Why is it that in recent years, power rationing is indispensable in the hot summer?This is due to the rise in electricity consumption in summer, and the serious imbalance between power supply and demand, and the construction of a new energy system based on non-fossil energy power generation such as water, wind, and solar energy is imminent.
With the global energy crisis and air pollution problems becoming increasingly prominent, the transition from carbon-based energy to green energy must be accelerated, so photovoltaic power generation has developed rapidly around the world, and the installed capacity of photovoltaic power plants has increased year by year.
The surface of photovoltaic panels is mostly made of glass, and if there is dust attached for a long time, the glass surface will be eroded, and the dust also has the effect of reflecting, scattering and absorbing solar radiation, which will reduce the output power of photovoltaic panels. It can be said that the cleanliness of photovoltaic panels affects the efficiency of photovoltaic power generation.
Portable smart photovoltaic cleaning robotTraditional photovoltaic panel cleaning is mainly through manual dry cleaning or water washing, which is difficult to clean, low cleaning efficiency, high cost and easy to waste water resources, and may even cause damage to photovoltaic panels. The portable smart photovoltaic cleaning robot can be quickly deployed by a single person, and dozens of units can be managed at the same time through the mobile app. Cleaning operations can also be carried out at night, and when the power is low, it can be positioned and returned home independently, and the power generation of the power station will not be affected during the day.
ifbot x3 solar panel cleaning robot
Portable smart photovoltaic cleaning robot
"Crawler-like" mobile suction cups
Photovoltaic panels are often fragile, so the R&D team designed the robot by first excluding wheels as a moving tool. After countless brainstorming, a movable suction cup was finally adopted, with the front suction cup moving forward and the back suction cup following up, like a bug. The movable suction cups attach themselves tightly to the photovoltaic panels, and the misaligned auxiliary suction cups enable the robot to walk freely and more stably on a smooth slope of 0-45 degrees.
Walking on a flat road is actually harder than climbing a hillMany people will think that the inclined plane can be solved, and the plane must be fine, but this is not the case. For a long time, although the robot had excellent climbing ability, it could not discern the direction of progress when walking on a flat surface.
In order to solve this problem, the R&D team went through a long period of experimental demonstration, and finally used the sensor to achieve a technological breakthrough. Equipped with integrated sensors, the robot can accurately detect the edge of the photovoltaic array, automatically adjust the angle, and independently calculate the optimal and most effective cleaning route, with comprehensive coverage without missing anything.
Small body with big energyThe portable intelligent photovoltaic cleaning robot adopts the concept of lightweight and intelligent design. Lightweight is reflected in the innovative use of aerospace materials, and the single machine is only 62 kg, ultra-light weight can reduce the user's handling burden and damage to photovoltaic panels.
The intelligence is reflected in the fact that it is equipped with functions such as completely autonomous cleaning, route planning, and low-power return, which saves users time, effort and worry. The robot has super suction capacity and wall angle adaptability, and a single cleaning unit is equipped with two nanofiber roller brushes with the same rotation, which can pick up the dust particles adsorbed on the surface and collect them, and instantly suck them into the dust box through the centrifugal force of the turbocharged centrifugal fan.