RU2762234C1 - Device for applying chemicals with irrigation water on discrete irrigation systems - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to the field of agricultural mechanization, in particular to the multi-purpose use of discrete irrigation systems for introducing solutions of chemical agents into the soil with irrigation water. The device contains a storage tank of irrigation water (1) with a siphon (2) operating in automatic mode, a feeding tube (3) with a tap (4), a container for solutions of chemicals (5) and a measuring container (6). The container (5) is made closed with a stepped bottom and a lock (9) and is installed above the level of the irrigation water storage (1), it is connected to the zone of the water jet coming from the feeding tube (3) to the irrigation water storage (1) through a drain tube (10) with a tap (11), the inlet (12) of which is located at the level of the lower bottom zone (8), and the outlet is at the level below the upper bottom (7). The container (5) is equipped with an open measuring container (6) with an expander (14) and a guide rod (15), installed on a sliding fit in the lock (9). The cavity of the measuring container by means of an expander (14) and a flexible tube (16) with a knee (17) located above the container of solutions of chemicals (5) is communicated with the area below the outlet level (13) of the drain tube (10) with a tap (11).

EFFECT: provides simplification of the design and an increase in the efficiency of the device.

1 cl, 8 dwg

Description

The invention relates to the field of agricultural mechanization, in particular to the multipurpose use of irrigation systems for discrete irrigation for the introduction of solutions of chemicals into the soil with irrigation water.

It is known an irrigation device containing a feed pipe with a tap, a storage tank connected to the irrigation pipelines through a siphon and equipped with a mixer communicated with the storage tank through a siphon tube, one end of which is located at the bottom of the mixer, and the other end is directed upward and placed in the storage capacity below the upper level of the liquid level sensor tube. [Patent of Russia 2 015 661, cl. A01G25 / 02 (1990.01), A01M 7/00 (1990.01) from 09.04.1992].

The disadvantage of this device for irrigation and application of soluble mineral fertilizers with irrigation water is a continuous decrease in the concentration of the solution from cycle to cycle without changing its volume, which requires a long operating time of the device for the complete removal of the solution from the mixer and supply to the irrigated area. A long period of removal also complicates the application of various soluble fertilizers in the phase of active development of plants, when several types of fertilizers are required to be applied to the soil in turn in a short period of time.

The closest technical solution (prototype) is a device for introducing chemicals with irrigation water on discrete irrigation systems, containing an irrigation water accumulator with a siphon operating in automatic mode and a feed tube with a tap, a receiver-collector, irrigation pipes with water outlets, hydraulic channels connections and capacity for solutions of chemicals. In this device, the container for the solution of chemicalization means is made open, installed at the level of the irrigation water accumulator, equipped with a closed measuring and auxiliary containers installed, respectively, below the level of the container for solutions of chemicalization means and above the level of connection of irrigation pipelines to the receiver-collector, while the measuring container is equipped with hydraulic communication channels communicated with the capacity of chemicalization means, the upper part of the receiver-collector and through the auxiliary container with the lower part of the receiver-collector [Patent of Russia 2 308 182, cl. A01C 23/04 (2006.01); A01G 25/02 (2006.01); from 15.02.2006 (prototype)].

The disadvantages of this device for introducing chemicals with irrigation water are the complexity of the device design, low reliability and the dependence of its operation on the state (technical characteristics of the consumer) of the irrigation network. When the characteristics of the irrigation network change (clogging of part of the outlets), the duration of the supply of solutions of chemical agents to the irrigation water changes, which leads to its uneven distribution over the irrigated area. The supply of solutions of chemicals to irrigation water occurs during part of the "watering" phase, which does not ensure complete dissolution of solutions in irrigation water and also leads to a decrease in the uniformity of distribution of the solution over the irrigated area. The device does not provide the ability to change the volume of supply of a solution of chemicalization agents into irrigation water.

The aim of the present invention is to simplify the design and increase efficiency by eliminating the influence of changes in the technical characteristics of the consumer on the operation of the device and achieving a smooth change in the volume of supply of a solution of chemicalization means to irrigation water.

This goal is achieved by the fact that in a device for applying chemicalization agents with irrigation water on discrete irrigation systems, containing an irrigation water accumulator with a siphon operating in an automatic mode, a feed tube with a tap, a container for chemical agents solutions and a measuring container, a container for solutions of agents chemicalization is made closed with a stepped bottom and a retainer, and is installed above the level of the irrigation water accumulator, communicated with the zone of the stream of water coming from the feed tube to the irrigation water accumulator, through a drain pipe with a tap, the inlet of which is located at the level of the lower bottom zone, and the outlet to level below the upper bottom, equipped with an open measuring container with an expander and a guide rod installed along a sliding fit in the retainer, the cavity of the measuring container by means of an expander and a flexible tube with an elbow located above the container of solutions of chemical agents, communicated with the zone below the outlet of the drain tube with a tap , the measuring container is made with x A blank part, a scale for supplying a solution of chemicalization means and a clamp, and its cavity is connected to the atmosphere by means of a flexible tube, one end of which is connected to the zone of its bottom, and the other is passed through a clamp with the possibility of moving along the scale for supplying a solution of a chemicalization agent.

The essence of the invention is shown in the figures, where figure 1 - General view of the device for the introduction of chemicals with irrigation water on discrete irrigation systems out of service; in FIG. 2 - Type of device for introducing chemicals with irrigation water on discrete irrigation systems in working order; in Fig.3 - General view of the structural diagram of the device for the introduction of chemicals with irrigation water on discrete irrigation systems in working order in section; figure 4 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems after charging the container for solutions of chemicals and opening the taps on the drain and supply pipes; Fig. 5 - View of a device for introducing chemicalization agents with irrigation water on discrete irrigation systems when the water level in the storage tank rises and, as a consequence, the supply of a solution of chemicalization agents to the water storage tank; Fig. 6 - View of a device for introducing chemicalization agents with irrigation water on discrete irrigation systems at the maximum level (WL) of water in the accumulator; Fig. 7 - View of a device for introducing chemicalization agents with irrigation water on discrete irrigation systems with a decrease in the water level in the accumulator; Fig. 8 - View of a device for introducing chemicalization agents with irrigation water on discrete irrigation systems when the water level in the accumulator drops below the level of the lower edge of the measuring container;

The device for adding chemicals with irrigation water on discrete irrigation systems consists of an irrigation water accumulator 1 with a siphon 2 operating in an automatic mode, a feed tube 3 with a tap 4, a closed container 5 for solutions of chemical agents and an open measuring container 6 (Fig. one). A closed container 5 for solutions of chemicalization agents is made with a stepped 7 and 8 bottom and a retainer 9, and is installed above the level of the irrigation water accumulator 1, communicated with the zone of the stream of water coming from the feed pipe 3 to the irrigation water accumulator 1, through the drain pipe 10 with a tap 11. The inlet 12 of the drain tube 10 is located at the level of the zone of the lower bottom 8, and the outlet 13 is at a level below the upper bottom 7. The open measuring container 6 is made with an expander 14 and a guide rod 15 mounted on a sliding fit in the retainer 9. The cavity of an open measuring container 6 by means of an expander 14 and a flexible tube 16 with an elbow 17 located above the closed container 5 for solutions of chemicalizing agents, communicated with the zone below the upper bottom 7 and the outlet level 13 of the drain tube 10. The measuring container 6 is made with a blank part 18, a scale for supplying a solution of means chemicalization 19 and clamp 20, and its cavity is connected to the atmosphere by means of a flexible tube 21, one end 22 of which is connected to the zone of its bottom, and the other end 23 is passed through the clamp 20 with the ability to move along the scale for supplying the solution of the chemicalization means 19 (Fig. 2 and 3).

To prepare the device for the introduction of chemicalization agents with irrigation water on discrete irrigation systems to work, from an inoperative state (Fig. 1) to a working state (Fig. 2), it is necessary to install the measuring container 6 in the water accumulator 1 by means of the retainer 9 and the guide rod 15 so that the upper level of the expander 14 is below the assumed upper level (WL) of water in the storage tank 1 (Fig. 2 and Fig. 6), close the tap 11, fill the closed container 5 with a solution of chemicalization agents and seal it with a lid, open the tap 11 on the drain tube 10 and by means of the clamp 20 set the end 23 of the flexible tube 21 on the scale 19 to the required supply volume of the solution of the chemicalization means. In this case, due to the communication of the cavity of the flexible tube 16 with the atmosphere, the level of the solution of the chemicalization means in it will be set at the level of the outlet 13 of the drain tube 10, which is by the value h higher than the cutoff level of the tube 16 (see Fig. 4), and the level of the solution in the container 5 will decrease slightly, since a vacuum is created in the container 5.

The device for applying chemicals with irrigation water on discrete irrigation systems works as follows. Water from the supply pipe 3 with a flow rate q, set by the tap 4, enters the water accumulator 1 (Fig. 4). The water level in the storage tank 1 begins to rise (the beginning of the accumulation-drain cycle) and until the level of the lower cut of the measuring container 6 is reached, it has no effect on the closed container 5 for solutions of chemical agents. A further increase in the water level in the accumulator 1 (Fig. 5), in the area of the idle part 18 of the measuring container 6 and up to the level of the lower cut of the end 23 of the flexible tube 21, leads to the free displacement of air from the measuring container 6 into the atmosphere through the flexible tube 21. Further increase the water level in the storage tank 1 above the level of the end 23 of the flexible tube 21 is accompanied by a lag of the water level in the measuring container 6 by an amount greater than h, compressing the air in it and displacing it into the closed container 5, which leads to a decrease in the vacuum in the closed container 5 and draining the solution of the means chemicalization from it, in a volume exceeding more than the volume of the measuring container 6, into the zone of the water stream coming from the supply tube 3 to the irrigation water accumulator 1 through the drain tube 10 with the tap 11 and the inlet 12 and outlet 13 ends (Fig. 5). The solution of chemicalizing agents is drained from the closed container 5 into the storage tank 1 until the water level in the storage tank 1 reaches the level of the bottom of the measuring container 6 plus the height h. An increase in the water level in the storage tank 1 in the interval from the level of the bottom of the measuring container 6 plus the height h to the VU does not lead to a change in the supply of the solution of the chemicalization means (the supply of the solution practically stops), since the diameter of the measuring container 6 is chosen much larger than the diameter of the expander 14 (Fig. 6). To exclude the influence of possible fluctuations of the upper level (VU) in the storage tank 1 on the supply volume of solutions of chemicalization agents, the upper level of the expander 14 is set below the VL in the storage tank 1. When the water level in the storage tank 1 VU is reached, the siphon 2 is automatically triggered and drains the water from the storage 1 with a flow rate Q, sometimes exceeding the flow rate q by an order of magnitude. A decrease in the water level in the storage tank 1 begins. A decrease in the water level in the storage tank 1 creates a vacuum in the measuring container 6 with an expander 14, in the flexible tube 16 with the elbow 17 and in the flexible tube 21 with the end 23. The solution level in the flexible tube 16 from the side of the closed container 5 rises, and the water levels in the expander 14 and in the flexible tube 21 with the end 23 remain above the water level in the water accumulator 1 (Fig. 7). A further decrease in the water level in the reservoir 1 below the level of the end 23 of the flexible tube 21 increases the vacuum in the tube 21 from the side of the measuring container 6, without changing the water column from the side of the end 23, as a result of which the water column in the tube 21 from the side of the end 23 is sucked into the measuring container 6 and communicates its cavity with the atmosphere. Water from the measuring container 6 with the expander 14 is drained into the water accumulator 1, while the atmospheric air, due to the flow section of the expander, freely passes through the water column in the expander 14 into the flexible tube 16 with the elbow 17 and breaks the vacuum in it. The level of the solution in the flexible tube 16 drops to the level of the outlet 13 of the drain tube 10. Further joint lowering of the water level in the accumulator 1 and in the measuring container 6 to the lower cut of the idler part 18 cleans the flexible tube 21 from water-air bubbles accidentally formed in it. A decrease in the water level in the reservoir 1 from the level of the lower cut of the measuring container 6 to the lower level (LU) in the reservoir 1 has no effect on the closed container for the solution 5 (Fig. 8).

During the period of lowering the water level in the reservoir 1, due to the increase in the level of the solution in the flexible tube 16, a gradual increase in vacuum occurs in the closed container 5, which excludes the spontaneous drainage of the solution from it through the drain pipe 10 and tap 11 into the water reservoir 1. When the water level in storage tank 1 to the level of LP (end of the accumulation - drainage cycle) siphon 2 automatically stops working (the water drain from storage 1 is stopped at a flow rate Q) and a new accumulation cycle begins - draining and supplying the next volume of a solution of chemicalization agents into it from a closed container 5.

With each increase in the water level in the storage tank 1 in the interval from the lower cut of the measuring container 6 (idle part 18) to the level of the end 23 of the flexible tube 21, the flexible tube 21 is cleared of the remaining water-air bubbles in it by displacing the air from the measuring container 6, which increases the stability of the supply solution from tank 5 to storage tank 1.

A smooth change in the volume of supply of a solution of chemicalization means from a closed container 5 to a water accumulator 1 is carried out using a flexible tube 21, moving its end 23 along a scale for supplying solutions 19 and fixing it by means of a clamp 20 to the required volume of a solution of a chemicalization agent.

The implementation of the closed container 5 with a stepped one allows the inlet 12, outlet 13 ends of the drain tube 10 and the inlet end of the flexible tube 16 to be mutually arranged so that the closed container 5 is emptied without residue and the possibility of both the ingress of air from the flexible tube 16 into the drain tube 10 and ingress of air from the atmosphere into a closed container 5 through a drain pipe 10.

The location of the outlet 13 of the drain tube 10 in the area of the stream of the feed tube 3 allows you to effectively dissolve the doses of the solution of the chemicals in the irrigation water.

The execution of the tube 16 with the elbow 17 located above the container 5 makes it possible to exclude the spontaneous outflow of the solution of the chemicalization means into the storage device 1 during the filling of the container 5.

Thus, due to the fact that the container 5 is made closed, installed above the level of the water accumulator 1 and communicated with a flexible tube 16 with an open measuring container 6 with an expander 14, a scale for supplying solutions 19, a blank part 18 and a flexible tube 21 with an end 23 fixed in the clamp 20 on the required volume of supply of solutions and the outlet 13 of the drain tube 10 is placed in the jet zone of the supply tube 3, a simplification of the design and an increase in efficiency have been achieved by eliminating the influence of the technical characteristics of the consumer on the operation of the device, achieving a smooth change in the volume of supply of solutions of chemical agents to irrigation water and increasing the distribution of these funds for the irrigated area.

In workshop conditions FGBNU Institute "Rainbow" in 2020, was experimental model device for entering of chemicals from irrigation water on discrete irrigation systems section area up to 1,000 m ² with the following design parameters:

Closed container 5 volume 3l, height 23cm;

Measuring capacity 6 F _internal 69mm, height 74mm;

Expander 14 Ф _internal 16mm, height 55mm;

The height of the blank part is 18-20mm;

Flexible tubes 21 and 16 PVC tube8;

Drain pipe 10 pipe PVC6;

Water accumulator 1 volume 120l;

The difference between HU and HU in the water accumulator is 1 240mm.

Bench tests of an experimental sample in laboratory conditions were carried out in order to determine the stability of the supply of a solution of chemicalization agents to irrigation water at each cycle of water accumulation in storage tank 1 and draining from it. The test results are shown in the table with the supply of a solution of chemicalization agents in the volume of 80, 125 and 220 ml, installed on the scale for supplying solutions of chemicalization agents 19.

Cycle no. Solution supply volume for 1 cycle of accumulation-drainage of irrigation water, ml. Experience number 1 Experience number 2 Experience number 3 one 79 125 220 2 80 127 220 3 80 130 222 4 80 130 220 5 80 130 220 6 80 130 222 7 80 130 218 eight 81 125 220 9 79 125 220 10 80 127 216 eleven 80 125 217 12 80 125 220 thirteen 79 125 - 14 80 125 - 15 80 124 - sixteen 80 123 - 17 80 123 - eighteen 80 124 - nineteen 80 - - twenty 80 - - 21 80 - - 22 83 - - 23 85 - - 24 80 - - 25 80 - - 26 85 - - 27 80 - - 28 80 - - 29 80 - - thirty 81 - - 31 79 - - 32 79 - - 33 79 - - 34 77 - -

The test results show a high stability of the supply of a solution of chemicals for each cycle of accumulation and drainage of irrigation water.

The use of the proposed invention in discrete irrigation systems for the introduction of solutions of chemicals into the soil with irrigation water will significantly increase the reliability and efficiency of these systems.

Claims (2)

1. A device for introducing chemicals with irrigation water on discrete irrigation systems, containing an irrigation water accumulator with a siphon operating in an automatic mode, a feed tube with a tap, a container for solutions of chemicals and a measuring container, characterized in that the container for solutions of chemicals made closed with a stepped bottom and a retainer and installed above the level of the irrigation water accumulator, communicated with the zone of the stream of water coming from the feed tube to the irrigation water accumulator, through a drain pipe with a tap, the inlet of which is located at the level of the lower bottom zone, and the outlet at a level below the upper bottom, equipped with an open measuring container with an expander and a guide rod, installed along a sliding fit in the retainer, the cavity of the measuring container by means of an expander and a flexible tube with an elbow located above the container of solutions of chemical agents, communicated with the zone below the outlet level of the drain tube with a tap. 2. A device for applying chemicalization agents with irrigation water on discrete irrigation systems according to claim 1, characterized in that the measuring container is made with a blank part, a scale for supplying a chemicalization agent solution and a clamp, and its cavity is connected to the atmosphere by means of a flexible tube, one end which is connected to the zone of its bottom, and the other is passed through the clamp with the possibility of moving along the scale of supply of the solution of the chemicalization means.

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