An object processing machine for processing a plurality of objects, the machine comprising: a plurality of processing modules, each processing module having a modular structure co-operable with the modular structure of another processing module to form a modular assembly constituting the object processing machine; each processing module being operable to perform a corresponding processing operation on an object and being provided with at least one transfer unit located at a respective port of the processing module; each transfer unit being arranged to transfer an object to or from the corresponding processing module and/or to or from a transfer unit of another processing module of the modular assembly; the transfer units being arranged to co-operate with one another and/or with another processing unit such that objects can be guided from an input of the machine to an output of the machine via a plurality of different transport pathways through the machine, wherein the transport pathway taken by a said object being processed corresponds to the pre-determined processing operations to be performed on the said object. A method of processing a plurality of objects using such a machine is also described.

Systems and methods where a delay time between a first card processing mechanism, such as a drop-on-demand printer that prints with UV curable ink, and a second card processing mechanism, such as a UV curing station, can be altered to adjust the travel time of the card from the first card processing mechanism to the second card processing mechanism. First and second card buffers can be provided between the first card processing mechanism and the second card processing mechanism. Each of the first and second card buffers is independently logically controlled to permit independent control of the transport time of a card through each card buffer. Alternatively, a single card buffer or more than two card buffers can be provided between the first card processing mechanism and the second card processing mechanism.

A conveyance mechanism capable of attaining high conveyance performance and protecting a conveyance object and a mechanism itself, a medium processing device and a conveyance method using the conveyance mechanism are provided to solve the problem. The conveyance mechanism includes a conveyance passage which is a passage where a conveyance object is conveyed, a conveyance member moving the conveyance object along the conveyance passage, a motor driving the conveyance member, a control part controlling an output torque of the motor, a conveyance state identifying means identifying a conveyance state that is a position and/or a conveyance direction of the conveyance object in the conveyance passage, and a storage part which upper limit torque information which is an upper limit value of an output torque allowable for the motor or a parameter value required for calculation of the upper limit value is registered for each type of the conveyance state.

A media processing device includes: a housing having an opening providing access to a cassette removably supported within the housing; a media unit holder configured to receive a rejected media unit driven between the opening and a body of the cassette along a media reject path; the media unit holder including: a deck having a support surface between a body of the cassette and the opening, the support surface facing the opening; the deck configured to receive the rejected media unit on the support surface for removal of the rejected media unit via the opening.

An example disclosed output hopper includes a cavity to receive media units from an output of a media processing device, the cavity to cause the media units to form a stack in a first direction; a first door pivotably movable between a closed position and an open position, the first door to retain the media units in the cavity when in the closed position; a second door movable between the closed position and the open position, the second door to retain the media units in the cavity when in the closed position; wherein the first door is configured to pivot on a first axis substantially parallel to the first direction; and the second door is configured to pivot on a second axis substantially parallel to the first direction.

A badge reel device is attachable to a user via a lanyard or an attachment clip. The badge reel device includes a housing, a retractable cord partially disposed within the internal volume of the housing and extending through the aperture of the housing for attachment to a badge, an attachment clip on the housing (with the attachment clip being configured for attachment to the user to wear the badge reel device in a first wearing mode), and a lanyard attachment structure on the housing (with the lanyard attachment structure being configured for attachment to a lanyard, for the user to wear the badge reel device in a second wearing mode).

Methods and systems of producing collectible cards are disclosed. An example method includes producing a first stack of cards including a first card type and a second card type from a single substrate sheet, separating the first stack of cards into a first sub-stack and a second sub-stack. The first sub-stack includes the first card type and the second sub-stack includes the second card type. The example method includes comparing a first top card of the first sub-stack to a first reference card and, based on the first top card being substantially similar to the first reference card, automatically transferring the first sub-stack to a first tray designated to receive the first card type.

In a sheet feeder, an input passage has input and output ends and an input location. A first feeder module includes: a first input roller disposed on the input end; a first output roller disposed on the output end; and a first sensing device being disposed near the first input roller and generating a first signal transmitted to a processor upon sensing presence of a first medium. A second feeder module includes: a second input roller disposed on the input end; a second output roller disposed on the output end; and a second sensing device being disposed at the input location and generating a second signal transmitted to the processor upon sensing presence of a second medium. An image acquiring device acquires an image of the first or second medium. The processor controls enabled and disabled states of the first and second feeder modules. A control method of the processor is also provided.

The present disclosure relates to systems, methods, non-transitory computer readable medium that may be directed to sorting collectable cards. Systems and methods consistent with the present disclosure may move a card such that an image of that card can be acquired an sent to a controller that matches the acquired image or other information included on that card to a feature that is associated with a collectable card. After the controller matches the image or other information on the card to the feature, the controller may identify a bin where the card should be placed and then the controller may cause the card to be dropped into the identified bin when performing a sorting function.

A card-type medium counting mechanism that calculates the number of card-type medium held so as to stack in a thickness direction, which is capable of improving the accuracy with which the number of card-type medium is counted, is provided. A card-type medium counting mechanism that calculates the number of card-type medium includes optical sensors that calculate the number of the card-type medium held so as to stack in a thickness direction of the card-type medium, a carriage to which the sensors are mounted, a circuit board that is fixed to the carriage, and a carriage driving mechanism that moves the carriage such that the sensors move along an end surface of the card-type medium. In this card-type medium counting mechanism, a processing circuit that processes an output signal from the sensors and outputs a digital signal is mounted to the circuit board.