Method of forming parallel spiral channels in housing to be formed by casting or molding process

The invention claimed is: 1. A method of casting a motor housing with parallel spiral cooling channels, comprising: producing model data using a half cylinder body based on a shape of the motor housing and parallel spiral features based on a shape of the cooling channels; adding a dividing wall in a selected spiral feature of the parallel spiral features; loading the model data into a machining tool; machining a pattern of a parallel spiral core out of material with the machining tool based on the model data; casting the parallel spiral core from the pattern such that the parallel spiral core comprises a core body and a parallel spiral formed on the core body, the parallel spiral winding circumferentially about the core body from a first end to a second end of the core body, and a gap in the parallel spiral formed on the core body between the first end and the second end of the core body, the gap being formed by the dividing wall in the selected spiral feature of the parallel spiral features of the model data; positioning the parallel spiral core in a mold; pouring a cast material into the mold; forming the motor housing from the cast material and the parallel spiral core such that the motor housing comprises the parallel spiral cooling channels formed by the parallel spiral of the core and a dividing wall formed by the gap in the parallel spiral on the core body, the parallel spiral cooling channels winding circumferentially about the motor housing from a first end to a second end of the motor housing, and the dividing wall dividing the parallel spiral cooling channels between the first end and the second end of the motor housing; machining a first inlet on a first side of the dividing wall to form a first cooling channel of the parallel spiral cooling channels that flows in a first spiral direction from the first inlet towards the first end of the motor housing; and machining a second inlet on a second side of the dividing wall to form a second cooling channel of the parallel spiral cooling channels that flows in a second spiral direction from the second inlet towards the second end of the motor housing; where the second side of the dividing wall is opposite the first side of the dividing wall, and the second spiral direction is opposite the first spiral direction. 2. The method of claim 1 , further comprising pulling the parallel spiral core in a single direction to remove it from the mold. 3. The method of claim 1 , wherein the producing step comprises: designing a half cylinder body in a model based on a desired shape of the housing; and adding parallel spiral features to the body in the model. 4. The method of claim 1 , further comprising: adding a draft angle to an outer diameter of the parallel spiral features in the model data; and machining the draft angle into the pattern. 5. The method of claim 1 , wherein the casting step comprises pouring a casting material into the pattern. 6. The method of claim 1 , wherein the casting step comprises forming the parallel spiral to include a spiral wall that winds around the circumference of the core body between the first end of the core body and a first side of the gap and continues to wind around the circumference of the core body between an opposite side of the gap and the second end of the core body. 7. The method of claim 6 , further comprising forming a top edge of the spiral wall and a bottom edge of the spiral wall to be substantially parallel to one another. 8. The method of claim 6 , wherein the spiral wall is formed as a plurality of linear segments aligned parallel to one another between the first end and the second end of the core body. 9. The method of claim 1 , wherein the casting step comprises casting the parallel spiral to include a plurality of substantially parallel linear segments from a first radial side to a second radial side, where the parallel spiral is free of any backdraft. 10. The method of claim 1 , further comprising determining a desired pitch of the parallel spiral features and producing the parallel spiral features of the model data to have the desired pitch. 11. The method of claim 1 , further comprising adding a draft angle to an outer diameter of the parallel spiral features in the model data. 12. The method of claim 1 , further comprising machining a draft angle into the pattern of the parallel spiral core. 13. A method of casting a motor housing assembly with parallel spiral cooling channels, comprising: producing model data to form a parallel spiral core pattern by: designing a half cylinder body based on a desired shape of the housing assembly, determining a pitch and draft angle, adding parallel spiral features to the body in the model; and adding a dividing wall in a selected spiral feature of the parallel spiral features; loading the model data and material into a machining tool; machining the parallel spiral core pattern out of the material with the machining tool; casting the parallel spiral core from the parallel spiral core pattern such that the parallel spiral core comprises a core body and a parallel spiral formed on the core body, the parallel spiral winding circumferentially about the core body from a first end to a second end of the core body, and a gap in the parallel spiral formed on the core body between the first end and the second end of the core body, the gap being formed by the dividing wall in the selected spiral feature of the parallel spiral features of the model data; positioning the parallel spiral core in a mold; pouring a cast material into the mold; and forming the motor housing assembly from the cast material and the parallel spiral core, where the motor housing assembly comprises an inner diameter with a first cooling channel formed by a shape of the parallel spiral on the core body between the first end of the core body and a first side of the gap, a second cooling channel formed by a shape of the parallel spiral on the core body between an opposite side of the gap and the second end of the core body, a dividing wall formed by the gap, and walls that define a substantially uniform channel width; machining a first inlet on a first side of the dividing wall of the motor housing assembly for flow in a first spiral direction in the first cooling channel from the first inlet to a first end of the motor housing assembly formed by the first end of the core body; and machining a second inlet on an opposite side of the dividing wall of the motor housing assembly for flow in a second spiral direction in the second cooling channel from the second inlet to a second end of the motor housing assembly formed by the second end of the core body, the second spiral direction being opposite to the first spiral direction. 14. The method of claim 13 , further comprising pulling the parallel spiral core in a single direction to remove it from the mold. 15. The method of claim 13 , wherein the casting step comprises forming the parallel spiral to include a spiral wall that winds around the circumference of the core body between the first end of the core body and a first side of the gap and continues to wind around the circumference of the core body between an opposite side of the gap and the second end of the core body. 16. The method of claim 15 , further comprising forming a top edge of the spiral wall and a bottom edge of the spiral wall to be substantially parallel to one another. 17. The method of claim 15 , wherein the spiral wall is formed as a plurality of linear segments aligned parallel to one another between the first end and the second end o