SU1192734A1 - Apparatus for controlling the watering - Google Patents

Abstract

1. A WATERING CONTROL DEVICE containing a surface acoustic wave sensor with humidity and temperature control zones, the humidity control zone of the input is connected through a mixer to the reference generator, and output through a generator of forced oscillations - with an output unit, and the temperature control area of the input and output connected respectively to the output and the input of the amplifier connected to the mixer, the second input of which is connected to the output of the reference generator, characterized in that, in order to improve the quality of control irrigation by eliminating irrigation when the air temperature drops below a predetermined and controlling the duration of the output unit's turn-ons, the device is equipped with an electronic switch connected between the mixer output, which is designed as a frequency detector, and the humidity control zone input, and in series between the amplifier output and the second electronic input key converter anaa log frequency and master oscillator. 2. The device according to claim 1, wherein (L in that the forced oscillator is made with an adjustable threshold response voltage.

Description

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The device relates to agriculture, namely to irrigation management technique, and can be used in greenhouses for growing vegetables and flowers.

The aim of the invention is to improve the quality of irrigation control by eliminating irrigation when the air temperature drops below a predetermined and control the duration of switching on the output unit of the device.

FIG. 1 is a functional diagram of the irrigation control device; in fig. 2 - graphs of the amplitude of the signal from the output zone of the humidity control of the sensor surface acoustic waves (SAW) at different frequencies of the master oscillator.

The device contains a surfactant sensor 1, the surface of which is divided into a humidity control zone and a temperature control zone (grinded) with a waterproof coating. The output electrodes of the humidity control zone are connected to the outputs of the electronic switch 2 connected by one of the inputs to the master oscillator 3. The output electrodes of the humidity control zone are connected to the forced oscillator 4 having an adjustable pickup threshold and connected to the output block 5.

The input and output electrodes of the temperature control zone are included in the feedback of amplifier 6, the output of which is connected to one of the inputs of the mixer 7, made in the form of a frequency detector, the second input of which is connected to the reference generator 8, and the output to the second input of the electronic switch 2. At the same time, the output of the amplifier 6 is connected to the input of the frequency-analog converter 9, the output of which is connected to the input of the master oscillator 3.

The device works as follows.

In the initial state, the generation frequency of the resonant circuit formed by the amplifier 6 and the electrodes of the temperature control zone of sensor 1 is tuned to the frequency f lo of the reference rei / generator 8, and the tuning is performed at an ambient temperature Tj equal to the specified temperature Tz.

If the current ambient temperature T is equal to the set Tz, the frequency from the output of amplifier 6, which together with the input and output electrodes forms the temperature monitoring zone of sensor 1 resonant circuit, is equal to the frequency of the reference oscillator 8, which means that the signal from the output of the mixer 7 is absent and Electronic key 2 is closed, the irrigation system is disabled. The electronic key 2 is also closed when the signal from the mixer 7, made in the form of a frequency detector, changes polarity, closing the key 2. This happens at Tm, Tc

when, which does not allow to turn on the irrigation system at an ambient temperature below the set point, when irrigation of plants is impractical.

If the current temperature. The ambient temperature is higher than the preset, which means fjfo, the electronic switch 2 opens with a signal from the output of the mixer 7, then in the absence of moisture on the surface of the humidity control of the sensor 1, when the resistance to SAW propagation is low, the output signal of the master oscillator 3 through The open electronic key 2 excites a generator of forced vibrations 4, at the signal of which the output device 5 turns on the irrigation system. As the irrigation system works, the amount of moisture on the surface of the moisture control zone that is not covered with a waterproof layer increases. This increases the resistance to the propagation of surfactant and the amplitude of the signal U at the input of the generator 4 forced oscillations decreases, which, if disrupted the generation of the generator 4 forced oscillations to turn off the output unit 5 irrigation system. Due to evaporation the amount of moisture on

5 of the surface of the humidity control zone of sensor 1 decreases, the surfactant amplitude increases and the cycle repeats, and the operation time of the irrigation nozzles is determined by the decay time t of the signal amplitude both at the generator input and forced oscillations from and to UTI (Fig. 2), which in turn, it depends on the frequency of the surfactant, determined by the frequency fj of the master oscillator 3, at a constant performance of the injectors. In this case, the frequency f of the master oscillator 3 is adjusted depending on the ambient temperature The former 9, connected by the input to the amplifier 6 of the resonant circuit of the temperature control zone, generates frequency f ,. whom

0 is determined by the ambient temperature, and the output of the frequency-analog converter 9 is connected to the master oscillator 3.

Thus, a change in the frequency of the Hz5 of the giving generator 3 within the.-Fan (Fig. 2), depending on the ambient temperature, makes it possible to regulate the operation time of the spray system nozzles within the limits tj-t, and the temperature increases accordingly

0 time of operation of the nozzles, while the irrigation system is turned off at a temperature below the set.

These measures increase the efficiency of the irrigation system, reduce the incidence of diseases and increase the yield of the crops grown. The economic effect of introducing the device is 0.08 rubles / m compared to the known means of controlling irrigation.

hn.

Claims (2)

1. IRRIGATION CONTROL DEVICE, comprising a surface acoustic wave sensor with humidity and air temperature control zones, the humidity control zone being connected via an mixer to a reference generator, and the output through a forced oscillation generator to an output unit, and a zone to control the input and output temperature connected respectively to the output and input of the amplifier connected to the mixer, the second input of which is connected to the output of the reference generator, characterized in that, in order to improve the quality of control by willow by eliminating watering while lowering the air temperature below a predetermined one and controlling the duration of the switching on of the output unit, the device is equipped with an electronic key connected between the output of the mixer, which is made in the form of a frequency detector, and the input of the humidity control zone, and connected in series between the output of the amplifier and the second input of the electronic key converter analog-frequency and the master oscillator. 2. The device according to π. 1, characterized in that the forced oscillation generator is made with an adjustable voltage threshold.