An assembly apparatus assembles a first component and a second component. The assembly apparatus includes a gripping section, a correcting section, and a driving section. The gripping section grips the first component. The correcting section corrects positional shift of the first component relative to the second component. The driving section drives the correcting section. The correcting section includes a first mechanism connected to the gripping section and a second mechanism connected to the driving section. The first mechanism has a first tapered portion on a surface opposite to the gripping section. The second mechanism has a second tapered portion on a surface opposite to the driving section. The second tapered portion has a substantially identical shape to the first tapered portion. The first tapered portion is placed on the second tapered portion.

An end effector device includes a housing, a cable, and a winding mechanism. The cable includes at least one of lines that include a power supply line and a signal line. The winding mechanism is located inside the housing and configured to wind the cable. The winding mechanism includes a case, a reel, and a spiral spring. The reel is supported in the case and allowed to rotate and wind the cable. The spiral spring urges the reel in a retrieval direction of the cable pulled out of the reel.

A tool interchange for a submersible remote operated vehicle (ROV) arm includes a first interchange body that affixes to an ROV arm. A second interchange body is carried by the first interchange body to rotate on a rotation axis. The second interchange body includes a tool mount actuable between gripping an ROV tool to the second interchange body and releasing the ROV tool from the second interchange body. An inductive power coupling part is provided in the tool mount. The inductive power coupling part is presented outwardly in the tool mount opposite the first interchange body, resides on the rotation axis and is fixed with respect to the first interchange body while the second interchange body rotates. The inductive power coupling part is adapted to inductively communicate power with a corresponding inductor power coupling part of the ROV tool when the ROV tool is docked in the tool mount.

A method and system for determining geometric properties of a manipulator (2). The manipulator (2) is controlled to perform constrained motions exhibiting force interaction with the environment, or between different links of the manipulator (2), such that a kinematic chain is formed mechanically. The chain may include peripherals and external axes of motion. A constraining device, enables motions that facilitate the determination of geometric properties. A unified model of joint and link compliances facilitates determination of stiffness parameters. The force interaction is controlled with awareness of friction such that non-geometric properties are possible to identify, thereby enabling separation of non-geometric effects from the geometric ones, which improves accuracy.

An attachment device includes a robot-engaging portion having a recess formed in an outer surface thereof for receiving a finger of a robot. The attachment device also includes a tool-engaging portion coupled to the robot-engaging portion. The tool-engaging portion is configured to be coupled to a tool that is to be used by the robot to perform a task. A damping member is positioned at least partially between the robot-engaging portion and the tool-engaging portion. The damping member is configured to be adjusted to vary a magnitude of oscillations that are transferred from the tool-engaging portion to the robot-engaging portion.

Presently disclosed systems and methods provide for a quick-change clamp arm that may be coupled to and removed from a robot end effector via a quick-change feature coupled to the robot end effector. Systems may include a plurality of such quick-change clamp arms that each may be coupled to a given robot end effector such that when one is removed, a different respective quick-change clamp arm may be coupled to the robot end effector. The robot end effector may be configured to perform a task to one side of a workpiece, while the quick-change clamp arm applies a stabilizing normal force to the other side of the workpiece. Due to the interchangeable nature of presently disclosed quick-change clamp arms, systems may reduce the number of robot end effectors required for a given manufacturing process. Related methods of removing and coupling quick-change clamp arms to robot end effectors may be automated.

A system and method utilizing a robotic arm to prepare a food product such as a meat for cooking and then subsequently assembling a sandwich from the cooked meat is disclosed. In addition, the robotic arm may also be used to wrap the assembled sandwich in a wrapper. The system may utilize a wire basket with a basket adapter, or handle, to allow the robotic arm to easily maneuver the basket and also utilize a wrapping assist device to wrap a wrapper around the assembled sandwich.

According to an embodiment, an article posture changing device includes: a first end effector configured to grasp a projected tag of an article by adsorption; an arm unit configured to support the first end effector and move the first end effector along at least a vertical direction; and a controller configured to control the arm unit and the first end effector to grasp the tag, lift the article upward, separate the article from a placement surface, change an angle of the article by weight thereof, move the article downward, place the article on the placement surface, and release the grasp of the tag.

A robot hand jig includes a grip including a first depression configured to engage with a first finger and a second depression configured to engage with a second finger. The first depression includes a first surface, a second surface perpendicular to the first surface, a third surface perpendicular to the second surface, and a fourth surface perpendicular to the first surface and the second surface. The second depression includes a fifth surface, a sixth surface perpendicular to the fifth surface, a seventh surface perpendicular to the sixth surface, and an eighth surface perpendicular to the fifth surface and the sixth surface.

Apparatus and methods for adaptively retooling robots include programmable adapters for detachably connecting at least one robotic peripheral to a robot, providing peripheral information associated with the robotic peripheral, and causing the robot to adaptively reconfigure based on the peripheral information.