DE102008021587B3 - Magnetic bearing for use in machine i.e. electrical machine, has superconducting material whose part is arranged between pairs of axially and radially magnetized secondary magnets provided for axially and radially magnetized primary magnets - Google Patents

Abstract

The bearing (3) has two bearing parts (7, 8) movable relative to each other around a rotation axis (4) based on magnetic forces acting between the parts. The part (7) has primary magnets (9, 9') that are designed as permanent magnets and arranged in form of a halbach array so that the magnets (9) are radially and axially magnetized. The part (8) has pairs of axially and radially magnetized secondary magnets (10, 10') that are provided for the respective axially and radially magnetized primary magnets, and a part of a superconducting material (11) is arranged between the magnets (10, 10'). An independent claim is also included for an electrical machine having two magnet bearings.

Description

• – wobei das Magnetlager einen ersten und einen zweiten Lagerteil aufweist, die auf Grund von zwischen dem ersten und dem zweiten Lagerteil wirkenden Magnetkräften relativ zueinander berührungsfrei um eine Drehachse drehbeweglich sind,
• – wobei der erste und der zweite Lagerteil auf Grund der Magnetkräfte, bezogen auf die Drehachse, relativ zueinander sowohl axial als auch radial stabil gehalten sind,
• – wobei der erste Lagerteil ausschließlich aus als Permanentmagnete ausgebildeten Primärmagneten besteht,
• – wobei die Primärmagnete in Form eines Halbacharrays angeordnet sind, so dass die Primärmagnete alternierend radial und axial magnetisiert sind und
• – wobei der zweite Lagerteil für jeden Primärmagneten jeweils mindestens einen als Permanentmagnet ausgebildeten Sekundärmagneten aufweist.

The present invention relates to a magnetic bearing,

• Wherein the magnetic bearing has a first and a second bearing part, which are rotatable relative to each other without contact about a rotational axis due to acting between the first and the second bearing part magnetic forces,
• - Wherein the first and the second bearing part due to the magnetic forces, relative to the axis of rotation, are held relative to each other both axially and radially stable,
• Wherein the first bearing part consists exclusively of primary magnets designed as permanent magnets,
• - Wherein the primary magnets are arranged in the form of a Halbacharrays, so that the primary magnets are alternately radially and axially magnetized and
• - Wherein the second bearing part for each primary magnet each having at least one formed as a permanent magnet secondary magnet.

The The present invention further relates to a machine, in particular an electric machine, the machine having at least two such Magnetic bearing and in the magnetic bearings, a shaft of the machine relative to a main body the machine is rotatably mounted.

Magnetic bearings are well known. For example, a magnetic bearing of the type mentioned in the US 4,072,370 A known.

• – wobei das Magnetlager einen ersten und einen zweiten Lagerteil aufweist, die auf Grund von zwischen dem ersten und dem zweiten Lagerteil wirkenden Magnetkräften relativ zu einander berührungsfrei um eine Drehachse drehbeweglich sind,
• – wobei der erste und der zweite Lagerteil auf Grund der Magnetkräfte, bezogen auf die Drehachse, relativ zueinander sowohl axial als auch radial stabil gehalten sind,
• – wobei der erste Lagerteil ausschließlich aus als Permanentmagnete ausgebildeten Primärmagneten besteht,
• – wobei die Primärmagnete in Form eines Halbacharrays angeordnet sind.

From the DE 44 36 831 C2 is a magnetic bearing known

• Wherein the magnetic bearing has a first and a second bearing part, which are rotatable relative to each other without contact about a rotational axis due to acting between the first and the second bearing part magnetic forces,
• - Wherein the first and the second bearing part due to the magnetic forces, relative to the axis of rotation, are held relative to each other both axially and radially stable,
• Wherein the first bearing part consists exclusively of primary magnets designed as permanent magnets,
• - Wherein the primary magnets are arranged in the form of a Halbacharrays.

at this magnetic bearing, the second bearing part comprises superconducting material, which is arranged in the same axial region as the primary magnets and with the primary magnets interacts.

• – wobei das Magnetlager einen ersten und einen zweiten Lagerteil aufweist, die auf Grund von zwischen dem ersten und dem zweiten Lagerteil wirkenden Magnetkräften relativ zueinander berührungsfrei um eine Drehachse drehbeweglich sind,
• – wobei der erste und der zweite Lagerteil auf Grund der Magnetkräfte, bezogen auf die Drehachse, relativ zueinander sowohl axial als auch radial stabil gehalten sind,
• – wobei der erste Lagerteil ausschließlich aus als Permanentmagnete ausgebildeten Primärmagneten besteht.

From the DE 692 25 318 T2 is a magnetic bearing known

• Wherein the magnetic bearing has a first and a second bearing part, which are rotatable relative to each other without contact about a rotational axis due to acting between the first and the second bearing part magnetic forces,
• - Wherein the first and the second bearing part due to the magnetic forces, relative to the axis of rotation, are held relative to each other both axially and radially stable,
• - Wherein the first bearing part consists exclusively of permanent magnets designed as a primary magnet.

at This magnetic bearing comprises the second bearing part with both the primary magnet cooperating secondary magnets as well as superconducting material associated with the primary magnet interacts.

From the JP 8 219 158 A , of the JP 8 296 647 A , of the JP 11 062 964 A and the JP 1 242 819 A Magnetic bearings are known which have a second bearing part, in which both superconducting material and other magnetic material contribute to the bearing effect.

• – positive Steifigkeit zur Stabilisierung eines Rotors (im Sinne eines beliebigen um eine Achse drehbaren Elements) im Arbeitspunkt,
• – erforderliche Tragkraft zur Aufnahme einer statischen Last (insbesondere der Gewichtskraft des Rotors) und
• – Dämpfungseigenschaften zur Beruhigung von Schwingungen.

Bearings of machines may alternatively be formed touching or non-contact. Non-contact bearings can be formed here in particular by active or passive magnetic bearings. The requirements for magnetic bearings are

• Positive stiffness for stabilizing a rotor (in the sense of any element rotatable about an axis) at the operating point,
• - Required carrying capacity for receiving a static load (in particular the weight of the rotor) and
• - Damping properties to calm vibrations.

A Variant of passive magnetic bearings are superconducting magnetic bearings. The advantage of superconducting magnetic bearings lies in the completely passive stabilization of the rotor and the associated reliability. adversely is the relatively low specific carrying capacity associated with such Storage is achievable. Passive magnetic bearing with superconducting material are therefore in the prior art only for relatively low machine weights used.

A Another variant of passive magnetic bearings are permanent magnetic Camp. Permanent magnetic bearings can, however, inherently do not have positive stiffness in all directions. At least one degree of freedom is always unstable. On the other hand, can be with permanent magnetic bearings forces generate that much larger than the forces Superconducting magnetic bearing are. The forces come in the order of magnitude of carrying forces, which can be reached with active magnetic bearings.

The The object of the present invention is a magnetic bearing to create that exclusively consists of passive components and still has a high load capacity so that the bearing is also designed for high loads is.

The The object is achieved by a magnetic bearing with the features of the claim 1 solved. An advantageous embodiment of he inventive magnetic bearing is the subject of the dependent Claim 2.

• – dass der zweite Lagerteil für jeden axial magnetisierten Primärmagneten jeweils ein Paar axial magnetisierter Sekundärmagnete aufweist und zwischen den Sekundärmagneten jedes Paares axial magnetisierter Sekundärmagnete jeweils ein Teil des supraleitenden Materials angeordnet ist und/oder
• – dass der zweite Lagerteil für jeden radial magnetisierten Primärmagneten jeweils ein Paar radial magnetisierter Sekundärmagnete aufweist und zwischen den Sekundärmagneten jedes Paares radial magnetisierter Sekundärmagnete jeweils ein Teil des supraleitenden Materials angeordnet ist.

The magnetic bearing according to the invention is characterized

• - That the second bearing part for each axially magnetized primary magnet each having a pair of axially magnetized secondary magnets and between the secondary magnet of each pair of axially magnetized secondary magnets is arranged in each case a part of the superconducting material and / or
• - That the second bearing part for each radially magnetized primary magnet each having a pair of radially magnetized secondary magnets and between the secondary magnet of each pair of radially magnetized secondary magnets is arranged in each case a part of the superconducting material.

in the As a rule, the second bearing part surrounds the first bearing part, based on the axis of rotation, radially outside.

The Task is further solved by a machine which has at least two such magnetic bearing, wherein in the magnetic bearings, a shaft the machine rotatably supported relative to a main body of the machine is. The machine can be designed in particular as an electrical machine. The axis of rotation of the magnetic bearing can in particular be horizontal.

Further Advantages and details will become apparent from the following description of exemplary embodiments. In a schematic representation:

1 schematically a machine and

2 to 4 possible embodiments of a magnetic bearing.

According to 1 a machine has a main body 1 and a wave 2 on. The wave 2 is over camp 3 relative to the main body 1 rotatably mounted, so that the shaft 2 around a shaft axis 4 is rotatable. The shaft axis 4 proceeds accordingly 1 horizontal. It could alternatively run differently, in particular vertically. The shaft axis 4 is with the axis of rotation of the magnetic bearing 3 identical.

As far as the terms "axial", "radial" and "tangential" are used below, they are always on the shaft or rotation axis 4 based. The term "axial" here means a direction parallel to the shaft axis 4 , The term "radial" means a direction which the shaft axis 4 orthogonal cuts. The term "tangential" means a direction at a constant radial distance about the shaft axis 4 around.

The machine points according to 1 an electric stator 5 and an electric rotor 6 on. The machine is thus designed as an electrical machine. However, the machine could also be designed as another machine, for example as a turbine or as a transmission.

The magnetic bearings 3 wise - see the 2 to 4 - a first bearing part 7 and a second bearing part 8th on. The second bearing part 8th surrounds here, based on the axis of rotation 4 , the first bearing part 7 radially outside. This embodiment is common, but not mandatory.

According to the 2 to 4 consists of the first bearing part 7 exclusively from primary magnets 9 . 9 ' , which are formed as permanent magnets. The primary magnets 9 . 9 ' are arranged in the form of a Halbach array. In a Halbach array, the primary magnets are 9 . 9 ' alternating radially and axially magnetized, being (with the exception of the two outermost primary magnets 9 . 9 ' ) to each primary magnet 9 . 9 ' two magnet magnets magnetized in opposite directions relative to each other 9 . 9 ' adjoin.

In the embodiment according to 2 has the second bearing part 8th for every primary magnet 9 . 9 ' one pair each of secondary magnets 10 . 10 ' on. Between the secondary magnets 10 . 10 ' every pair of secondary magnets 10 . 10 ' is each superconducting material 11 arranged. The superconducting material 11 In this case, it preferably consists of high-temperature superconducting material, ie of a material whose transition temperature is above 77 Kelvin.

In the embodiment according to 3 has the second bearing part 8th for every axially magnetized primary magnet 9 each a single axially magnetized secondary magnet 10 on. For every radially magnetized primary magnet 9 ' has the second bearing part 8th each a pair of radially magnetized secondary magnets 10 ' on. The superconducting material 11 is in the embodiment according to 2 between the secondary magnets 10 ' each pair of radially magnetized secondary magnets 10 ' arranged.

In the embodiment according to 4 has the second bearing part 8th for every radially magnetized primary magnet 9 ' each a single radial magnetised secondary magnet 10 ' on. For every axially magnetized primary magnet 9 has the second bearing part 8th each a pair of axially magnetized secondary magnets 10 on. Between the secondary magnets 10 each pair of axially magnetized secondary magnets 10 is each superconducting material 11 arranged.

In each of the embodiments of 2 to 4 has the second bearing part 8th thus for every primary magnet 9 . 9 ' in each case at least one secondary magnet 10 . 10 ' on, which is designed as a permanent magnet. Furthermore, the second bearing part comprises 8th in each of the embodiments of 2 to 4 superconducting material 11 that in the same axial area 12 is arranged like the secondary magnets 10 . 10 ' , The term "axial region" does not mean the axial extent of an individual of the secondary magnets 10 . 10 ' but the entire axial area between the two axially outermost secondary magnets 10 . 10 ' ,

Between the first bearing part 7 and the second bearing part 8th act in a conventional manner magnetic forces. Due to the magnetic forces are the first and the second bearing part 7 . 8th non-contact around the axis of rotation 4 rotatably. Furthermore, the primary and the secondary magnets 9 . 9 ' . 10 . 10 ' and the superconducting material 11 be matched to one another such that the first and the second bearing part 7 . 8th are held relative to each other both axially and radially stable. The superconducting material 11 acts in this case with the radially opposing primary magnet 9 . 9 ' together. The due to the permanent magnets 9 . 9 ' . 10 . 10 ' acting magnetic forces bring a large part of the load capacity of the magnetic bearing 3 on. The stability can be given in one direction (axial or radial) already due to the permanent magnetic forces. In the other direction (radial or axial) is the stability by the interaction of the primary magnets 9 . 9 ' with the superconducting material 11 causes.

The magnetic bearing according to the invention 3 is stable in all degrees of freedom, although it is purely passive. Nevertheless, the magnetic bearing according to the invention 3 Compact realizable and has a high load capacity.

Claims (6)

Magnetic bearing, - wherein the magnetic bearing has a first and a second bearing part ( 7 . 8th ), which due to between the first and the second bearing part ( 7 . 8th ) magnetic forces relative to each other without contact about a rotation axis ( 4 ) are rotatable, - wherein the first and the second bearing part ( 7 . 8th ) due to the magnetic forces, relative to the axis of rotation, are held relative to each other both axially and radially stable, - wherein the first bearing part ( 7 ) exclusively of primary magnets designed as permanent magnets ( 9 . 9 ' ), the primary magnets ( 9 . 9 ' ) are arranged in the form of a Halbacharrays, so that the primary magnets ( 9 ) are alternately radially and axially magnetized - wherein the second bearing part ( 8th ) for axially magnetized primary magnets ( 9 ) each have a pair of axially magnetized secondary magnets ( 10 ) and between the secondary magnets ( 10 ) of each pair of axially magnetized secondary magnets ( 10 ) in each case a part of the superconducting material ( 11 ) is arranged and / or - wherein the second bearing part ( 8th ) for each radially magnetized primary magnet ( 9 ' ) each have a pair of radially magnetized secondary magnets ( 10 ' ) and between the secondary magnets ( 10 ' ) of each pair of radially magnetized secondary magnets ( 10 ' ) in each case a part of the superconducting material ( 11 ) is arranged. Magnetic bearing according to claim 1, characterized in that, relative to the axis of rotation ( 4 ), the second bearing part ( 8th ) the first bearing part ( 7 ) surrounds radially on the outside. Machine containing at least two magnetic bearings ( 3 ), wherein in the magnetic bearings ( 3 ) a wave ( 2 ) of the machine relative to a base body ( 1 ) of the machine is rotatably mounted, - wherein the magnetic bearings each have a first and a second bearing part ( 7 . 8th ), which due to between the respective and second bearing part ( 7 . 8th ) magnetic forces relative to each other without contact about a rotation axis ( 4 ) are rotatably movable, - wherein in each case the first and the second bearing part ( 7 . 8th ) due to the magnetic forces, relative to the axis of rotation, are held relative to each other both axially and radially stable, - wherein the first bearing part ( 7 ) each exclusively of primary magnets designed as permanent magnets ( 9 . 9 ' ), the primary magnets ( 9 . 9 ' ) are each arranged in the form of a Halbacharrays, so that the primary magnets ( 9 ) are alternately radially and axially magnetized - wherein the second bearing part ( 8th ) for axially magnetized primary magnets ( 9 ) each have a pair of axially magnetized secondary magnets ( 10 ) and between the secondary magnets ( 10 ) of each pair of axially magnetized secondary magnets ( 10 ) in each case a part of the superconducting material ( 11 ) is arranged and / or - wherein the second bearing part ( 8th ) for each radially magnetized primary magnet ( 9 ' ) each have a pair of radially magnetized secondary magnets ( 10 ' ) having and between the secondary magnets ( 10 ' ) of each pair of radially magnetized secondary magnets ( 10 ' ) in each case a part of the superconducting material ( 11 ) is arranged. Machine according to claim 3, characterized in that, relative to the axis of rotation ( 4 ), the second bearing part ( 8th ) the magnetic bearing the first bearing part ( 7 ) surrounds radially on the outside. Machine according to one of claims 3 or 4, characterized that the machine is an electric machine. Machine according to one of claims 3 to 5, characterized in that the axis of rotation ( 4 ) the magnetic bearing ( 3 ) runs horizontally.