KR102605075B1 - Apparatus and Method for Inspecting Droplet - Google Patents

Abstract

The droplet inspection device includes an inspection unit that irradiates light toward a droplet discharged from a plurality of nozzles disposed on the nozzle surface of an inkjet head to inspect the state of the droplet, and detects the irradiated light, and A droplet passage part through which the liquid droplet ejected from the nozzle passes is formed, and the part facing the path through which the light is irradiated is made of a color to prevent the light from being reflected, and the nozzle surface of the inkjet head and the area where the light is irradiated are formed. It may include an inspection plate provided to be placed between the paths.

Description

Droplet inspection device and method {Apparatus and Method for Inspecting Droplet}

The present invention relates to a liquid droplet inspection device and method, and more specifically, to provide a liquid droplet inspection device and method for inspecting the state of liquid droplets discharged from a plurality of nozzles disposed on the nozzle surface of an inkjet head.

Recently, when printing using ink on print media such as paper, when forming an alignment film or applying UV ink on a substrate (transparent substrate) for manufacturing a liquid crystal display device, etc., or when using an organic EL display device, etc. When applying a color filter on a substrate for manufacturing, etc., a printing device equipped with an inkjet head is used.

In the process using the inkjet head, if the state of the droplets discharged from the plurality of nozzles disposed on the nozzle surface of the inkjet head, that is, the discharge speed of the droplet, the size of the droplet, the discharge amount of the liquid droplet, etc., are outside the set range, the process is defective. judge. Therefore, the state of the liquid droplets discharged from the nozzles is always inspected using an inspection device.

The inspection device may include a bath capable of containing liquid droplets discharged from the nozzle, and an inspection unit that irradiates light toward the liquid droplets and detects the irradiated light. An irradiation hole through which the light is irradiated may be formed on one side of the bath, and a detecting hole through which the irradiated light may be detected may be formed on the other side of the bath. Accordingly, the inspection unit may be provided to be disposed on the irradiation-hole side and the detecting-hole side.

In the case of the inkjet head, the nozzle surface may have various colors. If the nozzle surface has a color that reflects the light irradiated from the inspection unit, in the inspection using the inspection device, the nozzle surface may have a color that reflects the light emitted from the inspection unit. As diffuse reflection occurs, a situation may arise in which the state of the droplet cannot be accurately inspected. In addition, a situation may occur where the droplet rebounds when placed in the bath. When the droplet rebounds towards the irradiation-hole or the detecting-hole, irradiation of the light or detection of the light does not occur smoothly. A situation may arise in which the state of the droplet cannot be accurately inspected.

Korean registered patent 10-1410723 (2014.06.17)

The purpose of the present invention is to minimize the occurrence of diffuse reflection of light when inspecting the state of droplets discharged from nozzles disposed on the nozzle surface of an inkjet head, and to minimize the situation in which droplets bounce. is to provide.

To achieve the above-mentioned object, a liquid droplet inspection device according to an embodiment of the present invention directs light toward a liquid droplet ejected from a plurality of nozzles disposed on the nozzle surface of an inkjet head to inspect the state of the liquid droplet. an inspection unit that irradiates and detects the irradiated light; and a droplet passing portion through which the liquid droplet discharged from the nozzle passes, wherein the portion facing the path through which the light is irradiated is made of a color that prevents the light from being reflected, and the nozzle surface of the inkjet head and the light are formed. It may include an inspection plate disposed between the irradiated paths.

In the droplet inspection device according to the above-mentioned embodiment of the present invention, the color that prevents reflection of light may include black.

The liquid droplet inspection device according to the above-mentioned embodiment of the present invention may further include a bath capable of containing liquid droplets discharged from the nozzle, and the bath may be disposed below the inspection plate.

In the droplet inspection device according to an embodiment of the present invention mentioned above, an irradiation hole through which the light is irradiated may be formed on one side of the bath, and a detection-hole through which the irradiated light is detected may be formed on the other side of the bath. A hole may be formed.

According to the liquid droplet inspection device and method of the present invention, a liquid droplet passing portion through which liquid droplets discharged from a nozzle pass is formed, and the portion facing the path through which light is irradiated is formed with an inspection plate made of a color that prevents the light from being reflected. It may be provided to be disposed between the nozzle surface and the path through which light is irradiated.

Accordingly, in the present invention, because the droplet can be used only in the amount necessary for inspection by the droplet passage part of the inspection plate, the situation where the droplet rebounds and contaminates the irradiation hole or the detecting hole can be minimized. Improvement in test reliability can be expected. In addition, in the present invention, by forming the color of the part of the test plate to which light is irradiated so as not to reflect light, it is possible to prevent the situation in which the light irradiated for the inspection of the droplet state is reflected, and as a result, the test reliability is improved. Further improvement can be expected.

1 is a schematic configuration diagram for explaining a droplet inspection device according to an embodiment of the present invention.

Since the present invention can be subject to various changes and can have various forms, embodiments will be described in detail in the text. However, this is not intended to limit the present invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention. While describing each drawing, similar reference numerals are used for similar components. Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “consist of” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless explicitly defined in the present application, should not be interpreted in an ideal or excessively formal sense. No.

1 is a schematic configuration diagram for explaining a droplet inspection device according to an embodiment of the present invention.

Referring to FIG. 1, the inkjet head 11 in the present invention is a printing device for forming an alignment film or applying UV ink on a substrate for manufacturing a liquid crystal display device, etc., on a substrate for manufacturing an organic EL display device, etc. It may be provided in a printing device that applies a color filter to the screen.

The liquid droplet 14, which is the object of inspection in the present invention, may be ejected from a nozzle (not shown) disposed on the nozzle surface 12 of the inkjet head 11. A plurality of nozzles may be disposed on the nozzle surface 12 of the inkjet head 11. In the case of the inkjet head 11, a plurality of nozzles may be provided in one inkjet head 11, and 128 or 256 nozzles may be mainly arranged in one inkjet head 11. A plurality of nozzles may be formed in the inkjet head 11 to have a line structure along the longitudinal direction of the inkjet head 11.

The liquid droplet inspection device 100 of the present invention performs an inspection on the liquid droplets 14 ejected from the nozzles of the inkjet head 11, including the discharge amount of the liquid droplets 14, the size of the liquid droplets 14, The discharge speed of the droplet 14, etc. can be inspected. Additionally, the droplet inspection device 100 of the present invention can inspect whether the droplet 14 is ejected.

The droplet inspection device 100 may include an inspection unit (not shown), an inspection plate 15, a bath 13, etc.

The inspection unit may include a light irradiation member that irradiates light toward the liquid droplets 14 discharged from the nozzles, and a light detecting member that detects the irradiated light. If the light emitted from the light irradiation member does not travel in a straight line and has a diffuse nature, the sensitivity of the light may be poor, which may reduce the reliability of the inspection of the state of the droplet 14. Accordingly, a member capable of irradiating a laser beam can be used as the light irradiation member. In addition, the light irradiation member may further include a lens capable of concentrating the irradiated light in order to ensure the straight path of the light.

The light detecting member may be provided to detect light passing through the droplet 14 from the light irradiation member. Accordingly, the optical detector member may be provided to face the light irradiation member with the discharge path of the droplet 14 interposed therebetween. The light detecting member may include a photodiode or the like to receive light passing through the droplets 14 discharged from the nozzles.

The nozzle surface 12 of the inkjet head 11 may be provided in various colors. Accordingly, when inspecting the droplet 14 using the droplet inspection device 100, diffuse reflection may occur in the light irradiated due to the nozzle surface 12 of the inkjet head 11. If diffuse reflection of the light irradiated during inspection of the droplet 14 occurs, the reliability of the inspection may be affected. However, it would also be difficult to change the color of the nozzle surface 12 of the inkjet head 11 to a color that prevents reflection of light.

The droplet inspection device 100 of the present invention can prevent light emitted from the inspection unit from being reflected by providing the inspection plate 15. To this end, the portion 17 of the inspection plate 15 facing the path through which the light is irradiated may be colored to prevent the light from being reflected. That is, an anti-reflection surface 17 may be formed on the inspection plate 15. The color that prevents the light from being reflected may include black. Accordingly, the portion of the inspection plate 15 facing the path through which the light is irradiated may be black.

The bath 13 may be provided to contain the liquid droplets 14 discharged from the nozzle. The purpose of using the bath 13 is to recycle the liquid droplets 14. An irradiation-hole 21 through which the light is irradiated may be formed on one side of the bath 13, and a detecting-hole 23 through which the irradiated light is detected may be formed on the other side of the bath 13. It can be. Accordingly, the light irradiation member of the inspection unit may be provided on the irradiation-hole 21 side, and the light detecting member of the inspection unit may be provided on the detecting-hole 23 side.

When using the bath 13, a situation may occur in which the liquid droplet 14 rebounds when placed in the bath 13. The droplet 14 rebounds toward the irradiation hole 21 or the detecting hole 23 and contaminates the irradiation hole 21 or the detecting hole 23, thereby contaminating the irradiation hole 21 or the detecting hole 23. Detection of light may not be performed smoothly, and as a result, a situation may occur in which the state of the droplet 14 cannot be accurately inspected.

The droplet inspection device 100 of the present invention can minimize the situation in which the droplet 14 bounces when placed in the bath 13 by providing the inspection plate 15. To this end, a liquid droplet passing part 18 through which the liquid droplet 14 discharged from the nozzle passes may be formed on the inspection plate 15. When inspecting the state of the droplet 14, the droplet 14 discharged from the nozzle passes only through the droplet passing part 18 and is provided toward the bath 13, so the droplet 14 is not exposed to the irradiation hole. The situation provided toward (21) or the detecting-hole (23) can be minimized, and as a result, the droplet (14) rebounds toward the irradiation-hole (21) or the detecting-hole (23). This situation can be minimized.

The inspection plate 15 may be provided to be disposed between the nozzle surface 12 of the inkjet head 11 and the path through which the light is irradiated. Accordingly, the bath 13 may be placed below the inspection plate 15. In particular, the inspection plate 15 may be placed to interview the upper surface of the bath 13.

As mentioned, the droplet inspection device 100 in the present invention is formed with a droplet passage portion 18 through which the droplet 14 discharged from the nozzle passes, and a portion 17 facing the path through which light is irradiated. The inspection plate 15 made of a color that prevents the light from being reflected may be provided to be disposed between the nozzle surface 12 of the inkjet head 11 and the path through which the light is irradiated.

Therefore, when inspecting the state of a droplet using the droplet inspection device of the present invention, the situation where the droplet rebounds and contaminates the irradiation-hole or the detecting-hole can be minimized, and the situation where light is reflected can be prevented in advance. Because this can be done, inspection reliability can be improved, and as a result, process reliability for the printing device can also be improved.

Although the present invention has been described above with reference to preferred embodiments, those skilled in the art can make various modifications and changes to the present invention without departing from the spirit and scope of the present invention as set forth in the following patent claims. You will understand that it is possible.

11: Inkjet head 12: Nozzle face
13: Bath 14: Droplet
15: Inspection plate 17: Anti-reflection surface
18: Droplet passage part 21: Irradiation-hole
23: Detecting-Hole 100: Droplet inspection device

Claims (5)

an inspection unit that irradiates light toward liquid droplets discharged from a plurality of nozzles disposed on the nozzle surface of the inkjet head to inspect the state of the liquid droplets and detects the irradiated light;
A droplet passage part through which the liquid droplet discharged from the nozzle passes is formed, and the part facing the path through which the light is irradiated is made of a color to prevent the light from being reflected, and the nozzle surface of the inkjet head and the light irradiated an inspection plate provided to be placed between the paths; and
Includes a bath capable of containing liquid droplets discharged from the nozzle,
The upper surface of the bath and the lower side of the inspection plate may be arranged to face each other, and as the bath is arranged to face the inspection plate, an irradiation hole through which the light is irradiated is formed on one side of the bath, A liquid droplet inspection device, characterized in that a detecting hole is formed on the other side of the bath through which the irradiated light is detected. According to claim 1,
A droplet inspection device, wherein the color that prevents reflection of light includes black. delete delete irradiating light toward a liquid droplet ejected from a plurality of nozzles disposed on a nozzle surface of an inkjet head to inspect the state of the liquid droplet and detecting the emitted light; and
Preventing the light from being reflected between the nozzle surface and the path through which the light is irradiated when irradiating and detecting the light to inspect the state of the droplet,
The liquid droplets discharged from the nozzle are contained in a bath, and an inspection plate facing the upper surface of the bath is disposed between the nozzle surface of the inkjet head and the path through which the light is irradiated, so that the light is transmitted from one side of the bath. A droplet inspection method characterized in that irradiation is performed and the irradiated light is detected on the other side of the bath.

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