VANE PUMP
A vane cell pump with a rotor (3) rotatably mounted in an adjustable stroke ring (1) and driven by a drive shaft (2) and with several vanes (4) is proposed, which vanes are mounted in a radially displaceable manner in radially running slots (12) of the rotor (3) and are subjected to rear vane chamber pressure. In accordance with the invention, it is provided that at least one forced guide element is allocated to one vane (4) for the radial movement of the vane (4) in such a manner that the forced guide element is integrated into the rotor (3) and/or into the drive shaft (2) without any effect on installation space.
The present invention relates to a vane cell pump in accordance with the type more specifically described in the preamble of claim 1.
Mechanical vane cell pumps with adjustable stroke rings are, for example, sufficiently known. With such vane cell pumps, a pressurization of the rear vane chamber is provided, in order to, in ongoing operation, subject the respective vanes to rear vane chamber pressure in such a manner that they are moved radially outwards. However, upon the start of the vane cell pump, the pump pressure initially must be built up, such that no rear vane chamber pressure is initially present. In addition, at low ambient temperatures, the problem arises that, due to the friction conditions, the vanes do not independently extend into the joining gap, and thus no pumping pressure can be generated.
As such, so-called “forced guides” are provided with vane cell pumps. For example, a forced guide ring can be provided in a radially inward manner at the rotor for this purpose, such that this additional component mechanically forces out the vanes. However, due to the radial dimensions of the forced guide ring, an additional need for radial installation space arises, since the forced guide ring is inserted radially inward. In order to obtain the same sealing conditions as with a vane cell pump without a forced guide ring, when viewed radially, a larger installation space is thus required. Otherwise, there is a poorer hydraulic degree of efficiency.
The present invention is subject to the task of proposing a vane cell pump of the type described above, with which a forced guide is ensured without a loss of efficiency and without an additional need for installation space.
In accordance with the invention, this task is solved by the characteristics of claim 1. Additional advantages and advantageous embodiments arise from the subclaims and the description along with the drawings.
Thus, what is proposed is a vane cell pump with a rotor rotatably mounted in an adjustable stroke ring and driven by a drive shaft, with several vanes that are mounted in a radially displaceable manner in radially running slots of the rotor. The vanes are subjected to rear vane chamber pressure, whereas at least one forced guide element is allocated to one vane for the radial movement of the vane in such a manner that the forced guide element is integrated into the rotor and/or into the drive shaft without any effect on installation space.
In this manner, the existing installation space of the rotor and the drive shaft is used to accommodate the forced guide element without any effect on installation space. The integration means that the forced guide element radially passes through the drive shaft and/or the rotor at least in sections.
Thus, with the vane cell pump in accordance with the invention, suction performance is ensured, and losses of efficiency and expansions of installation space are thus prevented in an advantageous manner.
In accordance with one possible embodiment of the present invention, it can be provided that two vanes are coupled with each other through the forced guide element radially passing through the drive shaft and running in sections in the rotor. A rigid or even a non-rigid coupling rod may be provided as a forced guide element.
Upon the use of a rigid coupling rod that is designed to be structurally simple, the forcibly guided vanes are arranged opposite to each other. This ensures that if one of the vanes is retracted, the other is guided radially outwards, in order to build up corresponding pump pressure immediately upon starting the pump. Thus, with the vane cell pump in accordance with the invention, starting performance is generally optimized, without increased leakage occurring due to the reduced length of the axial gap.
With non-opposing vanes, non-rigid coupling rods, such as articulated coupling rods or the like, can be used for forced guidance. An articulated coupling rod includes, for example, a first rod element and a second rod element, which are in an operative connection with each other in an articulated manner. As the articulated connection, a sliding block (for example), but also other structural solutions, can be provided. In this manner, forced guides for vane cell pumps with asymmetrical vanes arrangements are easily possible.
In accordance with an additional embodiment, it is also conceivable that only one vane is forcibly guided. This design is particularly suitable for double-stroke vane cell pumps.
For example, for this purpose, a spring-loaded piston element arranged in a guide groove running radially through the drive shaft is provided as the forced guide element; this is in operative connection with a coupling rod on the rotor side for the forced actuation of the associated vane. With this possible design, the forced guide element is virtually integrated into the drive shaft and partly integrated in the rotor.
Another type of design may provide that a spring-loaded piston element guided into the radially running slot of the associated vane of the rotor is provided as the forced guide element; this is in operative connection with the vane on the side turned away from the spring element. With this design, the forced guide element is integrated only into the rotor.
The present invention is further described below with reference to the drawings. The following is shown:
In
A second possible embodiment is shown in
The first rod element 6 and the second rod element 7 are, at least in sections, guided into the respectively assigned slot 12 of the rotor 3, whereas the ends of the rod elements 6, 7 turned towards the sliding block 8 are guided into the guide groove 9 of the drive shaft 2. The sliding block 8 is guided into a guide groove 9 running through the drive shaft 2. The respective longitudinal axis of the rod elements 6, 7 are aligned orthogonally with respect to the facing surfaces of the sliding block 8. For example, the associated surfaces of the sliding block 8 are designed to be spherical. Thus, changes in length can be compensated by different contact positions.
In
Finally,
- 1 Stroke ring
- 2 Drive shaft
- 3 Rotor
- 4 Vane
- 5 Rigid coupling rod
- 6 First rod element
- 7 Second rod element
- 8 Sliding block
- 9 Guide groove
- 10,10A Piston element
- 11 Piston element
- 12 Slot
- 13,13A Spring element
- 14 Annular channel
- 15 Adjusting spring
- 16 Pivot point
Claims
1. Vane cell pump with a rotor (3) rotatably mounted in an adjustable stroke ring (1) and driven by a drive shaft (2), and with several vanes (4), which are mounted in a radially displaceable manner in radially running slots (12) of the rotor (3) and are subjected to rear vane chamber pressure, characterized in that at least one forced guide element is allocated to one vane (4) for the radial movement of the vane (4) in such a manner that the forced guide element is integrated into the rotor (3) and/or into the drive shaft (2) without any effect on installation space.
2-12 (canceled)
Type: Application
Filed: Dec 16, 2015
Publication Date: Jun 23, 2016
Inventors: Thilo Schmidt (Meckenbeuren), Timothy Rose (Oberried)
Application Number: 14/970,709