SU1639525A1 - Extending hydrant - Google Patents

Abstract

The invention relates to the field of agriculture, in particular to irrigation, and can be used for irrigating agricultural crops from closed pressure pipelines. The purpose of the invention is to automate irrigation. The extendable hydrant includes a telescopic four-section housing hermetically connected to the supply pipe 7. A sprinkler 13 is installed under the casing cover on the upper section. The hydrant is equipped with a hydraulic motor 2. The lower fixed section 1 is equipped with an inlet valve 18, and the upper mobile section 10 has an exhaust valve 14 of regulation water supply The invention relates to the field of agriculture, in particular to irrigation, and can be used for watering agricultural crops from closed pressure pipes. boprovodov object of the invention - automation of irrigation. . The drawing shows a diagram of the device retractable telescopic hydrant. on the lid of the sprinkler. The sections in the upper part are provided with calibrated holes. The retractable hydrant works as follows. After opening the water seal, the pressurized water extends the telescopic hydrant sections. When the pressure in the hydrant cavity reaches half the maximum value, the pneumatic valve 12 opens the outlet of the sprinkler. Upon reaching a level close to the maximum pressure, water through the inlet valve 18 enters the tank of the hydraulic engine 2, compressing the air in the tank to the pressure level in the cavity of the hydrant. After closing the hydraulic seal, as a result of the pressure drop, water under the action of compressed air enters the cavities between the hydrant sections successively as the sections are lowered and the calibrated holes 17.1 are aligned. 17.2, 17.3 cavities 19.1, 19.2, 19.3. When the hydrant returns to its original position, the water opens the outlet of the exhaust valve 20 and exits into the supply line, which results in pressure equalization in the hydraulic engine and the hydrant cavity. 1 il. The device contains a retractable hydrant, in which the lower part of the fixed section 1 is sealed from the outside by a hydraulic motor 2 - a high-pressure annular container filled with air 3, into which water 4 is supplied during pressurization. Compressed air 3 of the high-pressure container is the basis of the hydraulic engine 2. The fixed section of the hydrant 1 has a bent tube 5, the lower part of which is located above the bottom of the tank 2, and (L C ON iCO isQ id U SL

Description

upper through the hole in the inner wall of the hydraulic motor communicates with the cavity formed by the lower fixed section 1 and the first movable section 6 of the hydrant.

The extendable hydrant has a telescopic body that includes a fixed lower section 1, rigidly, hermetically connected to a water supply (supply) pipe 7 by means of a funnel, four movable coaxially mounted sections 6, 8, 9, 10, limiters 11, contributing to the formation of workers cavities between the sections, a pneumatic shut off valve 12, which is installed in the upper movable section 10 of the hydrant to regulate the supply of water to the sprinkler, and a sprinkler 13 of circular action on the lid of the movable sec 10. Inside the same section, a valve 14 for regulating the supply of water to the cover 15 of the housing is mounted to soften the soil before the hydrant comes out and to clean the cover 15 of the housing from the soil at the beginning of the irrigation. The tightness of the device is ensured by the packing glands 16.1, 16.2, 16.3, 16.4, 16.5, 16.6, 16.7, 16.8, mounted on the movable sections at both ends of the cylinders, at the lower fixed section in the upper part, at the fourth movable 10 in the lower part of the cylinder. The first, second, third sections 6, 8, 9 in the upper part have calibrated holes 17.1, 17.2, 17.3 for pushing water out of the cavities between the sections when the hydrant extends to the working position after applying pressure to the network and for transmitting the force on returning the hydrant section to the original position with pressure drop in the pipeline.

Retractable telescopic automatic hydrant works as follows.

From the control room or the central pumping station, a command is transmitted to the executive water distribution mechanism of the hydraulic lock to start and stop the water supply to the irrigated area through a trunk pipeline by a generator of command pulses. When a command is received, the water seal is opened or closed. After opening the hydraulic seal with increasing pressure in the supply line 7, the water exerts increasing pressure on the bottom of the fourth 10 section of the hydrant, as a result of which the sections of the hydrant, moving from the initial position, move to the upper standard position. With

This, when the pressure value in the hydrant cavity reaches half the maximum, pneumatic valve 12 opens the supply opening to the sprinkler, which ensures the beginning of the sprinkling of the area. When reaching a level close to the maximum pressure, water through the inlet valve 18 of the lower moving section enters the tank of the hydraulic engine 2, compressing the air in the tank to the level of pressure in the cavity of the hydrant. After completion of irrigation, the hydraulic lock is closed at the command, the pressure in the hydrant cavity decreases, water as a result of the pressure difference from the hydraulic motor 2 enters the cavity between the fixed section 1 and the first movable section 6 by the action of compressed air, and the first movable section 18 hydrant

starts to go down until the calibrated hole 17.1 in the wall of the first section is lowered onto the gland cuff 16.2. The combination of the cavity 19.1 and the hole 17.1 will provide water to the cavity 19.2 and

shifting section 8 downward to align the calibrated orifice 17.2 with a cavity of 19.2, and this will shift the section 9 to aligning the calibrated orifice 17.3 with the cavity of 19.3, which in turn will lower

The fourth movable section 10 to the level when the cover 15 of the hydrant, having pressed the walls of the case, will return the entire device of the hydrant to its original position. At the same time, when the pressure in the supply line 7 drops, the pneumatic valve 12 closes the opening through which water is supplied to the sprinkler unit 13 and stops watering if there is still residual pressure in the supply line. When the type of pressure in the network is removed, when the hydrant returns to its initial position under the pressure of the hydraulic motor, the water from the pneumatic container opens the opening of the exhaust valve 20 in the wall of the fourth moving section 10 through the cascade of combined holes and inter-cylinder cavities and pushes out into the supply pipeline, which leads to balancing the pressure of air and water in

hydraulic engine tanks and water in the supply pipeline.

Claims (4)

Claims 1. A retractable hydrant, including a telescopic body, the lower stationary section of which is hermetically connected to the supply pipe, and a sprinkler device is installed on the upper section, under the cover of the casing. to automate irrigation, the hydrant is equipped with a hydraulic motor installed in its lower section. 2 Hydrant according to claim 1, characterized in that the lower stationary section is provided with an inlet valve. 3 Hydrant according to claim 1, characterized by heme, that the upper movable section fitted with an exhaust valve. a pneumatic shut-off valve and a pneumatic valve for regulating the water supply to the sprinkler cover 4. Hydrant according to claim. 1, characterized by. that the sections in the upper part are provided with calibrated holes