Disclosed is an automatic identification and classification production line for waste mobile phones and a classification method of waste mobile phones. The production line comprises a feeding device, an automatic separation feeding device, a conveying chain, a data acquisition device, a computer identification device, a conveying device and a classified storage device, wherein the feeding device is used for orderly and directionally arranging and sequentially conveying a plurality of waste mobile phones; the automatic separation feeding device is used for intermittently separating the waste mobile phones conveyed by the conveying device; the conveying chain comprises an annular chain and a plurality of transparent boxes; the data acquisition device comprises a detection frame, two plane mirrors, a video camera and a light source; the computer identification device is used for extracting feature information according to front and back images of the waste mobile phones and then carrying out identification and classification.

An apparatus for supporting a guiderail for guiding one or more articles conveyed along a conveyor having a conveying path in a conveying direction. The apparatus includes a mount for mounting to the conveyor. The mount includes a support rail for supporting the guide rail, which support rail may have a length in the conveying direction less than a length of the conveyor. The support rail may include one or more stops for engaging one of a pair of movable supports. The supports may be slidably mounted to the support rail for adjusting a position of the guiderail relative to the conveyor in a direction transverse to the conveying direction. Related methods are also disclosed.

An automated biological or chemical sample processing system includes a dock frame and at least one dock frame module. The dock frame includes at least one docking interface that operably couples and interfaces the dock frame with laboratory equipment. The dock frame defines a spine structure of the system alongside which a variable number of laboratory equipment are arrayed. The dock frame extends longitudinally and has a variable elongated configuration and longitudinal length. The at least one dock frame module includes the docking interface, where each module is interchangeable with another module, and has control features with a predetermined relationship to a reference datum of the dock frame module and with a reference datum of the dock frame so that the at least one dock frame module is interchangeably coupled in linear configuration with at least the other dock frame module to select the variable elongated configuration and longitudinal length.

A permanently fixed or transportable power generation station employs one or more shelter structures, containing a chain or series of photovoltaic solar panels on wheeled support frames, each hinged one to the next. The system can be deployed onto a large, relatively flat land area, e.g., unprepared or prepared land surfaces, where the solar panel chain(s) can be extended out and secured by various attachment methods which may include external tracks, cable or bracket attachment systems. Wind turbines on the housings can be raised or tipped up for collection of wind-generated energy. The captured energy is stored in a bank of housed storage batteries and can be delivered to the local electric grid, used for electric vehicle charging stations or provided for primary or back-up power to critical infrastructure.

An automated biological or chemical sample processing system includes a dock frame and at least one dock frame module. The dock frame includes at least one docking interface that operably couples and interfaces the dock frame with laboratory equipment. The dock frame defines a spine structure of the system alongside which a variable number of laboratory equipment are arrayed. The dock frame extends longitudinally and has a variable elongated configuration and longitudinal length. The at least one dock frame module includes the docking interface, where each module is interchangeable with another module, and has control features with a predetermined relationship to a reference datum of the dock frame module and with a reference datum of the dock frame so that the at least one dock frame module is interchangeably coupled in linear configuration with at least the other dock frame module to select the variable elongated configuration and longitudinal length.

A pouch feeding assembly includes a conveyor lane having a load end and a transfer end, wherein the conveyor lane includes a conveyor operable to move pouches in a conveyance direction from the load end to the transfer end, wherein the transfer end of the conveyor lane includes a downwardly facing pouch transfer window over which pouches at the transfer end are positioned. A transfer subassembly including a first transfer mechanism and a second transfer mechanism, the first transfer mechanism configured to engage a lower face of a pouch, pull at least part of the pouch down through the pouch transfer window and transfer the pouch to an infeed point of the second transfer mechanism.

An automated laboratory system includes a vertical shelving system including a frame and at least one shelf movably mounted to the frame such that the at least one shelf is movable relative to the frame between a docked position and an undocked position, the at least one shelf being configured to carry at least one instrument. The system also includes a robotic device proximate the vertical shelving system and being configured to access the at least one instrument carried by the at least one shelf.

Present embodiments relate to a tie plate orientation device. More specifically, but without limitation present embodiments relate to a tie plate orientation device that orients tie plates in a desired orientation for subsequent feeding, including an optional handheld magnetic device for manual assisted manipulation of the tie plates.

Provided is a relay goods picking system, the system includes: a plurality of carrying robots, a manual picking area, auxiliary pickup tools for manual goods picking which store goods for manual picking, a robot picking inventory container area provided with a plurality of inventory containers used for storing goods and being carried by the plurality of carrying robots, operating positions and a control system capable of communicating with the plurality of carrying robots and manual picking persons. For a mixed order which involves both goods in the manual picking area and goods in the robot picking rack area, under control of the control system, a person-to-goods picking mode and a goods-to-person picking mode are used to complete the goods picking.

Provided is an article transport apparatus which can transfer an article to a transfer target portion at a low height. A movable member having a support portion includes a transfer mechanism for moving an article between the support portion and a transfer target portion. The transfer mechanism includes an interlocking portion capable of being interlocked with an article along the front-and-back direction, a first guide portion for guiding the interlocking portion along the front-and-back direction, and a second actuator for moving the interlocking portion along the front-and-back direction. The transfer mechanism moves an article between the support portion and the transfer target portion by moving the interlocking portion along the front-and-back direction. The first guide portion and the second actuator are located higher than an article supported by the support portion.