SU1676534A1 - Combined automated watering system - Google Patents

Abstract

The invention relates to agriculture and can be used to automate irrigation by surface methods on sloping terrain. The goal is to increase reliability and enhance functionality. The irrigation system includes a distribution channel, a sectional irrigation tray 1, divided by a horizontal plate 8 into transit and irrigation parts with irrigation holes 9. At the junction of the sections of the Tray, the plates 8 are connected to each other through chambers 4 with an inlet opening at the top, which periodically overlaps with a rotating bolt 5 connected to the tank with the counterweight 14, communicated by the tube 17 with the upper reach and through the drain hole 16 with the throttle 19. The choke 19 is made removable and mounted on a rigid support at the bottom of the horizontal plate 8 lo ka 1. The chamber 4 is divided by a vertical wall 24 into two equal parts, one of which is connected to the conveying and irrigation pipe 6, and the other to the lower irrigation part 7 of the tray, which has irrigation pipes attached to the holes 9. Periodic irrigation of the plots is carried out by opening and closing the upper opening of the chamber 4 with the help of the shutter 5, which is the irrigation programmer, the time of its opening and closing is controlled by the valve 18 installed on the tube 17 and the selection of the corresponding drain throttle 19. 5 Il. 11 t С о XJ О tn со ь

Description

The invention relates to agriculture and is intended to automate irrigation by surface methods on sloping terrain.

The goal is to increase reliability and enhance functionality.

FIG. 1 shows a diagram of a combined automated irrigation system; in fig. 2 - sprinkler tray, longitudinal section; in fig. 3 - the same, top view; in fig. 4 - sprinkler tray with irrigation tube, cross-section; in fig. 5 shows the node I in FIG. 2

The combined automated irrigation system consists of an irrigation tray 1 fed from a distribution channel 2 through a stabilizer or a flow regulator 3. The sprinkler tray is divided by irrigation sections into pools, at the boundaries of the pools there are chambers 4, the opening of the upper openings of which is carried out by a gate-programmer 5 of irrigation. Chamber 4 divides the incoming flow into two parts, one of which enters the transport irrigation pipeline 6, and the other into the irrigation part of tray 7. Pipeline 6 consists of transit and irrigation parts (located at a right angle to the transit part). The irrigation part consists of perforated piping.

Tray-sprinkler 1 for the entire length is divided in height by the stove 8 into the transit and irrigation parts. The irrigation (lower) part has holes 9, provided with irrigation pipes 10, laid under the headland 11.

The irrigation programmer consists of a flat horizontal shutter 5 rotating on a horizontal axis 12 with brackets 13 rigidly connected to the shutter and with a counterweight tank 14. The container 14 is equipped with two infusion holes 15 and drain 16. The infusion is carried out through a tube 17 equipped with a valve 18. On the plate 8 of the tray, the choke 19 (node I) is arranged in the joint zone of the container 14 with the bottom when the shutter 5 is opened. The choke 19 is a removable nozzle 20 in the housing 21, provided with a sealing plate 22 and connected to a support 23 fixed to the bottom of the plate 8.

Chambers 4 are divided by a vertical wall 24 into two equal parts. At the same time, one part has a window that connects the chamber with the irrigation part of the tray, the other - an opening through which water is supplied to the pipe 6. The proportional divider is equipped with a protective (debris) grid, which in FIG. 1 not shown.

Irrigation programmers are installed one for two sections, i.e. one for irrigation section. In the end section, the chamber 4 does not overlap with a shutter. Watering programmers are installed in the head of the irrigation area, and on the other irrigation section of the irrigation area a valve 5 is installed without a hydraulic control relay. This valve is in this case equipped with a control drive.

The system works as follows. Before starting the system, open the valve 18 of the end programmer and open the flow regulator 3 in the head

5 sprinkler tray 1. All other programmers, except the end one, are disabled, the tube 17 is blocked by the valves 18).

Due to the opening of the regulator 3, constant consumption will go to the sprinkler tray 1

0 water, which, having reached the end chamber 4 (at the last irrigation section), is distributed by it into two equal parts, one of the parts enters the irrigation lower part of the tray 7 and through it through the irrigation pipes 10

5 into the furrows, and the other part enters the pipeline 6 and through the perforated part of it also enters the furrows, i.e., irrigation begins in the terminal irrigation section. At the same time, water through tube 17 of the end programmer will begin to flow into tank 14, through hole 15, simultaneously flowing out of it through drain 16. At the same time, the inflow flow rate is greater than drain flow, which is ensured by the construction of valves 18 during commissioning. As a consequence, tank 14 will begin to fill. The filling time is set and equal to the time of one watering increment. By filling the tank 14

The moment of the force of its hardness becomes greater than the moments of the force of the force of the hardness of the bolt 5 and the pressure of water on it. As a result, the shutter 5 will open and water will flow into the overlying irrigation section of the first

5 (end) irrigation area of a one-time irrigation. At this time, the container 14 will drop and rest its drain into the throttle 19. The inflow hole will move away from the tube 17, turning off the flow of water into the container

0 14. Emptying the tank 14 is equal to the time of its filling, which is ensured by the choke 19. After the tank is emptied, as a result of reducing its weight, the shutter 5 will lower and the chamber 4 will close. Thus, the water will again begin to flow into the underlying drain section. The irrigation cycles are repeated in the described sequence by switching the irrigated sections with the irrigation programmer.

After completion of irrigation of a given area, the operator turns on the next programmer of irrigation and opens the next shutter (next to the programmer up the sprinkler). Thus, the next irrigation section is then irrigated and so on until the end of the floor. Upon completion of irrigation, the water supply to the sprinkler tray is closed; all programs (except the end one) are turned off. The system is ready to produce a new watering cycle.

Claims (1)

Claims of the Invention A combined automated irrigation system comprising a distribution channel, a flow controller, a sectional irrigation tray divided by partitions into transit and irrigation parts, irrigation pipes and conveying irrigation pipelines, rotary closures between sections of the tray with a counter-weight tank communicated with upstream and through the drain hole - with a discharge pipe installed in the downstream, characterized in that in order to increase reliability and enhance functionality, the partition walls of the tray are made in the form of horizontal plates connected to each other at the junction of the sections by means of chambers with an inlet opening at the top, divided by a vertical wall into two equal parts, one of which is connected to the transporting irrigation pipeline, and the other - to the lower irrigation part of the tray, having irrigation tubes, the rotary valve being installed with the possibility of blocking the inlet of the chamber, and the drain pipe is designed as a removable nozzle mounted by means of a rigid supports on the horizontal plate of the tray. I 1 R Fig.Z 8 9 //////// 4  R one, 24 / eleven 7  j i / T 4  R eight