A system for bringing producing oil and gas from a subsea gathering manifold or wellhead, including a loop having an upper end at the surface and a lower end below the surface, the loop rotatable around a closed path, and production vessels attached to the cable loop, each production vessel having a hollow interior, the weight of the plurality of production vessels sufficient, when filled with seawater, to cause the production vessels to sink, the plurality of production vessels each having an inlet pipe. The system also includes a plurality of receivers attached to the production gathering manifold or wellhead that receive production fluid, the receivers engaging production vessels and filling them with well fluid while seawater is discharged from the production vessels, the production fluid having a lower density than ambient seawater so that the production vessels become buoyant when filled with the production fluid.

A vertical washer or dryer, such as integrated into an egg handling operation. The vertical washer or dryer includes a vertically extending body supporting a carousel conveyor adapted to support pluralities of eggs during transport in successive ascending and descending fashion within the body between an inlet location and an outlet location of the body. A first egg conveyor communicates the eggs with the inlet location of the carousel conveyor, a second egg conveyor communicating the eggs with the outlet location. A least one of a plurality of egg washer spray bars or, in the separate variant, a plurality of egg dryer air knives, are integrated into the body in communication with the carousel conveyor for washing/drying the eggs while supported upon the carousel conveyor.

A shuttle for logistics includes a vehicle body, a supercapacitor, a straight wheel, a straight motor, a transverse wheel, a transverse motor, a synchronous belt, a position sensor, a charging contact, a lifting motor, a lifting frame, a second synchronous belt, an encoder, a PLC controller, a lifting cam, a lifting position sensor, a telescopic fork, a finger, a telescopic fork position sensor, a telescopic fork motor, an antenna, and a controller. A bottom of the vehicle body is provided with the straight wheel and the transverse wheel, and a level of the straight wheel is lower than that of the transverse wheel. The straight motor and the transverse motor are arranged on the vehicle body, respectively. The straight motor is linked to the straight wheel, and the transverse motor is linked to the transverse wheel. The supercapacitor is arranged on the vehicle body.

A method for producing vehicles, in which vehicle bodies are conveyed through multiple treatment devices in order to carry out multiple work steps. In two successive work steps, work processes of different types are carried out on the vehicle bodies. The vehicle bodies are conveyed at least from a corrosion protection treatment process to a final assembly process in a surface treatment system for treating the surface of the vehicle bodies at least along some regions by a driverless transport system that has a plurality of floor-bound transport carriages which travel on a travel floor and each of which carries a dedicated drive system and is driven and moved independently of one another. Furthermore, a surface treatment system is provided for treating the surface of vehicle bodies using multiple treatment devices, wherein a driverless transport system is provided that includes a plurality of floor-bound transport carriages, on each of which a respective vehicle body is secured and which travel on a travel floor, and each transport carriage carries a dedicated drive system and can be driven and moved independently of one another.

A carrying device for receiving goods, which comprises a carrying wall, having a front wall and a rear wall, and a closing device, having at least one closing structure for releasably connecting the front wall to the rear wall in a closed state. The carrying wall is here arrangeable between the closed state and an open state, wherein in the closed state, it delimits a carrying volume for receiving the goods at least partially to the front, bottom and rear, and wherein in the open state, it opens up the carrying volume in the downward direction. The at least one closing structure is arrangeable, in the open state, at a spacing from the carrying wall.

A process for recognizing the orientation of a fruit (F), having a central axis of symmetry passing through the concave parts of the fruit (F), comprises an initial measurement step in which the measuring instrument measures its distance from the sample fruit (Fo), an individual measurement step of each fruit (F) to be treated travelling on the fruit multiple lanes tape (7), a comparison step in which the distance measured in the individual measurement step of each fruit (F) to be treated is compared with the distances measured in the initial measurement step of the sample fruit (Fo), in order to assess whether the distance measured in the individual measurement step is that one of a concave part of the fruit (F) or that one of a convex part of the fruit (F), and a check step that determines that the fruit (F) is correctly oriented or not. An apparatus that embodies this method is also described.

An apparatus for conveying an article in a conveying direction is provided. A conveyor includes a plurality of modular links and one or more removable connectors for interconnecting adjacent links of the plurality of modular links to form an endless chain for conveying the article in the conveying direction, at least one of the links comprising an upper link surface sloping in both the conveying direction and a transverse direction, thereby forming an apical region for contacting and supporting the article for conveyance along at least a forward run in the conveying direction.

A pallet conveying apparatus includes a pair of straight rails configured such that a pallet is movably mounted thereon, a pallet linear feeding unit configured to convey the pallet mounted on the straight rails, a pair of curved rails provided in a curved manner to couple both end parts of the pair of straight rails, and a pallet curved feeding unit configured to convey the pallet mounted on the curved rails.

A pallet conveying apparatus includes a pair of straight rails configured such that a pallet is movably mounted thereon, a pallet linear feeding unit configured to convey the pallet mounted on the straight rails, a pair of curved rails provided in a curved manner to couple both end parts of the pair of straight rails, and a pallet curved feeding unit configured to convey the pallet mounted on the curved rails.

In one embodiment, the present disclosure includes an automated delivery system apparatus comprising a mechanical guide, a movable unit coupled to the guide on a first surface, and an engaging unit configured to couple to a second surface separated from the first surface by a thickness. The engaging unit is configured to engage an item on the second surface. A magnetic binding force between the movable unit and engaging unit moves the engaging unit along a path corresponding to a path of the movable unit. The engaging unit moves an item along a least a portion of the path.