KR20210017624A - Inkjet printer - Google Patents

Abstract

According to the present invention, a head unit of an inkjet printer comprises: a first head group comprising a plurality of heads; and a second head group comprising a plurality of other heads. A portion of an active area of the bottom head of the first head group and a portion of an active area of the top head of the second head group are arranged to be overlapped, and the bottom head of the first head group and the top head of the second head group control driving operation of a nozzle to discharge a droplet by a half-tone method in an overlapped area to easily replace and align the heads and minimize or remove generation of line mura.

Description

Inkjet printer{INKJET PRINTER}

This document relates to an inkjet printer, and specifically relates to a technique of arranging a plurality of inkjet heads in a diagonal direction.

Recently, a display device using an organic light emitting diode (OLED) is attracting attention.

The organic light-emitting display device has a self-emission characteristic, and unlike a liquid crystal display device, it does not require a separate light source, and thus the thickness and weight can be reduced. The organic light emitting display device exhibits high quality characteristics such as low power consumption, high luminance, and fast reaction speed.

In the case of applying UV ink or a color filter on a substrate to manufacture such an organic light emitting display device, a printing device having an inkjet head, that is, a droplet ejection printer is used.

In the process of using the inkjet head, the droplet must be smoothly discharged from a plurality of nozzles provided in the inkjet head. If any one of the plurality of nozzles does not smoothly discharge the droplet, it is treated as a process defect. That is, the Mura line is formed in the portion where the nozzle from which the droplet is not discharged, and thus the process is treated as a defect. Accordingly, when a nozzle in which the droplet is not ejected occurs, maintenance is performed on the nozzle. In addition, although the nozzle of the head and the nozzles of the other heads adjacent to each other are intended to be arranged in succession, a fine gap may be widened, resulting in mura.

In order to facilitate the alignment of the heads and prevent the occurrence of mura, an arrangement between a plurality of inkjet heads is important, and a droplet discharge control technique is important. Conventionally, when the head and nozzle alignment is performed, the camera and the light are irradiated from the bottom of the head and the nozzle surface to perform alignment, resulting in inaccurate and troublesomeness.

Korean Patent Publication (Registration Publication No.: 10-1657530, "Drop Discharge Device and Method") discloses that when an abnormality occurs in one or more of the plurality of nozzles of the first inkjet head, the substrate is replaced with the first inkjet head. And a second inkjet head disposed to be disposed for each area in which the first inkjet head is disposed so as to discharge droplets, and when the droplets are discharged to the substrate by using the second inkjet head, the first inkjet head There is disclosed a technique of discharging the droplets twice or more in a portion corresponding to a nozzle in which an abnormality occurs in the first inkjet head while aligning so as to correspond to each other so as to solve the poor discharge. However, a technique for facilitating replacement and alignment of the head and removing mura has not been disclosed.

An object of the present invention is to facilitate alignment of the head and to eliminate the occurrence of mura occurring in an area where the head and the head overlap.

An inkjet printer having a head unit for discharging droplets while moving on a substrate according to an aspect for achieving this purpose,

The head unit is composed of a first head group constituting a plurality of heads, and a second head group constituting another plurality of heads,

The head is composed of an active area provided with a plurality of nozzles and a bezel area provided at the left and right edges of the active area and not provided with nozzles,

A plurality of heads of the first head group and the second head group are arranged in a line in a diagonal direction in each group,

A part of the active area of the lowermost head of the first head group and a part of the active area of the uppermost head of the second head group are arranged to overlap,

The lowermost head of the first head group and the uppermost head of the second head group constitute an inkjet printer that controls a driving operation of a nozzle so that droplets are ejected in a half-tone manner in an overlapped area.

According to the present invention, there is no need for separate alignment after replacement of the head block, and a high resolution or high quality OLED display panel can be manufactured by removing mura lines generated when forming a color filter on a substrate by discharging ink droplets.

1 is a diagram illustrating a head unit of an inkjet printer according to an exemplary embodiment.
2 is a diagram illustrating processing of a halftone image in an overlap region according to an exemplary embodiment.

Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through preferred embodiments described with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the embodiments of the present invention, the detailed description will be omitted. Terms used throughout the specification of the present invention are terms defined in consideration of functions in the embodiments of the present invention, and can be sufficiently modified according to the intention and custom of the user or operator. It should be made based on the contents of

In addition, the above-described and additional aspects of the invention will become apparent through the following embodiments. Aspects or configurations of the embodiments described selectively in the present specification may be freely combined with each other, even if they are shown as a single unified configuration in the drawings, unless otherwise stated, unless otherwise indicated in technical contradiction to those skilled in the art. I understand.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, and thus various alternatives that can be substituted for them at the time of application It should be understood that there may be equivalents and variations.

1 is a diagram illustrating a head unit of an inkjet printer according to an exemplary embodiment.

As shown, the head unit 1000 of the inkjet printer includes a plurality of heads 10, 11, 12, 13, 20, 21, 22, 23, 30, 31, 32, 33, head blocks 100, 200, 300).

The head unit 1000 is a component of an inkjet printer, and is fastened to a rail (not shown) of a gantry to discharge (dispensing) droplets, especially ink, while moving left and right and/or back and forth on the substrate. I can.

The head unit 1000 includes a first head group 10, 11, 12, 13 constituting a plurality of heads, a second head group 20, 21, 22, 23 constituting another plurality of heads, and It may be composed of a third head group (30, 31, 32, 33) constituting another plurality of heads, and may also be configured by adding a head group. According to an embodiment, the first head group, the second head group, and the third head group may discharge red (R), green (G), and blue (B) inks, respectively, and all head groups are the same color. You can also eject the ink.

The heads 10, 11, 12, 13, 20, 21, 22, 23, 30, 31, 32, 33 are provided on the active area 1 with a plurality of nozzles 3 and the left and right edges of the active area. It consists of a bezel area 2 that does not have a nozzle. In the active region 1, droplets are discharged through the nozzle 3 to form a color filter on the substrate. On the other hand, the bezel area 2 refers to an area where a nozzle is not provided and thus droplets are not discharged. The active area 1 and the bezel area 2 may not be separated by a boundary line. The head may have a bar shape, and tens to hundreds of nozzles may be provided per head.

The first head group (10, 11, 12, 13), the plurality of heads (20, 21, 22, 23) of the second head group, and the third head group (30, 31, 32, 33) are as shown. , May be arranged in a line in a diagonal direction within each group. Accordingly, the first head group, the second head group, and the third head group may be arranged diagonally to be parallel to each other.

A part of the active area 1 of the lowermost head 13 of the first head group 100 and a part of the active area 1 of the uppermost head 20 of the second head group 200 may be arranged to overlap. have. As shown, there may be an overlapped area as much as d. It may mean a length (eg, 5mm) at which the nozzles are overlapped. For example, the last nozzle of the head 13 and the first nozzle of the head 20 may overlap each other. That is, it may overlap by the diameter of one nozzle. Also, there may be two or more overlapping nozzles.

The driving operation of the nozzle may be controlled so that the lowermost head of the first head group and the uppermost head of the second head group are ejected in an overlapping area using a half-tone image processing method. To this end, the inkjet printer may have a control unit (not shown). The control unit may be attached to the gantry or provided near the head unit and may be moved along with the movement of the head unit. The half-tone image processing method may refer to a method of processing an image with a relatively low density compared to an adjacent region.

The density may be determined according to the number of times the nozzle is ejected (dispensed). For example, dispensing may be performed 100 times per second in the adjacent region, and dispensing may be performed 50 times per second in the overlapped region, thereby achieving a density ratio of 100:50. The method of forming the density difference can be implemented in various ways, and the ratio can be variously corrected.

The overlapping and half-tone image processing of the first head group and the second head group described above may be equally applied to the second head group and the third head group.

In the inkjet printer according to another embodiment, a plurality of heads 10, 11, 12, 13 of a first head group are provided on the first head block 100, and another plurality of heads of the second head group The heads 20, 21, 22, and 23 are provided on the second head block 200, and another plurality of heads 30, 31, 32, and 33 of the third head group are provided on the third head block 300. ), the first head block 100, the second head block 200, and the third head block 300 may be detachable by independent movement left and right. Due to this horizontal movement, the head block can be attached and detached from the head unit, thereby removing a specific defective head block and replacing it with a normal head block. Accordingly, there is an advantage in that it is not necessary to perform head alignment according to a manual by irradiating the camera and the lighting as in the prior art.

2 is a diagram illustrating processing of a halftone image in an overlap region according to an exemplary embodiment. As shown, the last nozzle of the head 13 and the first nozzle of the head 20 may overlap each other. That is, it may overlap by the diameter of one nozzle.

The head 13 may discharge red (R) droplets and the head 20 may discharge green (G) droplets. The driving operation of the nozzle may be controlled so that the lowermost head of the first head group and the uppermost head of the second head group are ejected in an overlapping area using a half-tone image processing method. That is, the last nozzle of the head 13 and the first nozzle of the head 20 that are overlapped with each other may discharge droplets having a lower density than other nozzles of the same head. The half-tone image processing method may refer to a method of processing an image with a relatively low density compared to an adjacent region. As shown, less droplets may be discharged than other nozzles. That is, it may be controlled to reduce the droplet discharging frequency. The method of forming the density difference can be implemented in various ways, and the ratio can be variously corrected. In the overlapped nozzles, due to the ejection of low-density droplets, droplets may be mixed in the overlapped area in the substrate 2000, so that the occurrence of Mura lines can be minimized or eliminated. Accordingly, a high-resolution to high-quality OLED display can be implemented. The overlapping and half-tone image processing of the first head group and the second head group described above may be equally applied to the second head group and the third head group.

In the inkjet printer according to another embodiment, a plurality of heads of the first head group and the second head group may be arranged so that a part of the active area in each head group overlaps. That is, in FIG. 1, heads adjacent to each other in the same group may be arranged so that part of the active region overlaps by a length of d'. In each head group, a driving operation of a nozzle may be controlled so that droplets are discharged in an area where a part of the active area overlaps with a half-tone image processing method. The half-tone image processing method may refer to a method of processing an image with a relatively low density compared to an adjacent region. Due to this, the occurrence of Mura lines on the substrate 2000 can be minimized or eliminated.

10, 11, 12, 13, 20, 21, 22, 23, 30, 31, 32, 33: head
1: active area
2: bezel area
3: nozzle
1000: head unit
2000: substrate
100: first head block
200: second head block
300: third head block

Claims (4)

In the inkjet printer having a head unit that moves on a substrate and ejects droplets,
The head unit is composed of a first head group constituting a plurality of heads, and a second head group constituting another plurality of heads,
The head is composed of an active area provided with a plurality of nozzles and a bezel area provided at the left and right edges of the active area and not provided with nozzles,
A plurality of heads of the first head group and the second head group are arranged in a line in a diagonal direction in each group,
A part of the active area of the lowermost head of the first head group and a part of the active area of the uppermost head of the second head group are arranged to overlap,
An inkjet printer that controls a driving operation of a nozzle so that a lowermost head of the first head group and an uppermost head of the second head group overlap in an overlapping area using a half-tone image processing method. The method of claim 1,
A plurality of heads of the first head group are provided on the first head block, another plurality of heads of the second head group are provided on the second head block, and the first head block and the second head block are left and right. Inkjet printer that can be attached and detached from the head unit due to independent movement. The method of claim 1,
An inkjet printer in which a plurality of heads of the first head group and the second head group are arranged so that a part of the active area in each head group overlaps. The method of claim 4,
An inkjet printer that controls a driving operation of a nozzle so that droplets are ejected using a half-tone image processing method in an area where a portion of an active area in each head group overlaps.

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