DE475837C - Compressor driven by pressurized fluid - Google Patents

Description

Hydraulic fluid powered compressor The invention relates to relies on a compressor driven by hydraulic fluid to compress Gases that tend to decompose under higher pressure, such as acetylene.

The compressor according to the invention consists of a low-pressure cylinder, a high-pressure cylinder and a working cylinder operated by pressure fluid; the pistons sit on a common piston rod. The arrangement is preferably such that the working cylinder lies between the high and low pressure cylinders. The working pressure fluid used is 01 , which also serves as a coolant and lubricant.

The compressor according to the invention works in such a way that the pressurized oil is fed from a pump to a reversing device which allows the pressurized oil to enter behind the working piston. When the working piston retreats, the oil in front of the piston is conveyed through a channel and a line released by the control device into a container which is connected to the rear ends of the high and low pressure cylinders by means of suitable lines. In the forward speed of the high and low pressure piston is thus sucked from these 01 from the reservoir, which in this case cools the cylinder and lubricates and also serves at an approximately sudden strong increase of pressure by disintegration of the compressed acetylene in the high-pressure cylinder for collection of the recoil. Said storage container is connected to a pressure equalization container which is arranged and dimensioned in such a way that it can hold larger quantities of the pressure medium.

The gas pre-compressed in the low-pressure cylinder is released by means of a Line in which a cooling device can be built into the high pressure cylinder promoted and acts in this during the decline of the high pressure piston on this Piston, which precompresses the action of the working piston as it moves of the gas in the low pressure cylinder is supported.

In the drawing, an embodiment of the compressor is illustrated, for example, in a schematic representation. - The working cylinder is marked with i, the low pressure cylinder with 2 and the high pressure cylinder with 3 . The piston of the working cylinder as well as the high-pressure piston and the low-pressure piston sit on a common piston rod 4. The housing 5 for the control slide 6 is attached to the working cylinder, which in the embodiment is a rotary valve and its ring channel 7 with the channels 9 and g 'provided in the working cylinder can be brought into connection, which in turn open at the ends of the working cylinder. The exhaust port 8 of the rotary valve communicates through a tube 5 with a container 01 filled with 18 in connection. The inlet valve io for the gas and the outlet valve ii are located at the end of the low-pressure cylinder, and the inlet valve t2 and the outlet valve 13 are provided on the high-pressure cylinder.

The way it works is as follows.

The liquid, for example oil, enters the rotary valve housing under pressure and passes through the annular channel 7 and the channel 9 or g 'just exposed by the rotary valve into the working cylinder i.

In the position of the rotary valve shown in the drawing, the pressure oil passes through the channel g 'to the right side of the working piston, so that it is moved towards the high-pressure cylinder. The gas to be compressed, for example acetylene, is thus sucked in through the piston operating in the low-pressure cylinder through the valve io, and the gas in the high-pressure cylinder 3 in front of its piston is pushed out through the valve 13 . As soon as the Niederdrack piston hits the control lever 14 'that can swing out in the low pressure cylinder, the rotary valve 6 is reversed by a connection not shown, so that the annular channel 7 is brought into connection with the channel 9 of the working cylinder and the pressurized oil is now open the left side of the working piston is guided. The latter is now moving towards the low-pressure cylinder, so that the gas in the latter is precompressed and pushed out through the valve connector ii and is fed into a cooling coil S indicated by the dashed lines, from where it is conveyed by means of the line indicated by the dash-dotted lines and the Valve connector 12 enters' the high pressure cylinder 3 . This pre-compressed gas coming from the cooling coil supports the work of the working piston as it moves towards the low pressure cylinder due to its relaxation occurring in the high pressure cylinder 3.

As soon as the high-pressure piston reaches the bax stored control lever: E4 pushes, is also not shown by a Connection between this control lever and the rotary valve of the latter reversed again, so that the working piston moves back towards the high pressure cylinder.

The 01, which is conveyed out of the working cylinder by means of the channel 9 or g 'and the channel 8 as the working piston moves forward, passes through the pipe 15 into the container 18. The pistons of the high-pressure and low-pressure cylinder 01 suck in from this container their movement towards the valve ends of the cylinder through the connector 16 or 17 and push it back into the container 18 when it moves back. The oil discharge passage 1: 5 is through a tube 2o with a surge tank 21: in combination, which is also the reservoir for the 01 and can be cooled by a not shown pipeline by means of cold water. The container 21 is connected to the oil pump through the nozzle 2z and to the acetylene suction line through the nozzle 23. This ensures that the gas which should escape between the latter and the cylinder wall if the piston is not completely sealing, firstly is not lost and secondly does not come into contact with the air in the compressor chamber. Viehnehr will get together with the 01 by means of the line 15 into the pipe 2o and the container --i, where it rises to the surface of the overflow present in the latter.

In the compressor of the invention, therefore, there are also no stuffing boxes which are used to seal off the gas. The two stuffing boxes 24 and 7.5 provided in the exemplary embodiment are provided with leather sleeves and are used. only for sealing off against the oil pressure of the working cylinder. Any minor leaks that occur are meaningless, especially since the oil is not lost.

Claims (1)

PATENT CLAIM: DurchDruckflüssigkeitangetriebenerKompressor for compressing a tendency to decomposition gases, such as acetylene, with a Hoclidruckzylinder, a low-pressure cylinder and a lying between the two working cylinders, characterized in that the serving for driving the piston located in the working cylinder 01 during the return movement of the piston in a with 01 filled container is conveyed, from which the high and low pressure pistons suck into their cylinders for the purpose of cooling and lubrication as well as to absorb the recoil in the event of sudden disintegration of the compression medium during the compression strokes 01 and eject it again on the following stroke.