An apparatus and method for transporting a plurality of articles is disclosed. The apparatus includes a wheeled chassis, and a platform disposed on the wheeled chassis. The apparatus also includes a manipulator coupled to the wheeled chassis and operably configured to load a first article of the plurality of articles at a first position on the platform, or unload the first article of the plurality of articles from the first position on the platform. The apparatus further includes at least one actuator operably configured to cause successive relative rotational movements between the manipulator and the platform to provide access to successive rotationally spaced apart positions on the platform for loading or unloading each subsequent article in the plurality of articles.

Systems and methods are directed to automated delivery systems. In one example, a vehicle is provided including a drive system, a passenger cabin; and a delivery service pod provided relative to the passenger cabin. The delivery service pod includes an access unit configured to allow for loading and unloading of a plurality of delivery crates into the delivery service pod. The delivery service pod further includes a conveyor unit comprising multiple delivery crate holding positions, the delivery crate holding positions being defined by neighboring sidewalls spaced apart within the delivery service pod such that a respective delivery crate of the plurality of delivery crates can be positioned between neighboring sidewalls, wherein the conveyor unit is configured to be rotated to align each of the delivery crate holding positions with the access unit.

Devices, systems, and methods for autonomously separating a mass of clean laundry into single articles for folding and/or packing include autonomous separating device. The device includes a platform including a plurality of sequential work volumes and a stationary floor extending between an inlet end and an outlet end of the platform, a plurality of arms disposed in series along the platform for rotating, tilting, extending, and retracting a terminal gripper of each arm into an associated work volume for grabbing at least one of a plurality of laundry articles and passing the at least one laundry article to an adjacent work volume for grasping and hoisting by an adjacent arm. The device includes a bin, platform, conveyor and/or repositioning robot adjacent the outlet end for receiving each single article one at a time as each separate article passes beyond the outlet end.

The present invention relates to gripping tongs, particularly pneumatically operated gripping tongs. The gripping tongs comprise a housing in which a preferably pneumatically operable linear drive is formed. A first and a second gripper jaw movable relative to each other and relative to the housing, in particular pivotably mounted, are further provided. To be able to detect whether a workpiece (object to be gripped) has been effectively gripped, particularly in the case of miniature gripping tongs of this type, the invention provides for one of the two gripper jaws of the gripping tongs to itself be designed as a sensor and thereby serve to emit a corresponding signal when the gripper jaws of the gripping tongs have gripped a workpiece and/or when the gripping tongs are in their closed state.

A mechanical finger has a base adapted to be connected to an actuator for being displaced in at least one degree of actuation, and has two or more phalanges. A first phalanx is rotationally connected at a proximal end to the base, and a second phalanx is rotationally connected at a proximal end to a distal end of the first phalanx. A transmission linkage providing at least one rotational degree of freedom (DOF) between the base and a distal-most one of the phalanges. Passive rotational DOF joints are between the phalanges, between the base and the first phalanx, and in the transmission linkage, whereby the mechanical finger has a passive state of actuation in which the base, the at least two phalanges and the transmission linkage remain in a constant orientation relative to one another through displacement of the base caused by the actuator absent a contact of one of the phalanges with an object, and a grasping state of actuation in which a contact of at least one of the phalanges with an object causes a variation of the orientation of at least one of the phalanges relative to the base through displacement of the base caused by the actuator.

A class of robots specifically adapted to climb periodic lattices. These relative robots are designed for a specific lattice structure and use the regularity of the structure to simplify path planning, align with minimal feedback, and reduce the number of degrees of freedom (DOF) required to locomote. These robots can perform vital inspection and repair tasks within the structure that larger truss construction robots cannot perform without modifying the structure. A particular embodiment is a robot designed to traverse a cubooctahedral (CubOct) cellular solids lattice using only two motions: climbing and turning.

The present invention is a movable robot to perform multiple tasks in a real estate construction development, the movable robot comprises a station; a movable; a processor to execute, model and combine a layout of the construction area; a user interface to receive data into a data-storage for storing layouts and instructions; a communication means to communicate with a server and other the movable robot to dynamically report the progress of the instruction, location of the movable robot and a list of future tasks; a scanning system mounted on the station to scan and to overlap the layout on the construction area; a finder system to determine a path and an x-y-z location of a target on the construction area; a movement control system to move the movable robot along the path, and a battery pack to provide power for the movable robot.

A system for separating and spreading apart an amassed plurality of deformable articles includes an elongated platform configured to receive thereon adjacent an inlet end the amassed plurality of deformable articles. A plurality of arms is disposed in series along the platform. Grippers of each of the plurality of arms are configured to grasp in sequence at least one of the amassed plurality of deformable articles and move the at least one article toward an outlet end opposite the inlet end. The system includes a surface adjacent the outlet end and a last arm in the series of the plurality of arms delivers a separated deformable article into a repositioning work volume above the surface adjacent the elongated platform. Two or more repositioning arms are disposed about the work volume at individually anchored positions for spreading apart and lowering onto the surface the spread apart deformable article for folding.

A box unpacking device includes a robot, and a cutting device. A robot hand is attached to a wrist of the robot. The robot hand has a holding device configured to hold a packed box. The cutting device has a cutting blade of which the point is oriented downward or obliquely downward. The robot can move the box held by the holding device in a vertical plane, and change an angle of the box in the vertical plane.

Devices, systems, and methods for autonomously separating and sorting a plurality of individual articles from a pile of laundry articles into two or more sorted loads for washing are described. For example, an autonomous sorting and separating system includes a stationary surface configured to receive thereon at a first location the pile of laundry articles. A plurality of actuatable grippers are disposed at spaced apart positions adjacent the stationary surface and comprise a first actuatable gripper configured to grasp, hoist, and deposit at a second location at least one of the plurality of individual articles within reach of a second actuatable gripper. A terminal gripper comprising at least one of the second actuatable gripper and another actuatable gripper is configured to release an individual article into one of the two or more sorted loads. At least one controller is in operable communication with the grippers.