SU1228805A1 - Automated sprinkler - Google Patents

Description

The invention relates to agriculture, in particular to automated sprinkler systems.

The aim of the invention is to increase the reliability and simplify the system.

The drawing shows a diagram of an automated sprinkler system.

The system includes a pumping station 1, a pressure line 2, irrigation pipelines 3 with sprinklers 4, valves 5 and 6 with hydraulic motors 7.

The shutter 5 on the first irrigation pipe 3 is made normally open, and the valves 6 of the subsequent pipelines are normally closed.

Distributors 8 and 9 are driven through a lever switch 10 from the rod 11 of the time delay hydrorelay.

The time delay hydrorelay is made in the form of two cavities formed by membranes 12 and 13 with rigid centers 14 and 15, while the diameter of the center 14 of the second cavity is larger than the diameter of the center 15 of the first cavity. The cavities are filled with oil and connected via an adjustable throttle 16 and non-return valve 17. The time delay relay, starting from the second pipe 3, is connected by channel 18 to the irrigation pipe 3 to the gate 6. One of the cavities of each gate hydraulic motor is directly connected to the pressure line, and the second cavity channel 19 - directly from the outlet of the distributor, while the piston of the distributor is made differential. The time delay relay is connected in series by channels 20-23 to the first irrigation pipeline to the gate through distributors 8 and 9, and a check valve 24 is installed on the communication channel 23 connecting the distributor 9 of the last irrigation pipeline to the cavity of the delay relay of the first irrigation pipeline. At the same time, one of the cavities of the delay time hydrotitre of the first irrigation pipe is connected by channel 25 to the irrigation pipe 3 after the valve 5, and the other cavity through control valve 26, cavity g drodvigatel oneway whose associated channel 27, through the distributor 8 and the conduit 20 to the conduit until the shutter and with a drain via the distributor 8 - to the pipeline after the shutter 5.

The first irrigation pipeline 3 is hydraulically connected by channels 20 and 28 to channel 23 and distributor 8 through shut-off members 29 and 30. On the first pipeline, there is a two-valve distributor 8, and on subsequent pipelines - three-valve distributors 9.

The system works as follows.

The pumping station 1 is turned on, the pressure line 2 is filled and the irrigation pipes 3 are up to the valves 5 and 6. The irrigation pipe is filled through the normally open valve 5, and irrigation occurs. The valve 30 in the initial position is open, and the water through the channel 20 through the distributor 8 and the channel 27 enters the hydraulic chamber cavity. gate and opens control valve 26,

 water enters the right (first) cavity of the time delay hydrorelay. At the same time, water through channel 25 enters the left (second) cavity of the time delay hydrorelay. Oil is squeezed out of

The second g of the core is first through the adjustable throttle 16. After a predetermined time, which is set by adjusting the throttles 16, the stem I switches the distributor 8 to the extreme left position using switch 10, while the water in the channel 19 enters the working cavity of the hydraulic motor ; I have shutter 5 and closes it, thereby shutting off the first irrigation pipeline. The control valve 26 also closes, as the channel 27 is connected through a distributor with a drain.

At the same time, through the channel 21 through the distributor 9 and the channel 19, the water enters the working cavity of the hydraulic actuator of the shutter 6 and opens it, thereby activating the second irrigation pipeline. Water

5, the channel 22 enters the left (second) cavity of the time-delayed hydrorelay, oil is squeezed from the second cavity into the first cavity, thereby after a specified time the distributor 9 of the second irrigation pipeline switches over,

At this, the working cavity of the hydraulic drive is connected through the channel 19 and the distributor 9 with the drain, and the shutter 6 is closed.

At the same time, via channel 21, the signal goes to the next irrigation pipeline and puts it into operation. When this occurs, the oil is squeezed from the first cavity to the second through the check valve 17, the valve 8 is transferred to its original initial position, and the first irrigation pipeline is ready for operation, and the cycle

0 system operation is repeated. At the same time there is a drain from the left (second) cavity of the time delay hydrorelay through channels 22 and 21 through the distributor 8, while the distributor 9 of the second irrigation pipeline takes the initial position and

5 connects the left (second) cavity most of the time delay to the next irrigation pipeline with a drain.

Similarly, all irrigation lines 1) 1e operate in sequence, up to the receipt of a control signal through channel 23 from the last irrigation pipeline into the right-hand cavity of the irrigation pipeline time delay nejJBoro.

5So the entire system is sequentially returned to its original position. During operation of the system, the valve 30 is open and the valve 29 is closed. When you restart the system to work.

five

after an emergency shutdown of the pumping station, the valve 29 is opened and the valve 30 is closed, and the distributor 8 is reset and the first irrigation pipeline is put into operation. After the first irrigation pipeline is put into operation, the valve 29 is closed and the valve 30 is opened.

The technical and economic efficiency of the automated sprinkler system is to increase the reliability and simplify the design.

About O.

 1 pipeline 15

Editor G. Gerber Order 2208/1

Compiled by G. Paraev

Tehred I. VeresKorrektor V. Butt ha

Circulation 679 Subscription

VNIIPI USSR State Committee

for inventions and discoveries

113035, Moscow, Zh-35, Raushsk iab., 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

Claims (3)

1. AUTOMATED SPRAYING SYSTEM, including a pumping station, a pressure line, irrigation pipelines with sprinklers, valves installed at the inlets of the irrigation pipelines and equipped with hydraulic motors, one of the cavities of which is connected to the irrigation pipeline to the valve, and the other to the first outlet of one distributor, connected to the input of each subsequent distributor, except for the last, the first output of which is connected to the input of the control valve, and a time delay hydraulic relay, the rods of which are through levers the switches are kinematically connected with the rods of the distributors, wherein the first control cavity of each time delay hydraulic relay, except the first, is hydraulically connected to the irrigation pipe to the shutter, while the inlet of the first distributor is connected to the irrigation pipe to a shut-off element, characterized in that, in order to increase reliability and simplification of the system, it is equipped with a check valve installed between the first output of the last distributor and the input of the control valve, and a normally closed shut-off element Included between the first irrigated conduit to the gate and the first control chamber a first gidrorele delay time, connected also to the input of the control valve, the second control cavity first gidrorele delay time connected with irrigation conduit after the shutter, and the second control cavity remaining gidrorele - to the input of the distributor. 2. The system by π. 1, characterized in that. that the diameter of the rigid center of the membrane of the first control cavity of each time delay hydraulic relay is made smaller than the diameter of the hard center of the membrane of the second control cavity. 3. The system according to π. 1, characterized in that. that a two-valve is installed on the first pipeline, and three-valve distributors on the subsequent ones. bie bie QO SJ SD> V IVZ- '·. ·. l