SU1042684A1 - Flowrate controller - Google Patents

Description

ISO

Od cx) 4

The invention relates to agriculture and can be used on closed irrigation systems.

A known flow regulator, mainly for air-closed irrigation systems, includes a housing with inlet and outlet nozzles, a locking member, a pressure sensor connected by a tube with an Exhaust nozzle, and the hydrorelay Cl.

The disadvantage of this flow regulator is the low accuracy of dispensing flow due to the lack of pressure stabilization after the regulator.

Another flow regulator is known, mainly for closed irrigation systems, including a housing with an inlet and outlet nozzles, a locking member, a pressure sensor connected by a tube with an outlet nozzle, and a programmed hydrorelay, the housing of which is fitted with a partition f 2 j.

The disadvantage of this flow regulator is the low flow control range.

 The purpose of the invention is to expand the range of flow control.

The goal is achieved by the fact that the prog ram hydro relay is provided with a movable piston rod with an axial channel and outlet holes, spring-loaded relative to the partition mounted in its lower part by means of spring-loaded baffle clamps, provided with a calibrated hole spring-loaded relative to the stem; The piston stroke stops are installed in the housing and on the rod, and its over-piston cavity is connected through a non-return valve to the outlet pipe. FIG. 1 shows a diagram of the proposed flow controller, in the working position; in fig. 2 - then Closed Position.

The flow regulator consists of a housing 1 with inlet and outlet nozzles with a lid 2 attached, between which a flexible membrane 3 is installed. To the membrane 3 with a throttle screw k, the valve 5 secures the locking member 6 with a hollow rod 7 The last lower end fits freely into the guide - filter 8. The locking member 6 is pressed against the seat with a conical spring 9. A pressure sensor is installed on the lid 2, consisting of a housing 10, a lid 11 and a membrane 12. The membrane 1 is attached

a cone valve 13, which is pressed by the driver spring and the adjusting screw 15. The sensor body 10 is connected by a tube 16 with a programmable pneumatic relay, which consists of a housing 17, in the lower part of which there is an expanding salt 18. The pipe 19 of the program hydrorelay is connected with the outlet pipe of the housing 1. A partition 20 with an opening 21 through which the rod 22 passes through (having an axial channel 23 with radial outlet openings 2) is installed in the software hydrorell housing. A movable piston 25 is freely mounted on the rod 22, In the lower position, the stroke limiter with the collet 26 of the pin 22, and in the upper position with the adjusting sleeve 27 connected with a thread to the rod 22. The adjusting sleeve 27 is made with an annular recess 28 and end groove 29 and freely passing through the cover 30. The rod 22 is kinematically connected by means of the grooves 31 and 32 to the spring-loaded locking devices located in the partition 20, 33. In the lower suit of the rod, recess 3 is made with grooves 35. In the recess 3 is fixed with the help of pins 36 sleeve 37 s a calibrated hole 38, spring loaded about in relative rod 22 by a spring 39. The stroke of the piston in the lower position limited og- kO restrictor piston stroke. The piston 25 is spring-loaded relative to the partition 20 by a spring 41, the overhead piston cavity 17 is connected through an adjustable choke 2 with a limb 3 with a drain, and with the help of a tube k through a check valve 45 and a tube 19 with an outlet branch pipe of the housing 1.

The flow regulator operates as follows.

When water is supplied to the inlet port, the locking member 6 will move upwards and open water to the outlet of the regulator. At the same time, the water along the hollow stem 7 and through the screw choke t will fill the working chamber above the membrane 3. From the working chamber, water will enter the programmed hydroreader through the tube 16 and into the outlet nozzle through the tube 19. Water through the calibrated orifice 38

5 the sleeve 37 along the axial channel 23 and the outlet openings 24 will flow into the chamber above the piston 25. Under the action of water pressure, the piston 25 will move downward relative to the stem 22, which is fixed relative to the partition 20 in its extreme upper position with spring-loaded latches 33- When the value specified is exceeded the pressure in the pipeline after the regulator spring I, is compressed, and the cone valve 13 reduces the flow area, which will lead to an increase in pressure in the working chambers above the membrane 3 and. to cover the closure member 6. The water flow will decrease, the pressure after the regulator will drop the reference spring I will move the cone valve 13 downwards and thereby increase the flow area under it. The pressure in the working chamber will decrease, the locking member 6 will move upwards and the flow area will again increase, the pressure after the regulator increases. Further the adjustment process will be similar. Adjusting the regulator to the required pressure is carried out by changing the degree of tightening of the driver spring 1 with the adjusting screw 15. As the water flow through the calibration hole 38 in the sleeve 37 is larger,; than the leakage through the adjustable throttle k2, over time, the piston 25, compressing the spring kV, drops down and moves the piston rod 26 with the help of the piston stroke limiter 26, fixing it in the lowest position relative to the partition 20 with retainers 33. At the same time, the sleeve 37 overlaps nozzle 18. The pressure in the working chamber ad (membrane 3 will increase and the locking body 6 will shut off the water supply to the outlet nozzle. If overpressure occurs when switching, the spring 39 will compress and the sleeve 37 will slightly open the nozzle 18). It flows from the working chamber above the membrane 3 into the outlet nozzle, thereby opening the stop valve 6, which will smooth out the overpressure peak. After the water supply is completely shut off by the stop valve 6, the pressure in the outlet socket will drop, while the spring will move the piston 25 to the extreme upper position by displacing water from the piston chamber through a non-return valve to the outlet and partially through an adjustable choke 42 to the drain. With the upward stroke, the piston 25 reaches the adjusting sleeve 27 and moves the rod 22 to the extreme upper position, fixing it relative to the partition 20 with the help of clamps 33. At the same time, the sleeve 37 opens the nozzle 18 and the operating cycle repeats. The flow rate (or irrigation time) is set by changing the stroke value of the piston 25 with the help of an adjusting sleeve 27, as well as with an adjustable throttle valve k2, which allows extending the range of flow rate control. During the operation of the flow regulator, the sleeve 37 is at a certain distance above the nozzle 18, and only at the moment of switching does the gap between the valve and the nozzle smoothly change until the latter completely overlaps, thereby eliminating interference that affects the output of a stable predetermined pressure

Claims (1)

FLOW REGULATOR, mainly for closed irrigation systems, including a housing with inlet and outlet nozzles, a shut-off element, a pressure sensor connected by a tube to the outlet nozzle, and a software hydraulic relay, the housing of which is equipped with a baffle, characterized in that, in order to expand the range of flow control The programmed hydraulic relay is equipped with a rod with a movable piston spring-loaded with an axial channel and exhaust openings, spring-loaded relative to the piston installed in its lower part iksatorov, partitions provided with spring-loaded against the stem sleeve with a calibrated hole, wherein the housing and the rod, the stroke limiters are set, and its cavity above the piston is connected through a check valve with an outlet. SU ..... 1042684>