DE907623C - Piston machine with a pendulum piston guided between rotating thumb disks - Google Patents

Description

Piston machine with a guided between rotating thumb discs Pendulum piston There are already piston machines with one that is cut off at an angle on both sides Pendulum piston known, which is between two rigidly connected thumb discs, which rotate in the cylinder of said piston, back and forth in the axial direction is pushed. Here, the said piston exercises in the one lying on both of its sides Cylinder chambers from pumping processes with a phase shift of 18o ° from one another run and for which the corresponding inlet and outlet valves directly through said thumb discs can be controlled. The pendulum piston itself is mostly loosely mounted on the common shaft of the two thumb disks and is in turn prevented from rotating by a slot guide that is parallel runs to the cylinder axis. Such piston machines can, like any piston machine, both as a pump for gas or liquids as well as a hydraulic or compressed air driven one Use the engine or, if necessary, even as an internal combustion engine. You stand out in all of these cases a special feature compared to normal piston engines simple and space-saving construction and particularly low susceptibility to failure the end.

The invention relates to an improvement for piston engines of the aforementioned Kind by which a number of surprising new effects achieved and such Piston machines for numerous new areas of application usable be made. According to the invention, the pendulum piston is inside the cylinder rotatably arranged between two stops. For this purpose one can use e.g. B. in Pendulum piston provided two guide slots offset from one another by i8o ', which are connected to one another by a transition channel, the stop surfaces of which are inclined run into the guide slots. In this way the piston is given the opportunity to optionally in two layers offset by i8o 'between the thumb discs to commute back and forth, d. H. so the phase of the pumping process against the unchanged Shift the phase of the valves controlled by the thumb discs by i8o ', so that the piston machine according to the invention is used as a pump in both directions of rotation or can run as a motor. The transition from one guide slot through the The transition channel into the other guide slot takes place automatically through the dragging effect of the friction between the piston and thumb disks.

Instead of just two working positions offset by 180 ° from one another of the pendulum piston, of which automatically depending on the required flow rate the predetermined working position is selected, the arrangement can of course also be used meet so that the angular position of the pendulum piston to the fixed valves Is adjustable at will. For this purpose you need z. B. only in the Guide slot of the pendulum piston engaging guide pin with an adjusting device equip which allows its rotation around the cylinder axis. Through appropriate Adjustment of the position of this guide pin can then be any phase position bring about between the piston movement and the valve control and as a result with a constant direction of rotation of the thumb disks, operated as a pump, for example Piston machine from the maximum delivery in one delivery direction to the Lowering promotion to zero and then continuing to promote in the opposite Adjust the conveying direction up to the maximum value. Likewise, when operating a such a piston machine, for example as a hydraulic motor, the absorption capacity regulate this hydraulic motor from the maximum value steadily down to zero and then continue to lead to negative values, at which the engine does not have any more power gives off, but acts as a pump and consumes power, d. H. brakes.

These effects, which are common in piston engines only let it be brought about with the help of rather complex aids, they do Piston machine according to the invention is particularly suitable as a feed pump or as a hydraulic one Motor of fluid gears. However, it is advisable to use several at a time Piston machines, which work with mutually offset phases, inevitably with one another to couple to overcome the dead spots. This results in a particularly space-saving Arrangement if one has a plurality of cylinders, which each one according to the invention Contained designed piston engine, axially parallel in the ring around the center line of the cylinder block, which is used at the same time for the joint storage of input and output and the axes of these piston machines with the associated shaft clutched by gears. The control of the guide pins for the pendulum piston can then z. B. by an axially displaceable, possibly with the cylinder block circumferential sleeve, within which the adjustment members in question are inclined Slots are guided.

The invention is explained in more detail below with reference to the drawings. Of these, Fig. I shows the perspective view of an inventive Piston machine, Figs. 2 and 3 show the development of the surfaces of pistons and thumb disks in different phase positions to each other and to the cylinder slot valves, Fig. 4 shows the cross section through a piston machine with an adjusting device according to the invention, 5 shows the longitudinal section through a fluid transmission with a piston machine according to the invention and FIG. 6 shows the rear view of the coupling shown in FIG.

Fig. I initially shows a perspective view of an inventive Piston engine with trimmed housing. Inside the cylinder i run on of the axial shaft 2, the thumb washers 3 and 4 firmly connected to this shaft and push the pendulum piston 5, which has been cut off at an angle on both sides, between back and forth. The inlet valves 7 and 7 'designed as cylinder slots as well as the outlet valves 8 and 8 ', which are also designed as cylinder slots both pump chambers P, and P2 are hereby the rotating thumb disks 3, 4 inevitably controlled.

The pendulum piston 5 is loosely mounted on the shaft 2 and is through the guide pin 9, which is fixed to the housing 1, to rotate about its axis prevented. This guide pin 9 normally runs in a longitudinal groove io of the piston 5, at the upper edge of which it is inevitably pressed as soon as the piston machine shown in the direction of the indicated rotary arrow as a pump runs. This guide groove io is through a transition channel i1 with a second Guide groove 12 connected, which by 18o 'against the guide groove io on the jacket of the piston 5 is offset and is covered in Fig. i by the housing. Since the Reach the stop surfaces of the transition channel i1 at an angle in these two guide grooves, the pendulum piston 5 automatically goes into the opposing position when the The direction of rotation of the thumb discs 3, 4 changes, so the pump is opposite to the the indicated rotation arrows.

Fig. 2 shows the development of the lateral surfaces of the piston 5 and the Thumb discs 3, 4 for the two positions. It can be seen that with unchanged Position of the thumb disks 3, 4 against the cylinder slots 7, 8 or 7 ', 8' according to FIG. 2a, the guide pin 9 exercised in the direction of the arrows shown Driving effect between thumb washers and piston on the upper edge of the slot io strikes and the piston machine in question therefore has the correct valve phase works as a pump, while the opposite shown in Fig. 2b Direction of rotation of the guide pin strikes against the lower edge of the slot and as a result, the pump unit is now also in this opposite direction of rotation works again as a pump with the correct valve phase.

You can see each other in place of the two through the transition channel ii connected guide grooves io, 12 only a single guide groove in the piston skirt and makes the stop pin 9 adjustable accordingly, so you can evidently j ede bring about any phase between piston movement and valve control. Fig. 3 shows in a corresponding manner the surface development of the piston 5 and thumb disks 3, 4 for three different intermediate positions between those already shown in FIG both border positions. According to FIG. 3 a, the guide pin 9 from that of FIG. 2 a corresponding position rotated by 45 ° in the direction of the rotary arrow in FIG. It can be seen that the two piston chambers are only in the half-open position of the Pressure line are separated and connected to the suction line, so that only half of the funding is still available. According to Fig. 3b, the guide pin 9 is against the Starting position drawn in Fig. 2a rotated by go °. In this position the each sucked-in flow rate through the suction valve itself back into the Suction line pushed back so that the delivery rate of the pump drops to zero. According to FIG. 3 c, the position of the guide pin 9 is opposite that shown in FIG. 2a Starting position offset by i35 °. In this rotational position of the piston 5 is apparently already a reversal of the conveying direction has occurred, and the conveyed goods are at half Delivery rate pushed back through the suction slots. If you turn the guide pin 9 in the same direction even further, so that it comes to the position of Fig. Z b, if the direction of rotation remained the same, this would result in negative conveyance with full conveyance capacity enter. So you can see that by an inevitable rotation of the pendulum piston 5 around its axis in piston machines of the type in question a continuous regulation of the Delivery rate from the maximum value in one direction through zero to Can achieve maximum value in the other direction.

If the piston machine according to the invention only works as a pump, so it will generally suffice, a rotatability of the guide pin 9 to the Cylinder axis to make its angle of go °, since this is already the The delivery rate of the pump can be continuously regulated from the maximum value down to zero. Will the On the other hand, the piston engine described is used as a motor, it is often useful measure the rotatability of the guide pin 9 around the cylinder axis to a full i8o °, because then by adjusting this guide pin, the power of the engine from Maximum value in one direction of rotation down to zero and then increasing in the opposite direction Can continuously regulate the direction from zero to the maximum value. Fig. 4 shows the section by a hydraulic motor of this type. In the wall of the cylinder i is a Milled peripheral slot 13, which extends over i8o ° and in which the guide pin 9 runs, which is carried by a ring 14. The guide pin 9 engages here into the axially parallel groove ro of the pendulum piston 5. The ring 14 is on his The outside is provided with a toothing which engages with the worm 15 stands, on the shaft of which the handwheel 16 is seated; as a result, one can by rotation of the handwheel 16 rotate the ring 14 about the axis of the cylinder i and thereby the Adjust the position of the guide pin 9.

Fig. 5 shows a schematic representation of the section through a fluid transmission designed according to the invention. The cylinder block 17 also serves as a bearing for the drive 18 and the output ig. Inside the cylinder block 17 are the four axially parallel cylinders 20 to 23, of which the cylinders 20 and 21 each contain a piston pump of the type described, which are coupled to the gear 26 of the drive 18 via gears 24 and 25. The cylinders 22 and 23 each contain a piston machine of the corresponding type, which acts as a hydraulic motor and which are connected to the gear wheel 29 of the output ig via the gear wheels 27 and 28. The annular spaces 30 and 31 provided in the interior of the cylinder block 17 are used in the usual way as storage spaces for the clutch fluid that is sucked in or for the clutch fluid that is conveyed under pressure.

It is known that one can control such a fluid transmission the delivery rate of the pumps for each revolution or the corresponding one Control the delivery rate of the motors or both delivery rates. The clarity for the sake of the arrangement shown in Fig. 5 is only a control for the delivery rate of the pump provided. A control device is used here Sleeve 32, which is on the axis of the drive 18 by means of the lever 33 in the axial direction Is slidably arranged and has inclined guide slots in which the adjusting pins 34 for the adjusting rings 14 a and 14 b (see. The adjusting ring in Fig. 4) run. An adjustment device this type has the advantage that it can also be used if one, as is necessary with certain transmissions, possibly the cylinder block 17 camps so that he can walk around with him. If this is not necessary, so You can of course also use a common gear in the interior of the cylinder block 17 provide which meshes with corresponding teeth of the rings i4a and 14 " stands and in turn by hand via a worm gear led out at the side is adjusted.

Instead of only two pump and motor cylinders 2o to 23 as shown in FIG In practice, it is of course advisable to provide one for the pump and one for the motor to use a larger number of cylinders arranged in a ring in the cylinder block. The arrangement shown as a rear view in FIG. 6 then results.

Claims (5)

PATENT CLAIMS: i. Piston machine with a pendulum piston cut obliquely on both sides, which is pushed back and forth within a slot guide between two arranged in the same cylinder, on a thumb disks attached axially through the cylinder and attached to a common seed shaft, characterized in that the pendulum piston (5) within the Cylinder (i) is rotatably arranged between stop edges. 2. Piston machine according to claim r, characterized in that two to guide the pendulum piston by i8o ° against each other offset guide slots (grooves io, 12) are provided, which through a transition channel (ii) are connected to one another, the stop surfaces of which slant into the guide slots (io, 12) arrive. 3. Piston machine according to claim i, characterized in that the guide pin engaging in the guide slot (io) of the pendulum piston (5) (9) is connected to an adjusting device (13 to 16) which rotates by the axis of the cylinder (i) allows. 4. Piston machine according to claim i, in particular for fluid transmission, characterized in that a plurality of cylinders (2o to 23) axially parallel in the rim around the center line of the at the same time as the storage the star-shaped gear wheels (24 to 26 or 27 to 29) with the individual Systems coupled drive or output shafts (18, 19) serving cylinder block (17) are attached, and that the pendulum pistons running in these cylinders (2o to 23) are in communication with a common control element, which these pendulum pistons to rotate simultaneously around the axes of their cylinder bores. 5. Piston engine according to claim 4 with a rotating cylinder block, characterized in that the adjustment the guide pins for the pendulum piston by an axially displaceable, with the Cylinder block (17) circumferential sleeve (32) with which the adjusting members (34) are coupled for these guide pins by inclined slot guides.