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When is the best time to use a photovoltaic cleaning robot?

Generally speaking, professional cleaning unions choose to clean sooner or later. This is mainly because if the cleaning temperature is high, the photovoltaic panels of the photovoltaic power station may cause electric shock damage to the cleaning personnel, and the cleaning equipment of the photovoltaic power station will also be damaged to a certain extent. The scope cannot continue. In addition to labor, choosing a certain time in the morning and evening for cleaning is conducive to more thorough cleaning of some wastes of the photovoltaic power station and achieve a better cleaning effect.

Surface dust will affect the output performance of the PVC panel and reduce battery efficiency. Dust will directly affect the solar radiation and heat dissipation of the panel, and may cause corrosion on the surface of the panel; dust in different areas has a great impact. During operation, the solar photovoltaic system will be affected by environmental dust. The intensity of solar radiation is related to the photoelectric conversion efficiency. Dust on the board area will reduce the light transmittance of the front cover glass. Reducing the light transmittance will reduce the output performance of the battery. The higher the deposition concentration, the higher the light transmittance. The smaller the value, the less the radiation absorbed by the panel, and the worse the output performance.

Photovoltaic cleaning robot, Should be operated in accordance with normal procedures, without authorization, no decision can be made, some steps are omitted, or some unusable processes are added. In addition, the cleaning damage to the equipment caused by cleaning may also lead to poor cleaning effect, which cannot meet the requirements.

The climatic conditions of photovoltaic cleaning robots vary from region to region. For example, photovoltaic power plants in northwestern China are severely affected by dust. Dust will reduce solar radiation intensity and panel output power, thereby reducing power generation capacity. In addition, some dust shadows can produce thermal effects and electrical energy. Reduce the number, potential safety hazards.

The walking system of the photovoltaic cleaning robot mainly includes a rotating cleaning mechanism and a drive motor. The cleaning robot moves horizontally to the PV panel, and waterless cleaning can be achieved without cleaning media. The walking system of the photoelectric cleaning robot mainly includes a rotating cleaning mechanism and a driving motor. The cleaning robot can automatically stabilize the speed during operation. The motor power (lower than the larger power of the motor) of the motor can be automatically adjusted according to the set operating speed, so that the robot can clean different parts of the road at a certain speed and improve the cleaning quality.