A coffee machine includes a housing that comprises a first platform, a second platform, a first robotic arm, a second robotic arm, and an information handling system. The information handling system comprises a memory and a processor. The memory is configured to receive and store a multiple beverage orders in a log and to monitor a position of a first cup and a second cup corresponding to a first beverage order and a second beverage order. The processor is configured to initiate a second sub-step of the second beverage order prior to initiating a second sub-step of the first beverage order in response to determining that a first sub-step of the second beverage order has terminated first and to transmit to the log of the memory that the second cup is at the third designated position for the second sub-step of the second beverage order to be performed.

A coffee machine includes a first housing and a second housing, wherein the second housing is disposed on top of the first housing. The second housing comprises a first platform, a second platform disposed below the first platform, and a lift disposed at a first side of the second housing and configured to translate between the first platform and the second platform. The second housing further comprises a first robotic arm disposed above the first platform, a second robotic arm disposed between the second platform and the first platform, and a coffee brewing machine actionable to dispense one or more fluids into a cup. The coffee machine further comprises an information handling system comprising a processor, wherein the processor is configured to actuate the first robotic arm, the second robotic arm, the coffee brewing machine, and the lift.

A system for picking items from a containerised storage system is described. The items are stored in storage bins in stacks within a framework comprising a grid system disposed above the stacks of bins. Robotic devices are disposed on the grid, the devices acting so as to pick containers from the stacks of bins. The storage system is provided with at least one picking device for picking items from bins and depositing them directly in delivery containers DT.

The present invention refers to an automated painting system on oil ships, being executed by a mobile platform and an oscillating arm. The assembly only works due to the control of cables, winders and wheels. This approach is aimed at painting large vertical walls. The painting deck suspension uses four cables, each connected to a pivot on the mobile platform, and two fixed pivots plus four winders. The winders contain a servo motor in a synchronous serial network. The cables are made of reduced-weight polyethylene. Each cable is connected exclusively to one winder. Suspension is achieved with the aid of two adapted cranes and initialization through the addition of a giraffe-type crane.

The present invention refers to an automated painting system on oil ships, being executed by a mobile platform and an oscillating arm. The assembly only works due to the control of cables, winders and wheels. This approach is aimed at painting large vertical walls. The painting deck suspension uses four cables, each connected to a pivot on the mobile platform, and two fixed pivots plus four winders. The winders contain a servo motor in a synchronous serial network. The cables are made of reduced-weight polyethylene. Each cable is connected exclusively to one winder. Suspension is achieved with the aid of two adapted cranes and initialization through the addition of a giraffe-type crane.

An example robotic device includes: a circumferential carriage configured to drive the robotic device along a rail configured to be mounted to a curved surface, the circumferential carriage comprising: (i) a frame base, (ii) a frame mounted to the frame base, (iii) one or more wheels coupled to the frame base and configured to engage with the rail, (iv) a worm gear arrangement, and (v) a main drive gear coupled to the worm gear arrangement and configured to engage with a rack disposed on the rail; and a transversal carriage comprising: (i) a cross slide slidably mounted to the frame, (ii) a transversal rack coupled to the cross slide, (iii) a cross slide motor mounted to the circumferential carriage, and (iv) a cross slide drive gear coupled to the cross slide motor and having gear teeth engaging with respective teeth of the transversal rack.

An example robotic device includes: a circumferential carriage configured to drive the robotic device along a rail configured to be mounted to a curved surface, the circumferential carriage comprising: (i) a frame base, (ii) a frame mounted to the frame base, (iii) one or more wheels coupled to the frame base and configured to engage with the rail, (iv) a worm gear arrangement, and (v) a main drive gear coupled to the worm gear arrangement and configured to engage with a rack disposed on the rail; and a transversal carriage comprising: (i) a cross slide slidably mounted to the frame, (ii) a transversal rack coupled to the cross slide, (iii) a cross slide motor mounted to the circumferential carriage, and (iv) a cross slide drive gear coupled to the cross slide motor and having gear teeth engaging with respective teeth of the transversal rack.

A smart moving platform for transport of components in manufacturing includes a vehicle body, a transmission device, a conveying system, a detection device, a tag installation device, a control unit, and a tag reader. The conveying system conveys components. The detection device detects a location of the component and in a first predetermined area, the tag installation device installs and activates a tag on the component. The control unit writes component information to the activated tag and sets a predetermined period. The tag starts to count time elapsing, and the conveyor belt conveys the component to a second predetermined area. The tag reader reads the component information, the elapsed time, and a predetermined period of the tag. When the elapsed time matches the predetermined period, the conveying system sends the component to a third predetermined area.

An apparatus for transferring a container from a first station to a second station of a container forming line includes a frame, a slide mounted to the frame, and a robotic arm mounted to the slide and movable along the slide between the first station and the second station. The robotic arm includes an end effector operable to remove the container from the first station. The frame is removably coupleable to at least one of the first station and the second station such that the apparatus is transportable to a different container forming line.

A compact cleaning apparatus including a robot with a narrow range of motion is provided. The cleaning apparatus includes: a cleaning chamber; a cleaning station; a drying station; a separation wall; a single axis robot including a column arranged adjacent to a side surface, a linear guide extending vertically, and a vertical moving saddle movable vertically; an arm portion including a first rotation saddle rotatable about a second axis extending vertically, a first arm swingable about a third axis extending horizontally and extending orthogonal to the third axis, a second arm rotatable about a fourth axis orthogonal to the third axis, a second rotation saddle rotatable about a fifth axis orthogonal to the fourth axis, a third rotation saddle rotatable about a sixth axis orthogonal to the fifth axis; and a hand for gripping a workpiece.