An object of the invention is to provide a banknote storing/feeding unit which is capable of effectively utilizing winding spaces of a drum and a reel, to increase the number of banknotes to be stored. The banknote storing/feeding unit includes the drum which winds and rewinds a banknote together with a tape, and the reel which winds and rewinds the tape on and from the drum. A guide body swinging according to winding and rewinding of the tape and the banknote on and from the drum is provided between the drum and the reel. The guide body has a guide passage that guides the tape and the banknote to be wound and rewound on the drum. The guide body swings centering on a supporting point located within a region parallel to a virtual line connecting a rotational center of the drum and a rotational center of the reel.

An image forming apparatus includes a photosensitive drum, a light exposure device, a developing device, a fixing unit disposed opposite to the light exposure device relative to the developing device, a sheet supply tray disposed below the developing device, an ejection tray disposed above the developing device and having a sheet receiving surface inclined downward, relative to a horizontal direction, toward the charger, and a sheet conveying path through which a sheet is conveyed from the sheet supply tray to the ejection tray. A lowest end portion of the sheet receiving surface is disposed below an upper end of the charger in the vertical direction. The charger is disposed opposite to the developing device relative to the lowest end portion of the sheet receiving surface.

To provide a transfer apparatus correcting a curl of a card efficiently while preventing the card from deteriorating, a printing apparatus includes a transfer section transferring a transfer surface of a transfer film to the card, a rotating unit reversing the front side and back side of the card in two-sided transfer, a decurl mechanism correcting a curl of the card with the transfer surface transferred in the transfer section, and a control section controlling the decurl mechanism. The control section controls the decurl mechanism such that a correction amount for the card with the transfer surface transferred to one surface in two-sided transfer is smaller than a correction amount for the card in one-sided transfer, and that the total sum of correction amounts for respective surfaces of the card in two-sided transfer is smaller than the correction amount for the card in one-sided transfer.

A reversing unit has a drive roller, a discharge roller for forming a first nip portion N1 together with the drive roller, and a conveyance roller for forming a second nip portion together with the drive roller. The reversing unit moves any one of the rollers and nips a sheet at a plurality of nip portions when moving the roller to switch the nip portion for nipping a sheet from a first nip portion to a second nip portion and change the sheet conveyance direction from a first direction to a second direction.

A sheet-feeding device includes: a first feeding roller configured to contact a sheet accommodated in a sheet-accommodation portion to feed the sheet; a second feeding roller movable between a non-feeding position and a feeding position; a driving source configured to generate a rotational driving force to the first feeding roller; a transmission portion configured to transmit the rotational driving force to the second feeding roller; a first sensor; a second sensor; and a roller actuating portion. The roller actuating portion is configured to: move the second feeding roller from the non-feeding position to the feeding position in a case where the second detector detects rotation of the first feeding roller is stopped during a sheet-feeding operation; and move the second feeding roller from the feeding position to the non-feeding position in a case where the first sensor detects the sheet-feeding operation is completed for the sheet.

When a user opens an opening/closing portion for accessing an inside of a housing, a shaft member is displaced in a +Z direction by a biasing force of a spring, and moves a lever member in the +Z direction. A rotation shaft rotates in a +? direction along with displacement of the shaft member in the +Z direction. As a result, a cam rotates in the +? direction together with the rotation shaft, and presses, by a projection portion, a cam reception portion of an arm unit main body in a ?X direction against the biasing force of the spring. Due to this, the cam rotates the arm unit main body in a ?? direction. Then, a driven roller moves the +Z direction along with rotation of the arm unit main body in the ?? direction, and is switched from a nip state to a non-nip state.

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.

Disclosed herein is a medium conveying apparatus in which the time for unjamming can be shortened. The medium conveying apparatus includes rollers configured to convey a card Ca, a rotary unit F provided in a medium conveyance path and configured to hold and rotate the card Ca, a sensor SN26 arranged downstream the rotary unit F on the medium conveyance path and, and a control section. The control section controls a first card-conveyance motor for driving the rollers to convey the card Ca into the rotary unit F, and determines whether the sensor SN26 detects the card Ca. The sensor SN26 is arranged at the same distance as a sensor SN3 or a shorter distance than the sensor SN3, from the rotary unit F.

A reversing unit has a drive roller, a discharge roller for forming a first nip portion N1 together with the drive roller, and a conveyance roller for forming a second nip portion together with the drive roller. The reversing unit moves any one of the rollers and nips a sheet at a plurality of nip portions when moving the roller to switch the nip portion for nipping a sheet from a first nip portion to a second nip portion and change the sheet conveyance direction from a first direction to a second direction.

An image forming apparatus includes an apparatus main body, a sheet feed cassette, and a conveyance unit. The sheet feed cassette is attachably/detachably supported by the apparatus main body. The sheet feed cassette includes pressing portions provided on both sides thereof in the sheet width direction. The movable guide includes pressed portions provided on both sides thereof in the sheet width direction. By the pressed portions abutting on the pressing portions, the movable guide is pushed up by the sheet feed cassette, and the movable guide is positioned with respect to the fixed guide. The pressing portion provided on another side of the sheet feed cassette in the sheet width direction includes an adjusting mechanism that adjusts pressing force against the pressed portion provided on another side of the movable guide in the sheet width direction to enable adjustment of pressure abutment force between the conveyance rollers.