Bearings – Rotary bearing – Plain bearing
Reexamination Certificate
2001-02-20
2002-07-09
Footland, Lenard A. (Department: 3682)
Bearings
Rotary bearing
Plain bearing
C384S322000, C384S403000
Reexamination Certificate
active
06416227
ABSTRACT:
The invention relates to a method and a device for disposing of a lubricant, preferably oil, that is supplied in a controlled fashion to a plain bearing, especially a roll neck bearing of a chock, flows into the bearing case and is disposed of below from a lubricant sump.
In the rolling mill technology such bearing arrangements are known as so-called flood lubricated bearings; in their use primarily as roll neck bearings, they are utilized for transmitting adjusting forces in ingot, slab, and plate rolling stands as well as in hot and cold rolling mills in the steel and non-ferrous metal industry. With a substantially identical configuration they are suitable for all rolling force and rolling speed ranges occurring in rolling mills, for wet or dry operation as well as for single pass or reversing operation. A large load receiving capacity makes possible an adaptation to rotational speeds and loads occurring in rolling mills. In interaction with the chock receiving a roll neck, the plain bearing or flood lubricated bearing provides a lubricant distribution and flooding system that ensures a great cooling oil throughput with safe hydrodynamic lubricant film formation. For the purpose of supplying oil or lubricant, the chocks are connected by inlet and return or outlet lines to at least one oil collecting reservoir comprising an operating pump.
The lubricant or lubricating oil is supplied in a pressure-controlled fashion to the chocks by means of a pressure control comprising a pressure regulating valve and a fixed throttle, wherein the supply opening is arranged centrally above the roll neck and is connected by means of a hose line to the inlet line. After the lubricating process, the lubricant or lubricating oil which collects in a lubricant/oil sump—in general, two such sumps are provided which are connected by a transverse bore, in particular, one at the roll neck and the other positioned behind it in the direction toward the roll barrel—flows out gravitationally from the chock via two relatively large discharge openings with correlated hose connections extending to the return flow lines, i.e., back into the oil collecting reservoir. These known plain bearings used largely in practical operation as flood lubricated bearings with hydrodynamic lubricant film formation, which in the assembled state form together with the chock a closed oil-tight and dirt-tight unit which is mounted on the roll neck or removed from it, require large lubricant sumps which impede the mounting space for other components in the stand window of a roll stand. This is true also because of the large hose lines extending from the oil sumps for returning the lubricant into the oil collecting reservoir.
The invention has the object to provide a method and a device of the aforementioned kind without the aforementioned disadvantages, especially to enable an improved disposal or return of the lubricant from the respective sump of the chock or the bearing case.
This object is solved with a method according to the invention in that the lubricant collected in the sump is disposed of in the upward direction by vacuum support. The inventive vacuum-supported, preferably with controlled vacuum, return, which is entirely contrary to the decade-old practice of gravitational return flow, from the vented sump, where atmospheric pressure is present, provides as a result of the constantly produced vacuum, for example, by means of a screw pump, not only a faster disposal and lubricant sumps that require a correspondingly reduced space, but also eliminates the oil outflow hoses extending in the downward direction from the lubricant sumps. It is therefore possible in a simple way to gain mounting space for other components and/or, for example, a contour adaptation of the chock. When exchanging a roll, the chocks can be moreover completely emptied by a controlled vacuum pulse so that leakage during transport can be avoided and, also, the overall maintenance is simplified.
A preferred suggestion according to the invention provides that the bearing case with the sump is vented and the inflowing amount of air is measured. In doing so, on the one hand, it can be taken into consideration that a possibly occurring vacuum in the chock resulting from a sickle-shaped run of the bearing—and thus a static pressures above and below of different magnitude—does not have a negative effect on the vacuum-supported disposal because with the venting action an escape is possible. On the other hand, via the measurement of the inflowing amount of air a defined vacuum control parameter can be achieved and adjusted, for example, an air intake of 1 l/min. into the chock.
A device for a vacuum-supported disposal of the lubricant provides that the bearing case is formed with a discharge bore extending from above down into the lubricant sump—respectively, into the transverse bore connecting the two sumps that are present—as well as being connected via a venting bore arranged at the upper side of the bearing and via an outlet line with the atmosphere, wherein the discharge bore comprises a pressure regulating valve provided within a line connected to a vacuum source and being in interactive connection with an air flow meter arranged in the outlet line of the venting bore. Instead of two gravitational outflow lines, only one outflow line is required for the lubricant disposal which, because of the greater removal amount for the same amount of time as a result of the supplied vacuum, can be of a smaller size than previously possible. Hose lines are arranged only above the center of the bearing case, i.e., on the one hand, for the discharge bore and, on the other hand, for the venting bore as well as the unchanged lubricant supply from above; all other components or parts of the lubricating device are positioned in an area which is remote from the bearing arrangement, respectively, the chock and present no disturbance. The supplied vacuum ensures that the lubricant can be removed and returned from the sump quasi in a “snorkeling” action via the discharge bore (snorkel bore) which is optionally formed by an inserted or cast pipe.
REFERENCES:
patent: 4632650 (1986-12-01), Frieden et al.
patent: 1301642 (1969-08-01), None
patent: 4427830 (1995-11-01), None
patent: 9216786 (1992-10-01), None
Ohrndorf Henning
Thiel Hermann
Footland Lenard A.
Kueffner Friedrich
SMS Schloemann--Siemag Aktiengesellschaft
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