SU1727716A1 - Control pulse generator for buried irrigation system - Google Patents

Abstract

The invention relates to agriculture and can be used in closed irrigation systems with pulsed sprinklers. The aim of the invention is to increase the reliability of operation. The command pulse generator for closed irrigation systems consists of a shut-off 5 and a drain 6 hydraulics valve, a control unit 2 and a two-compartment distributor 1 with a slide valve and a stem. The spool is installed on the flow with the possibility of free running. Podporsh- Neva cavity and entrance double seat valve 1 are respectively connected through the control unit 2 to the discharge pipe 3 and the locking cavity subpiston emogo Hydraulic valve 5. Hydraulic locking cavity nadporshnevogo emogo valve 5 communicates with the distributor outlet double seat 1 and subpiston cavity Hydraulic emogo drain valve 6, connected by a piston cavity to the atmosphere. The control unit 2 is made in the form of a pulse sprinkler with a shut-off organ and a water-air tank of 11.1 Cpfla, 3 sludge. SO with

Description

The invention relates to agriculture and can be used on stationary systems with impulse sprinklers operating in standby mode.

A known command pulse generator is included in the 10-hectare XID-10A synchronous pulse sprinkler formation kit. This generator consists of hydraulically controlled shut-off and drain pandvs, a pressure relay mounted on a command pulse sprinkler, 1 two valve valves and connecting all elements of the hydraulic communication channels.

The disadvantage of the generator is the complexity of the design and, as a result, lack of reliability.

Also known is a generator of command pulses for closed irrigation systems, including shut-off and drain hydraulically controlled valves installed in the discharge pipeline, command pulse pulser with adjustable throttle in the filling line, a hydraulic distributor (pressure switch) made in the form of a spring-loaded spool distributor, the piston actuator is connected to the tank of the command pulse sprinkler during the formation of the primary pressure pulses, or to the trunk of this sprinkler during the formation of the second ary pressure pulses and connecting the shut-off and drain valve in the presence of pressure in the piston drive, respectively to the flowline and to the atmosphere, and in the absence of pressure - on the contrary.

A disadvantage of the known generator is the lack of reliability of the spool valve operation when operating it with ordinary irrigation water, since with tight tolerances in the size of the rubbing steam it will jam if it hits suspended particles, and also because of salt deposition on the rubbing surfaces. With more free tolerances in size, water flows between the spool and the housing, which disrupts the operation of the generator.

The aim of the invention is to increase the reliability of the command pulse generator.

The goal is achieved by the fact that the spool is installed on the rod with the possibility of free running, while the podporshche cavity and the inlet of the distributor are respectively connected through the control unit with the discharge pipe and with the over-piston cavity of the shut-off valve, the sub-piston cavity of which is connected to the outlet of the distributor and the above-piston valve cavity drain valve connected podporshnevoy cavity with the atmosphere. The control unit is made in

in the form of a pulse sprinkler with a shut-off organ and a water-air tank, while the piston cavity of the hydraulic distributor is connected through a water-air tank and an adjustable droop0 sel with the pressure pipe after the shut-off valve.

Fig. 1 is a schematic diagram of a command pulse generator; FIG. 2 is a structural diagram of a double-seat distributor; Fig. 3 is a structural diagram of the control unit.

The generator contains a double-seat distributor 1, a control unit 2, which is one of the sprinklers of the system connected to the pressure pipeline 3 through an adjustable throttle 4, installed in the pressure pipeline shut-off 5 and drain valves and hydraulically controlled

5 7-10 connections connecting generator elements. The control unit 2 contains a water-air tank 11, divided into an aqueous 12 and an air 13 cavity by means of an elastic membrane 14, a locking member 15 and

0 a sprinkler nozzle 16 with a barrel and a subconnecting nipple 17. The locking member 15 includes a spring-loaded piston 18 with an elastic cuff 19, a cup 20, a lid 21 and connected nozzles

5 22 and 23.

The twin-seat distributor 1 comprises a housing 24 with an inlet 25, an outlet 26 and a drain 27 channels, a spool 28 and a piston 29 connected by a rod 30. Por0 29 by means of a spring 31 is pressed against the cover 32 having an inlet channel 33.

Communication channel 10, through which control pressure is applied, can be connected to "point 17" or to point 22 of the control unit.

The command pulse generator works as follows.

When filling the system, the valve 5 is open, and the valve 6 is closed, because the piston-; VA and the piston cavity of the hydraulic drive

0 valve 5 are connected, respectively, by communication channel 7, and through channels 25 and 26 of the two-section distributor 1 by communication channels 7.9 and 8 with pressure, and for valve 6, the piston chamber 7, 9 and 8

5, channels 25 and 26 are connected to pressure, and the piston cavity is permanently connected to the atmosphere. In this case, part of the water from the pressure pipeline 3 enters the water cavity 12 of the water-air tank 11 through

an adjustable throttle 4, a connected nozzle 23 and a gap formed between the piston 18 with the elastic cuff 19 and the cup 20, since the piston 18 is pressed against the cover 21 and cuts off the water cavity 12 from the atmosphere through the sprinkler nozzle 16.

Downward movement of the cerebral membrane 14 and compression of the pre-pumped air in the cavity 13 occurs. After the command pulse sprinkler 2 is filled, the pressure in its water cavity will increase and the force acting on the piston 29 blocking the channel 33, will exceed the force of the spring 31. the piston will start to move to the left, opening the passage of water into the cavity of the cover 32, but due to the presence of a free stroke will not affect the spool 28. Since the area of the piston 29 is larger than the area of the channel 33, then dase vuyuschego the opening of the piston, the piston smestits quickly left through the rod 30 and shift the spool 28 to the left, which will block the inlet passage 25 and outlet passage 26 will report to the spill passage 27.

The shut-off valve 5 closes and the drain valve 6 opens, since the shut-off valve in the shut-off valve is sub-piston, and in the drain valve of the super-piston cavity of the hydraulic actuators, the communication channels 8 and 9 communicate with the atmosphere through the channels 26 and 27. The pressure in the pressure pipeline 3 will decrease and the accumulated volume of water will splash out with all impulse sprinklers on the system, including the command impulse sprinkler. The pressure at point 22 will drop to zero, and the piston 29 of the double-seat distributor 1 will move to the right under the force of the spring 31, closing channel 33. At the same time, the valve 28 under the action of pressure in the input channel 25 will also move to the right, together with the input channel 25 with the output channel 26 and the drain channel 27 is blocked. Valve 5 will open and valve 6 will close, and the generator cycle will be repeated. To ensure reliable operation of the command pulse generator in a large range of pressure changes in the pressure pipeline, the area of the inlet channel 25 and the drain

channel 27 is about half the piston 29 area.

When a Yusv zi channel is connected to point 17 to the trunk of a command pulse sprinkler, the device operates as a secondary pulse generator. At the same time, during the pressure impulse produced by the primary (head) command pulse generator, the pulse sprinkler 2 is activated, the pressurized water enters its trunk and through the communication channel 10 to the control valve 1. The latter is activated and switches the shut-off and drain valves also . as in the mode of the primary pulse generator, and creates a secondary pulse of decreasing pressure in the pressure pipe.

Invention Formula

Claims (2)

1. Generator of command pulses for closed irrigation systems, including shut-off and drain hydraulically controlled valves installed on the discharge pipeline with sub-piston and sub-piston cavities, control unit and double-seat distributor with spool, rod, piston and body with outlet, drain, sub piston cavity and an inlet connected to a pressure pipeline, characterized in that, in order to increase the reliability of operation, the spool is mounted on the rod with the possibility of a free stroke relative to it, while eva cavity and inlet distributor are connected respectively via a control unit with a pressure conduit and a cavity above the piston check valve subpiston chamber which communicates with the outlet of the distributor and above the piston. a cavity of the drain valve, connected by a piston cavity to the atmosphere. 2. The generator according to claim 1, of which is that the control unit is designed as a pulse sprinkler with a shut-off organ and a water-air tank, while the hydraulic piston distributor cavity is connected through the water-air tank and adjustable choke with pressure pipe after the shut-off valve.