Abstract: A thrust plate for a butterfly valve includes a thrust plate body that defines a recess. The recess extends between a bottom thrust surface, side walls and an open top. A wear-resistant coating is located on the bottom thrust surface.

Abstract: A butterfly valve comprises a housing including a bore, a rotatable shaft passing through the bore, a disc mounted to the shaft for controlling the flow of a fluid through the bore, a thrust load reacting section and a wear interface. The thrust load reacting section includes a thrust plug assembled in a thrust reacting end of the shaft and a thrust plate secured to the housing. The thrust plate has a well for axially retaining the thrust plug and the thrust reacting end of the shaft. The wear interface includes a first contact region on the thrust plug with a first contact surface and a second contact region at the base of the well with a second contact surface. A portion of the first contact surface is spherical and in contact with a portion of the second contact surface.

Abstract: 1. Bearing element (4) for a bearing for borne supporting of a bearing counter-element (2), whereby the bearing element (4) has a bearing segment (40) at which the bearing counter-element (2) is supportably borne with a force component (F) in the direction of the bearing segment (40), and, at least one positioning segment lateral to the bearing segment (40) for positioning the bearing element (4) at a wall (32) of the bearing for fixing and/or orienting the bearing element (4) in the bearing, whereby aligning and/or support elements (41, 42) project laterally from the bearing segment (40), whereby the aligning and/or support elements (41, 42) are physically distanced from each adjacent aligning and/or support element (41, 42), and whereby the aligning and/or support elements (41, 42) distanced from the bearing segment (40) each embody at least one positioning segment (43, 44).

Abstract: In the case of a spinning or twisting spindle having a spindle shaft which is disposed in a spindle bearing housing by means of a bolster and a step bearing, it is provided that the spindle bearing housing is surrounded by a sleeve-type housing which is connected with the bottom of the spindle bearing housing by way of an elastic connecting element which forms a point of discontinuity for the flow of structure-borne sound. In addition, it is provided that the space between the spindle bearing housing and the outer housing is filled with a viscous medium up to at least two-thirds of the height of the spindle bearing housing.

Abstract: A highly reliable device for stopping the operation of a flywheel apparatus for storing electrical energy in the event of interruption of power supply includes a thrust plate 11 connected to the rotatory part of the apparatus, and having a lower surface defining a thrust bearing surface. A pressure receiving surface 26 facing the lower surface of the thrust plate, and defining a thrust bearing surface is provided with a plurality of radially extending grooves 27 each having at least one sidewall which defines an upwardly inclined land 28 as viewed in the direction of rotation of the rotatory part. Provided below the pressure receiving surface 26 is a cooling fluid passage 33 connected to an electromagnetic valve 35 adapted to open upon interruption of power supply to allow a cooling fluid to flow into the passage 33. The device further includes means for maintaining a hydraulic fluid between the thrust bearing surfaces during interruption of power supply.