DE1006576B - Rotary piston compressor with blades hinged to the rotor - Google Patents

Description

Rotary piston compressor with blades hinged to the rotor The invention refers to a rotary compressor with an immutable in the compressor housing Eccentricity mounted rotor, on its circumference for sliding seal opposite the housing inner wall serving blades are hinged.

Such compressors occur mainly on the inner wall of the compressor housing and at the points of the blades that are in contact with this inner wall, there are signs of wear, caused by the friction of the blades against the inner wall of the housing and moreover have different thicknesses at different points on this inner wall. Self if you equip the blades with counterweights and thereby those attacking them Centrifugal forces are partially balanced, still remain through the blades Frictional forces caused, which result in different levels of wear on the inner wall result. These frictional forces depend mainly on the effective on the blades centrifugal forces that change in the course of a rotor revolution, because the rotor axis does not coincide with the housing axis, but is in a certain, by the eccentricity determined distance from this is located.

Those exerted on the inner wall of the housing in the course of a rotor rotation Frictional forces also change as a result of the pressure differences in the conveyed flow medium on both sides of each blade and in the case of a rotary lobe compressor with horizontal horizontal axis of rotation also due to the weight of the blades. It changes the mentioned pressure difference as a function of the respective blade position in the compressor housing. even leads to a reversal of the pressure ratio at individual points and acts on the blades in the opposite sense as the centrifugal force.

The invention is based on the object of the aforementioned shortcomings to fix and to improve a rotary lobe compressor of the type mentioned. The invention consists essentially in the fact that the shape of the inner wall of the compressor housing of the shape of a parallel offset with its axis relative to the rotor axis Circular cylinder area deviates in such a way that the entire, through the blades on the Forces exerted on the inner wall, mainly composed of the effects of centrifugal force, the bucket weight and that acting against the two sides of each bucket different pressures of the conveyed gas or other compressible fluid, are roughly constant.

Further features of the invention emerge from the description below out, in which an embodiment is described with reference to the drawing; it Fig.l shows a schematic cross-section through the inventive Rotary piston compressor, Fig. 2, the different design of an inventive formed housing inner wall opposite one along a circular cylinder surface running inside wall of the housing in a likewise schematic representation.

The compressor housing 1 shown in Fig. 1 has on its circumference on the one hand a row of suction openings 2 and on the other hand a row of outlet openings 3, and in it there is a in the direction of the arrow in this figure rotatable rotor 4, the axis of rotation 5 in the compressor housing 1 on an always constant Place is stored.

The rotor 4 carries blades 6 which are hinged to it by joints 7 are and during the rotor rotation or in operation of the compressor along the Slide inner wall of the compressor housing 1 and thereby create a corresponding friction produce. The centrifugal forces that occur on the individual blades while the rotor is rotating take place at the points where the blades pivot around their joints 7 remove from the axis of rotation 5 of the rotor 4, and thereby cause this Make a greater friction of the blades 6 on the compressor housing 1. In addition, there is to take into account that the blades in certain positions have the inclination as a result their own weight to pivot away from the inner wall of the compressor housing 1, in Fig. 1 z. B. on the left, however, in other corresponding positions due to their own weight have the tendency to reinforced against to rub the inner wall of the housing, such as. B. those in Fig. 1 on the right Shovels.

Finally, especially during compaction (in Fig. 1 in top left area of the compressor) on both sides of each blade different pressures exerted, which there the the plant of the blades on the Counteract the centrifugal forces causing the inner wall of the housing.

It is possible that the vanes against the inner wall of the housing The forces exerted have to be calculated precisely from case to case, both the pure centrifugal forces as well as those caused by its own weight and finally also those caused by the pressure differences present on the two sides of the blades created a relative effect Powers. A corresponding change in the distance can then easily be made from this any point on the inner wall of the housing from the theoretical center axis 8 of the Discharge compressor housing 1. This calculation must of course be made for blades are carried out with completely identical dimensions and properties, so that the forces exerted by the blades against the inner wall of the housing a ensure that they are always in contact with this inner wall, otherwise it would have to It is feared that individual blades move away from the inner wall of the housing and thereby result in a reduction in compression.

The practical production of the correct shape of the non-circular cylindrical Housing inner wall is advantageously carried out in such a way that this inner wall consists of a Series of lined up circular cylinder sections with only parallel to each other offset and located within the inner wall axes, with two each adjacent sections along their straight-line joint or transition point one have common tangent plane.

A corresponding practical design of the housing inner wall is possible in detail from Fig. 2, in which the axes of the various circular cylinder sections are shown. In this figure z. B. 9 the axis of a circular cylinder section 10, the opposite of the theoretical circular cylinder surface 11 (with its axis 8) after the inside of the compressor housing is offset. The resulting reduction the distance of the circular cylinder section 10 from the axis 8 takes on the fact Take into account that the pressure difference existing in this area affects the two On the sides of each blade, gas pressures act on the blades in the sense of removal the same acts from the inner wall of the housing. You have to be in this area as well by the pivoting of the blades 6 from the rotor 4 and thus also from the rotor Axis 5 counteract increased centrifugal force.

The already mentioned circular cylinder section 10 follows in the direction of rotation a circular cylinder section 12 with an axis 13. Both cylinder sections go at their edges facing one another and forming the transition line 14 in this way into each other that they have a common tangential plane at this joint or transition point exhibit.

The circular cylinder section 12 follows in the direction of rotation of the rotor 4 nor the circular cylinder sections 15, 17, 19 and 21, each with the axes 16, 18, 20 and 22. It is z. B. the cylinder section 17 compared to the theoretical Circular cylindrical surface 11 slightly curved outwards, whereby the taking place at this point Relaxation of the fluid and the predominant weight in this area the blades are taken into account. The circular cylinder section 21 is also in arched outwards in the same sense, whereby not only the dead weight of the blades, but also one on the blades through the suction there in the sense of a Removal of the force acting on the housing inner wall by one of the bulge accordingly increased swiveling and thus increased centrifugal force are counteracted target.

It is of course to be noted that the respective, practically executed Shape of the compressor housing must be determined on a case-by-case basis, depending on on the various properties of the blades, as opposed to the rotor displacement the axis of the compressor housing and also with regard to the position of the compressor housing opposite the vertical. Thus, the invention is not limited to that described and Embodiment shown in the drawing is limited.

Claims (2)

PATENT CLAIMS 1. Rotary lobe compressor with an in the compressor housing with an unchangeable eccentricity mounted rotor, on its circumference for sliding Sealing against the housing inner wall serving blades are hinged, thereby characterized in that the shape of the inner wall of the compressor housing (1) of the shape a circular cylinder surface offset parallel to the rotor axis (5) with its axis (8) deviates in such a way that the entire, through the blades (6) on the inner wall (1) exerted forces, mainly composed of the effects of centrifugal force, des The bucket weight and that acting against the two sides of each bucket different pressures of the conveyed gas or other compressible fluid, are roughly constant. 2. Rotary piston compressor according to claim 1, characterized in that that the inner wall of the compressor housing (1) insofar has a circular cylinder surface has a different shape than it consists of a number of lined-up circular cylinder sections (10, 12, 15, 17, 19, 21) with only offset parallel to each other and within the inner wall located axes (9, 13, 16, 18, 20, 22), two each Adjacent sections (e.g. 10, 12) along their straight-line joint or transition point (14) have a common tangential plane.