SU1147294A1 - Device for setting time intervals for automatic irrigation system - Google Patents

Abstract

TASKER OF TIME INTERVALS OF AUTOMATED IRRIGATING SYSTEMS including a time delay hydrorelay and a valve distributor driven by a lever of a trigger mechanism with a hydraulic rod; a time delay relay made in the form of hermetically sealed hydraulically connected through an adjustable throttle of a membrane drive chamber and a membrane separation chamber, characterized in that; in order to simplify the setter and increase reliability, the ratio of the diameters of the support washers of the membrane membrane of the diaphragm actuator and the separation chamber membrane. less than one. (L 4: tsD; about 4:

Description

The invention relates to agriculture, in particular to the technique of irrigation of agricultural crops and can be used in automated irrigation systems. pulsed irrigation technology.

A known time interval adjuster of automated irrigation systems includes a time delay hydrorelay and a valve distributor driven by a lever-trigger mechanism with a time delay hydroreader made in the form of sealed, hydraulically connected through an adjustable throttle of the membrane drive chamber and the separation chamber 1 .

However, this unit is characterized by insufficient reliability and complexity of the design.

The purpose of the invention is to increase the reliability and simplify the taskholder.

The goal is achieved by the fact that the ratio of the diameters of the support washers of the membrane of the membrane drive chamber and the membrane of the separation chamber is less than one.

The drawing shows the master time intervals automated irrigation systems.

The gauge is installed on the main pipeline 1 and includes a time delay hydro-relay, made in the form of hermetically sealed hydraulically connected through an adjustable throttle 2, the chambers of the diaphragm actuator 3 and the diaphragm separation chamber 4, and a valve distributor 5. The diaphragm actuator 3 has a diaphragm 6 with a support washer 7 and the rod 8, and in the separation chamber 4 - the membrane 9 with the support washer 10. The membranes, wounds 6 and 9 are the same in size, with the rod 11 form the cavities A, B, C and D, and the diameters of their support washers 7 and 10, respectively lesser e unit. Cavities B and C are filled with working fluid, for example, oil, and communicated between them through an adjustable throttle 2. Clay distributor 5 has a stem 12, a drain hole 13, and is connected to a working pipe (not shown) controlling pipe 14, and 15 | i 16 - respectively with cavity A of the camera

membrane drive and cavity G separative chamber. The rod 12 of the valve distributor 5 by means of a lever-trigger mechanism, consisting of a switching lever 17 and a spring 18, interacts with the stops 19 of the rod 8 of the diaphragm actuator 3.

The gauge works as follows.

Irrigated water from. trunk

pipeline 1 flows through the valve

Q distributor 5 through control pipeline 14 to the working body, and through pipes 15 and 16 in the cavities A and G of the time delay hydrorelay. At that, the rod 11 and the rod 8 connected with it move to the right, since the force developed by the membrane 9

5 separation chamber, more power developed by the membrane 6 of the membrane actuator 3, due to the difference between the plate and the diameter of their bearing washers. The working fluid from the cavity B of the divided chamber 4 through the adjustable throttle 2 flows into the cavity B of the membrane

P drive “3” for the time specified by the setting of throttle 2 AND determining the irrigation time. The movement of the rod 8 to the left continues until the stop 19 (right) by means of the switching lever -17

5 will change the position of the valve stem 12 of the valve 5 of the distributor 5, at which the drain hole 13 will open. Water entering the cavity A of the diaphragm actuator 3 exerts pressure on its membrane 6, causing the working fluid to flow through the throttle 2 of the cavity B of the cavity B. From the cavity G of the separation chamber 4 and from the working body, water is drained. When the stem 8 is moved by the pressure of the water entering the diaphragm drive, the switching lever 17 acting on the stop 19 (left) and the spring 18 transfers the valve distributor stem 12 and the initial position at which the drain hole 13 again closes and the next dispensing period begins irrigation rate. Further, the technological process of setting the time interval of automated irrigation systems is repeated.

The economic effect of applying the proposed setter is in /

simplify the design and increase reliability.

Claims (1)

AUTOMATED TIME INTERVALS IRRIGATING SYSTEMS including a time delay hydraulic relay and a valve distributor, which is driven by a lever-trigger mechanism with a time delay hydraulic relay rod, made in the form of a sealed membrane drive and a membrane separation chamber hydraulically connected through an adjustable throttle, characterized in that, for the purpose of simplifying the setpoint and increase reliability, the ratio of the diameters of the supporting washers of the membrane of the membrane drive chamber. " membrane separation chamber less than one. o ί 1