JP2000108386A5 - - Google Patents

Description

[Claims]
[Claim 1]
In an inkjet recording method in which a recording head in which a plurality of ejection ports for ejecting ink are arranged is repeatedly scanned in a direction different from the arrangement direction of the ejection ports to sequentially record images in band units.
Binarized image data of at least one of the plurality of rasters, for each unit area including a plurality raster and final raster or the final raster including a first raster or the first raster of one band which is recorded by one scan of said recording head It is classified into multiple types according to the degree of collection of discharge dots.
An inkjet recording method characterized in that control is performed so as to reduce the amount of ink ejected in each unit region by using a mask pattern having a predetermined length for each of these states.
2.
The plurality of types of states include a first state in which all the dots in the unit area are discharge dots, a second state in which discharge dots and non-discharge dots are mixed in the unit area, and no discharge dots in the unit area. The inkjet recording method according to claim 1, which is a third state that does not exist.
3.
In an inkjet recording apparatus in which a recording head in which a plurality of ejection ports for ejecting ink are arranged is repeatedly scanned in a direction different from the arrangement direction of the ejection ports to sequentially record images in band units.
Binarized image data of at least one of the plurality of rasters, for each unit area including a plurality raster and final raster or the final raster including a first raster or the first raster of one band which is recorded by one scan of said recording head A means of classifying into multiple types of states according to the degree of aggregation of the ejection dots of
A correction table that stores mask patterns of a predetermined length for each of these states,
An inkjet recording apparatus characterized in that a mask pattern corresponding to the state of each unit region is obtained from this correction table, and the mask pattern is used to control the ink ejection amount in the unit region.
4.
The plurality of types of states include a first state in which a predetermined number of discharge dots are continuous in the unit area, a second state in which discharge dots are present in the unit area but not in a predetermined number of consecutive states, and discharge dots in the unit area. The inkjet recording apparatus according to claim 3, which is a third state in which is completely absent.
5.
The inkjet recording apparatus according to claim 3 or 4, wherein the correction table is separately provided for each color of ink to be corrected.
6.
The inkjet recording apparatus according to claim 4, wherein the correction table defines a mask pattern for each color according to a combination of states in a unit region of a plurality of ink colors.
7.
The inkjet recording apparatus according to any one of claims 3 to 6, wherein a plurality of correction tables are provided according to recording conditions including at least the type of recording medium, and are used properly according to the conditions.
8.
When multiple rasters including the first raster or the first raster of the band and multiple rasters including the final raster or the final raster are targeted for dot thinning, even if the mask pattern has the same thinning rate, the first raster or the first raster the ink-jet recording apparatus according to any one of claims 3-7, characterized in that varying the mask pattern in a plurality raster comprising a plurality raster and final raster or the final raster including.

0011
[Means for solving problems]
In order to achieve the above object, the present invention is an inkjet recording method in which a recording head in which a plurality of ejection ports for ejecting ink are arranged is repeatedly scanned in a direction different from the arrangement direction of the ejection ports, and images are sequentially recorded in band units. In, at least one of a plurality of rasters including the first raster or the first raster of one band and a plurality of rasters including the final raster or the final raster recorded by one scan of the recording head is binarized for each unit area. Classify into multiple types of states according to the degree of collection of ejection dots of image data, and control to reduce the amount of ink ejected in each unit area by using a mask pattern of a predetermined length for each of these states. It is characterized by.

The apparatus of the present invention for carrying out such a method repeatedly scans a recording head in which a plurality of ejection ports for ejecting ink are arranged in a direction different from the arrangement direction of the ejection ports, and sequentially records images in band units. In an inkjet recording apparatus that performs the above, at least one of a plurality of rasters including a first raster or a first raster of one band and a plurality of rasters including the final raster or the final raster recorded by one scan of the recording head is used as a unit area. A means for classifying into a plurality of types of states according to the collection of ejection dots of binarized image data for each state, a correction table storing a mask pattern having a predetermined length for each state, and each of the correction tables. It is characterized in that a mask pattern corresponding to the state of the unit region is obtained, and the ink ejection amount in the unit region is controlled to be reduced by this mask pattern.

Further, when a plurality of rasters including the first raster or the first raster of the band and a plurality of rasters including the final raster or the final raster are targeted for dot thinning, the first raster or the first raster or the first raster even if the mask pattern has the same thinning rate. The mask pattern may be different between a plurality of rasters including one raster and a final raster or a plurality of rasters including the final raster.