Worm speed reducer and method for manufacturing worm wheel included in worm speed reducer

What is claimed is: 1. A worm speed reducer comprising: a worm shaft with a first end coupled to an electric motor so as to be driven by the electric motor and a second end on the opposite side of the worm shaft in its axial direction from the first end; a worm wheel with pairs of tooth flanks, each pair defining a tooth space; a housing that houses the worm shaft and the worm wheel and that supports the second end of the worm shaft so as to enable the second end to pivot around the first end; and a bias member supported by the housing to elastically bias the second end of the worm shaft toward the worm wheel side, wherein a plane that contains a central axis of the worm shaft and that is orthogonal to the central axis of the worm wheel is arranged at a central position of the worm wheel in a tooth width direction thereof, the worm wheel is formed by a cutting operation using a hob with a hob center offset from the central position in the tooth width direction, in an offset direction corresponding to a first direction along the tooth width direction, and the tooth flanks of each pair have different pressure angles at the central position in the tooth width direction, and in the worm wheel, the tooth flanks of each pair have different lead angles at the central position in the tooth width direction. 2. The worm speed reducer according to claim 1 , wherein when (i) an axial second end side of the worm shaft is set to correspond to an x-axis of a Cartesian coordinate system, and (ii) a direction that is orthogonal both to a central axis of the worm shaft and to a central axis of the worm wheel and that extends toward the central axis of the worm shaft is set to correspond to y-axis of the Cartesian coordinate system, the offset direction corresponds to a z-axis of the Cartesian coordinate system. 3. A method for manufacturing a worm wheel included in the worm speed reducer according to claim 1 , the method comprising: cutting a worm wheel material using a hob with a hob center offset from a central position in a tooth width direction, in an offset direction corresponding to a first direction along the tooth width direction, to form pairs of tooth flanks, each pair defining a tooth space, such that the tooth flanks of each pair have different pressure angles at the central position in the tooth width direction. 4. A method for manufacturing a worm wheel included in the worm speed reducer according to claim 2 , the method comprising: cutting a worm wheel material using a hob with a hob center offset from a central position in a tooth width direction, in an offset direction corresponding to a first direction along the tooth width direction, to form pairs of tooth flanks, each pair defining a tooth space, such that the tooth flanks of each pair have different pressure angles at the central position in the tooth width direction. 5. The method according to claim 3 , wherein during the cutting, the tooth flanks of each pair are cut such that the tooth flanks have different lead angles at the central position in the tooth width direction. 6. The method according to claim 4 , wherein during the cutting, the tooth flanks of each pair are cut such that the tooth flanks have different lead angles at the central position in the tooth width direction.