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CN-122026786-A - Photovoltaic panel integrated mounting structure and mounting method thereof

CN122026786ACN 122026786 ACN122026786 ACN 122026786ACN-122026786-A

Abstract

The invention relates to the technical field of photovoltaic panels, and particularly discloses an integrated installation structure of a photovoltaic panel and an installation method thereof, wherein the integrated installation structure comprises a first upright post, and a frame which is horizontally arranged and can rotate around the top end of the first upright post; the photovoltaic panel comprises a frame, a photovoltaic panel, a reflecting component and a photovoltaic panel, wherein the photovoltaic panel is arranged in the frame and is rotationally connected with the frame, the reflecting component is slidably arranged on an arc-shaped sliding rail, the reflecting component is arranged at the end part of the frame, the arc-shaped sliding rail is fixed on a second upright post, and the second upright post and the first upright post are arranged at intervals.

Inventors

  • HAN WEIFENG
  • LIU JIE
  • YIN XIANGUI
  • Ye Yushuang
  • GAO YALONG
  • ZHANG JIANPING
  • HE XINLAI
  • LIANG JUNWEI
  • ZHANG WENLONG
  • WU XUSHENG
  • YANG YONGBIN
  • WEI HONGQIANG
  • ZHU XUEMIN

Assignees

  • 阳城国际发电有限责任公司

Dates

Publication Date
20260512
Application Date
20251229

Claims (10)

  1. 1. The integrated installation structure of the photovoltaic panel is characterized by comprising, The first upright post (100) is fixed on the ground, and a frame (101) which is horizontally arranged and can rotate around the top end of the first upright post (100) is arranged; The photovoltaic panel (200) is arranged in the frame (101) and is rotationally connected with the frame (101), and a first power unit (201) for controlling the rotation of the photovoltaic panel (200) is arranged on the frame (101); the light reflecting component (300) is arranged on the arc-shaped sliding rail (3011) in a sliding manner, the light reflecting component (300) is arranged at the end part of the frame (101), the arc-shaped sliding rail (3011) is fixed on the second upright post (301), the second upright post (301) is arranged at intervals with the first upright post (100), and a second power unit (302) for controlling the rotation of the light reflecting component (300) is arranged on the second upright post (301); When the photovoltaic panel (200) rotates to a horizontal state, the light reflecting component (300) vertically reflects the light source to the photovoltaic panel (200).
  2. 2. The integrated photovoltaic panel mounting structure according to claim 1, wherein the light reflecting component (300) comprises a plurality of groups of light reflecting plates (303), two ends of the light reflecting plates (303) are slidably mounted in a rectangular frame (304), and adjacent light reflecting plates (303) can be close to or far from each other.
  3. 3. The integrated photovoltaic panel mounting structure according to claim 2, wherein the reflector (303) comprises two first panels (3031) and one second panel (3032), the two first panels (3031) are located at both ends of the second panel (3032), and the second panel (3032) is movable between the two first panels (3031); Wherein the second plate (3032) moves relative to the two first plates (3031) in a direction away from the second plate (3032) when moving between the two first plates (3031).
  4. 4. The integrated photovoltaic panel mounting structure according to claim 3, wherein the second plate (3032) is respectively connected with the first plates (3031) at two sides through connecting rods (3034), two ends of each connecting rod (3034) are slidably connected with the guide plates (3033) through sliding blocks, and the rectangular frame (304) is provided with a driving mechanism (3035) connected with the second plate (3032); wherein the driving mechanism (3035) pushes the second plate (3032) to move, and the connecting rod (3034) pushes the first plates (3031) on two sides to move, so that the first plates (3031) and the second plates (3032) move to be coplanar and arranged at intervals.
  5. 5. The integrated photovoltaic panel mounting structure according to claim 3, wherein the rectangular frame (304) is provided with ventilation openings (3041) which are uniformly distributed, blades (3042) are hinged in the ventilation openings (3041), and the blades (3042) are connected with the second panel (3032) through struts (3043).
  6. 6. The integrated photovoltaic panel mounting structure according to claim 2, wherein a linear driving unit (400) and a rotary drum (401) mounted on a support are arranged in the rectangular frame (304), the linear driving unit (400) and the rotary drum (401) are respectively arranged on two sides of the reflecting plate (303), the rotary drum (401) is controlled to move through clamping jaws (403), a maintenance sleeve (404) is arranged on the surface of the rotary drum (401), locking structures (402) are arranged at two ends of the support, and the clamping jaws (403) clamp the maintenance sleeve (404) to be connected with the linear driving unit (400) through the locking structures (402).
  7. 7. The integrated photovoltaic panel mounting structure according to claim 6, wherein the maintenance kit (404) comprises a dust hood (4041), a cleaning row (4042) and a wiping roller (4043) which are sequentially arranged along the surface of the rotary drum (401), wherein elastic members (4044) are arranged at two ends of the wiping roller (4043).
  8. 8. The integrated photovoltaic panel mounting structure according to claim 2, wherein a linear mechanism (305) is arranged in the rectangular frame (304), and a barrier strip (306) is arranged on the linear mechanism (305).
  9. 9. The integrated photovoltaic panel mounting structure according to claim 1, wherein the first upright (100) and the second upright (301) are connected by a reinforcing bracket (500).
  10. 10. The method for mounting a photovoltaic panel integrated mounting structure according to any one of claims 1 to 9, comprising the steps of, When the speed of the ambient wind does not exceed a set value, the photovoltaic panel (200) is in an inclined state and faces the direction of the light source; When the speed of the ambient wind exceeds a set value, the photovoltaic panel (200) is driven to rotate to be in a horizontal state in the frame (101), and meanwhile the light reflecting component (300) is driven to rotate to be in an inclined state through the second power unit (302), wherein if the inclination angle of the photovoltaic panel (200) is X in the absence of the ambient wind, the inclination angle Y of the light reflecting component (300) is 90 degrees- (180 degrees-X)/2.

Description

Photovoltaic panel integrated mounting structure and mounting method thereof Technical Field The invention relates to the technical field of photovoltaic panels, in particular to an integrated photovoltaic panel mounting structure and a photovoltaic panel mounting method. Background The photovoltaic panel assembly is a power generation device that converts light energy into direct current using semiconductor materials. The core principle is based on the photovoltaic effect, stable power generation is realized through a solid structure without movable parts, and the photovoltaic power generation system is suitable for power supply of small electronic equipment, building surface integration and grid-connected power systems. At present, the photovoltaic board is fixed installation mostly when the installation, and the photovoltaic board needs to receive sunshine and just can carry out the operation of generating electricity, if the orientation of photovoltaic board is fixed, then it can only receive the light source of single direction, lead to generating efficiency low, and a small number of photovoltaic board considers angle regulation's functional requirement when the installation, but because the photovoltaic board is general to be the slope form installation, still can receive the resistance from ambient wind, the photovoltaic board can bear the influence of ambient wind, in the past the joint strength of easy reduction structure junction of long-term, lead to the unstable problem of photovoltaic board overall structure. Disclosure of Invention The invention mainly aims to provide a photovoltaic panel integrated mounting structure and a photovoltaic panel integrated mounting method, and aims to solve the existing technical problems. In order to achieve the above object, the present invention provides a photovoltaic panel integrated mounting structure, comprising, The first upright post is fixed on the ground, and the top end of the first upright post is provided with a frame which is horizontally arranged and can rotate around the first upright post; the photovoltaic panel is arranged in the frame and is rotationally connected with the frame, and a first power unit for controlling the photovoltaic panel to rotate is arranged on the frame; The light reflecting assembly is arranged on the arc-shaped sliding rail in a sliding manner, the light reflecting assembly is arranged at the end part of the frame, the arc-shaped sliding rail is fixed on a second upright post, the second upright post and the first upright post are arranged at intervals, and a second power unit for controlling the light reflecting assembly to rotate is arranged on the second upright post; When the photovoltaic panel rotates to a horizontal state, the light source is vertically reflected onto the photovoltaic panel by the light reflecting assembly. Further, the light reflecting assembly comprises a plurality of groups of light reflecting plates, two ends of each group of light reflecting plates are slidably arranged in the rectangular frame, and adjacent light reflecting plates can be close to or far away from each other. Further, the reflector comprises two first plates and a second plate, the two first plates are positioned at two ends of the second plate, and the second plate can move between the two first plates; wherein, when the second plate moves between the two first plates, the two first plates are relatively moved in a direction away from the second plate. Further, the second plates are respectively connected with the first plates at two sides through connecting rods, two ends of each connecting rod are in sliding connection with the guide blocks through sliding blocks, and a driving mechanism connected with the second plates is arranged on the rectangular frame; The driving mechanism pushes the second plate to move, and the connecting rods push the first plates on two sides to move, so that the first plates and the second plates move to be co-located on the same plane and are arranged at intervals. Further, evenly distributed ventilation openings are formed in the rectangular frame, blades are hinged in the ventilation openings, and the blades are connected with the second plate through supporting rods. Further, be equipped with sharp drive unit in the rectangle frame and install the rotary drum on the support, sharp drive unit and rotary drum divide to locate the reflector panel both sides, the rotary drum is through clamping jaw control removal, just the rotary drum surface is equipped with the maintenance external member, the support both ends are equipped with locking structure, the clamping jaw centre gripping the maintenance external member passes through locking structure and is connected with sharp drive unit. Further, the maintenance kit comprises a dust hood, a cleaning row and a wiping roller which are sequentially arranged along the surface of the rotary drum, wherein elastic pieces are arranged at two ends of the