Solenoid actuator and method for manufacturing solenoid actuator

The invention claimed is: 1. A solenoid actuator, comprising: a coil; a first stator and a second stator disposed with an air gap therebetween in an axial direction so as to form a magnetic path around the coil; and a mover configured to move in the axial direction toward the second stator from an original position radially inward of the first stator by a magnetic force generated by energizing the coil, wherein the first stator includes: a first yoke; and a first cylindrical member fixed to an inner peripheral side of the first yoke and forming the air gap, the first cylindrical member being radially disposed between the mover and the first yoke. 2. The solenoid actuator according to claim 1 , wherein the first cylindrical member includes: a magnetic tube formed of a magnetic material; and a non-magnetic layer formed on an inner peripheral surface of the magnetic tube, and wherein the first cylindrical member is configured to guide the mover in the axial direction by bringing the mover into sliding contact with the non-magnetic layer. 3. The solenoid actuator according to claim 1 , wherein the first yoke has a first through hole into which the first cylindrical member is press-fitted, wherein an inner wall of the first through hole includes: a contact region in contact with an outer peripheral surface of the first cylindrical member; and a non-contact region located adjacent to the contact region on a side opposite to the second stator across the contact region in the axial direction, and wherein a diameter of the first through hole at the contact region is the same as that at the non-contact region. 4. The solenoid actuator according to claim 1 , wherein the second stator includes: a second yoke; and a second cylindrical member fixed to an inner peripheral side of the second yoke and forming the air gap. 5. The solenoid actuator according to claim 4 , wherein the second cylindrical member is disposed so as to project from the second yoke toward the first stator. 6. The solenoid actuator according to claim 5 , wherein the second yoke decreases in thickness toward the air gap. 7. The solenoid actuator according to claim 4 , wherein the second yoke has an inner circumferential surface with a cylindrical shape, and the inner circumferential surface of the second yoke is in contact with an outer circumferential surface of the second cylindrical member. 8. The solenoid actuator according to claim 1 , wherein the first stator and the second stator are disposed on both sides of the coil in the axial direction so as to surround the coil. 9. The solenoid actuator according to claim 1 , wherein the first stator and the second stator are disposed to be in contact with each other at a contact section located on an outer peripheral side of the coil such that the coil is surrounded by the first stator and the second stator. 10. The solenoid actuator according to claim 1 , wherein the first cylindrical member has a distal end which projects from the first yoke toward the second stator in the axical direction, the air gap being formed between the distal end of the first cylindrical member and the second stator. 11. The solenoid actuator according to claim 1 , further comprising a shaft which is an output shaft of the solenoid actuator, wherein the mover is a plunger disposed at an end portion of the shaft, and wherein the first cylindrical member is radially disposed between the plunger and the first yoke. 12. The solenoid actuator according to claim 1 , wherein the mover is located at the original position radially inward of the first stator so as to radially face the first stator in a non-excited state of the coil, and wherein the mover at the original position is distant from the second stator in the axial direction. 13. The solenoid actuator according to claim 12 , wherein the magnetic path includes the first stator, the second stator, and the mover, and wherein the mover is configured to be magnetically attracted due to a magnetic flux flowing in the magnetic path and move from the original position toward the second stator when the coil is energized.