A method for testing the dimensional accuracy of transportable positioning devices for the production of a motor vehicle. The method includes providing locaters on positioning devices so that each body component of the motor vehicle is accurately geometrically positioned on a respective one of the positioning devices. The method also includes moving, in a motor vehicle production cycle, the positioning devices with the respective body component positioned thereon to different workstations. The method further includes measuring, by a control unit during the motor vehicle production cycle in the workstations and/or in an inline measuring station for an acquisition of measured values in the motor vehicle production cycle, predefined measuring points on each body component positioned on the positioning device. The method additionally includes evaluating, by the control unit, the predefined measuring points to determine a dimensional accuracy of the transportable positioning device.

A method for testing the dimensional accuracy of transportable positioning devices for the production of a motor vehicle. The method includes providing locaters on positioning devices so that each body component of the motor vehicle is accurately geometrically positioned on a respective one of the positioning devices. The method also includes moving, in a motor vehicle production cycle, the positioning devices with the respective body component positioned thereon to different workstations. The method further includes measuring, by a control unit during the motor vehicle production cycle in the workstations and/or in an inline measuring station for an acquisition of measured values in the motor vehicle production cycle, predefined measuring points on each body component positioned on the positioning device. The method additionally includes evaluating, by the control unit, the predefined measuring points to determine a dimensional accuracy of the transportable positioning device.

A deviation amount is a difference between a first error that occurs when an article is placed on a first transfer destination by a first transport vehicle and a second error that occurs when the article is placed on a second transfer destination by the first transport vehicle. An nth error that occurs when the article is placed on an nth transfer destination other than the first transfer destination and the second transfer destination is acquired. In an mth transport vehicle other than the first transport vehicle, a stop position of an mth traveling body is corrected by the nth error and an mth-1 error occurring when the article is placed on the first reference platform, or by the nth error and an mth-2 error as well as the deviation amount, the mth-2 error occurring when the article is placed on the second reference platform.

A deviation amount is a difference between a first error that occurs when an article is placed on a first transfer destination by a first transport vehicle and a second error that occurs when the article is placed on a second transfer destination by the first transport vehicle. An nth error that occurs when the article is placed on an nth transfer destination other than the first transfer destination and the second transfer destination is acquired. In an mth transport vehicle other than the first transport vehicle, a stop position of an mth traveling body is corrected by the nth error and an mth-1 error occurring when the article is placed on the first reference platform, or by the nth error and an mth-2 error as well as the deviation amount, the mth-2 error occurring when the article is placed on the second reference platform.

A bucket elevator adjustable guide system for efficiently transferring and dispensing particulate material from a bucket elevator includes a head housing connected to the bucket elevator, an adjustable guide member disposed therein, an extendable and retractable adjustment member connected to the guide member, a remotely controllable drive unit coupled to the adjustment member, and a remote control. The head housing receives buckets of particulate material to be dispensed from the bucket elevator. The guide member extends in a curved arc over the buckets to engage and guide discharged particulate material into a discharge chute. Remote controls enable the drive unit to be manually or automatically controlled to cause the adjustment member to extend or retract to adjust the position and configuration of the guide member and affect the transfer and dispensing of the particulate material without physically accessing the adjustment member.

A method of controlling a transport vehicle in an article transport system in a production factory includes checking tasks for transporting articles, searching for routes for the respective tasks for a plurality of transport vehicles, calculating expected power consumption for the respective tasks of the transport vehicles, and assigning the tasks to the transport vehicles based on the expected power consumption for the respective tasks and remaining power of the transport vehicles.

A method of controlling a transport vehicle in an article transport system in a production factory includes checking tasks for transporting articles, searching for routes for the respective tasks for a plurality of transport vehicles, calculating expected power consumption for the respective tasks of the transport vehicles, and assigning the tasks to the transport vehicles based on the expected power consumption for the respective tasks and remaining power of the transport vehicles.

A holder transport apparatus according to an embodiment includes, an elevator device comprising a conveyance member which includes an ascending path and a descending path arranged along an ascending and descending circulation path that circulates, and a plurality of support plates which are attached to the conveyance member and support a holder which holds a sample container in an erect state.

A holder transport apparatus according to an embodiment includes, an elevator device comprising a conveyance member which includes an ascending path and a descending path arranged along an ascending and descending circulation path that circulates, and a plurality of support plates which are attached to the conveyance member and support a holder which holds a sample container in an erect state.

Food process-line coating apparatus for coating a stream of food product in a food process line are provided with the improvement of a permanently-installed internal cleaning-fluid circuit and a plurality cleaning-fluid distribution devices. The cleaning-fluid distribution devices are any of a rotary spray head, a spherical spray nozzle, a rotary frame or a tubular (cylindrical) rotary manifold. The rotary spray head optionally has a multitude of flat spray nozzles mounted along the arms. The spherical spray nozzle might be mounted on a columnar base, and a plurality of those might stand like pickets and aimed a laterally-extending target, like a conveyor belt's nose roller. The rotary frame might have a spaced pair of parallel manifold tubes that rotate about a common axis. The tubular (cylindrical) rotary manifold preferably has a multitude of ports or nozzles distributed at spaced locations on its outer sidewall.