A method of delivering a glutinous substance from a cartridge to an applicator comprises receiving the cartridge inside a sleeve through an inlet of the sleeve when a pressure cap, coupled to the sleeve proximate the inlet, is in an open position. The method additionally comprises moving the pressure cap into a closed position to sealingly couple the pressure cap with a trailing end of the cartridge. The method also comprises selectively causing an automated coupler to automatically sealingly couple the applicator with a leading end of the cartridge when the cartridge is inside the sleeve and the pressure cap is in the closed position. The method further comprises applying pressure to the glutinous substance in the cartridge through a first pressure input of the pressure cap to urge the glutinous substance from the cartridge into the applicator.

A robotic tool changer ensures inherently safe decoupling operation by only providing pneumatic fluid to a decouple port of a pneumatic coupling mechanism in the case that the tool changer is seated on, and properly aligned with, a tool stand. Pneumatic fluid to decouple the pneumatic coupling mechanism is routed from an air source to the tool stand. A pass-through in the tool stand returns the pneumatic fluid to a pneumatic path in the tool changer leading to a decouple port of the pneumatic coupling mechanism. Hence, the tool changer must be seated on the tool stand for the decouple port to receive pneumatic fluid to operate. Furthermore, a safety coupling is interposed on the pneumatic path between the tool stand and the decouple port. The safety coupling requires the tool changer to be seated on, and properly aligned with, the tool stand to effect the flow of pneumatic fluid—otherwise, the pneumatic fluid is bled to the atmosphere.

A tool changing system of a robot manipulator is proposed. The tool changing system includes: a master coupled to an end of the robot manipulator at a first side thereof; and a slave coupled to a tool at a first side thereof and coupled removably to a second side of the master at a second side thereof, wherein the master includes an actuator and a master magnet rotating according to the rotation of the actuator, and the slave includes a slave magnet rotating in synchronization with the rotation of the master magnet by magnetism therebetween with the master and the slave coupled to each other, whereby the rotating force of the slave magnet as a rotating force necessary for operating the tool is transmitted to the tool.

A subsea manipulator for a remotely operated underwater vehicle (ROV) that includes at least one linear, oil-filled electric actuator to control a motion of the manipulator in a subsea environment is disclosed. The remotely operated underwater manipulator includes an electric actuator for each axis of motion of the manipulator, and an end effector that includes a rotational joint and a tool motor for controlling a tool affixed to the end effector. A method for changing the tool of the manipulator in a subsea environment is disclosed.

A tool system including a housing fastened to a tool, the housing being formed of a non-magnetic material, a magnet module embedded in the housing, a pair of mounting grooves in the housing and located below the magnet module, a changer body provided on a manipulator, the changer body being formed a non-magnetic material, a metal bar mounted on the changer body, a pair of terminals provided at both ends of the metal bar, the pair of terminals being formed of magnetic material, the pair of terminals facing the magnet module, a fixing bar outside the housing, the fixing bar being formed of a magnetic material, and a pair of mounting pins extending vertically from both ends of the fixing bar, the pair of mounting pins being formed of magnetic materials, and the pair of mounting pins are inserted into the pair of mounting grooves is provided.

A handling system for handling ground-engaging wear parts used on earth working equipment includes handling tools to remove and handle wear parts from equipment and/or to install new wear parts. The tools can include a torque or other tool to engage and/or disengage a lock retained by the wear member. The handling system allows an operator maintain a distance from heavy parts being removed or installed, reducing the risk of injury.

A robot includes a replacement determination unit (73) determining timing to replace a cover attachable to and detachable from part of a surface of a robot main member in accordance with a determination standard corresponding to usage of the robot, and a cover replacement unit (77, 78) controlling processing of replacing the cover with the robot main member on the basis of a result of the determination.

A tool changer 30 with a master half 32 and tool half 34. Mating member 60, 138 enables the master half 32 and tool half to mesh with one another. A securing mechanism has a clasp 70 and a cam 72. The clasps 70 move between a release position and a grasping position. In the grasping position, the master 32 and tool halves 34 are secured together with one another. The cam 72 moves the clasps 70 between the release and grasping positions. From a release position, the master half 32 engages the tool half 34. The master half 32 moves horizontally with respect to the tool half 34. This, in turn, moves the cam 72 from its release position to its grasping position. In the grasping position, the clasps 70 grasp the tool half 34, the cam locks 72 in its grasping position and the master 32 and tool 34 halves secure with one another.

Disclosed herein are a cleaning robot and a method of controlling the same. The cleaning robot according to one embodiment includes a modular in which one or more modules configured to support different functions are integrated, and a controller configured to control the overall operation of the cleaning robot.

A robot system includes a robot including a robot arm, a force sensor, and a fitted portion provided at an opposite side to the robot arm via the force sensor, a tool having a fitting portion fitting in the fitted portion, and a control apparatus controlling actuation of the robot, wherein the control apparatus performs first control to detach the tool from the robot arm by driving the robot arm based on output of the force sensor and releasing fitting of the fitted portion and the fitting portion, and second control to attach the tool to the robot arm by driving the robot arm based on the output of the force sensor and fitting the fitted portion in the fitting portion.