The disclosure relates to an end effector arrangement having an end effector for a manipulator and having a control for the end effector, wherein the end effector has a tool arrangement having a plurality of gripper devices for holding a planar workpiece, wherein at least one gripper device has a Bernoulli gripper unit, which has a discharge unit for channeling a flow S.sub.B from the Bernoulli gripper unit between gripper device and workpiece in a manner such that, in a delimited region between gripper device and the workpiece, the flow S.sub.B generates a low pressure for holding the workpiece, and wherein at least one gripper device has a different gripper unit, which carries the workpiece according to a physical principle which differs from that of the Bernoulli gripper unit.

The present disclosure discloses an automated dispensing machine adopting local coverage type sucker array and a control method thereof. The automated dispensing machine adopting local coverage type sucker array comprises a rack. A medicine obtaining device and a medicine weighing and discharging device are arranged on the rack. The control method comprises: (1), after receiving medicine grasping and discharging commands, a single-chip microprocessor firstly selects a current medicine obtaining station according to a medicine obtaining station circulation sequence, and then controls the first linear driver to push the slide to move forwards to the selected medicine obtaining station; (2), the single-chip microprocessor transmits the control signal to a fifth relay to control the second linear driver to drive the vacuum medicine sucking mechanical arm to move downwards.

A robotic arm includes a suction tool including a suction mechanism, a first pump, and a second pump. The first pump is operable to provide a first suction force and a first flow rate to the suction mechanism, and the second pump is operable to provide a second suction force and a second flow rate to the suction mechanism. A connection member places the first pump and the second pump in fluid communication with the suction mechanism.

According to one embodiment, transfer equipment includes: a first negative-pressure generation source; a plurality of first vacuum suction parts; a sensor part; and a first determination circuit. The sensor part configured to acquire a plurality of measured values corresponding to the negative pressure of each of the first vacuum suction parts. The first determination circuit configured to set a first threshold value based on the measured values and determine a vacuum suction state of the first vacuum suction parts corresponding to the measured valued based on the first threshold value and the measured values.

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.

A robotic system includes an end effector with one or more fin grippers that have one or more vacuum ports. The fin grippers are made of elastic material. The fin grippers each include contact and exterior flanges joined together with a series of crossbeams. The crossbeams each define a tube opening to form a tube guide channel between the contact and exterior flanges. In one form, the vacuum ports are located at fingertip ends of the fin grippers, and the vacuum ports include vacuum cups.

A system is disclosed for providing high flow vacuum control to an end effector of an articulated arm. The system includes a high flow vacuum source that provides an opening with an area of high flow vacuum at the end effector such that objects may be engaged while permitting substantial flow of air through the opening, and a load detection system for characterizing the load presented by the object.

Disclosed is a device for the automatic removal of rejected eggs from an incubation tray, whereby the device includes a suction power above the egg to suck up the egg, and the device further includes a blowing power against the bottom of the egg to blow away the egg, whereby the blowing power blows an air flow or overpressure against the bottom of the egg. Also disclosed is a method for the automatic removal of one or more rejected eggs from an incubation tray.

A surface mounter comprising a stage including a mounting portion at which a component is mounted on a substrate, a substrate transferring device to transfer the substrate to the mounting portion, a component feeding device to feed the component toward the mounting portion, a component mounting device including a mounting head and that mounts the component on the substrate, a pickup nozzle that picks up and holds the component and releases the component on the substrate, a shaft member that switches a pressure applied to the pickup nozzle between negative pressure and positive pressure, and a drive unit that includes a drive source, a movable portion that moves using power from the drive source, and a cam follower, wherein the drive unit moves the movable portion to perform first and second movement operations of the shaft member.

Laying die includes an attaching element having an inlet port for receiving positively pressurized gas; and a carrier body made from an elastically deformable material and attached on a lower side of the attaching element. The carrier body includes passages enabling a gas flow between the attaching element and the lower side of the carrier body opposed to the attaching element. The attaching element houses a flow path arranged to receive pressurized gas from the inlet port and a longitudinal pathway extending from the lower side of the attaching element towards an upper side of the attaching element. The flow path discharges into the longitudinal pathway at a junction section, which is arranged such that pressurized gas discharging into the longitudinal pathway creates a negative pressure and comprises a curved deflection surface curved towards the upper side of the attaching element.