SU1173954A1 - Arrangement for pumping up pulsed sprinklers with air - Google Patents

Abstract

1. APPARATUS FOR PUSHING THE PULSE REVELERS BY AIR, including a displacement pump with a diaphragm drive and a return spring, connected to a pulsed sprinkler, characterized in that, in order to increase reliability, the pump has; an intermediate chamber, inlet and exhaust valves and a shut-off device connected to the working cavity of the diaphragm pump drive; 2, a device according to claim 1, characterized in that for using the pumped water for irrigation, the parameters of the diaphragm actuator and its return spring are selected according to the conditions of F p-p Rr in 8 m I p. C m 5 (L llf P is the initial force of the spring; where is the spring force after compression; P 9 is the pressure of the end of the sprinkler of the sprinkler; c is the water pressure at the inlet 9 (close network; 00 SM is the effective area of the pump diaphragm. S

Description

1 The invention relates to a technique for irrigating agricultural crops and can be used on pulsed sprinkler systems. The purpose of the invention. - increased reliability of the booster device and the elimination of the possibility of overfilling near the sprinkler with water that was used by the positive displacement pump. The drawing shows the proposed device. The device consists of a housing 1, a membrane 2, a cover 3, a return spring 4, a locking device 5, a suction 6, an intermediate 7 and an inlet 8 valves and an intermediate chamber 9. The diaphragm 2 is pressed against the cover 3 by a return spring 4. The locking device has an inlet JO and 1 out of 1 fittings, and its valve 12 is pressed by a spring 13 to a membrane 14 fixed to the upper part of the intermediate chamber 9 by the body of the locking device. The receiving cavity 15 of the locking device through the inlet fitting 10, the communication channel 16 communicates with the water cavity of the pneumatic accumulator, and through the output connecting pipe 11 and the communication channel 17 with the working cavity of the volumetric pump. The intermediate chamber through the inlet valve 8 communicates with the air cavity of the pneumohydroaccumulator. The pressure of compressed air developed by the volumetric pump is equal to the required pressure of the end of the outburst of the pulse irrigator. The pneumohydroaccumulator and the intermediate cavity of the volumetric pump are pre-charged with air to the required pressure at the end of the spray of a pulsed sprinkler. Here, the opening of the outlet fitting 11 is closed by the valve stem 12. The device operates as follows. If the air pressure in the pneumohydroaccumulator for some reason or other has become lower than the required one. 42, the valve 12 is lowered under the action of the force of the spring 13 and communicates the cavity 15 of the locking device 5 with the hydraulic actuator of the volumetric system through clamp II and the communication channel 17. Subsequently, during the filling of the pulse dozer, the water pressure S of the pneumohydroaccumulator through the communication channel 16, the inlet 10 and the output 1 I fitting, the communication channel 17 and the fitting on the cap 3 is transferred to the diaphragm 2 to the required end pressure of the splash. When a pulse sprinkler is fired, the membrane 2 under the action of the spring 4 will return to its original position earlier, than the sprinkler finishes the splash. At the same time, through valve 6, the cavity of the pump is filled with: air. After the splash, compressed air from the intermediate chamber 9 through the valve 8 enters the pneumohydroaccumulator. Cyclic pumping of the pneumohydroaccumulator by air continues until the air pressure in the intermediate chamber 9 becomes equal to the required pressure of the end of the splash of the sprinkler. After that, the clap, pan 12 under the action of the membrane 14 rises up and closes the opening in the nozzle 11, and the pump stops working. During further operation of the im-f pulsed irrigation sprinkler with the required parameters, the volumetric pump will not work, and switch on to work only when the air pressure in the pneumohydraulic accumulator is again; will decrease below required. Such a pump operation will significantly increase its service life. The proposed device makes it possible to eliminate overflowing the irrigated area near the sprinkler, eliminate the influence of the pressure drop signal in the network on the performance of the volumetric pump and increase its reliability.

Claims (2)

1. A DEVICE FOR AIR PUMPING OF PULSE BATTERIES, including a positive displacement pump with a diaphragm drive and a return spring, connected to a pulse sprinkler, characterized in that, in order to increase reliability, the pump has; an intermediate chamber, an intake and exhaust valve, and a shut-off device connected to the working cavity of the diaphragm pump drive and having a spring-loaded diaphragm drive in communication with the intermediate chamber, while the spring of the pump shut-off device is compressed by the pressure of the sprinkler end of the sprinkler. 2. The device according to claim 1, characterized in that for using the water pumped out by the pump for irrigation purposes, the parameters of the diaphragm drive and its return spring are selected according to the conditions where the initial spring force; spring force after compression; sprinkler end pressure; ? c “water pressure in the inlet ₉ <of the mains; ⁵ M ~ effective diaphragm area of the pump.