RU2729823C1 - Sprinkler device for positional action - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Sprinkler plant comprises support base, three sprinklers (11) with angle of 120° between them with end nozzles (13) of directed action and installed on axis, eccentric relative to central axis, which is connected to central axis of pipeline (9) by means of belt transmission (14) with pulleys (15), providing trajectory of end nozzles, which is close to rectangular. Plant is additionally equipped with a digital control unit (21), position sensors (20) and soil moisture content, electromagnetic valves (12) and a ball valve with electric drive (17).

EFFECT: higher efficiency of watering irrigated areas and reduced consumption of water resources due to optimization of water distribution process.

1 cl, 1 dwg

Description

The invention relates to agriculture, namely to sprinkler equipment.

A sprinkler installation is known (Patent RU 40838, IPC A01G 25/09, 2004). The known sprinkler installation includes a frame - a slide on two runners with rigidly fixed support legs. Racks in the lower part are interconnected in pairs in the transverse direction by rods. A platform with a rotation unit, a standpipe and two sprinkler wings is installed at the upper ends of the support legs. The rotation unit includes a body with a glass, to the upper part of which a cross is fixed on the thread. The body of the rotation unit is secured by the lower support surface through the support washer on the installation platform by means of a shank screwed onto the lower threaded end of the body. A collapsible filter is attached to the free end of the shank by means of a small polyethylene pipe, on the shank of which a supply hose is put on.

A riser with an adapter, a pressure gauge and guy wires is installed in the crosspiece. In the lateral holes, the crosses are threaded on the parts of the two sprinkler wings. Each sprinkler fender includes a nipple, elbows, water pipe links, a coupling, a locknut, a sector sprinkler with a spherical deflector, an adapter and a circular sprinkler with a flat deflector. Each wing has a special washer for quick attachment of the free ends to them, with the help of which the wings are installed at an angle to the horizon.

The disadvantage of the known sprinkler installation is the fact that when irrigating in a circle, over-watering zones arise, which leads to over-consumption of water resources, as well as to waterlogging of the soil, the occurrence of fungal diseases in plants. Or underwatering, which causes the soil to dry out and, as a result, can cause a decrease in yield, product quality, and also lead to the death of plants.

The closest to the invention in its technical essence is a sprinkler (Patent RU 189173, IPC A01G 25/09, 2018) carrying out irrigation along a trajectory closest to a rectangular one. The sprinkler unit contains a skid frame mounted on runners with support struts, which are interconnected in pairs by transverse rods, a platform fixed at the upper ends of the support struts, a rotating assembly is installed on the platform, including a glass with bearings and a sealing collar, pipeline links , connected to the platform and the tee by means of bearings, wings located relative to each other at an angle α, with sprinkler nozzles fixed at the ends, a belt drive with pulleys, a filter connected to a hose and an adapter connecting the pipeline links.

The disadvantages of the known sprinkler installation is the fact that when it is used in greenhouse complexes, there is an overconsumption of water resources associated with irrigation of technological aisles between rows, as well as the fact that the degree of moisture is adjusted according to the operating time at one position, and not from the soil moisture indicator.

The technical objective of the invention is to improve the efficiency of irrigation of irrigated areas and reduce the consumption of water resources by optimizing the process of water distribution.

The technical result is achieved by the fact that a positional sprinkler system containing a support base, three sprinkler wings with an angle of 120 ° between them with directional end nozzles and mounted on an axis eccentrically located relative to the central axis, which is connected to the central axis of the pipeline by means of a belt drive with pulleys, which makes it possible to provide the trajectory of the end nozzles close to rectangular, in accordance with and in order to improve the quality of irrigation and reduce the consumption of water resources, the positioning sprinkler, according to the invention, is equipped with a digital control unit, position sensors, soil moisture sensors, solenoid valves and a ball crane with an electric drive.

Figure 1 shows a general view of the positioning sprinkler installation.

The positional sprinkler unit contains a slide frame 1, mounted on runners 2, using support posts 3, are interconnected in pairs by transverse rods 4, platform 5 fixed at the upper ends of the support posts 3, a rotation unit 6 is installed on the platform 5, including bearings 7 and a sealing collar 8 combined in a single body, pipeline links 9 connected to platform 5 and tee 10 by means of bearings 7, wings 11, with solenoid valves 12 mounted on them, located relative to each other at an angle of 120 °, with fixed at the ends sprinkler nozzles 13, belt drive 14 with pulleys 15, filter 16, motorized ball valve 17 connected to hose 18, adapter 19 connecting pipeline links 9, position sensors 20, soil moisture sensors (not shown) and digital control unit 21.

The proposed sprinkler installation works as follows.

When placing the sprinkler at the position for irrigation, the digital control unit 21 receives data from soil moisture sensors (not shown in the figure), analyzing which the digital control unit 21 decides on the necessary introduction of water resources into the soil at each elementary area, after which from digital control unit 21, a signal is sent to a ball valve with an electric drive 17 and solenoid valves 12, after which they open and water from the main pipeline (not shown in the figure) through the hose 18 passing the filter 16, then moving along the links of the pipeline 9, enters the wings 11 eccentrically located relative to the central axis of the installation and relative to each other at an angle of 120 °, after which it is sprayed through the sprinkler nozzles 13, which leads to the appearance of a reactive force that causes the wings 11 to rotate around its axis, at the same time, due to the belt transmission 14 with pulleys 15 rotate around the central axis of the installation , thereby providing irrigation along a path closest to rectangular. In the process of irrigation, soil moisture sensors (not shown in the figure) receive data on the moistening of the elementary area on which the sprinkler unit is located, when soil moisture reaches a predetermined value, the digital control unit 21 sends a signal to the electric ball valve 17 and solenoid valves 12 , as a result of which they overlap, and the water supply is stopped. After stopping the water supply, the sprinkler is moved to the next elementary section, where the process is repeated.

When using a sprinkler in greenhouses, using position sensors 20, the width of the passage between the rows is set, during the operation of the sprinkler (described above), the wings 11 rotating around its axis pass over the position sensors 20. When the wing 11 passes over the position sensor 20 installed in front of the passage, the data from the position sensor 20 are fed to the digital control unit 21, which sends a signal to the solenoid valve 12 of the wing 11 that has passed the position sensor 20, after which the solenoid valve 12 closes, and the water supply through the sprinkler nozzle 13 of the wing 11 stops, then during the operation of the sprinkler installation the wing 11 passes the next position sensor 20 installed after the passage, the data from which is fed to the digital control unit 21, which sends a signal to the solenoid valve 12 of the wing 11 of the past position sensor 20, after which the solenoid valve 12 opens and water is supplied through the sprinkler nozzle 13 of the wings and 11 resumes. During the operation of the sprinkler installation, this cycle is repeated many times for each of the wings 11.

The use of the proposed sprinkler installation will further reduce the consumption of water resources through the use of differentiated irrigation, as well as create favorable conditions for the processes of ontogenesis of agricultural plants.

Claims (1)

A positional sprinkler containing a support base, three sprinkler wings with an angle of 120 ° between them with directional end nozzles and mounted on an axis eccentrically located relative to the central axis, which is connected to the central axis of the pipeline by means of a belt drive with pulleys, providing the trajectory of the end nozzles , close to rectangular, characterized in that it is equipped with a digital control unit, position and soil moisture sensors, solenoid valves and an electric ball valve.

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