Provided is a static eliminator that efficiently eliminates static electricity from a tray of a droplet ejection device of a tray transport type. A static eliminator 20 includes a movable part 22 which is pushed by a tray 12 due to movement of the tray 12 and moves, and an ion generator 24 disposed on a movement path of the tray 12 and configured to generate ions according to the movement of the movable part 22.

Provided is a static eliminator that efficiently eliminates static electricity from a tray of a droplet ejection device of a tray transport type. A static eliminator 20 includes a movable part 22 which is pushed by a tray 12 due to movement of the tray 12 and moves, and an ion generator 24 disposed on a movement path of the tray 12 and configured to generate ions according to the movement of the movable part 22.

The medium discharge device 40 includes a transport path TB for transporting the medium P recorded by the recording device 10, a discharge section 38 for discharging the medium P transported in the transport path TB, a pair of support sections 60 for supporting the medium P discharged by the discharge section 38 onto a support surface 60a, and a stacking section 33 provided below the pair of support sections 60 in a gravity direction and on which are stacked the medium P that dropped from the pair of support sections 60, and the pair of support sections 60 have conductive members.

The medium discharge device 40 includes a transport path TB for transporting the medium P recorded by the recording device 10, a discharge section 38 for discharging the medium P transported in the transport path TB, a pair of support sections 60 for supporting the medium P discharged by the discharge section 38 onto a support surface 60a, and a stacking section 33 provided below the pair of support sections 60 in a gravity direction and on which are stacked the medium P that dropped from the pair of support sections 60, and the pair of support sections 60 have conductive members.

An inkjet printer is described. The inkjet printer has a substrate holder assembly that includes a base member having a long axis in a first direction and a short axis in a second direction perpendicular to the first direction; a contact member coupled to the base member, the contact member having a long axis in the first direction and a short axis in the second direction; a holder carriage coupled to the base member; a linear extender coupled between the base member and the contact member and extending in a third direction intersecting with the first direction and the second direction from the base member toward the contact member; and a flex member coupled to the base member, extending in the second direction between the linear extender and the contact member, and having a flex direction in a direction perpendicular to the first direction and the second direction.

An inkjet printer is described. The inkjet printer has a substrate holder assembly that includes a base member having a long axis in a first direction and a short axis in a second direction perpendicular to the first direction; a contact member coupled to the base member, the contact member having a long axis in the first direction and a short axis in the second direction; a holder carriage coupled to the base member; a linear extender coupled between the base member and the contact member and extending in a third direction intersecting with the first direction and the second direction from the base member toward the contact member; and a flex member coupled to the base member, extending in the second direction between the linear extender and the contact member, and having a flex direction in a direction perpendicular to the first direction and the second direction.

A printing apparatus includes: a recording section that performs recording on a medium; a discharge tray on which the medium subjected to recording by the recording section is loaded; a detector that detects the medium loaded on the discharge tray; and an attachment section to which a sub-tray is attached, in which the detector is located at a first position and detects the medium loaded on the discharge tray in a state in which the sub-tray is not attached, is located at a second position and detects the medium in a state in which the sub-tray is attached, and moves from the first position to the second position in accordance with the sub-tray being attached to the attachment section.

A printing apparatus includes: a recording section that performs recording on a medium; a discharge tray on which the medium subjected to recording by the recording section is loaded; a detector that detects the medium loaded on the discharge tray; and an attachment section to which a sub-tray is attached, in which the detector is located at a first position and detects the medium loaded on the discharge tray in a state in which the sub-tray is not attached, is located at a second position and detects the medium in a state in which the sub-tray is attached, and moves from the first position to the second position in accordance with the sub-tray being attached to the attachment section.

A recording device as a processing device includes: a recording unit accommodated in a housing and configured to perform recording on a medium; and a medium accommodating unit that accommodates the medium discharged from the housing. The medium accommodating unit includes: a sheet-shaped accommodating member; a rotating shaft provided inside the housing and to which one end of the accommodating member is connected; and an operating portion provided separably from the housing and to which the other end of the accommodating member is connected. The accommodating member is wound around the rotating shaft and accommodated inside the housing when the operating portion is mounted on the housing. The accommodating member is fed from the rotating shaft so that the medium is accommodated when the operating portion is separated from the housing.

A recording device as a processing device includes: a recording unit accommodated in a housing and configured to perform recording on a medium; and a medium accommodating unit that accommodates the medium discharged from the housing. The medium accommodating unit includes: a sheet-shaped accommodating member; a rotating shaft provided inside the housing and to which one end of the accommodating member is connected; and an operating portion provided separably from the housing and to which the other end of the accommodating member is connected. The accommodating member is wound around the rotating shaft and accommodated inside the housing when the operating portion is mounted on the housing. The accommodating member is fed from the rotating shaft so that the medium is accommodated when the operating portion is separated from the housing.