DE213854C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 213854 CLASS 27h. GROUP

controlled liquid column.

Patented in the German Empire on February 24, 1909

The present invention is a method for compressing gas with by a pressure vessel controlled liquid column and a device for exercising the ■ the same. The method consists in that one compressing the gas to be compressed in two different containers one after the other, d. H. by a low pressure compressor a pre-compression and by a

ίο high pressure compressor the final compression of the Gas causes and the 'pressure medium controlling the liquid column in the high pressure compressor after doing his work to control the liquid column in the low pressure compressor used.

This has the advantage that the compression of the pressure medium is as possible can be used to a large extent, as was the case with previous methods for compressing Gases is not possible.

The device used to carry out the new method is shown on the attached sheet Drawing for example used for representation.

FIGS. 1 and 2 each show a vertical section through the subject matter of the invention, while the suction or pressure period.

Fig. 3 shows one. Longitudinal section through the the pressure medium access valve to the high pressure compressor and the pressure medium outlet valve to the low-pressure compressor housing.

Fig. 4 shows a section through the pressure medium inlet valve of the low pressure compressor receiving housing.

As can be seen from the drawing, 1 is the pressure vessel of the low pressure compressor, which is in communication with the compression chamber 3 through the riser 2. The latter is through the suction valve 4 to the suction line 5 and through the pressure line 6 and the pressure valve 7 connected to the compression space 8. The compression space 8 is divided by the floor 9 into two compartments, which can communicate with each other through the valve 10, and is at the bottom through line 11 with the pressure vessel 12 in connection. The line 13 opens into the pressure vessel 12 at the top of the pressure medium, which is in communication with the valve chamber 14. The latter owns the pressure medium inlet valve .15 and the pressure medium outlet valve 16, of which the former through the rod 17 is subjected to the action of a float 18. The pressure medium 16 is controlled by a lever 20 rotatably mounted at 19, which with a fork o the two collars 21 of the rod 17 engages and thereby the pressure medium outlet valve 16 when the rod 17 is raised and lowered closes or opens. The space above the pressure medium inlet valve 15 is connected to the pressure medium access line 22 and the space above the pressure medium outlet valve 16 with the for Low pressure compressor leading pressure medium line 23 in connection, which in the to Low-pressure compressor leading pressure medium line 24, namely below the pressure medium inlet valve 25 joins. The pressure medium inlet valve 25 is actuated by the lever 27 pivotably mounted at 26. The space

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Above the pressure medium inlet valve 25 is in communication with the exhaust air line 28. In a rod 39 is slidably mounted on the line 24, on which the float 40 is attached.

That. Lifting of the float rod 17 and the opening of the pressure medium inlet valve caused thereby 15 and closing of the pressure medium outlet valve 16, furthermore the lowering of the rod 39 and the resulting opening of the pressure medium inlet valve 25 is controlled by two thumbs 41 and 42, respectively, which are attached to the rotatably mounted shaft 43 and 44, respectively. the Shafts 43 and 44 are driven by the transmission shaft 45 through the intermediary of the pulley 46, the belt 47 or 48 and the pulley 49 or 50 are set in rotation. As soon as the valve rod 17 is released by the thumb 41, it sinks under the influence of the float weight down, provided that the float .18 from the the liquid surrounding it is released sufficiently. Closing the pressure medium inlet valve 25 takes place through the buoyancy of the float 40.

The subject of the invention has the following mode of action:

When the pressure medium access valve is opened and the pressure medium outlet valve is closed are (Fig. 1 and 3), then the high-pressure compressed air reaches the pressure vessel 12 of the Low pressure compressor and drives the liquid located in the same through the riser 11 in the compressor room 8 of the high pressure vessel. The 'consequence of this is that the previous from the low pressure chamber 3 in the lower Division of the compressor room 8 gases entering and compressed through the pressure valve 10 and the liquid covering the same pass into the uppermost part of the compression space. As soon as the thumb 41 with uninterrupted rotation of the shaft 43 the at 51 has released the rotatably mounted lever 52 and the liquid surrounding the float 18 has sunk sufficiently deep, the float sinks and closes it! Pressure medium inlet valve 15, whereby the pressure medium outlet valve 16 is opened. In this Moment, however, the thumb 42 of the shaft 44 will release the lever 27 so that the Float 40 in its upper, the conclusion of the pressure medium inlet valve 25 conditional position can get through the buoyancy of the surrounding liquid. The consequence of this is that now the pressure medium sealed in the pressure vessel 12 through valve 16, lines 23 and 24 pass over to the pressure vessel 1 of the low-pressure compressor and there by means of its expansion force work. Due to the expansion force of the pressure medium, the Liquid filling the pressure vessel 1 into the riser 2 and the compression chamber 3 of the low pressure compressor. The consequence of this is that the line 5 sucked gas of the tension des.expandierenden pressure medium compressed accordingly and pressed through line 6 and valve 7 into the lower compartment of the compression vessel 8 will. The latter has since been released from the liquid filling it, since the same flowed back into the pressure vessel 12 as a result of the expansion of the pressure medium is. As soon as the compression in the container 3 has ended, the shafts 43 and 44 have that Position reached in which the thumb 41 lifts the lever 52 and with the same the rod 17, on the other hand, the thumb 42 depresses the lever 27 and the rod 39, whereupon the process identified above starts again repeated.

From what has been said, it is readily apparent that the load is exerted by the thumb 41 of the shaft 43 of the closed pressure medium inlet valve and through the thumb 42 of the shaft 44 the load on the closed pressure medium outlet valve should be overcome.

Claims (2)

Patent Claims: 1. Method for compressing gas with a controlled by a pressure vessel Liquid column, characterized in that the compression of the to be compressed Carries out gas in two different containers one after the other, namely through one Low pressure compressor a pre-compression and through a high pressure compressor the The final compression of the gas causes the liquid column in the high pressure compressor controlling pressure medium after performing its work to control the Liquid column used in the low pressure compressor. 2. Device for performing the method according to claim 1, characterized by a high and low pressure compressor, the compression chambers of which by a pipe (6) with pressure valve (7) are in communication with each other, and each of them through the liquid column of a pressure vessel is controlled such that the pressure medium outlet valve (16) of the former Compressor at the same time the pressure medium inlet valve for the second compressor mentioned is. 1 sheet of drawings.