DE808061C - Slide shoe for slide gate valves of rotary piston machines - Google Patents

Description

Slide shoe for separating diaphragms of rotary piston machines The invention refers to rotary piston power and working machines with plate-shaped drive vanes, which are mounted eccentrically in a round housing bore in longitudinal slots Drum runner slide. To with such rotary lobes even at higher speeds To achieve favorable mechanical efficiencies, the centrifugal forces of the drive slide must be added by special positive guide, so that the outer drive slide edge does not rub against the housing wall. This positive run should on the one hand with the utmost Accuracy to be made so that between the outer drive slide edges and the housing wall the smallest possible game can be maintained. on the other hand the occurring sliding movements should be as small as possible, so that friction loss, Wear, heating and low lubricant consumption even at higher speeds. stay. The previously used positive guides could still meet these requirements not satisfactorily meet. Attacking the outer edges of the drive slide Guides result in considerable sliding movements. The connection of two opposite Driving slide through the drum axis to a continuous driving slide conditionally a difficult to manufacture and to measure, slightly out of round (cardioid-shaped) Housing bore. In addition, for continuous drive slide, not only is the side, but also to provide ample play for thermal expansion in the bore diameter.

The two conditions given above can best be met, if you slide the slide slide in slots individually in the drum interior or laterally on the smallest possible circumference so that the outer slide edges move on an exact circular path. According to the invention get the Driving slide for this purpose arc-shaped sliding blocks that are directly or with the interposition of sliding blocks on a centered to the housing bore Support the pin or ring. When the outer edges of the drive slide as a sharp edge are formed, the arc of the sliding blocks is exactly around the outer edge of the slide beaten. However, if the outer edges of the drive valve plates are rounded, then so is the curve of the sliding shoes around the center line of the rounding of the outer slide edge beaten.

FIGS. 1 through 7 illustrate various exemplary embodiments the invention.

Fig. I illustrates a fan with two vanes, which by Arc loops are guided centrically. In the round hole in the case, yes the round drum rotor 211 mounted eccentrically. In two longitudinal slots this The drum rotor slide the two drive slide plates 3a. Through the bolt ioa these are connected to the sliding shoes 4a designed as a bow loop, which grip around the guide pin 5a arranged centrally to the housing bore. the Center line of curvature of the guide slot of the bow loop with the middle one The radius of curvature R coincides with the center line of the rounding of the outer drive slide edge with the radius r together.

In the case of the fan illustrated in FIG. 2, the two drive slide plates are 3b in oblique longitudinal slots of the eccentric in the round bore of the housing ib mounted drum rotor 2b passed on the drive shaft 6b. For you are the hook-shaped sliding shoes 4b and the smaller guide thumb 16b with their Connecting bridge attached to the side. With the hook-shaped shoes 4b and the Guide thumb 16b grip the drive slide around the center of the housing bore arranged round guide stub 5b through which the drive shaft passes. In contrast to the arrangement according to Fig. I, where on a continuous drive shaft of the drum rotor 2a had to be dispensed with, the drive shaft 6b in the Arrangement according to FIG. 2 can be designed as a continuous shaft. This results in a major simplification. However, this arrangement is bad for rotary lobes can be used with more than two gate valves.

3 and 4 show an arrangement for rotary lobes in two cross-sections with four gate valves. The four drive slide plates 3 ″ slide in longitudinal slots of the drum rotor 2c, which is eccentric with the drive shaft 6e in the round bore of the housing ie is rotatably mounted. Half-tubes are attached to the drive slide plates 3c 12e attached, which are passed in bores through the drum rotor 2 ° and at the other end carry a counter holder 14e against which the inserted Supports compression spring 16c and thus counteracts the drive slide plates 3e of the centrifugal force pushes inwards. The sides are supported on the drive slide plates 3e pushed-on, mushroom-shaped sliding shoes 4, arranged on the center to the housing bore Guide stub 5e through which the drive shaft 6c passes. So that the driver slide plates 3e must not be thrown against the housing wall by centrifugal force the centrifugal force cannot be greater than the tension of the compression spring i5c. At this Arrangement must therefore not exceed a certain speed.

Fig.5, 6 and 7 show arrangements that also for rotary lobes with more are suitable as four drive slides and can be used in a wide speed range are.

In Fig. 5 slide shoes 4d are pushed onto the drive slide plates 3d, which slide in the longitudinal slots of the eccentric drum rotor 2d rotating eccentrically in the housing id. The guide stones 7d run between the rotating catch ring 8d and the guide stub 5d arranged in the center of the housing bore. Instead, you could also run around in a central annular groove in the side housing cover.

In Fig. 6, the slide shoes 4e of the drive slide plates 3e, the slide in longitudinal slots of the drum rotor 2e, which is eccentrically mounted in the housing, not as in the arrangements of Fig. i to 5 within the drum rotor, but laterally next to it in a special chamber of the laterally extended housing housed. The drive slide plates 3e have lateral tongues for this purpose, which engage in a recess in the sliding blocks 4e. Support the sliding blocks 4e via the lens-shaped sliding blocks 7e on the rotating guide pin 5e, which is mounted on the rollers 9e in the housing. Support inside the sliding shoes 4e against the freely rotating catch ring 8e.

If the radius of the rounding of the outer edge of the drive valve plates 3 is very large compared to the thickness of the drive valve plates, then in the middle slide position there is temporarily a strong increase in the play between the outer edge of the drive valve plates and the housing wall. If, as in FIG. 7 (left), this takes place at a moment when the two neighboring cells (I and II) are at the same time connected to the inlet and are therefore under the same pressure, then such a widening of the gap is of no importance. However, if this widening of the gap were to occur in compressors on the opposite pressure side between cells IV and V, the volumetric efficiency would be severely impaired. In order to allow such a gap widening to occur only on the negative pressure side, the outer edges of the drive valve plates 31 are strongly rounded on one side, i.e. the center line of the roundings of the outer edge and slide shoe 4f is not in the center plane of the drive valve plates 3f, but is offset against the direction of rotation. Otherwise the arrangement of FIG. 7 is similar to the arrangement of FIG. The six drive slide plates 3f slide in longitudinal slots of the drum rotor 2f, which is mounted with its drive shaft 6f eccentrically in the round bore of the housing it. The arc segments of the guide shoes 41 attached to the sides of the drive slide plates 31 rest on lens-shaped sliding blocks 7f, which are held in the rotating catch ring 81 and are internally supported against the guide pin 5f arranged centrally to the housing bore.

Claims (5)

PATENT CLAIMS: i. Rotary piston power and working machines with plate-shaped drive slides that slide in longitudinal slots of a drum rotor mounted eccentrically to the round housing bore and wear sliding shoes that slide directly or with the interposition of sliding blocks on axles, nozzles, recesses or rings arranged centrally to the housing bore, characterized in that the Sliding shoes are designed as curved segments or curved loops, the curve of which is struck around the outer longitudinal edge of the drive valve plates or, when this edge is rounded, around the center line of the rounded edge. 2. Rotary piston power and working machines according to claim i, characterized in that the drive slide plates with the sliding shoes by springs or other means frictionally inwards be pressed against the centric guides. 3. Rotary piston engines and machines according to claim i and 2, characterized in that the sliding shoes are laterally the drive valve plates are put on. 4. Rotary piston engines and machines according to claims i to 3, characterized in that between the shoe arches and the central guide are curved, lens-shaped sliding blocks on both sides. 5. Rotary piston engines and machines according to claim i to 4, characterized in that that the center line of the rounding of the outer edge of the drive slide plates and the curvature of the sliding blocks lies outside the center plane of the drive slide plates.