SU1055433A1 - Irrigation control device - Google Patents

Abstract

An ORDER CONTROL DEVICE containing a master oscillator connected to the input electrodes of the piezoelectric element, the output electrodes of which are connected to a generator of forced oscillations, and an output unit, characterized in that it is equipped with a spectrum analyzer whose input is connected to the generator output forced oscillations, and the output is connected to the output unit, the input and output electrodes of the piezoelectric element are fan-shaped, and the master oscillator is made in e swept frequency generator. i 7 ate figure 1; 4;

Description

The device is designed for irrigation control technology and can be used in greenhouses when growing vegetables and flowers.

A known irrigation control device containing a master oscillator, a piezo 5 element and a forced oscillation generator associated with the output device [1].

The disadvantage of this device is that it lacks the ability to control the operating time of the irrigation system j and the off time of the system.

Closest to the invention in technical essence is an irrigation control device containing a master oscillator connected to the input electrodes of the piezoelectric element, the output electrodes of which are connected to the generator of forced oscillations, and the output unit [2].

A disadvantage of the known device is the low efficiency.

OBJECT OF THE INVENTION - ₂ ciency increase effective operation.

This goal is achieved by the fact that the irrigation control device is equipped with a spectrum analyzer, the input of which is connected to the output of the forced oscillation generator, and the output is connected to the output unit, the 2 input and output electrodes of the piezoelectric element being fan-shaped, and the master oscillator made in the form of a oscillating frequency generator.

In FIG. 1 shows a functional diagram of the proposed device; in FIG. 2 - principle 3 of the formation of a beam of a surface acoustic wave.

The irrigation control device contains a master oscillator 1 connected to the input electrodes 2 of the piezoelectric element 3, the output electrodes 4 of which are connected ⁴ to the forced oscillation generator 5 and the output unit 6 and equipped with a spectrum analyzer 7, the input of which is connected to the output of the forced oscillation generator 5, and the output is connected to the output ',' block 6, and the input and output electrodes 2 and 4 of the piezoelectric element are fan-shaped, and the master oscillator 1 is made in the form of a oscillating frequency generator.

The device operates as follows.

When you turn off the device at the output of the master oscillator 1, a signal appears, the frequency of which varies within certain limits (oscillating frequency). Due to the fan-shaped arrangement of the input electrodes 2 of the piezoelectric element 3, a beam of surfaces of an acoustic wave with a certain beam width and amplitude arises for each frequency value.

The number of beams of the surface acoustic wave depends on the width of the working surface of the piezoelectric element 3. of the selected frequency band of the master oscillator 1. On the fan-shaped output electrodes 4 of the piezoelectric element 3, the beam of the surface acoustic wave is converted into an electric signal of the corresponding wave.

The amplitude of the beam of the surface acoustic wave, and hence the amplitude of the output signal of the device for the lower frequency, depends on the diameter of the droplets located on the surface of the piezoelectric element. Each droplet diameter corresponds to the greatest attenuation of a particular wave.

Depending on the conditions on the spectrum analyzer Ί, a signal appears at its output, which is fed to the output unit 6, which generates a control signal.

By the level of the signal at the output of the spectrum analyzer 7, it is possible to evaluate the dispersion of the water being cut and to establish the necessary operating time of the irrigation system.

The invention improves the efficiency of the irrigation system, which has a significant economic effect due to increased yield.

Claims (1)

CONTROL irrigation comprising a master oscillator coupled to the input electrodes of the piezo-element, the output electrodes of which are connected to the generator forced vibration, and an output unit, characterized in that, in order to improve ^- the efficiency of the device is provided with a spectrum analyzer having an input connected to the output generator of forced oscillations, and the output is connected to the output unit, and the input and output electrodes of the piezoelectric element are fan-shaped, and the master oscillator is made in the form of generator of swept frequency.