SU1064918A1 - Apparatus for controlling irrigation - Google Patents

Abstract

DEVICE. MANAGEMENT OF IRRIGATION-, including a humidity sensor, using the effect of surface acoustic waves, the input of which is connected to the master oscillator,. and the output - to the generator of forced oscillations connected to the output device. This means that, in order to improve the accuracy of controlling the irrigation by taking into account the air temperature, the device additionally includes an amplifier and a mixer, and the humidity sensor has an additional zone with a moisture resistant coating, separated from the main zone by a sound-absorbing layer and connected the input and output to the input - and output of the amplifier, and the mixer are connected to the output of the amplifier and the locking generator, and the output to the output device.

Description

four

;about

wasp

". The invention relates to an agricultural irrigation management technique and can be used in greenhouses for growing vegetables and flowers. A device for irrigation control is known, in which an electronic sheet having an electrode system on an insulating plate is used as a moisture sensor. The sensor is connected to an amplifier connected to an output device to turn on the irrigation system. The disadvantage of this device is low sensitivity and reliability due to the formation of salts as a result of electrolysis, affecting the sensor characteristics, as well as the need for periodic cleaning of the electronic sheet. It is also known an irrigation control device that includes a moisture sensor using the effect of surface-acoustic waves, the input of which is the key to the jpaTopy setting gene, and the output to the generator of forced oscillations connected to the output device .pj ,. The disadvantage of this device is the low control accuracy due to the fact that the sensor does not react to temperature fluctuations around the medium. The aim of the invention is to improve the accuracy of irrigation control by taking into account fluctuations in air temperature. This goal is achieved by the fact that the device additionally includes an amplifier and a mixer, and the humidity sensor has an additional zone with a moisture-resistant coating, is separated from the main zone by the sound-absorbing layer and connected by an input and output to the amplifier's input and output, and the mixer is connected to the amplifier's output and setting generator, and the output - to the output device. Figure 1 shows the functional diagram of the device; figure 2 - sensor surface-acoustic waves, General view. The device contains a sensor of surface acoustic waves (SAW) 1, the surface is divided. to the main zone of moisture control A: and an additional zone to control temperature B (figure 2} with a moisture resistant coating. In this case, the input electrode: the moisture control zones tt are connected to master oscillator 2, and the output electrodes are connected to generator 3 oscillations. The internal and output electrodes of the zone L for monitoring the temperature of the first SAW are included in the return circuit of amplifier 4, the output of which is connected to one of the inputs of the mixer 5. The second input of the mixer is connected to the master oscillator 2 and the output is connected to the second input of the output device 6, first The input of which is connected to the output of the generator 3. To eliminate the influence of moisture on the additional zone B, it is covered with a waterproof coating (layer) 7. To eliminate the mutual influence of surface acoustic waves from the electrode systems of the moisture control zones A and the temperature control zone B, these systems separated from each other by sound-absorbing layer 8. The device works as follows: In the absence of moisture on the surface (the main zone of moisture control A sensor 1 of the frequency of the master oscillator 2 and the generator 3 forced oscillations coincide m and the output device 6 is ready for incorporation of the wetting system. If at this the ambient temperature corresponds to agro demands, then the frequency from the output of amplifier 4, connected to the electrodes of the additional B zone of temperature monitoring of sensor 1 surfactant and forming together with it the resonant circuit, is equal to the frequency of the master oscillator 2, at the output of the mixer 5 signal the output device 6 is absent and turns on the irrigation system. If, in the absence of moisture on the sensor surface (zone | Moisture Control A), the ambient temperature, eg, is lower than nominal: when watering plants is inappropriate, the frequency from the output of amplifier 4 changes. And does not coincide with the frequency of master oscillator 2, At the output of the mixer 5, a signal appears prohibiting the output device b to turn on the irrigation system. If there is moisture on the surface of the zone A of moisture control A (not covered with a moisture resistant layer) of sensor 1, its resistance to the propagation of surface acoustic waves changes. The signal from the master oscillator 2 is not fed to the oscillator 3 of the forced oscillations, where the generation is disrupted and the output device 6 switches off the irrigation system. At. This moisture is not valid system of electrodes of the temperature control zone b, which is covered with a waterproof layer. 7. Thus, the introduction of an additional temperature control zone of the sensor 1 surfactant, covered with water-resistant 1H layer and separated from the control zone1 | moisture. sound layer by layer, allows you to turn on the greenhouse irrigation system only at a temperature equal to or higher than the specified one. This eliminates the overcooling of plants with low

ambient temperatures, for example at night. These measures reduce the incidence of plants.

Due to the fact that the temperature and the presence of moisture is measured by one n the same sensor having two systems of electrodes having

the same principle of operation, there is no need to coordinate the temperature sensor and moisture sensor, which increases the accuracy of the entire device. As a result, the yield of vegetable crops (for example, cucumbers) increases by 1.6 kg / m in comparison with the control.

Claims (1)

IRRIGATION CONTROL DEVICE - including a humidity sensor, using the effect of surface acoustic waves, the input of which is connected to a master oscillator, and the output to a forced oscillation generator connected to an output device. On the one hand, in order to increase the accuracy of irrigation control by taking into account air temperature, the device additionally includes an amplifier and mixer, and the humidity sensor has an additional zone with a moisture-proof coating, separated from the main zone by a sound-absorbing layer and connected by input and output to the input and output of the amplifier, and the mixer inputs are connected to the output of the amplifier and master oscillator, and the output to the output device. FIG. 1