DE2340794A1 - LAMELLA ROTATIONAL COMPRESSOR - Google Patents

Description

Patent attorneys

Dipl.-Ing. Helmut Missling 63 Giessen July 19, 1973

Dipl.-Ing. Richard Schlee Bismarckstrasse 43

-. ι. . r, ι Phone: C0641) 71019

Dr.-Ing. Joachim Boecker

Boe / K 11,666

Stal Refrigeration AB, Norrköping / Sweden

Lamella type rotary compressor

The invention relates to a rotary compressor of the lamellar type having a stator and an eccentrically arranged therein Rotor with lamellas, the cross-section of the stator consists of an entry part and an exit part, the along a line di-xch the center of the rotor separated from each other are. The stator or the rotor housing is in the form of a cylinder of the same length as the rotor.

With the most known types of such rotary compressors both stator and rotor have a circular cross-section. The losses are based in such a compressor Mainly due to throttling losses in the inlet and Outlet openings, leakage between high pressure and low pressure side, and in the case of compressors with outlet valves for re-expansion of what is enclosed in the harmful space compressed agent.

-2-

4 09810/04 0 5, kspected

Various attempts have been made to limit these losses, e.g. by means of a so-called sunken rotor, in which a cutout with the radius of curvature of the rotor is arranged in the side of the otherwise circular rotor housing, which lies close to the stator along a certain part of its surface. This will result in a substantial decrease the leakage between the high-pressure and low-pressure side is reached, but at the same time there is an uneven movement of the lamellae, which lead to a lamella jumping over on the stator surface at the rear edge of the milled cutout can.

The invention is based on the object of a rotary compressor of the type mentioned to develop in which a reduction in losses is achieved without the previously mentioned disadvantages.

A rotary compressor is used to solve this problem Proposed type mentioned at the beginning, which is characterized according to the invention in that the two parts of the stator cross-section Profiles with varying radii of curvature, with the cross section of the outlet opening the rotor with a meets such an angle that the tangent to the exit part intersects the rotor surface, that behind this point the stator cross-section the rotor surface along a certain circumferential section

4 0 9 810/0405 " ⁵ "

f gt and that afterwards at the beginning of the entry the rotor ίlache leaves in the tangential direction.

The invention is based on a thorough reshaping of the stator section, starting from the requirements that are placed on the various sectors of the compressor. The stator cross-section is mainly composed of three different circular arcs or almost circular curves. One of these curves has the same Raaiur as the rotor and forms the "transition zone between the high-pressure U ₁ Vu low-pressure side as in the version with sunken lea Ro or. The other curves have an e" - \; riD ^ i'ci ; The radius of curvature is smaller than that of the central point. the larger radius of curvature being on the entry side and the smaller on the exit side.

The invention is a reduction in the losses on the entry and exit side and a reduction in the harmful space, while at the same time a uniform Slat movement guaranteed in the outgoing direction is.

Based on the in the Fi. The examples of execution presented here s -1.L will explain the invention in more detail.

4098 $ 10/040

-A-

Pig. 1 a conventional rotary compressor with a circular Cross section of the stator,

Pig. 2 shows an indicator diagram for a Pig compressor. 1,

Pig. 3 a rotary compressor according to the invention,

Pig. 4 shows a comparison of the compressor according to the invention with a compressor with a submerged engine t

Pig. 5 and 6 compressors according to the invention in dual-chamber design, with and without ^Ablaufven-% tile,

Pig. 7 an indicator diagram for the latter Embodiment.

Pig. 1 attaches a vane type rotary compressor in Single chamber version with pressure valve 1, rotor 2, stator 3 and fins 4. Along the vertical diameter through the compressor runs the dividing line between the entry part and the exit part. The inlet opening is denoted by 7. Of the The harmful space is shown in dark. It consists of the outlet 6 and the space 5 »which is located between the rotor 2 and the stator

409810/0405

-5-

and lamella 4 "forms when the lamella 4 is just the front Edge of the outlet 6 happened.

Fig. 2 shows schematically an indicator diagram for the duty cycle one lamella, with 8 usable compressor work, 9 "losses due to harmful space, 10 losses due to throttling in gaps and valve systems on the outlet side and 11 losses due to throttling on the inlet side. called step side. The work loss 9 can be reduced by adding the volume 5 or 6 or both thereby reduced by reducing the outlet cross-section 6, for example and / or the position of the outlet 6 changes such that "^ continued to approach the value 360 ° However, these measures mean reduced flow cross-sections and thus larger ones Pressure drop over the gap and outlet cross-sections, so that the loss work 10 increases. The volumetric loss 11 can be achieved through enlarged flow cross-sections on the intake side be reduced.

The rotary compressor according to the invention reduces the effects that reduce the efficiency. This is achieved by a stator profile according to S ¹ Ig ₀ 3, which is characterized by its asymmetrical shape, which has an enlarged inlet cross-section 12, an enlarged gap

-6-

409810/0405

-6-. 23-079

cross-section 13 and at the same time reducing the harmful • Room 5 allowed. The profile also gives a more effective seal in the area indicated by 14 between high and low pressure side, where stator and rotor radius are the same. However, this version must not be confused with the known version with a "sunken rotor" whose only task is to achieve an improved seal especially in this section. The difference goes out Pig. 4, in which the dash-dotted line represents a profile with a "sunken rotor" and the solid line 16 the new profile with sealing gaps 17 or 14 · It is essential that the volume of the "Wedge", i.e. the space 5, behind the outlet opening 6 can be reduced in size or completely eliminated, the Work that is otherwise required to drain the working fluid from this volume is recovered.

Another major advantage of the new profile is that the profile behind the sealing gap 14 is tangential to it starts, in contrast to the profile with "sunken rotor", which is behind the sealing gap 17 directly into the new one Profile shape passes over, which leads to a rapid change in movement of the slat, resulting in a good slat function

—7—

409810/0405

with constant contact between lamella tip and stator surface is endangered

Fig. 5 shows the invention in its application "with an eotation compressor of the lamellar type in double chamber design" The invention can of course also.in a compressor with any number of working chambers be applied"

Fig. 6 shows the asymmetrical stator profile according to the invention adapted to a rotary compressor without pressure valves, and Pig. 7 schematically shows an indicator diagram for this Execution.

It should be noted that all figures are shown in somewhat exaggerated proportions in order to obtain a clear picture of the invention.

4098Ί0 / 040Β

-8th-

Claims (1)

-β-? 340794 Patent claims: Rotary compressor of the lamellar type with a stator and an eccentrically arranged rotor with lamellas, wherein the cross section of the stator consists of an entry part and an exit part ", which is taken along a line through the center of the rotor are separated from each other, characterized in that the two parts of the stator cross-section Profiles with varying radii of curvature, the cross-section of the outlet having the rotor with such That the tangent to the outlet part intersects the rotor surface, that behind this point the stator cross section of the rotor surface along a certain circumferential section (Η) follows and that then at the beginning of the inlet part leaves the rotor surface in a tangential direction. 2o rotary compressor according to claim 1, characterized in that that the entry part of the stator cross-section is larger than the exit part 4098 1 0/0405 Le e rs e ι τe