RU2527022C1 - Atomiser - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: atomiser comprises a spraying disk, a supply tube and a spring. The spraying disk is provided with a liquid receiver and a perforated shell. The upper edge of the receiver has the same shell with coaxial perforation. The outer diameter of the shell of the receiver corresponds to the inner diameter of the shell of the spraying disk. The disk is put on the receiver with the ability to rotate by 10-15°. The disk is connected to the shaft by the spring. One end of the spring is fixed to the shaft. Another end of the spring is fixed in one of the grooves formed on the shell of the spraying disk. The inlet tube is directed to the bottom of the receiver and is provided with a float regulator of the flow.

EFFECT: simplicity of design, reduced energy consumption, stabilisation of a given flow rate of the sprayed liquid and the uniformity of its distribution on the treated surface.

5 dwg

Description

The present invention relates to the field of agriculture and may find application in the spraying of liquid pesticides, as well as in systems for regulating the microclimate of plants in the surface air layer.

A known design of a liquid atomizer, including a housing, a rotating saw bowl, a fan with a casing with a suction slot, a fixed disk, a device for collecting and reusing liquids and an electric motor (Pat. RF No. 1521419, A01M 7/00, 1989)

A disadvantage of the known device is the structural complexity, significant energy consumption and the inability to change and stabilize the supplied flow.

A known design of a liquid atomizer, including a casing with an exit slit, a supply tube, a drive and a spray disk. A conical element with a spring and an electromagnet are installed coaxially with the disk in the lower, tapering part of the casing (Pat. RF No. 1639560, A01M 7/00, 1991). This liquid atomizer is adopted as a prototype.

The disadvantage of this technical solution is also the structural complexity, energy consumption and the inability to stabilize the supplied flow.

The disadvantages are eliminated by the proposed liquid atomizer, including a spray disk mounted on an electric motor shaft, a supply tube and a spring, in which the spray disk is equipped with a liquid store and a perforated shell, while the upper edge of the drive has the same shell with coaxial perforation and an outer diameter corresponding to the inner diameter of the shell of the sawing disk so that the sawing disk is worn on the drive with the possibility of rotation by 10-15 ° and is paired with the shaft in the middle Twomey spring, one end of which is fixed on the shaft, the other - in one of the grooves formed on the shell of the spray disc and inlet tube deduced to drive the bottom and is provided with a float flow regulator.

The essence of the proposed is illustrated by the drawing, in which Fig. 1 shows a general view of the atomizer, in Fig. 2 - details of the atomizing disk, in Figs. 3, 4 - details of the atomizing disk at the time of stabilization of the fluid flow, in Fig. 5 - atomizing disk, top view .

The liquid atomizer includes an electric motor 1, on the shaft 2 of which a spray disk 3 is mounted, dressed on a liquid accumulator 4. In the casing 5 of the disk 3, calibrated water outlets are made 6. In the casing 7 of the accumulator 4, the same openings are made 8. The casing 5 of the disk 3 is put on the casing 7 with the coaxial arrangement of holes 6 and 8 with the possibility of rotation by 10-15 °. The mutual arrangement of the holes 6 and 8 is secured by a pin 9 mounted on the shell 5 and included in the groove 10 on the shell 7. The shell 5 is interfaced with the shaft 2 by a spring 11, one end of which is mounted on the shaft 2, and the other in one of the grooves 12, made in the casing 5. The fluid is supplied to the atomizer through a pipe 13, brought to the bottom of the tank of the liquid storage 4 and equipped with a float flow regulator 14.

The operation of the liquid atomizer is as follows:

When the motor 1 is turned on, liquid is supplied through the tube 13 to the inner surface of the accumulator 4. Under the action of centrifugal forces, the liquid spreads along the surface of the accumulator and moves towards the shell 5. At this moment, the openings 6 and 8 are completely aligned, and the liquid flows through them to the lower the surface of the disk 3 and is sprayed from its lower edge. Due to the energy consumption for atomization, the disk 3 is braked relative to the drive 4 while the spring 11 is bent. In this case, the holes 6 in the casing 5 are displaced relative to the holes 8, their outlet cross section decreases and the flow rate entering the lower surface of the disk 3 decreases. limited by the movement of the pin 9 in the groove 10 (10-15 °). With a decrease in flow rate, the force inhibiting the disk 3 decreases, and the spring 11 transfers the shell 5 to the equilibrium position of the force biasing the disk 3 relative to the drive and the spring elasticity counteracting it 11. The relative positions of the holes 6 and 8 are stabilized, which ensures flow rate stabilization. In the lower part of the accumulator 4, the excess liquid gradually forms due to the dropping of drops or the excess liquid supply from the tube 13. When the liquid level reaches the lower end of the tube 13, the float flow regulator 14 reduces the cross section of the outlet of the tube 13, reducing the liquid flow. The sprayer is set for a given stable flow rate before starting work by installing the end of the spring 11 in one of the grooves 12 of the shell 5.

Thus, the proposed design of the liquid atomizer with the simplicity of design and minimal energy consumption provides stabilization of a given flow rate of the sprayed liquid and the uniformity of its distribution on the treated surface.

Claims (1)

A liquid sprayer comprising a spraying disk mounted on an electric motor shaft, a supply pipe and a spring, characterized in that the spraying disk is equipped with a liquid storage ring and a perforated shell, the upper edge of the storage ring having the same shell with coaxial perforation and an outer diameter corresponding to the inner diameter of the shell the spray disk so that the spray disk is mounted on the drive with the possibility of rotation by 10-15 ° and is coupled to the shaft by means of a spring, one end of which is fixed a shaft, the other - in one of the grooves formed on the shell of the spray disc and inlet tube deduced to drive the bottom and is provided with a float flow regulator.

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