A diverting conveyor has an array of transmissions having powered output rollers that form a conveying surface for selectively diverting articles from a first direction to a second direction. Each transmission has a timing belt pulley to operably engage with a toothed timing belt, and each is configured to simultaneously rotate the output roller from the first direction to the second direction in response to actuation of an actuator. When the timing belt pulley engages with the teeth of the timing belt, the output roller of an actuator is rotated around an axis perpendicular to the conveying surface to a rotational position that is a multiple of the tooth spacing of the timing belt. Each output roller has a driven direction resulting from the engagement of the timing belt with the timing belt pulley. An adjuster is provided to align the driven directions of the array of output rollers.

A lift-up roller arrangement for electronic float glass, including a plurality of lift-up rollers rotatably arranged on the inner wall of an annealing kiln, wherein a plurality of boron nitride rings are fixedly sleeved on the outer side wall of each lift-up roller; a heat-resisting steel tubes is arranged on each of both sides of each lift-up roller; a plurality of exhaust holes are arranged on an outer side wall of the heat-resisting steel tube; the heat-resisting steel tube is in communication with an external hot gas supply case; and a plurality of cleaning assemblies used in cooperation with the lift-up rollers are arranged at the inner bottom of the annealing kiln.

The invention discloses a regulation jig including a regulation part and a scale plate which are movably connected. The regulation part can simultaneously regulate positions of conveying rings having the same sequence, such that they are arranged into a line. The scale plate can accurately control the distance between the lines formed by the rings. The regulation jig not only can guarantee the straightness of a row of conveying rings around different conveying rollers and having the same sequence, but also can ensure that the transmission surface formed by the conveying rings for supporting and conveying the display substrates has a good flatness, in turn preventing the display substrates from deviating from its travelling direction during the transmission. As such, the regulation jig provided by the invention can efficiently and promptly regulate the positions of the conveying rings, so as to ensure the normal transmission of the display substrate.

A power drive unit for moving cargo relative to a cargo bay of an aircraft is disclosed herein. The power drive unit includes a lift cam coupled to camshaft, a drive wheel coupled to a drive shaft, and an induction motor having a first output shaft and a second output shaft, the first output shaft configured to drive the drive shaft and the second output shaft configured to drive the camshaft.

Provided are a motor unit and a conveyance device. In a motor unit having a motor portion and a gear portion, the motor portion is formed by accommodating a most part of a drive motor in a housing member. The gear portion is formed by arranging at least a part of a drive gear and a plurality of small gear portions in a space surrounded by an inner tooth train portion, and the plurality of small gear portions is positioned around the drive gear in the space. Each of the plurality of small gear portions meshes with one of the drive gear and the inner tooth train portion, and each of the plurality of small gear portions rotates by rotation of the drive gear. At least a part of the gear portion is at a position overlapping the motor portion in plan view.

Apparatuses, systems, methods, and/or the like are provided for a transfer apparatus. An example transfer apparatus includes a bed having a first plurality of balls and a second plurality of balls having a first and second diameter, respectively, and wherein at least one of the first plurality of balls and at least one of the second plurality of balls are configured to rotate relative to the bed, wherein at least one belt of the plurality of belts is operably engaged with the at least one ball of the first plurality of balls or the at least one ball of the second plurality of balls; and a driver operably connected to the at least one belt of the plurality of belts, wherein the driver is configured to power the at least one belt of the plurality of belts.