RU2729217C1 - Hydraulic feeder to sprinkler machines - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: hydraulic feeder to sprinkler machines includes a container for liquid fertilizers and a metering pump installed on the pressure pipeline. Portion of pressure pipeline is divided into two parts by means of shut-off valve. Pressure and acceleration pipe is connected to parts of pressure pipeline before and after shut-off valve. A valve with a check valve communicates the distillation pipe with a container for liquid fertilizers via a hydraulic communication channel. Accelerating pipe is arranged in the form of a spiral and is equipped at the inlet with horizontally located impact valve with working element (23). Working element (23) is made in the form of hollow stock (28) and is equipped on top with replaceable weights (30) and thrust plate (29), and at the bottom – with its adjusting stroke bolt (25) and thrust pivot (26) with seal.

EFFECT: provides for simplification of design of hydraulic additional feeder, reduction of its overall dimensions, provision of smooth changes in supply of fertilizer solutions and reduction of operating costs by provision of convenience in operation.

1 cl, 5 dwg

Description

The hydraulic feeder for sprinkling machines refers to agriculture, in particular to devices for applying agrochemicals with irrigation water, and can be used on sprinklers and irrigation machines, various irrigation installations and pressure irrigation pipelines for applying liquid fertilizers, herbicides and other working compositions of pesticides with irrigation water.

Known hydraulic feeder for sprinkling machines, containing a container installed on the pressure pipeline for liquid fertilizers and a metering pump made in the form of a booster tube with a shock valve, which is located in the pressure pipeline, fixed on the bearing pipe and communicated through a check valve and a valve with a container. [Copyright certificate SU No. 1202504, cl. А01С 23/04, publ. in Bul. No. 1 dated 01/07/1986, prototype].

The disadvantages of this hydraulic feeder for sprinkling machines are the complexity of the design, a low level of maintainability due to the location of the shock valve and the accelerating tube inside the pressure pipe pipeline. The straight booster tube increases the dimensions of the metering pump and leads to inconvenience in operation.

Known hydraulic feeder for sprinkling machines, containing a container for liquid fertilizers and a metering pump installed on the pressure pipeline and including a part of the pressure pipeline, a shock valve, a booster pipe and a valve with a check valve communicating the booster pipe with a container for liquid fertilizers through a communication channel. The booster pipe of this feeder is made elbow-shaped with a ball valve and a shock valve at the inlet and a ball valve at the outlet and is located outside the cavity of the pressure pipeline, and part of the pressure pipeline of the metering pump is divided into two parts by means of a stop valve, while the inlet and outlet of the booster pipe are connected, respectively, with parts of the pressure pipeline before and after the shut-off valve [Patent RU No. 2694953, cl. А01С 23/04, publ. in Bul. No. 20 dated 07/18/2019, prototype].

The disadvantages of this hydraulic feeder for sprinklers are large overall dimensions, the complexity of the shock valve design and maintenance, as well as the impossibility of smoothly changing the flow rate of liquid fertilizers supply into the pressure pipeline directly during the operation of the shock valve by adjusting it, which leads to inconvenience in operation and increased operating costs.

The purpose of the proposed invention is to simplify the design of the hydraulic feeder, reduce its overall dimensions, ensure smooth changes in the supply of fertilizer solutions and reduce operating costs by ensuring ease of use.

This goal is achieved by the fact that in a hydraulic feeding device for sprinkling machines, containing a container for liquid fertilizers and a metering pump installed on the pressure pipeline and including a part of the pressure pipeline divided into two parts by means of a shut-off valve, a booster pipe connected by an inlet and an outlet, respectively , with parts of the pressure pipeline before and after the shut-off valve, a valve with a check valve communicating the booster pipe with a container for liquid fertilizers through a hydraulic communication channel, and a shock valve with a working member, the booster pipe is made in the form of a spiral and is equipped at the inlet with a horizontal shock valve , the working body is made in the form of a hollow rod and is equipped at the top with replaceable weights and a thrust plate, and at the bottom, regulating its stroke, with a bolt and a thrust heel with a seal.

The essence of the proposed invention is shown in the drawings, which are shown in FIG. 1 is a schematic structural diagram of a hydraulic feeding device for sprinkling machines (general view); in FIG. 2 - view AA in FIG. 1; in FIG. 3 - structural diagram of the hydraulic feed with a partial section of the shock valve; in FIG. 4 - structural diagram of the shock valve in the open state; in FIG. 5 is a view of the shock valve in the closed state.

The hydraulic feeder for sprinkling machines (Fig. 1) contains a container 1 for liquid fertilizers and a metering pump 2, installed on the discharge pipeline 3 and including a part of the discharge pipeline 4, a shock valve 5, a booster pipe 6 and a valve 7 with a check valve 8, which communicates booster pipe 6 with a container for liquid fertilizers 1 through a communication channel 9. Booster pipe 6 is made in the form of a spiral (Fig. 2) with a ball valve 10 and a shock valve 5 at the inlet and a ball valve 11 at the outlet. Part of the pressure pipeline 4 of the metering pump 2 is divided into parts 12 and 13 by means of a shut-off valve 14. Parts of the pressure pipeline 12 and 13 are equipped, respectively, with pressure gauges 15 and 16, the inlet and outlet of the booster pipe 6 are connected, respectively, with parts of the pressure pipeline 12 and 13 (Fig. 3). The booster pipe 6 is connected to taps 10 and 11, respectively, by quick-assembly units (American) 17 and 18. The shock valve 5 (Figs. 3 and 4) contains a housing 19 with a seat 20, inlet 21 and outlet 22 channels, working body 23, cover 24 with an adjusting bolt 25 and a thrust heel 26 with a seal 27. The working body 23 is made in the form of a hollow rod 28 and is equipped in the upper part with a thrust plate 29 and replaceable weights 30 (Figs. 4 and 5).

To ensure the reliable operation of the metering pump 2 and its maintainability, the cover 24 is quick-detachable and directed vertically downward.

To prepare the launch of the hydraulic feeder in operation in the presence of water pressure in the pressure pipeline 3, you must perform the following steps:

- load soluble fertilizers into container 1 and fill it with water until the required concentration of liquid fertilizer solution is obtained;

- open valve 7;

- close ball valves 10 and 11;

- by means of a shut-off valve 14 (by means of shut-off) and pressure gauges 15 and 16, create in parts 12 and 13 of the pressure pipeline 4, respectively, the pressure P ₁ and P ₂ , so that P ₁ -P _{2 is} not less than 0.01 MPa (Fig. 3);

- fully open the ball valve 11;

- slowly open the ball valve 10, so that the shock valve 5 does not close and displace the air from the booster pipe 6 into the pressure line 3 after the shut-off valve 14;

The hydraulic feeder for irrigation machines works as follows.

Irrigation water, under pressure through the pressure pipeline 3, parts of the pressure pipeline 4, 12, 13 and the shut-off valve 14, creating pressure P ₁ and P ₂ , respectively, before and after the shut-off valve 14, enters the sprinkler of the sprinkler machine, is sprayed over the irrigated field and irrigates the plot. A small part of the irrigation water, due to the pressure difference P ₁ and P ₂ , from a part of the pressure pipeline 12 with a pressure gauge 15 through a ball valve 10, a quick-disassembly unit 17, a shock valve 5 (inlet channel 21, flow section of the seat 20 and outlet channel 22), booster pipe 6, quick-assembly unit 18 and ball valve 11 enter the part of the pressure pipeline 13 with a pressure gauge 16, and then with the main flow of irrigation water enters the sprinkler of the sprinkler machine. For the operation of the hydraulic feeder, it is necessary to enter the shock valve 5 into the shock operating mode by opening and closing the ball valve 10 by opening and closing. In the shock mode of operation of the shock valve 5, the working body 23 from the lower position (the beginning of the cycle of the metering pump 2, the initial position) (Fig. 3 and 4) under the action of the high-speed pressure in the booster tube 6, overcoming the weight of the hollow rod 28, replaceable weights 30 and the thrust plate 29 moves upward and hits the seat 20 of the body 19 with the plate 29 with a seal (Fig. 5). When the plate 29 strikes the saddle 20, a hydraulic shock occurs, the water flow to the saddle stops abruptly, and after the saddle 20 continues to move in the booster tube 6 by inertia. Negative pressure is created in the outlet channel 22 and in the booster pipe 6. Under the action of negative pressure in the booster pipe 6, the check valve 8 opens and a solution of liquid fertilizers under the influence of atmospheric pressure from the container 1 through the communication channel 9, the valve 7 enters the cavity of the booster pipe 6. Further, the hydraulic shock is accompanied by the appearance of a backward shock wave. In the booster pipe 6, a pressure increase wave begins, which propagates from part 13 of the pressure pipeline 3 towards the shock valve 5. When the pressure increase wave in the booster pipe 6 reaches the shock valve 5, the check valve 8 closes and the shock valve 5 opens (Fig. 3 ), since the pressure on the working body 23 from above and from below is equalized, and under the action of its weight it goes down and leads to the restoration of the initial position (the end of the cycle of operation of the metering pump 2). Further, the cycles of operation of the metering pump 2 are repeated with a certain frequency, and at each cycle from the open container 1 it supplies a certain volume of liquid fertilizers into the pressure pipeline 3 after the shut-off valve 14.

The frequency of the cycles of operation of the metering pump 2 and its performance is smoothly regulated by the stroke and weight of the working body 23 and the pressure difference P ₁ and P ₂ . The weight of the working body 23 is regulated by means of replaceable weights 30, and its working stroke is smoothly changed during the operation of the shock valve 5 by means of the adjusting bolt 25 and the heel 26 with the seal 27. The dose of liquid fertilizer supply is set using the valve 7 by changing its flow area. The operation of the metering pump 2 is stopped by closing the ball valves 10, 11 and opening the shut-off valve 14. Ball valves 10 and 11 and quick-assembly units 17 and 18 allow, without stopping the operation of the sprinkler, if necessary, disconnect the booster pipe 6 and the shock valve 5 from the pressure head pipeline 3 and carry out repair work in specialized workshops, which reduces operating costs.

Thus, the execution of the booster pipe 6 in the form of a spiral, the installation of the shock valve 5 horizontally with the cover 24 directed vertically downward, the implementation of the working member 23 in the form of a hollow rod 28 and supplying it with replaceable weights 30 and a thrust plate 29 at the top and an adjusting bolt 25 and a fifth 26 with a compactor 27 at the bottom, the supply of the inlet and outlet of the booster tube with quick-disassembling units 17 and 18 made it possible to simplify the design of the hydraulic feeder, make it compact, reduce its overall dimensions, provide a smooth change in the supply of fertilizer solutions and reduce operating costs by ensuring ease of use.

In 2019, in the conditions of the workshops of the FGBNU VNII "Raduga", an experimental model of a hydraulic feeding device for sprinkling machines was made. Laboratory tests in bench conditions have shown its performance, high reliability and ease of use.

The application of the proposed invention in agriculture will increase the reliability and efficiency of crop irrigation systems and the productivity of agricultural production.

Claims (1)

A hydraulic feeding device for sprinkling machines, containing a container for liquid fertilizers and a metering pump installed on the pressure pipeline and including a part of the pressure pipeline divided into two parts by means of a shut-off valve, a booster pipe connected inlet and outlet, respectively, to parts of the pressure pipeline to and after the shut-off valve, a valve with a check valve communicating the booster pipe with a container for liquid fertilizers through a hydraulic communication channel, and a shock valve with a working body, characterized in that the booster pipe is made in the form of a spiral and is equipped with a horizontal shock valve at the inlet, the working body made in the form of a hollow rod and equipped on top with replaceable weights and a thrust plate, and below - a bolt regulating its stroke and a thrust heel with a seal.

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