JPS5979579A - Solar battery system - Google Patents

Abstract

PURPOSE:To prevent a solar battery system from the reduction of light receiving rate by a method wherein the fact that a charging voltage is reduced to the referential value or less is detected, and water (or a cleaning liquid) is supplied onto the light receiving surface of the solar battery from a water storage tank to perform cleaning. CONSTITUTION:Solar rays strike against the light receiving surface 1 of a solar battery at normal time, and an electric current is supplied to load 8 charging a battery 7. When the light receiving surface is contaminated, the charging quantity is reduced. The charging voltage thereof is monitored by a control board 6, and when the voltage becomes to the referential value or less, a valve 4 is opened to jet water or a cleaning liquid from the nozzles of a drain member 5, the light receiving surface 1 is cleaned automatically, and after cleaning is performed for the prescribed hours, the valve 4 is closed again. When a wiper 2 is used, cleaning can be performed more effectively. According to this construction, the solar battery can be prevented from the reduction of electricity generating efficiency according to contamination of the light receiving surface.

Description

Detailed Description of the Invention (a) 1 Technical Field of the Invention Relating to a solar cell system, in particular, when the charging power of the storage battery of the solar cell system decreases, the surface of the solar cell is automatically cleaned to increase the power generation capacity. , relates to a method for equivalently increasing system capacity.

(b), Prior Art and Problems Systems in which wireless communication devices are powered by solar battery systems are usually installed in remote and inconvenient locations where electricity cannot be obtained, and are operated with maintenance visits around once a year. There are many things. In such cases, wind dung, leaves, dust, etc. often adhere to the surface of the solar cell itself, reducing the power generation efficiency of the solar cell itself. In such a case, there is a drawback that the amount of charging power of the storage battery is insufficient to the planned value, resulting in a system failure.

(C) 1.Object of the Invention The present invention is to provide a solar cell system that eliminates the above-mentioned drawbacks of the conventional system and ensures good operation.

(d) 1 Structure of the Invention According to the present invention, the above object is to compare the charging voltage of a storage battery with a reference voltage in a power supply system J- using a solar cell, and to compare the charging voltage of a storage battery with a reference voltage. A charging voltage detector □ that detects whether the voltage is below □, a water tank in which water or cleaning solution is stored, and a charging voltage detector that detects the water or cleaning solution stored in the tank by the output signal of the charging voltage detector. This is achieved by providing a solar cell system equipped with a cleaning means that causes water to flow onto the light-receiving surface of the solar cell. Further, the cleaning means includes a wiper that cleans the light-receiving surface of the solar cell by reciprocating the water or washing A1 liquid by an electric mechanism in the direction in which it flows down on the light-receiving surface of the solar cell, and in the opposite direction. It is also possible to set one.

(e) 1 Embodiment of the Invention Figure 1 shows an embodiment of the present invention, in which 1 is the light-receiving surface of a solar cell, 2 is a wiper, 3 is a water tank for water or cleaning liquid, 4 is a valve, 5 is a drainage member having a large number of nozzles through which water or cleaning liquid flows; 6 is a control panel; 7 is a storage battery; 8 is a power load such as a wireless communication device.

FIG. 2 is a graph for explaining the relationship between the amount of charge of the storage battery and the charging voltage of the storage battery, where the horizontal axis is the amount of charge of the storage battery and the vertical axis is the charging voltage of the storage battery.

As shown in FIG. 2, it is well known that the output voltage of a storage battery generally changes depending on the degree of charge.

Therefore, if charging is insufficient for some reason, the charging voltage will drop, so this charging voltage is constantly monitored, and when the charging voltage drops below the reference value Es, the light-receiving surface of the solar cell is automatically adjusted. It is an attempt to purify the body.

The present invention will be explained in detail below with reference to FIG.

Under normal conditions, sunlight illuminates the light-receiving surface 1 of the solar cell, and as a result, the solar cell generates electricity, charging the storage battery 7 and supplying electricity to the load 8 . If there is sufficient sunlight, the storage battery 7 can be operated with a charge level of 80% or more as shown in Figure 2, but due to the influence of the environment in which it is used, for example, bird droppings, tree leaves, sand dust, etc. When it adheres to the surface of the solar cell itself and reduces the power generation efficiency of the solar cell itself, the load consumes a lot of power, so the amount of charge in the storage battery gradually decreases and the charging voltage decreases. The charging voltage is constantly monitored in the control ff16, and when the charging voltage drops below the reference value Es, the valve 4 is opened and the water or cleaning liquid stored in the water tank 3 flows out from the nozzle of the drainage member 5. do. In this way, the light-receiving surface 1 of the solar cell can be automatically purified by 6L. After running water or cleaning solution for a certain period of time, the hull buoy automatically closes again.As explained above, according to the present invention, the light-receiving surface 1 of the solar cell is automatically cleaned to increase the power generation efficiency of the solar cell. Furthermore, in the present invention, in addition to the above-mentioned method of draining the water or foot liquid from the nozzle of the drainage member 5, the electric motor attached to the wiper 2 is driven by the control panel 6 to drain the wiper 2. By moving it up and down along the surface of the light-receiving surface 1 of the solar cell as shown by the arrows in FIG. 1, the surface of the light-receiving surface 1 of the solar cell can be further cleaned to improve the cleaning effect. I can do it.

(f) 3 Effects of the Invention - As explained in detail, the present invention has the great effect of preventing the power generation efficiency of the solar cell from decreasing due to the light-receiving surface of the solar cell being bent by the environment. be.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the present invention, in which 1 is a light-receiving surface of a solar cell, 2 is a wiper, 3 is a reservoir for water or cleaning liquid, 4 is a valve, and 5 is a drain for water or cleaning liquid. A drainage member having a large number of nozzles, 6 a control panel, 7 a storage battery, and 8 a load. FIG. 2 is a graph for explaining the present invention in detail, in which the horizontal axis represents the amount of charge of the storage battery, and the vertical axis represents the charging voltage of the storage battery. r5 stone 5

Claims (1)

[Claims] 1. In a power supply system using a solar cell, charging pressure detection that compares the charging voltage of a storage battery with a reference voltage and detects that the charging voltage has become below the reference voltage value. The vessel and
It is characterized by comprising a water tank in which water or cleaning liquid is stored, and a cleaning means for causing the water or cleaning liquid stored in the tank to flow out onto the light-receiving surface of the solar cell in response to an output signal from a charging voltage detector. solar cell system. 26 The cleaning means is reciprocated by an electric mechanism in the direction in which the mixing water or cleaning liquid flows down on the light-receiving surface of the solar cell, and in the opposite direction.