DE1293381B - Capsule ring of a rotary piston machine rotating with the rotor - Google Patents

Description

The invention relates to one rotating with the rotor Capsule ring of a rotary piston machine which, for. B. as a compressor, liquid pump, Liquid motor or expansion motor can work and when in slots of the The rotor's radially movable working slide is eccentric between the rotor and the latter surrounding capsule ring formed conveying or working space subdivide, which latter is closed at the front by co-rotating rotor side disks, with both the rotor with the side disks and the capsule ring by means of roller bearings in one outer housing are stored.

In a known machine of this type, the capsule ring is means a relatively very large roller bearing, the inner ring of which it forms at the same time, stored in a transversely adjustable housing ring. Such a large warehouse is necessary correspondingly large friction losses and has one in relation to the much smaller one Rolling bearings of the side windows "rapid gear" on. There are also runout errors in rotating parts can hardly be avoided if they are rigidly parallel to each other are stored. Even small runout errors lead in the tight fits between Capsule ring and rotor side walls already cause considerable friction and local Warming. This was recognized earlier, and therefore there were pendular suspensions of the capsule ring provided by z. B. the capsule ring by means of a spherical ball bearing ring is subdivided into two concentric rings pendularly to each other. The result however, the friction reduction achieved was limited. With the increasing use of Rotary piston machines grow but the need to eliminate all avoidable friction prevent and bring the overall efficiency closer to the technically achievable maximum.

The object of the invention is to reduce the friction losses between the capsule ring and side panels as well as in the roller bearings of the capsule ring to a minimum reduce, to ensure that even with several enclosing, but separately stored parts carry all bearings correctly in all places and thereby the mechanical efficiency of the rotary piston machines as much as possible increase.

The invention accordingly consists in the fact that the capsule ring of a machine of the type mentioned at the beginning can be pivoted spherically within narrow limits in a manner known per se is, in order to be able to follow concentricity errors of the rotating parts, that for this purpose the outer surface of the capsule ring or a part thereof is designed as a partial spherical surface, by means of which these in a split intermediate ring with a corresponding spherical segment Inner surface is mounted, that also the intermediate ring in a carrier ring opposite the latter is held axially displaceable, the capsule ring, the intermediate ring and the carrier ring rotatably, but not rigidly, are connected to one another, and that furthermore the carrier ring with side stiffening disks similar to bearing caps is provided, through which a bearing of the capsule ring in opposite to the carrier ring reduced in diameter rolling bearings in the outer housing is made possible. Through this it can be achieved that the considerable roller bearing friction on the one hand by the Free movement of the capsule ring in the pivoting direction and in the axial direction and the compensation of radial run-out errors that can be achieved as a result and, on the other hand, through Reduction of the rotational speed of the roller bearing elements and the relative speeds between the bearing rings can be reduced very substantially by the capsule ring can follow all movements of the rotor side disks without forcing.

Although there are rotary piston machines known, the capsule ring of a Carrier ring is carried, its reduced to smaller diameter hub in one eccentrically adjustable housing is mounted by means of roller bearings. A commuting However, there is just as little suspension of the capsule ring as there is axial freedom of movement the same provided. To compensate for bearing play, the rotor axis is in the Housing mounted with radial play. Such a radial play, however, allows deflections the rotor axis too, which is particularly unsustainable at high pressures and speeds and can give rise to undesirable vibration phenomena. aside from that the angle of the capsule ring cannot adjust freely.

In other known rotary piston machines, one is used as a capsule ring serving, rotatably mounted in the housing housing drum from a non-rotating Enclosed sleeve, which together with the housing drum for controlling the input and the exit of steam to the working chambers of the machine is used. The enclosing The bushing is supported by at least three radial bolts distributed around the circumference worn and at the same time has axial play that the sleeve is free on all sides Has the possibility of expansion. However, the capsule ring itself is without one Play stored in the housing.

All of these known types are therefore not free from friction of the capsule ring according to the invention, which is not only characterized by high efficiency, but also through high operational reliability and long service life, even at high levels Pressures and speeds.

Further features of the invention are specified in the subclaims.

In the following the invention is based on an exemplary embodiment the drawing explained. It shows F i g. 1 shows a longitudinal section through a rotary piston engine with the features according to the invention, F i g. 2 shows a section along line II-II of F i g. 1 and F i g. 3 shows a section along line III-III of FIG. 1. In the fixed Housing 10, which consists of a cylindrical part 10 a and the two bearing or side plates 10 b consists, the rotor 13 is mounted in roller bearings 11 and 12, the substantially from the shaft shaft 14, the hood-shaped side wall disks 15 and 16, the plate-shaped Sidewall washers 17 and 18, the rotor center part 19 and the control sleeve 20, the one with the side window 10 b of the housing firmly connected control shaft 21 encloses. In radial slots 22 of rotor 13 or of rotor center part 19 the working slide 23 are mounted and z. B. by means of skids 24 radially outward supported against the capsule ring 25 which surrounds the rotor center part 19 and against which are axially on both sides of the rotor side disks 17, 18 and 15, 16 with their axially Support inner end faces.

Between the rotor center part 15 and the capsule ring 25 and the axially inner side panes 17, 18 are divided by the working slide 23 Chambers of labor 26 formed. The channels 27 and 28 serve to supply and discharge the working medium in the fixed control shaft 21 and the channels 29 in the rotating central part of the rotor 21.

The capsule ring 25 has two lateral end flanges 30 to which the side panels 15, 16, 17, 18 apply axially and which, in particular for Space saving, the central part of the capsule ring protruding radially, its outer surface 31 is formed in the shape of a part of a sphere. It is in a correspondingly spherical part-shaped Inner surface 32 having intermediate ring 33 divided at 33 a is mounted. This is cylindrical on its outside and in a holding it together and a carrier ring 35 having a cylindrical inner surface 34 axially slidable inserted.

The assembly is done in such a way that first the two Parts of the intermediate ring 33 radially from opposite sides onto the spherical part-shaped Surface 31 of the capsule ring 25 applied between the two flanges 30 and thereupon the rings 25 and 33 assembled in this way are pushed as a whole into the carrier ring 35 will.

A locking bolt 36 or locking piece 37, which are radially enclosed by a locking ring 38, secure the capsule ring 25, the intermediate ring 33 and the carrier ring 35 against turning with respect to each other and thereby prevent relative rotational movements, especially when starting, accelerating and decelerating the capsule ring. However, they allow pivoting movements of the capsule ring 25 in the intermediate ring 33 as well as axial sliding movements of the latter in the carrier ring 35 and thus corresponding movements of the capsule ring with respect to the carrier ring, so that the capsule ring can follow concentricity errors of the rotor and its side disks 15 to 18 in a pendulous manner. The locking piece 37 is for this purpose, as in particular FIG. 3 shows, designed as a sliding piece with two lateral sliding surfaces 39 and has play 40 in the axial direction with respect to the carrier ring 35. If necessary, the locking bolt 36 can be provided with flattened areas corresponding to the surfaces 39 even if the locking piece is missing.

The carrier ring 35 is provided with lateral stiffening disks 41, similar to bearing caps, which are fitted axially into the central part of the carrier ring and are held by stops 41 a or snap rings 41 b, and are supported by roller bearings 42. The stiffening disks prevent vibrations and deformations at the same time and considerably increase its load-bearing capacity. On the other hand, this ensures that the inner diameter of the roller bearings can be dimensioned substantially smaller than the diameter of the carrier ring 35 and smaller than the diameter of the partial spherical surfaces 31, 32. The roller bearings 42 are inserted into an outer housing 43 , which consists of a cylindrical central part 43 a and two side disks 43 b and by means of an adjusting pin 44 to adjust the eccentricity of the capsule ring and rotor to each other and thus to regulate the stroke of the working slide 23 or the machine power transversely is adjustable to the rotor axis.

In Fig. 2 are also recesses 45 in the spherical outer surface of the capsule ring 25 on the one hand and in the outer circumferential surface of the intermediate ring 33, on the other hand, shows which recesses with lubricant to work properly Lubrication of the spherical sliding surfaces between the capsule ring 25 and the intermediate ring 33 or the cylindrical sliding surfaces 34 between this and the carrier ring 35 are supplied and possibly also as pressure fields or pressure pads to compensate of forces acting on the capsule ring 25 or on the intermediate ring 33 can serve.

Claims (7)

Claims: 1. With the rotor co-rotating capsule ring a Rotary piston machine in which the working slide is radially movable in slots of the rotor that formed between the rotor and the capsule ring eccentrically surrounding it Subdivide the conveying or working space, the latter from co-rotating ones at the front Rotor side disks is complete, with both the rotor and the side disks as well as the capsule ring are mounted in an outer housing by means of roller bearings, characterized in that the capsule ring (25) in a known manner in tight Limits can be pivoted spherically in order to follow concentricity errors of the rotating parts to be able to do that, the outer surface of the capsule ring (25) or part of the same is designed as a partial spherical surface (31), by means of which this is divided into a Intermediate ring (33) with a corresponding spherical part-shaped inner surface, (32) mounted is that further the intermediate ring (33) in a carrier ring (35) opposite the latter is held axially displaceable, the capsule ring (25), the intermediate ring (33) and the carrier ring (35) are non-rotatably but not rigidly connected to one another, and that the carrier ring (35) with lateral, bearing cover-like stiffening disks (41) is provided, through which a bearing of the capsule ring (25) in relation to the Carrier ring (35) with reduced diameter rolling bearings (42) in the outer housing (43 or 10) is enabled. 2. capsule ring according to claim 1, characterized in that that the diameter of the roller bearing (42) is also smaller than the diameter of the partial spherical surface (31) is. 3. capsule ring according to claim 1 and 2, characterized in that the diameter the spherical part-shaped bearing surface (31) of the capsule ring (25) or the split Intermediate ring (33) is smaller than the diameter of the axially lateral to the Flanges (30) of the capsule ring resting against the rotor side disks (15, 16, 17, 18) (25). 4. capsule ring according to claim 1 to 3, characterized in that the non-rotatable Connection of intermediate ring (33), carrier ring (35) and capsule ring (25) provided Locking bolts (36) or locking pieces (37) to achieve an effective Support and guide surfaces are flattened with surfaces (39) parallel to the rotor axis are. 5. capsule ring according to claim 1 to 4, characterized in that the inner rings of the roller bearings (42) formed by the capsule ring (25), intermediate ring (33) and carrier ring (35) with stiffening disks (41) serving on a hub part (41 c) of the stiffening disks (41) are arranged. 6. capsule ring according to claim 1 to 5, characterized marked, that in the spherical bearing surface (31) of the capsule ring (25) recesses (45) are arranged for a lubricant. 7. capsule ring according to claim 1 to 6, characterized in that recesses (45) in the two-part intermediate ring (33) are arranged for a lubricant. B. capsule ring according to claim 1 to 7, characterized characterized in that the outer bearing (42) in side disks (43 b) is used Housing made of one for the purpose of regulating the work output or delivery rate of the machine in a transverse direction to the rotor (13) displaceable housing ring (43) and a die entire machine enclosing the outer housing (10).