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CN-121981373-A - Application of intelligent system for photovoltaic construction site

CN121981373ACN 121981373 ACN121981373 ACN 121981373ACN-121981373-A

Abstract

The intelligent system for the photovoltaic construction site is applied, constructors of different groups corresponding to different photovoltaic construction areas are identified in face recognition equipment, construction operator data are transmitted to a central console for statistics, constructors of different photovoltaic construction areas take photovoltaic equipment materials in corresponding stock ground areas for construction, unmanned aerial vehicles fly above the construction field for imaging, acquired photovoltaic equipment material information of photovoltaic plates, steel pipe piles and photovoltaic hack levers and site construction progress information are obtained, and the use condition of the photovoltaic equipment materials of each independent stock ground on the construction site is judged and estimated by the central console in combination with weather conditions, material loss reporting data and construction progress.

Inventors

  • WU XIONG
  • ZHANG WEI
  • QI HAIXING
  • DU PEI
  • HE BITAO
  • WANG XIUTAO

Assignees

  • 中国电建集团贵州工程有限公司

Dates

Publication Date
20260505
Application Date
20251223

Claims (4)

  1. 1. The application of the intelligent photovoltaic construction site system is characterized by comprising the step of realizing the evaluation of the use condition of construction materials of photovoltaic equipment in different areas by applying the constructed intelligent photovoltaic construction site system with high altitude and large area.
  2. 2. The application of the intelligent system for the photovoltaic construction site, as set forth in claim 1, characterized in that the application comprises the steps that constructors of different groups corresponding to different photovoltaic construction areas (4) are identified by the face recognition equipment (2), and construction operator data are transmitted to the central console (6) for statistics.
  3. 3. The application of the intelligent photovoltaic construction site system according to claim 1, wherein the application further comprises the steps that constructors in different photovoltaic construction areas (4) take photovoltaic equipment materials in corresponding material yard areas (41) to construct, an unmanned aerial vehicle (5) flies above the construction yard (1) to conduct imaging, and photovoltaic equipment material information and site construction progress information of the obtained photovoltaic panels (42), steel pipe piles (43) and photovoltaic hack levers (44) are obtained.
  4. 4. The application of the intelligent system for the photovoltaic construction site, as set forth in claim 1, further comprising judging and evaluating the material use condition of the photovoltaic equipment in each independent material field area (41) on the construction site (1) by combining weather conditions, material loss reporting data and construction progress through the center console.

Description

Application of intelligent system for photovoltaic construction site Technical Field The invention relates to application of an intelligent system for a photovoltaic construction site, and belongs to the technical field of construction of photovoltaic power stations. Background When building photovoltaic power station in high altitude beach such as Qinghai, because beach sandy soil raise dust is great, the photovoltaic power station area of large capacity is great simultaneously, and photovoltaic equipment construction material distribution management such as photovoltaic board, steel-pipe pile and light Fu Jiagan is great, and manpower patrol intensity leads to unable aassessment photovoltaic equipment construction material service condition. In the prior art (see the Chinese patent publication No. CN 114119897B), although unmanned aerial vehicle can be adopted to collect images on site, the use condition of photovoltaic equipment construction materials in different areas cannot be estimated. Disclosure of Invention In order to solve the technical problems, the invention provides an application of a photovoltaic construction site intelligent system. The invention is realized by the following technical scheme. The application of the intelligent system for the photovoltaic construction site provided by the invention comprises the step of realizing the evaluation of the use condition of construction materials of photovoltaic equipment in different areas by applying the constructed intelligent system for the photovoltaic construction site with high altitude and large area. The application specifically comprises that constructors of different groups corresponding to different photovoltaic construction areas are identified in face recognition equipment, and construction operator data are transmitted to a central console for statistics; Constructors in different photovoltaic construction areas take photovoltaic equipment materials in corresponding stock ground areas to construct, and an unmanned aerial vehicle flies above the construction field to image, so as to obtain photovoltaic equipment material information and site construction progress information of the photovoltaic plates, the steel pipe piles and the photovoltaic hack levers; and the material use condition of the photovoltaic equipment in each independent material field on the construction site is judged and estimated by combining the weather condition, the material loss reporting data and the construction progress through the center console. The high-altitude large-area photovoltaic building site intelligent system comprises: Face recognition equipment at the entrance and exit of the construction site; unmanned aerial vehicle that flies and take up image on construction site, unmanned aerial vehicle, face recognition equipment are connected with the well accuse platform through wireless transmission electricity. The construction site is divided into three different photovoltaic construction areas, each photovoltaic construction area is independently divided into discharge areas, and the photovoltaic plates, the steel pipe piles and the photovoltaic hack levers are stacked in the areas of the discharge areas. The construction site is provided with project office rooms, and face recognition equipment is installed on the sides of the project office rooms. The construction site is enclosed by adopting a fence and is provided with an entrance and an exit, and the project office is positioned at the entrance and the exit. The method has the advantages that the center console personnel can judge and evaluate the use condition of the photovoltaic equipment materials in each independent material field on the construction site by combining weather conditions, material loss reporting data and construction progress, and whether the photovoltaic equipment materials are normally consumed or lost or the photovoltaic equipment materials are recycled in different photovoltaic construction areas, so that the use condition of the photovoltaic equipment construction materials in different areas can be evaluated, and the problem that unmanned aerial vehicle can acquire images of the site but cannot evaluate the use condition of the photovoltaic equipment construction materials in different areas is solved. Drawings FIG. 1 is a schematic diagram of the structure of the present invention; fig. 2 is a schematic diagram of a distributed connection of a face recognition device, a unmanned aerial vehicle and a center console according to the present invention; FIG. 3 is a schematic view of a photovoltaic panel, steel pipe pile, photovoltaic rack of the present invention in a field of material; In the figure, a construction site 1-, a fence 11-, face recognition equipment 2-, a project office room 3-, a photovoltaic construction area 4-, a material field 41-, a photovoltaic plate 42-, a steel pipe pile 43-, a photovoltaic hack lever 44-a 5-unmanned plane and a center console 6-a