In an embodiment, a method includes identifying a force and torque for a robot to accomplish a task and identifying context of a portion of a movement plan indicating motion of the robot to perform the task. Based on the identified force, torque, and context, a context specific torque is determined for at least one aspect of the robot while the robot executes the portion of the movement plan. In turn, a control signal is generated for the at least one aspect of the robot to operate in accordance with the determined context specific torque.

Current technologies allow a robot to acquire a tool only if the tool is in a set known location, such as in a rack. In an embodiment, a method and corresponding system, can determine the previously unknown pose of a tool freely placed in an environment. The method can then calculate a trajectory that allows for a robot to move from its current position to the tool and attach with the tool. In such a way, tools can be located and used by a robot when placed at any location in an environment.

A problem with current food service robots is making the robots safe to work around food. A solution provided by the present disclosure is a food-safe tool switcher and corresponding tool. The tool switcher can mate with a variety of tools, which can be molded or 3D printed out of food-safe materials into a single-part, instead of constructed modularly. This provides for easier cleaning.

A robot having a shaft extending in vertical directions at an end of an arm pivoting in horizontal directions around a pivot axis parallel to the vertical directions and performing work using an end effector attached to a lower end of the shaft, the shaft having a helical groove and a longitudinal groove to enable upward and downward motion in the vertical directions and pivot around an axis of the shaft, includes a ring-shaped packing having a convex portion to engage with the longitudinal groove, fitted on the shaft, and sandwiched and fixed by a stopper portion and a collar portion in an extension direction of the shaft.

A vibration reduction assembly (24) for reducing a magnitude of a vibration being transferred from a first component (14) (e.g. a robot assembly) to a second component (12) (e.g. a payload) includes a first vibration reduction system (30) and a second vibration reduction system (32). The first vibration reduction system (30) reducing vibration along a first axis that is oriented parallel with gravity. The second vibration reduction system (32) reducing vibration along a second axis that is orthogonal to the first axis. The first vibration reduction system (30) and the second vibration reduction system (32) are connected in series between the first component (14) and the second component (12).

A collar may be provided having an aperture through it through which the turret of a wafer handling robot may be extended or retracted. The collar may have one or more radial gas passages. Gas directed inwards towards the turret from the radial passage(s) may turn downward when it strikes the turret. A bellows may be optionally affixed to the bottom of the turret and to the bottom of the base such that the volume of the base occupied by the turret and the bellows remains generally fixed regardless of the degree to which the turret is extended from the base.

A robotic arm includes a plurality of joints and a plurality of links, each connecting two adjacent joints to one another in a fixed arrangement. At least one of the links includes at least one first casing shell and at least one second casing shell, wherein the first casing shell is connected to the second casing shell in a form-fitting manner in order to form a hollow link, and wherein structure connecting the casing shells includes at least one zip fastener.

A fine work assistance system is configured such that a parallel link mechanism is used for a slave manipulator activated by a master operation, and a precise motion for microsurgery or the like is performed by remote control. In a slave unit of a master-slave manipulator, the parallel link mechanism with multiple degrees of freedom is used for a link mechanism in which an end effector is movable with respect to a base. Moreover, a tip operation part is driving by a hydraulic driving mechanism such that a plurality of linear actuators supported by the base move one ends of links so as to move the end effector, and the slave unit is activated in response to a user operation on the master unit. This achieves the precise motion of the end effector and causes the end effector to perform operations for a precise work.

The invention relates to a modular exoskeleton structure that provides force assistance to a user, comprising a base module (1) comprising a lumbar belt (11) capable of surrounding the lower trunk of the user, two hip modules capable of being attached to two respective thighs of the user, and a backpack support module (14) for an exoskeleton structure, comprising: a hoop (141) designed to be anchored to the hip modules, at the hips of a user, a support rod (142) designed to extend along the back of the user and capable of being engaged in a pouch of a backpack to suspend the backpack to the backpack support module (14), wherein the rod (142) comprises a first rod element (1421) connected to the hoop (141), a second rod element (1422) capable of sliding with respect to the first rod element (1421) so as to vary a length of the rod (142), and a damper for cushioning the movement of the second rod element (1421) with respect to the first rod element (1422) caused by the walking of the user.

A joint cover is removably attached to a joint of a robot including first and second joint members, and a spherical bearing coupling the first and second joint members, wherein the bearing includes a ball shank including a shaft part fixed to the first joint member and including a ball part at one end of the shaft part, and a holder fixed to an end of the second joint member and including a ball receiver configured to enclose and support the ball part, the joint cover includes a body made of an elastic material and configured to cover the holder and the end of the second joint member, and the body includes two through-holes respectively allowing for insertion of the shaft part and the second joint member, and the joint cover includes a slit configured to open and close and to make the two through-holes continuous with each other.