SU843873A1 - Irrigation plant - Google Patents

Description

air distribution, the distribution boom is equipped with three water supply pipelines with electromagnetic valves installed at the beginning and connected to the control unit, one of which, the axis of which intersects the axis of rotation of the installation, is equipped with nozzles for fine sprinkling, and the other two are symmetrical to the axis of rotation of the installation equipped with nozzles for surface sprinkling, while the water supply is made telescopic, and the central support is connected to the turntable by means of a house atov.

In order to reduce energy consumption, increase the irrigated area, the installation is equipped with angular rotation speed sensors connected to the control unit, and the power drive is made in the form of multi-speed electric motors with air-tight windings installed on the water distribution arrow and connected to the control unit.

FIG. 1 shows the irrigation installation, side view; in fig. 2 - the same installation, top view; in fig. 3 - functional scheme of management.

The irrigation installation contains a permanently submerged base 1 into which the water conducting pipe 2 is embedded. A base plate 3 is laid on top of the base, on which, using rollers 4, is supported a turntable 5 with a water conducting column 6 in the center. Into the column, the water pipe of the conduit 2 with the gland is inserted into the bottom. A central support 7 with a water distribution boom 8 and a counterweight 9 are fixed on the turntable. The water distribution boom is designed as a spatial truss based on three pipelines: a pipe 10 equipped with nozzles for finely dispersed water, and two pipe 11 with nozzles for surface sprinkling . The pipelines are connected to the water-supply stand 12 via electromagnetic valves 13 and 14. Variable-speed asynchronous electric motors 15 are installed along the water-distribution boom with propellers supplied with electric power from an external source by means of a cable laid along the boom and a current collector 16 placed under a turntable under which the conductors 17 are routed in a circle. The water distribution boom is attached to the lattice support 7 by means of a cable otte 18. 19, the support leg is connected to the counterweight 9. For controlling the electromagnetic valves 13 and 14 and the electric motors 15, the installation is equipped with a control unit 20, to the input of which are connected a soil moisture sensor 21, an air temperature sensor 22, a relative humidity sensor 23 and an angular velocity sensor 24 and 25, and to the output - starting devices 26 of electric motors 15 and terminals of coils of electromagnetic valves 13 and 14 through conductors with current collectors 16 mounted under the turntable 5. Lattice central support 7 of the cover Heated to platform 5 with jacks 27.

Irrigation installation works as follows.

When the air temperature rises or the air humidity decreases to the limit determined by the type of irrigated crop,

According to the signal of the sensor 22 or 23, the control unit 20 generates a signal for applying a voltage to the coil of the electromagnetic valve 13, when opened, the water from the irrigation network through the water supply system

the pipe 2, the column 6 and the water-supply stand 12 through the valve 13 enters the pipe 10 of the water supply system, the outlet of which is sprayed through the sprinkling nozzles into a finely dispersed state. When the distribution boom 8 is rotated, the angular velocity sensors 24 and 25 of the turntable 5 emit signals to the control unit, in which they are compared with the setpoint, and depending on

of the deviation sign, a signal is generated for an increase in the thrust force generated by drive motors with screws (when the distribution boom moves against the wind) or decreases (when the boom moves with the wind).

When the air humidity reaches its optimum limit, provided that the air temperature is normal, sensor 23, through the control unit 20, gives a command to shut down the installation by closing the valve 13 and de-energizing the electric motors 15. If the air temperature at the irrigated field is not in the optimal range, sensor signal

22 blocks the output of the control unit and the installation continues operation until this parameter is within the optimal range, after which it is stopped. If the moisture of the active soil layer

becomes lower than the optimal limit for a given soil and plant type, then, according to a signal from sensor 21, control unit 20 applies voltage to the installation electric motors 15, breaks the power supply circuit of the coil of the electromagnetic valve 14 at the beginning of pipelines 11. In this case, water enters pipelines 11 and The rain is poured through the nozzles. When supplying a volume of water, sufficient

To increase the moisture of the active soil layer to the upper limit of the optimum humidity, the control unit removes the voltage from the installation electric motors 15 and the coils of the electromagnetic valves 14 by the signal of the sensor 21 and restores the switching circuit of the electromagnetic valve 13.

As agricultural crops grow on the field with jacks, the water distribution boom, along with the grid support 7 and counter load 9, rises. At the same time, the water-conducting stand to 12 moves out of the column 6.

Due to the symmetry of the pipelines 10 and 11 relative to the longitudinal axis of the boom 8, no twisting forces arise in the vertical plane, and the dispersion of electric motors with propellers on the water distribution arrow in places of wind load excludes the appearance of large bends and their loads on the boom in the horizontal plane. The latter, in combination with the implementation of an islet in the form of a spatial farm, makes it possible to increase the size of the irrigation system irrigated by one installation. The presence of three pipelines, providing both the replenishment of soil moisture with water supply by sprinkling and the improvement of the microclimate of the irrigated floor with a fine spray, will significantly increase the yield of agricultural crops at low energy costs.

Due to the relatively high rate of movement of the water distribution boom over the field, rain intensity is reduced, which eliminates the harmful effects of rain on the soil. The required inlet pressure to the plant is significantly lower than the pressure required for the operation of the sprinkler units moving on the ground, which leads to a reduction in the irrigation energy intensity.

Claims (2)

1. Irrigation plant, including base with base plate and current collector, turntable with a vertical water supply column fixed on it, a central support equipped with a water supply stand and a spatial truss boom in the form of a spatial farm on a helical suspension with a counterweight and power drive, and a control unit with sensors for soil moisture, air temperature and humidity, characterized by in order to improve irrigation and microclimate quality by alternating surface and fine sprinkling and saving irrigation water, the water distribution boom is equipped with three water supply pipelines with electromagnetic valves installed at the beginning connected to the control unit, two of which are symmetrical to the axis of rotation of the installation and equipment nozzles for surface sprinkling, and the third pipeline, the axis of which intersects the axis of rotation of the installation, is equipped with nozzles for fine sprinkling, while the water supply is made telescopic, and the central support is connected to the turntable by means of jacks. 2. Installation under item 1, characterized in that, in order to reduce energy consumption, increase irrigated area by increasing the length of the water distribution boom and improve irrigation quality by reducing the effect of wind on the uniformity of rotation of the boom, the installation is equipped with angular rotation speed sensors connected with the control unit, and the power drive of rotation is made in the form of multi-speed electric motors with propellers installed along the boom and connected with the control unit. Information sources, taken into account in the examination 1. For England of England No. 1395866, cl. And ID, 1978. 2. “Hydrotechnics and Melioraci, 1975, No. 9, p. 114 i J0: ri f, .., 22 23 №m3iicnepcHoe rain 0§biQHoe waiting