The invention relates to a rotary union for supplying and/or removing a pressurized medium into or from an axial hollow space of a rotating machine part with a non-rotating union part, which is fixed to the device, a rotating union part, and with bearing means as well as sealing means which are effective in a radial sealing plane between the rotating union part and the non-rotating union part.
Rotary unions generally comprise a non-rotating union part fixed to the devices and a union part which rotates together with the rotating machine part, wherein sealing means are arranged between the non-rotating union part and the rotating union part. Such a rotary union is used for supplying rolls or rollers with cooling means which essentially constitute axes or shafts whose ends are supported by bearings. Under the heavy load, these rotating machine parts are subjected to a certain axial bending which leads to so-called angle errors at the ends of the axes or shafts. The angle error constitutes a displacement and tilting of the radial end surfaces of the rotating machine part and, thus, also of the rotating rotary union part if the latter is fixedly connected to the rotating machine part. This leads to sealing problems.
DE 10 2004 056 818 B3 discloses a rotary union whose rotating union part includes a sleeve. The rotating machine part comprises an axial hollow space with a hollow space insert. A bushing has an outer side adapted to the hollow space. The rotating machine part is supported over bearings which permit a certain pivoting of the axis end. The bushing of the hollow space insert is constructed with a spherical inner side. The sleeve of the rotating union part is constructed with an outer diameter which corresponds to the smallest diameter of the spherical inner side of the bushing. In this construction, the sealing means between the non-rotating and rotating machine parts is effective in a radial plane to the axis of the rotating machine part, and can be displaced relative to each other, while they simultaneously rotate relative to each other. If, in the event of strong loads, the rotating machine part bends through and the axis end swings, the rotating union part can be roiled on the spherical inner side of the bushing by the value of the angle error, so that the rotating machine part remains parallel to the axis and there is no edging of the sealing means in the radial sealing plane. Consequently, a uniformly good sealing effect in the radial sealing plane is to be expected. The rotary union disclosed in DE 10 2004 056 818 B3 is constructed as a rotary union which is flanged onto the front side.
However, it is frequently not possible to mount connections at the front sides. Especially in the case of large shafts in drive technology, particularly in roll drives, radially rotating passages are obtained which make it possible to facilitate a media introduction from outside into the shaft, for example, onto a shaft to which a toothed joint spindle is hinged. In that case, a stationary union part has a supply ring which is supported by a slide bearing relative to a union part rotatable in the interior of the stationary union part. As a result of a radial supply, a lubricant enters through the supply ring into a hollow space between the two rotary union parts and out of the hollow space through a hollow space extending in the rotary union part into the interior thereof.
Such a rotary union 1 (in
The disadvantage of this known solution and of other known solutions is the fact that a play always exists between the bearing and the shaft. Another disadvantage is the consumption of the own lubricant of the bearing. Other disadvantages are the temperature increase of the media used during the operation as well as the sealing problems caused by the large play between the rotating and the stationary rotary union parts.
It is the object of the invention to avoid the disadvantages of the prior art and to additionally provide the possibility of using seals for higher pressures, in particular for pressures of more than 2 bar.
In accordance with the invention, this object is met by a rotary union of the above-described type by providing individual support bearings which determine the radial distance between the stationary union part and the rotating union part.
As a result, instead of the revolving support as it is known in accordance with the prior art, only dot-like support elements are required which leads to a significantly lower development of frictional heat in comparison to the prior art. The disadvantages of the prior art are overcome by the invention. The invention makes it possible to mount a functionally reliable rotary union in a flat-neck-spindle.
Advantageous further developments of the invention result from the dependent claims.
It has been found to be advantageous if the support bearings are constructed as support rollers. Due to the use of support rollers, a secure support of the rotating rotary union part relative to the stationary rotary union part is achieved which, with high stability in the areas of the bearings instead of sliding friction, only cause rolling friction and, thus, a significantly lower heating of the cooling and lubricating medium than is the case in the prior art. In addition, at the pressures which are now possible, sealing means can be utilized which can only compensate limited running deviations, for example, of less than 0.2 mm.
Consequently, the actual running deviations between the rotary union and the shaft must be even significantly lower than this value. However, it has been found that such low running deviations during the use of the invention can be achieved. accordance with the invention, the weight of the stationary rotary union part of at least two rollers or roller pairs of the support rolls is transmitted onto the shaft in such a way that the seal built into the media supply rests precisely on the jacket wall of the shaft of the rotating rotary union part so that only a limited movability of the seal lips is required. Seals for higher pressures, which have only a low flexibility, can now be utilized.
The rollers or roller pairs which form the support rolls are independent of a lubrication by the lubrication medium which is to be conducted. This means that any chosen liquid or gaseous media can be conducted through with a rotary union according to the invention.
Preferably, the support rolls are guided by axles, shafts, hubs and/or by guiding means at the front side, particularly by collars.
In accordance with the basic principle of the invention, in a radial plane at an outer supply ring for the media supply at least two support rolls are arranged above the shaft axis of the rotating rotary union part which is supported relative to the non-rotating rotary union part.
Alternatively, the at least two support rolls are arranged at an acute or obtuse angle relative to each other.
In accordance with the particularly preferred configuration of the invention, three support rollers, particularly in equal spacings relative to each other, are provided. In principle, the bearing can take place symmetrically or asymmetrically.
By the use of a pretension without play, for example, of the roller bearings of the support rolls, a play-free running of the rotating rotary union parts can be achieved with precise round rotation.
Moreover, it can be provided that the support rolls are each integrated in a housing which supports them, in particular in a carriage.
The support bearings can be arranged inside or outside of the space through which the media flows.
The invention also relates to a drive unit, particularly a roll drive, with a rotary union part as it is illustrated in accordance with the invention, in particular with the aid of the following description.
In the following, the invention will be explained in more detail with the aid of an embodiment.
In the drawing:
In a first embodiment of the invention (
The support rollers 13, 14 are located outside of the annular hollow space 22 sealed by sealing means 20, 21, wherein the hollow space 22 surrounds the rotary union part 15. In the housing part 16 is mounted a media supply 23 which leads to the hollow space 22. From there a medium serving for lubricating and/or cooling is conducted further in a radially extending duct 24 in the interior of the rotary union part 15. The duct 24 ends in a channel 25 extending in the direction of the longitudinal axis of the rotary union part 15.
A second embodiment of a rotary union according to the present invention (
Another embodiment (
In a last embodiment (
This embodiment has the advantage that the seals 20, 21 are each more easily accessible. In addition, this embodiment can also be used in narrow space conditions. In accordance with the invention, it is also possible to use support rollers whose jacket parts 18 have a spherical, i.e., convex outer contour, and roll in appropriately shaped contours of the two rotary union parts.
In all embodiments, the rotary union part 12, fixed to the device, is supported relative to the stationary structural components by a torque support.
Number | Date | Country | Kind |
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10 2008 057 265.9 | Nov 2008 | DE | national |
10 2009 023 741.0 | Jun 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP09/08075 | 11/12/2009 | WO | 00 | 5/13/2011 |