CS224549B1 - Integrating solarimeter - Google Patents

Description

The invention relates to an integration solarimeter and in particular to an automatic evaluation of the amount of solar energy radiated per unit area over a certain period of time.

For the known solarimeters, the instantaneous value of the solar radiation intensity is usually recorded by a recorder. The total value of the incident solar energy over a certain time interval, which is an hour, day, month or year, is then determined after removing the paper from the registration apparatus by calculating the area bounded by the timeline and the registered curve. This method of evaluating the total amount of solar energy incident per unit area is complex, laborious and time consuming.

These drawbacks are overcome by the integration solarimeter according to the invention, which is based on the fact that the output of the solar sensor is connected via an amplifier to the input of the voltage converter - frequency which is connected to the frequency divider whose output is connected to the pulse counter input. The output of the level switch is also connected to the output of the amplifier, the output of which is connected to the blocking input of the frequency divider. A voltmeter is also connected to the amplifier output.

The integration solarimeter according to the invention makes it possible to read out the instantaneous value of the solar radiation intensity and also automatically registers the total amount of solar energy that has been per unit of area since the solarimeter was switched on or since the pulse counter was last reset. The total amount of solar energy emitted is continuously available on the counter without any additional evaluation.

The attached drawing shows a schematic block diagram of an example of a solarimeter connection according to the invention.

The solar sensor 1 is connected via a calibrated DC amplifier 2 to the voltage / frequency converter X input. A frequency divider X is connected downstream of the converter X, the output of which is a pulse counter 5 connected to the output. The output of the level switch 2 is connected to the output of the amplifier 2 for a longer time and connected to the blocking input of the frequency divider X_. 6. The output signal of the solarimetric sensor 1 is thus converted into a voltage proportional to the intensity of solar radiation at the output of the amplifier 2. This voltage is processed in the voltage-frequency converter X, which has a linear characteristic of the transmission in the measured range.

The pulse signals from the output of the X converter, whose repetition rate is proportional to the radiation intensity, are applied to the input of the frequency divider 1. The frequency ratio 4 is selected such that each output pulse of this frequency divider 1 corresponds to decimal increment of solar energy. 0.01 kWh). The output pulses of the frequency divider 6 are recorded by an electromechanical or electronic pulse counter χ.

The instantaneous radiation intensity value can be read on a voltmeter 6 connected to the amplifier output. Under operating conditions, for example, the calibration of the X amplifier can be checked with a two-point voltmeter 6. One point may be zero (covered by solarimetric sensor 1) and the other may be the output voltage of the internal calibration DC source whose voltage can be selected in accordance with the calibration point of the used solarimetric sensor 1. level higher than a certain selected value, a level switch Z is used whose output signal blocks the output signal of the frequency divider 1 if the intensity of solar radiation does not exceed the selected limit.

The solarimeter according to the invention can furthermore be used for the automatic measurement of the depleted solar energy for digital processing. For example, a pulse counter with a digital output can be connected to the output of the frequency divider χ. This counter can be equipped with inputs for writing and deleting, which can be controlled automatically, for example from a control panel.

Claims (3)

Integrative solarimeter characterized in that the output of the solarometric sensor (1) is connected via an amplifier (2) to the input of the voltage-frequency converter (3), which is connected to the frequency divider (4), the output of which is connected to the pulse counter (5). 2. Integration solarimeter according to item i; characterized in that a level switch input (7) is connected to the output of the amplifier (2), the output of which is connected to the blocking input of the frequency divider (4). Integration solarimeter according to claim 1, characterized in that a voltmeter (6) is connected to the output of the amplifier (2).