DE248048C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present invention relates to the application of the invention of patent 243697 on machines in which the slide-shaped Pistons are moved back and forth in the axial direction by face curves. The adjustable ones Working spaces are created by turning the piston drum or the cam disks formed, which interlock cylindrically.

Various embodiments of the subject matter of the invention are illustrated in the drawing.
In the embodiment according to FIG. 1, the slides α lie in slots of the piston drum b mounted on the shaft 0 and are guided on the face cam disks c. The latter are turned out in such a way that narrow surface curve surfaces c ¹ and c ² remain on the inside and outside; Both the slide α and the drum b protrude into the annular spaces d formed in this way, the latter with its hollow cylindrical ends b ¹ . The slides α submerge in places as a result of their ^{axial movement generated by the action of the curves c 1} and c ² on their approaches a ¹ and α ² in their guide slots in the piston drum, so that j the stationary located there, by spring pressure or the working medium or both together pushed forward abutment slide β can permanently rest on the drum α without being in the way of the rotating slide.

As in the main patent, the piston drum b is axially displaceable in order to allow the power to be regulated. The differential circuit takes place through the channels f in the drum.

According to Fig. 2, 2a and 2b, which show a further embodiment in longitudinal section, in cross section and in the development, the cams are turned out only so deep that the bases of the recesses d coincide with the deep flat surfaces of the cams c , or Under certain circumstances, for processing reasons, they may even protrude slightly above it, so that only the raised parts appear to be furrowed. This gives the slide α a simple rectangular shape instead of the cumbersome, relatively expensive cross shape caused by the all-round recesses d according to FIG. The piston drum b again protrudes with its hollow cylindrical ends δ ¹ into the recesses d of the cam disks c and seals against their side walls and against the

*) Previous additional patent: 247639.

gene d engaging, expediently designed as a hollow cylinder, pressed by springs g abutment e. The hollow cylindrical shape of the abutment e is particularly suitable for receiving springs, is easy to manufacture and to seal by grinding in and is hydraulically relieved, since only the wall thickness comes into question as an effective surface.
The optionally required for the purpose of achieving a differential effect connection of the two feed chambers need not here by special channels (f in Fig. I) to be produced, because the compound h already by the α between the individual valves lying segments of the free annular space around the piston drum b is produced (Fig. 2a). Those beyond the scope of the. Slides α protruding from the piston drum can also be particularly supported by guide lugs b ² provided on the drum, as shown in phantom in FIG. 2a.

In addition, the cams have c

the machine according to FIGS. 2, 2a and 2b has double curves, that is, two curve valleys and two curve peaks. Each cam disk c thus forms two working spaces with the piston drum b. Of course, a special abutment e belongs to each working space, and the number of slides must also be a correspondingly larger number (e.g. eight according to FIG. 2a).

For certain purposes, one side of the machine can be designed for variable, the other for unchangeable delivery rate by hollowing out the cam disk c on only one side and arranging an adjustable abutment e , as shown in FIG. 3, while the cam disk c 'is arranged on the other side. left full and no adjustable abutment is arranged, so that on this side only the dead space not considered for effective conveyance, in the extension of an annular space the width of the distance between the top of the curve and the piston drum, experiences a change, but not the effective conveying space, the width of which is determined by the unchangeable height of the curve (on the variable side by the entry depth of the adjustable abutment e) . This machine has a constant flow rate on the one hand, from which a variable flow rate on the other side is deducted with differential switching, so that the effective flow rate between the flow rate of the unchangeable working space as the maximum value for one conveying direction on the one hand and the difference between this flow rate and the Maximum amount of the variable working space as a minimum value for the same or as a maximum value for the opposite direction of conveyance on the other hand fluctuates.

A main advantage of the machine according to FIG. 3 is that it is easy to adjust, since it is not four, but only two surfaces have to be adjusted to each other.

In the embodiment according to FIG. 4, each cam disk has two concentric recesses d which form the working spaces and between which a ^{cam web c 3 has} remained. Correspondingly, the piston drum b also has two hollow cylindrical projections b ¹ which engage in these recesses d, while the cam web c ⁸ engages in the recess located between the two hollow cylinders. The I-shaped slides α lead with their web « ³ on the curved webs c ³ and work with their flanges α ⁴ in the conveying spaces d, into each of which an abutment e protrudes. The arrangement according to FIG. 5 is a reversal of the arrangement according to FIG. 1, insofar as hollow cylindrical extensions of the cam disks engage in recesses in the piston drum, which form the working spaces. The abutments e and the slide webs a ³ also extend into these recesses, while the slide flanges ⁴ are guided on the cam webs laid in the cam disk recesses.

Finally, FIG. 6 shows an embodiment in which the shaft with the piston drum is fixed in the axial direction. Furthermore, the abutments e are rigidly attached to the housing η , optionally adjustable by means of a thread, and likewise the bearing bushes i, which can seal against the piston drum b with their end faces. Axially displaceable for the purpose of capacity control, only the cam discs are c, the k by a bushing are coupled together. The sleeve k is against the housing η by grinding or sealed by means of leather cuffs and receives openings I for connecting the working chambers with the η in the housing lying channels m. In this embodiment, with the cams C of course, the run between them slide adjusted α. The fixed mutual adjustment of housing η and piston drum b is of considerable advantage. In the case of a displaceable piston drum, this is generally firmly connected to the shaft, that is to say the latter is also moved, which experience has shown is always unfavorable for operation and, in particular, also causes difficulties for the seal. Conversely, if you move the housing while the piston drum and shaft are stationary, which in itself can be carried out, you need to use flexible connections for connection to the inflow and outflow line, e.g. B. to be provided in the form of hoses. In addition, the fixed mutual position enables better adjustment, and finally it is also a special advantage that the "abutments are fixed and set by pressure

a spring and the fluid are independent.

As with the machine according to FIG. 2, a connection of the two machine sides is also formed in the one according to FIG. 6 by a free annular space h around the piston drum, into which only the slides α protrude. In addition, connection channels can also be provided in the piston drum, as indicated in FIGS. 1 and 4.

Incidentally, nothing is changed in the essence of the invention if one works with the piston drum at a standstill revolve around the housing with sliders.

Finally, as in the case of the machine according to FIG. 2, one can of course also use the other Embodiments design the curved surfaces so that they are in the base of the recesses leak.

Claims (5)

* Patent claims: i. Device for changing the performance of machines with rotating, in the piston drum Piston axially displaceable by face cams according to patent 243697, characterized in that the cam disks and the piston barrel intermesh cylindrically so that the working spaces in recesses of the cam disks or the Drum lying. 2. Apparatus according to claim 1, characterized in that the low-lying planes Parts of the curved surfaces are at the same height as the bottom of the recesses. 3. Apparatus according to claim 1, characterized in that the web (c ³ ) which remains between two recesses (d, d) of the cam disc is designed as a control cam. 4. Apparatus according to claim 1 to 3, characterized in that with mutually axially fixed arrangement of the housing (s), piston drum (b) and abutments (e) for the purpose of changing the performance, the cams (c) with the slides (a) axially adjustable are. 5. Apparatus according to claim 4, characterized in that the two cam disks (c) are connected to one another by means of a bushing (k) which is tightly fitted into the housing and which has passage openings (I) for the liquid. 1 sheet of drawings.