Abstract: A resin portion of an output shaft has a large diameter section, from which one end portion of a rod outwardly projects, and an intermediate diameter section, which extends from the large diameter section in an axial direction and is rotatably supported by a housing. A gear portion is formed in an outer peripheral surface of the large diameter section and is meshed with a final gear. A recess is recessed in the axial direction in the large diameter section and extends in the circumferential direction along an entire circumferential extent of the rod. The intermediate diameter section is continuously filled with resin in a region, which extends from an outer peripheral surface of the rod to an outer peripheral surface of the intermediate diameter section in the radial direction, along the entire circumferential extent of the rod.
Abstract: The present invention provides a movement mechanism that is capable of easily releasing a bite-in state of a feed screw and a rack without increasing the size or the cost of an apparatus and without breaking the movement mechanism. A movement mechanism according to the present invention linearly moves a movement object, and includes: a feed screw; a drive motor for rotating the feed screw; a drive section for supplying a drive pulse to the drive motor; a movement member for linearly moving the movement object along with the rotation of the feed screw by the drive motor, the movement member being engaged with the feed screw; a detection section for detecting a situation in which the movement object is not moving; and a control section for, when the detection section has detected a situation in which the movement object is not moving, causing the drive section to output a drive pulse that causes the drive motor to rotate and vibrate.
Abstract: A motor 10 with reduction gear mechanism has a first worm 15 and a second worm 15? having mutually opposite screw torsion directions; a first counter gear 30 including a first large-diameter gear 31 meshing with the first worm 15 and a first small-diameter gear 35 rotating as one piece with the first large-diameter gear 31; a second counter gear 30? including a second large-diameter gear 31? meshing with the second worm 15? and a second small-diameter gear 35? rotating as one piece with the second large-diameter gear 31?; and an output gear 40 meshing with both the small-diameter gears 35, 35?; wherein a first device 50 for applying a force to press the first counter gear 30 towards a gear case 21 is arranged between the tip of the first small-diameter gear 35 and a gear case cover 29, and a second device 50? for applying a force to press the second counter gear 30? towards the gear case 21 is arranged between the tip of the second small-diameter gear 35? and the gear case cover 29.
Abstract: An electric stepper motor having a linear actuator arrangement consisting of an extended lead screw terminating at one end via a conical section and a threaded rod. The threaded rod at the end of the lead screw is engaged within the threaded aperture after completion of the stepper motor assembly to provide linear actuator function.