An unloading device includes a loading assembly, an unloading assembly, and an alignment assembly. The loading assembly includes a loading rack and a loading tray. The unloading assembly includes a conveyor belt and a movable rod. The movable rod pushes the loading tray toward the conveyor belt. The alignment assembly includes a sensing member, a processor, and a driving member. The sensing member senses a first distance between different positions of the loading tray and the sensing member. A second distance is defined between the sensing member and the loading rack. The processor calculates a position deviation of the loading tray relative to the conveyor belt and controls the driving member to drive the loading rack to move to compensate for the position deviation.

A transfer device to transfer an article by moving the article in a front-rear direction includes a base portion, a support plate movable in the front-rear direction with respect to the base portion and able to support a bottom surface of the article, a front-rear actuator that actuates the support plate in the front-rear direction with respect to the base portion, a suction device that is provided on the base portion to be movable in a vertical direction to suction a side surface of the article, and a vertical actuator that actuates the suction device at least in an ascending direction with respect to the base portion and supports the suction device to be detachable from the suction device in a descending direction.

An unloading apparatus includes a holding apparatus configured to hold side peripheral surfaces of a holding target article group, which is an article subgroup in one level among a plurality of article subgroups in a plurality of levels which article subgroups are included in the stacked article group, in such a manner as to hold the holding target article group and an article subgroup above the holding target article group; a first transport apparatus configured to receive at least one article subgroup held by the holding apparatus from the holding apparatus, and transport the at least one received article subgroup; a retrieval apparatus configured to retrieve one or more articles from an article subgroup in an uppermost level in the stacked article group; and a second transport apparatus configured to transport the stacked article group from the retrieval apparatus to the holding apparatus.

An electrical connection device for connecting a plug, preferably a HV pin header, to a printed circuit board in a motor vehicle, having the following: at least one first electrical connection-device for contacting at least one assigned plug-connector contact; at least one second electrical connection-device contact for contacting at least one assigned printed-circuit-board contact wherein at least one first connection-device contact at least one second connection-device contact are connected to one another, wherein the electrical connection device is configured in such a manner that at least one printed-circuit-board contact is able to be selectively connected to assigned plug-connector contacts which differ in terms of the relative disposal thereof in relation to the printed-circuit-board contact and/or differ from one another in that said plug-connector contacts are a component part of plug connectors which differ from one another in terms of the configuration of the respective plug-connector contacts thereof.

A machine (100) for unstacking objects (10) includes a belt mechanism (110, 120, 121, 130) having a conveyor belt (110), a first drive mechanism (115) for driving the conveyor belt (110), a second drive mechanism (120, 121) for shifting the conveyor belt (110) between a forwarded position and a retracted position, and a third drive mechanism (130) for adjusting a height position of the conveyor belt (110). Further, the machine (100) includes a gripper mechanism (150, 160) having a gripper (150) and a fourth drive mechanism (160) for moving the gripper (150) between different height positions. A controller of the machine (100) is configured to control the gripper mechanism (150, 160) to grip an end portion of an uppermost object (10) of a stack (20) and lift the end of the uppermost object (10), to control the second drive mechanism (120, 121) and the third drive mechanism (130) to position a forward end of the conveyor belt (110) below the lifted end portion of the uppermost object (10), and to control the first drive mechanism (110) and the second drive mechanism (120, 121) to operate in a coordinated manner by shifting the conveyor belt (110) towards the forwarded position while at the same time driving the conveyor belt (110) in a backwards direction to draw the uppermost object (10) onto the conveyor belt (110).

According to one embodiment, a holding apparatus includes a holding part, a rotating part, a supporting part, and a moving mechanism. The holding part is configured to hold an article. The rotating part is configured to rotate the holding part. The supporting part is configured to support the article from below. The moving mechanism is configured to move the holding part with respect to the supporting part.

A cargo handling apparatus includes a first conveyor portion, a first detection portion, a second conveyor portion, a gripping portion, a second detection portion, and a controller. The first conveyor portion is configured to convey an article to be handled in a first direction. The first detection portion is configured to detect article information. The second conveyor portion is configured to convey the article in a second direction. The gripping portion is configured to arrange the article in an accumulating portion. The second detection portion is configured to detect stacking information. The controller is configured to control operation of the gripping portion based on the article information and the stacking information.

The problem of potentially damaging a pallet layer that is gripped by clamps of a depalletizing tool is solved i) by detecting the real position of the layer using a pad on the tool that is movable with the clamps towards the pallet layer and whose detected stopping position determines the real position of the layer, and ii) while the layer is gripped by the clamp, by inserting under the layer curtains; the pressure on the layer by the clamps being adapted to the ease to go underneath the layer.

A depalletizer having a pallet station for receiving a pallet load of cases disposed in pallet load layers, a robot with an end effector having a grip to grip and pick at least one of the layers and having a grip engagement interface defining a predetermined layer engagement position and orientation for the layer(s), relative to the depalletizing end effector, a vision system to image the pallet load of cases and generate at least one image of a top portion of the layer(s) independent of robot motion, and a controller that receives the image(s) and effects determination of a layer position and orientation of the layer(s) relative to the predetermined layer engagement position and orientation of the grip engagement interface, and the controller is operably coupled to the robot so as to position the grip and capture and hold the layer(s) with the grip at the grip engagement interface.

According to one embodiment, a holding apparatus includes a holding part, a rotating part, a supporting part, and a moving mechanism. The holding part is configured to hold an article. The rotating part is configured to rotate the holding part. The supporting part is configured to support the article from below. The moving mechanism is configured to move the holding part with respect to the supporting part.