CN-121981523-A - Coastal beach photovoltaic safety intelligent supervision platform

Abstract

The application relates to a coastal beach photovoltaic safety intelligent supervision platform. The method is suitable for the technical field of beach photovoltaic projects. The technical scheme includes that the system comprises a data acquisition module, a data processing module, a function module, a display module, a safety monitoring module, a ship early warning module and a personnel management module, wherein the data acquisition module is used for acquiring monitoring data from data acquisition equipment, the data processing module is used for processing the monitoring data acquired by the data acquisition module according to a preset data processing method, the function module comprises the display module, the safety monitoring module, the ship early warning module and the personnel management module, the display module is used for displaying the monitoring data which are acquired by the data acquisition module and are related to geographic positions on an electronic map, the safety monitoring module is used for acquiring water level height and meteorological parameters through the data acquisition module, the ship early warning module is used for acquiring construction ship position information through the data acquisition module, and the personnel management module is used for acquiring constructor position information through the data acquisition module.

Inventors

• WANG MIN
• ZHAO ZETAO
• Lai Songbin
• LIU KAI
• DENG BIN
• Gao Yawu
• LI HUANXI
• Ge xinyi
• ZHANG JINGLEI
• YAO JIANWEI

Assignees

• 中国电建集团华东勘测设计研究院有限公司
• 浙江华东工程建设管理有限公司

Dates

Publication Date

20260505

Application Date

20251226

Claims (10)

1. 1. Coastal beach photovoltaic safety intelligent supervision platform, characterized by comprising: The data acquisition module is used for acquiring monitoring data from data acquisition equipment, wherein the data acquisition equipment comprises a water level detector for acquiring the water level height of a construction area, a weather detection equipment for acquiring weather parameters of the construction area, a personnel positioning equipment for acquiring position information of constructors and a ship positioning equipment for acquiring position information of construction ships; The data processing module is used for processing the monitoring data acquired by the data acquisition module according to a preset data processing method, and comprises the steps of predicting the water level height in a preset time period in the future based on the real-time water level height combined with a tide water level prediction model, and evaluating construction risks based on the water level height, weather parameters, personnel position information and ship position information in the preset time period combined with a preset dynamic risk evaluation model; the functional module comprises a display module, a safety monitoring module, a ship early warning module and a personnel management module; the display module is used for displaying the monitoring data which are acquired by the data acquisition module and are related to the geographic position on the electronic map by taking the electronic map as a substrate; The safety monitoring module is used for acquiring water level height and meteorological parameters through the data acquisition module, and determining construction risks through the data processing module based on the water level height and meteorological parameters; The ship early warning module is used for acquiring construction ship position information through the data acquisition module, and determining construction risks through the data processing module based on the construction ship position information and a preset electronic fence; the personnel management module is used for acquiring the position information of the constructors through the data acquisition module and determining the construction risk through the data processing module based on the position information of the constructors.
2. 2. The coastal beach photovoltaic safety intelligent supervision platform according to claim 1, wherein: the data acquisition equipment further comprises monitoring equipment for acquiring monitoring images of the construction area; the function module further comprises a video monitoring module, and the video monitoring module is used for acquiring a construction area monitoring image through the data acquisition module.
3. 3. The coastal beach photovoltaic safety intelligent supervision platform according to claim 1, wherein: The data acquisition equipment further comprises an unmanned aerial vehicle for carrying out inspection on the construction area; The function module further comprises an unmanned aerial vehicle module, and the unmanned aerial vehicle module is used for acquiring the inspection real-time picture through the data acquisition module.
4. 4. The coastal beach photovoltaic safe intelligent supervision platform according to claim 1, wherein the safety monitoring module covers meteorological parameters, water level height, alarm management and the like, wherein the alarm management comprehensively records alarm details of various aspects such as water level, weather, electronic fence and the like.
5. 5. The coastal beach photovoltaic safety intelligent supervision platform of claim 1 is characterized in that the ship early warning module comprises an electronic fence unit and a ship unit, wherein the electronic fence unit is provided with a virtual geographic boundary, tracks and restrains ship tracks by means of a positioning and monitoring technology, early warning is conducted near a construction area, and the ship is prevented from violating regulations or entering a dangerous area by mistake, real-time position information of the ship is comprehensively collected and analyzed by the ship unit, and risks are accurately judged by combining electronic fence rules.
6. 6. The coastal beach photovoltaic safe intelligent supervision platform according to claim 1, wherein the personnel management module covers attendance statistics, attendance records, personnel alarms, alarm statistics, track playback and bayonet early warning.
7. 7. The coastal beach photovoltaic safe intelligent supervision platform of claim 2, wherein the video monitoring module covers a temporary work area, a temporary work platform, a heap area, a photovoltaic area periphery and a shore base end medium-mount cradle head.
8. 8. The coastal beach photovoltaic safety intelligent supervision platform according to claim 1, further comprising an information management module covering three major core parts of personnel management, equipment management and short message management.
9. 9. The coastal beach photovoltaic safe intelligent supervision platform according to claim 1, further comprising a system management module, relating to the operations of adding, editing, deleting, and resetting the password of the system account.
10. 10. The coastal beach photovoltaic safe intelligent supervision platform of claim 1, wherein the data processing module comprises a device direct acquisition, a cloud computing device, an edge computing device, and a local computing device.

Description

Coastal beach photovoltaic safety intelligent supervision platform Technical Field The invention relates to a coastal beach photovoltaic safety intelligent supervision platform. The method is suitable for the field of beach photovoltaic projects. Background Construction of photovoltaic project power stations along beach lines faces a number of difficult problems. The natural environment where the water level is located is complex and changeable, the weather is changeable instantaneously, the water level is fluctuated frequently, and the safety risk of the submarine construction operation is hidden, so that great challenges are brought to the construction process and personnel safety. The beach construction safety management follows the guidelines of 'safety first, foredefense first and comprehensive treatment', implements the safety production responsibility system, uses the internet of things and artificial intelligence technology in the safety management, monitors the safety, introduces an intelligent monitoring system for some projects, monitors the state of key equipment in real time by using sensors and monitoring equipment, discovers abnormal conditions in time and gives early warning. The prior art platform preliminarily solves the problems of beach environment adaptability, data transmission and the like through multidisciplinary fusion (material science, communication technology and AI), but still needs to be studied in aspects of ecological coordination, real-time supervision, data integration and the like. In the existing safety supervision technology for the photovoltaic construction along the beach, the following defects exist: 1) Functional cleavage and data islanding: the traditional construction management only considers single risk (such as weather or water level), and functions such as weather monitoring, personnel positioning, weather early warning and the like are not integrated and linked, so that risk response is lagged. The reasons for this are not considered, the prior art lacks the capability of fusion analysis of heterogeneous data (environment, personnel, equipment) of multiple sources, and the dynamic changes of construction scenes (tidal burstiness, personnel mobility) are not adequately modeled. The technical difficulty is how to realize real-time synchronization and intelligent decision of multi-dimensional data in a complex environment, and construction accidents caused by information isolation are avoided. 2) Static management and control and dynamic demand disjoint: The existing method relies on manual inspection and static planning, and does not combine real-time water level change and weather early warning to dynamically adjust the construction scheme. Reasons for the lack of prediction accuracy of the space-time dynamics (such as tidal cycle, meteorological factors and ship conditions) of the tidal flat environment are not considered, and the support of an automatic scheduling algorithm is lacking. The technical difficulty is that a dynamic risk prediction model needs to be constructed, so that real-time optimal configuration of construction resources (personnel and equipment) is realized. Disclosure of Invention Aiming at the problems, the invention provides the coastal beach photovoltaic safety intelligent supervision platform. The technical scheme adopted by the invention is that the coastal beach photovoltaic safety intelligent supervision platform is characterized by comprising the following components: The data acquisition module is used for acquiring monitoring data from data acquisition equipment, wherein the data acquisition equipment comprises a water level detector for acquiring the water level height of a construction area, a weather detection equipment for acquiring weather parameters of the construction area, a personnel positioning equipment for acquiring position information of constructors and a ship positioning equipment for acquiring position information of construction ships; The data processing module is used for processing the monitoring data acquired by the data acquisition module according to a preset data processing method, and comprises the steps of predicting the water level height in a preset time period in the future based on the real-time water level height combined with a tide water level prediction model, and evaluating construction risks based on the water level height, weather parameters, personnel position information and ship position information in the preset time period combined with a preset dynamic risk evaluation model; the functional module comprises a display module, a safety monitoring module, a ship early warning module and a personnel management module; the display module is used for displaying the monitoring data which are acquired by the data acquisition module and are related to the geographic position on the electronic map by taking the electronic map as a substrate; The safety monitoring module is used for acquiring wate