DE2220391A1 - INNER-AXIS ROTARY LISTON MACHINE WITH INTERLOCKING - Google Patents

Description

In-axis circle machine mil; Combing engagement

The invention relates to an internal-axis rotary piston machine with meshing engagement, whose annular disk-shaped outer stator - in particular with the interposition of side disks between two housing parts clamped against each other by screws is held.

In the known designs of this type, the stator, the clamping housing parts and any side disks that may be present have approximately the same circumferential dimensions. The turnbuckles engage through corresponding holes in the outer stator and in the side windows. The holes are in each case in the area of a tooth tip of the stator. As a result, the stator is weakened accordingly and so many Bolts are needed as are stator teeth.

The invention is based on the object of a rotary piston machine specify the type described above, in which a greater freedom in the arrangement of the tensioning screws given is.

This object is achieved according to the invention in that the clamping housing parts have a cylindrical circumference of the stator - and if necessary the side windows - each with an axially forward

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include standing centering bar and that the screws essentially run outside of this range.

With this construction, the stator is centered independently of the tensioning screws. The screws can be any Location in relation to the teeth. The centering is excellent because only two are concentric to the machine axis Centering surfaces between each clamping housing part and the stator are present. All other things being equal, the stator can have a smaller diameter and / or a higher strength obtain.

Sometimes it is beneficial if the cylindrical circumference of the Stator is connected to a flange of lesser thickness, which the screws enforce with play. This flange bridges the between the centering webs of the two clamping housing parts visually and increases the strength and rigidity of the stator.

A particularly great advantage can be seen in the fact that the number of screws must be smaller than the number of teeth on the stator can. While you used to need seven screws with a stator with seven teeth, you can now with one get by with a smaller number of screws.

In particular, four screws arranged in a rectangle or square can be provided. Then the screws can be substantially outside the circumference of the stator without increasing the height and width dimensions the machine results.

The flange preferably has a circumference adapted to the cross-sectional shape of the clamping housing part.

In this context, it is very favorable if at least one clamping housing part has an approximately square cross-section and the screws are located at the corners of the square.

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In a preferred embodiment, the stator has on its end walls or the side disks have on their end walls facing the stator End wall along the circumference has a groove into which a sealing ring is inserted. This sealing ring is also used by the Centering bar overlapped. It is therefore at most in the case of overpressure pressed against this web, but not pressed outwards from a gap located between the stator and the neighboring part.

It is very favorable if a side window has a bearing bush in a central bore, on which one with the Rotor rotatably coupled valve disc is mounted, which forms a distribution valve together with the side plate and is pressed axially against this. Since the side window is centered by the centering bar and in turn with the help of the The bearing bush supports the valve disc, the result is a distributor valve that is centric with high accuracy.

The invention is explained in more detail below with reference to a preferred exemplary embodiment shown in the drawing. Show it:

1 shows a longitudinal section through a rotary piston machine according to the invention and

2 shows an end view from the right, with a square on the left and a square on the right a circular flange is shown.

The illustrated machine is intended as a motor, which is optional Via one of the connecting pieces 1 or 2 hydraulic fluid is supplied and from that via the other connecting piece 2 low-pressure liquid is dissipated, while 3 drive power is taken from a shaft. With a drive on the Wave 3 can also be used as a pump.

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The housing has two clamping housing parts 4 and 5, between which an external stator 6 and two side disks 7 and 8 are located When the two clamping housing parts 4 and 5 are pulled against each other with the aid of four clamping screws 9, they take effect these with their end faces 10 and 11 on the side windows and the stator and press these parts firmly together. The stator 6 has a cylindrical circumference 12. Its diameter and that of the side panels 7 and 8 are equal to one another. That Clamping housing part 4 engages with a centering web 13 in a sliding fit over the circumference of the side window 7 and the adjacent ones Part of the stator circumference 12. The clamping housing part 5 engages with a centering web 14 in a sliding fit over the circumference of the side window 8 and the adjoining stator circumference 12. A flange 15 of smaller size connects to the circumference 12 of the stator Width than the stator; it is used to optically fill the gap between the centering bars 13 and 14 and for reinforcement of the stator 6. The shafts of the tensioning screws 9 run outside the cylindrical circumference 12 of the stator 6. In the flange 15 bores or recesses 16 are provided for the passage of the screw shafts.

The clamping housing part 4 is closed at the end by a cover 17. It carries a double roller bearing 18, with which Help a hollow part 19 of the shaft 3 is mounted. In a toothing 20 of this hollow shaft part 19 engages a toothed Head 21 of a first cardan shaft 22, the opposing toothed head 23 of which is in a toothing 24 as a toothed ring trained rotor 25 engages. The teeth of this rotor form together with the teeth 26 of the stator, which are here as cylindrical Inserts formed, displacement chamber 27, which with the help of a distribution valve in the correct order connected to the connection piece 1 or the connection piece 2 will.

The side window 8 supports the formation of the distributor valve in an inner bore a bearing bush 28 on which a rotating valve disk 29 is mounted. This valve disc

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29 is non-rotatably connected to the rotor 25 via a second cardan shaft 30, with a first toothed head 31 of this cardan shaft into the toothing 24 of the rotor and a second toothed Head 32 engages in teeth 33 of valve disk 29. A pressure piston 34 ensures that the valve disk 29 is tight is pressed against the side window 8. A central pin 35 serves as an axial stop for the cardan shaft 30 and prevents that axial loads are transmitted to the valve disk 29 or to the pressure piston 34.

The side disk 8 has axial channels 36 which are each assigned to a tooth base of the stator 6. The exact angular position is ensured by a pin 53. The valve disk 29 has alternating valve openings 37, which with the Connection piece 1 are connected, and valve openings 38, which are connected to the connection piece 2, on. They are each present in the number of teeth of the rotor 25. From every valve opening 37 a channel 39 in the valve disk 29 leads to an annular groove 40 Number of channels 41 in the pressure plate 34 with an annular space 42 in connection. This is between the clamping housing part 5 and the pressure piston 34 formed; he stands immediately mjfc the connection piece 1 in connection. The valve openings 38 are each connected via an inclined channel 43 to an annular space 44 which surrounds the valve disk 29. This annulus is immediate with the connecting piece 2 in connection.

The pressure piston 34 is guided on two concentric surfaces 45 and 46 and secured against rotation by a pin 47. He is by one or more springs 48 and by the one prevailing in the annular space 42 or in the annular gap 54 of the annular space 44 Pressure is pressed axially against the valve disk 29, whereby it is pressed tightly against the side disk 8.

On the end wall facing the rotor 6, both side disks 7 and 8 have a groove 49, 50 extending from the circumference, into which groove

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a sealing ring 51, 52 is inserted. These sealing rings ensure that over the interface between the stator 6 and the side panels 7, 8 no pressure fluid escapes to the outside; however, they themselves cannot escape due to the pressure of the fluid be pressed.

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Claims (8)

Claims Γ 1st / inner-axis rotary piston machine with meshing engagement, their
Annular disk-shaped outer stator - in particular - with the interposition of side disks - is held between two housing parts clamped against each other by screws, characterized in that the clamping housing parts (4, 5) have a cylindrical circumference (12) of the stator (6) - and optionally
of the side panels (7, 8) - each with an axially protruding centering web (13, 14) and that the screws (9)
run essentially outside of this range. 2. Machine according to claim 1, characterized in that a flange (15) on the cylindrical periphery (12) of the stator (6)
thinner, which the screws (9) enforce with play. 3. Machine according to claim 1 or 2, characterized in that the number of screws (9) is smaller than the number of teeth dB Stator (6) is. 4. Machine according to one of claims 1-3, characterized in that four screws arranged in a rectangle or square (9) are provided. 5. Machine according to claim 4, characterized in that at least a clamping housing part (5) has an approximately square cross-section and the screws (9) at the corners of the square are arranged. 6. Machine according to one of claims 1-5, characterized in that the flange (15) has one of the cross-sectional shape of the
Clamping housing part (4 or 5) has adapted scope. 309845/0160 7. Machine according to one of claims 1-6, characterized in that the stator (6) on its end walls or the side plates (7, 8) have on their end wall facing the stator along the circumference a groove (49, 50) into which a Sealing ring (51, 52) is inserted. 8. Machine according to one of claims 1-7, characterized in that a side plate (8) in a central bore carries a bearing bushing (28) on which a valve disc (29) which is coupled in a rotationally fixed manner to the rotor (25) and which together forms a distributor valve with the side window (8) and axiaH / is pressed against it. 309845/0180 Blank page