Abstract: The invention relates to motors and motor assemblies that can be washed without causing corrosion of components, and without causing premature motor failure as a result of corrosion. The motor and motor assembly comprise components constructed from non-corroding materials, such as stainless steel. The motor and motor assembly are constructed according to an unsealed design, in which washing fluid can enter the motor and the motor housing during washing. The washing fluid can drain away after washing is completed. The unsealed design permits heat generated during operation of the motor to drive off residual washing fluid. The motor and motor assembly can be readily cleaned, easily can be maintained in an corrosion-free state, and are not subject to premature failure from corrosion induced by trapped washing fluid.

Abstract: A stator winding for mounting onto the stator core of an electric motor is provided with a base and a coil winding around the base and a connection portion for slidingly interengaging a corresponding slot in the stator. The base extends longitudinally between front and rear ends including a leg extending radially outwardly from a radially inner cross member to the connection portion and having circumferentially opposite sides with respect to the motor axis. A stator winding is assembled on the stator of an electric motor by providing a winding base with a connection portion adapted to engage a slot in the stator; providing a slot in the stator; winding an electrical conductor winding around the base; and slidingly interengaging the connection portion with the stator slot.

Abstract: A stator winding for mounting onto the stator core of an electric motor is provided with a base and a coil winding around the base and a connection portion for slidingly interengaging a corresponding slot in the stator. The base extends longitudinally between front and rear ends including a leg extending radially outwardly from a radially inner cross member to the connection portion and having circumferentially opposite sides with respect to the motor axis. A stator winding is assembled on the stator of an electric motor by providing a winding base with a connection portion adapted to engage a slot in the stator; providing a slot in the stator; winding an electrical conductor winding around the base; and slidingly interengaging the connection portion with the stator slot.

Abstract: A web tension transducer for mounting between a stationary fixture and a pillow block rotationally supporting a web roller shaft is provided. The transducer includes a body mounted to said fixture for pivotal movement about a single horizontal axis at one longitudinal end, and having a strain gage mounted in a transverse horizontal slot at the opposite end of said body, thus providing maximum deflection of the strain gage in response to downward force applied to the shaft for measurement of the web tension.

Abstract: A moving web tension monitoring apparatus of easily fabricated, relatively inexpensive and easily assembled construction comprises a cantilever mounted strain beam element coupled at the flexurable end thereof through a rigid coupling to one end of the support shaft for the web supporting guide roll. A twin beam type transducer having strain gauges at the flex points of the beams is coupled to the shaft supporting the moving web. The strain gauges are located and electrically connected to measure the radial forces applied to the shaft. A shaft coupler connects the shaft to a bearing in the transducer to reduce slippage of the shaft. The transducer is designed to be easily adjusted so that the forces applied to the shaft are accurately detected. The components of the transducer are also adjustable to alter the rigidity and/or resonance frequency of the transducer.

Abstract: A low cogging torque permanent magnet rotor is provided including a shaft and a permanent magnet mounted on the shaft. A gap is provided between the shaft and the magnet near a boundary between the magnet poles thereby reducing the cogging torque as the rotor poles rotate past the poles of the motor stator.

Abstract: A brushless, direct current, permanent magnet motor is disclosed, which comprises a stator and a rotor mounted for rotation about an axis in the stator. The stator has a plurality of stator teeth separated by axial interpolar teeth slots. Two pairs of ferrite ceramic magnets, formed as arc segments of equal circumferential length and axially constant radial thickness, are mounted on the rotor. Leading and trailing margins of each magnet are magnetized with a longitudinally varying magnetization strength or gradient while the central portion of each magnet is uniformly magnetized. This process produces axially alternating areas of low and high magnetization, which simultaneously cross each interpolar teeth slot upon rotor rotation to minimize cogging. An air gap of axially uniform width and the constant magnet thickness provides a constant reluctance path radially through the air gap and margins of the magnets.