Rotor, induction motor having the same, and method for manufacturing the same

What is claimed is: 1. A rotor comprising: a magnetic core comprising a body having a first end and a second end along a rotor axis, the body comprising a plurality of slots elongated along the rotor axis; a plurality of rotor bars, each comprising a middle portion inserted in one of the plurality of slots and a first end portion that extends out of its corresponding slot from the first end of the body in a first direction away from the second end such that the first end portions of the plurality of rotor bars protrude from the first end of the body and are arranged around the rotor axis with a first end portion gap between two first end portions that are immediately neighboring from each other, each first end portion comprising a radially outwardly facing surface, wherein the radially outwardly facing surfaces of the first end portions in combination provide threads; a first end ring comprising a plurality of radially arranged teeth with a first end ring gap between two immediately neighboring teeth, the first end ring engaged with the first end portions of the plurality of rotor bars such that each tooth of the first end ring is inserted in one of the first end portion gaps and each first end portion is inserted in one of the first end ring gaps; and a first retainer comprising an inner circumference that is threaded, wherein the threads provided by the radially outwardly facing surfaces of the first end portions are engaged with the threaded inner circumference of the first retainer, wherein each radially outwardly facing surface has a slope inclined with respect to the rotor axis, wherein each radially outwardly facing surface is raised in a radial direction relative to the tooth immediately adjacent thereto. 2. The rotor of claim 1 , wherein each of the plurality of rotor bars comprises a second end portion that extends out of its corresponding slot from the second end of the body in a second direction away from the first end such that the second end portions of the plurality of rotor bars protrude from the second end of the body and are arranged around the rotor axis with a second end portion gap between two second end portions that are immediately neighboring from each other, wherein each second end portion comprises a radially outwardly facing surface that is threaded. 3. The rotor of claim 2 , further comprising a second end ring comprising a plurality of radially arranged teeth with a second end ring gap between two immediately neighboring teeth, the second end ring engaged with the second end portions of the plurality of rotor bars such that each tooth of the second end ring is inserted in one of the second end portion gaps and each second end portion is inserted in one of the second end ring gaps; and a second retainer comprising an inner circumference that is threaded, wherein the radially outwardly facing surfaces of the second end portions in combination provide threads configured to engage with the inner circumference of the second retainer. 4. The rotor of claim 1 , wherein the inner circumference of the first retainer has a slope inclined with respect to the rotor axis, wherein the first retainer is not welded to the first end portions. 5. The rotor of claim 1 , wherein the threads provided by the radially outwardly facing surfaces comprise a tapered female thread or a tapered male thread. 6. The rotor of claim 1 , wherein the plurality of rotor bars are made of a copper (Cu) or aluminum (Al) material. 7. The rotor of claim 1 , wherein the first retainer is in a ring shape. 8. An induction motor comprising: the rotor of claim 1 ; and a stator surrounding the rotor, wherein the first retainer is not welded to the first end portions. 9. A method for manufacturing a rotor, comprising: providing a magnetic core comprising a body having a first end and a second end, the body comprising a plurality of slots elongated along a rotor axis; providing a plurality of rotor bars that comprises a middle portion and a first end portion providing a first end ring comprising a plurality of radially arranged teeth with a first end ring gap between two immediately neighboring teeth providing a first retainer comprising an inner circumference that is threaded; inserting each rotor bar such that the middle portion inserted in one of the plurality of slots and the first end portion extending out of its corresponding slot from the first end of the body in a first direction away from the second end and further such that the first end portions of the plurality of rotor bars protrude from the first end of the body and are arranged around the rotor axis with a first end portion gap between two first end portions that are immediately neighboring from each other, each first end portion comprising a radially outwardly facing surface, wherein the radially outwardly facing surfaces of the first end portions in combination provide threads; engaging the first end ring with the first end portions of the plurality of rotor bars such that each tooth of the first end ring is inserted in one of the first end portion gaps and each first end portion is inserted in one of the first end ring gaps; and engaging the threaded inner circumference of the first retainer with the threads provided by the radially outwardly facing surfaces, wherein each outwardly facing surface has a slope inclined with respect to the rotor axis, wherein each radially outwardly facing surface is raised in a radial direction relative to the tooth immediately adjacent thereto. 10. The method of claim 9 , wherein upon inserting, each of the plurality of rotor bars further comprises a second end portion that extends out of its corresponding slot from the second end of the body in a second direction away from the first end such that the second end portions of the plurality of rotor bars protrude from the second end of the body and are arranged around the rotor axis with a second end portion gap between two second end portions that are immediately neighboring from each other, wherein each second end portion comprises a radially outwardly facing surface that is threaded. 11. The method of claim 10 , wherein threads of the inner circumference of the first retainer comprise a tapered female thread or a tapered male thread. 12. The method of claim 9 , wherein the threads provided by the radially outwardly facing surfaces comprise a tapered female thread or a tapered male thread. 13. The method of claim 9 , wherein the inner circumference of the first retainer has a slope inclined with respect to the rotor axis, wherein the first retainer is not welded to the first end portions in the resulting rotor. 14. The method of claim 9 , wherein the first retainer is in a ring shape. 15. A method of making a motor, comprising: manufacturing the rotor according to claim 9 , wherein the first retainer is not welded to the first end portions in the resulting rotor; and arranging the rotor relative to the stator such that the stator surrounds the rotor.