SU1014532A1 - Automated irrigation system - Google Patents

Abstract

AUTO ATIZED-RELATED .ORIZING SYSTEM, containing distribution and irrigation pipelines with impulse rain and ampoule, command pulse generator in the system head and interceptor raa & command impulses with drain: piping, chord so that, in order to increase the reliability of work and to eliminate the discharge of waste water from secondary generators, to the soil, each secondary generator is equipped with a sprinkler with a shut-off device. a valve installed on the pipelines and a pneumohydroaccumulator connected through a water-jet pump with a shut-off valve, and a non-return valve with a warning pipe, while the distribution pipe to the secondary generator has a back pressure Elvpan, the first input of which is a pressure switch connected to to the check valve actuator,: and the second inlet to the near pipe line after the water jet pump.

Description

The invention relates to irrigation of rural clearing of equity coins and can be used on a stationary system. topics pulsed sprinkler. A known automated irrigation system, including distribution and irrigation. irrigation pipelines with impulse sprinklers and command pulse generation ll. The disadvantage of this automated irrigation system is low reliability with long pipelines. Another well-known automated irrigation system contains distribution and irrigation pipelines with pulsed sprinklers, a generator of command pulses in the head of the system and secondary generators of command pulses with a drain pipe 2. A disadvantage of the known system is low reliability of operation and the presence of waste water discharged by secondary generators to the soil. The circuit of the invention is an increase in the reliability of operation and the elimination of waste water discharged by secondary generators onto the soil. This goal is achieved by the fact that each secondary generator is equipped with a sprinkler with a backward valve installed on the pipeline, and a pneumohydraulic accumulator, CBS connected through a water jet pump with a proportional valve, and through a check valve with a distribution pipeline, while on the distribution valve In the pipeline to the secondary generator, a check valve is installed, the first inlet of which is connected via a pressure switch to the actuator of the shut-off valve, and the second inlet is connected to the drainage pipe after the water-jet pump but. FIG. 1 shows the scheme for the implementation of the secondary generator, its connection to the automated irrigation network; in fig. 2 - switch the pressure switch. An automated irrigation system consists of a distribution; pipe set 1, irrigated pipelines with impulse sprinklers, command pulse generator in the system head (not shown), secondary gene & impulse command rotors, each of them is equipped with a sprinkling device 2 with a shut-off valve-3 installed on the drain pipe 4, and a pneumohydroaccumulator 5 connected through a water-jet pump 6 with a shut-off valve 3, and through a check valve 7 with a distribution pipe, in which, prior to the secondary generator, a check valve 8 is installed, the first inlet of which is connected via pressure through turn 9 to the actuator 10 of the shut-off valve 3, and the second input to the drain pipe 4 after the water-jet pump 6. Operating cavity of the actuator 10 The valve 3 is connected by a pipe 11 to a pressure relay 9, which is communicated through pipes 12 and 13 to a pneumohydraulic accumulator bis by distribution pipe 1. The pressure relay is made in the form of valve 14, spring 15, bottom 16 and top 17 of the valve 14. Automated irrigation system works in the following way. When water is supplied through the distribution pipeline 1, the shut-off valve 3 is closed, since its working cavity communicates through pipes 11-13 with the detection pipeline 1. Water through the check valves 8 and 7, the water-jet pump 6 fills the capacitance. pneumohydroaccumulator 5. When the generator cut-off pressure is reached, the valve 14 of the pressure relay 9 tightly sits on the upper seat 17 and closes the inlet to the tube 12, the working cavity of the shut-off valve is powered through tubes 13 and 11, the shut-off valve remains closed. When applying a low pressure pulse, the check valve 8 closes and the pressure at its inlet is abrupt. lowered - shut-off valve 3 opens. Water under pressure of compressed air through the water-jet pump 6, the shut-off valve 3 and the sprinkler 2 is thrown into the irrigated field in the form of artificial rain and as a result of ekpepi sucks the short circuit water of the distribution pipe 1 located above the check valve 8. In this zone the pressure drops - a shot pulse sprinklers and switching on the secondary pulse generators of the next zone. When the pressure in the container of the pneumatic accumulator 5 drops to a pressure. Under the action of the spring 15, the pulse generator valve 14 cut-off 9 is tightly seated on the lower seat 16 and communicates the working cavity of the gate valve 3 with the capacity of the pneumohydraulic accumulator 5. As a result, the gate valve 3 is closed and held in this position, since the relay 9 pressure informs the working cavity of the actuator 10 of the shut-off valve 3 through the pipes 12 and 11 with the capacity of the pneumohydroaccumulator 5. The check valve 8 prevents the water flow from

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phage. I 324 Gshevmogidroakkumultor 5 back into the network and does not affect the parameters of the pressure drop pulse in the network. Thus, during operation of the proposed automated irrigation system, the overmoistening of the soil and its erosion in the zone of location of the secondary command pulse generators is excluded.

Claims (1)

AUTOMATED IRRIGATING SYSTEM containing distribution and irrigation pipelines with pulse sprinklers, a command pulse generator in the system head and secondary command pulse generators with a drain Pipeline, characterized in that, in order to increase the reliability of operation and eliminate the drainage of waste water from secondary generators, to the soil, each secondary generator is equipped with a sprinkler with a shut-off valve, a valve installed on the drain pipe, and a pneumatic accumulator connected through a water-jet pump with a shut-off valve, and through a non-return valve - with a distribution pipe, while a check valve is installed on the distribution pipe to the secondary generator, the first input of which is connected to the shut-off valve actuator through a pressure switch; a. the second entrance to the drain pipe after the water-jet pump. SU „1014532