DE360142C - Two-chamber compressed air sludge and liquid siphon - Google Patents

Description

Two-chamber compressed air sludge and liquid siphon. object of the main patent is: a working method for two-chamber compressed air sludge and liquid siphons, which are used to overcome large delivery heights or long delivery distances work with high overpressure, consisting in that in the first working period after switching over the control valve, the performance of the compressor is automatically reduced will. The devices suitable for carrying out the process consist of: that one or, when using multi-stage compressors, both cylinder sides the lower level or levels are equipped with organs that are under the influence of the overpressure prevailing in the suction line and one cylinder side or switch both off temporarily.

The invention now builds on this idea on which the main patent is based further and takes into account cases in which (read switching off one The cylinder side is not sufficient to achieve the desired purpose or is at Do not use a single-acting compressor or a turbo compressor is possible .. In order to -in these cases, without reducing the performance of the compressor, or, in spite of this reduction in performance, an increase in pressure that is too rapid to avoid when pumping over from one container into the other, should now according to the invention of the pressure line between the compressor and control valve such cubic capacity will be assumed that! the line the increased power of the compressor is able to absorb it without a significant increase in pressure later to be gradually released again with normal compressor output.

Another inventive idea that arises from this knowledge consists in connecting an air chamber to this pressure line between the compressor and the control valve with the interposition of a reducing valve provided with a non-return valve, in order to have compressed air of a constant, relatively low voltage available in this way to control the various valves. The fact that, due to the large differences in height to be overcome and long lines, the pressures to be used rise higher and higher and you are now at 30 to 40 atmospheres. Overpressure must be expected, makes the use of the available compressed air for the control of the valves almost impossible, because on the one hand large pressure fluctuations must be expected, on the other hand the simple control devices used so far are not suitable for such high pressures. But if you adjust them to the high pressures, there is a risk that they will no longer function properly at lower pressures. This drawback is eliminated in the simplest manner by using the pressure accumulator, as stated.

The drawing shows an embodiment of such a system shown schematically. The two sludge boilers i and 2 are interposed a control valve 3 through the suction line 5 and the pressure line 6 to the compressor 4 in connection. Depending on the position of the control valve 3 is now either how just assumed on the drawing, from your boiler: 2 pumped over into boiler i or after adjusting the valve 3 by 90 ° in the opposite direction. The ones from Compressor 4 after the control valve 3 leading line 6 now has, as indicated, a much larger cross-section than is necessary per se, namely this Cross-sectional enlargement chosen so that the cubic content of the pressure pipe is capable is to take up the increased power of the compressor after switching valve 3, without causing a significant increase in pressure. So it will be until the masses of mud have set in motion and the operation is gradually increasing otherwise unavoidable jolts and danger associated high pressure increases eliminated. The compressed air taken in the pressure line 6 # -tuf is then normal Operation gradually delivered to the boiler to be emptied as required and supports the Kömpressor in this way.

The device according to the main patent is omitted from the drawing been. Self-reinforcement: I can also do the subject of the invention Innovation can be used in connection with the device according to your main patent. Nothing stands in the way of this either, the enlargement of the cubic content of the pressure line 6 not to be evenly distributed over the entire pressure line, but only the same in one place, for example by installing a container, which is then in the same How does the extended pressure pipe work?

To the pressure line 6 is also still with the mediation of one Check valve equipped reducing valve 7 connected to a pressure accumulator 8, which provides the compressed air required to control the valves. That The reducing valve 17 is set in such a way that compressed air is always present in the pressure accumulator 8 of only 5 atm. Overpressure is, while in the line 6 itself under certain circumstances the pressure between i and 40 atm. fluctuates.

Since the drawing now indicates purely schematically, like that of the invention underlying thought can be practically executed so are more constructive Relationship, of course, the most varied, depending on the purpose for which the facility serves Modifications are possible without thereby falling outside the scope of the invention.

Claims (2)

PATENT APPROVALS: i. Two-chamber compressed air sludge and liquid siphon, for overcoming large delivery heights or long delivery routes with high overpressure works, according to Patent 356943, characterized in that the pressure line between The compressor and control valve have such a cubic capacity that the line during the first working period after switching the control valve the increased performance of the compressor due to the high pressure of the sucked in air absorbs without significant pressure increase. 2. Two-chamber compressed air and sludge Liquid siphon according to claim i, characterized in that the pressure line between compressor and control valve with the interposition of a reducing check valve a pressure accumulator is connected, the compressed air of always the same lower Is able to deliver voltage for the control of the valves.