SU41322A1 - Milk irradiation apparatus - Google Patents

Description

(112-113)

A and L planes, which are set in motion in small devices by a large spring mechanism, and in large ones driven by an explosive motor. Planes A, AI rotate on the pad bearings around a fixed axis D D, which is a hollow tube with a large number of holes. The diameter of these holes is designed to deliver milk at a known pressure from vessel M through tube E to the axial tube. The crane K opens at the time when plane A is at an angle of 35 ° with respect to the vertical axis. Through the holes, the milk flows in thin streams onto the plane, spreads over the latter and is retained in the C C. chrome. When the plane is in a position parallel to the earth's surface, the liquid spreads over the entire surface of the plane A. substances time, depending on the task, after which it rotates around the axis, draining the milk along the drain into a flat vessel / C from which the latter enters the receiver L.

The light source S (quartz burner or coal arc) is placed either above the instrument or on the side, depending on the required amount of ultraviolet arc arc, which must be given to the irradiated fluid. Due to the short duration of the irradiation, as well as the rotation of the wings, the latter are cooled, and no heating occurs, which could adversely affect the quality of the irradiated product.

If, during irradiation, it is desirable to put into operation any gas or remove ozone, then the entire rotating apparatus can be enclosed in a chamber that is well ventilated and sufficiently tight.

The capacity of the apparatus under a single quartz burner can be increased to 40 liters per day and more B depending on the strength of ultraviolet radiation and the area of the wings. If, however, as a source of ultraviolet light to use arcs with chemized coal on amperage

high power, it is possible to produce radiation up to 1000 liters per day, and it is necessary to calculate the amount of radiation depending on the amount of irradiated areas and the nature of the liquid.

The proposed apparatus has the advantages over other systems of apparatus for the irradiation of liquids in the open air, that the planes on which the light falls do not need special cooling, but due to continuous rotation are cooled from the movement of air.

The materials from which the apparatus is made can vary quite widely depending on the nature of the treated liquid, not to mention a tripod that can be made of any material that allows for cleanliness. The parts in contact with the liquid, in cases of irradiation of milk, can be made of aluminum, enameled iron (except for the feed and adjustment mechanism). A quartz burner (or other light source) may be suspended from above. In those cases where it is desirable that the fluid from the holes in the tube flow down along the planes A, AI slowly, the surface of these planes can be made wavy so that the heads go at a right angle to the flow of the fluid ..

The dimensions of the apparatus depend on the power of the light source, which is used for irradiation, or rather, the amount of ultraviolet radiation falling 1 cm in 1 second of time. For a quartz burner, an area of 2500 cm per blade is acceptable, provided that the burner is located at a distance of 30 cm from the horizontal position of the irradiated plane. However, it should be noted that one of the most important factors contributing to the enrichment of vitamin D of irradiated products is the question of the amount of ultraviolet radiation falling by 1 cm. Therefore, having in mind the irradiation of any liquid on the proposed device It is necessary to provide a free choice of the type of source of ultraviolet radiation, and

Also, it is possible to vary the distance from the irradiated plane.

The subject matter of the invention.

Apparatus for irradiating milk in a thin layer with ultraviolet rays

characterized in that it would be complete with two rotating planes A, L, for supplying fluid to which one of the ends of the axis on which said planes rotate, is made hollow for passing milk.

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