DE211200C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 211200 CLASS 13 δ. GROUP

JOHN HANDSLEY DALES in LEEDS, Engl.

Patented in the German Empire on December 19, 1908.

The invention relates to a device for cleaning feed water for steam boilers, in which carbonic acid is removed from the water in a vacuum container to. the calcareous or salty constituents, which in the presence of carbonic acid are kept in solution in water, to be excreted.

The new device is on the drawing

ίο illustrated in vertical section. With α a vertical cylinder is referred to, which serves as a vacuum and filter chamber, in which the low pressure is established by means of a pipe b, which is in connection with the vacuum chamber of the condenser of a steam engine or with an exhaustor.

The water to be softened and filtered is injected into the vacuum chamber α through the atomizing valves c, the number of which depends on the amount of water to be treated. Each of these valves is closed by a lever provided with a float ball as soon as the water in the chamber α has reached such a level that the action of the atomizing valves would be impeded by the water.

The atomizing valves are preferably kept closed by springs which are of sufficient strength to prevent the valves from opening until the water pressure is able to produce a correspondingly strong atomizing. The bringing about of a fountain-like atomization of the water is important insofar as the water in this through- 40

45

If through the vacuum space in a finely divided state, twice as long is allowed for the elimination of the gases as if it were only flowing downwards in a trickle. After the water has passed the vacuum chamber in the upward direction and then downward, it passes through a filter d, in which the precipitates formed in the water are retained. After the water has reached compartment e in a purified state, it flows under its own weight through the pipe / to a pump which pushes it into a storage container g or to a point of consumption. At the bottom of the storage container g there is an emptying pipe h . In the embodiment shown, the lower part of the device is designed as a feed container which is supplied with water from a pump or from another source through j. The suction pipe k , which leads to the atomizing valves c, connects to the feed container i .

A float valve I is provided at the lower end of the suction pipe k , which is intended to prevent air from entering the vacuum chamber if the water supply should fail, for example. Here, the valve I closes earlier than the water level has reached the confluence of the pipe k . The pipe m, which connects to the storage tank g and is provided with a valve η , serves to maintain the water level in the storage tank g at the same height, with a constant circulation of the water through the device if desired.

can be quite obtained to repeatedly subject the water to the purification process.

If larger amounts of water are to be cleaned in the device, the filter must be cleaned more often. In order to be able to accomplish this cleaning of the filter in a simple manner, a pipe f with a shut-off valve ο is connected directly above the filter to the vacuum chamber and a pipe r with a shut-off valve s is connected below the filter to the water space. When using this washing device, the vacuum container is first pressurized by the atmosphere and then valve 0 is opened so that the water standing above the pipe fi flows out of the device. Now valve f is closed, valve s is opened and pure water is pressed through pipe r into the filter space, which penetrates the filter material and carries the precipitates contained in it with it through valve 0. Valve 0 remains open until it is completely pure Water flows out to indicate that all precipitates have been removed from the filter, then valves 0 and s are closed again and the vacuum is restored in the device.

Since if the device used to clean the filter is started carelessly, for example if the tap s is turned on too quickly, the filter material could be displaced in such a way that it no longer has sufficient height in some places, it is advisable to use the filter bed d, as shown, to produce in several cells that are taller than wider and only half filled with filter material. Even if this mass is whirled up when the water flow aimed at its purification is started, it soon takes up its original position in the cells again after the flow has ceased.

Claims (4)

Patent Claims: 1. A device for cleaning feed water for steam boilers, in which the water in a vacuum container carbonic acid is withdrawn, characterized in that at the inflow end of the vacuum container (a) leading suction pipe (k) a feed valve (I) is arranged, which when falling Water level in the feed container (i) is closed in good time under the action of a float in order to prevent air from entering the vacuum container. 2. Apparatus according to claim 1, characterized in that the to be cleaned Water in the vacuum tank 'is injected like a fountain through atomizing valves (c) , each of which is kept closed by a float as soon as the water in the vacuum container has reached a certain level. 3. Apparatus according to claim 1, characterized in that for cleaning the filter bed (A) arranged in the lower part of the vacuum container, a water supply pipe which opens below the same and is provided with valve (s ) and immediately above the filter bed with a valve ( 0) provided water drainage pipe (p) is provided. 4. Apparatus according to claim 1, characterized in that the filter bed (A) consists of cells arranged next to one another in which the filter material is housed without completely filling the cells. 1 sheet of drawings.