An loading equipment and a conveying system for tank track moving supports are provided, the loading equipment includes an circular conveyor line and a loading device; the circular conveyor line includes a support frame, a baseplate is connected with the support frame, an circular guide rail is connected with the baseplate, trays are connected above the circular guide rail, fixture assemblies are connected with the trays, an circular driving part is connected with the trays; tracking cars are fixedly connected with the trays and slidably connected with the circular guide rail; the circular driving part is fixedly connected with the tracking cars. Seamless involvement of moving support from the blank transmission to the processing output process is achieved, the processing efficiency is improved, and the position of the moving support in the transportation process is definite.

An loading equipment and a conveying system for tank track moving supports are provided, the loading equipment includes an circular conveyor line and a loading device; the circular conveyor line includes a support frame, a baseplate is connected with the support frame, an circular guide rail is connected with the baseplate, trays are connected above the circular guide rail, fixture assemblies are connected with the trays, an circular driving part is connected with the trays; tracking cars are fixedly connected with the trays and slidably connected with the circular guide rail; the circular driving part is fixedly connected with the tracking cars. Seamless involvement of moving support from the blank transmission to the processing output process is achieved, the processing efficiency is improved, and the position of the moving support in the transportation process is definite.

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.

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.

An automated kiosk includes a front panel positioned in front of a conveyor with conveyor slots sized to receive clothing hangers. Dividers separate each conveyor slot from the adjacent conveyor slots, forming a compartment for each conveyor slot. Two doors are positioned in the front panel. An electronic controller moves a conveyor in order to reposition a desired compartment in front of the doors. The doors open inwardly, and are of sufficient length that the extended edge of the doors engages with and overlaps the outer edge of each of the dividers. With each door engaging the divider on each side of the compartment, a user is blocked from being able to access items that are in adjacent compartments.

An automated kiosk includes a front panel positioned in front of a conveyor with conveyor slots sized to receive clothing hangers. Dividers separate each conveyor slot from the adjacent conveyor slots, forming a compartment for each conveyor slot. Two doors are positioned in the front panel. An electronic controller moves a conveyor in order to reposition a desired compartment in front of the doors. The doors open inwardly, and are of sufficient length that the extended edge of the doors engages with and overlaps the outer edge of each of the dividers. With each door engaging the divider on each side of the compartment, a user is blocked from being able to access items that are in adjacent compartments.

The present invention provides a storage unit for Surface Mount Technology (SMT) supplies, comprising a plurality of stacks having vertically stacked storage locations for SMT supplies, a terminal for inserting and receiving SMT supplies to and from said storage unit, a first collector arm for transporting SMT supplies between storage locations and said terminal, said collector arm being moveably arranged along said stacks so as to enable engagement with the vertically stacked storage locations of a stack. Further, the plurality of stacks are arranged in at least one cluster of two or more stacks in each cluster, wherein each stack of said at least one cluster is moveably arranged in relation to said collector arm so as to allow engagement of said collector arm with different stacks of the cluster upon movement of said two or more stacks in the cluster, thereby allowing said collector arm to engage storage locations of different stacks in said at least one cluster. The present invention further provides a method for operating a storage unit for SMT supplies.

The present invention provides a storage unit for Surface Mount Technology (SMT) supplies, comprising a plurality of stacks having vertically stacked storage locations for SMT supplies, a terminal for inserting and receiving SMT supplies to and from said storage unit, a first collector arm for transporting SMT supplies between storage locations and said terminal, said collector arm being moveably arranged along said stacks so as to enable engagement with the vertically stacked storage locations of a stack. Further, the plurality of stacks are arranged in at least one cluster of two or more stacks in each cluster, wherein each stack of said at least one cluster is moveably arranged in relation to said collector arm so as to allow engagement of said collector arm with different stacks of the cluster upon movement of said two or more stacks in the cluster, thereby allowing said collector arm to engage storage locations of different stacks in said at least one cluster. The present invention further provides a method for operating a storage unit for SMT supplies.

A distribution station includes a base, a housing, a rotating shelf, a distribution vehicle, a sorting device, and a control system. The housing is provided on the base, and is provided with a goods access port and an access door. The rotating shelf is provided on the base and located in the housing. The rotating shelf includes a rotating shaft, a transmission belt, a plurality of shelf units, and a driving mechanism. The distribution vehicle enters and exits the housing via the access door and is used to transport goods. The sorting device is provided on the base and located in the housing. The sorting device is used to pick up goods and place the same between the distribution vehicle and the shelf units. The control system is used to control the driving mechanism and the sorting device.

A distribution station includes a base, a housing, a rotating shelf, a distribution vehicle, a sorting device, and a control system. The housing is provided on the base, and is provided with a goods access port and an access door. The rotating shelf is provided on the base and located in the housing. The rotating shelf includes a rotating shaft, a transmission belt, a plurality of shelf units, and a driving mechanism. The distribution vehicle enters and exits the housing via the access door and is used to transport goods. The sorting device is provided on the base and located in the housing. The sorting device is used to pick up goods and place the same between the distribution vehicle and the shelf units. The control system is used to control the driving mechanism and the sorting device.