Shaft sleeve having a bearing and a resilient member formed with protrusions and grooves

The invention claimed is: 1. A shaft sleeve unit comprising: a fixing member, a bearing received in the fixing member, and a resilient buffering member disposed between the fixing member and the bearing; wherein a first groove-protrusion structure is formed between a radial inner surface of the fixing member and a radial outer surface of the resilient buffering member, a second groove-protrusion structure is formed between a radial outer surface of the bearing and a radial inner surface of the resilient buffering member, a radial thickness of the resilient buffering member between the first groove-protrusion structure and the second groove-protrusion structure is not greater than a radial distance between the radial outer surface of the bearing and the radial inner surface of the fixing member; wherein the first groove-protrusion structure comprises the radial outer surface of the buffering member recessed inwardly to form an annular groove and the radial inner surface of the fixing member projecting outwardly to form an annular protrusion, the annular protrusion of the fixing member is engaged in the annular groove of the buffering member; wherein second groove-protrusion structure comprises the radial outer surface of the bearing projecting outwardly to form an annular protrusion and the radial inner surface of the buffering member recessed inwardly to form an annular groove, the annular protrusion of the bearing is engaged in the annular groove of the buffering member; wherein the annular groove of the radial inner surface of the buffering member and the annular groove of the radial outer surface of the buffering member correspond to each other in position. 2. The shaft sleeve unit of claim 1 , wherein one end of the resilient buffering member projects radially outwardly to form a flange, and the flange abuts against an axial end face of the fixing member. 3. The shaft sleeve unit of claim 1 , wherein one end of the resilient buffering member projects radially inwardly to form a stop ring, and the strop ring is obliquely formed between the fixing member and an axial end face of the bearing. 4. The shaft sleeve unit of claim 3 , wherein the stop ring has a thickness less than a thickness of the remaining portion of the resilient buffering member. 5. The shaft sleeve unit of claim 1 , wherein one end of the resilient buffering member projects radially outwardly to form a flange, and the other end of the resilient buffering member projects radially inwardly to form a stop ring. 6. The shaft sleeve unit of claim 1 , wherein the radial thickness is less than a radial thickness of the buffering member at the remaining area. 7. A motor comprising a stator; a rotor comprising a rotary shaft having an output end; a base body; and a shaft sleeve unit received in the base body and supporting the rotor for rotation, the shaft sleeve unit comprising a fixing member fixed in the base body, a bearing received in the fixing member and surrounding the rotary shaft, and a resilient buffering member disposed between the fixing member and the bearing; and wherein the buffering member comprises an inner surface and an outer surface opposite to the inner surface, an annular groove is formed on the inner surface of the buffering member, an outer surface of the bearing is formed with an annular protrusion, the annular protrusion is engaged in the annular groove to connect the bearing with the buffering member, a groove-protrusion structure is formed between the fixing member and the outer surface of the buffering member, the annular groove of the buffering member and the groove-protrusion structure correspond to each other in position, a radial thickness along a radial spacing between the annular groove of the buffering member and the outer surface of the buffering member is less than a radial thickness of the buffering member at the remaining area. 8. The motor of claim 7 , wherein one of an outer surface of the fixing member and an inner surface of the base body is formed with a protrusion, the other of the outer surface of the fixing member and the inner surface of the base body is formed with a slot, and the protrusion is engaged in the slot to connect the fixing member to the base body. 9. The motor of claim 7 , wherein the groove-protrusion structure comprises an annular protrusion formed on an inner surface of the fixing member, an annular groove formed on the outer surface of the buffering member, the annular protrusion is engaged in the annular groove to connect the fixing member with the buffering member, the annular groove of the inner surface of the buffering member and the annular groove of the outer surface of the buffering member correspond to each other in position. 10. The motor of claim 7 , wherein the groove-protrusion structure comprises the outer surface of the buffering member projecting outwardly to form an annular protrusion, an inner surface of the fixing member recessed inwardly to form an annular groove, the annular protrusion of the buffering member is engaged in the annular groove of the fixing member, the annular protrusion of the buffering member and the annular groove of the buffering member correspond to each other in position, a radial distance between the annular protrusion of the buffering member and the annular groove of the buffering member is not greater than a radial distance between the outer surface of the bearing and the inner surface of the fixing member. 11. The motor of claim 7 , wherein one end of the buffering member adjacent the output end of the rotary shaft projects radially inwardly to form a stop ring, and the stop ring closely contacts an outer wall surface of the rotary shaft. 12. The motor of claim 7 , wherein one end of the buffering member away from the output end of the rotary shaft projects radially outwardly to form a flange, and the flange abuts against an end face of the fixing member. 13. The motor of claim 7 , wherein the motor is a single phase permanent magnet motor, the stator of the motor includes a U-shaped magnetic core and windings wound around the magnetic core, the magnetic core is formed with a pair of magnetic poles, the rotor of the motor includes at least one permanent magnet received in the base body and fixed to the rotary shaft, the base body is a hollow cylindrical structure with an open end and a closed end, the output end of the rotary shaft extends out via the open end of the base body, and the shaft sleeve unit is disposed at the open end of the base body. 14. The motor of claim 7 , wherein a radial distance between the annular groove of the buffering member and the groove-protrusion structure is not greater than a radial distance between the bearing and the fixing member. 15. A liquid pump comprising: a motor comprising: a stator; a rotor comprising a rotary shaft having an output end; a base body; and a shaft sleeve unit received in the base body and supporting the rotor for rotation, the shaft sleeve unit comprising a fixing member fixed in the base body, a bearing received in the fixing member and surrounding the rotary shaft, and a resilient buffering member disposed between the fixing member and the bearing; and an impeller coupled to the output end of the rotor; wherein an outer surface of the buffering member projects outwardly to form an annular protrusion, an inner surface of the buffering member is recessed inwardly to form an annular groove, an outer surface of the bearing projects outwardly to form an annular protrusion, an inner surface of the fixing member is recessed inwardly to form an annular groove, the annular protrusion of th