An example apparatus includes a media receiving portion having a leading edge receiving region and a trailing edge receiving region for receiving media traveling onto the media receiving portion in a direction from the trailing edge receiving portion the leading edge receiving portion. The example apparatus further includes a leading edge stop coupled to the media receiving portion at the leading edge receiving portion. The leading edge stop is resiliently coupled to the media receiving portion to bias against movement of the leading edge stop from a resting position.

A sheet discharge device includes a discharge member, a discharge tray and a stopper. The discharge tray includes a groove and a fixed magnetic body. The groove is formed along a discharge direction. The fixed magnetic body is disposed at a predetermined position along the groove. The stopper includes a guide piece, a contact piece and a moving magnet body. The guide piece is engaged with the groove in a slidable manner. With the contact piece, the leading edge of the sheet is allowed to be come into contact. The moving magnetic body generates a magnetic force in a direction in which the moving magnetic body and the fixed magnetic body are attracted each other. When the guide piece is slid along the groove and the moving magnetic body reaches the predetermined position, a resistance is applied to a sliding movement of the guide piece by the magnetic force.

A medium ejecting apparatus includes a housing including an ejection port to eject a medium, a tray provided below the ejection port, to load the medium ejected from the ejection port, and a medium regulating member accommodated in the housing so as to be drawn out. The medium regulating member includes a medium contacting portion capable of regulating a position of a front end of the medium on the tray in a medium ejecting direction, a first supporting portion to support the medium contacting portion, and a second supporting portion to swingably support the first supporting portion.

A banknote stacking and separating apparatus and a banknote processing apparatus relate to automated machinery. The banknote stacking and separating apparatus includes a frame, and a guide plate and a pressing plate that are disposed on the frame. The frame is provided with an entrance-and-exit for a banknote. One end of the guide plate adjacent to the entrance-and-exit is pivotally connected to the frame, and the guide plate is operative to rotate around an axis of a pivoting shaft and is configured to guide a moving direction of the banknote when the banknote is being collected. The pressing plate is configured to support the collected banknotes and press the banknotes towards the guide plate while the banknotes are being separated. One end of the guide plate far away from the entrance-and-exit is provided with a force-releasing portion configured to support the guide plate when the pressing plate presses the banknotes towards the guide plate, thus creating a gap between the guide plate and the banknotes supported by the pressing plate.

A sheet container includes a housing, a stacking part provided in the housing so that recording sheets are stacked on the stacking part, a contact part to be brought into contact with edges of the recording sheets in a length direction on the stacking part in an attached state in which the contact part is attached into the housing, a connection member connected to the stacking part or the housing and having an extension part longer than the stacking part in the length direction, and a retreater that retreats the contact part in the attached state from the extension part with the connection member connected to the stacking part or the housing.

The invention relates to a stacking device (10) for placing sheet-shaped elements (P) in stacks in a forming machine (1), said stacking device (10) comprising: a movable stacking surface (11), and an actuating device (12) for moving stacking surface (11): between a retracted position and a vertical forward position in a reciprocating back-and-forth motion for stacking sheets, and between the retracted position and a stowed position to open an access to the stack of sheet-shaped elements (P), characterized in that the actuator (12) comprises cam means configured to move the stacking surface (11) upwardly in the retracted position, in a raised position to be located above the top of the sheet stack.

The invention also relates to a machine forming sheet-shaped elements comprising at least one such stacking device.

A recording apparatus includes a lower unit having a recording section configured to perform recording on a medium, and an upper unit disposed on the lower unit, the upper unit including a reading section configured to read an image of the document, in which the lower unit includes a medium discharge section configured to discharge the medium toward the rear of the apparatus, and a medium receiving section disposed on the apparatus rear side with respect to the medium discharge section, the medium receiving section being configured to receive the medium discharged, and the upper unit is shorter than the lower unit in the apparatus front-rear direction and the upper unit is closer to the apparatus front with respect to the lower unit such that an end portion of the medium receiving section in the medium discharging direction is exposed at the rear of the upper unit.

A recording apparatus includes a lower unit having a recording section configured to perform recording on a medium, and an upper unit disposed on the lower unit, the upper unit including a reading section configured to read an image of the document, in which the lower unit includes a medium discharge section configured to discharge the medium toward the rear of the apparatus, and a medium receiving section disposed on the apparatus rear side with respect to the medium discharge section, the medium receiving section being configured to receive the medium discharged, and the upper unit is shorter than the lower unit in the apparatus front-rear direction and the upper unit is closer to the apparatus front with respect to the lower unit such that an end portion of the medium receiving section in the medium discharging direction is exposed at the rear of the upper unit.

An image forming apparatus includes an apparatus body, a sheet stacking portion on which a sheet discharged from the apparatus body is to be stacked, an extension member, and an upper device. The extension member is rotatable about a rotating fulcrum between a first position at which the extension member is stored in the sheet stacking portion and a second position at which the extension member extends to downstream of the sheet stacking portion in a sheet discharge direction in which the sheet is discharged from the apparatus body. The upper device is disposed above the rotating fulcrum of the extension member and is supported to be openable by the apparatus body. The upper device in a closed state regulates a rotation of the extension member from the first position toward the second position.

A sheet discharge device includes a discharge member, a discharge tray and a stopper. The discharge tray includes a groove and a fixed magnetic body. The groove is formed along a discharge direction. The fixed magnetic body is disposed at a predetermined position along the groove. The stopper includes a guide piece, a contact piece and a moving magnet body. The guide piece is engaged with the groove in a slidable manner. With the contact piece, the leading edge of the sheet is allowed to be come into contact. The moving magnetic body generates a magnetic force in a direction in which the moving magnetic body and the fixed magnetic body are attracted each other. When the guide piece is slid along the groove and the moving magnetic body reaches the predetermined position, a resistance is applied to a sliding movement of the guide piece by the magnetic force.