RU1822678C - Command pulse generator - Google Patents

Abstract

Usage: in agriculture, in particular when irrigated with automated sprinkler systems to increase reliability. SUBSTANCE: command pulse generator includes a regulating shut-off element 1 with a hydraulic actuator 5, a main follow-up valve 16, a distributor 25 and a hydraulic relay. An additional follow-up valve 36 is installed in the communication line of the hydraulic relay and distributor 25 and is connected at its inlet to the pressure pipe 10. 1 or.

Description

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The invention relates to agriculture, in particular to automation devices for irrigation systems.

The purpose of the invention is to increase operational reliability.

This is achieved by the fact that the command pulse generator for sprinkler systems is equipped with an additional follow-up valve, which is installed in the communication line of the hydraulic relay and switch and is connected by its input to the pressure pipe to the shut-off element.

The drawing shows a schematic hydraulic diagram of the proposed generator.

It includes a regulating shut-off element 1, containing a plate 2, which is connected by a rod 3 to the membrane 4 of the hydraulic actuator 5. The working cavity b of the hydraulic actuator is connected to the pipeline 7 to the locking element through the throttle 8 and filter 9, and to the pipeline 10 after the locking element is connected by lines communication 11, 12, 13 through a check valve 14 having a diaphragm actuator 15 and a follow-up valve 16.

On the pipeline 10, after the shut-off element, a relief valve 17 with a diaphragm actuator 18 and an adjustable spring 19 is installed. the atmosphere. The distributor 25 is kinematically coupled via a linkage 26 to a piston of a hydraulic time switch.

The time relay includes a separation chamber 28 and a hydraulic chamber 29, each of which, using a membrane 30 and 31, forms cavities A and B filled with oil and connected through an adjustable throttle 32 and a non-return valve 33. The separation chamber of the time relay is connected to the control cavities of the non-return valve and simultaneously connected via a distributor to the atmosphere.

The hydraulic actuator chamber of the time relay is connected by communication lines 34 and 35 to the distributor and the output of an additional follow-up valve 36, the inlet of which is connected via the filter line 37 to the piping to the shutoff valve.

The follower valves 16 and 36 include a diaphragm 38, an actuator 39, cooperating with a seat 40 and spring-loaded by a set spring 41.

The generator operates as follows. In the initial state, the locking member 1 of the generator is in the closed position. When a working pressure appears in the pipeline 7, water through the filter 9 and the throttle 8 enters the working chamber 6 of the hydraulic actuator 5, then through the communication line 11 to the check valve 14 and acting on the actuator 15 closes it, since the control cavity 24 of the valve through the distributor 25 is connected to the atmosphere. In this case, the water pressure acts on the membrane 4 and the shut-off element 1 is in a closed

position.

The relief valve 17 is open, since the control cavity of the actuator 20 is connected through the distributor 25 to the atmosphere and water is discharged from the pipeline 10

5 until the desired lower level of pulse decay pressure is reached, after which the valve 17 is closed by the spring 19. By acting on the actuator 18. The water discharge of the pipeline 10 occurs to a predetermined

0 pressure required to switch the actuators, for example a water lock on the irrigation system, and is set by an adjustable spring 19.

At the same time, water under pressure

5 of the communication line 37 through an additional servo valve 36 through the communication lines 35 and 34 enters the distributor 25 and into the cavity of the hydraulic drive chamber 29 of the time relay.

0 When water pressure acts on the membrane 31, oil is transferred from the cavity B through the check valve 33 into the cavity A, since the submembrane cavity of the separation chamber 28 is connected by a communication line 22

5 and the distributor 25 is connected to the atmosphere. When the piston 27 reaches its leftmost position, the distributor 25 is switched using the lever mechanism 26.

0 In this case, water is dispensed from the distributor 25 through the communication line 22 and further through the communication lines 23 and 21 to the control cavities 24 and 20 of the actuators of the non-return valve 14 and the relief valve 17, respectively.

5 The check valve 14 is opened and the relief valve 17 is closed. When the check valve 14 is opened, the working chamber 6 of the hydraulic actuator 5 is connected via a follow-up valve 16 via communication lines 11-13

0 and pipe 10 after the locking element. In this case, the pressure in the working chamber 6 drops and the plate 2 with the stem 3 of the valve 1 moves upward and water is opened into the pipeline 10 of the irrigation system 5. On the irrigation system, actuators are activated that are configured for a given pressure boost signal. In the open state of the generator shut-off element, the follower valve 16 by means of a spring 41 by means of an adjusting screw (not shown) acting on the membrane 38 and the actuator 39 interacting with the seat 40 is adjusted to the operating pressure of the irrigation system.

The follower valve 36 is adjusted by means of a spring 41 with an adjusting screw (not shown) acting on the diaphragm 38 and the actuator 39, which interacts with the seat 40 on the operating pressure of the hydraulic time switch, during the entire service life, it is not retuned.

During the generator’s operation, the water pressure through the tuned follow-up valve 36, communication line 35, distributor 25, line c, connection 22 is transferred to the submembrane cavity of the separation chamber 28. Water pressure is received by the membrane 30 and oil is transferred from cavity A to cavity B through the throttle 32. In this case, due to the difference in area, the piston 27 is moved to the extreme right position using the lever mechanism 26, the valve 25 is switched to its original position (see drawing), in which the control cavity 24 The valve is connected to the atmosphere and it closes. At the same time, due to the pressure in the working chamber 6 of the hydraulic actuator 5 and the shut-off element 1 is in the closed position. Next, the device operation flow is repeated.

The introduction of an additional follow-up valve installed between the pressure pipe to the shut-off element and the hydraulic generator time relay eliminates the influence of pressure fluctuations in the pressure pipe on the operation of the time relay, i.e. guarantees the consistency of irrigation rate.

The economic effect when using the proposed generator is to increase the irrigation efficiency by stabilizing the delivery of the irrigation rate.

Claims (1)

The claims A command pulse generator for sprinkler systems, including a hydraulically actuated shut-off element mounted on the pressure pipe, a distributor with a hydraulic relay, communication lines and a follow-up valve, characterized in that, in order to increase reliability, the generator is equipped with an additional follow-up valve, which installed in the communication line of the hydraulic switch and distributor and connected at its inlet to the pressure pipe.