SU1037892A1 - Pulse sprinkling process automated system - Google Patents

Description

The invention relates to agriculture and can be used in automated control systems for flash irrigation With control of pressure drop sys- tems. A well-known automated irrigation system includes a pump, a discharge pipe, pulse dozhalnye apparatus with pneumohydroaccumulators and prynnulyu organs running on the signals of the pressure drop, made in the form of a valve distributor, the working cavity of which is communicated with the closest to the generators 1. The disadvantage of the system is a gradual decrease in pressure during the formation of a command pulse and the associated low degree of uniformity of filling. idropnevmoakkumul tori and hence poor quality reflux. Also known is an automated impulse sprinkler system, including a pump, a distribution pressure pipe with impulse stations, and a generator of low pressure command impulses, including a valve mounted on the input pipe and in the distribution pipe, with a hydraulic drive from the pressure chamber, hydraulically connected to the ejector 2. The disadvantage of this system is a large drop in the pressure drop pulse, as well as the impossibility of applying fertilizer with tidal water. The purpose of the invention is to reduce water loss while simultaneously applying fertilizer to irrigation water. This goal is achieved by providing the system with an open fertilizer tank connected to the drain pipe through an adjustable choke and to the ejector cavity through a pipe with a check valve. The drawing shows a diagram of an automated pulsed doanna system. The system consists of a centrifugal pump 1, the discharge pipe of which is communicated through a valve 2 with a hydraulic actuator, an ejector 3, a distribution pressure pipe 4, and irrigation pipes 5 with impulse sprinklers b. The housing 7 of the generator of the command impulses is divided by the saddle 8 of the drain valve 9 into two cavities — pressure A coaxial with a distribution pressure pipe, and drain B. The valve 9 keeps the “MS 6 closed position by the compressed spring 10 by means of the stem II and the disk 12. Above the disk 12 there are the elastic membrane 13 and the chamber 14 of the hydraulically operated drain valve attached to the housing 7 by means of racks 15. The chamber 14 of the lower part; The pipe is connected with the suction chamber of the ejector 3 by the pipe 16. The dump cavity B is connected with the open tank 17 with mineral fertilizer 18, the waste pipe 19 and adjust & 1 with the throttle 20, as well as with the pipelines 19 and 21 with the chamber 22 of the membrane hydraulic drive of the valve 2. The cavity reservoir 17 is in communication with the intake chamber of the ejector 3 by pipe 23 of the check valve 24. The system operates as follows. The centrifugal pump 1 supplies water through the valve 2, the injector 3, the pressure distribution pipe 4 and the irrigation pipes 5 to the impulse sprinklers 6 which accumulate in the pneumo-hydro accumulators of these devices. At the beginning of the filling, the pressure in them is minimal. Mu feed. centrifugal pump is the highest. In this case, a vacuum is formed in the suction chamber of the ejector 3, as a result of which the valve 24 opens and the ejector 3 sucks in the pipeline 23 a solution of mineral fertilizers from the tank 17, and when the level of the solution drops to the entrance to the pipe, atmospheric air. As water and air accumulate in the pneumohydroaccumulators of the apparatuses b, the pressure in them increases (the supply of the centrifugal pump 1 and the vacuum in the suction chamber of the ejector 3 decrease). At a single vacuum value, the valve 24 closes and the suction of atmospheric air ceases. Pressure in the apparatus 6 and piping 4 and 5 continues to rise and approach the largest that centrifugal pump 1 can create, the pump flow at the same time is significantly reduced, and the piezometric pressure head in pressure head 4 and irrigation pipelines 5 approaches the horizontal line, which brings the equipment close to the same, and with a significant decrease in pump 1, the pressure in the intake chamber of the ejector 3 increases and approaches the pressure in the pressure cavity in the housing 7 of the command pulse generator, and Water from the suction chamber of the ejector 3 flows through conduit 16 into chamber 14 of the hydraulic drive of the command pulse generator and squeezes air into it. When the centrifugal pump 1 is supplied close to zero, the hydrostatic pressure force acting on the elastic membrane 13 balances the hydrostatic pressure force acting on the valve from the cavity side A and the force of the compressed spring 10. The valve 9 of the pulse generator opens abruptly, water starts to discharge from Nbshore pipeline 4 through pressure head A, waste B in the cavity Kop-i of cus 7, waste pipe 19, adjustable throttle 20 d tank 17. Water, flushing mineral mineral fertilizer 18 in tank 17, dissolve it, go into solution ineralnyh fertilizers.

At the same time, the pressure in the discharge pipe 4 drops sharply, which is a signal cm for the splash of the sprinkler jet with pulsed sprinkler apparatus. All devices are filled with a splash of a sprinkler, emptying at the same time.

Simultaneously with the beginning of the discharge of water from the pressure distribution pipe 4 from the discharge cavity In the water flows through pipelines 19 and 21 into the chamber 22 of the hydraulic actuator valve 2, closing it. The water supply by the pump is stopped.

By reducing the pressure in the pressure pipe to a certain value Spring 1.0 closes valve 9 gene. pulses and water discharge is stopped, the pressure in the discharge cavity B and the chamber 22 connected with it by pipes 19 and 21 drops, valve 2 opens and the nasuas again develops the greatest flow, after which the system operation cycle repeats.

0 The use of the invention allows to increase the uniformity of irrigation by increasing the uniformity of water filling of the pneumohydroaccumulators of impulse sprinklers,

5 to prevent unproductive water discharge and use it to prepare a solution of mineral fertilizers, to improve the quality and yield of agricultural cultivated crops by using solutions of mineral fertilizers, and also to reduce the capacity of the hydro-pneumatic accumulators of the apparatus by replenishing the air in them.

Claims (1)

AUTOMATED PULSE RADIATION SYSTEM, including a pump, a pressure distribution pipe with impulse sprinklers and a pressure reduction command pulse generator, including an ejector and a distribution valve installed at the inlet to the distribution pipe with a drain pipe and a hydraulic pipe from a pressure chamber hydraulically connected to an ejector, characterized in that, c, in order to reduce water loss while fertilizing the irrigation water, it is equipped with an open reservoir fertilizers, connected to the drain pipe through an adjustable throttle and a cavity to the ejector through a conduit with a check valve. I