SU1544293A1 - Irrigation system for mountain conditions - Google Patents

Abstract

The invention relates to agriculture and can be used for irrigation of agricultural crops in the mountains. The aim of the invention is to increase the reliability of the system. The irrigation system for mountain conditions consists of a pressurizing unit 1, a main pipeline 2, sections 6 of a distribution pipeline with channels of irrigation pipelines 5 with hydraulically controlled 4 and command 8 pulse sprinklers. At the end of the main pipeline 2, a command pulse generator 3 is installed in front of the first section 6 of the distribution pipeline. Distribution piping sections 6 are provided with open type pressure limiters 9. Pressure limiters 9 are interconnected in series. Distribution piping sections 6 are also interconnected in series with secondary pulse generators 7, the inputs of which are connected to the inputs of the respective pressure limiters 9. The command pulse generator 3 and the secondary pulse generators 7 are hydraulically connected to the command impulse sprinklers 8 of the corresponding distribution section 6 of the distribution pipeline. When the irrigation system is operating, reliable operation occurs.

Description

(L S.

4 controlled and 8 command pulse sprinklers. At the end of the main pipeline 2, a command pulse generator 3 is installed in front of the first section 6 of the distribution pipeline. Sections 6 of the distribution pipeline are equipped with pressure limiters

the inputs of which are connected to the inputs of the corresponding pressure limiters 9. Command pulse generator 3 and secondary pulse generators

7 hydraulically connected with command pulse sprinklers

8 corresponding sections 6 of the distribution pipeline. When working

9 open type. Limiters of the irrigation system occurs

nor 9 are connected to each other in a consistently consistent manner. Section 6 of distribution

piping interconnected

also sequentially through

secondary pulse generators 7, 15

section 6 of the distribution pipeline 2 with pulse sprinklers 4 and 8. 2 C.p. f-ly, 4 ill.

The invention relates to agriculture and can be used for irrigation before (waiting for agricultural crops in the mountains

The goal and the invention is to increase the reliability of the system.

FIG. 1 shows the scheme of the irrigation system; in fig. 2 — open type pressure limiter; Fig, 3 - command pulse generator; Fig, 4 - the secondary pulse generator.

The irrigation system consists of a pressure-generating unit, for example, an attachment tank J, a main pipeline 2 with a generator of 3 command pulses, a hydraulically controlled pulse sprinkler 4 installed on the branches of the irrigation pipe 5 connected to sections 6 of the distribution pipeline located along the slope, section 6 interconnected by means of secondary generators 7 pulses. The first trenches of the irrigation pipelines have command pulse sprinklers 8. Sections 6 are provided with pressure limiters 9. The pressure limiter 9 consists of a spring-loaded valve 10 with an inlet 11, an outlet 12, a hydraulic actuator 13 with a sub-piston cavity 14, and a tank 15 with an inlet manifold 16 and an outlet 17. The tank 15 has a valve nozzle-damper with a float actuator 18 and a float 19. Valve the nozzle-flap is made in the form of a nozzle 20 and flap 21; The inlet 11 of the valve 10 is connected via an adjustable choke

section 6 of the distribution pipeline 2 with pulse sprinklers 4 and 8. 2 C.p. f-ly, 4 ill.

0

five

five

0

five

0

five

22c with a piston cavity 14 and a nozzle 20.

The command pulse generator 3 consists of a pressure relay 23, a drain valve 24 with a hydraulic actuator 25 With a sub piston cavity 26, a pressure valve 27 with a hydraulic actuator 28 with a sub piston cavity 29 and a hydraulic switch 30, which controls cavity 31 through a tube 32 with a relay

23pressures The hydraulic switch 30 is made double-seat with inter-saddle space 33, drain cavity 34 and control cavity 35, last communicated by tube 36 with outlet 37 of pressure valve 27. Inlet 38 communicates with sub-valve cavity 39 of drain valve 24 and primal valve 40 valve 27. Pressure relay 23 connected by feedback channel 41 to the command apparatus 8 of the first tier of the first section 6 of the distribution pipeline. Input 38 is connected

e main pipeline 2, and the output 37 - with the first section 6 of the distribution pipeline. Sub-piston cavities 26 and 29 are interconnected between each other by tube 42 - with the interstitial cavity.

The secondary generator 7 pulses made in the form of a drain 43 and 44 pressure valves with hydraulic actuators

45 and 46 with sub-piston cavities 47 and 48. The hydraulic switch 49 is designed similarly to switch 30 and has an inter-seat cavity 50 hydraulically connected to sub piston cavities 47 and 48, Generators 7 with super-piston blades 51 through channels

52 communications are communicated with command impulse apparatuses 8 of the upper rus of sections 6, located below the first section. The control cavities 53 are connected by control communication channels 54 to the outputs of sections 6. The outputs 55 of generators 7 are connected to the inputs of sections 6. The inputs 56 of generators 7 are connected by inputs 11 of pressure limiters 9 of the respective sections 6, Pressure limiters 9 are interconnected in series with pipes 57. The input 11 of the limiter 9 pressure of the first section 6 is connected to the main pipeline 2 to the generator 3 command pulses.

The irrigation system works in standby mode as follows.

Water from the storage tank 1 through the main pipeline 2 through the generator 3 command pulses enters the first section of the distribution pipeline and through the pressure limiters 9 and the secondary generators 7 pulses to the remaining sections 6. From section 6 the water enters the irrigation pipelines 5 and the pulse sprinklers are filled devices 4 and 8. At the same time, valves 10 are open under the action of pressure in the main pipeline 2. On the same Brem, the drain valves 24 and 43 of generators 3 and 7 are closed, and pressure valves 27 and 44 are open yty since the subpiston space 26 and 29 of the generator 3 through the tube 36 communicated with the main conduit 2, and the cavities 47 and 48 ° in the secondary generator 7 - with upstream sections 6 via the control channels 54 communication. The valves 24, 43, 27 and 44 are held in this state until the command pulse apparatus 8 of the first section 6 of the distribution pipeline is filled. After filling the pulse sprinklers 4 of the irrigation pipelines 5 sections 6, the water level in the tanks 15 starts to rise and acts on the floats 19, which are closed through the levers with dampers 21 of the nozzles 20. The pressure in the cavity 14 of the valves 10 of the limiters 9 pressure rises to the bottom pressure marks of the main pipeline 2, as pressure limiters 9 are connected in series. Valves 10 in this case 442936

kryyvayuts. After filling the command sprinkler in the first upper section 6 of the pressure relay 23, the control chamber 31 of the hydraulic switch 30 is activated and communicates through the communication channel 52 to the filled command device 8 in the first section 6. At the same time, the hydraulic switch 30

U triggers and communicates sub-piston cavities 26 and 29 with the atmosphere. Under the action of pressure in the main pipeline 2, the pressure valve 27 is closed, and under the action of pressure

15 in section 6, the drain valve 24 opens and the pulse sprinklers 4 and 8 of the first section 6 are triggered. This causes a decrease in pressure in the first section 6, and

20 therefore, in the control channels 54 of the communication of the secondary generators 7 of the next section 6. In this case, there is a sequential top-down operation of the hydraulic switches 49

25 adjacent downstream sections 6 with provision for appropriate switching of valves 43 and 44 of secondary pulse generators 7 and triggering of impulse sprinklers 4

30 and 8.

After the splash out of the impulse sprinklers 4 and

8, generators 3 and 7 are returned to their original position. The pressure restraints 9 will also return to their original position, since the water level in the tanks 15 will decrease when filling the apparatus 4 and 8 of the sections 6. This ensures that the nozzles 20 of the restraints are opened

The pressure 9 and the valves 20 under the action of the pressure in the main pipeline 2 will open. In the future, the work cycle is repeated.

Claims (3)

1. An irrigation system for mountain conditions, including a pressure-generating unit, a main pipeline with a generator of command pulses with inlet, outlet and feedback channel, hydro-controlled impulse sprinklers installed on the branches of the irrigation pipelines located along the slope and connected by inlets and outlets between by means of secondary pulse generators with input, output and control channels and a hydraulic switch, and a command pulse sprinkler installed on the first floor of the first section and hydraulically connected by a feedback channel to the command Pulse generator, differing from that, in order to increase the reliability of the system, the distribution piping is equipped with open-type pressure limiters with inlet and outlet, with the pressure limiters interconnected sequentially, the pressure limiter input of the first section is connected to the main pipelines boprovodom to Tora generator command s momentum and pressure limiter inputs of subsequent sections are connected to the inputs of generators of the secondary pulses, control channels are connected to the outputs of the upstream section of the distribution manifold. 2. The system of Claim 1, distinguished to the fact that the open type pressure limiter is made I / in the form of a spring-loaded valve with inlet and outlet and a hydraulic actuator with a piston-piston cavity, a tank with inlet and outlet nozzles and a valve installed therein a nozzle-damper with a float actuator, while the inlet of the spring-loaded valve is hydraulically connected by means of adjustable droplets to the sub-piston cavity of the hydraulic actuator and with valve nozzle-damper 3. The system of clause I, o-t, and - that the system is additionally equipped with command impulse sprinklers, and the hydraulic switches of the secondary impulse generators are made two-week with communication channels, while the additional command impulse devices are installed on the first Rousse irrigation pipelines of distribution sections of the pipeline, located below the first section; and hydraulically connected to the communication channels of the hydraulic switches of the secondary generators of the respective sections. W21