SU1189392A1 - Apparatus for additional lighting of plants - Google Patents

Abstract

DEVICE FOR PLANT RECOVERY; containing electric luminaires, luminaire switching-on relay, electric lighting energy meter, natural light photo sensor and plant lighting program generator, characterized in that in order to reduce energy intensity, it is equipped with an energy accumulator and an energy comparison circuit, the software driver is designed as a rising signal generator, and An electric lighting energy meter and a photo sensor are equipped with analog-impulse converters, the outputs of which are connected to the inputs of the energy combiner, moreover in The outputs of the energy combiner and the program setting device are connected to the inputs of the energy comparison circuit, while the switching-on relay of the luminaires is equipped with a prohibition circuit, the first input of which is connected to the output of the energy comparison circuit, and the second input is connected to the photosensor via Schmidt trigger. with (Q

Description

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The invention relates to agriculture, in particular to the automation of the process of growing plants in greenhouses.

The purpose of the invention is the reduction of energy intensity.

FIG. 1 shows a functional diagram of the device; in fig. 2 - operation cyclograms: a - signal at the photosensor output; S are the signals of the energy adder and the program unit of energy at the inputs of the comparison circuit; -6 is a sequence diagram of the lighting.

The device for lighting the plants contains electric lamps 1, switching on relay 2, lamps, electric lighting energy meter 3, made in the form of a current sensor, natural light photo sensor 4, energy adder 5, energy comparison circuit 6, program unit 7, made in the form of a rising signal generator . The energy-lighting meter 3 is provided with an analog-pulse converter 8, the output of which is connected via a pulse counter 9 to one input of the energy adder 5. The photo sensor 4 is equipped with an analog-pulse converter 10, the output of which through the counter 11 pulses is connected to another input sum.para 5 energy. The outputs of the energy adder 5 and the program setting unit 7 are connected to the inputs of the energy comparison circuit 6. The luminaire switch-on relay 2 is equipped with a prohibition circuit 12, the first input of which is connected to the output of the comparison circuit 6, and the second input - to the photosensor 4 via Schmidt trigger 13, the trigger level of which is determined by potentiometer 14.

The device works as follows.

Before the start of daylight, the circuit is on and counters 9 and 11 are set to zero. With the beginning of the light day, the software setting unit 7 generates a signal F in the form of a monotonically increasing function, representing the desired optimal process of lighting the plants.

A photo sensor 4, which perceives the natural light (EC) of the sun and sky, converts it into an electrical signal (Ut) proportional to the intensity of the light.

The Schmidt trigger 13, to the input of which a photo sensor signal arrives, goes from state "O to state" 1, provided that this signal exceeds the operation level (UM) set by potentiometer 14. Analog-pulse converter 10 converts the signal of photo sensor 4 into constant pulses variable amplitudes, which are variable frequency, which is proportional to the intensity of natural light, and counter 11 performs the counting of these pulses, displaying the total amount of natural light energy received by the output signal E shade.

5 The artificial light (IC) of electric luminaires 1 irradiates plants with 380/220 V alternating current energy, which is switched on by relay 2. The intensity of the electric lighting is proportional to the total current of the lamps measured by the current sensor. Analog-to-pulse converter 8 converts the magnitude of the current into pulses of constant amplitude, whose frequency is proportional to the current of the lamps. Counter 9 performs the counting of these pulses, and the signal

at its output is proportional to the amount of electric light energy supplied to the plant.

The adder 5 sums the output signals of the counters 9 and 11, and the signal at its output is proportional to the sum of the energies of natural and artificial light received by plants from the beginning of the daylight. The energy comparison circuit B performs a logical operation of comparing the signals at the outputs of the software setpoint 7

and adder 5. If the signal of adder 5 is larger than the signal of program master 7, then at the output of the comparison circuit 6 appears "1, and in other situations at its output" O. The prohibition circuit 12 issues "1 only if the input signal from the comparison circuit 6 is equal to" I, and the signal from the Schmidt trigger 13 is equal to "O.

Thus, relay 2 switches on electric luminaires 1 only when the total energy received by the plants is less than a predetermined value, if the intensity of natural light does not exceed the set level.

Claims (1)

A device for plant illumination, containing electric luminaires, luminaire energizing relays, an electric light energy meter, a natural light photo sensor and a plant lighting programmer, characterized in that, in order to reduce energy intensity, it is equipped with an energy combiner and an energy comparison circuit, the programmer is designed as shaper of the rising signal, and the energy meter of electric lighting and the photosensor are equipped with analog-pulse converters, the outputs of which are connected to energy moves adder, wherein the adder outputs energy setpoint and software connected to inputs of energy comparison circuit, wherein the relay switching circuit is provided with fixtures ban, the first input coupled to an output of the comparison circuit energy. and the second input - with a photosensor through a Schmidt trigger. QO C © co c © Fig. 1>