RU2548886C1 - Device for creation of gas-droplet jet - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device for creation of a gas-droplet jet comprises a housing with supply systems of gas and liquid, and the mechanism of their mixing with the formation of a gas-droplet jet, the gas supply system is formed as a fan built in the housing and the fins placed at the inlet of the housing, the mechanism of mixing of liquid and gas is a disc atomiser with electric drive and a water-supply pipe, the disc atomiser is arranged coaxially with the housing at its outlet and has two spraying edges of different diameters, communicating with each other through the water circulating holes.

EFFECT: providing the ability of separation of the gas-droplet jet into the fractions - large-drop to moisten the soil covering and a fine for the plant leaf surface and the surface air at a controlled flow range of the gas-droplet jet.

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Description

The invention relates to agriculture, namely, devices for irrigation of crops. It will find application in carrying out grafting irrigation of seedlings of vegetable crops, as well as to relieve temperature stresses of plants during hot weather.

A known installation for creating a gas-droplet jet comprising a housing with systems for supplying liquid and gas to a gas-dynamic nozzle with a profiled channel and a chamber for mixing liquid and gas (US Pat. RF No. 2107554, MKI A01G 25/00, 1998).

The closest to the proposed technical solution is a device for creating a gas-droplet jet Kochetkov, adopted as a prototype (US Pat. RF No. 2482928, MKI A01G 25/00, 2013). This device also includes a housing, fluid and gas supply systems and a mechanism for mixing them to form a gas-droplet jet.

The disadvantage of both the analogue and the prototype is the complexity of these technical solutions and focus only on achieving the maximum range of the jet without taking into account the uniformity of moisture in the soil and surface of the plants when using the device for irrigation of crops.

To eliminate this drawback allows the proposed device to create a gas-droplet jet, comprising a housing with gas and liquid supply systems and a mechanism for mixing them with the formation of a gas-droplet jet, in which, according to the invention, the gas supply system is made in the form of a fan built into the housing and placed at the inlet the case of the louvre plates, and the liquid-gas mixing mechanism is a disk atomizer with an electric drive and a water supply pipe, placed coaxially with the body at the outlet e thereof having two different diameters of the spray edge interconnected by vodoperepusknyh holes.

The technical result from the use of the proposed device is the ability to separate a gas-droplet jet into fractions - large-droplet for moistening the soil cover and finely dispersed for the leaf surface of plants and the surface air layer with an adjustable range of gas-droplet jet supply.

The essence of the technical solution is illustrated by drawings, where in Fig.1. shows a side view of the device in section; figure 2 is a view of the spray disk in section; figure 3 is a view of the louvre grille in plan.

A device for creating a gas-droplet jet comprises a housing 1, inside of which a fan 2 is located, in the center of the output section of the housing 1 there is an electric drive with a disk sprayer 3, which has a water supply pipe 4. At the entrance to the housing 1, shutters are mounted 5. The disk sprayer 3 is equipped with two spray edges 6 and 7. At the base of these edges, water bypass holes 8 and 9 are respectively made. Blinds 5 consist of shutter plates 10 with a manual drive 11.

The operation of the device for creating a gas-droplet jet is carried out in the following sequence.

Before irrigation of crops, the ratio of water consumption from a gas-droplet stream to moisten the soil and leaf cover of plants and the surface layer of air is established, mounting a removable disk 3 with a different number of water bypass holes 9. The more water you need to apply to moisturize the soil, the more water bypass holes 9 has a small edge 6 of the installed disk 3. After the installation of the disk 3 and the connection of the water supply pipe 4 to it, the device on the transport means are taken in the field.

The device with the fan 2 on is moved along the irrigated area. In the process, water from the water source through the pipe 4 enters the middle part of the rotating disk 3. A part of this water is sprayed from the small edge 6, forming a large droplet fraction. The rest of the water flows through the opening 9 to the edge 7, where it is also sprayed with the formation of a finely dispersed fraction of a gas-droplet jet. Accordingly, most of the water sprayed from the surface of the edge 7 forms droplets up to 100 microns in size, which settle on the surface of the leaves and also evaporate in the surface air, increasing its humidity. The droplets formed at the edge 6 have a size of more than 100 microns. They settle on the surface of the soil, moistening it. The percentage ratio of the amount of water supplied to moisten the soil and the surface layer of air is set by selecting discs 3 with a certain number of holes 9. The range of supply of the gas-droplet jet is controlled by actuator 11 by turning the shutters 10 of the shutters 5 and thereby changing the force of the air flow created by fan 2 .

Thus, the proposed device for creating a gas-droplet jet with the simplicity of design and adjustable delivery distance provides the ability to separate the gas-droplet jet into fractions to moisten the soil cover, leaf surface of plants and the surface layer of air.

Claims (1)

A device for creating a gas-droplet jet, comprising a housing with gas and liquid supply systems and a mechanism for mixing them with the formation of a gas-droplet jet, characterized in that the gas supply system is made in the form of a fan integrated in the housing and louvres placed at the inlet of the housing, and a fluid mixing mechanism and gas is a disk atomizer with an electric drive and a water supply pipe, placed coaxially with the housing at the outlet of it, having two spray edges of different diameters, communicating between by means of water bypass holes.

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