According to one embodiment, a cargo handling apparatus includes a hand, a robot arm, a transfer device, a measurement device, and a control device. The hand holds an article. The robot arm moves the hand. The transfer device is arranged with the robot arm, and transfers the article. The measurement device measures a position and a size of the article. The control device performs a first operation of transferring the article to the transfer device by using the hand and the robot arm, and a second operation of transferring the transferred article by using the transfer device. The control device determines whether or not the robot arm will interfere with the transfer device or a second article on the transfer device when performing the first operation for a first article. The control device controls a start timing of the first operation according to a determination result of the interference.

A system for part transfer and transport, the system including: a first conveyor system for transporting a plurality of trays containing a two-dimensional grid of parts; a second conveyor system for transporting the parts to a predetermined destination in a linear arrangement; and a selection apparatus for transferring a linear array of parts selected from the grid of the first conveyor system to the linear arrangement of the second conveyor system, the selection apparatus comprising: a pick and place apparatus which may be cam driven for moving the parts; and a feed screw defining a plurality of singulated part spaces separated by a part pitch along the second conveyor to facilitate insertion of the linear array of parts into the linear arrangement.

A container carrier system for carrying containers, especially blister packages, and a method of carrying containers. The system includes a body having a longitudinal channel having a central portion and two side portions, the central portion having a greater depth than a depth of channel portions on either side of the central portion. The body further includes roof portions that cover the two side portions. The channel is configured to allow movement of containers only in the longitudinal direction of the channel. The blister packages may carry unit doses of medication.

A container carrier system for carrying containers, especially blister packages, and a method of carrying containers. The system includes a body having a longitudinal channel having a central portion and two side portions, the central portion having a greater depth than a depth of channel portions on either side of the central portion. The body further includes roof portions that cover the two side portions. The channel is configured to allow movement of containers only in the longitudinal direction of the channel. The blister packages may carry unit doses of medication.

A vacuum device for a material handling system includes a vacuum device body and a sealing element. The vacuum device body has a vacuum passageway in which H vacuum is generated in response to activation of a pressurized air supply that forces pressurized air through a venturi device. The sealing element moves to a sealing position to substantially seal the vacuum passageway when the air supply is activated, and is urged toward the sealing position via pressurized air that is diverted from an inlet of the vacuum device to the sealing element. The sealing element moves to substantially vent the vacuum passageway when the air supply is deactivated. The vacuum passageway may be in fluid communication with a vacuum cup, which seals against the object when the sealing element is at the sealing position and the vacuum generating device generates at least a partial vacuum in the vacuum passageway.

A vacuum device for a material handling system includes a vacuum device body and a sealing element. The vacuum device body has a vacuum passageway in which H vacuum is generated in response to activation of a pressurized air supply that forces pressurized air through a venturi device. The sealing element moves to a sealing position to substantially seal the vacuum passageway when the air supply is activated, and is urged toward the sealing position via pressurized air that is diverted from an inlet of the vacuum device to the sealing element. The sealing element moves to substantially vent the vacuum passageway when the air supply is deactivated. The vacuum passageway may be in fluid communication with a vacuum cup, which seals against the object when the sealing element is at the sealing position and the vacuum generating device generates at least a partial vacuum in the vacuum passageway.

A transfer device for removing articles from a removal zone and depositing them in a discharge zone is described. The transfer device includes a gripping head with retention elements, each configured to retain a respective article. The transfer device further includes a movement mechanism to move at least one retention element on the gripping head between a first configuration, where the retention elements are spaced apart from one another, and a second configuration, different from the first configuration, where the retention elements are brought close to one another. The movement mechanism is configured to move at least one of the retention elements between the first and the second configuration by rotation about a respective rotation axis.

A transfer device for removing articles from a removal zone and depositing them in a discharge zone is described. The transfer device includes a gripping head with retention elements, each configured to retain a respective article. The transfer device further includes a movement mechanism to move at least one retention element on the gripping head between a first configuration, where the retention elements are spaced apart from one another, and a second configuration, different from the first configuration, where the retention elements are brought close to one another. The movement mechanism is configured to move at least one of the retention elements between the first and the second configuration by rotation about a respective rotation axis.

The present invention relates to a lifting device for lifting and vertically, and possibly horizontally, replacing an object. The lifting device comprises a first unit (1) configured with one or more catching parts such as suction pads and a second unit (2) configured to control vertical and optionally horizontal position of the object. The second unit (2) comprises a first attachment position and a second attachment position and the first attachment position is fixed to a vertically extending part (3) of the first unit (1); the second attachment position is fixed to a sliding member (10) of the first unit (1) by a rigid joint configured to transfer all movements induced at the second attachment position by the second unit (2) to a sliding member (10) of the first unit configured to slide between two positions along a longitudinal member (11) of the first unit.

The present invention relates to a lifting device for lifting and vertically, and possibly horizontally, replacing an object. The lifting device comprises a first unit (1) configured with one or more catching parts such as suction pads and a second unit (2) configured to control vertical and optionally horizontal position of the object. The second unit (2) comprises a first attachment position and a second attachment position and the first attachment position is fixed to a vertically extending part (3) of the first unit (1); the second attachment position is fixed to a sliding member (10) of the first unit (1) by a rigid joint configured to transfer all movements induced at the second attachment position by the second unit (2) to a sliding member (10) of the first unit configured to slide between two positions along a longitudinal member (11) of the first unit.