A robot device includes an arm mechanism that includes links and joints. A hand is mounted to a tip of the arm. A motor driver drives motors of the joints. A processor outputs, to the motor driver, a command value for moving a reference point of the hand to a target position. A storage device stores a first thermal displacement amount temporal variation representing a variation with respect to a continuous operation time period in a thermal displacement amount by which the hand reference point is displaced from a cool position to a heat balance position due to heat generation accompanying operation of the arm mechanism, and a second thermal displacement amount temporal variation representing a variation with respect to a continuous stopped time period in a thermal displacement amount by which the hand reference point returns from the heat balance position to the cool position accompanying stopping of operation of the arm mechanism. The processor refers to the first and second thermal displacement amount temporal variations to estimate a thermal displacement amount of the hand reference point based on the continuous operation time period and continuous stopped time period of the arm mechanism, and corrects the target position based on the estimated thermal displacement amount.

A robot end effector for dispensing an extrudable substance comprises a chassis and cartridge bays, attached to the chassis and each shaped to receive a corresponding one of two-part cartridges. Robot end effector also comprises a dispensing valve, attached to the chassis and comprising a valve inlet and a valve outlet. The valve outlet is in selective fluidic communication with the valve inlet. Robot end effector further comprises a manifold, comprising a manifold outlet and manifold inlets, which are in fluidic communication with the manifold outlet. Robot end effector additionally comprises a plunger assembly, comprising pairs of plungers and arranged to concurrently extrude contents of the two-part cartridges through the cartridge outlets. Robot end effector also comprises an electric motor, attached to the chassis and configured to selectively move the plunger assembly relative to the chassis.

The various embodiments herein relate to a coupling apparatus for a medical device having a coupler body, a cavity defined in the coupler body, a rotatable drive component disposed within the cavity and having at least two pin-receiving openings, and an actuable locking ring disposed around the cavity.

A cable harness management module includes a base plate and a rotatable element which matches with and can rotate relative to the base plate. The base plate and the rotatable element form a space for receiving the cable harness including a first end and a second end. The cable harness management module has a first fastening member for fastening the first end onto the base plate, and a second fastening member for fastening member for fastening the second end onto the rotatable element. The cable harness can reel on or off the rotatable element when the rotatable element rotates with the robot joint. The cable harness management module may also include a mounting member for removably mounting the base plate to the robot joint. The cable harness management module protects the cable harness inside the compact space from abrasion and lengthen the lifetime of the cable harness.

Systems and methods for an inspection robot having replaceable sensor sled portions are disclosed. An example system may include: an inspection robot including a plurality of payloads; a plurality of arms, each of the plurality of arms pivotally mounted to one of the plurality of payloads; and a plurality of sleds, each sled mounted to one of the plurality of arms. At least one of the plurality of sleds includes an upper portion coupled to a replaceable lower portion, where the replaceable lower portion includes a portion of a delay line for a sensor of the inspection robot.

Presented are embodiments of a modular transport robot for transporting consignments. The transport robot includes at least one base element for the structure of the transport robot, at least two expansion modules for the technical equipping of the transport robot, at least one consignment box for receiving consignments, and at least one control device. The base element and each of the expansion modules have corresponding connecting elements and are electrically connected to one another by an electrical connection. The base element has at least one wiring harness for electrically connecting the connecting elements of the base element to one another, and the base element and the expansion modules are designed correspondingly to one another such that the connecting elements of the expansion modules are selectively connectable directly to at least two connecting elements provided at different points, so as to form one common connection to the base element.

A robot includes a robot body, an ingredient feeder installed in the robot body to feed an ingredient, first and second robot arms each having an ingredient channel formed therein and connected to the robot body, the ingredient passing through the ingredient channel, and a dispenser disposed in the robot body to dispense the ingredient received from the ingredient feeder to the first and second robot arms. The dispenser includes a common channel connected to the ingredient feeder, a first branch channel communicating with the ingredient channel of the first robot arm, and a second branch channel communicating with the ingredient channel of the second robot arm, and the ingredient, which has passed through the common channel, is selectively fed to the first branch channel and the second branch channel by the dispenser.

A robotic system for fueling or charging a vehicle having a vehicle connector, the robotic system including a robotic arm having a plurality of sequentially arranged articulated links and at least one group of operating cables extending from a proximal end of the arm to terminate at a control link, for controlling the position of that link, the cables each having a path comprising a passage in each successive more proximal link for closely receiving the cable, a flexible conduit operably connected with the robotic arm for delivering a fluid or an electrical current, respectively, to a vehicle, the conduit being connected to a source at a first end and a delivery connector at a second end, and a control system for operating the robotic arm and the hose or cable, wherein the control system directs the robotic arm to engage the vehicle connector with the delivery connector and, upon engagement of the vehicle connector and delivery connector, the control system relaxes the robotic arm to an under-constrained condition.

Device for handling and/or processing parts, having first and second subassemblies separably connectable by a connection interface that results from a first contact section of the first subassembly being plugged and/or pressed in a connecting direction onto a second contact section of the second subassembly in a first orientation specified relative to the second contact section. The connection interface includes an electrical interface for transmitting electrical power and/or communication signals between the subassemblies and a fluid interface for transporting fluid between the subassemblies. The first and second contact sections are configured so the connection interface also results if the first contact section is plugged or pressed in the connecting direction onto the second contact section in a further orientation. The further orientation corresponds to the first orientation aside from a rotation of the first contact section by a specified angle about a rotation axis running in the connecting direction.

A patient-positioning device includes a first link designed as a base frame for fastening the patient-positioning device on a support surface, a second link mounted on the first link for rotation about a first axis of rotation by a first joint, and a third link mounted on the second link for rotation about a second axis of rotation by a second joint. The third link is arranged on the second link by the second joint in such a way that, with a floor mounting of the first link, the third link is arranged below the second link by the second joint in order to suspend the third link on the second link in an overhead arrangement by means of the second joint. The third link is mounted so as to be rotatable under the second link by the second joint.