A recording device includes an ejecting head ejecting ink onto a medium, a first ink absorber disposed at a position facing the ejecting head and absorbing waste ink, among the ink, ejected to a position beyond an edge during borderless recording, a platen configured to supports the first ink absorber, and support the medium during the borderless recording, a first waste ink tray including a first discharge port discharging the waste ink, the first waste ink tray receiving the waste ink flowing out from the first ink absorber, and a discharge mechanism discharging, from the first discharge port, the waste ink received by the first waste ink tray, wherein the first waste ink tray includes a plurality of inclined regions inclined to guide the waste ink to the first discharge port, and each of the plurality of inclined regions has a different inclination direction.

A recording device includes an ejecting head ejecting ink onto a medium, a first ink absorber disposed at a position facing the ejecting head and absorbing waste ink, among the ink, ejected to a position beyond an edge during borderless recording, a platen configured to supports the first ink absorber, and support the medium during the borderless recording, a first waste ink tray including a first discharge port discharging the waste ink, the first waste ink tray receiving the waste ink flowing out from the first ink absorber, and a discharge mechanism discharging, from the first discharge port, the waste ink received by the first waste ink tray, wherein the first waste ink tray includes a plurality of inclined regions inclined to guide the waste ink to the first discharge port, and each of the plurality of inclined regions has a different inclination direction.

A direct heat vacuum platen having a main case with an open top portion, a print surface having a main top configured to fit over the open top portion of the main case, the main top having a rectangular arrangement of suction ports configured to secure an above print substrate using suction provided from vacuum fans attached to the main case, heating elements attached to a bottom portion of the main top, a thermoregulator having a thermostat controller attached to temperature sensors and the heating elements within the main case, and a power controller having a power slot attached to a power switch and main fuse holder, a fan fuse holder, the thermostat controller and the suction fans. The suction ports are configured to hold a print substrate of a desired size. The usage of the internal vacuum fans reduces noise and power usage when compared to external vacuum apparatuses.

There is provided an ink-jet recording apparatus which includes a recording portion, and a contact portion configured to come into contact with an upper surface of the sheet. The contact portion has a storage portion provided on a side of the recording portion and configured to store an ink, and a protruding portion provided between both ends in a width direction intersecting the transporting direction of the storage portion, and which is protruded toward the recording section, and an upper end of the protruding portion is the highest in the contact portion.

There is provided an ink-jet recording apparatus which includes a recording portion, and a contact portion configured to come into contact with an upper surface of the sheet. The contact portion has a storage portion provided on a side of the recording portion and configured to store an ink, and a protruding portion provided between both ends in a width direction intersecting the transporting direction of the storage portion, and which is protruded toward the recording section, and an upper end of the protruding portion is the highest in the contact portion.

There is provided an ink-jet recording apparatus which includes a recording portion, and a contact portion configured to come into contact with an upper surface of the sheet. The contact portion has a storage portion provided on a side of the recording portion and configured to store an ink, and a protruding portion is provided between both ends in a width direction intersecting the transporting direction of the storage portion, and which is protruded toward the recording section, and an upper end of the protruding portion is the highest in the contact portion.

There is provided an ink-jet recording apparatus which includes a recording portion, and a contact portion configured to come into contact with an upper surface of the sheet. The contact portion has a storage portion provided on a side of the recording portion and configured to store an ink, and a protruding portion is provided between both ends in a width direction intersecting the transporting direction of the storage portion, and which is protruded toward the recording section, and an upper end of the protruding portion is the highest in the contact portion.

A platen and hoop configured to securely hold a garment in place on a platen. The platen and hoop can be used for automated printing of graphics, such as by direct to garment printing (DTG). The hoop has downward extending hoop sidewalls that can surround the platen structure when the hoop is fitted onto the platen. The platen has platen sidewalls that are hinged to a base of the platen, and which rotate upward to hold a fabric workpiece against the hoop sidewalls to securely hold the fabric workpiece during printing. The platen sidewalls can be formed with inward protruding tabs or feet located at their base, and which cause the platen sidewalls to rotate upward when engaged by the hoop sidewalls.

A platen and hoop configured to securely hold a garment in place on a platen. The platen and hoop can be used for automated printing of graphics, such as by direct to garment printing (DTG). The hoop has downward extending hoop sidewalls that can surround the platen structure when the hoop is fitted onto the platen. The platen has platen sidewalls that are hinged to a base of the platen, and which rotate upward to hold a fabric workpiece against the hoop sidewalls to securely hold the fabric workpiece during printing. The platen sidewalls can be formed with inward protruding tabs or feet located at their base, and which cause the platen sidewalls to rotate upward when engaged by the hoop sidewalls.

An ejection apparatus includes a platen for supporting a recording medium, an absorber provided in the platen for absorbing liquid, an ejection unit for ejecting a plurality of types of ink including a first liquid containing a component to be deposited when the first liquid is ejected onto the absorber, and a second liquid different from the first liquid for suppressing deposition of the first liquid, a detection unit for detecting a state of a predetermined region of the absorber, and a control unit for controlling the detection unit to detect the state, and controlling the ejection unit to eject the second liquid to the predetermined region based on a result of the detection. When the first liquid is ejected to the predetermined region, the second liquid is ejected to the predetermined region after the ejection of the first liquid is finished, without using the result of the detection.