Linear vibration generating device

What is claimed is: 1. A linear vibration generating device, comprising: a vibrator including an annular magnet and a weight surrounding the magnet; a stator including a coil disposed at a center of the magnet and a yoke surrounded by the coil; an elastic member disposed between the vibrator and the stator to elastically support the vibrator; and an anti-tilting unit coaxially coupled to a top of the yoke in a predetermined height, wherein the anti-tilting unit is a non-magnetic body with a cylindrical shape having an outer diameter equal to or greater than a diameter of an outermost portion of the yoke and smaller than an inner diameter of the magnet, wherein the anti-tilting unit is a non-magnetic metal or a non-conductive resin-based non-metal, and wherein the anti-tilting unit has an axially hollow structure and is assembled to a protrusion formed at a center of an upper surface of the yoke to a predetermined height by means of interference fitting and fixed to the yoke. 2. The linear vibration generating device according to claim 1 , wherein the stator further includes: a bracket configured to support the coil and the yoke surrounded by the coil; a case coupled to the bracket to form an inner space in which the vibrator is mounted; and a printed circuit board (PCB) disposed between the bracket and the coil to apply electricity to the coil. 3. The linear vibration generating device according to claim 1 , wherein the vibrator includes a plate installed to cover one surface of the magnet between the magnet and the elastic member. 4. The linear vibration generating device according to claim 3 , wherein a damping member is provided to at least one of an exposed surface of the magnet, opposite to the plate, or one surface of the stator facing the exposed surface. 5. The linear vibration generating device according to claim 4 , wherein the damping member formed on the exposed surface of the magnet is a magnetic fluid. 6. The linear vibration generating device according to claim 1 , wherein when the anti-tilting unit is a non-conductive resin-based non-metal, a lower end of the anti-tilting unit is partially inserted into an upper center of the yoke and fixed to the yoke. 7. The linear vibration generating device according to claim 1 , wherein when the device is in operation, an upper surface of the anti-tilting unit has the same height as an uppermost surface of the magnet at an uppermost point in a horizontal direction or is at least higher than the uppermost surface. 8. A linear vibration generating device, comprising: a vibrator including an annular magnet and a weight surrounding the magnet; a stator including a coil disposed at a center of the magnet and a yoke surrounded by the coil; an elastic member disposed between the vibrator and the stator to elastically support the vibrator; and an anti-tilting unit coaxially coupled to a top of the yoke in a predetermined height, wherein the anti-tilting unit is a non-magnetic body with a triangular or polygonal pillar shape so that an outermost surface thereof farthest from a center thereof is aligned at the same location as an outermost surface of the yoke or protrudes outwards in comparison to at least an outermost surface of the yoke so as to be spaced apart from an inner circumference of the magnet with a predetermined gap (g), wherein the anti-tilting unit is a non-magnetic metal or a non-conductive resin-based non-metal, and wherein the anti-tilting unit has an axially hollow structure and is assembled to a protrusion formed at a center of an upper surface of the yoke to a predetermined height by means of interference fitting and fixed to the yoke. 9. A linear vibration generating device, comprising: a vibrator including an annular magnet and a weight surrounding the magnet; a stator including a coil disposed at a center of the magnet and a yoke surrounded by the coil; an elastic member disposed between the vibrator and the stator to elastically support the vibrator; an anti-tilting unit coaxially coupled to a top of the yoke in a predetermined height, wherein the anti-tilting unit is a non-magnetic body with a cylindrical shape having an outer diameter equal to or greater than a diameter of an outermost portion of the yoke and smaller than an inner diameter of the magnet; and an anti-tilting spring coupled to a bracket that supports the coil and the yoke surrounded by the coil, so that one end thereof is fixed to one surface of a case having an inner space in which the vibrator is mounted and the other end thereof is disposed to be in contact with the upper surface of the vibrator or to be spaced apart therefrom by a predetermined distance.