A compact and cost effective Media Dispenser Cassette Mechanism (MDCM) in the ATMs, which functions as a complete cash and media dispenser on its own. Each Media Dispenser Cassette (MDC) comprises a cover head assembly (101), a main frame assembly (102), a bottom cover assembly (103) and a top cover assembly (104). The main frame assembly (102) comprises a main path roller assembly (301), a motor assembly (302), a picker assembly (303), a shaft driver assembly (304), a Printed Circuit Board (PCB) mounting plate assembly (305), a note pick assembly (306), an idler assembly (307), a roller assembly (316), and a main transport and a roller assembly (320). The MDC independently controls transporting and delivers note by note which is collected by bunch of cash presenter and then delivered to the user as a bunch of cash thereby shortening the note travel, eliminating jam conditions and note rejections.

The present invention is directed to providing to a bundle module of a medium deposit device capable of not only arranging leading ends of rejected bill media which are returned to the bundle module but also preventing collision between a leading medium and a following medium and a jam occurrence of the media according to the collision. In the present invention to implement the objectives, a bundle module of the medium deposit device, in which deposit media in units of bundles are input or which receives rejected bill media in units of bundles, includes a transfer path which provides a deposit path or reject path of media, a first belt which is provided above the transfer path and rotatably driven, a second belt which is provided under the transfer path and rotatably driven and on which the media are loaded and stacked, and a guide unit which is provided at one side of the first belt to provide a transfer surface for the deposited or rejected media, wherein, when the media are rejected, the guide unit rotates to be inclined downward toward one side so that a leading end portion of a rejected following medium is positioned on and overlaps a rear end portion of a rejected leading medium.

A system for detecting the level of a media supply in a printer has a frame having a support for seating the printer thereon. A first light source is positioned on the support and is energizable to direct a first beam of light into the printer. A first detector is positioned on the support and provides an analog signal in response to reflection of the first beam of light from within the printer. A control logic processor is in signal communication with the first detector and compares the analog signal to a stored/predetermined value and reports a low media condition according to the comparison.

A system for detecting the level of a media supply in a printer has a frame having a support for seating the printer thereon. A first light source is positioned on the support and is energizable to direct a first beam of light into the printer. A first detector is positioned on the support and provides an analog signal in response to reflection of the first beam of light from within the printer. A control logic processor is in signal communication with the first detector and compares the analog signal to a stored/predetermined value and reports a low media condition according to the comparison.

A compact and cost effective Media Dispenser Cassette Mechanism (MDCM) in the ATMs, which functions as a complete cash and media dispenser on its own. Each Media Dispenser Cassette (MDC) comprises a cover head assembly (101), a main frame assembly (102), a bottom cover assembly (103) and a top cover assembly (104). The main frame assembly (102) comprises a main path roller assembly (301), a motor assembly (302), a picker assembly (303), a shaft driver assembly (304), a Printed Circuit Board (PCB) mounting plate assembly (305), a note pick assembly (306), an idler assembly (307), a roller assembly (316), and a main transport and a roller assembly (320). The MDC independently controls transporting and delivers note by note which is collected by bunch of cash presenter and then delivered to the user as a bunch of cash thereby shortening the note travel, eliminating jam conditions and note rejections.

A sheet processing apparatus includes a transfer section, a fixing section, a feed section, a discharge port, an upstream side retention section, a downstream side retention section and a controller. The upstream side retention section is arranged at the upstream side with respect to the transfer section and retains a sheet conveyed from the feed section. The downstream side retention section is arranged at the downstream side with respect to the fixing section and retains the sheet conveyed from the fixing section. The controller stops conveyance of the sheet to the discharge port. The controller controls discharging of the front end of the sheet retained at a most downstream side to the discharge port, conveys the sheet from the upstream side retention section to the downstream side retention section, and conveys the sheet from the feed section to the upstream side retention section.

The present invention provides a medium processing device and medium transaction device that may increase stability by shortening a conveyance path. Namely, a banknote deposit/withdrawal device includes a conveyance section that forms a linear conveyance path along a front-rear direction inside an upper section block, in the vicinity of a boundary with a lower section block. An upper section storage box is disposed in the vicinity of a rear side terminal end of a rear conveyance section. Counterfeit notes are conveyed to the upper section storage box using a switching section. Accordingly, due to keeping the conveyance path length short, the banknote deposit/withdrawal device may reduce the frequency of occurrence of faults, such as banknote jams, and may prevent the circulation of counterfeit notes by storing counterfeit notes segregated from genuine banknotes, reject banknotes, and the like.

Disclosed are a paper discharging mechanism and printing device having the same. The paper discharging mechanism includes: a frame provided with a paper outlet thereon; a swinging rack, configured to be swingable relative to the frame; a conveying roller assembly provided on the swinging rack; a first drive assembly, which is in a transmission connection with the conveying roller assembly and configured to drive the same to deliver a paper to the paper outlet; a first detection assembly, configured to detect a position of the swinging rack relative to the frame; the swinging rack swings in a direction away from the paper outlet when the paper outlet is blocked.

A printer apparatus includes a printer main body having a platen roller and a print head to print on recording paper, a cutter unit configured to cut the recording paper, and a presenter unit connected to the cutter unit, wherein the recording paper on which the print head has printed enters the presenter unit through the cutter unit, and comes out from a discharge slot of the presenter unit, wherein the presenter unit includes a first roller and a second roller configured to convey the recording paper placed therebetween, and a flapper disposed along a transportation path of the recording paper between the cutter unit and both the first roller and the second roller, and configured to be flipped open to an outside of the presenter unit to expose the transportation path, wherein an angle at which the flapper is open is selectively set to one of a plurality of different angles.

A reject storage box is provided with a sufficiently thick cover body above a second storage space that stores banknote bundles W that a user has forgotten to take, and a guide space is provided penetrating the cover body in an oblique direction. In the reject storage box, when a banknote bundle falls into an intake hole from above, a lower face of the banknote bundle immediately contacts a position toward the top of a main guide face, and the banknote bundle W travels downward through the guide space with the lower face of the banknote bundle W sliding against the main guide face. The reject storage box thereby enables the banknote bundle dropping downward through the guide space to be maintained in a substantially uniform orientation, and ultimately enables the banknote bundle to be stacked neatly inside the second storage space.