The present disclosure generally relates to pick and place robotic systems. An exemplary system for orienting an object comprises: a scanner configured to detect a label on the object; an upper conveyor belt; a flipping conveyor belt located at an end of the upper conveyor belt, wherein the upper conveyor belt is configured to transport the object toward the flipping conveyor belt, wherein the flipping conveyor belt is configured to, in a first orientation or position, rotate and exert a frictional force on the object to reorient the object while the object is in contact with the upper conveyor belt, wherein the flipping conveyor belt is configured to, in a second orientation or position, allow the object to drop off the end of the upper conveyor belt.

The present disclosure generally relates to pick and place robotic systems. An exemplary apparatus for vacuum-gripping a deformable bag comprises: a primary chamber, wherein a proximal end of the primary chamber is connected to an air flow source, and wherein the primary chamber is configured to, upon an activation of the air flow source, receive a portion of the deformable bag via a distal end of the primary chamber; a secondary chamber surrounding the primary chamber, wherein the secondary chamber is connected to the primary chamber via a plurality of connections to allow for air passage, and wherein the activation of the air flow source causes a lateral wall of the primary chamber to grip the portion of the deformable bag via pressure differential between an inside of the deformable bag and the secondary chamber.

The present disclosure generally relates to pick and place robotic systems. A compliance mechanism comprising: a motion device; an end effector coupled to the motion device, wherein the end effector comprises: a sheath structure; a rod, wherein the compliance mechanism is configured to: when the distal end of the rod is in not contact with an object, causing the distal end of the rod to move responsive to movement of the motion device, and when the distal end of the rod is in contact with an object and the motion device moves toward the object, causing the distal end of the rod to remain stationary by causing the sheath structure to move along a longitudinal direction of the rod.

The present disclosure generally relates to pick and place robotic systems. An exemplary compliant mechanism comprises: a motion device, wherein a distal surface of the motion device comprises a first plurality of magnetic components; an end effector, wherein the end effector comprises: a second plurality of magnetic components arranged on a proximal surface of the end effector in a same configuration as the first plurality of magnetic components, a rod, and an elongated member extending through a hole in the proximal surface of the end effector, wherein: a proximal end of the elongated member is affixed to the distal surface of the motion device, and the elongated member comprises an end stopper piece configured to prevent a distal end of the elongated member from passing through the hole in the proximal surface of the end effector.

Embodiments of the present disclosure provide improved methods and apparatus for coupling a probe to an instrument device manipulator (e.g., robotic arm). In some embodiments, a probe, which may be carried by a handpiece, is configured to couple to the end of a device manipulator of a robotic arm. A transmission can be provided that is configured to couple to the probe and also couple to the instrument device manipulator. The transmission can be configured to receive motion input from the instrument device manipulator and transfer the motion input into motion of the probe. The transmission can provide improved movement of the probe. By decreasing the number of components on the handpiece and probe, the handpiece and probe can be provided as a sterile, single use consumable device and the transmission can be reused.

A gripper for a transport system of a picking device having horizontal storage surfaces for storing and dispensing small piece goods of different shapes and/or surface properties is provided. The gripper comprises a drop table extending in first and a second horizontal directions and having a storage and dispensing end face. Two elongated gripping jaws are arranged above the drop table extending in the first horizontal direction, and are fastened to a gripping jaw guide arrangement. At least one of the gripping jaws is movable in the second horizontal direction and at least one of the gripping jaws has a gripper coupler in its end portion facing away from the gripping jaw guide arrangement, and at least one transport attachment with an attachment coupler. The gripper and attachment couplers interact so that a transport attachment is releasably fixed at an end portion of a gripping jaw.

Disclosed are a pick tip apparatus method interchanging pick tip assemblies within the same. The pick tip apparatus includes a housing having a housing channel. The apparatus further includes a fitting connected to the housing channel. The fitting is configured to accept an external vacuum source for applying a vacuum to the housing channel. The apparatus further includes a magnet and a pick tip assembly. The pick tip assembly is releasably held within the housing channel magnetically by the magnet. The pick tip assembly includes a vacuum cup and a pick tip body. The pick tip body has a pick tip body channel in communication with the housing channel and configured to apply the vacuum from the housing channel to the vacuum cup.

High precision end effectors for robots and adapters that provide attachment of the end effectors to a variety of robotic arms are disclosed. The combination provides for harmless break-away of the end effector on collision, and autonomous tool changer capability for mobile robots.

An end effector attachment apparatus is an apparatus to be attached to an end effector of a robot. The end effector attachment apparatus includes a base plate, a mount plate on which the end effector is mounted, an attraction mechanism for attracting the mount plate to the base plate, and a bellows coupling the mount plate to the base plate. The front and rear edges of the bellows are sealed to the base plate and the mount plate to secure a sealed space inside the bellows.

End effector tool changers for a robotic system are disclosed. The end effector tool changer is physically compact, mechanically robust, has high radial strength, prevents undesirable rotations, uses minimal sensory input, is suitable for a wide variety of tools, and operates quickly. The end effector tool changer includes a robotic arm attachment portion, including a first magnetic part and a plurality of first engagement parts, and a tool attachment portion, including a second magnetic part and a plurality of second engagement parts, where the plurality of first engagement parts is configured to engage with the plurality of second engagement parts, each of the plurality of first engagement parts and each of the plurality of second engagement parts are selected from the group consisting of a pin and a pin groove, and the first magnetic part spatially and magnetically corresponds to the second magnetic part.