The present application claims priority to and all the benefits of German Patent Application No. 20 2014 005 520.3, filed on Jul. 8, 2014, which is hereby expressly incorporated herein by reference in its entirety.
1) Field of the Invention
The invention relates to a rotary vane pump for generating a vacuum, having a pump housing that delimits a pump chamber, having a rotatable pump rotor in the pump housing, and having at least one vane supported in the pump rotor that can be displaced radially, for dividing the pump chamber.
2) Description of the Related Art
Pumps of this type are known in a variety of forms from the prior art, e.g., from EP 2 002 084 B1, EP 1 931 879 B1 or DE 29 38 276 A1.
Depending on the use of such a rotary vane pump, a drive may be provided for driving the pump rotor. The object of the invention is to further develop a rotary vane pump that can be driven appropriately, and in particular such that it takes up comparatively less structural space.
This objective is achieved in that an electric drive for driving the pump rotor is provided, wherein the electric drive has a motor stator and a motor rotor, and in that the motor stator and the motor rotor radially encompass the pump housing. A rotary vane pump can be provided with this assembly that is very compact. In particular, because the motor stator and motor rotor are disposed radially around the pump housing, it is conceivable to drive the pump rotor directly, without an intermediate gearing, from the motor rotor, or, respectively, to design the two rotors such that they are rotationally coupled.
It is advantageous when the pump rotor passes through the pump housing in an axial direction, for the rotational coupling with the motor rotor. A drive section of the pump rotor may be provided thereby that passes through the pump housing.
Furthermore, it is advantageous when the motor stator is non-rotatably disposed about or on the pump housing, and when the motor rotor is disposed on the side of the motor stator facing away from the pump housing. This results in a comparably compact construction. The pump housing can be provided thereby such that the motor stator is disposed in a non-rotatable manner. The motor stator thus encircles, in an annular manner, the pump housing. The motor rotor, conversely, is provided radially on the outside, in relation to the stator, and likewise preferably has an annular section encircling the motor stator.
In order to rotatably couple the motor rotor to the pump rotor, it is advantageous when the motor rotor comprises a rotational link covering the motor stator and the pump housing, which is rotatably coupled to the pump rotor in the region of its rotational axis. As a result, the rotational movement of the motor rotor can be transferred to the pump rotor in a suitable manner.
In another embodiment of the invention, the motor rotor is rotatably disposed between the pump housing and the motor stator. The motor stator can be non-rotatably disposed thereby in an overall housing. The motor stator can likewise be designed in an annular manner, and radially encompass the pump housing. An annular gap is then provided between the pump housing and the motor stator, in which the motor rotor is then provided between the pump housing and the motor stator. This also results in a comparatively compact construction.
It is also advantageous with this embodiment when the motor rotor comprises a rotational link that covers the pump housing, which is rotatably coupled to the pump rotor in the region of its rotational axis.
The rotational link is preferably designed in the shape of a bell, wherein the shell of the bell radially encompasses the pump housing and, if applicable, the motor stator. The rotational link is then preferably rotatably coupled directly to the pump rotor in the region of the rotational axis.
Preferably, there are permanent magnets, which can have coils that can be supplied with electrical current, provided on the rotational link, that interact with the motor stator.
An overall housing is provided, that accommodates the electric drive and the pump housing, which can have a housing floor and a housing shell. The overall housing fully encapsulates, in particular, the electric drive and the pump housing thereby.
The pump chamber is open toward the housing floor thereby, such that the housing floor, together with the pump housing, delimits the pump chamber. The housing floor can be designed in the manner of a cap thereby.
The housing shell can have a casing section and a cover section, wherein the casing section radially encompasses the motor stator, the motor rotor and the rotational link, wherein the cover section covers, axially, the motor stator, the motor rotor and the rotational link. The housing shell can be designed, on the whole, in the manner of a cap, such that when the housing shell is placed on the housing floor, a closed overall housing is obtained on the whole.
The pump rotor can be designed such that its end facing the housing floor is rotatably supported in the housing floor, and its end facing away from the housing floor is rotatably supported in the pump housing. The pump housing as such can be attached to the housing floor by fasteners, such as screws, in particular. Depending on the embodiment, the motor stator can be non-rotatably disposed on the pump housing or on the housing floor.
Furthermore, it is advantageous when the vacuum side of the pump chamber is connected to a vacuum connection, via a pressure channel provided, in particular, in the housing floor, and/or when the pressure side of the pump chamber is connected to a pressure connection, via a pressure channel provided, in particular, in the housing floor. Preferably, there are thus two pressure channels provided in the housing floor, one for the vacuum connection, and one for a pressure connection. It is conceivable, in particular, that the housing floor is provided with a recess for the vacuum connection, wherein a check valve can be provided on or in the vacuum connection.
It is advantageous thereby when the housing floor, the pump housing, the rotor and/or the at least one vane are made of plastic.
Furthermore, such pumps may be used in dry operation, as well as for an operation with a minimum of lubrication, thus distinguishing them from previous pumps that have been driven electrically.
Further details and advantageous designs of the invention can be derived from the following description, in which two exemplary embodiments of the invention shown in the figures are described and explained in greater detail, wherein:
The rotary vane pump 10, 60 shown in
A pump housing 22 that delimits a pump chamber 20 can be clearly seen in the sections illustrated in
As is likewise clear from
An electric drive is provided in the overall housing 12 for driving the rotor 24, which comprises a motor stator 36 and a motor rotor 38. The motor stator 36, which comprises coil windings 40, is non-rotatably disposed in the radial outer surface of the pump housing 20. The motor rotor 38 radially encompasses the motor stator 36 thereby, and rests on the side of the motor stator 36 facing away from the pump housing 20. Permanent magnets 42 are provided on the inner surface of the rotor 38 facing the motor stator 36, which interact with the stator 36, or its windings 40, respectively, in order to rotate the rotor when the rotary vane pump 10 is in operation.
As is likewise clear from
The housing shell 14 runs substantially parallel to the rotor 38, or rotational link 44, as is clear form
It is clear from the cross-sectional view of
A bore-hole is provided on the pressure side of the pump chamber 20, not shown in the figures, in the housing floor, through which air can be suctioned off when the rotary vane pump 10 is in operation.
In the second embodiment of a rotary vane pump 60 shown in
The embodiment 60 according to
The invention has been described in an illustrative manner. It is to be understood that the terminology which has been used is intended to be in the nature of words of description rather than of limitation. Many modifications and variations of the invention are possible in light of the above teachings. Therefore, within the scope of the appended claims, the invention may be practiced other than as specifically described.
Number | Date | Country | Kind |
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20 2014 005 520.3 | Jul 2014 | DE | national |