RU192669U1 - SPRINKLER - Google Patents

Abstract

The proposed utility model relates to agriculture and can be used on non-electrified sprinkling machines moving in a circle using support trolleys driven by hydraulic cylinders. The technical task of the utility model is to obtain the possibility of increasing the water pressure at the end of the irrigation pipe of the Frigate type irrigation machine, moving in a circle with the help of hydraulic actuators, which will increase the area of rain irrigation with end sprinklers. It is slowed by the fact that a rocker is connected to the hydraulic cylinder of the hydraulic drive of the last bogie, the other end of which is connected to the pump piston, the inlet of which is connected to the sprinkler pipe of the machine through the check valve and the outlet, and the outlet through the check valve is connected to the pressure tank, the output of which is connected to the shutter blocking the pipeline, the output of which is connected to the end sprinkler. The damper is controlled (opens and closes) by means of a trigger device, which, in turn, is controlled by means of traction with the upper and lower stops and rocker arm, the latter is connected via a rod to a piston installed in the cylinder connected to the pressure tank. A spring is installed on the other side of the piston, the other half of which rests against the nut that limits the spring travel. The advantage of the utility model is that it will significantly increase the water pressure in front of the end sprinkler and thereby increase the irrigation area of the non-electrified Frigate type sprinkler including field angles not covered by rain cars. 2 ill.

Description

The utility model relates to agriculture and can be used in irrigation equipment, namely, on hydraulic sprinklers, moving in a circle around a fixed support.

A well-known sprinkler machine, including a fixed support, an irrigation pipe with sprinklers, self-propelled carts with hydraulic drives and an end sprinkler used to expand the irrigation area (V. M. Krakovets, S. N. Nikulin, “Frigate” and “Volzhanka” operator's manual M. "The Ear", 1976).

The disadvantage of the Frigate sprinkler is that at the end of the irrigation pipeline the pressure drops and the efficiency of the end sprinkler decreases. To expand the area irrigated by end sprinklers, on foreign and domestic sprinklers on the last carts at the end of the irrigation pipeline, an additional booster pump is installed that increases the water pressure in the end sprinkler, increasing the irrigation area (G.V. Olgarenko, A.I. Ryazantsev, AV Ageykin. Expansion of the functional capabilities of multi-support circular sprinklers with electric drive, Reclamation and Water Management No. 4, 2018, p. 22).

The disadvantage of this method of increasing the pressure at the end of the sprinkler is that it can only be carried out on electrified sprinklers, since the booster pump receives power from the electrical network of the machine.

The technical task of the proposed utility model is to obtain the possibility of increasing the water pressure at the end of the irrigation pipe of the Frigate type sprinkler, moving in a circle with hydraulic drives, which will increase the area of rain irrigation with the end sprinkler.

The task is achieved by the fact that in a circular sprinkler, consisting of a fixed support, an irrigation pipe, supported by self-propelled carts with hydraulic actuators based on hydraulic cylinders, a rocker is connected to the hydraulic cylinder of the last cart of the sprinkler, the other end of which is connected to the pump piston, whose input is through the return the valve and the crane are connected to the sprinkler line of the machine, and the output through the check valve is connected to the pressure tank, the output of which is connected to Onka overlapping line, the output terminal is connected to the sprinkler. The damper is controlled (opens and closes) by means of a trigger device, which, in turn, is controlled by means of traction with stops and rocker arm. The latter is connected via a rod to a piston mounted in a cylinder connected to a pressure tank. On the other side of the piston, a spring is installed, the other half of which abuts against a nut restricting the spring travel.

In FIG. 1 shows a general view of a sprinkler.

In FIG. 2 shows a diagram of a utility model, which consists of a hydraulic cylinder 1 of the last bogie of the sprinkler machine, to which the rocker arm 2 is connected, the other end of which through the rod 17 is connected to the piston 6 of the pump 3, the inlet of which is connected through the check valve 4 and the valve 16 to the sprinkler pipe of the machine, and the output through the check valve 5 is connected to the pressure tank 7, the output of which is connected to the valve 12, blocking the pipe 13, the output of which is connected to the end sprinkler 14. The valve 12 opens it is closed with the help of a trigger device 11, which, in turn, is controlled by a rod 18 with the upper 21 and lower 22 stops and the rocker arm 10, the latter is connected through the rod 19 with a piston 8 installed in the cylinder 20, which is connected to the pressure tank 7. C on the other side of the piston 8, a spring 9 is installed, the other half of which abuts against the nut 15, limiting the spring travel.

The device operates as follows.

At the initial moment, when the hydraulic cylinder 1 is in the lower position, the rocker 2 with its opposite end holds the piston 6 in the upper position, and water under pressure from the irrigation pipe through the valve 16 and valve 4 enters the pump 3 and then through the valve 5 into the pressure tank 7 Thus, the shutter 12 is closed, and further filling of the pressure tank is prevented by the air that remains between the surface of the water in the tank and the piston 8, which on the other hand is supported by the spring 9.

As water flows through the distributor valve into the hydraulic cylinder 1 of the machine, the latter begins to rise, transmitting force through the rocker 2 to the piston 6 of the pump 3, water from the pump 3 through the valve 5 enters under the pressure of the piston 6 into the pressure tank 7, increasing the air pressure, which presses on the piston 8, the latter begins to move upward, compressing the spring 9, and through the rod 19 transmits the movement to the beam 10, the latter begins to rise and when it reaches the stop of the upper 21 located on the rod 18, through the latter it triggers the trigger and 11 which opens valve 12. Water under pressure of air in the pressure tank through a conduit 13 rushes to the terminal apparatus 14, resulting in a final action. After opening the valve 12 due to the leakage of water from the tank 7 through the end apparatus 14, the pressure in the tank drops, the spring 9 returns the piston 8 to its original position, and the rocker 10 through the lower stop 21 and the rod 18 through the release device 11 closes the valve 12. The pressure in the pressure head the tank can be adjusted using a nut 15, which, thanks to the internal thread of the cylinder 20, can adjust the compression ratio of the spring 9, while to obtain a given pressure in the pressure tank, the hydraulic cylinder 1 and the pump 3 can take several strokes.

Claims (1)

A sprinkler of circular action, consisting of a fixed support, an irrigation pipe, supported by self-propelled carts with hydraulic actuators based on hydraulic cylinders, characterized in that a rocker is connected to the hydraulic cylinder of the last cart of the sprinkler, the other end of which is connected to the pump piston, the inlet of which is through a non-return valve and the tap is connected to the sprinkler pipe of the machine, and the outlet through the check valve is connected to the pressure tank, the outlet of which is connected to the damper that blocks the piping od, the output of which is connected to the end sprinkler, while the damper is controlled - opens and closes - using the trigger device, which, in turn, is controlled by a rod with stops - upper and lower - and rocker arm, the latter is connected via a rod to the piston installed in the cylinder, the piston space of which is connected to the upper part of the pressure tank, a spring is installed on the other side of the piston, the other half of which rests against the nut restricting the spring travel.

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