A sheet feeding apparatus includes a support portion; a feed unit; an air blowing unit including an air blowing portion, a first air outlet, and a second air outlet; and a control unit, wherein the first air outlet is disposed to blow the air in a case where the sheet is a first sheet or a second sheet shorter than the first sheet, wherein the second air outlet is disposed to blow the air in a case where the sheet is the first sheet, and wherein in a case where the sheet is the first sheet, the control unit controls the amount of fan airflow to a first airflow, whereas in a case where the sheet is the second sheet, the control unit controls the amount of the fan airflow to a second airflow larger than the first airflow.

A banknote transport system 10 includes: an air blowing tube 100 that forms an air flow path 101; a moving body 200 that travels inside the air blowing tube while receiving an air flow within the air blowing tube; a transport path 401 (a transport tube 400) having at least a portion arranged along the air blowing tube to be adjacent to the air blowing tube; and a transport body 500 configured to be able to retain a banknote and traveling inside the transport path. The moving body includes a moving body magnet 213, and the transport body includes a transport body magnet 523. The banknote transport system moves the transport body in conjunction with movement of the moving body receiving the air flow due to attraction and/or repulsion based on a magnetic force applied between the moving body magnet and the transport body magnet.

An image forming apparatus includes: an image forming section that forms an image to be formed on a recording medium; a sending out section that sends out a gas to be supplied to the image forming section; an accommodating section that is at least partially disposed below the sending out section and that accommodates the recording medium; and a receiving section that is disposed between a lower portion, which is a portion of the accommodating section positioned below the sending out section, and the sending out section, and receives a falling object from the sending out section.

A sheet transport assembly is provided for transporting a sheet along a process unit configured for applying a process to the sheet. The sheet transport assembly includes: a conveying unit including a transport belt and a deflection element. The transport belt is configured for advancing the sheet in a transport direction along the process unit to the deflection element, the sheet being placed with a contact side on the belt and a process side towards the process unit. The deflection element is arranged in contact with the transport belt to deflect the transport belt downstream in the transport direction relative to the process unit. The sheet transport assembly further includes a separating unit for separating the sheet from the transport belt. The separating unit is connected to an air supply source. The separating unit includes a restrain blowing device arranged for directing a restrain air flow onto the process side of the sheet in a restrain area for urging the sheet towards the transport belt proximate to the deflection element. The separating unit further includes a lifting blowing device arranged for directing a lifting air flow onto the contact side of the sheet in a lifting area for lifting the sheet from the transport belt. The lifting area is arranged extending only over a middle portion of a width of the sheet, the width being a dimension of the sheet in a lateral direction perpendicular to the transport direction.

A sheet takeout device has a feeding section, a takeout section, an air blowout section. The feeding section has a bottom wall with which one sides of a plurality of stacked sheets come in contact, and holds the plurality of sheets. The takeout section takes out the tipmost sheet by suction from the plurality of sheets, and sends out the tipmost sheet in a sending direction. The air blowout section blows out air toward between the one side of the sheet to be sucked by the takeout section and the one side of the sheet next to this sheet. The air blowout section has a first air blowout portion arranged at a position corresponding to a forward portion of the sheet in the sending direction, and a second air blowout portion arranged at a position corresponding to a backward portion of the sheet in the sending direction.

A sheet conveyor apparatus includes an air turn bar and a hood. The air turn bar turns back a strip-shaped sheet conveyed along a predetermined conveyance passage. The hood includes an inner circumferential surface that opposes an outer circumferential surface of the air turn bar. The outer circumferential surface of the air turn bar includes ejection holes ejecting air toward one surface of the sheet. The inner circumferential surface of the hood includes suction holes sucking air from the other surface of the sheet.

To downsize a curved transport route through which a transport target is transported without being deformed. A transport path 401 includes a first curved transport tubular-body unit 415B having a first curved shape in which a bottom surface 411B located beside an air blowing tube 100 bulges into a convex shape toward the air blowing tube. The first curved transport tubular-body unit is configured to increase a distance H between the bottom surface and a top surface 413B opposite to the bottom surface from each end portion toward an intermediate portion in a transport direction x to prevent a banknote P retained by a transport body 500 from coming into contact with the top surface.

A feeding system and a battery-cell winding apparatus. The feeding system comprises: a placement device provided with a support surface, wherein the support surface is configured for the placement of a support member; a feeding device configured to transfer the support member to the support surface; and a transfer device, which is connected to the placement device and is configured to drive the placement device to move, so as to transfer the support member onto a separator or an electrode plate, which is wound by means of a winding mechanism.

A sheet stacking device includes a stacker, a conveyor, and a marking device. The stacker stacks transfer sheets. The conveyor conveys the transfer sheets toward the stacker in a sheet conveyance direction. The marking device includes a marker storage to store a marker, an ejection port to eject the marker, a marker conveyor to convey and eject the marker from the ejection port, and a guide to prevent the marker ejected from the ejection port from moving in a direction opposite to the sheet conveyance direction. The marking device places the marker on an uppermost sheet of each predetermined number of the transfer sheets on the stacker.

A sheet conveying apparatus includes: a first conveying portion in which a band-shaped sheet including a first surface and a second surface is conveyed with the first surface facing downward; a turning portion located downstream of the first conveying portion and flips the sheet with the first surface facing inward; and a second conveying portion located downstream of the turning portion. The turning portion includes a convex curve along which the sheet is flipped. The convex curve includes a first and a second air ejection portions. The first air ejection portion is located in an upstream end region and ejects air toward the first surface of the sheet. The second air ejection portion is located downstream of the upstream end region and ejects air toward the first surface. The first air ejection portion ejects air to generate flotation larger than that of the second air ejection portion.