RU110995U1 - POWDER SPRAY - Google Patents

Abstract

 A powder atomizer containing a container connected to the spray tube through an opening, an active and indifferent electrode located respectively inside and outside the spray tube, characterized in that the active electrode is made in the form of a pointed rod and is located along the axis of the spray tube, the tip tip is removed from the hole connecting the spray tube to the tank, at a distance of 1-2 diameters of the active electrode, which, in turn, is 0.25-0.5 of the inner diameter of the Call duration tube and the indifferent electrode is connected to a further plate electrode.

Description

The proposed technical solution relates to medical equipment, namely to devices for local treatment by spraying a powdered drug into a pathological area.

A device for introducing powders is known, containing a container for powders, closed on one side with an elongated nozzle, and on the other, a source of air pressure in the form of a rubber bulb (USSR Author's Certificate No. 171094, 1964 [1]).

There is also known a device for spraying powdered substances, including a sealed container for powders, inside which a tube is connected, connected to an outlet (French Patent No. 2004243, 1969 [2]).

Known devices [1], [2] are used for spraying with the medicinal powder the walls of various cavity organs, however, their design does not provide electrification of the sprayed powder, which is necessary, for example, for controlled spraying of a medicinal substance.

The closest technical solution to the proposed is a nebulizer of an electrically charged drug substance. containing a container connected to the spray tube through the hole, an active and indifferent electrodes located respectively inside and outside the spray tube (Japanese Application No. 52-40519, published 12.10.77 [3]).

The disadvantage of the nebulizer [3], adopted by us as a prototype, is that it does not allow the spraying and electrification of a powdery substance, as well as the directed introduction of the drug into the affected area.

The aim of this work is to provide the possibility of targeted spraying of medicinal powder on a pathology site in an electric field.

This goal is achieved by the fact that in the atomizer containing a container connected to the spray tube through the hole, the active and indifferent electrodes located respectively inside and outside the spray tube, the active electrode is made in the form of a pointed rod and is located along the axis of the spray tube, the tip tip is removed from the hole connecting the spray tube to the tank, at a distance of 1-2 diameters of the active electrode, which in turn is 0.25-0.5 of the inner diameter of the spray tube ki and the indifferent electrode is connected to a further plate electrode.

Studies on patent and scientific and technical information sources have shown that the design of the proposed atomizer is unknown and does not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty" and "inventive step".

The drawing (figure 1) shows the design of the proposed atomizer of a powdery substance.

The atomizer of the powdered substance contains a glass container 1 of a cylindrical shape, turning into a cone in its base. At the top of the cone there is a through hole 2. The container 1 is welded to the side wall of the spray tube 3 so that the hole 2 enters at a right angle into the channel 4 of the spray tube 3. The spray tube 3 is fixed in a gun holder 5 made of dielectric material. In the channel 4 of the spray tube 3 is an active electrode 6, having the form of a pointed rod. The active electrode 6 is located along the axis of the spray tube 3. The tip 7 of the active electrode 6 is located near the opening 2 of the container 1, at a distance of 1-2 diameters of the active electrode 6, the diameter of which is 0.25-0.5 of the inner diameter of the spray tube 3. The active electrode 6 is connected via a push-button switch to an electrical socket located in the handle of the holder 5. The push-button switch is turned on by pressing the key 8. An indifferent is fixed on its surface between the container 1 and the output end 9 of the spray tube 3 the first electrode 10 having a ring shape. The indifferent electrode 10 is connected by a wire to an electrical socket located in the handle of the holder 5. At the output end 9 of the spray tube 3, a replaceable tip 11 is fixed. A previously dried powdery preparation 12 is poured into the container 1, after which it is tightly closed with a lid 13. Unipolar are connected to the electrical sockets plugs 14 and 15 connected by wires to a source of high DC voltage. The plug 15, electrically connected to the active electrode 6, is at a negative potential, and the plug 14 is under a positive potential.

Consider the use of a nebulizer for the treatment of ulceration located on the wall of the trachea.

In preparation for the procedure, the dried medicament of finely divided consistency, for example rifadin, is poured into the container 1 of the nebulizer, after which the container 1 is closed with a lid 13. Unipolar plugs 14 and 15 are connected to a high DC voltage source. On the patient’s neck, near the lesion (ulceration on the tracheal wall), an additional plate-shaped electrode is fixed with a band-aid (not shown in Fig.). An additional plate electrode is connected to a high DC voltage source. The additional plate electrode and the indifferent electrode 10 are at the same potential and are grounded.

The doctor, holding the nebulizer with his hand, inserts the tip 11 into the patient’s oral cavity, after which he presses the key 8 with his index finger, while the active electrode 6 is connected to a high constant voltage source.

Under the action of a high electric potential (15-20 kV), a quiet discharge arises between the active 6 and indifferent 10 electrodes, accompanied by intense ejection of electrons and negative ions from the tip 7 of the active electrode, which is under the negative potential. Ions during their movement carry away air particles and form an electric wind. The movement of air through the channel 4 of the spray tube 3 leads to injection spraying of a finely divided powdery preparation 12. Particles of the powder 12, falling through the hole 2 into the channel 4, under the influence of electrons and negative ions flowing from the tip 7 of the active electrode 6, receive a negative charge and are repelled by tip 7. By electric wind, negatively charged powder particles are ejected through tip 11 into the patient’s oral cavity and settle in the pathology zone on the trachea wall, which is under the maximum positive potential.

The practical use of the device allows economical, fast and accurate delivery of the drug powder in the pathology zone and thereby increase the effectiveness of the treatment.

Claims (1)

A powder atomizer containing a container connected to the spray tube through an opening, an active and indifferent electrode located respectively inside and outside the spray tube, characterized in that the active electrode is made in the form of a pointed rod and is located along the axis of the spray tube, the tip tip is removed from the hole connecting the spray tube to the tank, at a distance of 1-2 diameters of the active electrode, which, in turn, is 0.25-0.5 of the inner diameter of the Call duration tube and the indifferent electrode is connected to a further plate electrode.