Rotary expansible chamber devices – With plural working fluid inlet or outlet passages
Reexamination Certificate
2002-07-09
2004-03-16
Vrablik, John J. (Department: 3748)
Rotary expansible chamber devices
With plural working fluid inlet or outlet passages
C418S206100, C418S206400, C418S206700
Reexamination Certificate
active
06705847
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a rotary displacement machine with at least two displacement gear wheels with external teeth for conveying a fluid and with at least two supply channel with supply mouths in the area of the displacement gear wheels for supplying the fluid to the displacement gear wheels, wherein each one of the supply mouths is configured such that upon proper operation of the rotary displacement machine fluid exiting from the supply mouth can reach either only the teeth of a single displacement gear wheel or only the teeth of such displacement gear wheels which rotate in the same direction. The invention furthermore relates to a housing for such a machine.
2. Description of the Related Art
Rotary displacement machines of the aforementioned kind can be used as pumps, i.e., as pressure generators, as well as motors, i.e. pressure consumers. When the rotary displacement machine is used as a motor, the conveyed fluid is generally a hydraulic oil. When the machine is used as a pump, different fluids can be conveyed, particularly, however, liquids such as oil, water and the like.
A rotary displacement machine with the aforementioned features is known from GB 2 161 861. A similar machine is also disclosed in FR 946 868.
In addition, from different documents, for example, DE 190 361 or DE 254 645, rotary displacement machines are known in which displacement gear wheels with external teeth or with means comparable to such displacement gear wheels (DE 190 361) are provided wherein, however, the supplied fluid does not reach either only the teeth of a single displacement gear wheel or only the teeth of such displacement gear wheels which rotate in the same direction.
Other rotary displacement machines are known, for example, from DE 195 33 215 A1 or DE 254 645 C1, in the form of gear pumps with two displacement gear wheels arranged in a housing, wherein one of the displacement gear wheels is driven by a drive gear wheel arranged in the housing.
From DE 196 38 332 A1 and DE 328 963 C1, gear pumps also having two displacement gear wheels arranged in a housing are known in which one of the displacement gear wheels is driven by a shaft extending from the housing.
Even though the known rotary displacement machines have been successfully used in practice for decades, at high rotary speeds problems result in regard to turbulences and cavitation which limit the efficiency and the applications of the machines and which have the effect that filling of the conveying chambers formed between the teeth of the displacement gear wheels is not optimal.
One basic problem are the displacement gear wheels provided in all of the aforementioned known rotary displacement machines because they must be supported in a complex way which also entails sealing problems.
SUMMARY OF THE INVENTION
Based on this, it is an object of the invention to provide a rotary displacement machine exhibiting easy running properties and being easily sealed and having a minimal weight. Moreover, turbulences in the supply area, i.e., in that area in which the medium to be conveyed is transferred from the supply channels into the conveying chambers, are to be substantially prevented and filling of the conveying chambers is to be improved.
The object is solved by a rotary displacement machine of the aforementioned kind in which the displacement gear wheels ere configured in the form of annular displacement gears rotatably supported about a stationary axle, respectively.
Instead of classical gear wheels, annular gears are used which are sometimes also referred to as gear rings, for conveying the fluid. In the following, these annular gears are therefore referred to as annular displacement gears.
By employing annular displacement gears sealing and bearing problems can be prevented and material can be saved so that also the weight can be reduced. Surprisingly, it was found that the rotary displacement machine embodied in this way also runs more quietly and more smoothly than the prior art rotary displacement machines of a comparable size. The annular gears can be supported in an especially simple way, and the shafts which are required for gear wheels are no longer necessary. Depending on the size and configuration of the annular gears, one bearing for each annular gear can be sufficient, while rotating shafts must be supported always on both ends.
In a rotary displacement machine embodied in this way, well-defined fluid flows result during operation while in the case of some of the rotary displacement machines known from the aforementioned prior art references, which have a right-handed displacement gear wheel and a left-handed displacement gear wheel, the fluid, after exiting the supply mouth, can be entrained by the right-handed as well as the left-handed displacement gear wheel so that disturbing vortices and cavitations are generated in the fluid flow. With the embodiment according to the invention, filling losses are reduced and the fluid can be supplied to the displacement gear wheels such that the impulse transmitted by the flowing fluid onto the displacement gear wheels does not unnecessarily brake the rotation of the displacement gear wheels.
Generally, a displacement machine embodied according to the present invention will have two meshing displacement gear wheels wherein each one of the displacement gear wheels has at least one supply mouth correlated therewith. However, it is also possible to provide, for example, four displacement gear wheels of which two are arranged on a common axis atop one another, respectively. In the case of such a machine, it can be sufficient to provide also only two supply mouths when these are configured such that the exiting fluid can reach only the displacement gear wheels arranged on the common axis.
A principal idea in regard to the rotary displacement machine is the corresponding guiding of the fluid flows whereby a significant improvement of the efficiency of the rotary displacement machine can be achieved.
In a constructively especially simple configuration of a rotary displacement machine, only one supply channel with a number of supply mouths is provided which number corresponds to the number of displacement gear wheels. Such a rotary displacement machine can be arranged in a housing of a simple configuration which must have only one inlet for introducing the fluid into the supply channel.
For certain applications it may however also be advantageous when several supply channels are provided; in particular, preferably as many as displacement gear wheels are provided. Each supply channel can then be provided with its own inlet so that such a machine, when it is used as a motor, can be operated with fluid coming simultaneously from different pressure sources and, when it is used as a pump, can suck in fluid from different reservoirs. The rotary displacement machine can then advantageously also be used as a mixer.
In a preferred embodiment, the displacement gear wheels are arranged in a housing in which the supply mouths and/or the supply channel/channels are formed by a corresponding shaping. It is then no longer necessary to provide special components and/or seals for forming the supply mouths and the supply channels.
In order to further improve the efficiency of a rotary displacement machine, in which two displacement gear wheels are arranged in a housing and mesh with one another in one area (meshing area), according to an advantageous embodiment of the invention at least one connecting channel is provided which connects directly or indirectly the meshing area with at least one conveying chamber formed between the teeth of a displacement gear wheel and the inner side of the housing.
Such a connecting channel enables the transfer of fluid from the meshing area into at least one conveying chamber formed between the teeth of a displacement gear wheel so that filling of the chamber is further increased. In the case of the previously known displacement pumps, connecting channels are partially also provided in the meshing area; however
Sagawe Gottfried
Sagawe Johann
Huckett Gudrun E.
Vrablik John J.
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