DE377967C - Automatic water lift - Google Patents

Description

Automatic water lift. The invention extends to such automatic water lifts, in which the working water in a chamber Air is compressed or diluted and thereby water from one or more closed Boilers are pushed up or sucked into one or more of them. The well-known With respect to devices of this type, there is the essential characteristic of the invention in that the air compression and dilution serving chamber between your The upper water level and your lower water level are arranged and flooded with water and is emptied, whereby the feed water from your or the closed boilers is alternately pushed out or sucked into the boiler (s). To this Way is thus by means of the .Vorrichtung according to the invention a promotion uninterrupted saturation and pressure effect achieved. The invention also exists therein, (let the outflowing used working water control the inlet organ of the working water operated.

The invention is shown in the drawing in a schematic embodiment illustrated.

Line t represents the surface of the upper water to be loved and line 2 the surface of the lower water. A is the conveyor channel, which is at a suitable point between the upper and lower water level and is connected to the upper water level by means of a U-shaped pipe A1 . Chamber A is also finitely provided with a siphon outlet pipe A '. B is the air pipe, (read from (the upper end of chamber A. C, Cr are two closed vessels finitely connected to the air pipe 13. L) is an open vessel connected to the top and E is the container into which the upper water is to be lifted In your exemplary embodiment, the lower boiler C is connected to a trough G fed by the upper water and to your intermediate vessel D through U-shaped pipes C1, C =, while the upper boiler C-1: finely with the intermediate vessel D and your container l : is connected by U-shaped pipes C'ic and C = -1: The upper ends of the pipes Cl, C =, C'1T and C = r open into the vessel C, the intermediate vessel D, the vessel Cr and the Container E above the level that is taken up by your water during the pumping work. These pipes are together finite pipes 1l and AZ so designed that they form water closures of a depth that goes beyond the gradient or the pressure head which brings about the pressure and suction effect, so that Rückschlagven tile can be dispensed with. In the arrangement shown, the gradient or the pressure height for pressure and suction is the same, for your reason, because the vertical distance of the level of the upper water i from the level in the Fö rderkaniiner A is the same as that of the: mouth of the l # ', olires _4 = from the lower surface of this chamber. But in cases where these distances are not the same, the water closures must be of such a depth that they correspond to the various columns of water which produce the various pressure and suction effects. For example, since the suction force is always limited to atmospheric pressure, which corresponds approximately to a water column of 10 in, the singing effect will always be limited to this height, while the pressure effect is unlimited. In such a case, the water closures on the suction side of the closed container must be such that they can withstand the back pressure under the pressure effect, while the closures on the pressure side of the vessels only need to be long enough to withstand the lower suction effect.

In the example shown, the pipe A1 is with a valve or Tap A ° which is suitably connected to a lever F, one arm of which a weight F1 carries, while his other arm has a plate F ', to which the water .aus the pipe A = flows and so the lever F into the one shown Swivels in position in which valve A3 is closed. When the water stops To flow out of the pipe A ', the lever F moves to a position in which the valve As is open. The emptying and filling of the chamber A takes place automatically in this way instead of.

The most suitable way to start up the device is. all of the closed containers and open vessels together with all of the connecting pipes to fill with water. This can be done through the pipes C 'and C'x, the Air from the closed rooms through line B and the one that has not been closed until then Outlet = 1 'of the delivery chamber is pushed out. Then when the pressure effect take place can, the more water that is in the already filled open intermediate container D is pressed, overflow and flow away. The water in pipes C1, C ', C'ix and Cl- "then takes the position indicated, and the suction is just beginning. The gradient in (lein outlet part of the pipe Az under the chamber A creates a suction effect in the air pipe B (since the valve A3 is then closed), - so that water from the Upper water is drawn into the boiler C and from the intermediate vessel D into the boiler Cx will. If the drainage from the pipe A 'has ceased when the chamber A is emptied, sets the weight F 'the lever F to open the valve .A'. Now step through the pipe Al water into the chamber A, and it is here on the water in the boilers C and C` exerted pressure through the air in your air tube B. The water will look like this from the boiler C into the intermediate vessel D and from the boiler Cx into the container E. During the subsequent emptying and filling of the delivery chamber, the repeats the processes described, with a certain amount of water in a number of stages is lifted into container E.

The content of the delivery chamber A should expediently be the same as the total content of the various closed vessels and the contents of each open intermediate vessel suitably be the same as that of each boiler.

The delivery chamber shown is arranged so that the slope or Pressure heights that generate the suction and pressure effects are the same. However, will where the suction force to equal the pressure exceeds the atmospheric pressure would have to, the delivery chamber in a suitable manner in a position closer to the underwater position arranged so that the suction force is reduced and the pressure force is increased accordingly will. The vertical distance between each closed kettle and the open one Intermediate vessel immediately above and below it is due to the working gradient over and under the pumping chamber it depends on the particular case. For example, the free space between a closed boiler and the next one above it open intermediate vessel no more than the effective vertical height of the water column in the inlet pipe Al less 'the sum' of the depths of the boiler and that to be filled open intermediate vessel. Likewise, there should be free vertical space between each kettle and the lower intermediate vessel no greater than the effective water level in the outlet pipe A = less than the sum of the depths of the tundish and the kettle into which the water is to be sucked.

Although described and illustrated, the liquid that after the container E is lifted, part of the water forms the static If the pressure to operate the system is created, this fluid can also be used independently be of this water and also have a different level than the upper water. For example, the pumped liquid could be at the bottom of a well or a pit and are therefore below the level of the working water.

Claims (2)

PATENT CLAIMS: i. Automatic water lift, in which the working water in a chamber compresses or dilutes air and thereby pushes water up from one or more closed boilers or sucked it into one or more such boilers, characterized in that the chamber (A) serving for air compression and dilution between .the upper water level (i) and the lower water level (2) are arranged and alternately filled and emptied and as a result in the closed tank or tanks (C, Cx) alternately pushing out and sucking in of the conveyed water takes place. 2. Automatic water lift according to claim i, characterized in that the outflowing used working water controls the control (F) actuated for the inlet element (A3) of the working water.