DE258786C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

20. Mürz 1883

the priority

It is already a method of sterilizing liquids using ultraviolet rays known by the rotation of the liquid around the radiation source. In this procedure the container used for sterilization is set in rapid rotation, whereby the Liquid is entrained and as a result of centrifugal force in a thin layer along the Walls of the container rises. This method has the disadvantage that it is only is applicable for small liquid masses, since when using larger masses a significant one Force required to drive the container and also the sterilization is affected because as a result of the need to have a container with a larger Diameter to use to absorb the liquid mass, the distance between the radiation source and the layer of liquid rising up on the inside of the walls of the container grows.

In the present method, these disadvantages are avoided, since according to the invention the liquid to be sterilized not by rotating the container, but by yourself Pressure inside the container [set in rotation wildly. The cavity in which the radiation source is arranged, is within the rotating mass of liquid itself in their center formed. The liquid is introduced into the container tangentially under pressure, so that it rotates in it in the form of a spiral and gradually from the outside outwards moved inside to the drainage point. The force required to rotate the liquid is proportionate low, especially when the water used to feed cities is sterilized, which is usually already under Pressure is on.

The drawing shows two exemplary embodiments for carrying out the method serving device is shown, namely:

1 is a vertical section through one embodiment of the device, FIG. 2 is a horizontal section along the line AB in FIG. 1, FIG. 3 is a section along the line CD of the other embodiment of the device shown in plan view in FIG.

The device according to FIGS. 1 and 2 consists essentially of a fixed metal cylinder 1 of expediently relatively low height, to which a pipe 2 for the entry connected to the liquid. The tube 2 is circular at its outer end Cross-section and forms at the end facing the cylinder with the parts of the cylinder a rectangular slot opening 3, which corresponds to the height of the cylinder 1, but has a width of only a few millimeters. These The slot opening opens in a tangential direction Lung into the cylindrical vessel 1, so that the under Fluid flowing in under pressure is set in rapid rotation around the cylinder axis and as a result of the centrifugal force above the outflow opening in the middle of the cylinder base 4 forms a cavity which has approximately the shape of a paraboloid of revolution. Through the pipe 5 is now from above in

an ultraviolet radiation source is introduced in the axial direction.

With this arrangement, there is a reliable guarantee that all liquid which is through the tube 4 runs out, is sterilized. The sterilization is proportionate even because of the long period during which the liquid is exposed to the action of the rays completely. The ultraviolet radiation source is located as a result of the arrangement described below the upper liquid level, so that almost all of the ultraviolet Rays is exploited. All of this is achieved with the utmost simplicity of the Use of the coming apparatus.

The intensity of the radiation source and the dimensions of the device are the Amount of the liquid to be sterilized in the unit of time selected accordingly.

If the apparatus is to have large dimensions, especially in terms of height, and especially if the source of radiation is concentrated almost on one point, it is for one Even irradiation at a short distance is advisable, the cylinder base, and at least the lower one is not flat, but as in the second embodiment according to FIG. 3 and 4 in the form of truncated cones, the angle of which at the apex is chosen so that the whole vessel is smeared by the rays. This embodiment also has the advantage that the apparatus is given greater strength.

In the embodiment of FIGS. 3 and 4, the apparatus also consists essentially of a cylindrical container 6, the two bottoms of which are facing each other with the tip Truncated cones 7 and 8 are formed. The liquid to be sterilized can, for. B.

can be introduced through one or more tubes 9 connected to a pipeline 10. The liquid, due to the tangential direction of the tubes 9, has a rapid rotational movement around the cylinder axis, the vessel 6 fills and flows through the opening 11 and the tube 12 off again. As long as the liquid is inside the vessel, it is under the action of the ultraviolet emanating from the radiation source 13 Rays. Since the radiation source that passes through the opening 16 in the center of the Liquid is brought as a result of the rapid rotation of the cavity formed, very much is near the outlet opening .11, so practice they radiate their greatest bactericidal effect at the point where the liquid is Device leaves.

The apparatus rests on feet or can be supported in some other way. Because the weight the amount of liquid in the container can reach a fairly large amount, it is expedient to reinforce the floors by ribs 14 on the cylinder wall and on Tube 12 and 15 are attached.

The invention is not limited to such embodiments in which the axis of rotation has a vertical direction, but there are also embodiments of the invention possible in which the rotation about a horizontal or inclined axis is used to form the cavity in the liquid, in which the radiation source is brought.

In order for the liquid as little as possible due to the friction on the walls of the device is inhibited in its rotation, the apparatus itself can be rotatably mounted and if necessary specially driven so that the parabolic cavity of the liquid level is as deep as possible.

Claims (4)

80 patent claims: 1. Method of sterilizing liquids by means of ultraviolet rays Rotation of the liquid around the radiation source, characterized in that the liquid to be sterilized is introduced tangentially into a container under pressure ■ turns inside the container in the form of a spiral and gradually from moved outward inward to the drain so that the cavity within which in As is known, the radiation source is arranged within the liquid mass forms itself regardless of the shape of the container. 2. Apparatus for carrying out the method according to claim 1, characterized by a cylindrical container with a large diameter in relation to its height, which has an inlet opening on the circumference for which ζ α has sterilizing liquid and in the middle with an opening for introducing the radiation source and provided with the drainage opening for the liquid is. 3. Apparatus according to claim 2, characterized in that the tangential inlet opening has the shape of a slot for the liquid to be sterilized, the Length corresponds to the height of the cylindrical container. 4. Apparatus according to claim, characterized characterized in that the lower bottom of the cylindrical container has the shape of a conaxial, right-hand truncated cone with medium! Has drainage opening for the liquid, above which the radiation source is arranged as close as possible. 1 sheet of drawings.