Multi-directional air cooling of a motor using radially mounted fan and axial/circumferential cooling fins

We claim: 1. A system for cooling a motor, comprising: a fan radially mounted on a motor to route an inlet airflow radially towards an axis of rotation of the motor; a plurality of axially oriented fins surrounding the motor and disposed to guide a first portion of the inlet airflow in a first axial direction and to guide a second portion of the inlet airflow in a second axial direction, wherein the first axial direction is opposite to the second axial direction; wherein the axially oriented fins are disposed in a plurality of groups of circumferential rows, wherein: a first group of circumferential rows includes only first axially oriented fins; a second group of circumferential rows includes second axially oriented fins and circumferentially oriented fins; a third group of circumferential rows includes only third axially oriented fins; wherein, in an axial direction, the second group of circumferential rows is disposed between the first and third groups of circumferential rows; a plurality of circumferentially oriented fins surrounding the motor and disposed to guide a third portion of the inlet airflow in a circumferential direction; a housing surrounding the axially oriented fins and the circumferentially oriented fins; and a plurality of air exit ports in the housing, wherein the air exit ports are spaced over a majority of a circumference of the housing and guide inlet airflow radially away from and around a majority of the axis of rotation, and thereby out of the housing. 2. The system of claim 1 , wherein the plurality of axially oriented fins are configured as plain fins, and the plurality of circumferentially oriented fins are configured as offset fins, wherein the offset fins are configured with a plurality of protrusions in an uneven manner. 3. The system of claim 1 , including a second set of exit ports facing axially from the surface of the motor, wherein the second set of exit ports are configured to output air from the fan. 4. A method of cooling a motor comprising: guiding a first portion of air flow axially along the motor using a plurality of axially oriented fins, wherein the axially oriented fins are disposed in a plurality of groups of circumferential rows, wherein: a first group of circumferential rows includes only first axially oriented fins; a second group of circumferential rows includes second axially oriented fins and circumferentially oriented fins; a third group of circumferential rows includes only third axially oriented fins, wherein, in an axial direction, the second group of circumferential rows is disposed between the first and third groups of circumferential rows; guiding a second portion of the air flow around a circumference of the motor with the circumferentially oriented fins; and guiding a third portion of the air flow radially away from and around a majority of an axis of rotation of the motor. 5. The method of claim 4 , including: directing air through an outlet port in a housing of the motor in an axial direction with respect to a rotation of the motor. 6. The method of claim 5 , including: directing air through an outlet port in the housing of the motor in a radial direction with respect to a rotation of the motor. 7. A system for cooling a motor comprising: a fan radially mounted on a motor; a tapered air inlet shaft interposed between the fan and the motor; a plurality of axially oriented fins surrounding the motor and positioned at the tapered air inlet shaft; a plurality of circumferentially oriented fins surrounding the motor; a housing surrounding the axially oriented fins and the circumferentially oriented fins; and wherein the tapered air inlet shaft initially receives an inlet air radially towards only axially oriented fins and directs the inlet air tangentially to the circumferentially oriented fins and a surface of the housing.