SU939125A1 - Liquid spraying method - Google Patents

Description

(54) LIQUID SPRAY WAY

one

The invention relates to a method of spraying a liquid in an electric field and can be used for painting, conditioning, inhalation, aerosol therapy, when spraying plants, for producing powder (raw material for powder metallurgy), and making burners.

There is a known method of spraying a liquid by applying a constant high voltage of electric current 1 to a liquid.

However, to carry out spraying in an electric field, the liquid is pre-crushed by centrifugal or pneumatic methods. The disadvantages of the pneumoelectrostatic method are the need for compressors, high air flow rates, the creation of a rigid torch, in which the particles move not along power lines, but are carried along by the gas flow. The disadvantages of centrifugal injectors are also the resulting rigid torch, the need for electric motors and the presence of rotating discs.

The closest in technical essence to the present invention is a method of spraying a liquid by dispersing it with the help of ultrasound.

In the device carrying out this method, the fluid is ejected from the nozzle under pressure. The ultrasound functions are generally reduced to crushing the liquid, and the droplets that are formed are transported

5 pressure. In this case, the liquid can be moved a considerable distance, which is very important for the formation of a plume when creating burners and when painting various parts 2.

(О A significant disadvantage of this method is the electroneutrality of the aerosol produced. This makes it impossible to control the aerosol, which, for example, during painting leads to considerable paint costs, since a significant part of it is flowed by the air flow. In addition, there is no charge on the droplets leads to their coalescence, i.e., deterioration of the dispersion of the resulting aerosol. The purpose of the invention is to obtain a highly dispersed electrosol.

The goal is achieved by the fact that in the method of spraying a liquid by dispersing it with the help of ultrasound onto a liquid simultaneously with ultrasound

additionally affected by an electric field of 0.5-30 kV / cm.

The method is carried out as follows.

A high voltage is applied to the electrode dipped into the vessel with the liquid. On the ultrasound emitter, also located in the liquid, the signal from the ultrasonic generator. Regulating the power of the radiator and the depth of its immersion, the dispersion, productivity and shape of the plume are changed by the aerosol. The magnitude and current of the supplied high voltage varies the charge of the aerosol and the nature of its movement.

Example. The benzene is sprayed using a quartz plate dipped in a cuvette filled with liquid. To obtain ultrasound, a plate voltage of 350 V with a frequency of 500 kHz is applied to the plate. When the ultrasonic generator is turned on, splashes appear above the surface of the liquid, which rise to a height of 5 cm, fall down under the force of gravity or are carried away by the air flow. When a high voltage of 0.5–30 kV / cm is applied to benzene (this is done with an electrode lowered into a liquid and connected to a high voltage source), a tiny mist appears above its surface, which evenly diverges and does not fall back into the liquid. When a grounded plate is brought to the surface of the liquid, the entire flow of electro-aerosol goes to it.

The application of the proposed method allows to increase the dispersion of the spray and equalize the flow of electroaerosol, which prevents pollution of the environment.

Claims (2)

1. USSR author's certificate number 134173, cl. B 05 D 1 / (M, 1960. 2. Physical bases of ultrasonic technology. Ed. L. D. Rosenberg. “Science, 1970, p. 388 (prototype).