SU1253525A2 - Stationary system for pulsed watering - Google Patents

Description

The invention relates to agricultural production, in particular to stationary sprinklers with impulse sprinklers, and can be used to effectively irrigate cultivated areas while maintaining the most favorable conditions of water metabolism of plants.

The aim of the invention is to reduce the metal consumption of the system.

FIG. 1 shows a diagram of a stationary pulse irrigation system; figure 2 - pulse sprinkler.

The stationary pulse sprinkler system includes a water intake unit I with a pump unit 2 with an electric motor 3, a network of pipelines 4 connected to pulse sprinklers 5, a sensor 6 for filling water-air tanks of pulse sprinklers, a network of air ducts 7 with a sensor 8 for air pressure and a discharge valve 9 connected to compressor unit 10 with an electric motor} 1 and through shut-off valves 2 - with pneumo-hydraulic actuators 3, which are connected by nozzles 14c with water-air tanks 15 of pulse sprinklers 5, with prisoners in a thin shell with 16 air chambers, 17 water-air tanks of pulse sprinklers, 18 command pulse generator, sensor 9 .1 irrigation needs and a control panel 20 that includes a computer with dials 21-24 for the operation of a pump pulse generator unit, a compressor unit, a relief valve and channels 25 communications.

The system is equipped with sensors 26-33 of wind direction and speed, plant illumination, soil temperature and humidity, air temperature and humidity, soil characteristics and processing forms, soil fertility and fertilizer levels associated with the control panel.

The cases of water-air tanks 15 pulsed sprinklers 5 in order to unify the main components of the system can be made in the form of two flange-connected assemblies: a reservoir 34 of flexible waterproof material, for example, rubberized fabric, placed in a restrictive shell 35, for example, a nylon mesh, and a water distributor 36 rigid construction with nipple fitting

devices and flanges for connection to the pipeline, the sprinkler barrel and pneumatic-hydraulic actuator 13 of the check valve 12. This will provide an opportunity. replacement and a corresponding change in the working volume of the water-air tanks of the sprinklers depending on the irrigated area and the irrigation regime of the cultivated crops. Such tanks, after removing them from water and air, can be folded, and the sprinkler barrel is lowered to the ground, which makes it possible to carry out mechanized processing of fields without deepening the sprinklers into the ground. The proposed design significantly increases the storage convenience of the sprinklers in winter.

Stationary pulse system

Sprinkling works as follows.

Compressor unit 10 injects air into the duct network 7 and, in the 16 enclosures enclosed in the restrictive casing, the air chambers 17 of the pulse sprinklers 5 to a predetermined lower pressure limit, i.e. pressure of the end of the splash. This pressure, which corresponds to a certain amount of splashing of sprinklers at a certain upper pressure, is recorded by the air pressure sensor 8 associated with the control panel 20, from which the compressor unit 10 is disconnected by means of the operation sensor 23.

The water entering through the water intake unit 1 is pumped by the pumping unit 2 into the network of pipelines 4 and into the air-water tanks of the pulse sprinklers 5, compressing the air enclosed in elastic air chambers 17 to. a predetermined upper pressure limit corresponding to the pressure of the start of the outburst detected by the sensor 6 for filling the water-air tanks, which sends a signal through the communication channel 25 to the control panel 20, which, if necessary, switches off the pump unit 2 by means of setters and gives a command to the pulse generator 18 to generate a down pressure pulse to open shut-off organs of pulse sprinklers 5.

When water tanks fill 15 with water, pulse sprinklers 5 increase the pressure in the pneumatic hydraulic actuators 13 shut-off valves 12. At

reaching its predetermined value, which may be due to the area or elasticity of the elements of pneumohydraulic actuators 13 of membrane or piston types, the shut-off valves 12 are closed and prevent air from the air chambers 17 from being discharged into the duct network 7 when the water-air tanks I5 are further filled with pulsed sprinklers 5. About

When opening the valve and making a splash, the air enclosed in elastic air chambers 17 restores its volume and its corresponding pressure to the volume t5 of the restrictive shells, and the water pressure in the water tanks of the sprinklers drops to a pressure in the pipeline close to zero. With this, the pneumohydraulic actuator i3 opens the shut-off valves 20-12 and the cycle repeats.

Pressure reduction in the duct network 7 and in the air chambers 17 of the pulse sprinklers 5 is carried out by means of a relief valve 9, 25 opened by a signal from the control panel 20 when the shut-off valves 12 are open.

The volume and periodicity of the bursts are controlled by an automatic control panel in accordance with the indications of the irrigation sensor 19 and with the program introduced into it, allowing for changes in conditions for the cultivated crop over the growing season.

In accordance with the indications of the wind direction and speed sensor 26 and computer calculations in the system, splashes can be made at varying upper and lower pressures depending on the direction of the outburst and the direction of air flow.

The proposed impulse sprinkler system makes it possible to use periodic pressure changes in the water-air tanks of the impulse sprinklers, regulated by the operation of the pump unit and the command signal generator, to control the operation of the shut-off valves of the sprinkler chambers and thereby greatly simplify the system design, reduce its energy and metal consumption, improve serviceability.

35

Editor M. Kelemezh

Compiled by G. Paraev

Tehred I.Popovich Proofreader M. Maksimishinets

4651/5

Circulation 679. Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (2)

1. STATIONARY PULSE WAITING SYSTEM by ed. St. No. 1117019, due to the fact that, in order to reduce the metal consumption of the system, the shut-off valves of the air chambers of the water-air tanks of pulse sprinklers have pneumohydraulic actuators connected by nozzles to the trunks of pulse sprinklers. 2. System pop. 1, characterized in that it is additionally equipped with a plant light sensor and sensors for temperature and humidity of the soil and air connected to the computer of the software device. φί / g. 7