RU2193840C2 - Sprinkler unit - Google Patents

Abstract

FIELD: irrigation equipment. SUBSTANCE: sprinkler unit is formed as manipulator mounted on rotary column, which is connected to manipulator through horizontal pivot joint. Manipulator is comprised of water intake collector having rigidly interconnected pipelines arranged in parallel at one side of collector and ballast vessel arranged at other side of collector. Pipelines are inserted into collector through bushing with insulating sealing member so as to form axial pivot joint and are connected through branch pipes with aerodynamic carrier screw having liquid nozzles. Rotary column is mounted on rotary platform connected through vertical pivot joint of water supplying unit with foundation support. Water intake collector is communicated with water supplying unit via flexible pipeline. Balancing, selection of speed and direction of circular motion of manipulator are provided by means of water pressure difference valves mounted in parallel pipelines and adapted for regulating rotational speed and pulling force of carrier screws. EFFECT: simplified operation and maintenance of sprinkler unit and reduced power consumption for controlling irrigation process. 1 dwg

Description

 The invention relates to irrigation equipment with propellers and is intended for aerodynamic control of irrigation.

 Known flying irrigation devices with aerodynamic propellers, of which the closest analogue is a sprinkler installation containing flexible water supply and aerodynamic rotors with liquid nozzles (SU 1184488 A, class A 01 G 25/09, 10/15/1985).

 Managing flying irrigation devices requires additional energy, which is their main drawback.

 The objective of the present invention is to simplify the operation of the installation and the elimination of energy consumption for irrigation control.

 The solution to this problem is achieved by the fact that the proposed installation for sprinkling, containing a flexible water supply, aerodynamic rotors with liquid nozzles, according to the invention is made in the form of an arrow located on a rotary column connected to it through a horizontal hinge and consisting of a water manifold connected by a flexible water supply with a water supply unit and containing along the axis on one side rigidly interconnected parallel pipelines connected through taps with aerodynamic with real screws, and on the other hand, a counterweight in the form of a ballast tank, while the pipelines are inserted into the manifold through a sleeve with an insulating seal with the formation of an axial hinge, and the swivel stand is mounted on a turntable connected by a vertical hinge to the tank, which is the foundation support.

 The drawing schematically shows the installation for sprinkling.

 The sprinkler installation contains parallel pipelines 1, 2, rigidly interconnected, aerodynamic rotors 3, 4, connected through bends 5, 6 with pipelines 1, 2, equipped with shut-off screws 7, 8. Pipelines 1, 2 are inserted into the water header 9 through a sleeve with an insulating seal with the formation of an axial hinge 10. The installation is made in the form of an arrow located on the rotary column 11 and connected through a horizontal hinge 12. The arrow consists of a water header 9 connected by a flexible water supply 13 with a water supply unit 14 and containing parallel pipelines 1, 2 along the axis on one side, and on the other hand, in order to increase the bearing capacity of the screws 3, 4, a counterweight in the form of a ballast tank 16. Another tank 17 is a foundation support and is connected by a vertical hinge of the water supply node 14 with a rotary stand 11 through the rotary platform 18. Aerodynamic rotors 3, 4 are equipped with liquid nozzles 19.

 The balancing and selection of the speed of the boom in a circle in one direction or another are carried out by separate control of the rotors 3, 4, by changing the difference in the speeds of their rotation and lifting force.

 Installation works as follows. After the installation is connected to the pressure line, and both tanks 16, 17 and the water header 9 are under water pressure, the operation of the installation is controlled by shut-off valves 7, 8, uniformly increasing the pressure in both pipelines 1, 2 and gradually bringing it closer to the nominal one. The fluid nozzles 19 impart a reactive torque to the aerodynamic rotors 3, 4. Under the action of the counterweight 16 and the inductive traction of the rotors 3, 4, the arrow, turning in a horizontal hinge 12, rises above the ground. Then, valves 7, 8 create a pressure drop of water in parallel pipelines 1, 2, affecting the rotational speeds of the screws 3, 4 and their traction forces. The arrow, turning in the axial hinge 10, receives a roll towards the rotor 3 or 4 with a smaller inductive traction. With the general inclination of the screws 3, 4, their thrust vector will change, and the arrow will begin to move in a circle in a given direction, rotating together with the rotary platform 18 on the vertical hinge of the water supply unit 14. The jet stream after expiration from the liquid nozzles 19 breaks down and is crushed by an oncoming air stream, irrigated area swept by an arrow. After irrigation is completed, the water pressure in the parallel pipelines 1, 2 is equalized. The boom, finding the aerodynamic equilibrium of the rotors 3, 4, stops, then falls down to the ground with a uniform decrease in the water pressure in pipelines 1, 2.

 The installation will allow watering in a wide range of speeds of movement of the boom in a circle and in a sector, and with the setting on the chassis, it will be able to work both positionally and in motion. The quality of rain, obtained due to the high peripheral speed of the nozzle, will allow using the installation for irrigation of almost all plant crops in areas with complex terrain and slopes of soils.

 The installation can be performed with a different number and arrangement of aerodynamic rotors.

Claims (1)

 A sprinkler installation comprising a flexible water supply, aerodynamic rotors with liquid nozzles, characterized in that it is made in the form of an arrow located on a rotary column connected to it through a horizontal hinge and consisting of a water header, connected by a flexible water supply to a water supply unit and containing on the axis, on the one hand, parallel pipelines rigidly interconnected, connected through taps with aerodynamic rotors, and on the other hand, a counterweight in the form of a ballas hydrochloric container, wherein the pipes are inserted into the collector through the insulating sleeve to form a seal of the hinge and swivel rack mounted on a turntable associated vertical hinge with the container, which is the foundation support.