EP2253846A2 - Linear compressor - Google Patents

Abstract

The compressor has a piston (2) guided into a cylinder (1) and attached at a piston rod (3). A sliding seal ring (5) and an O-ring (4) are arranged as sealing elements in a circular groove (8) that is radially attached in a surface area of the piston, for sealing of the piston against the cylinder. Another sliding seal ring (6) and another O-ring (7) are arranged as sealing elements in another circular groove (9) for sealing of the cylinder against the rod. The latter groove is radially attached in an inner surface area of a part of the cylinder, where the part is turned away the piston.

Description

The invention relates to a linear compressor with a single-acting and / or double-acting cylinder according to the preamble of claim 1.

Out DE 10 2004 052 168 A1 a reciprocating compressor is known in which the piston is driven by a linear movement via a linear drive by means of a drive motor. By the drive motor of the linear actuator is actuated and a piston rod reciprocated with the piston in the cylinder.

From the DE 199 18 394 A1 For example, there is known a pump having at least one conveyor assembly comprising a plunger axially guided in a cylinder. In this case, the plunger with its drive remote end varies the volume in a pressure chamber. The pressure chamber is sealed to the suction side on the one hand via the plunger. The plunger is provided with at least one circumferential recess in which a seal is arranged, which is designed as a sliding seal. The Gleitdichtring can be biased by means of an elastically deformable, arranged between the bottom of the peripheral recess and the Gleitdichtring O-ring in the direction of the cylinder inner wall.

Furthermore, from the DE 103 37 298 A1 a seal assembly for a cylinder-piston system for vacuum pumps for sealing between a cylinder inner wall and a piston displaceable in the cylinder known. In this case, the sealing arrangement consists of an L-shaped annular sealing element, wherein one leg of the L-shaped sealing element is fixedly mounted for static sealing on the piston, while the other free leg of the sealing element bears dynamically sealingly against the cylinder inner wall.

Linear compressors are piston compressors in which the pistons are driven by linear drives, eg. B. ball or roller screws, are operated.

For unlubricated compressors piston and piston rod seals are made of non-metallic, single or multiple cut, one or more parts sealing elements used. ( MJ Frenkel "Piston Compressor" 1969, VEB Verlag Technik Berlin, Chapter 8.4 "Piston Rings" and 8.7 "Glands)

The disadvantage of such non-metallic, single or multiple cut, one- or multi-part sealing elements are the leakage losses at the joints of the cut sealing elements. This ultimately leads to restrictions in the flow rate in compressors with such sealing elements and thermal problems.

The invention has for its object to improve a linear compressor so that there are essentially no restrictions on the flow rate and that thermal difficulties are substantially avoided.

The object is achieved by a linear compressor with the features of claim 1. Advantageous embodiments of the invention are specified in the subclaims.

As a particularly advantageous has been found in the invention, as sealing elements for the sealing of the piston against the cylinder in at least one in the surface region of the piston radially mounted circumferential groove at least one sliding seal and a To arrange O-ring. Furthermore, it has been found that it is advantageous to arrange at least one sliding seal ring and one O-ring as sealing elements for sealing the cylinder against the piston rod in at least one circumferential annular groove radially disposed in the inner surface region of the piston part of the cylinder.

Next has been found to be advantageous to arrange the respective O-ring in the inner part of the respective circumferential annular groove and to attach the respective Gleitdichtring on the respective O-ring in the outer part of the annular groove.

By such an advantageous arrangement of the respective Gleitdichtring is biased by the respective O-ring against the cylinder inner wall and the piston rod.

Further advantages and features of the invention are explained in the following description of a preferred embodiment with reference to the accompanying drawings.

The single FIGURE schematically shows partially a double-acting linear compressor with the inventive arrangement of sealing elements between the piston and cylinder and cylinder and piston rod.

In the figure, partially a double-acting linear compressor is shown schematically, wherein sealing elements between a cylinder 01 and a piston 02 are arranged. The sealing elements are housed in a radially in the surface region of the piston 02 mounted circumferential first annular groove 08. The first O-ring 04 is disposed in the inner part of the first annular groove 08, while the associated first Gleitdichtring 05 on the first O-ring 04 in the outer part of the first annular groove 08 is attached.

Furthermore, sealing elements between a piston rod 03 and the cylinder 01 are attached. In the arrangement, the sealing elements consist of a second O-ring 07 and a second Gleitdichtring 06. The second O-ring 07 is disposed in a radially in the inner surface region of the piston 02 remote from the cylinder 01 radially mounted second annular groove 09, while the second sliding seal 06 is mounted on the second O-ring 07 in the outer part of the second annular groove 09.

The particular arrangement of the sealing elements has the great advantage that the first Gleitdichtring 05 is biased by the first O-ring 04 against the cylinder inner wall and the second sliding seal 06 by the second O-ring 07 against the piston rod. The advantageous arrangement of the sealing elements secure sealing between the piston 02 and the cylinder 01 and between the cylinder 01 and the piston rod 03 and thus achieved against the atmosphere, so that leakage currents are substantially prevented and thus a reliable flow rate is achieved. Furthermore, thermal difficulties in the advantageous arrangement of the sealing elements are excluded.

Claims (4)

Linear compressor with a single- and / or double-acting cylinder (01) in which a on a piston rod (03) mounted piston (02) is guided, wherein the piston (02) against the cylinder (01) and the cylinder (01) against the piston rod (03) are sealed by sealing elements, characterized in that as sealing elements for the sealing of the piston (02) against the cylinder (01) in at least one in the surface region of the piston (02) radially mounted circumferential first annular groove (08) at least one first sliding seal (05) and a first O-ring (04) are arranged and that as sealing elements for the sealing of the cylinder (01) against the piston rod (03) in at least one in the inner surface region of the piston (02) facing away from the part of the cylinder (01) radially mounted circumferential second annular groove (09) at least a second sliding seal (06) and a second O-ring (07) are arranged. Linear compressor according to claim 1, characterized in that the first O-ring (04) in the inner part of the first annular groove (08) is arranged, while the first sliding seal (05) on the first O-ring (04) in the outer part of the first Ring groove (08) is mounted. Linear compressor according to claim 1, characterized in that the second O-ring (07) in the inner part of the second annular groove (09) is arranged, while the second sliding seal (06) on the second O-ring (07) in the outer part of the second Ring groove (09) is attached. Linear compressor according to claim 1, characterized in that the first sliding seal (05) by the first O-ring (04) against the cylinder inner wall and the second sliding seal (06) by the second O-ring (07) against the piston rod (03) is biased.

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