Electric actuator

The invention claimed is: 1. An electric actuator comprising: a motor comprising an outer housing accommodating a stator and a rotor therein and a rotary shaft extending from an end surface of the outer housing; and a vibration damping gasket made from a resilient material which is attached to the motor, the vibration damping gasket comprising an annular body sleeved on the outer housing of the motor and an end wall abutting against the end surface of the outer housing from which the rotary shaft extends from, the end wall defining a through hole through which the rotary shaft extends; and wherein the annular body of vibration damping gasket comprises an inner cylindrical surface which expands radially and tightly hoops a side surface of the outer housing, and the end wall of the vibration damping gasket comprises an inner flat surface directly contacted the end surface of the outer housing. 2. The electric actuator of claim 1 , wherein the end wall is integrally formed at an end of the annular body. 3. The electric actuator of claim 1 , wherein a protruding flange is formed at a center area of the end surface of the outer housing, and the protruding flange defines an axial hole allowing the rotary shaft to pass therethrough. 4. The electric actuator of claim 1 , wherein the end wall comprises the inner flat surface and an outer flat surface, the inner flat surface contacts with the end surface of the outer housing of the motor. 5. The electric actuator of claim 1 , wherein the through hole is bounded by a first straight side, a second straight side, a first curved side, and a second curved side, the first straight side and the second straight side are parallel to and opposed to each other, and the first curved side and the second curved side are opposed to each other and respectively connected between the first straight side and the second straight side. 6. The electric actuator of claim 1 , wherein the through hole has a circular shape concentric with an axis of the rotary shaft. 7. The electric actuator of claim 1 , wherein the electric actuator is applied in a heating, ventilation and air conditioning apparatus. 8. The electric actuator of claim 1 , wherein the electric actuator further comprises a plurality of transmission members directly or indirectly connected to the shaft of the motor. 9. The electric actuator of claim 8 , wherein the electric actuator further comprises a case receiving the motor, and two transmission members respectively disposed at an axial side and a radial side of the vibration damping gasket and connected to the rotary shaft, the vibration damping gasket resists against an inner surface of the case. 10. The electric actuator of claim 1 , wherein a diameter of the inner cylindrical surface of the annular body of the vibration damping gasket is equal to or slightly less than an outer diameter of the side surface of the outer housing. 11. The electric actuator of claim 1 , wherein an axial length of the annular body is greater than 10% of an axial length of the side surface of the outer housing. 12. An electric actuator comprising: a motor comprising an outer housing , a rotary shaft extending from an end surface of the outer housing, and a worm attached to the rotary shaft; a vibration damping gasket made from a resilient material which is attached to the motor, the vibration damping gasket comprising an annular body, an end wall integrally formed with the annular body and a through hole defined on the end wall passed through by the rotary shaft, the end wall being perpendicular to an axis of the annular body; and wherein a diameter of the inner cylindrical surface of the annular body is equal to or slightly less than an outer diameter of the side surface of the outer housing; the annular body of vibration damping gasket comprises an inner cylindrical surface which expands radially and tightly hoops a side surface of the outer housing , and the end wall of the vibration damping gasket comprises an inner flat surface directly contacted the end surface of the outer housing. 13. The electric actuator of claim 12 , wherein an axial length of the annular body is greater than 10% of an axial length of the side surface of the outer housing. 14. The electric actuator of claim 12 , wherein the through hole is bounded by a first straight side, a second straight side, a first curved side, and a second curved side, the first straight side and the second straight side are parallel to and opposed to each other, and the first curved side and the second curved side are opposed to each other and respectively connected between the first straight side and the second straight side. 15. The electric actuator of claim 12 , wherein the electric actuator further comprises a case receiving the motor, and two transmission members respectively disposed at an axial side and a radial side of the vibration damping gasket and connected to the worm, and the vibration damping gasket resists against an inner surface of the case. 16. The electric actuator of claim 15 , wherein the through hole is bounded by a first straight side, a second straight side, a first curved side, and a second curved side, the first straight side and the second straight side are parallel to and opposed to each other, and the first curved side and the second curved side are opposed to each other and respectively connected between the first straight side and the second straight side.