SU520956A1 - Device for automatic control of irrigation - Google Patents

Claims (1)

(54) DEVICE FOR AUTOMATIC WATER MANAGEMENT my Bodosaturation of the soil. This is achieved by the replacement of the float 12 with snlfono 13 through the command rod 14, the exit of the bellows 13 and carrying the adjusting nut 15 and the reset cam 16. Coaxially with the command rod 14, a stopper 17 is located, which by means of a latch 18 fixes the position of the float 12, the Hzdronnematic adjustable relay 2 is mounted in the water tank 19 and the inlet pipe with the valve 20 connected to the sensors 1, the bellow pressure transfer pipe 21 and an outgoing tube with a valve 22. For correcting the intervals by the next switching on of the water supply, the clan1 is the setting device 23. The proposed device works as follows. Water from the source enters pipe 5 into reservoir 4. Pressure tube 8, which is reinforced on membrane 7, transfers pressure from tube 5 to chamber 9 of command pressure. Water enters the irrigation network through pipe 6. As soil moistens increase, its intake capacity changes and the back pressure increases, which through a feedback pipeline with sensors 1 enters a hydropneumatic adjustable relay 2, from where via valve 20 and pipe 21 enters bellows 13 Increasing in volume, the bellows lifts the com brush 14, carrying the adjusting nut 15, which contacts the locking device 17 and lifts the float 12. At the same time, valve 1О connected to float 12 through the rocker 11, It closes the discharge opening of the command pressure chamber, the pressure in pipe 5 and chamber 9 cpf goes down and membrane 7 closes pipe 5, thereby stopping the flow of water from pipe 5 to reservoir 4. The volume of water remaining in the network is consumed, and the pressure in the feedback pipe drops. The pressure from the bellows 13 through the tube 21, the needle valve-setpoint 23 and the valve 22 enters the conduit feedback). As a result, the volume of the sylfrn 13 is reduced, the reset cam 16 | 1 acts on the latch 18 holding the cr |) pore device 17. The float 12 downward opens to the pump 10, as a result of which the pressure in chamber 9 drops and the membrane 7 opens the pipe 5. The next cycle of water supply to the irrigation network begins. Formula from the device The device for automatic control of irrigation, including a sensor and a humidity control unit, a tank with power supply and drain pipes, an operating1 mechanism with a float controller and a converter, is used to simplify the design, the device is equipped with a hydropneumatic relay, ifotopoporo input is connected to the humidity sensor, and the output to the converter, the latter is of bellows type with a command rod having a stopper device, kinematically connected with the float regulators. I. 22