Electric motor having high strength rotor with ring magnet

Having thus described one or more embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1 . An electric motor comprising: a stator; a rotor rotatable relative to the stator, said rotor including an axial shaft, a disc projecting radially from the shaft, and a ring magnet affixed to the disc, said shaft and said disc being integrally formed as a unitary body, said ring magnet presenting a radially outer magnet perimeter, said disc presenting a radially outer disc perimeter; and a retaining ring engaging the ring magnet and disc perimeters to affix the ring magnet to the disc, said retaining ring including a pair of axially spaced radially inward extending lips, a first one of which engages the ring magnet and a second one of which engages the disc. 2 . The electric motor of claim 1 , said ring magnet and said stator defining an axial air gap, said ring magnet and said stator being arranged such that magnetic flux therebetween is directed axially through the air gap. 3 . The electric motor of claim 1 , said shaft presenting axially opposite shaft ends, said disc being spaced between the ends. 4 . The electric motor of claim 1 , further comprising: a motor housing defining a motor chamber, said motor chamber at least partly receiving said stator and said rotor; and a pair of axially spaced bearing assemblies rotatably supporting the shaft relative to the housing, said disc being spaced between the bearing assemblies. 5 . The electric motor of claim 1 , said ring magnet presenting a radially extending disc-engaging face, said disc presenting a magnet-engaging face, said magnet-engaging face engaging the disc-engaging face. 6 . The electric motor of claim 5 , further comprising: an adhesive between the disc-engaging face and the magnet-engaging face to affix the ring magnet to the disc. 7 . The electric motor of claim 6 , said disc-engaging face and said magnet-engaging face being substantially planar so as to flatly engage one another. 8 . The electric motor of claim 7 , said ring magnet presenting an exposed face axially opposite the disc-engaging face, said exposed face and said disc-engaging face being substantially flat and parallel. 9 . The electric motor of claim 8 , said stator being spaced axially from and in general radial alignment with the exposed face. 10 . The electric motor of claim 8 , said disc presenting a second face axially opposite the magnet-engaging face, said second face and said magnet-engaging face being substantially flat and parallel. 11 . The electric motor of claim 1 , said retaining ring extending continuously about the ring magnet and disc perimeters. 12 . The electric motor of claim 11 , said ring magnet and disc perimeters being radially aligned, said retaining ring presenting an inner surface engaging the ring magnet and disc perimeters. 13 . The electric motor of claim 12 , said ring magnet and disc perimeters each being circular in shape, said inner surface of the retaining ring being circular in shape so as to continuously engage the ring magnet and disc perimeters. 14 . The electric motor of claim 1 , said ring magnet and disc presenting exposed axially opposite magnet and disc faces, respectively, said first one of the lips engaging the exposed magnet face, said second one of the lips engaging the exposed disc face. 15 . The electric motor of claim 14 , said ring magnet presenting a disc-engaging face axially opposite the exposed magnet face, said disc presenting a magnet-engaging face axially opposite the exposed disc face, said magnet-engaging face engaging the disc-engaging face. 16 . The electric motor of claim 15 , further comprising: an adhesive between the disc-engaging face and the magnet-engaging face to affix the ring magnet to the disc. 17 . The electric motor of claim 1 , said shaft and said disc being forged together to form said unitary body.