RU2768960C1 - Device for applying chemicals with irrigation water on discrete irrigation systems - Google Patents

Abstract

FIELD: agricultural mechanization.

SUBSTANCE: 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. The device contains an irrigation water accumulator (1) with a siphon (2) operating in an automatic mode, a feeding tube (3) with a tap (4), an open container for solutions of chemicals (5) and a closed measuring container (6) installed below the container for solutions. The irrigation water accumulator (1) is equipped with an air cap (7) installed by means of a rod (8) and a retainer (9) in the accumulator and communicated with a closed measuring container (6) by an air channel (10) with an elbow (11) above the open container for solutions chemicalization means. An open container for chemicals (5) is installed above the level of the irrigation water accumulator (1). A closed measuring container (6) is communicated with an open container for solutions of chemicalization means (5) by a hydraulic channel (12) with an elbow (13) greater than the distance between the air cap (7) and the upper water level in the reservoir. One end (14) of the channel is located at the bottom of the container for chemicalization means (5), and the other (15) at the lid of a closed measuring container (6) communicated with the irrigation water accumulator (1) by a hydraulic channel (16) with two elbows (17 and eighteen). The lower elbow (17) is located below the air cap (7), and the upper (18) is located above the level of the open container for solutions of chemicals (5). One end (19) of the channel is passed through the bottom with the possibility of changing its level, and the other end (20) is located in the area of ​​the stream of water coming from the feed tube (3) to the irrigation water accumulator (1).

EFFECT: simplified design and increased efficiency of the device are provided.

1 cl, 8 dwg, 1tbl

Description

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

A device for irrigation is known, containing a supply tube with a tap, a storage tank connected to the irrigation pipelines through a siphon and equipped with a mixer connected to 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 upwards and placed in the storage tank. tank below the upper level of the liquid level sensor tube. [Patent of Russia 2 015 661, class. A01G25/02(1990.01), A01M 7/00 (1990.01) of 04/09/1992].

The disadvantage of this device for irrigation and application of soluble mineral fertilizers with irrigation water is the continuous decrease in the concentration of the solution from cycle to cycle without changing its volume, which requires a long time for the device to completely remove the solution from the mixer and supply it to the irrigated area. A long removal period also complicates the application of various types of soluble fertilizers in the phase of active plant development, 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 supply tube with a tap, a receiver-collector, irrigation tubes with water outlets, hydraulic channels bonds and capacity for solutions of chemicals. In this device, the container for the solution of chemicals is made open, installed at the level of the irrigation water reservoir, equipped with closed measuring and auxiliary tanks installed respectively below the level of the tank for solutions of chemicals and above the level of connection of irrigation pipelines to the receiver-collector, while the measuring container is hydraulic communication channels communicated with the capacity of chemicalization means, the upper part of the receiver-collector and through the auxiliary capacity 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); dated February 15, 2006 (prototype)].

The disadvantages of this device for introducing chemicals with irrigation water are the complexity of the design of the device, 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 a part of the water outlets, technological shutdown of a part of the irrigation network, etc.), the duration of the supply of solutions of chemicals to the irrigation water changes, which leads to its uneven distribution over the irrigated area. The device does not provide the ability to change the volume of supply of a solution of chemicals in irrigation water.

The purpose of the present invention is to simplify the design and increase efficiency by eliminating the effect of changes in the technical characteristics of the consumer on the operation of the device and achieving a change in the volume of supply of a solution of chemicals to irrigation water.

This goal is achieved by the fact that in the device for introducing chemicalization agents with irrigation water on discrete irrigation systems, containing an irrigation water accumulator with a siphon operating in automatic mode, a supply tube with a tap, an open container for solutions of chemicalization agents, and a closed measuring container installed below the container for chemicals solutions, the irrigation water storage tank is equipped with an air cap installed by means of a rod and a latch in the storage tank, and communicated with a closed measuring tank with an air channel with a knee above the open tank for chemicals solutions, an open tank for chemicals is installed above the level of the irrigation storage tank water, a closed measuring tank is connected with an open tank for chemicals solutions by a hydraulic channel with an elbow greater than the distance between the air cap and the upper water level in the accumulator, while one end of the channel is located at the bottom of the tank for chemicals, and the other at the lid behind of a covered measuring tank connected with the irrigation water storage tank by a hydraulic channel with two elbows, the lower elbow is located below the air cap, and the upper one is above the level of the open container for chemicals solutions, one end of this channel is passed through the bottom with the possibility of changing its level, and the other end is located in the zone of the water jet coming from the supply pipe to the irrigation water storage tank.

The essence of the proposed invention is shown in the figures, where Fig.1 - General view of the device for introducing chemicals with irrigation water on discrete irrigation systems; in FIG. 2 - General view of the structural diagram of the device for introducing chemicals with irrigation water on discrete irrigation systems in the context; Fig.3 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems after charging the tank for solutions of chemicals and opening the tap on the supply tube; Fig.4 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems with an increase in the water level in the drive and, as a result, the supply of a solution of chemicals to the water drive; Fig.5 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems at the maximum level (VL) of water in the drive; Fig.6 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems at the beginning of a decrease in the water level in the drive; Fig. 7- View of the device for introducing chemicals with irrigation water on discrete irrigation systems in the process of lowering the water level in the reservoir and entering the solution into a closed measuring container; Fig. 8 - View of the device for introducing chemicals with irrigation water on discrete irrigation systems after lowering the water level in the reservoir below the level of the lower edge of the air cap and filling the measuring tank with a solution.

A device for introducing chemical agents with irrigation water on discrete irrigation systems consists of an irrigation water storage tank 1 with a siphon 2 operating in automatic mode, a supply tube 3 with a tap 4, an open container for solutions of chemical agents 5 and a closed measuring container 6 (Fig. one). Irrigation water accumulator 1 is equipped with an air cap 7 installed in it by means of a rod 8 and a latch 9 and communicated with a closed measuring container 6 by an air channel 10 with an elbow 11. A closed measuring container 6 is connected with an open container for chemicals solutions 5 by a hydraulic channel 12 with an elbow 13 and ends 14 and 15, located, respectively, at the bottom of an open container for chemicals 5 and at the lid of a closed measuring container 6, and with an irrigation water storage tank 1, a hydraulic channel 16 with elbows 17 and 18, and ends 19 and 20, while the end 19 is passed through the bottom of the closed measuring tank 6 with the possibility of changing its level, the end 20 is located in the zone of the water jet coming from the supply tube 3, the elbow 17 is located below the air cap 7, and the knee 18 is above the level of the open container for chemicals 5 (Fig. .2 - Fig.8).

Before starting work on the introduction of chemicals with irrigation water, it is necessary to fill the open container for chemicals 5 with the appropriate solution, which fills the closed measuring container 6 and all channels to the level of the solution in the open container for chemicals 5 (Figure 3).

The principle of operation of the device is given when the densities of water and solution are equal, which does not differ from the principle of operation when they are not equal, but only leads to a change in the dimensions of the device.

A device for introducing chemicals with irrigation water on discrete irrigation systems operates as follows. Water from the supply tube 3 flow rate q, set by the valve 4 enters the water storage 1 (Fig.3). The water level in the accumulator 1 begins to rise (the beginning of the “accumulation-draining” cycle) and until the level of the lower cut of the air cap 7, set by means of the rod 8 and the latch 9, has no effect on the closed measuring container 6. Further increase in the water level in the accumulator 1 to an intermediate level (PU) clamps the air in the cap 7 and creates pressure in the closed measuring container 6 through the channel 10, while the air pressure displaces the solution located above the end 15 into the open container for solutions 5, after which, under the action of increasing air pressure in the cap 7 the solution level in channel 12 decreases, and the level in channel 16 rises above elbow 18; emptying the closed measuring container (Figure 4). After emptying the measuring tank 6, the air pressure in it continues to grow until the water level in the storage tank 1 reaches the WU (Figure 5), thereby preventing the solution from flowing from the open tank 5 into the measuring tank 6 through the channel 12.

When the water level in the storage tank 1 WU is reached, the siphon 2 is automatically activated and drains water from the storage tank 1 with a flow rate Q, sometimes exceeding the flow rate q by an order of magnitude. The water level in the reservoir 1 begins to decrease. The decrease in the water level in the reservoir 1 to PU leads to a decrease in air pressure in the air cap 7 and in the closed measuring tank 6, which entails the failure of the siphon part of the channel 16, and the solution level in it drops below knee 18 (Fig.6). A further decrease in the water level in the drive 1 leads to a decrease in pressure in the closed container 6 and the solution enters it from the open container 5 through the channel 12 with ends 14 and 15 (Fig.7).

The decrease in the water level in the reservoir 1 below the air cap 7 leads to the communication of the channel 10 and the closed measuring tank 6 with the atmosphere (Fig.8) and filling the buried measuring tank 6, channels 10 and 16 to the level of the solution in the open tank for chemicals 5 ( end of the cycle "accumulation - drain"). Further, the cycles of "accumulation - drain" are repeated.

Making the elbow 13 of the channel 12 larger than the distance between the air cap 7 and the upper level (HL) of the water in the irrigation water tank 1 prevents air from leaking through the channel 12.

The location of the elbow 11 of the channel 10 and the elbow 18 of the channel 16 above the open container for chemicals 5 prevents the solution from spontaneous draining through these channels, and the location of the lower elbow 17 of the channel 16 below the air cap 7 excludes the possibility of communicating the closed measuring container 6 with the atmosphere.

By changing the level of the end 19 of the channel 16 in the closed measuring tank 16, a change in the volume of supply of the solution of chemicals to the irrigation water is achieved.

In order to effectively mix the solution of chemicals with irrigation water, the end 20 of the channel 16 is placed in the zone of the water jet from the supply tube 3.

Thus, the implementation of the auxiliary capacity in the form of an air cap 7 and placing it in the irrigation water storage 1, by means of a rod 8 and a latch 9, and an air channel 10 connected with a closed measuring tank 6 with a knee 11 above the open tank for solutions of chemicals 5, by establishing open tank for chemicals above the level of the irrigation water storage tank, communication of a closed measuring tank 6 with an open tank for chemicals solutions 5 by a hydraulic channel 12 with a bend 13 greater than the distance between the air cap 7 and the upper level (WL) of water in the drive 1, communication closed measuring tank 6 with irrigation water storage tank 1 by hydraulic channel 16, the end 19 of which is passed through the bottom of the closed measuring tank 6 with the possibility of changing its level, and the end 20 is located in the zone of the water jet coming from the supply tube 3 to the irrigation water storage tank 1, allow Simplify design and increase efficiency by eliminating the effect of changing technical characteristics of the consumer for the operation of the device and the achievement of a change in the volume of supply of a solution of chemicalization agents to irrigation water.

In the conditions of the workshops of the Federal State Budgetary Scientific Institution All-Russian Research Institute "Raduga" in 2021, an experimental sample of a device for introducing chemicalization agents with irrigation water was made on discrete irrigation systems for a plot of up to 1000 m ² with the following design parameters:

Open container for solutions, volume 2.3 l, height 12 cm; chemicals 5

Measuring container 6 Ф _internal 90 mm, height 130 mm;

Air channel 10 PVC tube8;

Hydraulic channel 12.16 PVC8 tube;

Air hood 7 F _hood 160 mm, height 46 mm;

Water storage 1 volume 120 l;

The difference between VU and NU in the water storage tank is 1,250 mm.

Bench tests of an experimental sample were carried out in laboratory conditions in order to determine the stability of the supply of a solution of chemicals to irrigation water during each cycle of "accumulation - drain". The test results are shown in the table when a solution of chemicals is supplied in volumes of 150, 265 and 455 ml, set by changing the position of the end 19 of the channel 16 in a closed measuring container 6.

No.
cycles The volume of supply of the solution for the cycle of "accumulation-draining" of irrigation water, ml Experience #1 Experience No. 2 Experience No. 3 one 150 265 457 2 149 265 455 3 149 263 453 4 145 260 451 five 145 261 451 6 145 260 7 146 259 8 143 259 nine 144 10 144 eleven 143 12 145 13 143 fourteen 142 15 142

The test results show a high stability of the supply of a solution of chemicals for each cycle of "accumulation - discharge" of irrigation water.

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

Claims (1)

A device for introducing chemicals with irrigation water on discrete irrigation systems, containing an irrigation water storage tank with a siphon operating in automatic mode, a supply tube with a tap, an open container for solutions of chemicals and a closed measuring container installed below the container for solutions, characterized in that that the irrigation water accumulator is equipped with an air cap installed by means of a rod and a latch in the accumulator and communicated with the closed volumetric container with an air channel with a knee above the open container for chemicals solutions, the open container for chemicalization agents is installed above the level of the irrigation water accumulator, the closed volumetric container communicates with an open container for chemicals solutions with a hydraulic channel with an elbow greater than the distance between the air cap and the upper water level in the accumulator, while one end of the channel is located at the bottom of the container for chemicals, and the other at the lid of a closed measuring container communicated with the irrigation water collector with a hydraulic channel with two elbows, the lower elbow is located below the air cap, and the upper one is above the level of the open tank for chemicals solutions, one end of the channel is passed through the bottom with the possibility of changing its level, and the other end is located in the zone of the water jet entering from the supply pipe to the irrigation water reservoir.

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