DE102016207678A1 - generator arrangement - Google Patents

Abstract

The invention relates to a power harvester assembly for energy harvesting in a bearing assembly by interaction with a rotating magnetic tone wheel (16), said power generator assembly comprising a power generator core (18) having a yoke piece (20) and a plurality of rod-shaped projection pieces (22a-22d, 24a-24c). which are arranged in a row and protrude from the yoke piece (20) in a direction generally perpendicular to a longitudinal direction of the yoke piece (20), the rod-shaped projection pieces (22a-22d, 24a-24c) being provided with end portions which each configured to form a gap with the magnetic tone wheel (16), the power generator core (18) further comprising at least one power generator coil (26a-26c) wound around at least one of the projection pieces (24a-24c). It is proposed that the projection piece (24a-24c) provided with the generator coil (26a-26c) has a body part (25a-25c) having a cylindrical shape fitted in the generator coil (26a-26c).

Description

Field of the invention

The invention relates to a power generator assembly for use in a bearing assembly and a bearing assembly comprising such a power generator assembly.

Background of the invention

The invention relates to a power harvester assembly for energy harvesting in a bearing assembly adapted to generate energy by relative movement of a bearing outer race to a bearing inner race. Bearings of various types are widely used in mechanical engineering and are sensitive components that need to be monitored in many applications.

In most applications today, the electronics used to monitor the bearing and associated sensors are powered by cables or from an external power generator. The document WO 2013/160035 however, discloses a power generating arrangement that is configured to be integrated into a bearing assembly, wherein the power generating assembly interacts with a magnetic wheel that includes a magnetically polarized material having alternating directions of polarization.

The power generator assembly is configured to provide electrical power to the monitoring electronics, which can therefore communicate with external devices via a wireless signal interface.

The power generating arrangement of the document WO 2013/160035 includes a power generator core and an electrical coil wound around a core of ferrite material. The rectangular coils are also more difficult / expensive to manufacture than the conventional cylindrical coils.

Summary of the invention

The invention seeks to provide a power harvester assembly for energy harvesting in a bearing assembly having a power generator core that is better in terms of manufacturing and cost.

The invention has its starting point in a power harvester assembly for energy harvesting in a bearing assembly comprising at least two bearing rings adapted to rotate relative to each other. The power generator assembly is configured to interact with a rotating magnetic tone wheel or impeller mounted on one of the bearing rings and made of a magnetic material having alternating directions of magnetization.

The power generator assembly comprises a power generator core having a yoke piece and a plurality of rod-shaped projection pieces arranged in a row and protruding from the yoke piece in a direction generally perpendicular to the longitudinal direction of the yoke piece.

In this context, the term "in principle rectangular" should in particular include configurations in which the protruding pieces project in a direction towards a common axis of rotation of the bearing, so that they are not completely parallel.

The rod-shaped projection pieces are provided with end portions adapted to form a gap to the tone wheel, respectively. The gap should be such that the magnetic field generated by the magnetic tone wheel can easily cross the gap without major losses. The gap usually has a width of about 1 to 2 mm, depending on the diameter of the end face of the cantilevers. A diameter of the end surface of the protrusion pieces facing the tone wheel is preferably larger by at least a factor of 5-10 than the width of the gap. A distance between the end portions of the cantilever pieces at least in principle corresponds to an integral multiple of one-half of a pitch of the magnetic tone wheel, so that the end portions of the adjacent cantilever pieces respectively face portions with opposite magnetization directions of the tone wheel. The core of the power generator further includes at least one power generator coil wound around at least one of the protrusion pieces of the core.

The invention proposes that the projection piece equipped with the generator coil has a body part with a cylindrical shape fitted in the generator coil. As a result, it is possible to use inexpensive cylindrical power generator coils available on the market. In a preferred embodiment of the invention, the cylindrical central core of the generator core is attached to a C-shaped or U-shaped steel member forming two lateral projections of the core and the yoke.

It is further proposed that the coil is a cylindrical coil, in particular that the coil is wound on a cylindrical bobbin, and then over the cylindrical body part of one of the rod-shaped projecting pieces is inserted. This facilitates the assembly of the power generating device, and allows the use of inexpensive prefabricated coils.

In a preferred embodiment of the invention, at least a part of the power generator arrangement, in particular the cylindrical body part, is made of ferrite.

The invention further proposes that the core of the power generator comprises a pole piece attached to an axial end face of the body part of the at least one projection piece equipped with the coil of the power generator, wherein a width of the pole piece increases with increasing distance from the yoke piece. Preferably, each of the end portions is provided with such a pole piece. The pole piece is preferably made of steel. The separation of parts with more complex geometries, depending on the circumstances and the specific application, of parts with simple geometry, facilitates the design and adaptation to the intended use. The shape and size of the end surface of the pole piece may be adapted to the shape and size of the magnetic poles of the tone wheel, while the body of the pole piece may conduct the magnetic flux to the preferably cylindrical body portion of the projection piece in a reliable manner with low losses. The projection pieces which are not equipped with a power generator coil may be formed with a rectangular cross section or any other suitable cross section.

It has surprisingly been found that it is possible to achieve a performance similar to that of a ferrite core when using a core made of a mixture of steel and ferrite parts. Accordingly, a brittle ferrite material can be avoided in sections with complex geometries, and core assemblies for the power generator can be manufactured using reliable and accepted technologies in many different forms at low cost. In particular, the shape of the steel parts may be such that losses of magnetic flux can be avoided while at the same time allowing the use of inexpensive coils and achieving a simple assembly process. The shape of the steel core can also be designed such that the excess current that is generated at high rotational speeds and exists in pure ferrite cores is reduced.

In a preferred embodiment of the invention, the core of the power generator comprises three cantilevers, the power generator coil being wound around a middle of these three cantilevers. The overall configuration of a longitudinal yoke with three protrusions has a similarity to the shape of the letter "E", so this design is referred to as "E" core. The magnetic fluxes through the two side protrusions of the generator core are combined in the central projection, and therefore result in sufficiently high induction currents in the coil.

In a preferred embodiment of the invention, the core of the power generator comprises a plurality of cantilevers which are not provided with a power generator coil, wherein between each pair of the latter cantilevers a projection piece equipped with a generator coil is arranged. The result is a comb-like structure with a coil of the power generator arranged on every second projection. The cantilevers, which are not equipped with a power generator coil, may be formed as a solid or composite steel piece with the yoke piece.

The invention makes use of the change in the magnetic flux density of the magnetic tone wheel, which may be connected to the moving ring of a bearing unit. Since the center pole may be cylindrical, the pole shoes may be attached to the center pole to conduct the flow. The use of ferrous steel rather than ferrite in at least some components makes the solution more robust and cost effective. An embodiment of the core with a higher output voltage and higher output strength can be achieved in a cost effective manner using a simple rectifier circuit.

The invention is particularly useful for railroad storage units which must be monitored very carefully while at the same time being exposed to extremely harsh environmental conditions. The power generator assembly may be embedded in a seal of the bearing unit so that electronic devices such as rectifiers may be protected to energy harvest the energy induced in the power generator coil.

A further aspect of the invention therefore relates to a storage unit, in particular a railroad railroad rail storage unit equipped with a power generator arrangement as described above, and a magnetic tone wheel mounted on a rotating bearing ring, as well as electronic components such as For example, rectifier circuits to the currents induced in the coil of the generator into electrical energy, and with means to store that energy, such as capacitors or accumulators. Furthermore, the bearing unit equipped with the power generator arrangement can be equipped with sensors and monitoring electronics which evaluate the signals of the sensors, and optionally with means for transmitting the measured signals in a wireless manner. The sensor signals may include rotational speeds that are preferably measured using the tone wheel, temperatures, vibrations, accelerations, or the like.

The foregoing embodiments of the invention, as well as the appended claims and figures, illustrate several characterizing features of the invention and specific combinations. One skilled in the art will readily be able to contemplate further combinations or subcombinations of these features in order to adapt the invention as defined in the claims to his or her specific requirements.

Brief description of the figures

1 is a schematic view of a bearing assembly with a power generator assembly according to the invention.

2 is a power generator core of a power generator assembly according to the invention in a side view.

3 FIG. 12 is a view of a protrusion piece of the power generator core according to FIG 2 , a power generator coil and a pole piece.

4 is a side view of a power generator core according to a second embodiment of the invention.

5 is a power generator arrangement according to one of 1 - 4 , which is mounted in a housing.

6 FIG. 14 is a view illustrating an assembling process of the power generator arrangement according to FIG 2 represents.

7 is a schematic view of the power generator assembly according to the invention in interaction with a magnetic tone wheel.

Detailed description of the embodiments

1 is a sectional view of a detail of a bearing assembly with an outer ring 10 , an inner ring 12 and a power generator assembly 14 attached to the non-rotating outer ring 10 of the bearing is attached. A magnetic tone wheel 16 is on the rotating inner ring 12 attached to the bearing assembly, which is designed as a double-row roller bearing for use in a railway application. The relative rotation of the inner ring 12 and the outer ring 10 results in relative rotation of the generator assembly 14 and the magnetic tone wheel 16 , A sealing system provides a seal of the gap between the two bearing rings 10 . 12 ready, and the magnetic tone wheel 16 is in engagement with an external labyrinth seal of the sealing system. The magnetic tone wheel 16 is made of a magnetic material with alternating polarization directions that are radially aligned. The magnetic tone wheel 16 may be made of a permanent magnetic material or of a magnetic composite material, such as plastic with embedded magnetic particles.

The core 18 the power generator in the power generator arrangement according to the invention 14 is in 2 shown in more detail. 2 shows a power generator core 18 in a so-called multiple E-core configuration, which is a comb-like structure with a rod-shaped yoke piece 20 and seven rod-shaped projecting pieces 22a - 22d . 24a - 24c having. Four of the overhang pieces 22a - 22d are equidistantly formed, and are in principle at right angles from the yoke piece 20 out. The length of the outermost of these overhang pieces 22a . 22d is slightly longer than the length of the middle 22b . 22c and the end surfaces are inclined or curved so that a gap of equal width exists between the end portions of the projection pieces 22a - 22d . 24a - 24c of the core 18 and the magnetic tone wheel 16 is trained. Another projection piece 24a - 24c that a coil 26a - 26c of the generator is between each pair of these four cantilevers 22a - 22d arranged, each integral with the Jochstück 20 are formed. As will be described in more detail below, the latter are protrusions 24a - 24c at the yoke piece 20 fastened by press-fitting or screwing or other suitable means, and comprise a cylindrical body part 25a - 25c made of ferrite or a pole piece 28a - 28c ,

The yoke piece 20 as well as the pole shoes 28a - 28c the cantilevers 22a - 22d . 24a - 24c of the generator core 18 are made of a ferrous steel that is easily workable while having a sufficiently high magnetic permeability.

3 shows in detail one of the Auskragungsstücke 24a of the core, that with a pole piece 28a and a power generator coil 26a Is provided. The projection piece 24a has a cylindrical body part 25a up in a middle hole of the Kitchen sink 26a is fitted around a bobbin 30 made of plastic or is equipped with plastic discs at their axial end surfaces. The pole piece 28a has a width with increasing distance from the yoke 20 increases until it reaches a width of the magnetic tone wheel 16 achieved, wherein a length of the end surface of the pole piece 28a in the circumferential direction of the tone wheel 16 smaller than the length of one of the magnetized parts of the magnetic tone wheel 16 in the circumferential or graduation direction. The pole piece 28a is formed as a separate piece of a ferrous steel and on the cylindrical body part 25a of the projection piece 24a attached by screwing, welding, gluing or other means.

Alternatively, the coil 26a directly on the body part 25a of the projection piece 24a be wrapped. The insulation to the yoke 20 and the pole piece 28a can be achieved by shims.

4 is another embodiment of the invention, which bears many similarities with the embodiments of the 2 and 3 shares, so that a description of identical features can be omitted here. The main differences are that the two side coils 26a . 26c of the power generator are arranged slightly lower than the middle coil of the generator, so that the distance between the generator coils and the magnetic Tonrad 16 , and therefore the height of the pole pieces in the radial direction is more or less identical. The curvature of the tone wheel 16 is due to the different widths of the yoke piece of the core 18 of the power generator compensated.

5 shows a sensor housing 32 that with the core 18 equipped with the power generator according to the invention.

6 shows the assembly process of the power generator core 18 according to 2 , The body parts 25a - 25c the cylindrical Auskragungsstücke 24a - 24c are with the pole pieces 28a - 28c fitted by screwing or gluing, and are in the center holes of the coils 26a - 26c the power generator, and this sub-assembly is then in holes in the radially inner surface of the Jochstücks 20 , between the fixed overhang pieces 22a - 22d . 24a - 24c , which have no power generator coils attached thereto, attached.

7 shows the arrangement in operation, ie in a magnetic engagement with the magnetic tone wheel 16 according to the invention.

In the test area for railroad bearings, the output voltage of the core is 18 of the power generator according to the invention 11 mV / rpm, which is sufficient to operate current sensor arrangements and wireless transmission interfaces. Measurements for correctly assembled cores 18 of the power generator according to the invention in railway applications show that the power output in a matched impedance is 75 mW, the power output with a capacitive coupling is 110 mW. This is especially true for voltage frequencies of 660 Hz, which are expected in the intended application. While at higher frequencies ferrite cores are superior in delivered voltage, it has surprisingly been found that the steel cores in this frequency range are comparable or even better. When charging a capacitor with a capacitive coupling optimized for 660 Hz, the output voltage of the core is 18 of the power generator according to the invention 16% higher than the output voltage of the well-known design.

The mixture of steel and ferrite components may help to balance the need for sufficient low frequency performance against the need to avoid excess power in the high frequency range.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2013/160035 [0003, 0005]

Claims (11)

Generator assembly for energy harvesting in a bearing assembly by interaction with a rotating magnetic tone wheel ( 16 ), wherein the power generator arrangement comprises a power generator core ( 18 ) with a yoke piece ( 20 ) and a plurality of rod-shaped projecting pieces ( 22a - 22d . 24a - 24c ), which are arranged in a row and from the Jochstück ( 20 ) in a direction generally perpendicular to a longitudinal direction of the Jochstücks ( 20 ), wherein the rod-shaped projecting pieces ( 22a - 22d . 24a - 24c ) are provided with end portions adapted to each have a gap to the magnetic tone wheel ( 16 ), the power generator core ( 18 ) at least one power generator coil ( 26a - 26c ), which is at least one of the Auskragungsstücke ( 24a - 24c ) is wound, characterized in that the with the power generator coil ( 26a - 26c equipped projection ( 24a - 24c ) a body part ( 25a - 25c ) having a cylindrical shape which enters into the power generator coil ( 26a - 26c ) is fitted. Power generator assembly according to claim 1, characterized in that at least a part of the power generator assembly is made of ferrite. Generator arrangement according to claim 2, characterized in that the body part ( 25a - 25c ) of the power generator coil ( 26a - 26c ) projecting piece ( 24a - 24c ) is made of ferrite. Power generator arrangement according to claim 3, characterized by comprising a pole piece ( 28a - 28c ), which at an axial end face of the body part ( 25a - 25c ) of the at least one with the power generator coil ( 26a - 26c ) projecting piece ( 24a - 24c ), wherein a width of the pole piece ( 28a - 28c ) with increasing distance from the yoke piece ( 20 ) increases. Generator arrangement according to claim 4, characterized in that the pole piece ( 28a - 28c ) is made of steel. Power generator arrangement according to one of the preceding claims, characterized by comprising at least three Auskragunsstücken ( 22a - 22d . 24a - 24c ), wherein the power generator coil around at least a middle of the at least three Auskragungsstücke ( 24a - 24c ) is wound. Generator arrangement according to one of the preceding claims, characterized in that the coil is a cylindrical coil. Generator arrangement according to one of the preceding claims, characterized in that the coil around a cylindrical bobbin ( 30 ) and then over the cylindrical body part ( 25a - 25c ) of the at least one of the rod-shaped projection pieces ( 24a - 24c ) is plugged. Power generator arrangement according to one of the preceding claims, characterized by comprising at least two projection pieces (not equipped with a generator coil) ( 22a - 22d ), each with the generator coil ( 26a - 26c equipped projection ( 24a - 24c ) between two projections (not equipped with a generator coil) ( 22a - 22d ) is arranged. Power generator arrangement according to claim 6, characterized in that the not equipped with a generator coil Auskragungsstücke ( 22a - 22d ) in one piece with the yoke piece ( 20 ) are formed. Bearing having at least two rotating rings adapted to rotate relative to each other, characterized by comprising a power generator arrangement according to one of the preceding claims and a magnetic tone wheel (US Pat. 16 ).

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