Abstract: A roll stand for rolling metallic strips includes at least one roll or cylinder which is respectively mounted in a mounting on rolling bearings in the region of its end journals, and at least one distributing device for distributing a lubricant-gas flow. The roll stand according to the invention makes it easily possible in an operationally reliable manner to supply a rolling bearing, provided for mounting a roll or cylinder, with a precisely determined amount of lubricant. This is achieved according to the invention in that a connecting channel for the transport of a lubricant-gas flow to or from the distributing device is molded into the roll or cylinder.
Abstract: A roll stand for rolling metallic strips comprises at least one roll or cylinder which is respectively mounted in a mounting on rolling bearings in the region of its end journals, and at least one distributing device for distributing a lubricant-gas flow. The roll stand according to the invention makes it easily possible in an operationally reliable manner to supply a rolling bearing, provided for mounting a roll or cylinder, with a precisely determined amount of lubricant. This is achieved according to the invention in that a connecting channel for the transport of a lubricant-gas flow to or from the distributing device is molded into the roll or cylinder.
Type:
Application
Filed:
September 12, 2008
Publication date:
July 1, 2010
Applicants:
REBS Zentralschmiertechnik GmbH, SMS Siemag AG
Inventors:
Alexander A. Rebs, Udo Davids, Ralf Seidel
Abstract: A device for distributing an oil-air mixture to various lubrication channels disposed in a bore (10) of a machine housing, comprises at least one cylindrical distributor (1) which is sealed on at least one of its front sides (8) towards the bore wall by a sealing ring (7) and whose axial position in the bore (10) is determined by at least one spacer (2), whereby the distributor (1) and the spacer (2) are introduced individually into the bore (10).
Abstract: An apparatus for subdividing a viscous liquid conveyed by a gas flow into a plurality of component flows has first and second connecting elements aligned within a tubular casing. The first connecting element has an inflow bore which branches into a number of discharge bores. The inflow bore discharges into a distributing chamber which widens along the direction of flow. The distributing chamber terminates in a rebound face which is aligned concentrically with the inflow bore. The rebound face has inlet openings along a periphery thereof which lead into the discharge bores, which carry the component flows. The first and second connecting elements and tubular casing may be mounted on a body.