SU1404047A1 - Plant sprayer - Google Patents

Abstract

This invention relates to the mechanization of chemical plant protection. The aim of the invention is to increase the service life of the pump by eliminating cavitation and improving the uniformity of spraying the plants. In the sprayer, the pump-booster 4 is equipped with a chamber 15 with a spring-loaded diaphragm 16. The discharge port 7 of the pump 4 is connected by an additional pipe 8 to its suction nozzle 5. This eliminates cavitation in the pump due to the constant maintenance of overpressure in the suction nozzle 5. Supplying additional piping 8 with a shut-off device 9, kinematically connected to diaphragm 16, allows spraying at a certain constant pressure. 2 Il.

Description

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The invention relates to the mechanization of chemical plant protection, in particular to machines for spraying them.

The purpose of the invention is to increase the service life of the booster pump by eliminating cavitation and increasing the uniformity of spray of plants.

FIG. 1 depicts a technological cxe.via sprayer; in fig. 2 - camera with a spring-loaded diaphragm, a slit.

The sprayer contains a tank, a volumetric dosing unit 2, the inlet pipe 3 of which is connected to the tank, a pump-suction device 4, the suction pipe 5 of which is connected to the outlet of the metering device 2, and a nozzle 6 connected to the discharge pipe 7 of the pasa-driver 4.

The discharge pipe 7 of the booster pump is connected by an additional pipe 8 to its suction pipe 5. The pipe 8 is provided with a shut-off device 9, representing a closed container 10 with a flexible wall 11, inside of which there are a socket 12 and a valve 13, the latter being connected to a flexible wall II. A chamber 15 is connected to the suction port 5 of the pump 4 by the knee 14, inside which is installed the diaphragm 16 with the spring 17, i.e. its end is connected to the valve 13 of the locking device 9, i.e. the locking device 9 is kinematically connected with the diaphragm 16.

As a volumetric metering device 2, any of the known volumetric action pumps with a pressure (pressure) of 0.10 MPa (1 kgf / cm) - a piston; neva, a shchestrenny or diaphragm, which is the simplest and has the lowest metal consumption and cost .

The booster pump 4 can be any of the known volumetric or pressure pumps (piston, centrifugal, vortex, etc.), which creates the pressure required for the nozzle to work up to 2 MPa (20 kgf / cm).

Before starting the operation of the sprayer, in accordance with the prescribed rate of application of the solution for 1 ha, the required capacity of the dispenser 2 is adjusted by changing the stroke of its working body (diaphragm) and the nozzles with the required hole diameter are installed.

Sprayer works as follows.

From the reservoir 1 the dispenser 2 takes the required amount of liquid, which, however, is drawn to the suction inlet 5

to the booster pump 4. Lastly, the liquid is supplied to the discharge port 7, from which, via an additional pipeline 8, through the open shut-off device 9

it returns back to the suction inlet 5. As a result of the supply of new doses of fluid from the reservoir 1 by the dispenser 2 to the inlet 5 and its return to the last of the discharge nozzle 7, the pressure in it increases. This pressure through knee 14 is transmitted to chamber 15 and acts on the diaphragm 16. As soon as the pressure reaches the set limit (0.3 kgf / cm), the diaphragm 16, having overcome the force of the spring 17, bends and

5, the rod 18 brings the valve 13 closer to the socket 12, i.e. the resistance of the locking device 9 increases. As a result, the pressure in the injection pipe 7 is increased to the desired value, the liquid is sprayed through the nozzle 6 onto the plants,

0 i.e. the sprayer operates in nominal mode. It should be noted that the booster pump works with a new (constant) fluid supply, and through the nozzle 6 it sprays onto the plant exactly the same amount of liquid as it is supplied by metering unit 2 from reservoir 1, and the difference between the pump 4 and the metering device 2 is continuously returned (circulated) from the discharge pipe 7 through the additional pipe 8 to the suction pipe 5 of the pump 4 for re-feeding. Therefore, a slight overpressure (0.3 kgf / cm) is constantly maintained in the pipe 5.

Such implementation of the proposed plant sprayer allows to increase the duration

5 service booster pump and increase the uniformity of spraying plants.

Claims (1)

Invention Formula A plant sprayer comprising a reservoir for the working fluid, a volumetric metering device, the inlet pipe of which is connected to the tank, a booster pump, the suction pipe of which is connected to the outlet of the dispenser, and a nozzle connected to the pump discharge pipe, characterized in that in order to increase the service life of the booster pump by eliminating cavitation and increasing the uniformity of spraying the plants, the suction nozzle of the booster pump 0 is equipped with a camera with a spring-loaded diaphragm, and the discharge pipe of the booster pump is connected by an additional pipe to its suction pipe, and the additional pipe is equipped with a shut-off device, kinematically  associated with the diaphragm. FIG. 2