It A waste sorting robot (100) comprises a manipulator (101) moveable within a working area (102). A gripper (103) is connected to the manipulator (101) and arranged to selectively grip a waste object (104, 104a, 104b, 104c) in the working area (102). A controller (108) is in communication with a sensor (107) and is configured to receive detected object parameters, and determine a throw trajectory (109) of the gripped waste object (104) towards a target position (106) based on the detected object parameters of the gripped waste object (104). The controller (108) is configured to send control instructions to the gripper (103) and/or manipulator (101) so that the gripper (103) and/or manipulator (101) accelerates the gripped waste object (104) and releases the waste object (104) at a throw position with a throw velocity and throw angle towards the target position (106) so that the waste object (104) is thrown along the determined throw trajectory (109). A related method of controlling a waste robot is also disclosed.

The present invention provides an actuator including a motor; a lead screw rotating by coupling to the motor; a nut part moving forward or backward by coupling to the lead screw; a magnet coupled to the nut part; a sensor unit configured to sense a change amount of magnetic flux depending on a position of the magnet and convert the sensed change amount of magnetic flux into measured voltage data; and a control unit controlling the motor; wherein the magnet comprises a first pole and a second pole arranged in order in the movement direction of the nut part, wherein, if the sensor unit senses the first pole when the nut part is moved forward, the control unit performs a first motion in which a forward movement of the nut part is stopped and moves the nut part backward, and if the sensor unit senses the second pole after the first motion, the control unit performs a second motion in which the movement of the nut part is stopped and moves the nut part forward.

Apparatus for the homing and subsequent positioning of the axes of a numerical control machine. The apparatus includes motion actuators operatively connected to a motor for moving a machine worktable of the apparatus, a control unit, an input/output unit operatively connected to the control unit for the definition of at least one working axis, at least one switching sensor, either of inductive or capacitive type, and at least one switching bar for the definition of at least one switching point identified on the at least one worktable using the at least one switching sensor. The switching sensors and switching points are fixed or mobile, and the at least one switching bar includes a detection area for the at least one switching sensor, the area being shared into a first detection section, a second detection section, and a plurality of protection and fastening areas. The apparatus also includes a sensor housing for the insertion, protection and sliding of one or more switching sensors.

The present invention provides an actuator including a motor; a lead screw rotating by coupling to the motor; a nut part moving forward or backward by coupling to the lead screw; a magnet coupled to the nut part; a sensor unit configured to sense a change amount of magnetic flux depending on a position of the magnet and convert the sensed change amount of magnetic flux into measured voltage data; and a control unit controlling the motor; wherein the magnet comprises a first pole and a second pole arranged in order in the movement direction of the nut part, wherein, if the sensor unit senses the first pole when the nut part is moved forward, the control unit performs a first motion in which a forward movement of the nut part is stopped and moves the nut part backward, and if the sensor unit senses the second pole after the first motion, the control unit performs a second motion in which the movement of the nut part is stopped and moves the nut part forward.

The present invention provides a linear actuator including a motor; a linear driving unit coupled to the motor and including a magnet; a sensor unit configured to sense a change amount of magnetic flux depending on a position of the magnet and convert the sensed change amount of magnetic flux into measured voltage data; a data unit in which reference voltage data corresponding to the change amount of magnetic flux depending on a position of the magnet is stored; and a judging unit configured to compare the reference voltage data with the measured voltage data at the corresponding position of the magnet. The present invention is advantageous in that, by compensation-controlling a position of the motor, feedback control may be performed in the step motor to secure performance of the product to which the present invention is applied.

A parallel kinematic manipulator system having three degrees of freedom and a method of controlling and visualizing work objects using force feedback and oscillation algorithms is provided. Three co-planar linear actuators operate symmetrically and parallel to an effector arm and are pivotally connected by three magnetic disc swivel joints to a base plate. The disc swivel joints each include a convex upper and lower swivel member having two dimensional gear patterns structured into their contacting and non-sliding surfaces. A pulsed illumination source consists of an annular LED array and is synchronized to the oscillation frequencies of the system to provide visual filtering capabilities. A control unit includes a method for keeping a work object balanced by force feedback and without the need for angle sensors at the end-effector, as well as methods for rotation of work objects and control of the pulsed illumination source. Sound trap ridges are included as part of the housing to reduce system noise.

A system for determining the position of a moving part driven by an electric motor: a single position sensor, coupled to the electric motor, incrementally detects an amount of movement thereof; a direction switching arrangement controls a direction of movement of the electric motor; and a control unit, coupled to the single position sensor and the direction switching arrangement, at each incremental amount of movement detected by the single position sensor, determines a current position of the moving part based on a previous position thereof and the current direction of movement controlled by the direction switching arrangement.