SU1055432A1 - Hydraulic timer - Google Patents

Abstract

HYDRAULIC TIME RELAY, containing a diaphragm actuator mounted on the discharge pipe, a separation chamber, the working cavities of which are filled with working fluid, and communicated through a throttle and valve distributor, the brush of which is kinematically connected with a diaphragm actuator, characterized in order to simplify the device, To improve the quality of irrigation, the separation chamber is placed in a casing communicated with a push pipe with the possibility of creating irrigation water in the circulation casing. (L O1 ate 4; SA: oo

Description

The invention relates to agriculture, namely, to the technique of irrigation of agricultural crops and can be used in command pulse generators of systems and installations with pulsed irrigation technology.

A hydraulic time relay is known, which includes a diaphragm separation chamber, a diaphragm actuator with a stem and a diaphragm, which have cavities filled with a working fluid and communicated through the valve, and the diaphragm separation membrane is kinematically connected with the diaphragm actuator stem that interacts with a switching lever with a valve switch one.

A disadvantage of this device is the low quality of water distribution during irrigation due to temperature changes in the viscosity of the working fluid, since this changes the flow rate of the working fluid, and, consequently, the time intervals.

It is also known a hydraulic time relay containing a diaphragm actuator mounted on the discharge pipe, a separation chamber whose working cavities are filled with a working fluid, such as oil, h communicated through a throttle valve and valve, the stem of which is kinematically connected with the diaphragm actuator stem 2.

A disadvantage of the known hydrorelay is the difficulty of making and adjusting a capillary throttle device with bimetallic plates in a package associated with an adjusting screw due to the difficulty of fitting the corresponding characteristics of all three elements involved in the control process (temperature dependence of kinematic viscosity of the oil, temperature dependence changes in the hydraulic resistance of the throttle from its linear movement, the dependence of the movement of the package of bimetallic plates on the temperature). Therefore, the well-known hydraulic time relay is operable only if all these characteristics coincide over a wide range of variable temperatures, iiiTO also reduces the quality of irrigation.

The purpose of the invention is to simplify the design and improve the quality of irrigation.

This goal is achieved by the fact that the separation chamber is placed in a casing in communication with the discharge pipe with the possible creation of irrigation water in the circulation casing.

The drawing shows a diagram of a hydraulic time relay.

The hydraulic time relay is installed on the pressure pipe 1 and consists of a diaphragm actuator 2 with a diaphragm 3, a piston 4, a brush 5 with stops, a separating chamber 6 with a membrane 7, the housing 8 of working cavities A and B, filled for example with oil, and communicated through the choke 9.

The housing 8 is housed in the housing 10, hydraulically connected to the inlet 11 and outlet 12 pipelines with the discharge pipe 1, on which a vent 14 is rigidly embedded between the membranes 3 and 7 to create a pressure difference between them at the inlet of the output pipeline 12. The stem 5 of the diaphragm actuator 2 communicates via a spring switch 15 with a valve distributor 16, which is connected via a pipe 17 with a pressure pipe 1, a pipe 18 with a working body (not shown) and a pipe 19 with submembrane strips Strongly separation chamber above the piston cavity 6. diaphragm actuator tube 20 is connected to the feed line. Hydraulic time relay works as follows.

Irrigation water from the pressure pipe 1 flows through pipe 20 into the piston cavity of the diaphragm actuator 2 above Q and through pipe 17 through the valve distributor 16 into the working element and into the submembrane cavity of the separation chamber 6. Oil pressure flows through the throttle 9 from po 5 in the cavity B, due to the simultaneous action on the membrane 3 of the oil cavity A and the stem 14, the movement of the diaphragm 5 of the diaphragm actuator acting on the spring switch 15, which closes the valve distributor 16 for 0 pass irrigation water to the working body. Water from the working device and the separating chamber through the pipeline 18 and 19 through the valve distributor is discharged into the atmosphere. The water entering the diaphragm actuator 2 presses on the piston 4 connected to the membrane 3, which produces pressure in May of cavity A, from which it flows into cavity B, lowering the membrane 7 to its lowest position. At the same time, the stem 5 of the diaphragm actuator transfers the spring-mounted switch 15 to the position in which the valve valve 16 opens again for access of the irrigation water through it to the working member and the submembrane cavity of the separation chamber. The operation of the hydrorelay is repeated. 5 During the operation of the relay, the working fluid (oil) flows from one cavity to another with varying speed, since its viscosity changes depending on the ambient temperature, which adversely affects the quality of water distribution. To avoid this, the body of cavities A and B is placed in a water jacket, into which the irrigation water flows from the main pipeline through the inlet pipe 11, flowing around the body of the working cavities and maintaining a constant temperature in them. comparing with air, heat capacity. In order to create a constant circulation of irrigation water in the water jacket-hood 10, the outlet pipe 12 communicates with a Venturi nozzle embedded in the pressure pipeline and creating a pressure differential in the water jacket. Such an implementation of the hydraulic time relay allows improving the quality of water distribution during irrigation and greatly simplifies the design and adjustment of the time-control valve.

Claims (1)

HYDRAULIC TIME RELAY, containing a membrane actuator mounted on the pressure pipe, a separation chamber, the working cavities of which are filled with a working fluid, and communicated through a throttle and valve distributor, the rod of which is kinematically connected to the membrane actuator rod, characterized in that, in order to simplify the device and increase quality of irrigation, the separation chamber is placed in a casing connected with a pressure pipe with the possibility of creating irrigation water circulation in the casing. SL SL neither OO to