SU438809A1 - Command pulse generator - Google Patents

Description

one

The invention relates to agriculture and can be used in systems of pulsed and intermittent sprinkling.

Known generator command pulses, including a shut-off body, placed in the housing, in communication with the discharge pipeline.

The disadvantage of this generator is that, having received a signal to control the shut-off organs of the apparatus, it disconnects the pump from the discharge pipe and stops the supply of water to the system, i.e. it does not provide a continuous supply of water to the apparatus. In addition, the use of this generator requires that a separate generator be installed on each pipeline.

The purpose of the invention is to provide a continuous supply of water to the apparatuses and to control one generator with several apparatuses fed from separate pipelines of the system.

This is achieved by the fact that the proposed geyrator is made in the form of two pneumohydroaccumulators installed one above the other through the body of the closure member, the lower of which communicates through a non-return valve with the discharge pipe, and the closure member is made in the form of a differential three-stage interface. the pneumohydroaccumulator has an opening for the communication of the cavity above the greater piston level with the pneumohydroaccumulator of one of the apparatus of the system and for connecting cavities to it s apparatuses organs and organ zaayurnogo housing made openings for communicating its cavities interconnected by movement of the piston cavity and middle stage with the water intake conduit system.

0 The drawing shows schematically the command pulse generator together with pneumohydroaccumulators of impulse devices connected to pressure pipelines, a section.

5 The generator consists of a three-stage differential pressure 1, its housing 2, having openings 3-6, two pneumohydroaccumulators of the upper 7, having openings 3, 8, and lower 9, which has

0 a port 10 for connection with a pressure line through a check valve 11.

The pulse generator works as follows. In the initial moment in the absence of

5 through the opening 8 of the housing 2 is connected to the lower pneumohydroaccumulator 9, the pressure in the cavity of which is equal to the maximum pressure in the pressure pipe developed by the pump, and the stop devices of the pulse devices are in the closed position. The differential piston under the action of pressure in the pneumohydroaccumulator 9. Is in the extreme upper position. After the accumulation of the flow rate in the hemogydroaccumulator 7 is completed, under the action of force from the water pressure on the large piston stage, on the ascending force acting on the small and large piston stage from the pneumatic accumulator, the pit 7 and 9, the differential piston starts to move downwards . At the same time, water from the housing cavity through hole 5 and 6 is displaced into pneumohydroaccumulators 7 and 9, increasing the pressure in their cavity, cavity 12 is connected through port 4 to the suction intake line, and from cavity 13 water also enters pneumohydroaccumulators 7 and 9. After blocking the housing opening 6, connecting the cavity with the pneumo-fluid Roaccumulus container 7 with the cavity 14, with a small step of the piston, water from the cavity 14 is displaced into the pneumohydroaccumulator 7 until the middle stage of the cavity connects the cavity 12 with the cavity lei. A sharp drop in pressure in the upper pneumohydroaccumulator 7 causes a decrease in the force acting vertically upward in the cavity 12 to a large piston stage, and the latter abruptly moves iB to the lowest position, together with the pump intake line with the pneumohydroaccumulator 7 cavity through the valve, 4, 8. A command was given to trigger the shut-off organs of the pulse devices. The opening of the locking organs triggers the operation of the impulse devices and an intense drop in pressure in the pneumo-pneumatic accumulators of the pipeline system. The pneumohydroaccumulator 7 is discharged due to communication through the openings 8 and 4, and the pressure in the pneumohydroaccumulator 9 does not decrease, since the check valve 11 disconnects the pressure pipe from it, the pressure in which is sharply reduced. After the pressure on the pneumohydroaccumulator of the pulsed apparatus drops to the calculated differential piston 1 under the action of the pressure generated in the lower perimohydroaccumulator 9 "a small piston stage, it moves to its initial position, giving the command to close the locking organs. At the same time, the cavity 13 is first separated with the opening 4, then the opening 8 is aligned with the cavity 14, and the pneumohydroaccumulator 7 is charged from the pneumohydroaccumulator 9 through the cavity 14 and the aperture 6 of the housing. The partially lost head in pneumohydroaccumulator 9 due to the displacement of a certain amount of water to fill the pneumohydroaccumulator 7 and the cavities of the locking organs is replenished by supplying water through the non-return valve through the discharge pipe when the pressure in the discharge pipe is higher than in the pneumohydroaccumulator 9. Further the operation of the command pulse generator is repeated similarly. The subject of the invention is the Command Pulse Generator, which includes a shut-off element placed in a housing in communication with a pressure pipeline, in order to ensure that the apparatus is continuously supplied with water by the apparatus and controls one generator with several devices fed from separate pipelines of the system. in the form of two pneumohydroaccumulators mounted one above the other through the valve body, the lower of which is communicated through a non-return valve to the pressure pipe, and Its aporn body is made in the form of a differential three-stage piston, while the upper pneumohydroaccumulator has an opening for communicating the cavity above the greater piston level with the pneumohydroaccumulator of one of the apparatus of the system and for connecting the cavities of the closure organs of the apparatus to it, and in the valve body there are holes for communication its cavities with each other during the movement of the piston and the cavity of the middle stage with the intake pipe system.

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