BEARING UNIT FOR ROTARY ANODES OF X-RAY TUBES

Information

  • Patent Application
  • 20160155599
  • Publication Number
    20160155599
  • Date Filed
    November 19, 2013
    11 years ago
  • Date Published
    June 02, 2016
    8 years ago
Abstract
A bearing unit for rotary anodes of x-ray tubes includes a shaft and a flange element to which a rotary anode can be attached, wherein: the bearing unit can be inserted into a cutout within the x-ray tube and locked in place; the shaft is mounted via a first bearing element and a further bearing element; the first bearing element and the further bearing element each consists of an angular ball bearing mounted on the shaft and having an inner ring and an outer ring; and at least one spacer element is mounted between the inner rings and/or the outer rings of the first and the second bearing element.
Description

The invention relates to a bearing unit for rotary anodes of X-ray tubes.


DE 30 41 558 A1, for example by way of FIG. 1 in the drawings, discloses a bearing unit for rotary anodes of X-ray tubes, wherein the rotary anode is accommodated in an evacuated glass bulb which is partially reproduced.


The invention is based on the object of producing a bearing unit for rotary anodes of this type of X-ray tubes that is particularly easy to assemble.


This object is achieved by a bearing unit having the features of claim 1. Advantageous embodiments are described in the dependent claims.


The bearing unit according to the invention, having the features of patent claim 1, is configured in a compact manner and is composed of a modest number of parts which may be pre-assembled in order for the thus pre-assembled bearing unit to be able to be inserted in a manner which is easy to assemble into the corresponding receptacle in the X-ray tube.


On account of the implementation of the first bearing elements as angular ball bearings, it is made possible to a certain degree for the bearing unit to also absorb axial forces. Moreover, on account of the use of two angular ball bearings, complex shaft production is dispensed with. It is also possible for a comparatively cost-effective material (untempered steel, for example) to be used for the shaft.


The spacer elements make for a positionally secure location of the bearing elements on the shaft, wherein the inboard spacer element is in contact with the internal rings of the angular ball bearings and the outboard spacer element is in contact with the external rings of the angular ball bearing.


According to a further advantageous embodiment, one angular ball bearing or both angular ball bearings by way of the internal ring bear(s) on a step of the shaft and in the axial direction is/are thus fixed in a manner which is easy to assemble.


On account of the further bearing element being fastened by way of a tapered bracing element which, in particular, is form-fitting, or by way of a plastic deformation of the shaft, respectively, locking in place of the angular ball bearings and thus fixing of the entire bearing unit may take place in a manner which is easy to assemble, once the bearing elements have been attached to the shaft. These here are rapid and simple fixing possibilities which are more cost-effective than fixing solutions which are based on a screw-nut or similar.


In one advantageous embodiment the angular ball bearings are oriented so as to be mutually opposed, that is to say that the respective open sides of the angular ball bearings either face one another or face away from one another. In a particularly preferable way, the open shoulder of the angular ball bearing of the first bearing element is disposed in the direction of the flange-side end of the shaft and the open shoulder of the angular ball bearing of the further bearing element is disposed in the direction of that end of the shaft that is distant from the flange. On account thereof, a particularly advantageous bearing, in particular the absorption of axial forces from various axial directions, is enabled.


According to a further advantageous embodiment, the spacer element which is disposed between the external rings and/or the internal rings of the bearing elements may be configured as split spacer elements. A split spacer element here is to be understood to be a spacer element which is composed of a plurality of separate parts (for example, a plurality of ring segments). In this way, for example, a first (for example, comparatively large) ring segment produced to a standard size may be used, and furthermore one spacer element or a plurality of spacer elements produced to the exact dimension may be used for filling in the desired spacing between the external rings and/or internal rings of the bearing elements.





The invention is explained in more detail by means of exemplary embodiments in the figures of the drawing, in which:



FIG. 1 shows a schematic partial view of a bearing unit;



FIG. 2 shows an enlarged detail with a bearing unit, the bracing element of which is locked in place by plastic deformation of the shaft.





The bearing unit 1 illustrated in FIG. 1 has a shaft 2 with a flange element 3 on which a rotary anode (for example, according to DE 30 41 558 A1) is attachable.


The entire bearing unit 1 here may be inserted into a receptacle (not illustrated) of the X-ray tube, which is provided therefor, and locked in place there in the usual way (for example, by a screw connection).


The bearing unit 1, for receiving the shaft 2, has a first bearing element 4 and a further bearing element 5. The first bearing element 4 is formed by an angular ball bearing 6 which is attached on the shaft 2 and which has an internal ring 7 and an external ring 8. The second bearing element 5 is formed by an angular ball bearing 9 which is attached on the shaft 2 and which has an internal ring 10 and an external ring 11.


The open side of the angular ball bearing 6 is configured on the external ring 8 and is disposed in the direction of the flange-side end of the shaft 2. Two shoulders are configured on the internal ring 7, and that side of the angular ball bearing 6 that faces away from the flange 3 is likewise configured as a shoulder.


The open side of the angular ball bearing 9 is configured on the external ring 11 and is disposed in the direction of that end of the shaft 2 that is opposite the flange 3. Two shoulders are configured on the internal ring 10, and that side of the angular ball bearing 9 that faces the flange 3 is likewise configured as a shoulder on the external ring 11.


The internal rings 7 and 10 are spaced apart in a dimensionally exact manner by way of a spacer element 12. In a similar way, a further spacer element 13 is disposed between the external rings 8 and 11.


The angular ball bearing 6 by way of its internal ring 7 bears on a step of the shaft 2.


By way of the bracing element 14 which is attached on that end of the shaft that is distant from the flange the assembled bearing unit 1 is locked in place. The bracing element 14 is configured in a sleeve-shaped manner. In more precise terms, the bracing element 14 has the shape of a ring or of a hollow cylinder, respectively.



FIG. 2 shows an enlarged detail of a bearing unit 201. The bearing unit 201 differs from the bearing unit 1 only in that it has a shaft 202 which is configured in a different manner. The further components remain unchanged, such that reference here may be made to the narrative pertaining to FIG. 1.


The bracing element 14 in the embodiment according to FIG. 2 is locked in place on the shaft 202 by way of a plastically deformed end region 16 of the shaft 202. Axial displacement of the bracing element 14 is no longer possible. The components of the bearing unit 201 are thus securely tensioned in relation to one another. The plastic deformation of the end region 16 of the shaft 202 may take place by applying a force which is directed in an axial direction of the shaft, for example. Except for the plastically deformed end region 16, the shaft 202 is identical to the shaft 2 of FIG. 1.


LIST OF REFERENCE SIGNS


1, 201 Bearing unit



2, 202 Shaft



3 Flange



4, 5 Bearing element



6 Angular ball bearing



7 Internal ring



8 External ring



9 Angular ball bearing



10 Internal ring



11 External ring



12, 13 Spacer element



14 Bracing element



16 Deformed end region

Claims
  • 1. A bearing unit (1) for rotary anodes of X-ray tubes, having a shaft (2) and a flange element (3) on which a rotary anode is attachable, wherein the bearing unit (1) is insertable into a receptacle within the X-ray tube and is lockable in place therein,the shaft (2) is received by way of a first bearing element (4) and a further bearing element (5),the first bearing element (4) and the further bearing element (5) are in each case composed of an angular ball bearing (6, 9) which is disposed on the shaft (2) and has an internal ring (7, 10) and an external ring (8, 11),at least one spacer element (12, 13) is attached between the internal rings (7, 10) and/or the external rings (8, 11) of the first and of the second bearing element (4, 5).
  • 2. The bearing unit as claimed in claim 1, wherein in each case at least one spacer element (12, 13) is attached both between the internal rings (7, 10) and between the external rings (8, 11) of the first and of the second bearing element (4, 5).
  • 3. The bearing unit as claimed in claim 1, wherein the first bearing element (4) and/or the second bearing element (5) by way of their internal ring (7, 10) bear on a step of the shaft (2).
  • 4. The bearing unit as claimed in claim 1, wherein the angular ball bearing (9) of the further bearing element (5) is fastened by way of a bracing element (14) on the shaft (2).
  • 5. The bearing unit as claimed in claim 4, wherein the bracing element (14) is configured as a tapered bracing element.
  • 6. The bearing unit as claimed in claim 4, wherein the bracing element (14) is configured as a sleeve-shaped bracing element (14).
  • 7. The bearing unit as claimed in claim 4, wherein the bracing element (14) is fixed by way of a plastically deformed end region (16) of the shaft.
  • 8. The bearing unit as claimed in claim 1, wherein the shaft (2) is composed of a non-tempered steel material.
  • 9. The bearing unit as claimed in claim 1, wherein the angular ball bearings (6, 9) are oriented so as to be mutually opposed.
  • 10. The bearing unit as claimed in claim 1, wherein the open side of the angular ball bearing (6) of the first bearing element (4) is disposed in the direction of the flange-side end of the shaft (2).
  • 11. The bearing unit as claimed in claim 1, wherein the open side of the angular ball bearing (9) of the further bearing element (5) is disposed in the direction of that end of the shaft (2) that is opposite the flange (3).
  • 12. The bearing unit as claimed in claim 1, wherein the open sides of the angular ball bearings (6, 9) are configured on the respective external ring (8, 11).
Priority Claims (1)
Number Date Country Kind
20 2012 104 447.1 Nov 2012 DE national
PCT Information
Filing Document Filing Date Country Kind
PCT/DE2013/100390 11/19/2013 WO 00