A real-web photovoltaic support for a farm

By using a combination structure of prestressed high-strength concrete pipe piles and H-beams in the breeding farm, along with galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlins, the problem of long construction cycle for photovoltaic supports in breeding farms has been solved, enabling rapid installation and dismantling of photovoltaic panels, improving construction efficiency and avoiding corrosion.

CN224401434UActive Publication Date: 2026-06-23CANTONESE AGRICULTURE (QINGDAO) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CANTONESE AGRICULTURE (QINGDAO) CO LTD
Filing Date
2025-06-25
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The photovoltaic support system for the aquaculture farm uses a cast-in-place construction method that combines independent foundations with steel structures, resulting in a long construction period and complicated on-site construction.

Method used

A combined structure of prestressed high-strength concrete pipe piles, equal-section H-shaped steel columns, and variable-section H-shaped steel beams, combined with galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlins and connecting blocks, enables rapid installation and disassembly of photovoltaic panels.

Benefits of technology

It enables rapid installation and convenient disassembly of photovoltaic panels, reduces the construction cycle, avoids rainwater corrosion, and improves construction efficiency.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model belongs to photovoltaic support field, concretely is a kind of solid web photovoltaic support for farm, including prestressed high-strength concrete pipe pile, the top of prestressed high-strength concrete pipe pile is provided with equal cross section H section steel column, equal cross section H section steel column between being provided with variable cross section H section steel beam, the top of variable cross section H section steel beam is provided with connecting device, the top of connecting device is provided with photovoltaic board, the front side and rear side between variable cross section H section steel beam are all provided with galvanized round pipe tie rod;The utility model is installed to photovoltaic board by the setting of prestressed high-strength concrete pipe pile, equal cross section H section steel column and variable cross section H section steel beam, to further realize the power supply to farm, while avoiding the corrosion of rainwater to farm, by the cooperation between galvanized aluminium magnesium thin-walled cold-bending Z section steel purlin and connecting block for installing photovoltaic board to the top of variable cross section H section steel beam and then conveniently and quickly install.
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Description

Technical Field

[0001] This utility model relates to the field of photovoltaic brackets, specifically a solid-belly photovoltaic bracket for livestock farms. Background Technology

[0002] The development of photovoltaic (PV) brackets in livestock farms is mainly based on the rapid development of PV power generation technology and the urgent need for clean energy. With the increasing global emphasis on environmental protection and sustainable development, PV power generation, as a clean and renewable energy form, is gradually becoming an important alternative to traditional energy sources. As an important component of PV power generation systems, the technological development and application of PV brackets have also received widespread attention.

[0003] The photovoltaic support system for aquaculture farms mainly consists of a combination of independent foundations and steel structures. The independent foundations require cast-in-place construction, which has a long construction period and is quite complicated on-site. Therefore, those skilled in the art have provided a solid-core photovoltaic support system for aquaculture farms to solve the problems mentioned in the background art. Utility Model Content

[0004] To overcome the shortcomings of existing technologies, the photovoltaic support system for aquaculture farms mainly adopts a structural form that combines independent foundations with steel structures. However, the independent foundations require cast-in-place construction, which results in a long construction period and complicated on-site construction. Therefore, this utility model proposes a solid-belt photovoltaic support system for aquaculture farms.

[0005] The technical solution adopted by this utility model to solve its technical problem is: a solid-belly photovoltaic support for aquaculture farms, including prestressed high-strength concrete pipe piles, with equal-section H-shaped steel columns set on the top of the prestressed high-strength concrete pipe piles, variable-section H-shaped steel beams set between the equal-section H-shaped steel columns, a connecting device set on the top of the variable-section H-shaped steel beams, a photovoltaic panel set on the top of the connecting device, and galvanized round pipe tie rods set on the front and rear sides of the variable-section H-shaped steel beams;

[0006] The connecting device includes a galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin, which is located at the bottom of the photovoltaic panel. A connecting block is provided on one side of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin, which is located above the variable cross-section H-shaped steel beam.

[0007] Preferably, a first bolt is inserted inside both the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin and the connecting block, and a third bolt is inserted at the top of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin, with the top of the third bolt penetrating into the interior of the photovoltaic panel.

[0008] Preferably, a column base plate is fixedly installed at the bottom of the equal-section H-shaped steel column, and a first stiffening plate is fixedly installed on both the front and rear sides of the equal-section H-shaped steel column. The bottom of the column base plate is welded to the top of the prestressed high-strength concrete pipe pile.

[0009] Preferably, a second stiffening plate is fixedly installed on the top of the uniform cross-section H-shaped steel column, and a column top plate is fixedly installed on the top of the second stiffening plate. Both the column top plate and the bottom of the variable cross-section H-shaped steel beam are provided with through holes, and a second bolt is inserted into the inside of the through holes.

[0010] Preferably, a first connecting plate is fixedly installed on one side of the variable cross-section H-beam, a second connecting plate is provided on one side of the first connecting plate, a fourth bolt is interlaced inside the second connecting plate and the first connecting plate, and a galvanized round pipe tie rod is fixedly installed on one side of the second connecting plate.

[0011] The advantages of this utility model are:

[0012] This utility model utilizes prestressed high-strength concrete pipe piles, equal-section H-shaped steel columns, and variable-section H-shaped steel beams to install photovoltaic panels, thereby providing power to the farm and preventing rainwater corrosion. The photovoltaic panels are mounted on top of the variable-section H-shaped steel beams through the cooperation between galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlins and connecting blocks, facilitating quick and easy installation. Attached Figure Description

[0013] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a schematic diagram of the prestressed high-strength concrete pipe pile structure of this utility model;

[0016] Figure 3 This is a schematic diagram of the photovoltaic panel structure of this utility model;

[0017] Figure 4 This is a schematic diagram of the galvanized round tube tie rod structure of this utility model.

[0018] In the diagram: 1. Prestressed high-strength concrete pipe pile; 2. H-shaped steel column with uniform cross-section; 3. H-shaped steel beam with variable cross-section; 4. Photovoltaic panel; 5. Connecting device; 501. Galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin; 502. First bolt; 503. Connecting block; 504. Third bolt; 6. Second connecting plate; 7. Through hole; 8. Second bolt; 9. First stiffening plate; 10. Galvanized round pipe tie rod; 11. Fourth bolt; 12. First connecting plate; 13. Second stiffening plate; 14. Column top plate; 15. Column bottom plate. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0020] The following is in conjunction with the appendix Figure 1-4 This application will be described in further detail.

[0021] This application discloses a solid-core photovoltaic support for aquaculture farms. (Refer to...) Figures 1-4 A solid-core photovoltaic support for aquaculture farm includes a prestressed high-strength concrete pipe pile 1, a uniform cross-section H-shaped steel column 2 is provided on the top of the prestressed high-strength concrete pipe pile 1, a variable cross-section H-shaped steel beam 3 is provided between the uniform cross-section H-shaped steel columns 2, a connecting device 5 is provided on the top of the variable cross-section H-shaped steel beam 3, a photovoltaic panel 4 is provided on the top of the connecting device 5, and galvanized round pipe tie rods 10 are provided on the front and rear sides between the variable cross-section H-shaped steel beams 3.

[0022] The connecting device 5 includes a galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501, which is located at the bottom of the photovoltaic panel 4. A connecting block 503 is provided on one side of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501, which is located above the variable cross-section H-shaped steel beam 3.

[0023] Reference Figure 1 and Figure 3 The galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501 and the connecting block 503 are both internally equipped with first bolts 502, and the top of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501 is internally equipped with a third bolt 504. The top of the third bolt 504 penetrates into the interior of the photovoltaic panel 4. The installation of the first bolts 502 enables the photovoltaic panel 4 to be installed quickly and conveniently, and also facilitates subsequent disassembly, maintenance and replacement.

[0024] Reference Figure 2A column base plate 15 is fixedly installed at the bottom of the H-shaped steel column 2 with uniform cross-section. First stiffening plates 9 are fixedly installed on the front and rear sides of the H-shaped steel column 2 with uniform cross-section. The bottom of the column base plate 15 is welded to the top of the prestressed high-strength concrete pipe pile 1. The connection between the top of the prestressed high-strength concrete pipe pile 1 and the H-shaped steel column 2 with uniform cross-section is realized by setting the first stiffening plate 9.

[0025] Reference Figure 1 A second stiffening plate 13 is fixedly installed on the top of the H-shaped steel column 2 with uniform cross-section. A column top plate 14 is fixedly installed on the top of the second stiffening plate 13. Both the column top plate 14 and the bottom of the H-shaped steel beam 3 with variable cross-section are provided with through holes 7. A second bolt 8 is inserted into the through hole 7. The connection between the top of the H-shaped steel column 2 with uniform cross-section and the front side of the H-shaped steel beam 3 is achieved by the second bolt 8, so that the assembly can be quick and convenient.

[0026] Reference Figure 4 A first connecting plate 12 is fixedly installed on one side of the variable cross-section H-beam 3, and a second connecting plate 6 is provided on one side of the first connecting plate 12. A fourth bolt 11 is inserted between the second connecting plate 6 and the first connecting plate 12. A galvanized round pipe tie rod 10 is fixedly installed on one side of the second connecting plate 6. The connection between the variable cross-section H-beams 3 is stable and easy to install through the cooperation between the first through hole 6 and the fourth bolt 11.

[0027] Working principle: Prestressed high-strength concrete pipe piles 1 are pre-installed on the front and rear sides of the breeding farm. According to the installation angle, there is a certain height difference between the installation of the prestressed high-strength concrete pipe piles 1 on the front or rear side. After installation, the equal cross-section H-shaped steel column 2 is placed inside the first stiffening plate 9 at the top of the prestressed high-strength concrete pipe pile 1, so that the equal cross-section H-shaped steel column 2 is inserted into the inside of the first stiffening plate 9. The galvanized round pipe tie rod 10 is placed between the variable cross-section H-shaped steel beams 3 and the galvanized round pipe tie rod 10 is connected to the variable cross-section H-shaped steel beams 3 by the fourth bolt 11. After the connection is completed, the connecting block 503 and the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501 are evenly fixed on the top of the variable cross-section H-shaped steel beams 3. After the fixing is completed, the photovoltaic panel 4 is placed on the top of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501 and the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin 501 is fixed to the bottom of the photovoltaic panel 4 by the first bolt 502.

[0028] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A solid-core photovoltaic support for aquaculture farms, characterized in that: The system includes prestressed high-strength concrete pipe piles (1), with equal-section H-shaped steel columns (2) at the top of the prestressed high-strength concrete pipe piles (1), variable-section H-shaped steel beams (3) between the equal-section H-shaped steel columns (2), a connecting device (5) at the top of the variable-section H-shaped steel beams (3), a photovoltaic panel (4) at the top of the connecting device (5), and galvanized round pipe tie rods (10) on the front and rear sides between the variable-section H-shaped steel beams (3). The connecting device (5) includes a galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin (501), which is located at the bottom of the photovoltaic panel (4). A connecting block (503) is provided on one side of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin (501), which is located above the variable cross-section H-shaped steel beam (3).

2. The solid-core photovoltaic support for aquaculture farms according to claim 1, characterized in that: The galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin (501) and the connecting block (503) are both internally equipped with first bolts (502), and the top of the galvanized aluminum-magnesium thin-walled cold-formed Z-shaped steel purlin (501) is internally equipped with a third bolt (504), the top of the third bolt (504) penetrating into the interior of the photovoltaic panel (4).

3. The solid-core photovoltaic support for aquaculture farms according to claim 1, characterized in that: The bottom of the equal-section H-shaped steel column (2) is fixedly installed with a column base plate (15). The front and rear sides of the equal-section H-shaped steel column (2) are both fixedly installed with first stiffening plates (9). The bottom of the column base plate (15) is welded to the top of the prestressed high-strength concrete pipe pile (1).

4. A solid-core photovoltaic support for aquaculture farms according to claim 1, characterized in that: The top of the equal cross-section H-shaped steel column (2) is fixedly installed with a second stiffening plate (13), and the top of the second stiffening plate (13) is fixedly installed with a column top plate (14). The bottom of the column top plate (14) and the variable cross-section H-shaped steel beam (3) are both provided with through holes (7), and a second bolt (8) is inserted inside the through hole (7).

5. A solid-core photovoltaic support for aquaculture farms according to claim 1, characterized in that: A first connecting plate (12) is fixedly installed on one side of the variable cross-section H-beam (3), and a second connecting plate (6) is provided on one side of the first connecting plate (12). A fourth bolt (11) is interspersed inside the second connecting plate (6) and the first connecting plate (12). A galvanized round pipe tie rod (10) is fixedly installed on one side of the second connecting plate (6).