DE102008017667A1 - Bearing with a grounded, rotatable bearing ring - Google Patents

Abstract

The invention relates to a bearing with a stationary bearing body (6) and a rotatably mounted bearing body (1) assigned thereto, which is at least partially looped around by a drive belt (8). The grounding of the rotatably mounted bearing body (1) according to the invention via the drive belt (8) (Fig. 1).

Description

The The invention relates to a bearing with at least one stationary each Bearing body and associated with this, rotatably mounted, grounded bearing body, at least partially by a Drive belt is looped.

camp of this type are generally used for the rotatable storage of machine and structural parts and z. B. as rolling bearings, Magnetic bearings or air bearings may be formed. Is there a requirement that the drehbren bearing bodies are grounded, for example to the electromagnetic compatibility (EMC) of rotatable Ensuring machine or structural parts becomes common between the two bearing bodies an electrically conductive current bridge intended. This current bridge provides a connection of the rotatable bearing body with the stationary bearing body which can usually be grounded in a simple way or od by its installation in a machine housing. Like. anyway is grounded.

Consist the bearings of rolling bearings and both the bearing body as well as between them rolling elements from a good electrically conductive material, in particular steel, then the rolling elements themselves form the required Current bridge. This possibility is eliminated if the rolling elements turn out less good or not at all conductive materials are to be produced. Also an intense one Lubrication of bearings will adversely affect the use of the bearings Rolling elements as current bridges out, because especially at higher speeds between the bearing bodies and the rolling elements not negligible Form lubricating oil films, which act electrically insulating and prevent direct metallic contact. It is therefore has already been tried, the lubricating oil with electrically conductive To provide particles to its electrical conductivity but this measure requires so far always a compromise between good conductivity with reduced lubrication on the one hand and good lubrication with reduced Conductivity on the other hand.

To avoid this disadvantage, numerous means have become known, by means of which current bridges between the bearing rings of rolling bearings can be produced without involvement of the rolling elements. Such means exist for. B. from wavy, electrically conductive spring wire elements which are inserted into outer circumferential grooves of inner bearing rings, in the installed state abut against inner lateral surfaces of outer bearing rings and thereby form a current bridge (eg. DE 101 10 067 A1 ). It is also known to provide the bearings on at least one side with seals which simultaneously act as current bridges (eg. U.S. Patent 4,856,916 . DE 198 24 022 A1 . DE 299 16 854 U1 ). Such arrangements are used primarily also the purpose of reducing the passage of current through the rolling elements of rolling bearings, which in electrical machines such. B. vehicle engines or electric generators or od as a wheel bearing of trains. Like. Be used because in these applications there is a risk that the rolling elements are damaged by excessive currents and / or as well as the inner or outer bearing body subject to undesirable corrosion ,

The Application of rolling bearings is because of the associated Friction and for other reasons particularly undesirable, if it is a device with fast rotating parts, as this z. B. applies to medical scanner systems. Although medical scanner systems have so far been consistently using roller bearings equipped, but their application is up to speeds limited to about 200 rpm.

at higher speeds is for the reasons above a reliable grounding via the rolling elements no longer possible or only with expensive additional equipment to reach. Therefore, for such applications is the use of non-contact bearings such. B. magnetic or Air bearings desirable, quite well for speeds Up to 300 rpm and more are suitable. In such camps is a Grounding of the rotatable bearing bodies via current bridges of the type mentioned poorly or not at all possible, because this is a mechanical contact with the two bearing bodies make necessary and thereby generate friction caused by the Application of magnetic or air bearings should just be avoided.

outgoing From this prior art, the invention is the technical Problem underlying the camp of the type described above in such a way that the grounding of the rotatably mounted bearing body does not over a current bridge, which also mechanical with the stationary Bearing body connects, must be made and also at high speeds sure work.

Solved This problem is inventively characterized in that the rotatable bearing body over the drive belt is grounded.

The Invention has the advantage that the stationary Bearing body for the grounding of the rotatably mounted Bearing body no longer needed regardless is, whether the camp z. B. as rolling, magnetic or air bearings is trained. It is also advantageous that the bearings with high Circumferential speeds can be operated. Furthermore arise for the inventive Grounding low production and maintenance costs.

Further advantageous features of the invention will become apparent from the dependent claims.

The The invention will be described below in conjunction with the accompanying drawings explained in more detail in exemplary embodiments. Show it:

1 schematically the structure of a bearing according to the invention; and

2 and 3 two embodiments of inventive drive belt used for grounding.

1 shows an inventive bearing on the example of a medical scanner, a rotatably mounted, here hollow cylindrical bearing body 1 receives, the z. B. may have an inner diameter of 500 mm and more. On an inner wall of the bearing body 1 are a z. B. trained as an X-ray tube transmitter head 2 and a diametrically opposed receiver (detector) 3 assembled. Near a rotation axis 4 of the bearing body 1 is an object to be examined 5 fixedly arranged. For the purposes of the invention, details of the illustrated scanner, the various known scanner types or others, on the rotatable bearing body 1 mountable machine or structural parts are not essential, can be dispensed with the description of further details.

The rotatable bearing body 1 in the exemplary embodiment is a rotatably mounted outer ring, which is mounted on a stationary arranged, designed here as an inner ring bearing body, by means of schematically illustrated rolling elements 7 coaxially supported on the outer surface of the inner ring and forms a rolling bearing with this.

To drive the rotatable bearing body 1 serves a schematically illustrated drive belt 8th at least partially on the one hand around an outer shell of the bearing body 1 and on the other hand, a pulley 9 od. Like. Is laid. The pulley 9 is on a parallel to the axis of rotation 4 arranged drive shaft 10 attached, for example, the output shaft of a drive motor 11 is. When the drive motor is switched on 11 therefore rotates the rotatable bearing body 1 around the axis of rotation 4 and the stationary bearing body 6 , Alternatively, the drive shaft 10 also directly from the drive belt 8th be entwined, ie the pulleys 9 absence.

The bearing body 6 is, for example, with a drive motor, not shown 11 receiving housing firmly connected and like this preferably consists of a highly electrically conductive material, in particular metal. If the housing therefore via a schematically indicated line 12 earthed, then automatically the stationary bearing body 6 grounded. Pass the rolling elements 7 and the rotatable bearing body 1 also made of electrically highly conductive materials, then cause the rolling elements 7 automatically a grounding of the rotatable bearing body 1 ,

For the reasons explained above, the quality of such grounding is not always sufficiently good. In particular, in cases where high speeds are desired, therefore, additional measures must be taken. Lack the rolling elements 7 how this z. B. applies to air or magnetic bearings, then is a safe and frictionless grounding of the rotatable bearing body 1 not possible yet.

According to the invention is therefore proposed, the rotatably mounted bearing body 1 over the drive belt 8th to ground. For this purpose, the drive belt 8th preferably completely or partially electrically conductive, which is possible in several variants.

A first variant is the drive belt 8th completely made of an electrically conductive material. Because the drive shaft 10 usually consists of an electrically conductive material and the drive motor 11 and a machine housing od. Like. Already grounded anyway, are therefore also the drive belt 8th and the rotatably mounted bearing body 1 at ground potential. Same thing if the drive belt 8th not directly the drive shaft 10 but on this fixed, also made of an electrically conductive material pulley 9 at least partially entwined. Is that from the drive motor 11 grounding caused insufficient forth, may alternatively or additionally be provided, the drive shaft 10 a grounded, fixed slip ring 14 to assign them to above ground potential.

A second variant of the invention is the drive belt 8th from a base material that does not need to be electrically conductive, and at least one with the rotatable bearing body 11 and the pulley 9 To be provided in contact with the inside continuous with an electrically conductive filler. For this purpose, the base material z. B. made of rubber or a plastic and are made electrically conductive with a wholly or partially made of carbon filler.

According to a further variant of the invention, which is considered to be the best so far, contains a conventional drive belt on the rotatable bearing body 1 and the drive shaft 10 or the pulley 9 facing inside one in it incorporated or formed on the inside, in the longitudinal direction continuous, electrically conductive layer 15 ( 2 ), which extends over the entire width or only over part of the width of the drive belt 8th can extend. This layer 15 can z. B. consist of an electrically conductive fabric z. B. contains metal and / or carbon fibers or is made from these.

3 Finally, shows an embodiment with a drive belt 8th on a rotatably mounted bearing body 1 and the pulley 9 facing inside 8a has a conical cross section and with this in a corresponding conical circumferential groove 16 the pulley 9 intervenes. In this case, the electrically conductive layer z. B. in at least one, due to the cone shape obliquely extending side wall of the drive belt 8th be arranged as in 3 through layers 15a . 15b is indicated. In addition, especially after 3 manufactured drive belts 8th be formed at least on its inside as a toothed belt, in which case the outer shell of the rotatable bearing body 1 and the pulley 9 are provided with trained educations.

The invention is not limited to the described embodiments, which can be modified in many ways. This applies in particular to the type of warehouse used in individual cases. Instead of the 1 apparent rolling bearing z. B. be provided a static or dynamic air bearing or a magnetic bearing.

In this case, the rolling elements are missing 7 , and instead, z. As a stationary, annular bearing body in a known manner, a number of air nozzles for building an air cushion, or there is a bearing body with a number of magnets, in particular electromagnets present during operation between them and the rotatable bearing body 1 maintaining an air gap with preferably adjustable thickness. It is also clear that the stationary bearing body 6 , like out 1 it can be seen, a in the bearing body 1 lying inner ring, but also a the outer jacket of the rotatable bearing body 1 may be surrounding outer ring. Incidentally, the design of the bearing body 1 and 6 adapted to the needs of each case. Furthermore, provide for grounding of the rotatable bearing body 1 over the drive belt 8th variants described, in particular the various belt structures, only preferred embodiments, which can be deviated from within wide limits. For example, the layers could 15 . 15a and 15b also consist of conductive, applied to the belt material coatings. Finally, it is understood that the various features may be applied in combinations other than those described and illustrated.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10110067 A1 [0004]
• US 4856916 [0004]
• - DE 19824022 A1 [0004]
• - DE 29916854 U1 [0004]

Claims (14)

Bearing with at least one stationary bearing body ( 6 ) and at least one associated, rotatably mounted, grounded bearing body ( 1 ), at least partially by a drive belt ( 8th ) is wrapped, characterized in that the rotatably mounted bearing body ( 1 ) via the drive belt ( 8th ) is grounded. Bearing according to claim 1, characterized in that the drive belt ( 8th ) is electrically conductive. Bearing according to claim 1 or 2, characterized in that the drive belt ( 8th ) consists of an electrically conductive material. Bearing according to claim 1 or 2, characterized in that the drive belt ( 8th ) consists of a base material, which is provided with an electrically conductive filler. Bearing according to claim 4, characterized in that the base material is rubber or plastic and the filler Contains or consists of carbon. Bearing according to claim 1 or 2, characterized in that the drive belt with an incorporated therein or applied to him, electrically conductive layer ( 15 . 15a . 15b ) is provided. Bearing according to claim 6, characterized in that the layer ( 15 . 15a . 15b ) consists of an electrically conductive fabric. Bearing according to claim 6 or 7, characterized in that the layer ( 15 . 15a . 15b ) Contains metal and / or carbon fibers. Bearing according to one of claims 1 to 8, characterized in that the drive belt ( 8th ) at least partially around an existing of an electrically conductive material drive shaft ( 10 ) or a belt pulley ( 9 ) is placed. Bearing according to claim 9, characterized in that the drive shaft ( 10 ) a ground slip ring ( 14 ) assigned. Bearing according to one of claims 1 to 10, characterized in that it is designed as a magnetic bearing and the stationary bearing body ( 6 ) a plurality of on the circumference of the rotatably mounted bearing ring ( 1 ) contains distributed magnets. Bearing according to claim 11, characterized that the magnets consist of electromagnets. Bearing according to one of claims 1 to 10, characterized in that it is designed as a rolling bearing and the stationary bearing body ( 6 ) is a bearing ring. Bearing according to one of claims 1 to 10, characterized in that it is designed as an air bearing and the stationary bearing body ( 6 ) is a bearing ring.