RU1806027C - Method for surface cleaning - Google Patents

Abstract

SUMMARY OF THE INVENTION: The surface to be cleaned is made in the form of conductive bindings with glazings connected in pairs to a switched voltage source. 3 ill.

Description

The invention relates to the field of agribusiness, to agricultural production, and more particularly to a method for cleaning greenhouses glazings. The invention may also be useful in other cases, for example, when cleaning glass lights on the roofs of industrial buildings.

The purpose of the invention is to simplify and increase the efficiency of the glazing cleaning process, simplify the operation of greenhouse farms, and improve the living conditions of plants.

The object is achieved by the fact that in the known method, the glass surface to be cleaned is placed in a metal frame, the opposite binders of which are electrically isolated from each other, and the voltage is applied to the opposite binders.

A glazing cleaning device including a conductive frame, glass, current leads is provided with a low voltage voltage source, wherein the current leads are connected in pairs to the horizontal sections of the frame. These sections are isolated from the vertical sections of the frame by means of dielectric inserts. The device also has a switching device for measuring voltage polarity, as well as pipelines for supplying washing liquid to the glazing.

The invention is based on the factor that, when in contact with the glazing, polluting particles (dust, soot, aerosols, etc.) enter into adsorption, adhesive, electrostatic interaction. At the same time, the particles are exposed to the air surrounding the greenhouse, which does not exclude the effect of secondary pollution i.e. transferring pollution particles from one area (e.g., from a frame) to another (glass).

The charge of the contaminating particles can be positive or negative, of varying sizes. Particles may also have no charge and be electrically neutral. In addition, the surface itself: glazing due to its physical nature can also be

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positively, negatively or electrically neutral, which is caused by external friction. At the same time, the glazing frame is metal, current. conductive.

In industry, for example in metallurgy, electrostatic precipitators are widely used for dust removal of gaseous media. Electrofilters include electrodes connected to a high-voltage high voltage source, as a result of which an ionizing particle stream is formed inside the filter. When polluted gaseous media are passed through a filter, the included particles pass through a powerful electrostatic field and ionize (shock or diffusion charge occurs). After this, the charged particles are deposited on a precipitation electrode of a corresponding polarity.

When using electrostatic filters, the course of competing processes is taken into account: powerful fields are required for the effective ionization of particles, but the particles receive significant kinetic energy. This leads to the fact that particles pass with a high speed the working zone of the filter, without having time to deposit, on the electrode.

The essence of the invention lies in the forced separation of the flow of pollution in the air due to the action of electric forces (from a safe, low-voltage source), as well as the redistribution of pollution on the cleaned glazing surface in case of a change in polarity .......

The invention is illustrated in FIGS. 1-3. The air medium contains positively charged particles 1. dipole particles 2, negatively charged particles 3, as well as electrically neutral particles 4. Naturally, a certain charge of a particle is reflected conditionally at a given point in time, since it is possible in principle to transfer particles (from external fringe, from

solar radiation, etc.). The glazing includes glass 5 itself and a conductive frame having a horizontal part 6. From the low voltage voltage source 7, voltage is applied to the horizontal parts of the frame so that adjacent sections in pairs have different polarity. I. The source also includes a switching device 8, which changes the polarity of the voltage.

When an air medium with oppositely charged particles approaches the glazed zones, also unlike charged, particles move in the general flow in accordance with the sign of the electric charge. This effect is enhanced by secondary pollution, since at the initial time, the newly deposited particles are not yet firmly bound to the glazing and frame.

The invention can be implemented in an automatic glazing cleaning mode. For example, in case of heavy rainfall, the source 7 with the switch 8 automatically switches the polarity of the voltage applied to the horizontal parts of the frame, as a result of which the charged particles are repelled and washed off by the rain. The work is useful without flushing, because this significantly reduces the effect of secondary pollution of the glazing. .

 FORMULA AND SECTION

The method of cleaning the surface, which consists in the fact that the surface to be treated is electrically charged with a flow of washing liquid, varying the polarity of the applied voltage, characterized in that, in order to improve the quality of cleaning the glass surface, the glass surface is placed in a metal frame, opposite the bindings of which are isolated, while the voltage is applied to opposite bindings.

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