There is provided an image reading apparatus in which a low output mode is a mode that can be controlled in a coupling state where a low power-feeding USB device is coupled, a high output mode is a mode that can be controlled in a coupling state where a high power-feeding USB device capable of feeding power higher than the low power-feeding USB device is coupled, and a control section does not perform image reading at a second reading speed faster than a first reading speed and performs image reading at the first reading speed in the low output mode.

A multi-function apparatus employs an in-body sheet discharge type configuration. The image forming device includes a front door and a multi-purpose tray. The front door is movable between a closed position set along a side surface at one side of a case of the image forming device and an opened position opened at the one side with respect to the side surface. The front door has an opening formed therein. The multi-purpose tray is provided to be selectively located at a non-use state at which the multi-purpose tray closes the opening and an in-use position at which the multi-purpose tray opens the opening. When the front door is located at the closed position and the multi-purpose tray is located at the non-use position, an upper end surface of the multi-purpose tray is exposed upward.

A recording apparatus includes: a recording unit that performs recording on a medium; a medium discharging section that discharges the medium on which recording has been performed; a medium receiving section that receives the medium discharged by the medium discharging section; a face-down discharge path that guides, to the medium discharge section, the recorded medium with a recorded side thereof facing downward; a document movement path that is provided at an upper part of a housing constituting an outer casing of the recording apparatus and along which a document moves; and a reading unit provided in the document movement path to read the document. The medium receiving section also serves as a support tray that supports the document to be inserted into the document movement path or the document exiting from the document movement path.

An image forming device and a sheet conveyance method are provided. An image forming device includes a feeder, a first conveyor, a second conveyor, and a conveyance controller. The feeder aligns a sheet and feeds the sheet to a transfer system that transfers an image to the sheet. The first conveyor is arranged at a first position on an upstream side of the feeder in a sheet conveyance direction and conveys the sheet to the feeder. The second conveyor is arranged at a second position on an upstream side of the first conveyor in the sheet conveyance direction and conveys the sheet to the first conveyor. The conveyance controller performs high-speed control for causing a conveyance speed of the second conveyor to exceed a conveyance speed of the first conveyor when a specific sheet different from a normal sheet is fed by the feeder.

A sheet discharging apparatus includes a discharge unit and a stacking portion. The stacking portion includes a first supporting portion including a first part and a second part provided with an interval therebetween in a width direction of the sheets, and configured to support a first sheet having a width larger than the interval between the first part and the second part, and a second supporting portion provided at a position between the first part and the second part in the width direction and below the first supporting portion in a gravity direction, and configured to support a second sheet having a width smaller than the interval. The second supporting portion includes a recess portion where the second supporting portion is recessed in the gravity direction to be lower than a height at which the second supporting portion comes into contact with a lower surface of the second sheet.

An upper unit includes a feed tray configured to support a document to be fed such that the document is inclined, a transport path configured to reverse the document fed in a direction having a vertically downward component by a feed tray in a direction having a vertically upward component, a first reader disposed on the transport path, and a discharge tray configured to support the discharged document such that the document is inclined. A lower unit includes a document positioning plate on which a document is mounted, and includes a second reader disposed vertically below the document positioning plate and configured to read the document mounted on the document positioning plate. A portion of the first reader and a portion of the document positioning plate overlap when viewed from vertically above.

A document feeder includes a mode selector, at least two document sensors, and a feeding determiner. The mode selector receives selection of either a normal mode for feeding documents having the same size or a mixed loading mode for feeding documents having different sizes. The document sensors are arranged at an interval in a width direction of the documents, and detect the documents. The feeding determiner performs, based on results of the detection by the document sensors, a size determination to determine a size of a document being fed and a skew determination to determine whether or not the document being fed is skewed. The feeding determiner performs the skew determination when the normal mode has been selected and performs the size determination when the mixed loading mode has been selected.

An image reading apparatus, including: a hinge configured to support an original conveying unit pivotably relative to an image reading unit; a swing pedestal configured to support the hinge; a swing axis configured to support the swing pedestal swingably relative to the image reading unit; and a first abutment portion and a second abutment portion configured to abut the image reading unit so as to form a space between the image reading unit and the original conveying unit, wherein the first abutment portion that is in a state not in contact with the image reading unit can be brought into contact with the image reading unit by the swing pedestal swinging about a swing axis in a state in which the second abutment portion is in contact with the image reading unit.

An image reading apparatus includes an image sensor, a document feeder, and a processor. The document feeder includes a first driving device, a second driving device, a third driving device, a first sensor, and a second sensor. The first driving device includes a pick-up member to move documents from a tray to a document conveying path using a driving force through a first clutch. The second driving device is to move the tray with the documents to a side of the pick-up member using a driving force through a second clutch. The third driving device to move the documents along the document conveying path onto the image sensor using the driving force of the motor. The first and second sensors detect the documents on the document conveying path. The processor controls an operation of the first clutch based on the signals of the first and second sensors.

A document feeder includes a mode selector, at least two document sensors, and a feeding determiner. The mode selector receives selection of either a normal mode for feeding documents having the same size or a mixed loading mode for feeding documents having different sizes. The document sensors are arranged at an interval in a width direction of the documents, and detect the documents. The feeding determiner performs, based on results of the detection by the document sensors, a size determination to determine a size of a document being fed and a skew determination to determine whether or not the document being fed is skewed. The feeding determiner performs the skew determination when the normal mode has been selected and performs the size determination when the mixed loading mode has been selected.