An umbilical member arrangement structure capable of properly arranging an umbilical member in a parallel link robot. A first additional actuator is arranged on a passive link part of a parallel link robot. An Umbilical member is withdrawn from an opening formed on a generally circular bottom surface of a base part, while having a margin, approaches the passive link part, while extending in an intersecting direction with respect to a longitudinal direction of the passive link part, and is connected to the first additional actuator. The intersecting direction means a direction extending at an angle of 70 to 110 degrees, preferably 80 to 100 degrees, more preferably about 90 degrees, with respect to the longitudinal direction of the passive link part.

A work device includes a base unit, a movable unit configured to have an end effector mounted thereto, linking mechanisms linking the base unit to the movable unit, actuators fixed to the base unit for driving the plurality of linking mechanisms, respectively, and a controller that moves the end effector by operating the actuators. A certain linking mechanism out of the plurality of linking mechanisms includes a joint. The controller includes a joint angle determination unit that determines whether or not a bending angle of the linking mechanism at the joint is within an operable range.

A displacement mechanism includes a base, three rails, three arm assemblies, a moving platform, and three parallel linkage assemblies. The rails stand on the base. Each of the arm assemblies has a first end and a second end. The first ends are slidably connected to the rails, respectively. Each of the arm assemblies is configured to swing in a space among the rails. The moving platform is parallel to the base. Two ends of each of the parallel linkage assemblies are connected to the second end of the corresponding arm assembly and the moving platform in a multidirectional rotating way, respectively. Each of the arm assemblies substantially extends away from the base from the corresponding rail, and each of the parallel linkage assemblies substantially extends toward the base from the second end of the corresponding arm assembly.

A force-feedback surface that creates and modulates distinctive profile and stiffness to interact with a user in contact thereto, the surface being functionally independent to be used as a single module but can be customized to extend the application in diverse fields by assembling in series, parallel, or any combinations to form a multimodular system.

A versatile, compact, and high-fidelity haptic device is provided. The mechanical transparency of the design and the selection of proper actuation meet the challenges of an accurate and stiff haptic device with high and isotropic force capability. Such a haptic interface enables a precise remote control and provides perfect sense of the task interaction in any environments and applications.

A parallel link robot includes a base, a movable member, and multiple arms that connect the base and the movable member in parallel. Each of the arms includes: a drive link that is rotationally driven by a motor in the base; two parallel passive links that couple the drive link and the movable member; ball joints between the drive link and the corresponding passive link and between the movable member and the corresponding passive link; and attachment mechanisms that detachably attach the ball joints to the corresponding drive link or the movable member. Each ball joint includes a ball and a fixed part integral with the ball. At least one of the attachment mechanisms includes: a first screw hole in the fixed part; a second through-hole in the drive link or the movable member; and a screw member that is fastened to the first screw hole through the second through-hole.

A parallel robot includes a base casing, a plurality of arms, and an end unit. The base casing contains a plurality of actuators. Each of the arms is coupled to one of the actuators. The end unit is coupled to the plurality of arms. A communication hole for allowing piping and/or wiring to continue is formed in the base casing at its side facing the end unit.

An industrial robot may include a main body part; a plurality of levers having base end sides turnably connected with the main body part; a plurality of arm parts having respective base end sides turnably connected with respective tip end sides of the plurality of the levers; a movable part which is turnably connected with the respective tip end sides of the plurality of the arm parts; and a plurality of turning drive mechanisms for respectively turning the plurality of the levers. The plurality of the levers may radially extend to an outer peripheral side of the main body part at a substantially equal pitch. The arm part may provided with two arms which are mutually parallel to each other and are formed in a straight shape.

An extended-reach assist device for an assembly task includes a base mechanism and a compliant end-effector. The articulated base mechanism provides one or more passive degrees of freedom. The end-effector is connected to the base mechanism, and has one or more active or passive degrees of freedom collectively configured to react to contact forces with the assist device when completing the dexterous assembly task. A weight of the end-effector is supported by the base mechanism. The end-effector may be optionally configured as a passive device configured to produce a remote center of compliance or as a robot mechanism. A mechanism may actively or passively augment a force applied by the operator. A sensor may detect a signature indicative of successful task completion, e.g., an acoustic, visual, or audio sensor.

A platform for a parallel robot, for acting on an object, including: at least two frames comprising at least two pairs of swivels; at least two bridges that are connected to each of the frames respectively by four hinges which are substantially parallel to an axial direction (V); and a base to be connected to an effector, which is suitable for acting on the object.

The base is connected to each bridge respectively by at least one hinge which is oriented along a connection axis which is substantially parallel to the axial direction.