Apparatus and method for the positional interchange of IT hardware nodes at an IT hardware rack. The present apparatus comprises a primary and a secondary articulator independently controlled and configured for actuation to engage and grip IT hardware nodes and to insert and/or withdraw the nodes at an IT hardware rack.

A driverless transport vehicle for autonomous transport and replacement of at least one spinning can. In order to provide a driverless transport vehicle which reliably ensures an automated supply of the spinning machines fed with fibre band, the driverless transport vehicle has an autonomous travelling drive, a transport platform for accommodating the at least one spinning can, and a manipulator unit for taking up and setting down the at least one spinning can, the manipulator unit having a gripper for grasping the spinning can and an actuating device for adjusting the gripper.

The invention relates to a lifting system for lifting elongated objects, comprising a sensor device arranged to identify position and location of an elongated object, a lifting and rotating device, and a control unit for controlling the movement of the lifting and rotating device in response to signals from the sensor device which indicate the position and location of the object. In order to lift elongated objects regardless of object's material, profile or position, the lifting and rotating device is provided with an elongated gripping device including a first gripping arm, and the control unit is configured to control the lifting and rotating device to insert a part of the first gripping arm into the object from one end of the object in order to lift and rotate the object with the inserted part.

A robot hand apparatus includes a first holder having a first sucking surface that is bendable at any position and configured to suck an object using negative pressure; a second holder arranged to oppose the first sucking surface of the first holder; and a driving mechanism configured to change a distance between the first holder and the second holder to sandwich the object between the first holder and the second holder.

A lab automation robot is provided including a stationary base, a swiveling tower rotatably mounted to the stationary base about a first vertical axis, an arm vertically translatably mounted to the tower, an articulating forearm coupled to the arm at an elbow joint and pivotal relative thereto about a second vertical axis, and a wrist assembly including a multi-axis gripper operatively coupled to the forearm at a wrist joint and rotatable relative thereto about a third vertical axis. The gripper is further rotatable relative to at least the forearm about a first horizontal axis and about a second horizontal axis.

An apparatus for provisioning, in particular automatically, a complete tool having a toolholder and a tool, in particular a drilling and/or milling tool. The apparatus has a spindle that can be driven in rotation by a driving device. The spindle has a holding device for holding a toolholder. A measuring device, in particular an optical measuring device, measures a complete tool, held on the spindle. A heating device in the region of the spindle heats a shrink-fit chuck of the toolholder held on the spindle. A cooling device, in particular a cooling device associated with the spindle, enables the spindle and/or the complete tool held on the spindle, to be cooled.

A system and methods are disclosed for precision placement or insertion of an object using robotic manipulation. A robotic tool includes at least three members, including a first member and a second member that grip the object between opposing faces and a third member that exerts a force on a proximate end of the object to push the object out of the robotic tool. A series of maneuvers is performed with the robotic tool in order to place the object on a surface or insert the object in a hole. The maneuvers include positioning the object against the surface, rotating the object around a contact point between the object and the surface, rotating the robotic tool around a contact point between the object and either the first or second member of the robotic tool, sliding the object horizontally along a surface, and tucking the object into a final desired position.

A sensor system according to the present disclosure includes a substrate, a force sensor, a calculation unit, and an output part. The substrate includes a reference plane and an inclined surface. The force sensor is provided on the inclined surface and outputs signals in three-axis directions that correspond to an orthogonal axis direction that is orthogonal to the inclined surface and two-axis directions that are parallel to the reference plane. The calculation unit calculates a pressing force in each coordinate axis direction of rectangular coordinates formed of an axis vertical to the reference plane and two axes parallel to the reference plane and moments around the respective coordinate axes of the rectangular coordinates. The output part outputs calculation results.

A robot system includes a robot, a vision sensor, and a controller. The vision sensor is configured to be detachably attached to the robot. The controller is configured to measure a reference object by using the vision sensor and calibrate a relative relationship between a sensor portion of the vision sensor and an engagement portion of the vision sensor, and teach the robot by referring to the relative relationship and by using the vision sensor, after the vision sensor is attached to the robot.

The end effector includes a palm, a plurality of fingers capable of grasping operation, a tactile sensor unit provided with each of the plurality of fingers, and a force receiving portion that receives a force from the object being grasped when the object being grasped is grasped by the plurality of fingers, the force receiving portion being connected to each of the plurality of fingers via the tactile sensor unit. The force receiving portion includes a grasping surface that receives a force from the object being grasped, the grasping surface being placed facing the object being grasped to be able to grasp the object being grasped, and a pressing surface that is placed further away from the palm than the second end portion of each of the plurality of fingers and extends in a direction intersecting the grasping surface.