible curtain wall single plates (1) on the inflatable cushion (2) by adopting a buckle assembly (5), wherein a longitudinal framework (6) is arranged on the flexible curtain wall along the width direction of the flexible curtain wall, the longitudinal framework (6) is connected with the edges of each adjacent flexible curtain wall single plate (1), and an inflatable pontoon (8) is arranged on the buckle assembly (5) of the flexible curtain wall single plate (1) along the length direction; s4, extracting the inflatable air cushion (2) below the part of the flexible curtain wall single board (1) which is subjected to the step S3, wherein the flexible curtain wall single board (1) floats on the water surface through an inflatable pontoon (8); And S5, conveying the extracted inflatable cushion (2) back, and circulating the steps S2-S4 until the splicing of the whole flexible curtain wall on the water surface is completed.
  2. 2. The flexible curtain wall water splicing method according to claim 1 is characterized in that the flexible curtain wall single plate (1) comprises a flexible curtain wall panel (11) and a flexible curtain wall framework (12), the flexible curtain wall framework (12) is arranged at the peripheral edge of the flexible curtain wall panel (11), and inserting eye rings (13) are arranged at two ends of the flexible curtain wall framework (12) and between the two ends along the length direction of the flexible curtain wall panel (11).
  3. 3. The water splicing method of the flexible curtain wall is characterized in that the inflatable air cushion (2) is a wire drawing air cushion, a plurality of lock catches (22) are arranged at two end parts of the inflatable air cushion (2) along the length direction, the lock catches (22) are connected with the inflatable air cushion (2) through reinforcing sheets (21), adjacent inflatable air cushions (2) are connected through the lock catches (22), an air cushion air valve (24) and an air pipe sleeve (25) are arranged on one side surface of the inflatable air cushion (2) along the length direction, a plurality of limiting rings (23) are arranged on two side surfaces of the inflatable air cushion (2) along the length direction, a plurality of counterweight bags (26) are further arranged at the bottom of the inflatable air cushion (2) at intervals, and the width of the inflatable air cushion (2) is smaller than that of the flexible curtain wall single plate (1).
  4. 4. The water splicing method of the flexible curtain wall according to claim 2, wherein the buckle assembly (5) comprises an A piece buckle (51) and a B piece buckle (52), one or more cavities (53) are formed in opposite sides of the A piece buckle (51) and the B piece buckle (52), clamping teeth (54) are formed in the cavities (53), the A piece buckle (51) and the B piece buckle (52) are connected through a bolt (56), and the free end of the bolt (56) is located above the B piece buckle (52).
  5. 5. The water splicing method of the flexible curtain wall, according to claim 2, is characterized in that the longitudinal skeleton (6) comprises longitudinal guy wires (61), chicken heart rings (63) are arranged at two end parts of the longitudinal guy wires (61), a plurality of longitudinal guy wire inserting eye rings (62) are arranged on the longitudinal guy wires (61) at intervals, and the distance between every two adjacent longitudinal guy wire inserting eye rings (62) is the width of the flexible curtain wall panel (11).
  6. 6. A flexible curtain wall water splicing method according to claim 3 is characterized in that in the step S2, after being folded, a flexible curtain wall single plate (1) is lifted to a preset position on a display platform (3), the air cushion (2) is arranged on the water surface below the display platform (3), the upper end portions of the folded flexible curtain wall single plates (1) are stretched outwards and tiled on the air cushion (2), two sides of the flexible curtain wall single plates (1) are connected with limiting rings (23), the air cushion (2) is dragged forwards, meanwhile, the flexible curtain wall single plates (1) are tiled, after one air cushion (2) is fully paved, the next air cushion (2) is connected through a lock catch (22), the air cushion (2) is dragged forwards until the flexible curtain wall single plates (1) are completely tiled on the air cushion (2), and after the air cushion (2) and the flexible curtain wall single plates (1) are moved to the preset position on the water through a shipper ship (4), the two sides of the flexible curtain wall single plates (1) are unfolded and connected with the limiting rings (23).
  7. 7. The flexible curtain wall water splicing method according to claim 4, wherein the inflatable pontoon (8) comprises a cylindrical air cylinder (81), an air valve (83) is arranged on the cylindrical air cylinder (81), a plurality of reinforcing belts (82) are arranged on the cylindrical air cylinder (81) along the length direction, the reinforcing belts (82) are circumferentially arranged along the cylindrical air cylinder (81), A connecting rings (84) are arranged on the reinforcing belts (82), and the A connecting rings (84) are positioned on the same straight line.
  8. 8. The method for splicing the flexible curtain wall on water according to claim 7, wherein in the step S3, when the adjacent flexible curtain wall single plates (1) are connected, the A-piece buckle (51) is arranged below the B-piece buckle (52), the flexible curtain wall frameworks (12) of the adjacent flexible curtain wall single plates (1) are all placed into the cavity (53), and then the A-piece buckle (51) and the B-piece buckle (52) are fastened and locked through the bolts (56).
  9. 9. The method for splicing the flexible curtain wall on water according to claim 5, wherein in the step S3, when the longitudinal skeleton (6) is installed, the longitudinal guy wires (61) are unfolded, the longitudinal guy wire eye (62) corresponds to the eye (13), and the longitudinal guy wire eye (62) is connected with the eye (13) in series by adopting the flexible shackle (7).
  10. 10. The water splicing method of the flexible curtain wall according to claim 8, wherein in the step S3, a B connecting ring (85) is installed on the buckle assembly (5), the lower part of the B connecting ring (85) is connected with a bolt (56) through threads, an A connecting ring (84) is connected with the B connecting ring (85) through a connecting rope (86), the length of the connecting rope (86) is longer than that of the inflatable pontoon (8), and two ends of the connecting rope (86) are tied to the buckle assembly (5) so as to connect the inflatable pontoon (8) to the buckle assembly (5).

Description

Water splicing method for flexible curtain wall Technical Field The invention belongs to the technical field of curtain walls, and particularly relates to a water splicing method of a flexible curtain wall. Background At present, curtain walls are mostly used for land engineering. Curtain walls are various, and glass curtain walls, metal plate curtain walls, composite plate curtain walls, stone curtain walls, artificial plate curtain walls and the like are common according to different curtain wall panel materials. In these curtain walls, the size of the single plate is limited, for example, the size of the single stone plate in the stone curtain wall is not more than 1.5m×2m, when the curtain wall area is large, the single stone plate is often formed by splicing a plurality of plates, and the splicing operation is carried out on land. When the curtain wall is needed in the water engineering, if the curtain wall is spliced on land and then transported to the water, the transportation of the large-area curtain wall is difficult to realize, and if the curtain wall is spliced on the water, an operation platform is needed to be built on the water surface, and then the curtain wall is spliced on the operation platform. However, when the curtain wall area is as high as tens of thousands of square meters, the required operation platform is too large and is limited by the field, so that the curtain wall is difficult to build. In the conventional curtain wall, the area of a single plate is too small and is not more than 10m & lt 2 & gt, if the ultra-large curtain wall with the area of tens of thousands of square meters is spliced, the process is complicated, and if the area of the single plate is required to be increased, the manufacturing process and the transportation condition are limited. In summary, it is difficult to form an ultra-large area curtain wall of tens of thousands of square on water under the current state of the art. Disclosure of Invention In order to overcome the defects of the prior art, the invention provides a water splicing method of a flexible curtain wall, which solves the technical problems that when a large-area curtain wall is used for water engineering, if the whole curtain wall is spliced on land, the whole curtain wall is difficult to transport, and the water splicing and the construction of a large-scale operation platform are difficult. In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: The water splicing method of the flexible curtain wall is characterized by comprising the following steps of: s1, numbering the single plates of the flexible curtain wall according to the positions of the single plates of the flexible curtain wall in the whole flexible curtain wall; s2, sequentially spreading the numbered flexible curtain wall single plates on an inflatable air cushion, floating the inflatable air cushion on the water surface, and transferring the flexible curtain wall single plates to a preset position on the water according to the serial number sequence by using the inflatable air cushion; S3, connecting adjacent flexible curtain wall single plates on the inflatable cushion by adopting a buckle assembly, wherein the flexible curtain wall single plates are provided with longitudinal frameworks along the width direction of the flexible curtain wall single plates, the longitudinal frameworks are connected with the edges of each adjacent flexible curtain wall single plate, and the buckle assembly in the length direction of the flexible curtain wall single plates is provided with an inflatable pontoon; S4, pumping out the inflatable cushion below the part of the flexible curtain wall single plates after the step S3 is completed, wherein the flexible curtain wall single plates float on the water surface through the inflatable pontoons; and S5, conveying the extracted inflatable cushion back, and circulating the steps S2-S4 until the splicing of the whole flexible curtain wall on the water surface is completed. After the flexible curtain wall single plates are transported to the preset position on water through the inflatable air cushion, the adjacent flexible curtain wall single plates are connected, and the longitudinal framework is installed to longitudinally support the flexible curtain wall, so that the flexible curtain wall floats on the water surface through the inflatable pontoon. The flexible curtain wall water splicing method can safely, efficiently and energy-effectively carry out large-area curtain wall splicing operation on the water surface, and solves the technical problems of water transportation of large curtain walls and construction of large water platforms. The flexible curtain wall water splicing method is safe in operation, the flexible curtain wall single plates are unfolded and spliced to form a plurality of working surfaces for circulation flow operation, operation is efficient, only a local small-sized air cushion