The present invention relates generally to rotary piston and cylinder devices.
Rotary piston and cylinder devices can take the form of an internal combustion engine, or a pump such as a supercharger or fluid pump, or as an expander such as a steam engine or turbine replacement.
A rotary piston and cylinder device comprises a rotor and a stator, the stator at least partially defining an annular cylinder space, the rotor is in the form of a ring, and the rotor comprising at least one piston which extends from the rotor ring into the annular cylinder space, in use the at least one piston is moved circumferentially through the annular cylinder space on rotation of the rotor relative to the stator, the rotor body being sealed relative to the stator, and the device further comprising cylinder space shutter means which is capable of being moved relative to the stator to a closed position in which the shutter means partitions the annular cylinder space, and to an open position in which the shutter means permits passage of the at least one piston, the cylinder space shutter means comprising a shutter disc.
The term ‘piston’ is used herein in its widest sense to include, where the context admits, a partition capable of moving relative to a cylinder wall, and such partition need not generally be of substantial thickness in the direction of relative movement but can often be in the form of a blade. The partition may be of substantial thickness or may be hollow.
The shutter disc may present a partition which extends substantially radially of the annular cylinder space.
Although in theory the shutter means could be reciprocable, it is preferred to avoid the use of reciprocating components, particularly when high speeds are required, and the shutter means is preferably at least one rotary shutter disc provided with at least one aperture which in the open condition of the shutter means is arranged to be positioned substantially in register with the circumferentially-extending bore of the annular cylinder space to permit passage of the at least one piston through the shutter disc.
The at least one aperture of the shutter is provided substantially radially in the shutter disc.
Preferably the axis of rotation of the rotor is not parallel to the axis of rotation of the shutter disc. Most preferably the axis of rotation of the rotor is substantially orthogonal to the axis of rotation of the shutter disc.
Preferably the piston is so shaped that it will pass through an aperture in the moving shutter means, without balking, as the aperture passes through the annular cylinder space. The piston is preferably shaped so that there is minimal clearance between the piston and the aperture in the shutter means, such that a seal is formed as the piston passes through the aperture. A seal is preferably provided on a leading or trailing surface or edge of the piston. In the case of a compressor a seal could be provided on a leading surface and in the case of an expander a seal could be provided on a trailing surface.
The rotor body is preferably rotatably supported by the stator rather than relying on co-operation between the pistons and the cylinder walls to relatively position the rotor body and stator.
It will be appreciated that a rotary piston and cylinder device is distinct from a conventional reciprocating piston device in which the piston is maintained coaxial with the cylinder by suitable piston rings which give rise to relatively high friction forces.
The rotor ring is preferably rotatably supported by suitable bearing means carried by the stator.
Preferably the stator comprises at least one inlet port and at least one outlet port.
Preferably at least one of the ports is substantially adjacent to the shutter means.
Preferably the ratio of the angular velocity of the rotor to the angular velocity of the shutter disc is 1:1.
We seek to provide a transmission assembly for rotary piston and cylinder devices.
According to one aspect of the invention there is provided a transmission assembly for a rotary piston and cylinder device, comprising a first gear and a gear sub-assembly, the first gear connectable to a rotatably mounted shutter of the device, and the first gear extending from a side of the shutter, and the first gear connected to the gear sub-assembly which converts rotation to an axis of rotation different to that of the shutter.
According to another aspect of the invention there is provided a rotary piston and cylinder device, comprising a rotor and an annular cylinder space, and the rotor is provided with a housing portion with a housing portion which extends away from the annular cylinder space, which is substantially co-axial with the axis of rotation of the rotor, and the housing portion is rotationally connected to a transmission assembly to transmit rotation from the rotor to a rotatable shutter of the device, and the transmission assembly is at least partially enclosed by the housing portion.
Various embodiments of the invention will now be described, by way of example only, in which:
A port 7 is provided in the wall 2 of the stator. Other ports may also be provided in the other walls 3, 4 either instead of or in addition to the port 7.
With reference now to
Various embodiments of the transmission assemblies suitable for the rotary piston and cylinder device set out above are now described.
The rotor 8 comprises a tubular portion 8a in the form of a cylinder which extends away from the dished portion 8b. At a distal end of the tubular portion there is provided a drive plate 14 which is integral with the rotor 8.
The drive plate 14 is attached to a main drive shaft 15 such that in operation there is no relative rotation between the rotor 8, the drive plate 14 and the main drive shaft 15.
The main drive shaft 15 has a spur gear 16 attached to it. The spur gear 16 meshes with a spur gear 17 which in turn is attached to a secondary shaft 18. A crossed helical gear 19 is also attached to the secondary shaft 18. The crossed helical gear 19 meshes with a further crossed helical gear 20 to drive the shutter 12 either directly or via another shaft or transmission element (not shown). The gear 20 is provided as extending from one side of the shutter 12, and is within the footprint of the shutter.
It is clear that the packaging, ie the volumetric arrangement, of the transmission arrangement (in this case formed in part by the gear pairs 16 and 17 and 19 and 20) is related to the available space for the annular cylinder space 6. It is beneficial to maximise the annular cylinder space for a given overall size of device.
As an alternative, the drive plate 14 shown in
As a further alternative, the drive plate 14 may include an adjustment mechanism so that the relative rotational position of the rotor 8 and the drive plate 14 can be adjusted. The effect of this adjustment is to allow the timing between the piston 10 and the slot 13 in the shutter 12 to be changed. Specifically the adjustment mechanism allows the relative position of the piston 10 and the slot 13 of the shutter 12 to be adjusted. As the piston 10 passes through the shutter one face of the piston seals against the slot 13. The adjustment mechanism allows the sealing gap to be adjusted after assembly of the device (to adjust the piston to slot clearance and take up any manufacturing tolerances). This type of adjustment mechanism is feasible for use with all of the transmission arrangements set out herein.
An adjustment component 24 to assist in the adjustment of the drive plate 14 relative to the rotor 8 is also shown. The adjustment component 24 in
The adjustment component 24 comprises an offset or eccentric pin 26 which locates in a hole 50 in the rotor 8, such that as the adjustment component 24 is rotated, the drive plate is urged to move relative to the rotor 8. The component 24 comprises a keying recess 60 which is adapted to receive suitable tool to enable the component to be rotated.
In the arrangement shown in
It is possible for the shutter 12 to be repositioned so that it is no longer co-incident with a radial line through the annular cylinder space 6 about the cylinder space axis.
If the shutter is moved as described it is possible to modify the layout shown in
It is clear that the packaging of the transmission arrangement (in this case formed in part by the gear pair 27 and 28) is related to the available space for the annular cylinder space 6.
The packaging benefits shown in
The arrangement shown in
In an alternative arrangement shown in
The layout shown in
Furthermore,
An alternative assembly to that shown in
The arrangement of spur gears 36, 37 and 38 in
As a further alternative the pair of spur gears 16 and 17 in the arrangement shown in
In all of the transmission assemblies described above a single piston 10 is attached to the rotor 8 and a single slot 13 is provided in the shutter 12. This means that the overall drive ratio (or average drive ratio in the case of the oval gears) of the transmission means between the rotor 8 and the shutter 12 is 1:1.
In the arrangements described above with more than one gear pair (all apart from the arrangement of
Considering the arrangement shown in
A further arrangement related to that shown in
In any of the arrangements described above where spur gears are employed, these may be replaced by helical gears.
In any of the arrangements described above employing bevel gears, the bevel gears may be either straight cut, or helical or employ some other tooth form.
In any of the arrangements described above employing crossed helical gears, the crossed helical gear pair could be replaced by a hypoid gear pair.
The shutter may include an axis of rotation which is different to that of the rotor, but the axes are not orthogonal to one another. The transmission assembly comprises a bevelled gear, which meshes with a bevel gear, the bevel gear being connected to the shaft. The bevel gears may be arranged in a hypoid form.
Alternative embodiments may comprise any of a large range of transmission components including belts, chains, flexible joints, such as universal joints, or any combination of the aforementioned.
A rotary piston and cylinder device comprising any of the transmission assemblies described above achieves desirable requirements for packaging, transmission accuracy and transmission stiffness characteristics.
Number | Date | Country | Kind |
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0815766.1 | Aug 2008 | GB | national |
This application is a continuation application of U.S. application Ser. No. 13/060,752, entitled “ROTARY PISTON AND CYLINDER DEVICES”, filed Apr. 11, 2011, which is a 371 nationalization of and claims the benefit of the filing date of International Application number PCT/GB2009/051093, entitled “ROTARY PISTON AND CYLINDER DEVICES”, filed Aug. 28, 2009 which claims the benefit of the filing date of United Kingdom Application number 0815766.1, entitled “ROTARY PISTON AND CYLINDER DEVICES,” filed Aug. 29, 2008, the entire contents of each of these applications is incorporated by reference in their entirety.
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Number | Date | Country | |
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20180128105 A1 | May 2018 | US |
Number | Date | Country | |
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Parent | 13060752 | US | |
Child | 15864848 | US |