An inkjet printer and a method for controlling an inkjet printer are disclosed. The inkjet printer is provided with an endless transport belt for transporting a medium to be printed; at least one roller for driving the transport belt and at least one additional roller for driving and/or suspending the transport belt; a detection system configured to detect a deformation of the transport belt including at least an in-plane bending deformation of at least a stretch of the transport belt and to generate at least one deformation signal indicating the detected deformation; an actuator assembly configured to change a position and/or orientation of at least one of the rollers of the inkjet printer; and a controller configured to control the actuator assembly based on the at least one deformation signal.

An inkjet printer and a method for controlling an inkjet printer are disclosed. The inkjet printer is provided with an endless transport belt for transporting a medium to be printed; at least one roller for driving the transport belt and at least one additional roller for driving and/or suspending the transport belt; a detection system configured to detect a deformation of the transport belt including at least an in-plane bending deformation of at least a stretch of the transport belt and to generate at least one deformation signal indicating the detected deformation; an actuator assembly configured to change a position and/or orientation of at least one of the rollers of the inkjet printer; and a controller configured to control the actuator assembly based on the at least one deformation signal.

A recording apparatus includes a liquid container configured to contain, outside a recording area of the recording apparatus, liquid to be supplied to a recording head configured to perform recording by discharging the liquid to a recording medium in the recording area, a maintenance unit disposed outside the recording area, including a suction unit configured to suck the liquid from the recording head, and configured to carry out maintenance of the recording head, and a liquid reservoir portion below the liquid container and the maintenance unit.

A recording apparatus includes a liquid container configured to contain, outside a recording area of the recording apparatus, liquid to be supplied to a recording head configured to perform recording by discharging the liquid to a recording medium in the recording area, a maintenance unit disposed outside the recording area, including a suction unit configured to suck the liquid from the recording head, and configured to carry out maintenance of the recording head, and a liquid reservoir portion below the liquid container and the maintenance unit.

A printer includes: a body defining a media enclosure configured to receive a media supply; an indicator assembly supported by an outer wall of the body, the indicator assembly including a plurality of substantially contiguous illumination surfaces illuminated by respective ones of a set of lights supported within the body; a controller supported by the body, the controller configured to: (i) obtain an operational status of the printer, (ii) retrieve, from a mapping repository, a set of notification control parameters corresponding to the operational status, and (iii) control the set of lights according to the notification control parameters.

A recording apparatus includes a medium supporting part configured to support a medium, a recording unit configured to perform recording on the medium supported by the medium supporting part, an irradiation unit configured to irradiate, with irradiation light, the medium on which recording was performed by the recording unit, a deodorizing unit configured to perform deodorization, and a housing covering the medium supporting part, the recording unit, the irradiation unit, and the deodorizing unit. The deodorizing unit includes an air blaster, a first filter configured to remove a foreign matter, and a deodorizing member configured to adsorb an odor of air. The deodorizing unit exhausts air inside the housing to outside of the housing by causing the air inside the housing to flow through the first filter and the deodorizing member by driving the air blaster.

A recording apparatus includes a medium supporting part configured to support a medium, a recording unit configured to perform recording on the medium supported by the medium supporting part, an irradiation unit configured to irradiate, with irradiation light, the medium on which recording was performed by the recording unit, a deodorizing unit configured to perform deodorization, and a housing covering the medium supporting part, the recording unit, the irradiation unit, and the deodorizing unit. The deodorizing unit includes an air blaster, a first filter configured to remove a foreign matter, and a deodorizing member configured to adsorb an odor of air. The deodorizing unit exhausts air inside the housing to outside of the housing by causing the air inside the housing to flow through the first filter and the deodorizing member by driving the air blaster.

In an example, a method of anticipating maintenance in a printing device includes determining an inertial reference signal of a printer carriage and measuring a current inertial signal of the printer carriage. The method includes cross-correlating the inertial reference signal with the current inertial signal and determining from the cross-correlating when the current inertial signal is not within a preset confidence interval of the inertial reference signal.

In an example, a method of anticipating maintenance in a printing device includes determining an inertial reference signal of a printer carriage and measuring a current inertial signal of the printer carriage. The method includes cross-correlating the inertial reference signal with the current inertial signal and determining from the cross-correlating when the current inertial signal is not within a preset confidence interval of the inertial reference signal.

An information processing apparatus includes a type reception unit, a notification unit, a mode reception unit, and a determination unit. The mode reception unit receives a mode selected from among a plurality of modes for determining a determined type of recording medium for use in a recording apparatus, wherein the information processing apparatus is configured to perform operations including determining, in a designation mode, a selected type of recording medium indicated by information received by the type reception unit, and determining, in an automatic determination mode, an automatically determined type of recording medium for use in the recording apparatus without receiving input user information indicating the recording medium type. In response to the determination unit determining that the mode is able to be changed from the designation mode to the automatic determination mode, the notification unit issues a prompting notification to prompt a user to change the mode.