RU179791U1 - SPRINKLER - Google Patents

Abstract

The proposed utility model relates to agriculture and can be used in a sprinkler moving in a circle. The technical task of the invention is to create a sprinkler machine that allows you to move around the field with surface drops of up to 25%, having a simpler in operation system for maintaining an irrigation pipeline on spans up to 50-60 m long and using energy from one source - irrigation network. Sprinkler, including a fixed support, support carts with hydraulic drives and on the basis of hydraulic cylinders, an irrigation pipeline with rain-forming devices, characterized in that the truss section trusses consisting of steel corners and couplers supporting an additional small-sized steel pipeline are used as supporting irrigation pipeline, to which an irrigation pipeline, which consists of clamps, is fastened from a single polyethylene pipe, the ends of the trusses are pivotally connected to the support trolleys, in the places of the swivel joints are the speed controllers of the body the hitch, whose control rods are connected by means of rods to neighboring farms, forming an equilateral triangle, while the irrigation pipe is connected to the rotary elbow of the machine through a butterfly valve, and the additional pipe is connected directly, and the hydraulic drives of the trolleys are connected to it via speed controllers. The advantage of the proposed sprinkler machine is in that it can move around the field with surface differences of more than 5% (up to 25%), has a simpler system of maintaining the floor It is a long-distance pipeline on truss spans up to 50-60 m long and uses one source of energy for its movement - an irrigation network. 3 ill.

Description

The utility model relates to agriculture and can be used in irrigation equipment, namely as a sprinkling machine moving in a circle.

Circular and frontal sprinkler systems of foreign manufacture are known, for example, Zimmatic, where electric motors are used as a drive for the wheels of the support trolleys, powered by 380 V external electric three-phase networks or from diesel generators. (Catalog of irrigation systems Zimmprodguide - Russia 2011).

The disadvantage of these machines is that they require an additional source of energy of the required parameters, which increases the cost of the machine, and for the safety of this equipment requires the dismantling of cables for the winter and the organization of constant protection in the non-irrigation period.

As a prototype of the alleged invention selected multi-support sprinkler machine "Frigate". (V. M. Krakovets, S. N. Nikulin. Directory of the operator "Frigate" and "Volzhanka". - M.: "Kolos", - 1976)

The machine is simple and reliable in design and operation, and is still the main sprinkler in irrigated farms in Russia. Its advantage is also that for its functioning one type of energy is sufficient, namely, the pressure of water from the irrigation network.

The disadvantages of the machine include the fact that its irrigation piping is supported by a cable system that does not allow the use of the machine when the field surface drops are more than 5% and have spans between support carts of more than 30 m.

An object of the invention is to create a sprinkler machine design similar to the Frigate sprinkler, but allowing to move across the field with surface differences of more than 5% (up to 25%), which has an easier-to-use irrigation pipeline maintenance system on spans up to 50-60 m long and using energy from one source - the pressure of the irrigation network.

The task is achieved in that in order to maintain the irrigation pipeline, farms are used, which at their ends rely on support trolleys, the drives of which are powered by the water pressure of the irrigation network.

The design of the trusses has a triangular section, on top of which there is an additional steel pipe of small cross section, used to feed hydraulic actuators with water, which allows you to turn off the irrigation pipeline for the passage of non-irrigated sections.

The use of truss spans allows using an integral polyethylene pipe as an irrigation pipe, which is attached without joints to the truss supporting it with clamps, which increases its operational reliability (there are no leaks at the joints); allows you to use the machine in fields with surface drops up to 25%; increase the span length to 60 m. At the same time, the use of hydraulic actuators based on hydraulic cylinders can significantly simplify the system of movement of the machine, its reliability and allows you to repair all components of the machine in the repair workshops of farms.

The proposed utility model is illustrated by drawings.

In FIG. 1 is a front view of a sprinkler. In FIG. 2 shows a top view of a sprinkler. In FIG. 3 shows a section of a truss.

The sprinkler machine consists of a fixed support 1 (Fig. 1), support trolleys 2 with hydraulic drives based on hydraulic cylinders 3, truss spans 4, consisting of steel corners 5, couplers 6 and steel pipes of small diameter forming an additional pipe 7, irrigation pipe 8 s rain-forming devices 9, consisting of a solid polyethylene pipe, which, using clamps 10, is attached to an additional pipeline 7. One end of the truss spans 4 is attached to the support trolleys 2 by means of a swivel joint 11, the second end of the trusses span 4 is attached to the support trolleys 2 using anti-twisting devices 12.

Truss span 4 has a triangular section (Fig. 3.).

On trolleys 2 in places of hinge joints 11 (Fig. 1) there are speed controllers 13 of trolleys 2 (Fig. 2), control rods 14, which are connected by means of rods 15 and 16 to an additional pipeline of adjacent truss spans 4, forming an isosceles triangle. Irrigation pipe 8 (Fig. 1) is connected to the rotary elbow 17 of the machine through the butterfly valve 18, and an additional pipeline 7 is connected to the rotary elbow 17 directly. To the additional pipeline 7 are connected hydraulic actuators 3 of the carts 2 through speed controllers 13.

The machine operates as follows. Water from the irrigation network through the rotary elbow 17 of the fixed support 1 through an additional pipe 7 is supplied to the hydraulic cylinders 3 through the regulators 13, causing the cart 2 to move. When the machine is moving, all carts 2 should be located in a straight line. When one of the bogies 2 deviates from the straight line of the draft 15 or 16, they act on the control rod 14 of the speed controller 13, which, by changing the flow of water into the hydraulic cylinder 3, increases or decreases the speed of the bogie 2, thereby aligning its position relative to the straight line. If it is necessary to pass the machine through an irrigated area, the disk shutter 18 blocks the water in the irrigation pipe 8, and the machine will move without watering. Swivel 11 provides the movement of the sprinkler in fields with a slope of up to 25%.

Claims (1)

A sprinkler machine, including a fixed support, support trolleys with hydraulic actuators based on hydraulic cylinders, an irrigation pipe with rain forming devices, characterized in that triangular cross-section trusses consisting of steel corners and couplers supporting an additional small-section steel pipe are used as supporting irrigation pipes, to which, using clamps, an irrigation pipe, consisting of a single polyethylene pipe, is attached, the ends of the trusses have swivel joints, bogies disposed rate regulators, control rods which are connected by links with neighboring farms, forming an isosceles triangle, the irrigation conduit is connected to the rotary machine through knee butterfly valve and an additional conduit connected directly thereto are connected via hydraulic actuators trolley speed controllers.

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