SU791340A1 - Automated system of pulsed aprinkling - Google Patents

Description

(54) AUTOMATED PULSE IRRIGATION SYSTEM

12 The invention relates to the field of irrigation of agricultural crops by the method of sprinkling and can be used for irrigation with pulsed sprinklers installed on closed irrigation systems. A known automated pulse irrigation system includes a pipeline network with main and irrigation pipelines, impulse sprinklers with pneumohydroaccumulators, a generator of command impulses, hydraulically controlled valves and a drain line l. The disadvantage of this system is the presence of irrigation water losses due to discharge when a pulse of decreasing water pressure in the system is applied. Another well-known automated pulse irrigation system includes a pipeline network with main and distribution pipelines, separated by two alternate working sections, pulse sprinklers with pneumohydroaccumulators and a generator of command pulses, made in the form of a water-jet pump comprising a housing with a nozzle, a mixing chamber with a diffuser, connected to the distribution pipeline section, a hydraulic cylinder with a load, hydraulic valves and check valves 2. The last of the above automated pulsed irrigation systems is closest to the described invention. The disadvantage of this system is its complexity, due to duplication of the system elements in two alternately working sections and unreliability of work. The aim of the invention is to increase the reliability of the system. This is achieved by the fact that the housing of the water-jet pump is equipped with an additional mixing chamber with a diffuser, its nozzle is fixed in it by a hinge and kinematically connected with the hydraulic cylinder. An additional mixing chamber with a diffuser is connected to a pneumohydroaccumulator. FIG. 1 shows the proposed system with two alternate working sections; in fig. 2 - the same, with one site with the use of pneumohydroaccumulum.

An automated pulse irrigation system with two alternately operating areas consists of pulse irrigation systems 1, operating in standby mode, irrigation 2 and distribution 3 and 4 pipelines, divided into two alternate working sections, two control pulse irrigation devices 5 and 6, installed on each section , a generator of command pulses, made in the form of a water-jet pump with a housing 7 connected to the main pipeline by an inlet pipe 3 and two mixing chambers and 9 and 10 with diffusers 11 and 12 connected to distribution pipes 3 and 4. Inside the housing 7 a rotary nozzle 13 is installed, connected to the inlet 8 by a hinge 14. Inside the housing there are two restrictive stops 15 and 16 for installing the nozzle 13 coaxially with one from the mixing chambers 9 or 10. The rotary nozzle 13 is connected with a lever 18 by means of the grommet 17, the lower end of which is fixed by a hinge 19 on the fixed support, and the hydraulic cylinder 20 is rigidly fixed to the upper end by the middle of the cylinder. Each lever 18 is located in the swing plane of the latter. The piston-load 21 is placed in the hydraulic cylinder. With ring seals. The left cavity of the hydraulic cylinder 20 by the flexible hydraulic communication channel 22 communicates with the control impulse sprinkler 5 through spring-loaded hydraulically controlled valve 23 and through the non-return valve 24 with the left distribution pipeline 3. The right cavity of the hydraulic cylinder 20 flexible hydraulic communication channel 25 through the spring-loaded valve 26 communicates with the test impulse sprinkler 6, and through the check valve 27 with the distribution pipe 4. In the initial position, the nozzle 13 is in one of the extreme positions depending on the position of the load piston 21 in the hydraulic cylinder 20, for example in the left position.

An automated impulse irrigation system with one operating Site using a pneumohydroaccumulator consists of a pneumohydroaccumulator 28 that is installed instead of a second irrigation section, hydraulically connected through a check valve 27 and a hydrofluid valve 29 with a mixing chamber 10. The hydraulically actuated valve 29 consists of a valve 30 a rod 31 and a piston 32. The valve cavity 29 is connected to the cavity of the hydraulic cylinder 20, which is hydraulically connected via parallel-mounted valves 23

and 24 with distribution pipeline 3.

In this system, as in the first, it is possible to connect valve 23 to: a control pulse sprinkler 5.

There is an automated pulse irrigation system with two alternate working areas as follows.

During the operation of the system, water from the main pipeline through the pipe 8, the nozzle 13, the mixing chamber 9 and the diffuser 11 enters the distribution pipe 3 and goes to fill the pulse devices 1 of the left irrigation zone. At the same time, due to ejection, part of the water from the right irrigation zone through the distribution pipe 4, the diffuser 12 and the mixing chamber 10 and the housing 7 is pumped to the left irrigation zone, creating in the right zone a low-pressure hydraulic impulse necessary for triggering the impulse sprinklers of this zone.

As soon as the pulse irrigation sprinklers of the left-hand irrigation zone are filled, the pressure-controlled water in the control apparatus 5 will open the spring-loaded hydraulically controlled valve 23 and the water will fill the left cavity of the hydraulic cylinder 20, moving the piston-load 21 to the left position. The water from the right cavity of the cylinder through the check valve 27 is drained into the pipe 4.

As soon as the piston load 21 moves to the right over the vertical axis, it will transfer the swing lever 18 and, through the pull 17, the swiveling nozzle 13 will move to the right working position up to the stop 16. At the same time, the irrigation zone will begin to fill the right A pressure drop pulse will be generated in the zone to trigger the sprinklers.

The operation of an automated pulse irrigation system with one working area, for example, only with the left one, and using a levnemohydroaccumulator, differs from the operation of the system described above with two alternately operating sections only in that when the nozzle is turned to the right, the valve 30 opens and water is supplied from the system to the pneumohydroaccumulator 23, creating, by ejection, a pressure decrease pulse in the left portion. As soon as the pressure in the mixing chamber 9 drops, water from the left cavity of the hydraulic cylinder 20 and the hydraulically controlled valve will drain into the chamber 6 and through the water-jet pump into the hydraulic accumulator 28. Cla11; and) 25 will close, the valve 30 will also be :); 1cc

and the piston load 21 returns to its original position and, by means of the flip lever 18 and the coupling 17, will move the nozzle 13 to the left initial position. When this happens, the system will again begin filling the system with water, and the hydroaccumulator 28 through the check valve 27 and the housing 7 will be emptied into the irrigation network.

Claims (2)

Invention Formula 1, the automated system is a pulsed reflux, comprising a pipe network with transmission and distribution pipelines separated into two alternately operating portion pulsed dozhdevashnye apparatus with pnevmogidpoakky lyl topami and command pulse generator arranged in the form of a water jet pump comprising a housing with a nozzle and a mixing chamber with a diffuser . connected to the distribution pipeline section, a hydraulic cylinder with a load, hydraulically controlled and non-return valves, characterized in that, in order to enhance the operation of the system, the water pump housing is provided with an additional mixing chamber with a diffuser, and its nozzle is hinged and kinematically fixed in it zano with a hydraulic cylinder. 0 2. The system of claim 1, distinguished by the fact that the additional mixing chamber with a diffuser is connected to a pneumohydroaccumulator. five Sources of information taken into account in the examination 1. USSR author's certificate No. 376062, CL. A 01 G 25/16, 1971. 2. USSR author's certificate 0 on application 2672581 / 3-15, cl. A 01 G 25/16, 10/06/78 (prototype). 23