RU1771818C - Liquid sprayer - Google Patents

Abstract

The invention relates to the field of spraying liquids and can be used to spray suspensions and colloidal solutions. The goal is to increase the efficiency of liquid atomization. To do this, the liquid atomizer is equipped with an installed with the possibility of stepwise movement from the outer zone of the nozzle to the inner movable element. The diameter of the element is selected to be larger than the outer diameter of the fluid supply means. The sprayer is also equipped with a liquid bypass valve, rigidly connected to the housing and the stepwise movement mechanism of the movable element. In addition, the spray gun is provided with an elastic tube for connecting the movable member to the bypass valve. The movable element has two operating positions, the sequence of each of which ensures the cleaning of the supply channels of the sprayed liquid by blowing the supply channel with compressed air, which ensures its cleaning from large particles of contamination, and by washing the supply channel with a washing liquid from particles deposited on the wall at second working position. 5 ill. cl

Description

The invention relates to the field of spraying liquids, in particular for spraying suspensions and colloidal solutions.

An object of the invention is to increase the efficiency of liquid atomization.

In FIG. 1 shows a general view of a liquid atomizer; in FIG. 2 - view of the end part of the device in the working position; in FIG. 3 - axial section of the front of the device in the working position; Fig. 4 is a view of an end portion of a device in a purge position of a fluid supply means; Fig. 5 is an axial section through the end of the device in the purge position of the fluid supply means.

The liquid atomizer comprises a housing 1, the outlet part of which is made in the form of a supersonic gas nozzle 2, means for supplying liquid in the form of a needle 3 with a coaxial nozzle 2 by a supply channel 4, and a sensor 5 for the presence of a liquid dispersed phase at the end of the needle 3.

In addition, the sprayer is equipped with a step-mounted movement from the outer zone of the nozzle 2 to the inner movable element 6 in the form of a tube 7 with a tip 8, the diameter of which is chosen to be larger than the outer diameter of the liquid supplying means.

The sprayer is also equipped with a 9-step movement mechanism

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element 6 with a stem 10, a liquid bypass valve 11, rigidly connected to the housing 1 and the mechanism 9 step movement, and an elastic tube 12 for connecting the latter to the bypass valve 11.

To ensure the movement of the tip 8 of the movable element 6 on the sleeve 13, grooves 14 are made for moving the guides 15 connected to the movable element b connected to the rod 10 ...

The stepwise movement mechanism 9 can be performed, for example, in the form of an electromagnet, while the return of the movable element 6 from the zone of the nozzle 2 can be carried out using a spring 16.

The valve 11 and the mechanism 9 can be attached to the housing 1 on the bracket 17.

The compressed gas is supplied to the nozzle 2 of the atomizer through a tube 18.

The liquid dispersed phase sensor 5 is connected to the control unit 19.

The sprayer operates as follows.

When the working fluid is supplied through the inlet channel 4 to the nozzle 3 of the nozzle and compressed gas through the tube 18 to the nozzle body 1, an aerosol flow is generated in the supersonic zone of the gas nozzle 2 as a result of the dynamic interaction of the fluid with the high-speed gas stream. In the case of clogging of the needle 3 or the channel 4, the sensor 5 for the presence of a liquid dispersed medium is activated and transmits a signal to the control unit 19. From the control unit 19, the control signal is supplied to the stepwise movement mechanism. The first stage, purging, is carried out by moving the rod 10, the movable element 6 moves from the outer zone of the nozzle 2 (see Fig. 2 and Fig. 3. position I) to the inner one before aligning the tip 8 with the axis of the needle 3 (see Fig. 4 and 5, position II). Wherein

the tip 8 stops at a distance equal to the gauge of the needle 3, i.e. its diameter. The resulting (due to inhibition of the gas flow) increased

the gas pressure at the end of the needle 3 helps to purge its internal cavity and channel 4 of the working fluid. In order to create the indicated pressure increase, the diameter of the tip 8 is chosen to be large

0 needles 3, for example, 1.5 ... 1.8 times. After delaying the movement mechanism 9, in position I for the required time, the control unit 19 issues a command to the mechanism 9, further moving the movable element 6 until it is aligned with the end face of the needle 3. In this case, the position (see Fig. 1) opens valve 11, and washing liquid under pressure is supplied to the inner cavity of the needle 3,

0 which contributes to the washing of the needle and channel 4 of the supply of working fluid. At the end of the flushing, the movement mechanism returns to its original position (see Fig. 2 and Fig. 3 Position I), and simultaneously with the help of valve 11, the flow of flushing fluid is shut off.

Claims (1)

SUMMARY OF THE INVENTION A liquid atomizer comprising a housing with a nozzle, means for supplying liquid with an axial nozzle channel and a sensor for the presence of a liquid dispersed phase, characterized in that, in order to increase the efficiency of liquid atomization, it is equipped with an installed 5 steps of moving from the outer zone of the nozzle to the inner of the movable elements in the form of a tube with a tip, the diameter of which is chosen to be larger than the outer diameter of the liquid supplying means, a liquid bypass valve rigidly connected to the housing and the mechanism for the stepwise movement of the movable element, and an elastic tube to connect the latter with bypass valve. 5 FIG. 4 By el Position Fig 5