DE351382C - Self-acting siphon device, preferably for degassing liquids - Google Patents

Description

Automatic lifting device, preferably for degassing Liquids.

For industrial purposes, sometimes in factories that are very pure If you need water, it is often necessary to have a liquid to be pumped Water through an air-diluted room. At the same time often have to gases released from the liquids being treated are sucked off. Such devices are known; but these are only those which require pumps, motors or machines of any kind, without which such air dilution devices either do not remain in operation or at least, failing to get going due to lack of other mechanical assistance.

The present invention relates to such a device for im Liquids located on a slope, preferably for the removal of gases that are in are dissolved in the liquid and released from the solution in an air-diluted space, but also to enable the supply and subsequent removal of gases (e.g. chlorine, ammonia, sulphurous acid, etc.) for the purpose of treating the liquid with the gases in question. The accompanying drawing illustrates an embodiment such a new facility; in this form it is particularly useful for promoting and d expedient treatment of water which contains gases in absorption that removes should be. The arrangement is as follows: A line 1 carries gaseous water under about Iom pressure, in an amount less than its maximum is, as the lifting device to be described, taking into account all frictional resistances able to pass. The tube mouth is with a boiler that is closed on all sides 2 connected, the interior of which by means of a float valve 3 closable at the top Opening communicates with the free atmosphere. With the boiler-2 is a siphon pipe4, 5, 6, 7 connected, the sloping leg of which is narrowed at 7 below.

The rising leg 4, 5 is at the bottom with a drain valve 21 provided immersion vessel 22 inserted airtight and stands with the sloping lever leg above at 5, 6 by means of a head vessel 8 in connection, in a known manner a sieve 23 with porous bodies 24 filled over it to increase the degassing effect can be built in. The sloping lever leg 6, 7 runs through a relatively narrow, top and bottom open pipe 9, I0, from the top below the: siphon head 8 laterally another narrow pipe 11, 12, I3 branches off, the one at I I with a control valve 25 is provided, but below in one to hold together the by the named Lines serving incoming gas bubbles, generally storage container 26 accommodated Jackets 14 is. On the uppermost part of the head vessel 8 there is a closed one Pipe socket I5, from which a very narrow air pipe 27, 28 branches off, which at 28 carries a very fine air control valve and there with the line II, I2, 13 tight connected is. The sloping lever leg is at the bottom at 7 by a relieved, valve 29 which is actuated (opening, closing) by means of float I6 can be closed. This valve 29 is in the idle state (in the state in which the device is emptied) closed and only opens when, as a result of the natural pressure of the die Establish topping up water this finally also through the pipe, 10 in the vessel I7, which is open at the top, flows in, causing the float I6 to rise. This vessel I7 has an overflow pipe I8, 19, which is also at 20 by means of a relatively fine emptying tube or valve with the vessel 17 again in connection r = is considered; at rest, d. H. so if the establishment does not If the amount of water runs in, container I7 and the float are always emptied I6 assumes its lowest position, the relieved valve 29 is closed.

The facility comes into operation in the following manner. That at I. from a conditionally higher than the uppermost parts of the facility (here the The water flowing in from the pipe socket I5) first fills the vessel 2 and closes the float valve 3; it then rises through 4, 5 and then fills the sloping lever leg 6, 7, and finally also the head vessel 8 and a part of the head piece 15. As soon as this level is reached, it falls into place Part of the water through the narrow pipe 9, 10 into the vessel I7, namely in such Amount that the tiny and appropriately adjustable Emptying 20 is not sufficient for his removal. As a result, the water in vessel I7 and rises raises the float I6 a little, and the valve 29 begins to open. Immediately, however, it also flows through the area, which is therefore no longer completely closed at the bottom Lifting legs 6, 7 water in such a large quantity that the swimmer I6 quickly rises completely and the valve 29 opens completely. Herewith the whole water column in the lever leg 6, 7 has lost its support, now occurs Lifting force in action. It initially causes the expansion of the uppermost parts of the head vessel 8 contained air and then the subsequent flow of Water through the rising shank quill4, 5. This, however, causes with correct Height of the structural parts, the fall of the water level in the vessel 2, wherein the float valve 3 opens and now, after very quickly, it happens by itself Adjustment of the individual water levels according to the friction conditions, after in the meantime the pipeline II, I2, 13 runs through I0, II with water filled and went into activity as a lifter, the whole establishment unhindered in progress is and remains, if the water supply is not interrupted.

When the water level of the storage chamber 26, as shown, is much lower than the overflow level at I8, the water drains off through the line I0, II, I2, I3 at a relatively far greater speed than from the mouth of the lever leg at 7. This circumstance causes the Possibility of sniffing air through the uppermost part of the facility line 27 connected to the pipe socket 15; the air is flowing away from it Water entrained and leaves the line at its lower mouth at I3. the narrow air line 27 can with its apex around the barometric suction height (10 m Water column) above the level at I8, so that then by 27, 28 all air but no water can be sucked out of the head vessels 8.

Falls by any circumstance, foreseen or unforeseen, * the water delivery at I off, or the storage chamber 26 empties completely, or if both occur, the device sucks after the water content has been used up of the vessel 2 through the float valve 3 and empties in the passage through the lifters 4, 5, 6, 7 and IO, II, I2, I3 except for an insignificant water residue, which finally collects in the dip tube 22. When the tributary re-enters the filling then goes on just as it was described above, and the suction comes in just as much.

In the ascending throat 4, 5 can be used at 30 for special treatment or Commercial purposes a device for letting in air, gases or liquids (when pumping water, e.g. chemical mixtures for softening, de-ironing, Disinfection and the like, with chemical liquids to different saturations, Re-pricing, etc.) can be installed.

PATENT CLAIMS: 1. Automatic lifting device with cable for liquids on a slope, preferably for degassing liquids, in particular of water, characterized in that the sloping lifting leg is divided into two parts (6, 7 and d I8, I9), between which (at 7) a valve (29) with float (I6) is attached, which, when closed in the resting state, only becomes then opens when as a result of the natural pressure of the liquid on the slope the water level in the siphon part designed as a container (8) above the mouth (g) the perforated tube attached to the upper part of the sloping lever leg (9, IO) increases.

Claims (1)

2. Automatic lifting device according to claim 1, characterized in that that for the automatic start-up of the lifting device after any interruption of operation between the two parts (6, 7 and I8, I9) of the sloping lever leg open container (I7) is provided, and that between the container (I7) and the sloping siphon parts (I8, I9) have a particularly close, fluid-conducting connection (20) is arranged, which when the entire conveyor device is out of operation complete emptying of the container (I7) and thereby the closing of the valve (29) caused by the float (I6). 3. Device according to claim I for the special gassing of the liquid, characterized in that near the foot of the ascending lever leg (4, 5) an air or gas supply (30) is arranged.