A device for producing strip material, such as a hot strip. The device includes lateral guide elements which are arranged on both sides of the strip material and, in particular, along a roller table having several rollers, and at least one rotating wear body on each side guide element. In order to minimize the wear of guide elements when transporting the strip material over a roller conveyor, a speed control device regulates a rate of speed of the at least one wear element. Further, a position control device is provided for setting an extended position of the at least one wear element. The position control device sends control signals to a positioning drive for extending the at least one wear body to an extended position.

Disclosed are a method and apparatus for setting an object conveying speed, relating to the technical field of computers. The method comprises: acquiring historical feature data of an object within multiple predefined time periods, and constructing a conveying speed level model, which indicates a corresponding relationship between the historical feature data and a conveying speed level, and which further includes a feature index that indicates the conveying speed level (S101); acquiring feature data of an object to be conveyed, and determining, by using the conveying speed level model, the conveying speed level of the object to be conveyed (S102); and determining the conveying speed of the object to be conveyed according to the conveying speed level (S103).

Disclosed are a method and apparatus for setting an object conveying speed, relating to the technical field of computers. The method comprises: acquiring historical feature data of an object within multiple predefined time periods, and constructing a conveying speed level model, which indicates a corresponding relationship between the historical feature data and a conveying speed level, and which further includes a feature index that indicates the conveying speed level (S101); acquiring feature data of an object to be conveyed, and determining, by using the conveying speed level model, the conveying speed level of the object to be conveyed (S102); and determining the conveying speed of the object to be conveyed according to the conveying speed level (S103).

Data object information processing methods, apparatuses, and systems are provided. The data object information processing system includes a suspension chain conveyance subsystem. The suspension chain conveyance subsystem is deployed in an offline store including first operation regions and second operation regions. The suspension chain conveyance subsystem includes a control component and a conveying track. The conveying track is configured to connect the first operation regions and the second operation regions. The control component is configured to assign a second operation region according to the wave identifier after receiving a notification message from a first operation execution subsystem. First operation tasks of the wave correspond to the same second operation region. A conveyance instruction is sent to the conveying track according to the assignment result, for conveying the first operation container to the corresponding second operation region.

Data object information processing methods, apparatuses, and systems are provided. The data object information processing system includes a suspension chain conveyance subsystem. The suspension chain conveyance subsystem is deployed in an offline store including first operation regions and second operation regions. The suspension chain conveyance subsystem includes a control component and a conveying track. The conveying track is configured to connect the first operation regions and the second operation regions. The control component is configured to assign a second operation region according to the wave identifier after receiving a notification message from a first operation execution subsystem. First operation tasks of the wave correspond to the same second operation region. A conveyance instruction is sent to the conveying track according to the assignment result, for conveying the first operation container to the corresponding second operation region.

A conveyor system for moving a plurality of targets is provided. The conveyor system includes at least one input group to input the target, at least one output group to output the target, and at least one bridge group to connect the input group with the output group. Each of the input group, the output group, and the bridge group includes a plurality of nodes having a size corresponding to a size of one target. The conveyor system further includes a control unit to align the target moving on the conveyor system.

A conveyor system for moving a plurality of targets is provided. The conveyor system includes at least one input group to input the target, at least one output group to output the target, and at least one bridge group to connect the input group with the output group. Each of the input group, the output group, and the bridge group includes a plurality of nodes having a size corresponding to a size of one target. The conveyor system further includes a control unit to align the target moving on the conveyor system.

A conveyor system for moving a plurality of targets is provided. The conveyor system includes at least one input group to input the target, at least one output group to output the target, and at least one bridge group to connect the input group with the output group. Each of the input group, the output group, and the bridge group includes a plurality of nodes having a size corresponding to a size of one target. The conveyor system further includes a control unit to align the target moving on the conveyor system.

A conveyor system for moving a plurality of targets is provided. The conveyor system includes at least one input group to input the target, at least one output group to output the target, and at least one bridge group to connect the input group with the output group. Each of the input group, the output group, and the bridge group includes a plurality of nodes having a size corresponding to a size of one target. The conveyor system further includes a control unit to align the target moving on the conveyor system.

Driverless transport vehicles or DTVs, which are automatically guided vehicles, are gaining importance in the sorting of cargo. A method for loading a driverless transport vehicle with a cargo item in a transfer point, includes loading the DTV with the cargo item by using a known delivery system during the journey of the DTV. In order to prevent cargo items from falling during loading, a higher-level control sets the delivery speed of the cargo item and the speed of travel before the cargo item is transferred to the transport vehicle, such that the delivery speed component of the transport direction is equal to the speed of travel of the transport vehicle. In this way, the continued use of existing delivery systems such as are known under the term HSI (high speed induction) is possible. A system for loading a driverless transport vehicle is also provided.