A recording apparatus includes a plurality of medium containing units that is provided along a vertical direction and contains a medium before recording, a liquid ejecting head that performs recording by ejecting liquid toward the medium, and at least one liquid containing unit that contains the liquid. The plurality of medium containing units includes a first medium containing unit located at an uppermost position, and a second medium containing unit located below the first medium containing unit. A size of the first medium containing unit in a medium feeding-out direction, in which the medium is fed out, is smaller than a size of the second medium containing unit in the medium feeding-out direction, and the at least one liquid containing unit is provided above the second medium containing unit in such a way as to overlap with the first medium containing unit in a vertical direction.

A waste liquid recovery apparatus including a waste liquid tube through which waste liquid flows and a displacement mechanism. The displacement mechanism includes a driven portion that receives a driving force and operates owing to the driving force and a displacement portion that is displaced within a predetermined displacement range in conjunction with the operation of the driven portion. The waste liquid tube includes a flexible tube at least at a terminal end from which the waste liquid is issued. When the displacement portion is displaced within the predetermined displacement range, a contact depth of the displacement portion with respect to the contacted portion of the flexible tube, near the terminal end, changes.

An image forming apparatus includes a conveyance part, a head unit, a distance changing part, three blocks and three pins. The distance changing part moves the head unit between a printing position where a printing operation is performed and a retreat position separated away from the conveyance part farther than the printing position. The three blocks are provided in one of the conveyance part and the head unit at intervals in the conveyance direction and a width direction crossing the conveyance direction. The three pins are provided in the other of the conveyance part and the head unit at positions facing the three blocks. Each of the three blocks has a positioning groove having a pair of inclined surfaces. The pins come into two-point contact with the inclined surfaces of the blocks in a state where the head unit is positioned in the printing position.

A recording apparatus includes: a recording section that is configured to move between a first position at which a liquid ejecting section performs recording on a medium transported on a transport path and a second position at which the recording section is retreated from the transport path; a wiper that wipes a liquid ejection surface of the liquid ejecting section by moving in a direction extending along the liquid ejection surface in a state in which the recording section is at the second position; and a regulating unit that is configured to switch between a regulating state in which regulating of movement of the recording section in the first direction is performed and a non-regulating state in which the regulating is not performed and that has the regulating state when the recording section is at the second position.

An image forming apparatus includes a housing, a container body, and an electrostatic capacitance sensor. The container body contains a liquid and is placed on a ground surface which is a part of the housing. The electrostatic capacitance sensor detects a change in capacitance between a side surface of the container body and the ground surface to determine a change in quantity of the liquid in the container body. The top surface of the container body is a part of the housing. The top surface and the ground surface are in electrically conductive state, a distance between the top surface and the electrostatic capacitance sensor is longer than a distance between the ground surface and the electrostatic capacitance sensor, or the top surface and the ground surface are electrically insulated, or the top surface is opened.

An image forming apparatus includes a recording head, a cap, a tank, a pump, a third communication pipe and a controller. The cap forms a sealed space including an ejection port of the recording head. The tank is connected to the sealed space through a first communication pipe and generates a humidified air. The pump feeds the humidified air to the sealed space through the first communication pipe. The third communication pipe connects the pump and the sealed space. The controller is performable a capping operation to feed the humidified air to the sealed space and a long-period leaving operation to feed the humidifying liquid in the tank to the sealed space through the third communication pipe and to stop a driving of the pump after a predetermined amount of the humidifying liquid is fed in the sealed space.

The inkjet recording apparatus includes a recording head, a first conveyor belt, and an ink receiving part. The ink receiving part includes a discharge port, a liquid-absorptive rotator, and a counter member. The discharge port is placed at an end portion in a crossing direction crossing a recording-medium conveyance direction, and discharges ink received in flashing. The liquid-absorptive rotator is formed from a liquid-absorptive material and rotated around a rotating shaft extending in the crossing direction. The counter member, being in contact with the liquid-absorptive rotator, has a conveyance structure for conveying ink in the ink receiving part in a carry-out direction directed toward the discharge port along an axial direction of the rotating shaft.

An image forming apparatus includes a recording head, a wiping unit and a moving mechanism. The recording head has a nozzle area where a plurality of ink ejection ports is opened downward. The wiping unit is moved in a first direction with coming into contact with the nozzle area and wipes the ink ejection ports. The moving mechanism performs a wiping operation and a returning operation. The moving mechanism includes a first drive source and a guide part. The first drive source moves the wiping unit in the first direction and in the second direction. The guide part guides the wiping unit in the first direction in the wiping operation, and guides the wiping unit in the first direction so as to separate the wiping unit from the nozzle area downward and then guides the wiping unit in the second direction in the returning operation.

An image forming apparatus includes a recording head, a controller, a first detector, and a second detector. The controller calculates a viscosity of ink in each of nozzles based on a temperature, a humidity, and an elapsed time. The controller determines, among the nozzles, a nozzle in which the viscosity is equal to or higher than a threshold to be a high-viscosity nozzle. The controller acquires non-ejection information indicating an ejection disabled nozzle that is disabled to eject the ink. The controller acquires a viscosity of the ink in the ejection disabled nozzle. The controller calculates an average value of viscosities of the ink in the plurality of nozzles. The controller compares the viscosity of the ink in the ejection disabled nozzle with the average value of the viscosities of the ink in the nozzles. The controller determines whether or not to change a contribution value based on a comparison result.

A liquid ejection apparatus includes a liquid ejection head configured to eject liquid from a plurality of nozzles to a medium and a plurality of caps configured to cover a plurality of nozzle groups. The plurality of caps includes a first cap group covering a first nozzle group positioned near the center of the liquid ejection head among the plurality of nozzle groups and a second cap group and a third cap group provided at positions sandwiching the first cap group in the width direction. The liquid ejection head is configured to execute a first idle ejection for ejecting liquid from the plurality of nozzles constituting the plurality of nozzle groups to the plurality of caps and a second idle ejection for ejecting the liquid from the plurality of nozzles constituting the second nozzle group and the third nozzle group to the second cap group and the third cap group.