The problem of inserting and removing a rigid gas permeable or hybrid contact lens is solved by the use of a lens manipulator. The lens manipulator includes a handle and an over-sleeve that is optionally attachable to an extraction stem, for creating a suction force to remove a contact lens, and an insertion stem, without suction force for placing a contact lens. Removal of the extraction stem from the over-sleeve eliminates the suction force and acts as a safety release against excessive pull force on an eye when removing a contact lens. A manual-release mechanism can be used to facilitate removal of the extraction stem.

According to one embodiment, a suction gripping device includes a pad mechanism mounted to a base. The pad mechanism includes a sliding part and a first guide. The sliding part includes a suction pad and a pipe and is slidable in a first direction with respect to the base. The suction pad attaches to a workpiece and is connected to the pipe at one end of the pipe. The first guide guides a sliding direction of the pipe to be in the first direction. The first guide is fixed with respect to the base. An attachment surface of the suction pad contacts a first surface of a workpiece and is tiltable due to a weight of the sliding part when gripping the workpiece. The first surface crosses a sliding direction of the sliding part.

A robot hand apparatus includes a first holder having a first sucking surface that is bendable at any position and configured to suck an object using negative pressure; a second holder arranged to oppose the first sucking surface of the first holder; and a driving mechanism configured to change a distance between the first holder and the second holder to sandwich the object between the first holder and the second holder.

Various embodiments relate to magnetically moveable displacement devices or robotic devices. Particular embodiments provide systems and corresponding methods for magnetically moving multiple movable robots relative to one or more working surfaces of respective one or more work bodies, and for moving robots between the one or more work bodies via transfer devices. Robots can carry one or more objects among different locations, manipulate carried objects, and/or interact with their surroundings for particular functionality including but not limited to assembly, packaging, inspection, 3D printing, test, laboratory automation, etc. A mechanical link may be mounted on planar motion units such as said robots.

A robotic leg includes a hip, a first pulley attached to the hip and defining a first axis of rotation, a first leg portion having a first end portion and a second end portion, a second pulley rotatably coupled to the second end portion of the first leg portion and defining a second axis of rotation, a second leg portion having a first end portion and a second end portion, and a timing belt trained about the first pulley and the second pulley for synchronizing rotation of the first leg portion about the first axis of rotation and rotation of the second leg portion about the second axis of rotation. The first end portion of the first leg portion is rotatably coupled to the hip and configured to rotate about the first axis of rotation. The first end portion of the second leg portion is fixedly attached to the second pulley.

An article movement apparatus detects information about articles in an accumulation area, picks up one or more articles based on the detected information with a robot arm, then detects the holding state of the articles held on the robot arm, and measures a separation distance between held articles and a sorting area of a conveyance path. When a plurality of held articles is held by the robot arm, an article is selected from amongst the plurality according to distance from the article and to a surface of the sorting area. The selected article is then released to the sorting area.

A lens manipulator that includes an over-sleeve with a suction cup and lumen therethrough that forms a pore in the suction cup and a rod opening at the opposite end for receiving an adjustment rod. Adjustment of the length of the adjustment rod in the lumen controls the amount of suction force generated under the suction cup against a contact lens. Removal of the adjustment rod from the lumen eliminates the suction force and acts as a safety release against excessive pull force on an eye when removing a contact lens.

A robot hand apparatus includes a first holder having a bendable first sucking surface that sucks an object using negative pressure; and a second holder having a bendable second sucking surface that sucks the object using negative pressure. The first holder and the second holder are arranged such that the first sucking surface opposes the second sucking surface. When the first holder and the second holder hold the object, in a state in which the first sucking surface is bent at a first position and the second sucking surface is bent at a second position, the object is sucked to a region of the first sucking surface between the first position and a distal end of the first holder, and the object is sucked to a region of the second sucking surface between the second position and a distal end of the second holder.

A suction-cup end effector conforms to and grasps objects upon application of vacuum force. The suction cup assembly can have isotropic stiffness in a plane defined by a contact surface of the suction cup assembly and thus can conform regardless of the orientation of the suction cup to the object. The suction cup includes a foam suction cup body, a thin structural ring to provide a spring bias toward a rest position, and a sealing membrane within the structural ring to seal the suction cup.

A system including a programmable motion device and an end effector for grasping objects to be moved by the programmable motion device is disclosed. The system includes a vacuum source that provides a high flow vacuum such that an object may be grasped at an end effector opening while permitting a substantial flow of air through the opening, and a dead-head limitation system for limiting any effects of dead-heading on the vacuum source in the event that a flow of air to the vacuum source is interrupted.