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CN-121012420-B - Shock-resistant offshore photovoltaic platform connection structure integrated with foamed aluminum buffer layer

CN121012420BCN 121012420 BCN121012420 BCN 121012420BCN-121012420-B

Abstract

The invention provides an impact-resistant offshore photovoltaic platform connection structure integrated with an aluminum foam buffer layer, which comprises a photovoltaic plate mechanism, wherein the photovoltaic plate mechanism comprises a plate main body, side grooves are formed in the front side and the rear side of two ends of the plate main body, limiting blocks are arranged on the inner walls of the side grooves, and a clamping mechanism comprises a clamping frame, an upper clamping plate is arranged at the upper end of the clamping frame, and a lower clamping plate is arranged at the lower end of the upper clamping plate. Let down the grip block rise and get into inside the side tank, the restriction groove on the grip block detains the restriction piece of side tank inside, avoid the grip block not hard up effectively, this structure lets photovoltaic trigger mechanism fix more stable, the movable plate forms the centre gripping to the longeron to it is fixed to form fixture, conveniently adjust fixture's position, drive the side threaded rod through the hexagonal piece and rotate, conveniently adjust supporting mechanism's position, take out spanner hexagonal shell and reset and detain again in the hexagonal piece outer end, avoid side threaded rod to rotate by oneself effectively.

Inventors

  • MA TIANWEI
  • NIE GANG
  • ZHANG JIN
  • LI DAWEN

Assignees

  • 安徽省新方尊自动化科技有限公司

Dates

Publication Date
20260505
Application Date
20250815

Claims (4)

  1. 1. An impact-resistant offshore photovoltaic platform connection structure integrated with an aluminum foam buffer layer, comprising: The photovoltaic panel mechanism (1) comprises a panel main body (101), wherein side grooves (102) are formed in the front side and the rear side of two ends of the panel main body (101), limiting blocks (103) are arranged on the inner walls of the side grooves (102), and the photovoltaic panel mechanism is characterized in that the photovoltaic panel mechanism comprises a photovoltaic panel mechanism body and a photovoltaic panel mechanism body; The clamping mechanism (2) comprises a clamping frame (201), an upper clamping plate (202) is arranged at the upper end of the clamping frame (201), a lower clamping plate (203) is arranged at the lower end of the upper clamping plate (202), a buckling shell (209) is slidably arranged on the inner wall of one side of the clamping frame (201), two moving plates (211) are slidably arranged on the inner bottom surface of the clamping frame (201), and the clamping mechanism comprises a clamping frame body and a clamping frame body; The connecting plate mechanism (3) comprises a long plate (301) and a hexagonal shell (308), wherein an upper groove (302) is formed in the end face of the long plate (301), a plurality of ladder blocks (303) are arranged in the upper groove (302), two lower grooves (305) are formed in the end face of the long plate (301), side threaded rods (306) are arranged in the two lower grooves (305), a middle groove (304) is formed in the end face of the long plate (301), and hexagonal blocks (307) are arranged in the middle groove (304); the supporting mechanism (4) comprises a connecting piece (401), wherein the connecting piece (401) is connected with an upper supporting rod (402), and the end surface of the upper supporting rod (402) is connected with a buffer layer main body (403); The device comprises a floating plate (5), wherein the number of the supporting mechanisms (4) is four, the supporting mechanisms are fixedly arranged on the end face of the floating plate (5), the number of the connecting plate mechanisms (3) is two, the two connecting plate mechanisms are respectively connected with the four supporting mechanisms (4), the number of the clamping mechanisms (2) is four, the two clamping mechanisms are respectively connected with the two connecting plate mechanisms (3), and the number of the light Fu Banji mechanisms (1) is two, and the two clamping mechanisms are respectively connected with the four clamping mechanisms (2); Limiting grooves (204) are formed in the end faces of the upper clamping plate (202) and the lower clamping plate (203), a clamping threaded rod (205) is connected to the end face of the lower clamping plate (203), a nut (216) is sleeved on the outer end of the clamping threaded rod (205) in a threaded manner, and a penetrating groove (206) is formed in the lower end of the clamping frame (201); A pressing device (207) is connected between the clamping frame (201) and the buckle shell (209), a moving groove (208) is formed in the end face of the clamping frame (201), a moving block (215) is arranged in the moving groove (208), a supporting block (217) is arranged on the inner wall of the clamping frame (201), a bidirectional threaded rod (210) is rotatably arranged in the supporting block (217), and two bottom grooves (214) are formed in the bottom of the clamping frame (201); Shell grooves (309) are formed in the inner walls of the two sides of the middle groove (304), reset grooves (310) are formed in the two shell grooves (309), and pushing springs (311) are connected between the two reset grooves (310) and the two hexagonal shells (308); A thread block (405) is arranged in the connecting piece (401), and the thread block (405) is sleeved at the outer end of the side threaded rod (306); The lower end of the buffer layer main body (403) is connected with a lower supporting rod (404), and a bolt is connected between the upper supporting rod (402) and the lower supporting rod (404).
  2. 2. The shock-resistant offshore photovoltaic platform connection structure integrated with the foamed aluminum buffer layer according to claim 1, wherein a plurality of solar panels (104) are arranged on the end face of the panel main body (101), and the limiting blocks (103) are arranged in the middle of the inner wall of the side groove (102).
  3. 3. The shock-resistant offshore photovoltaic platform connection structure integrated with the foamed aluminum buffer layer according to claim 1, wherein a dovetail groove (213) is formed in the end face of the clamping frame (201), a dovetail block (218) is arranged in the dovetail groove (213), and concave plates (212) are arranged on the end faces of two opposite sides of the moving plate (211).
  4. 4. The impact-resistant offshore photovoltaic platform connection structure integrated with the foamed aluminum buffer layer according to claim 1, wherein two side threaded rods (306) are respectively connected with connecting rods (312), and the two connecting rods (312) are respectively connected to two ends of a hexagonal block (307).

Description

Shock-resistant offshore photovoltaic platform connection structure integrated with foamed aluminum buffer layer Technical Field The invention relates to the technical field of photovoltaic platform connection structures, in particular to an impact-resistant offshore photovoltaic platform connection structure integrated with a foam aluminum buffer layer. Background With the rapid increase of renewable energy demand in the world, photovoltaic power generation technology continues to develop at a high speed, but land photovoltaic power stations face challenges of land resource shortage and land use cost rise, technicians aim at the ocean at this time, a wide ocean space has great potential, and offshore photovoltaic has the advantages of land resource saving, land solicitation cost reduction and dust pollution reduction. Most of the existing photovoltaic panels are fixed on the floating plate through connecting pieces, wherein the shapes of the connecting pieces are fixed, the connecting pieces can only be adapted to the construction of the photovoltaic panels with very individual types, and the connecting pieces cannot be used on more photovoltaic platforms, so that the connecting pieces have larger limitation. Disclosure of Invention The invention aims to provide an impact-resistant offshore photovoltaic platform connecting structure integrated with an aluminum foam buffer layer, which solves the problem in the prior art that the impact-resistant offshore photovoltaic platform connecting structure cannot be used on more photovoltaic platforms and has larger limitation. In order to achieve the above purpose, the invention provides a shock-resistant offshore photovoltaic platform connection structure integrating a foam aluminum buffer layer, which comprises the following technical scheme: The photovoltaic panel mechanism comprises a panel main body, wherein side grooves are formed in the front side and the rear side of two ends of the panel main body, and limiting blocks are arranged on the inner walls of the side grooves; The clamping mechanism comprises a clamping frame, an upper clamping plate is arranged at the upper end of the clamping frame, a lower clamping plate is arranged at the lower end of the upper clamping plate, a buckle shell is arranged on the inner wall of one side of the clamping frame in a sliding manner, two moving plates are arranged on the inner bottom surface of the clamping frame in a sliding manner, and a clamping mechanism body is arranged on the inner wall of the clamping frame; The connecting plate mechanism comprises a long plate and a hexagonal shell, wherein an upper groove is formed in the end face of the long plate, a plurality of ladder blocks are arranged in the upper groove, two lower grooves are formed in the end face of the long plate, side threaded rods are arranged in the two lower grooves, a middle groove is formed in the end face of the long plate, and hexagonal blocks are arranged in the middle groove; The supporting mechanism comprises a connecting piece, wherein the connecting piece is connected with an upper supporting rod, and the end face of the upper supporting rod is connected with a buffer layer main body. By adopting the technical scheme, the plate main body is placed on the inner wall of the clamping mechanism, the Ji Gachi plates are placed on the inner wall of the lower clamping plate by the side groove pairs, the limiting blocks enter the limiting grooves, the lower clamping plate is pushed by the rotating threaded rods, the lower clamping plate drives the plate main body to ascend and the upper clamping plate clamps and fixes the plate main body, so that the plate main body is fixed more stably; the long plate can be fixed through the moving plate, so that the position of the clamping frame on the long plate can be adjusted, and the fixed position of the photovoltaic plate mechanism can be adjusted conveniently; The side threaded rod can be driven to rotate through rotating the hexagonal block, and the position of the supporting mechanism can be adjusted through the rotating side threaded rod, so that the supporting position of the supporting mechanism can be adjusted conveniently. Preferably, the photovoltaic panel comprises a floating plate, wherein the supporting mechanisms are four, are fixedly arranged on the end face of the floating plate, the connecting plate mechanisms are two and are respectively connected with the four supporting mechanisms, the clamping mechanisms are four and are respectively connected with the two connecting plate mechanisms, and the photovoltaic panel is two and is respectively connected with the four clamping mechanisms. Through adopting above-mentioned technical scheme, this photovoltaic board mechanism is fixed through fixture, and fixture is fixed on connecting plate mechanism, and connecting plate mechanism fixes on supporting mechanism, and supporting mechanism erects on the kickboard, makes things convenient for ph