SU389797A1 - SPRAY - Google Patents

Description

one

This invention relates to the field of medicine, in particular to sprayers of liquid medicinal substances.

A device for spraying and inhalation of drugs is known, comprising a split housing with a cup for a sprayed liquid, a separator, a nozzle with channels for supplying compressed air, a liquid suction and a nozzle, as well as a cap with an outlet nozzle and a spool-type aerosol control mechanism.

In order to control and increase the spray performance in the proposed sprayer, the aerosol flow control mechanism is located on the surface of a spherical cap equipped with a protrusion, for example a cylindrical shape, and is made in the form of a movably mounted cap, and on the end surfaces of the protrusion cap eccentrically located at the same distance from the axis symmetry of the hole connected to the internal cavity of the spray element; wherein the spray element has an opening connecting its compressed air supply channel with a container for the sprayed liquid.

The drawing shows a General view of the proposed spray, longitudinal section.

The device contains a split housing /,

one part of which is a capacitance 2 for the sprayed liquid, and the other is a removable spherical cap 3 with an outlet nozzle 4. On the surface of the spherical cap there is an aerosol control mechanism 5, made in the form of a movably mounted cylindrical protrusion 6 of cap 7. On the end surfaces of the cover 7 and the protrusion 6 are located with the same radius of the opening S and I connected to the internal cavity 10 of the spray element, which is provided with an opening 11 connecting its channel 12 for supplying compressed air ear with a capacity of 2 for sprayed

fluid.

The device works as follows. Through the inlet fitting 13 of the housing 1 through the air channel 12 of the inner cavity 10 of the spray element air enters the

air nozzles 14. At the expiration of air, a vacuum arises, which is transmitted through the L-shaped nozzles 15 to the vacuum chamber 16. At the same time, the vacuum chamber 16 is sucked through the tube 17 and the holes 5 and 5

air.

During inhalation, the opening 8 is blocked, and instead of air, the liquid subass suction is sucked into the vacuum chamber 16. The reservoir 2 is drained through the liquid channel 76. Then the liquid from the vacuum chamber 16 enters the liquid nozzles 14 of the internal cavity 10 n and sprays it. The resulting aerosol is separated at separator 19 and discharged through outlet 4 of cap 5. Simultaneously, part of the air from air duct 12 leaves through an opening // in a cavity 10 k, bubbling through the sprayed liquid, contributes to a more complete removal of aerosol from the dispenser. At the end of inhalation, the opening I and the liquid nodosos are opened, and consequently, its spraying stops. In order to switch on the atomizer in the continuous generation mode, the aerosol rotates the lid 7 on the protrusion 6 and covers the openings 5 and 9. The liquid is sucked in and its atomization occurs continuously. To adjust the sprayer capacity, turn the lid 7 in and align the holes 8 w. 9. At the same time, partially air is sucked into the vacuum chamber 16 and liquid is partially sprayed. The smaller the degree of mutual opening of the holes 5 and I, the more the sprayed liquid is sucked in, and consequently, the higher the productivity of the sprayer. The subject of the invention is a nebulizer, for example, medicinal substances, made in the form of a detachable body, one part of which is a container for the sprayed liquid, and the other part is a removable sphere-shaped icon with an outlet nozzle, as well as an aerosol containing an air flow control mechanism and an atomizing element located inside the body nozzles, channels for supplying compressed air, the nodosa of the sprayed liquid and connecting its internal cavity with the atmosphere, characterized in that, with the aim of regulating and reversing The spraying equipment, the aerosol supply mechanism is located on the surface of a spherical column equipped with a protrusion, for example, of a cylindrical shape, is made in the form of a movably mounted cover, and on the end surfaces of the cover and the protrusion are eccentrically located at the same distance from the axis of symmetry of the aperture; with the internal cavity of the spray element; at the same time, the spray element has an opening that connects its channel for supplying compressed air with a container for the sprayed liquid.