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CN-224233586-U - Truss type boundary beam structure of photovoltaic flexible support

CN224233586UCN 224233586 UCN224233586 UCN 224233586UCN-224233586-U

Abstract

The utility model belongs to the technical field of photovoltaic supports, and particularly relates to a truss type side beam structure of a photovoltaic flexible support, which comprises two side pile assemblies, wherein the two side pile assemblies are respectively arranged at two ends of the photovoltaic flexible support, the top ends of the side pile assemblies are fixedly connected with a connecting beam assembly, the top ends of the connecting beam assembly are fixedly connected with a plurality of side support assemblies, the side support assemblies are uniformly spaced along the length direction of the connecting beam assembly, the top ends of the side support assemblies are fixedly connected with side beams, the side beams are arranged along the length direction of the connecting beam assembly, the two ends of the side beams are respectively fixedly connected with diagonal support assemblies, the diagonal support assemblies are fixedly connected with the side support assemblies positioned at the outermost side, and a reinforcing assembly is arranged between any two adjacent side support assemblies. The utility model can solve the problem of occupying the land of the side beam stay cable, thereby improving the land utilization rate of the photovoltaic flexible bracket.

Inventors

  • GONG TIEYU
  • CHEN TIEJUN
  • LI BOHUA
  • ZANG JUNLIN
  • WEI XING
  • JIANG LIAN

Assignees

  • 上海尤汶新能源有限公司

Dates

Publication Date
20260512
Application Date
20250528

Claims (8)

  1. 1. The utility model provides a photovoltaic flexible support truss-like boundary beam structure, its characterized in that, includes two boundary pile subassemblies, two boundary pile subassemblies set up respectively at photovoltaic flexible support's both ends, boundary pile subassembly top fixedly connected with even roof beam subassembly, even roof beam subassembly top fixedly connected with a plurality of side stay subassemblies, a plurality of side stay subassemblies follow even the equidistant setting of length direction of roof beam subassembly, a plurality of side stay subassembly top is fixedly connected with boundary beam (1) jointly, boundary beam (1) are followed even the length direction of roof beam subassembly sets up, the both ends of boundary beam (1) are fixedly connected with bracing subassembly respectively, bracing subassembly with be located in the outside side stay subassembly fixed connection, boundary beam (1) and photovoltaic flexible support's tip fixed connection, arbitrary adjacent two be provided with between the side stay subassembly and consolidate the subassembly.
  2. 2. The truss-like boundary beam structure of claim 1, wherein the boundary beam assembly comprises two first boundary piles (9) and two second boundary piles (10), the two first boundary piles (9) are located at one side close to the photovoltaic flexible support, the two second boundary piles (10) are located at one side far away from the photovoltaic flexible support, the vertical surfaces of the two first boundary piles (9) and the vertical surfaces of the two second boundary piles (10) are parallel to each other, and the connecting beam assembly is fixed at the top ends of the two first boundary piles (9) and the two second boundary piles (10).
  3. 3. The photovoltaic flexible support truss type boundary beam structure according to claim 2, wherein the connecting beam assembly comprises a first connecting beam (5) and a second connecting beam (6), the first connecting beam (5) is fixedly connected to the top ends of the two first boundary piles (9), the second connecting beam (6) is fixedly connected to the top ends of the two second boundary piles (10), the first connecting beam (5) and the second connecting beam (6) are parallel and located on the same horizontal plane, and the side support assembly is fixedly connected to the top ends of the first connecting beam (5) and the second connecting beam (6).
  4. 4. A photovoltaic flexible support truss type boundary beam structure according to claim 3, characterized in that the side support assembly comprises a boundary beam transverse support (3) and two boundary beam side supports (4), two ends of the boundary beam transverse support (3) are respectively fixedly connected with the first connecting beam (5) and the second connecting beam (6), one end of one boundary beam side support (4) is fixedly connected with the first connecting beam (5), one end of the other boundary beam side support (4) is fixedly connected with the second connecting beam (6), the other ends of the two boundary beam side supports (4) are jointly fixedly connected with the boundary beam (1), and the boundary beam transverse support (3) and the boundary beam side support (4) form a triangle.
  5. 5. The photovoltaic flexible support truss type boundary beam structure according to claim 4, wherein the diagonal bracing assembly comprises two boundary beam diagonal bracing assemblies (2), one ends, close to the two boundary beam diagonal bracing assemblies (2), are fixedly connected with the boundary beam (1) together, and the other ends of the two boundary beam diagonal bracing assemblies (2) are fixedly connected with the middle parts of the two boundary beam side bracing assemblies (4) in the same side bracing assembly respectively.
  6. 6. The photovoltaic flexible support truss type boundary beam structure according to claim 4, wherein the reinforcement assembly comprises four side supports (12), two side supports (12) are arranged in a group in a crossing manner, and two side supports (12) in the same group are located between two adjacent side supports (4) fixedly connected with the first connecting beam (5) and/or the second connecting beam (6).
  7. 7. The photovoltaic flexible support truss type boundary beam structure according to claim 4, wherein a plurality of connecting beam diagonal braces (11) are arranged between the first connecting beam (5) and the second connecting beam (6), a plurality of connecting beam diagonal braces (11) are obliquely arranged, the inclination directions of two adjacent connecting beam diagonal braces (11) are opposite, and a plurality of connecting beam diagonal braces (11) are connected end to end in sequence.
  8. 8. A photovoltaic flexible support truss type boundary beam structure according to claim 3, characterized in that a plurality of assembly cable connecting pieces (7) are fixedly connected to the boundary beam (1), the boundary beam (1) is fixedly connected with an assembly cable in a photovoltaic flexible support through the assembly cable connecting pieces (7), a plurality of bearing cable connecting pieces (8) are fixedly connected to the first connecting beam (5), and the first connecting beam (5) is fixedly connected with a bearing cable in the photovoltaic flexible support through the bearing cable connecting pieces (8).

Description

Truss type boundary beam structure of photovoltaic flexible support Technical Field The utility model belongs to the technical field of photovoltaic supports, and particularly relates to a truss type boundary beam structure of a photovoltaic flexible support. Background Along with the development of photovoltaic construction, the application of the photovoltaic flexible support is gradually increased, the application scene is also various, meanwhile, due to the lack of land resources, the photovoltaic flexible support can be used as a photovoltaic construction land, and the problem of the utilization efficiency of the land in the photovoltaic construction becomes a concern of a photovoltaic constructor. Because of the unique structural advantages, the flexible support in the prior art can span special terrains such as ravines, valleys and the like, and the land utilization rate is greatly improved compared with that of the traditional fixed support, but the space for improving the land utilization rate is still reserved individually. The flexible support boundary beam needs to be provided with a stay cable, the stay cable is inclined at an angle of 45 degrees for best stress, the boundary beam of the flexible support is inclined at an angle of 45 degrees from the ground, the distance between an anchor pile and a boundary pile is required to be 4.5 meters, the distance is required to be within a ground red line, and a photovoltaic module cannot be installed at the position at present. Because both end edge beams of the flexible support are provided with stay ropes and anchor piles, the photovoltaic modules cannot be arranged on the ground with the distance of about 45 meters at both ends of each row of flexible modules. Therefore, there is a need to design a photovoltaic flexible support truss type boundary beam structure to solve the above-mentioned problems. Disclosure of utility model The utility model aims to provide a truss type side beam structure of a photovoltaic flexible support, so as to solve the problems, and achieve the purpose of solving the problem of occupation of a side beam stay cable and improving the land utilization rate of the photovoltaic flexible support. In order to achieve the purpose, the truss type side beam structure of the photovoltaic flexible support comprises two side pile assemblies, wherein the two side pile assemblies are respectively arranged at two ends of the photovoltaic flexible support, the top end of each side pile assembly is fixedly connected with a connecting beam assembly, the top end of each connecting beam assembly is fixedly connected with a plurality of side support assemblies, the side support assemblies are arranged at equal intervals along the length direction of the connecting beam assembly, the top ends of the side support assemblies are fixedly connected with side beams, the side beams are arranged along the length direction of the connecting beam assembly, two ends of each side beam are respectively fixedly connected with a diagonal support assembly, each diagonal support assembly is fixedly connected with the side support assembly located at the outermost side, the side beams are fixedly connected with the end parts of the photovoltaic flexible support, and a reinforcing assembly is arranged between any two adjacent side support assemblies. According to the truss type side beam structure of the photovoltaic flexible support, the side pile assembly comprises two first side piles and two second side piles, the two first side piles are located on one side close to the photovoltaic flexible support, the two second side piles are located on one side far away from the photovoltaic flexible support, the vertical surfaces of the two first side piles and the vertical surfaces of the two second side piles are parallel, and the connecting beam assembly is fixed at the top ends of the two first side piles and the two second side piles. According to the photovoltaic flexible support truss type boundary beam structure, the boundary beam assembly comprises the first boundary beam and the second boundary beam, the first boundary beam is fixedly connected to the top ends of the two first boundary piles, the second boundary beam is fixedly connected to the top ends of the two second boundary piles, the first boundary beam and the second boundary beam are parallel and are located on the same horizontal plane, and the side support assembly is fixedly connected to the top ends of the first boundary beam and the second boundary beam. According to the truss type boundary beam structure of the photovoltaic flexible support, the side support assembly comprises the boundary beam transverse support and two boundary beam side supports, two ends of the boundary beam transverse support are respectively and fixedly connected with the first connecting beam and the second connecting beam, one end of the boundary beam side support is fixedly connected with the first connecting beam,