Measuring and testing – Vibration – By mechanical waves
Reexamination Certificate
2001-04-17
2003-03-04
Williams, Hezron (Department: 2856)
Measuring and testing
Vibration
By mechanical waves
C073S432100, C073S579000, C073S602000
Reexamination Certificate
active
06526830
ABSTRACT:
This application is based on and claims priority under 35 U.S.C. §119 with respect to German Application No. P 100 19 325.0 filed on Apr. 19, 2000, the entire content of which is incorporated herein by reference.
FIELD OF THE INVENTION
The invention relates to bearing arrangements. More particularly, the present invention pertains to a device and method for monitoring a bearing arrangement, having at least one bearing, in a mounting element of a roller journal bearing of a roller (e.g., a support, intermediate or work roller) in a stand (e.g., a dual, quadruple or sextuple stand) of a rolling mill train.
BACKGROUND OF THE INVENTION
A rolling mill train, preferably for rolling out metallic material, is primarily comprised of several roller frames, with the goods to be milled being passed between at least two rollers. The rollers have a journal at each of their two ends, and the journal is seated in a so-called mounting element. The mounting element represents the housing supporting the roller, with a bearing arrangement being provided between the roller journal and the mounting element.
The quality of the rolling process, as well as its efficiency, is generally determined by the ability of the bearing arrangement to function. It is necessary here to ensure that no bearing damage occurs over time. This can be accomplished through use of preventive maintenance at fixed intervals of time.
However, performing preventative maintenance at specified time intervals invariably results in the performance of preventive maintenance at times when the bearing does not necessarily require such maintenance.
A need thus exists for a method and associated device for monitoring a bearing arrangement of a support, intermediate or work roller in a rolling mill train in a way that makes it possible to control the upkeep, maintenance and/or restoration of the bearing arrangement, as well as its surroundings, in such a way that the upkeep, maintenance and/or restoration is generally only actually triggered when there is a real need.
SUMMARY OF THE INVENTION
In accordance with one aspect of the invention, a method of monitoring a bearing arrangement having at least one bearing in a mounting element of a roller journal bearing involves measuring a process quantity at the bearing or in an area adjoining the bearing, providing an evaluation device with the measured value of the process quantity, comparing the measured value with a stored preset value, and triggering a signal when the measured value exceeds or falls below the stored preset value.
The present invention is thus based on the discovery that a process quantity associated with a roller journal bearing in a roller in a rolling mill train is characteristic of the roller journal bearing's ability to function, or of the operational dependability of the roller journal bearing. By monitoring or measuring the process quantity through use of a suitable sensor, the value of the process quantity can be compared, preferably on a permanent and ongoing or continual basis, with a maximum or minimum threshold value which has been stored in a memory as a marginal threshold value required for the orderly operation of the bearing arrangement. Through comparison of the actual value with the nominal or threshold value, it is possible to trigger or initiate a signal when a permissible tolerance range is exceeded, thus providing the operator of the rolling mill train with a warning that maintenance or replacement work on the respective roller journal bearing, or its surroundings, is necessary.
In accordance with one version of the present invention, the process quantity that is monitored is the force acting on the bearing. This can include the force acting in the axial direction of the bearing and/or the force acting in the radial direction of the bearing. Various force measuring bearings for measuring these forces are known in the art and used in other contexts. The stored threshold value for the maximum possible bearing force would be of such a magnitude that a response of the monitoring system, i.e., the triggering of a signal, occurs if, for example, forces act on the roller bearing reach an inadmissible magnitude. This could be due to, for example, wear in the vicinity of the bearing or could be due to other irregularities such as a tilted roller positioning in the stand.
Further, as an alternative to monitoring the force acting on the bearing, or in addition to monitoring such force, the monitored process quantity can be the moisture in the bearing, or the moisture content of the lubricant in the bearing. It has been found that bearing damage occurs if an inadmissibly high amount of moisture is contained in the bearing. It is thus possible through use of a moisture sensor to measure and monitor the moisture at suitable positions of the bearing or in the surroundings of the bearing. The monitored or measured value of the moisture can then once again be compared to a stored threshold value so that if the monitored or measured value exceeds the stored value, a signal or warning is issued indicating that maintenance or replacement work on the respective roller journal bearing, or its surroundings, is required.
It is further possible as an alternative to, or in addition to, monitoring the force acting on the bearing and/or the moisture as described above, to monitor or measure the temperature prevailing in the bearing. In this connection the temperature of the outer ring is primarily considered because it can be measured in a relatively simple manner.
As an alternative to or in addition to one or more of the process quantities mentioned above, the process quantity on which monitoring is based can be the elastic or plastic deformation of the mounting element. In this case, the deformation can be maintained or measured in the circumferential direction of the mounting element, which thus provides a value indicating the ovalness of the mounting element, or can be measured in the axial direction of the mounting element. In the latter case the cylindrical characteristics of the mounting element is monitored. The deformation of the mounting element to be measured here typically occurs in the form of a superimposition of elastic, and of possibly present plastic deformation. It has been found that when defined threshold values of the deformation of the mounting element are reached, the service life of the bearing is clearly reduced. Thus, monitoring the deformation of the mounting element provides a reliable indication of a required repair or restoration of the mounting element.
As an alternative to or in addition to one or more of the process quantities mentioned above, the process quantity that is measured or monitored can be the vibration amplitude and/or vibration frequency of a preset area of the bearing. It is also possible to measure or monitor the vibration acceleration of a selected area of the bearing. Monitoring the vibration property of a bearing, and preferably the statistical evaluation thereof (amplitudes, frequencies, accelerations) can be used as an indicator for deciding when it is necessary to service, or replace, the bearing.
In accordance with the various aspects of the present invention described above, it is envisioned that the measured or monitored value can be transmitted in a wireless manner. In this regard, the transmission can take place by infrared signals, induction or radio waves.
According to another aspect of the invention, a device for monitoring a bearing arrangement having at least one bearing in a mounting element of a roller journal bearing includes at least one sensor which determines a process quantity at a bearing or in an area surrounding the bearing, a mechanism for conducting the measured value of the process quantity to an evaluation device, a mechanism for comparing the measured value with a stored preset value, and a mechanism for triggering a signal whenever the measured value exceeds or falls below the stored preset value.
Depending on the type of parameter(s) to be monitored, a force sensor, a moisture sensor, a tempera
Scholl Jürgen
Sontheimer Rüdiger
Saint-Surin Jacques M
SKF GmbH
Williams Hezron
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