DE102015223254A1 - Adaptive seal assembly and bearing assembly with such a seal assembly - Google Patents

Abstract

The present invention initially relates to an adaptive sealing arrangement for the adaptive sealing of a first machine element (02) relative to a second machine element (03) rotatable about an axis (04). The sealing arrangement comprises a first disc (06) and a second disc (09) to be axially spaced from the first disc (06), wherein the two discs (06, 09) are to be fastened to the second machine element (03). One of the two disks (06, 09) comprises a permanent magnet, while the other of the two disks (06) comprises at least one electrical coil (08). At least one of the two discs (06, 09) is designed as an elastic sealing washer (06). The invention also relates to a bearing arrangement comprising the adaptive sealing arrangement according to the invention.

Description

Field of the invention

The present invention initially relates to an adaptive sealing arrangement for sealing a first machine element with respect to a second machine element rotatable about an axis. The invention also relates to a bearing arrangement comprising the adaptive sealing arrangement according to the invention.

Background of the invention

With rotating shafts with contacting seals, high friction losses occur at the location of the shaft against which the sealing component contacts, in particular at high rotational speeds or due to high pressure to maintain the seal. Therefore, the sealing member according to the prior art is constructed so that the frictional heat is kept as low as possible. To achieve this, the sliding sealing surface is made as narrow as possible. Despite narrow sealing surfaces, very high friction power densities can be generated at high pressure, which can result in combustion of the sealing lip. For this reason, the maximum circulation speeds and the maximum pressures for the individual elastomer seals are limited. Also, materials with a low coefficient of friction are used, in which a low friction power density is generated. Seals made of these materials, however, are more expensive.

From Faraday's experiments comes from the well-known construction of a unipolar generator, which is also known as Faraday generator. The one-piece Faraday generator consists of a rotating conductor disc, which is arranged in an axially aligned magnetic field and against which two stationary sliding contacts. The magnetic field is generated by a permanent magnet, which is arranged on the same axis as the conductor plate and rotates together with the conductor plate. Thus, unipolar induction is induction, although there is no relative movement between the magnet and the conductor disc.

Various adaptive sealing arrangements are known in which the degree of tightness is adaptable to desired conditions. In the DE 10 2007 045 819 A1 For example, a dynamic radial shaft assembly and method for using it with rotating or reciprocating shafts is described. The shaft assembly comprises an elastic sealing element and a shape memory alloy element. The shape memory alloy element is adapted to change a shape orientation and / or a module property as a function of a temperature change. Thus, the seal adaptation is temperature-dependent.

From the DE 10 2012 216 271 A1 a sealing element for a bearing is known which comprises a sealing body with a sealing seat and with a sealing lip. A contact surface is temperature-dependent adjustable to a mating surface with respect to surface pressure. Two plastics with different thermal expansion coefficients are used.

In the DE 10 2008 017 306 A1 is a sealing device with a sealing unit having an electroactive adjusting explained. By the electroactive adjusting element, a property of the sealing unit can be changed.

Object of the invention

The object of the present invention, starting from the prior art, is to provide an adaptive sealing arrangement in which wear phenomena are reduced by reducing the friction and whose sealing effect is adaptable. Furthermore, a bearing arrangement with such an adaptive sealing arrangement is to be provided.

Description of the invention

According to the invention, the object is achieved by an adaptive sealing arrangement according to the appended claim 1 and by a bearing arrangement according to the appended independent claim 9.

The adaptive sealing arrangement according to the invention serves for the adaptive sealing of a first machine element with respect to a second machine element rotatable about an axis. In one operating state, the second machine element rotates about the axis, it is irrelevant whether the first machine element is at rest or performs any rotation. The adaptive sealing arrangement comprises a first disc to be directly or indirectly attached to the second machine element. The first disc is at least rotationally fixed to the second machine element to be mounted so that it rotates in the operating state together with the second machine element. The adaptive sealing arrangement further comprises a second disc to be directly or indirectly attached to the second machine element. The second disc is to be mounted axially spaced from the first disc. The second disc is at least rotationally fixed to the second machine element to be mounted so that it rotates in the operating state together with the second machine element and the first disc. The two discs each have an axis that coincides with the axis of rotation described above so that the axes are identical. The first disk and the second disk preferably each have an annular basic shape as a flat hollow cylinder. According to the invention, one of the two disks comprises a permanent magnet which preferably has a magnetization oriented in the direction of the axis and preferably has a circular, particularly preferably an annular basic shape as a hollow cylinder as a magnetic disk. The other of the two discs comprises at least one electrical coil. The at least one electrical coil is formed by a spirally applied conductor or conductor loop, so that it comprises at least one turn. The at least one electrical coil is preferably short-circuited or at least loaded with an electrical resistance. At least one of the two disks is at least partially designed as an elastic sealing disk, while the other of the two disks forms a sealing reaction force disk. The elastic sealing washer is axially deflectable. In principle, the elastic sealing disk can be that of the two disks which comprises the permanent magnet or which comprises the at least one coil. In principle, the sealing counter-force disc may be that of the two discs which comprises the permanent magnet or which comprises the at least one coil.

The permanent magnet encompassed by one of the two disks penetrates the at least one coil of the other of the two disks with its magnetic field. As a result of the common rotation of the two disks, a current flows in the coil in the preferably short-circuited coil in accordance with the principle of the Faraday generator. As a result, an electromagnetic field is generated in the at least one coil. Depending on the polarity, there are attractive or repulsive magnetic forces between the magnetic field of the permanent magnet and the electromagnetic field of the at least one coil. These magnetic forces deform the elastic sealing washer according to the invention and deflect it in the axial direction. The preferred rigid counter-reaction disc absorbs these magnetic forces.

Depending on the embodiment, the sealing disk, either in the deflected state or in the non-deflected state, preferably abuts axially against a contact surface of the first machine element. The first machine element may comprise a thrust washer, on which the thrust surface is formed.

Depending on the embodiment, the sealing disk is preferably spaced axially from the contact surface, either in the deflected state or in the non-deflected state, so that no sealing effect or only a weak sealing effect in the respective state is achieved.

Thus, the sealing arrangement is adaptive, since the sealing effect also changes when changing from a stationary state to a rotating state, in which the two disks rotate simultaneously with the second machine element, or vice versa.

Due to the construction according to the invention, the friction occurring on the sealing disc is prevented during the rotation or at standstill depending on the embodiment, or generates an increased contact pressure. The higher contact force allows for increased sealing. Furthermore, the increased contact force prevents the escape of a fluid from the system. On the other hand, if there is a canceled sealing action, on the other hand a fluid, for example for lubricating the machine elements, can be introduced. In addition, there is no friction when canceled sealing effect, which is why wear is avoided. Thus, the seal assembly, especially the gasket, adapted to the prevailing operating condition. The adaptation of the seal can be changed depending on the rotational speed between the two machine elements. In particular, the contact pressure is dependent on the rotational speed of the second machine element or the two discs. Furthermore, the contact force can be influenced by the choice of the permanent magnet assembly, by the strength of the magnetization of the permanent magnet, by the distance between the two discs, by the number of coils and by the selection of the seal body material.

In preferred embodiments, the first disc is formed as the elastic sealing disc, the second disc, i. the Dichtgegenkraftscheibe, preferably rigid. Both discs are directly or indirectly rotationally fixed and close to the second machine element, at an axial distance from each other, attached. The second disc is particularly preferably formed by the permanent magnet. The second disc is particularly preferably formed by the permanent magnet in the form of the magnetic disc.

The preferred annular sealing washer has an elastic sealing body, which preferably consists of an elastomer. The elastic sealing body preferably forms the outer shape of the sealing washer.

The at least one electrical coil is preferably arranged in the sealing disk, so that the preferably rigid Seal counterforce disc comprises the permanent magnet. The at least one electrical coil is preferably arranged in the elastic sealing body of the sealing disk.

The one electrical coil or the plurality of electrical coils are preferably arranged spaced from the axis of the sealing disc.

The at least one electrical coil is preferably a spirally applied conductor, which is formed for example by a wound metallic wire. The conductor can also be realized by a spirally applied conductor on a printed circuit board. The conductor is preferably electrically isolated. The at least one electrical coil comprises at least one turn.

The one electrical coil or the plurality of electrical coils preferably each have a coil axis which is aligned parallel to the axis. Accordingly, the at least one coil is designed to generate a magnetic field with two poles, wherein a straight line connecting the two poles runs parallel to the axis.

The number of electrical coils is preferably at least two, more preferably at least four, and most preferably at least ten. The plurality of coils are preferably uniformly distributed about the axis.

In one electric coil or in the plurality of electrical coils, a ferromagnetic coil core is preferably arranged, which is preferably located in the coil axis. Preferably, the respective coil core is an iron core, which preferably has the shape of a cylinder or a cuboid. The coil core is preferably embedded together with the respective electrical coil in the elastomer of the seal body. The at least one electrical coil with its coil core forms an electromagnet.

The elastic sealing body is adapted to come to rest axially sealingly on the first machine element. In a preferred embodiment, the sealing body is designed to come to rest in axial sealing on the contact surface of the first machine element.

According to the invention, the elastic sealing body preferably comprises a circumferential sealing lip, which is axially aligned and is designed to come into contact with the abutment surface of the first machine element in the axial direction to contact. The distance between the sealing lip and the contact surface and / or the force with which the sealing lip is pressed onto the contact surface changes when the two disks change from a stationary to a rotating state or vice versa.

In an alternative embodiment, the sealing disc comprises the permanent magnet, which is preferably embedded in the elastic sealing body. In this case, the at least one coil is integrated in the preferably rigid sealing counter-power disc. Thus, the permanent magnet and the at least one electrical coil in the two discs are interchangeable.

According to the invention, the permanent magnet, which is preferably a disc magnet, has a magnetization in which preferably exactly two poles of the magnetization, namely a north pole and a south pole are distributed along the axis of the rotation. A straight line connecting the two poles lies in this axis or at least parallel to this axis. Preferably, the two poles are formed on the two side surfaces of the permanent magnet. Thus, at least a part of the magnetic field lines is arranged parallel to the axis. The axis of the permanent magnet, the axes of the two discs and the axis of rotation coincide, d. H. the named axes are identical. The already mentioned directions and the directions mentioned in the following, d. H. the axial direction and the radial direction are related to the axis of rotation of the second machine element, this axis also forming the axis of the permanent magnet and the two disks.

The first disc and the second disc are preferably axially spaced apart so that the magnetic forces occurring between the at least one electrical coil and the permanent magnet are aligned parallel to the axis.

In preferred embodiments of the invention, a reinforcement extending around the axis is integrated in the elastic seal body. The reinforcement serves for the mechanical reinforcement of the seal body; in particular for a tight fit on the second machine element. Preferably, the reinforcement has a rectangular or L-shaped cross-section. Preferably, the reinforcement consists of a metal.

In a preferred embodiment, one of the two discs sits on an axial extension of the other of the two discs. To attach the two discs on the second machine element, that of the two discs, which has the axial extension to attach directly to the second machine element, so that it also comes at the same time for the indirect attachment of the other of the two discs. This embodiment is preferably provided preassembled, ie that on the axial extension of the one both discs already the other of the two discs sits. Thus, a quick installation and replacement and accurate positioning of the seal assembly can be realized. Preferably, the sealing disc on the axial extension. Preferably, the sealing counterforce disc is seated on the axial extension. Preferably, the sealing body of the sealing washer on the axial extension.

In particular embodiments, the seal reaction disc is formed as a radial seal for sealing the first machine element from the second machine element. This radial seal is independent of the axial adaptive seal formed by the gasket. This radial seal preferably seals permanently. The adaptive property of the seal assembly is then that the permanently existing radial seal is temporarily supplemented by the axial seal.

The adaptive sealing arrangement according to the invention can be installed in various bearings, in particular in roller bearings. Fields of application of the adaptive sealing arrangement according to the invention are, for example, in industry, in particular in the automotive industry, but also in medical technology or in wind power plants. A wide range of uses is given because the adaptive seal assembly can be made in a wide range of sizes.

The bearing arrangement according to the invention comprises a first machine element and a second machine element rotatable about an axis. The bearing assembly serves to support the first machine element relative to the second machine element. It further comprises the adaptive sealing arrangement according to the invention. The first disc and the second disc are axially spaced from each other, tightly and non-rotatably mounted on the second machine element.

The bearing arrangement preferably comprises one of the described preferred embodiments of the adaptive sealing arrangement according to the invention. Preferably, the bearing assembly also has such features that are described in connection with the inventive adaptive seal assembly.

The bearing arrangement is designed such that upon rotation of the second machine element, the sealing disk is deflected axially to change from an axially sealing to a non-sealing state or vice versa. In the sealing state, the sealing disk, in particular the sealing lip of the sealing disk, preferably bears against the contact surface in an axially sealing manner.

In a preferred embodiment of the bearing arrangement according to the invention, the sealing disc, in particular the sealing lip of the sealing disc, arranged axially sealingly between the two machine elements in a stationary state of the bearing assembly, while at a rotation of the second machine element, the sealing disc, in particular the sealing lip of the sealing disc of a sealing Arrangement is removed.

In an alternative preferred embodiment of the bearing assembly according to the invention, the sealing disc, in particular the sealing lip of the sealing disc is axially sealed between the two machine elements during rotation of the second machine element, while the sealing disc, in particular the sealing lip of the sealing disc, in a dormant state of the bearing assembly of a sealing arrangement is removed.

The first machine element is preferably formed by a housing. The second machine element is preferably formed by a shaft. The two discs preferably sit firmly on the shaft, wherein a part of the housing serves as a contact surface. The housing has an opening with a preferably circular cross-section. The shaft is passed through the opening.

Of course, alternatively, the second machine element enclose the first machine element.

Brief description of the drawings

Further advantages and details of the present invention will become apparent from the following description of preferred embodiments, with reference to the accompanying drawings. Showing:

1 a perspective view of a first preferred embodiment of a bearing assembly according to the invention;

2 a sectional view of a second preferred embodiment of the bearing assembly according to the invention;

3 a sectional view of a third preferred embodiment of the bearing assembly according to the invention; and

4 a sectional view of a fourth preferred embodiment of the bearing assembly according to the invention.

Detailed description of the drawings

1 shows a perspective view of a section of a first preferred embodiment of a bearing assembly according to the invention 01 , The bearing arrangement 01 comprises a housing forming a first machine element 02 in which a shaft forming a second machine element 03 around an axis 04 rotatably mounted. The axis 04 thus forms the axis of rotation and is also a central axis of symmetry of the shaft 03 , The wave 03 is rotatable while the housing 02 rests.

The bearing arrangement 01 further comprises an annular sealing washer 06 which on the shaft 03 is rotatably attached. It comprises an elastic sealing body 07 made of an elastomer, which the outer shape of the sealing disc 06 certainly. The sealing washer 06 serves to seal between the shaft 03 and the housing 02 and protects an interior of the housing 02 against external influences.

In the seal body 07 is a variety of electrical coils 08 embedded. Furthermore, the bearing arrangement comprises 01 one on the wave 03 non-rotatably seated rigid magnetic disc 09 axially spaced from the sealing washer 06 is arranged. The magnetic disk 09 is permanently magnetized.

The magnetic disk 09 is annular and has a magnetization in the direction of the axis 04 is aligned. This axial magnetization has exactly two poles, namely a north pole N and a south pole S. A straight line for connecting the two poles is parallel to the axis 04 , The two poles are located on the two sides of the magnetic disk 09 ,

The seal body 07 the sealing washer 06 Tapered in a portion touching at an axial distance on the housing 02 abuts, creating a lateral sealing lip 11 is trained.

The spools 08 are in the direction of rotation about the axis 04 around equally distributed in the seal body 07 embedded. The spools 08 each have a coil axis (not shown), which are parallel to the axis 04 lies. On the coil axes of the coils 08 is each a coil core 12 placed. The coil core 12 is together with the respective electric coil 08 in the elastomer of the seal body 07 embedded.

In the seal body 07 is circumferential around the axis 04 a reinforcement 13 let in, which has a rectangular or L-shaped cross-section. The reinforcement 13 consists of a metal. The reinforcement 13 stabilizes the elastic seal body 07 and ensures a tight fit of the gasket on the shaft 03 ,

2 shows a sectional view of a second preferred embodiment of the bearing assembly according to the invention 01 , This embodiment is initially similar to the one in FIG 1 shown embodiment. Notwithstanding the in 1 embodiment shown, the elastic sealing body 08 on both sides in each case a circumferential recess 14 on which a material weakening of the seal body 08 represents and thus to increased mobility of the sealing lip 11 in the direction of the axis 04 leads.

In the 1 and 2 bearing arrangement shown 01 is intended for that wave 03 in the case 02 rotates. The on the wave 03 attached magnetic disk 09 rotates together with the shaft 03 and interspersed with their magnetic field in the gasket 06 integrated coils 08 , Due to a common rotation of the magnetic disk 09 and the sealing washer 06 with the wave 03 It comes equal to the principle of the Faraday generator for inducing a voltage in the coils 08 so in the shorted coils 08 in each case a current flows, whereby in each case an electromagnetic field is generated. Between the electromagnetic fields of the coils 08 and the magnetic field of the magnetic disk 09 interact magnetic forces. These magnetic forces cause the flexible seal body 07 especially in the area of its sealing lip 11 in the direction of the axis 04 is deflected because the rigid magnetic disk 09 withstands these magnetic forces.

In 1 and 2 has the magnetic disk 09 a north pole on her the sealing disk 06 facing side up. The windings of the coils 08 are designed so that the electromagnetic fields generated by the common rotation are aligned so that they are on the magnetic disk 09 aligned side of the gasket 06 have a south pole on the respective coil axis. It comes thus to attractive forces and to an axial deflection of the sealing lip 11 in the direction of the magnetic disk 09 , Thus lies the sealing lip 11 during the rotation of the magnetic disk 09 no longer axially sealing on the housing 02 at. The magnetic forces on the sealing lip 11 effective contact pressure lifted. Thus, there is an adaptive sealing effect, inter alia, by the number of coils 08 whose number of turns and their material can be influenced. This embodiment of the bearing arrangement according to the invention has a significantly reduced friction on the sealing lip in comparison to the prior art 11 on.

3 shows a sectional view of a third preferred embodiment of Inventive bearing arrangement 01 , This embodiment is initially similar to the one in FIG 2 shown embodiment. Notwithstanding the in 2 embodiment shown is the reinforcement 13 L-shaped, so that the seal body 07 axially extended and a seat for the magnetic disk 09 forms. This embodiment of the sealing unit comprising the sealing washer 06 and the magnetic disk 09 , can be pre-assembled and deployed. Thus, a quick installation and replacement of the seal assembly can be realized.

4 shows a perspective sectional view of a fourth preferred embodiment of the bearing assembly according to the invention 01 , This embodiment is initially similar to the one in FIG 2 shown embodiment. Notwithstanding the in 2 embodiment shown, the magnetic disk 09 an inverse magnetization direction, that is, the magnetic disk 09 a south pole on her to the sealing washer 06 has facing side. During a rotation of the magnetic disk 09 and the sealing washer 06 it comes to repulsive magnetic forces and thus to an axial deflection of the sealing lip 11 in one direction from the magnetic disk 09 path. This is the sealing lip 11 sealed to the housing 02 on and a sealing gap 16 which is in a dormant state of the shaft 03 between the sealing lip 11 and the housing 02 exists, is minimized or canceled. As a result, a sealing effect is achieved when the shaft 03 rotates. Notwithstanding the in 2 embodiment shown has the reinforcement 13 the sealing washer 06 an L-shaped cross section, wherein the reinforcement 13 only partially in the seal body 07 is integrated. A long side of the L-shaped cross-section of the reinforcement 13 is in the direction of the axis 04 away from the magnetic disk 09 aligned.

LIST OF REFERENCE NUMBERS

01

 bearing arrangement

02

 casing

03

 wave

04

 axis

05

06

 sealing washer

07

 seal body

08

 Kitchen sink

09

 magnetic disk

10

11

 sealing lip

12

 Plunger

13

 reinforcement

14

 circumferential recess

15

16

 sealing gap

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

• DE 102007045819 A1 [0004]
• DE 102012216271 A1 [0005]
• DE 102008017306 A1 [0006]

Claims (10)

Adaptive sealing arrangement for sealing a first machine element ( 02 ) with respect to one about an axis ( 04 ) rotatable second machine element ( 03 ), comprising one on the second machine element ( 03 ) to be attached first disc ( 06 ) and one on the second machine element ( 03 ) axially spaced from the first disc ( 06 ) to be attached second disc ( 09 ), one of the two discs ( 09 ) comprises a permanent magnet, wherein the other of the two discs ( 06 ) at least one electrical coil ( 08 ); and wherein at least one of the two discs as an elastic sealing disc ( 06 ) is trained. Adaptive sealing arrangement according to claim 1, characterized in that the disk comprising the permanent magnet is replaced by a magnetic disk ( 06 ) is formed, which has a magnetization in the axial direction. Adaptive sealing arrangement according to claim 1 or 2, characterized in that the at least one coil ( 06 ) each having a coil axis parallel to the axis ( 04 ) is aligned. Adaptive sealing arrangement according to one of claims 1 to 3, characterized in that by a common rotation of the second machine element ( 03 ) and the two discs ( 06 . 09 ) an electromagnetic field on the at least one coil ( 08 ), which in the direction of the axis ( 04 ) is aligned. Adaptive sealing arrangement according to claim 4, characterized in that the magnetic field of the permanent magnet and the electromagnetic field of the at least one coil ( 08 ) are formed so that an attractive force or a repulsive force between the two discs ( 06 . 09 ) consists. Adaptive sealing arrangement according to one of claims 1 to 5, characterized in that the sealing disc ( 06 ) is formed axially sealed. Adaptive sealing arrangement according to one of claims 1 to 6, characterized in that the sealing disc ( 06 ) an elastic sealing body ( 07 ) in which either the at least one coil ( 08 ) or the permanent magnet is arranged. Adaptive sealing arrangement according to one of claims 1 to 7, characterized in that the sealing disc ( 06 ) a circumferential sealing lip ( 11 ), which is adapted to come to the first machine element axially sealing to the concern. Bearing arrangement with a first machine element ( 02 ) and with one around an axis ( 04 ) rotatable second machine element ( 03 ), further comprising a sealing arrangement according to one of claims 1 to 8, wherein the two discs ( 06 . 09 ) axially spaced apart on the second machine element ( 03 ) are mounted. Bearing arrangement according to claim 9, characterized in that the first machine element by a housing ( 02 ) is formed, and that the second machine element by a shaft ( 03 ) is formed, wherein the two discs ( 06 . 09 ) firmly on the shaft ( 03 ) to sit.

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