SU1144663A1 - Automatic open-type irrigation system - Google Patents

Abstract

AUTOMATED OPEN IRRIGATION SYSTEM, including irrigation source, distribution and irrigation channels with water outlets, control room and controlled points connected to the communication line and equipped with transceiver elements, characterized in that, in order to increase control reliability and reduce costs while increasing functionality The transceiver, the elements of the system are made in the form of piezocrystals, and the communication lines are in the form of a stream of irrigation water.

Description

The invention relates to agriculture and can be used to automate water distribution and irrigation on reclaimed land.

A system of automatic water distribution and irrigation is known, comprising a network of irrigation and drainage channels separated by blocking structures on a number of regulating compartments (pools) with lateral outlets located on them. The barrier structures are equipped with hydro-acting flow or water level controllers connected to the control room by wired communication lines of the telemechanics system I.

The disadvantage of the system is the high cost of implementation, due to the fact that 40-50% of the total cost of automation equipment falls on communication lines. In addition, the communication lines are most often out of service, which reduces the reliability of the automated system.

Closest to the proposed is an automated system, including the source of the distribution, distribution and irrigation channels with water outlets, control room and controlled points connected by a communication line and equipped with transceiver elements 2.

The disadvantages of this system are low control reliability, high costs and low functionality.

The purpose of the invention is to increase the reliability of control and reduce costs while increasing functionality.

The goal is achieved by the fact that the transceiver elements of the system are made in the form of piezocrystals, and the communication line is in the form of a stream of irrigation water.

The drawing shows schematically the proposed irrigation system.

The system contains a source of irrigation 1, distribution and irrigation channels 2 with blocking structures 3 and outlets 4, on which hydraulic automatic machines 5 are installed.

The hydraulic machines 5 are controlled from the controlled points 6, which in turn are connected by means of a flow of irrigation water to the distribution and irrigation channels 2 to the dispatch point 7. The control point 7 and the controlled points 6 are equipped with amplifiers 8, which are connected to crystal crystals 9.

The system works as follows.

Water distribution on the system is carried out in accordance with the algorithm defined by dispatch point 7. In the case when it is necessary to change the level or 5 water flow through the outlet, the frequency code of the controlled point 6 serving this outlet is transmitted to the control point 7 and then the frequency corresponding to the new value installations

0 hydraulic automatic 5. All information comes in the form of electromagnetic oscillations (as in a conventional telemechanic system) through an amplifier to a piezocrystal 9, which converts electromagnetic oscillations into mechanical oscillations of water in a distribution or irrigation channel 2. The channel plays the role of a communication line (waveguide), inside which propagates the information transmitted by the control room 7. Mechanical oscillations of the medium induce the corresponding QF in the piezocrystals of 9 controlled points 6. In case of coincidence of the address of the transmitted pilots at a controlled location of the last item on the command performs rearrangement gidroavtomata setpoint 5, which changes the flow rate or the water level in the construction of the partition 3 or 4. Attenuation overflow hydroacoustic waves in water, the average is 2-4 dB per km channel. Therefore, to transmit information on 20-30 km, a power of 10 W is sufficient. In the case of signal attenuation, it can be retransmitted, as is the case when using telemechanics systems with wired communication lines. In the present invention can be used almost

without alterations of the remote control system with frequency output.

The use of an automated open irrigation system makes it possible to reduce by 40-50% the cost of automation of irrigation or draining systems, to increase their reliability with automatic control while expanding the functionality.

Improving the reliability of the irrigation system 5 consists in reducing the number of accidents due to the sharp increase in the noise immunity of the transmission channels of the control of impacts on hydraulic structures compared to the use of radio stations for this purpose. A similar advantage also exists over cable lines, which, under conditions of land-reclamation systems, as a result of the work of earth-moving equipment, are very often out of order. Break open water flow is almost impossible. When this stream is absent, then there is no need to control the system. At the same time, the consumption is significantly (hundreds of times) reduced, 1144663

shortage of cable products, the eco-ohm effect of the use of

The pace of commissioning of an automatized invention is 300-800 r. at 1 km

the reclaimed land reclamation system is in the form of a canal, and the cost of creating a labor cost system for their construction. is spent in the first year.

Claims (1)

AUTOMATED OPEN IRRIGATING SYSTEM, including an irrigation source, distribution and irrigation canals with water outlets, dispatch and controlled points connected by a communication line and equipped with transceiver elements, characterized in that, in order to increase control reliability and reduce costs while increasing functionality, transceiver elements the systems are made in the form of piezocrystals, and the communication line is in the form of a flow of irrigation water.