Devices using the “magnetocaloric effect” phenomenon to work as heat pumps have been known for quite some time. In these devices, materials which have the magnetocaloric effect are periodically exposed to a magnetic field. Under the influence of the magnetic field, the specific heat capacity or thermal storage capacity of the material changes.
By supplying and discharging media (gases, liquids), the device may be supplied with thermal energy, which can be transformed to a different temperature level and then be discharged. For the supply and discharge of media, pump systems are required. These pump systems must operate with low-maintenance and good efficiency. In the following, a pump system is disclosed which is particularly well suited for this application.
A distinctly disc-shaped, slow-running motor 4 is significantly more compact, quieter, lower-maintenance and more energy efficient. The motor 4 can be particularly advantageously designed as a multi-pole axial flux motor. In
The invention is accomplished with a pump arrangement for a device with a material having a magnetocaloric effect, the pump arrangement comprising: a conduit arranged in an area of the device through which conduit a liquid or gaseous heat transfer medium flows, a multi-pole axial flux electrical motor having a disc-shaped rotor rotatably, mounted on a shaft for rotation about an axis of rotation, and a disc-shaped stator, wherein the rotor is provided permanent magnets, wherein the stator is provided electrical coils, wherein the permanent magnets and coils are provided coaxially on the same plane relative to the axis of rotation, and a pump system at least partially integrated in a space formed between the rotor and the stator of the electrical motor, the pump system including an inlet and an outlet in communication with the conduit arranged in the area of the device through which a liquid or gaseous heat transfer medium flows and in communication with a tubular membrane provided on the stator, a cam provided on the rotor, the cam in contact with the tubular membrane, wherein rotational movement of the rotor relative to the stator causes the cam to pass periodically over the tubular membrane causing the liquid or gaseous heat transfer medium to be conveyed on the traveling wave principle from inlet to outlet.
Further details, features and advantages of the invention become apparent from the following description of exemplary embodiments with reference to the drawing, in which:
The gap between the rotor and stator is in this case a particularly good way to house one or more pumps for transporting the heat conducting medium.
Considering the optimal spatial and functional integration of the entire assembly and in view of the set drive characteristics with the low speed, it has been shown to be advantageous to make use of pump systems working on the traveling wave principle. Such pump systems are described for example in the European patent EP 1317626 B1.
Similarly, further, in particular concentric, arrangements for other circuits are conceivable and possible.
If a motor of a different design, for example by the internal rotor principle is used, the considerations are analogous between two plane-parallel plates or between respective radial hollow spaces between an inner and an outer wall of two cylindrical assemblies in or on the magnetocaloric unit.
In particular, it may be provided that, to improve efficiency of the arrangements, measures may be taken to reduce the friction and in particular between the membrane 11, 14 and the cams 10, 15. To that extent, the already low friction be further improved by the provision of rollers or by improving the sliding property—for example by coating the membrane 11, 14 respectively or the cams 10, 15.
The disclosed embodiments of the invention can be combined. They are each an example, of which individual features of the embodiments by themselves are or may be essential to the invention. In addition, the pump system is merely exemplary housed in the gap between the rotor and the stator. Basically, the pump system can be arranged between any relatively moving components of the pump assembly or the drive unit. Further, the motor can be positioned to the side of the assembly or be integrated within the assembly at any point. In this respect, there results an integrated implementation with small space.
The invention is particularly directed to a pump arrangement comprising a device with a material having a magnetocaloric effect, a conduit arranged in the area of the device through which a liquid or gaseous heat transfer medium flows, and a pump system operating on the traveling wave principle, preferably characterized in that the pump system is provided spatially integrated into the working unit, characterized in that the working unit has a rotating working electrical motor having a rotor and a stator and that the pump system is at least partially integrated in a space formed between the rotor and the stator of the electrical motor, and/or characterized in that means are provided for periodically providing a magnetic field.
The invention is also particularly direct to a method for conveying a heat conducting medium through an arrangement with a material having the magnetocaloric effect, comprising rotationally operating, at a rotational frequency in the range of 0.2 Hz to 20 Hz, preferably in the range of 1 Hz to 10 Hz, a pump system operating on the traveling wave principle and conveying the heat conducting medium, particularly characterized in that the material which has the magnetocaloric effect is periodically subjected to a magnetic field, and use of a pump system operating according to the principle of traveling wave for the promotion of a heat conducting medium through an arrangement with a material having a magnetocaloric effect and which is periodically exposed to a magnetic field.
Number | Date | Country | Kind |
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10 2013 105 288.6 | May 2013 | DE | national |
Number | Date | Country | |
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Parent | 14787045 | Oct 2015 | US |
Child | 16157570 | US |