An autonomous tray handling robotic system is disclosed. In various embodiments, data indicating a set of output stacks to be assembled is stored, each output stack including an associated set of trays each of a corresponding tray type. Operation of one or more robots is controlled, each robot being configured to grasp, move, and place one or more trays at a time, according to a plan, to iteratively pick trays from source stacks of trays and assemble the set of output stacks, including by building each output stack by successively placing on the output stack trays picked from one or more corresponding source stacks. Each of the robots comprises a robotic arm and a tray handling end effector configured to grasp, move, and place one or more trays without assistance from another robot.

A robotically-operated gripping device is provided and includes a frame assembly, a vacuum device, a clamping device, and a robotic arm. The vacuum device is connected to the frame assembly and configured to selectively attach to and position at least a portion of an object. The clamping device is connected to the frame assembly and provided for selectively clamping the object attached to the vacuum device. The robotic arm is connected to the frame assembly and provided for selectively positioning the vacuum device and the gripping device.

A robot gripper that takes stacked patties from a conveyor and moves then to a packaging device.

A conveyor system includes: a pick conveyor defining a picking area for a bulk flow of parcels; a place conveyor positioned downstream of the picking area; a first robot singulator and a second robot singulator, which work in parallel to transfer parcels within a picking area of the pick conveyor to the place conveyor; and a vision and control subsystem that communicates instructions to control operation of some or all of the foregoing components. The vision and control subsystem includes a target camera for acquiring one or more images of the picking area, which are processed within the system to determine the location of parcels positioned within the picking area. The vision and control subsystem can execute one or more routines or subroutines to reduce system downtime associated with image acquisition and processing, parcel transfer to the place conveyor, and/or parcel delivery to the picking area.

The feeding unit includes a base plate, and a cross member. The base plate receives the gemstones, affixed to the gemstone holders. The cross member is an automated moving member, configured such that a home position of the cross member coincides with a pre-defined point on the base plate. Accordingly, the gemstone, along with its gemstone holder, when received at the base plate is picked up by the cross member, specifically, by the first gripping member and the second gripping member, by a detachable contact established between the gemstone holder and the cross member, such that the cross member transfers the gemstone holder positioned on the base plate to a pre-defined position on the feeding unit.

An egg grasp device is provided. Such a device includes a body and a plurality of elongated members extending from the body. The elongated members are interlaced to form a sheath capable of retaining an egg. The sheath has a distal end and a proximal end at which the elongated members are operably engaged with the body. The elongated members cooperate to define an opening at the distal end through which an egg is received when the elongated members engage and deflect about an egg such that the egg is seated within the sheath. Associated systems and methods are also provided.

A substrate processing apparatus including a frame, a SCARA arm mounted to the frame at a shoulder joint having two links with at least one end effector dependent therefrom, the links defining an upper arm and a forearm, each end effector pivotally joined to the forearm at a wrist to rotate about a wrist axis, and a drive section with at least one degree of freedom operably coupled to the arm to rotate the arm about a shoulder axis articulating extension and retraction, wherein the end effector is coupled to a wrist joint pulley so that extension and retraction effects rotation of the pulley and end effector as a unit about the wrist axis, and wherein a height of the end effector is within a stack height profile of the wrist joint so that a total stack height is sized to conform with and pass through a pass-through of a slot valve.

A main mover and sub mover are made to run while changing a relative distance of the sub mover with respect to the main mover to change contact positions of cams and cam followers based on a holding position of a sheet member detected by a position detection device to thereby change a position in a horizontal plane of a holder and correct a holding position of the sheet member held at the holder to a preset reference position.

The present invention relates to the technical field of planting, in particular to a cup-loading device for planting cups, which includes a profile bracket, a horizontal driving mechanism, a pressing mechanism and a planting cup grasping mechanism fixed at an output end of the pressing mechanism, wherein the horizontal driving mechanism and the pressing mechanism are disposed on the profile bracket, an output end of the horizontal driving mechanism is connected to the pressing mechanism so that the pressing mechanism move horizontally along the profile bracket, and the planting cup grasping mechanism includes a plurality of mechanical clamping jaws and a guide device for adjusting a spacing between adjacent mechanical clamping jaws. In the prevent invention, the pressing mechanism moves to the arranged planting cups through the horizontal driving mechanism, the planting cup grasping mechanism is pushed downward by the pressing mechanism to touch the planting cup, to realize automatic grasping of the planting cups, and then the planting cups are arranged at equal distances according to the requirements through the guide device on the planting cup grasping mechanism, and then accurately fill in the planting plate through the pressing mechanism, so that the cups can be steadily clamped and accurately placed on the planting plate with equal intervals.

Logistic device, for handling a package being collected that defines a contact surface with items not being collected, including a first robotic arm including adaptive gripper having at least three degrees of freedom to modify adaptive gripper position and spatial orientation; a second robotic arm including an end effector defining a resting surface and three degrees of freedom to modify end effector position and spatial orientation; control unit to command the first robotic arm to contact the adaptive gripper and package, to deform the adaptive gripper according to adhesion surface between the package and move the package from a storage position wherein the contact surface contacts the items and a collection position wherein the contact surface does not contact the items; the second robotic arm bringing the end effector resting surface into contact with the contact surface; and then the second robotic arm to move the package.