Patent ID: 8424989

Claim:
A liquid ejection device comprising: a head unit having a leading head and a trailing head; a movement mechanism configured to move a medium in a movement direction relative to the head unit; a leading nozzle row disposed in a first end of the leading head in an intersecting direction that intersects the movement direction, the leading nozzle row including a prescribed number of nozzles from a first nozzle to an mth nozzle aligned in sequence in the intersecting direction from a second end side to a first end side of the leading nozzle row; a trailing nozzle row disposed in a second end of the trailing head in the intersecting direction, the trailing nozzle row including the prescribed number of nozzles from a first nozzle to an mth nozzle aligned in sequence in the intersecting direction from the second end side to the first end side of the trailing nozzle row so that the first nozzle through the mth nozzle of the trailing nozzle row are respectively positioned downstream in the movement direction from the first nozzle through the mth nozzle of the leading nozzle row; and a controller configured to control the head unit to eject liquid onto the medium moved by the movement mechanism at a first apportionment ratio from the nozzles of the leading nozzle row and at a second apportionment ratio from the nozzles of the trailing nozzle row corresponding to the leading nozzle row, and to form a raster line by arraying a plurality of dots along the movement direction, the controller being configured to change the first apportionment ratio so that the first apportionment ratio decreases sequentially from the first nozzle to the mth nozzle, and so that a change rate of the first apportionment ratio in the nozzles positioned at the first and second ends of the leading nozzle row is greater than the change rate of the first apportionment rate in the nozzles positioned in the middle of the leading nozzle row, and the controller being configured to change the second apportionment ratio so that the second apportionment ratio increases sequentially from the first nozzle to the mth nozzle, and so that a change rate of the second apportionment ratio in the nozzles positioned at the first and second ends of the trailing nozzle row is greater than the change rate of the second apportionment ratio in the nozzles positioned in the middle of the trailing nozzle row.