SU1117019A1 - Stationary system for pulse sprinkling - Google Patents

Abstract

STATIONARY PULSE WATER SYSTEM, containing a water intake unit with a pumping unit, a pipe network connected to impulse sprinklers, a command pulse generator, a control panel with set points for the operation of the pump unit and a command impulse generator, a sensor for filling water and air tanks of impulse sprinklers, a sensor for irrigation, and channels. z, characterized in that, in order to increase the efficiency of irrigation by providing automatic control of volumes and periodicity of splashing water to the irrigated area, the system is equipped with a network of air ducts with an air pressure sensor and a relief valve connected via shut-off valves to the air chambers of the water-air tanks of the pulse sprinklers, and a compressor unit, and the control panel has settings for the operation of the compressor unit, shut-off valves and the waste valve . (L

Description

The invention relates to agricultural production, in particular to stationary sprinkler systems with impulse sprinklers, and can be used for effective irrigation of cultivated areas while maintaining the most favorable conditions of water exchange in plants.

Stationary impulse systems: sprinklers, containing a network of pipelines and pulsed sprinklers 1 are known.

Their disadvantage is the inability to regulate the irrigation regimes depending on the configuration of the irrigated area.

Closest to this invention is a pulsed sprinkler system comprising a water intake assembly with a pump unit, a network of pipelines connected to the impulse sprinklers, a command pulse generator, a control panel with set points for the operation of the pump unit and the command pulse generator, a sensor for filling the water-air tanks of the pulse sprinklers , watering sensor and communication channels 2.

A disadvantage of the known system is also the impossibility of automatically controlling the irrigation regimes, due to the size and efficiency of the irrigated area, which reduces the flow rate.

increasing the efficiency of irrigation inventions by providing automatic per leveling and volume of water splashes to the irrigated area.

This goal is achieved by the fact that a stationary impulse rainfall system containing a water intake unit with a pumping unit, a pipe network connected to impulse sprinklers, a generator of command impulses, a control panel with setters for operation of the pumping unit and a generator of command impulses, a sensor filling the air / water tanks impulse1 sprinklers, sensor G1O.; 1iva and communication channels, equipped with a network of air ducts with an air pressure sensor and a relief valve connected through a shut-off valve An air tank with air tanks of impulse sprinklers, and a compressor unit, and the control panel has controllers for the operation of the compressor unit, shut-off valves, and a waste valve.

FIG. 1 is a diagram of a stationary impulse sprinkler system; in fig. 2 is a graph of the volume of the sprinkler splash versus a predetermined pressure in the air chamber; in fig. 3 - pulse sprinkler.

The stationary impulse sprinkler system includes a water intake unit 1 with a pumping unit 2 with an electric motor 3, a network of pipelines 4 connected to the power sprinklers 5, a generator of command impulses 6, a sensor for filling water-air tanks 7, a sensor for irrigation 8, a network of air ducts 9 with a sensor air pressure 10 and a relief valve 11, connected via shut-off valves 12 to air chambers 13 water tanks of pulse sprinklers 5 and a compressor unit 14 with an electric motor 15, control panel 16 s controllers of operation of the pump unit 17, command pulse generator 18, compressor unit 19, shut-off valves 20, waste valve 21 and with an electronic computing machine 22, communication channels 23. Water-air tanks of pulse sprinklers contain an elastic air chamber 13 placed in a restrictive shell 24.

On the barrel of a pulse sprinkler, a spraying device or a device 25 regulating the splash distance can be located, made, for example, in the form of a splitter inserted into the jet, throwing it out of the barrel, a diaphragm, changing the diameter of the jet, and also a rotator of the trunk in a vertical plane etc.

The system is equipped with a wind direction and speed sensor 26 associated with a control panel.

The stationary pulse sprinkler system works as follows.

Compressor 14 injects air into the duct network 9 and into the air chambers 13 of the impulse sprinklers 5 placed in the confinement shell 24 to a predetermined lower pressure limit, i.e. the outflow end pressure. This pressure, which corresponds to a certain amount of sprinkler sprinklers at a certain upper pressure, is recorded by an air pressure sensor 10 connected to a control panel 16, by means of which the operation of the compressor unit 14 is controlled and the shut-off valves 12 are closed, shutting off control devices of the control panel.

The water entering through the water intake unit 1 is pumped by the pump unit 2 into the network of pipelines 4 and into the air tanks of the pulse sprinklers 5, compressing the air enclosed in elastic air chambers 13 to a predetermined upper pressure limit, which is detected by the fill sensor of the air-water tanks 7 , sending a signal via communication channel 23 to the control panel 16, which, by means of the work trigger, switches on the pump agoegat

2 and commands the pulse generator 6 to form a pulse to open the shut-off organs of the pulse sprinklers 5.

When opening the shut-off organs of the pulse sprinklers and making splash, the air trapped in the elastic air chambers 13 restores the volume and the corresponding pressure, and the pressure of the water in the water spout of the sprinklers drops to the pressure in the pipeline. After that, the cycle repeats.

Pressure reduction in the duct network 9 and the air chambers 13 of the pulse sprinklers 5 is performed by means of a relief valve 11, which is opened by a signal from the control panel 16 with the shut-off valves 12 open. The shut-off valves 12 serve to prevent air from the air chambers 13 from falling into the duct network during filling water tanks water impulse sprinklers 5.

The regulation of volumes and periodicity of splashes is carried out from the automatic control panel according to the sensor readings of the need for irrigation 8 and in accordance with the program introduced into the computer-22, which takes into account changes in conditions for the cultivated -culture during its growing season.

Taking into account the readings of the sensor, the lines and wind speeds 26 and the computer calculations in the system can be carried out at varying upper and lower pressures depending on the direction of the outburst and the direction of movement of the air flow.

As can be seen from the graph shown in FIG. 2, by changing the lower limit of the pressure in the air chamber of the air tank, it is possible to control the volume of the splash of the sprinkler, and by changing the upper and lower limits of the pressure, it is possible to regulate the volume of the splash within fairly wide limits.

The proposed system of pulsed sprinkling allows to increase the efficiency of irrigation by providing optimal conditions for the water exchange of plants by adjusting the volume and frequency of water splash out of pulsed sprinklers, ensures economical use of water resources and. Irrigation of the irrigated area consistently, in a circle with different maximum and minimum radii, allows irrigation at wind speeds exceeding the standard (up to 7 m / s), as well as irrigating areas of any configuration.

Claims (1)

STATIONARY PULSE RAINING SYSTEM, comprising a water intake unit with a pump unit, a network of pipelines connected to pulse sprinklers, a command pulse generator, a control panel with adjusters of operation of the pump unit and command pulse generator, a sensor for filling the air-water tanks of pulse sprinklers, an irrigation need sensor and channels communication, characterized in that, in order to increase the irrigation efficiency by providing automatic control of the volume and frequency of water splashes On the irrigated area, the system is equipped with a network of air ducts with an air pressure sensor and a relief valve connected through shut-off valves to the air chambers of the air-water tanks of pulse sprinklers, and a compressor unit, and the control panel has control units for the operation of the compressor unit, shut-off valves, and relief valve. "Rg / g. 7 ί