DE247304C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 247304 CLASS 85 a. GROUP

Patented in the German Empire on December 4, 1910.

The invention relates to a method for the production of drinking water, in which the distilled water is supplied on the way to the collecting space air. Until now it was common practice to remove the air from the surroundings of the still without further preparation add to the condensate formed from the cooled vapors. At a Such a procedure allowed itself an intimate and

ίο even mixing of the air with the Not achieving water; there was also the risk that the air would damage the water Admixtures were added. According to the invention, these disadvantages are avoided in that the air is initially high heated and mixed with the distilling vapors before they have the opportunity to to condense. For this purpose, the air is immediately above the evaporator taken lying chamber, through which the pipelines run in which the Vapors flow after the condenser. As a result of the heating, the air is sterilized, The drinking water obtained is therefore more digestible, and it is also much more intimate and a more even mixture between the vapors and the air is achieved because both are about have the same temperatures.

A device suitable for carrying out the new method is. shown on the drawing in one embodiment.
Fig. Ι is a central longitudinal section.
Fig. 2 shows a detail on a larger scale.

The lower part of the device forms the evaporation space A ; above it is the hot air chamber C and above it again the collecting space B for the distilled water, while the upper part of the device is occupied by the condenser D , which has a jacket D ¹ and the condenser tubes D ² . The pipes Z) ² are open at both ends and open at the bottom into the collecting space B. Upwards they are led up to just below the cover of the condenser, which has openings Z) ⁴ through which non-condensed vapors in the pipes Z) ^2, essentially foreign admixtures of the water can escape. For the exit of the volatile gases separated from the cooling water, outlet nozzles D ³ are arranged at the upper end of the jacket D ^1.

The raw water is fed in at the lower end of the condenser through the pipe F equipped with a shut-off valve and flows off through the pipe G which opens a short distance below the upper end of the pipes D ^2. In this way, an even water level is maintained in the condenser. The lower end of the pipe G ² opens out over an overflow vessel H which is connected to the lower end of the evaporation chamber A through a bend H ¹ . The water flowing over from the vessel H enters the container I, from the bottom of which a connecting ^{pipe Z 2 leads} to the pipes / which leads to the

Connected to the bottom of the chamber A and is usually closed off from this by a valve J ^1. When valve J ¹ is open, chamber A is emptied through pipe /, and at the same time the precipitates that settle out of the water can be removed.

A steam coil K is advantageously used to heat the water in chamber A. The steam coil K rising from the heated water

ίο Vapors enter tubes L , which lead through the lid of chamber A, through the hot air chamber C and the collecting space B into the condenser tubes D ² . In the collecting space B , the tubes L are surrounded by further tubes N which extend from the hot air chamber C and also protrude upward into the condenser tubes D ^2.

The air enters the chamber C ^{through nozzles C 1} , which are expediently closed off from the outside by a fine wire mesh in order to hold back impurities (FIG. 2). There is sufficient space between the walls of the tubes L and N so that the air can be sucked out of the chamber C, which is connected to the condenser tubes D ² by the tubes N. As a result of the arrangement of the chamber C between the evaporation space A and the container B , the air is highly heated and sterilized. It has about the same temperature as the water vapors distilling after the pipes D ^2; as a result, an intimate mixture between the water vapor and the air is achieved.

When the distillation apparatus is in operation, the cooling water in the condenser is gradually heated up to around 90 °. Since this heated water is passed through the pipe G into the chamber A and evaporated there, it is obvious that only a small amount of heat is required to maintain the distillation process. Since not all of the cooling water is used for evaporation, part of the water can flow to a drainage channel ^{through a branch line G 1 connected to the pipe G.} like. drain.

In order to be able to remove the precipitates settling from the cooling water from the condensation space D , a branch pipe O , which can be closed by a valve, leads from the line G to the lower end of the condenser. The valves O and J ¹ are opened about once a day so that the condenser and the evaporation chamber A are flushed out at the same time.

If one does not wish to aerate the water or another liquid which is allowed to distill, one only has to close the inlet connection C ¹ for the air with caps or the like.

Claims (2)

Patent Claims: 1. A method for the production of drinking water, in which the distilled water on the way to the collecting space air is supplied, characterized in that the air is sucked from a directly above the evaporator (A) chamber (C) , through which the Pipelines (L) run through which the vapors flow to the condenser, so that the air is heated to a high level before it is mixed with the vapors. 2. Apparatus for carrying out the method according to claim 1, characterized by the arrangement of a large number of tubes (L) through which the vapors flow after the condenser, each of which above the air chamber (C) in a further, with the air chamber in connection standing pipe (N) open on both sides protrudes. 1 sheet of drawings,