KR101088438B1 - Apparatus for printing thin film on the flexible board - Google Patents

Abstract

The present invention relates to a thin film printing apparatus for adjusting the thickness of a second degree thin film to be printed next according to the thickness of a thin film in-line printed on a flexible substrate in-line with a roll printing system. An apparatus for allowing a flexible substrate to pass through a first roll printing unit and a second roll printing unit in order, and to print a 1 degree thin film on the first roll printing unit and to print a 2 degree thin film on the second roll printing unit. An ink supply unit for supplying ink for thin film printing; A rail provided across the flexible substrate on the flexible substrate immediately after the second roll printing unit; A camera for zigzag photographing the surfaces of the first degree thin film printed and the second degree thin film printed flexible substrate while reciprocating a specific section on the flexible substrate along the rail by hanging on the rail; And measuring the thickness of the second degree thin film by analyzing the interference of the waveform of the light reflected from the surface of the second degree thin film and the wave reflected from the boundary of the second degree and the first degree by receiving the image signal photographed from the camera. And controlling the ink supply amount of the ink supply part and the printing speed of the second roll printing part according to the thickness of the second degree thin film so as to print the second degree thin film with a uniform thickness.
As described above, the present invention adjusts the thickness of the second degree thin film to be printed next according to the thickness of the thin film inlined to the roll printing system and printed on the flexible substrate by two degrees. Therefore, the thickness of the second degree thin film can be easily controlled. It works.

Description

Apparatus for printing thin film on the flexible board

The present invention relates to an apparatus for printing a thin film on a flexible substrate, and in particular, according to the thickness of a thin film printed in-line on a roll printing system and printed 2 degrees on the flexible substrate. It relates to a thin film printing apparatus for adjusting the thickness of the second degree thin film to be printed.

1 is a view showing an embodiment of a thickness measuring apparatus according to the prior art, the X-ray (100), the object 102, the X-ray detector 104, and the signal processor ( 106).

In the figure, the X-ray generator 100 generates X-rays to irradiate the object 102.

X-ray detector 104 detects X-rays passing through object 102 and provides a signal to signal processor 106 corresponding to the detected X-rays.

The signal processor 106 processes the X-ray detection signal provided from the X-ray detector 104 so that it can be used in the next stage and outputs it to the next stage.

FIG. 2 is a graph showing a signal detected by the X-ray detector 104 shown in FIG. 1, wherein I = I ₀ e ^{− uT} to be. Where I ₀ X is the X-ray detection signal in the absence of the object 102, I is the X-ray detection signal transmitted through the object 102, T is the thickness of the object 102 and u is the attenuation coefficient.

In this conventional technique, the thickness of the object 102 is measured by measuring the change in X-ray absorption rate according to the thickness, and the measurement accuracy of the thickness is about several um. That is, the measurement precision of thickness is comparatively inferior.

In addition to measuring the thickness of the object using infrared (IR), gamma rays, and alpha rays in addition to X-rays, the thickness measurement accuracy is only a few um.

The present invention has been made in order to solve the above problems, the thin film on the flexible substrate for controlling the thickness of the second-degree thin film to be printed next in accordance with the thickness of the thin film inlined in the roll printing system and printed on the flexible substrate 2 degrees The purpose is to provide a device for printing.

In order to achieve this object,

According to one embodiment of the present invention, the flexible substrate is passed through the first roll printing unit and the second roll printing unit in order to print a 1 degree thin film on the first roll printing unit and to print a 2 degree thin film on the second roll printing unit. An apparatus for supplying an ink for printing the second degree thin film; A rail provided across the flexible substrate on the flexible substrate immediately after the second roll printing unit; A camera for zigzag photographing the surfaces of the first degree thin film printed and the second degree thin film printed flexible substrate while reciprocating a specific section on the flexible substrate along the rail by hanging on the rail; And measuring the thickness of the second degree thin film by analyzing the interference of the waveform of the light reflected from the surface of the second degree thin film and the wave reflected from the boundary of the second degree and the first degree by receiving the image signal photographed from the camera. And controlling the ink supply amount of the ink supply part and the printing speed of the second roll printing part according to the thickness of the second degree thin film so as to print the second degree thin film with a uniform thickness.

Trigger marks are displayed on one surface of the flexible substrate at regular intervals in a longitudinal direction, and fixed to the trigger marks of the rails to detect the position of the trigger marks and provide a trigger mark detection signal to the controller. The control unit may further include a position sensor for obtaining a traveling speed of the flexible substrate.

The control unit receives an image signal photographed from the camera and displays the surface image of the flexible substrate on a screen provided with the foreign matter, scratches, wrinkles, and layer alignment on the surface of the flexible substrate. do.

The cameras are provided in plural numbers at a predetermined interval in the width direction of the flexible substrate, and each of the plurality of cameras zigzags the surfaces of the first degree thin film printed and the second degree thin film printed flexible substrate while reciprocating in its section. It is characterized by photographing.

The camera is characterized in that the camera using a charge coupled device.

According to the present invention, since the thickness of the second degree thin film to be printed next is adjusted according to the thickness of the thin film inlined to the roll printing system and printed on the flexible substrate 2 degrees, the thickness control of the second degree thin film can be facilitated. There is.

The controller receives an image signal photographed from the camera and displays the surface image of the flexible substrate on a screen provided so that foreign matters, scratches, wrinkles, and layer alignment appear on the surface of the flexible substrate. There is an advantage that it is easy to take measures depending on foreign matter, scratches, wrinkles, and layer alignment state on the surface.

1 is a view showing an embodiment of a thickness measuring apparatus according to the prior art.
FIG. 2 is a graph illustrating signals detected by the X-ray detector shown in FIG. 1.
3 and 4 is a view showing the principle of the thin film thickness measurement of the flexible substrate according to the present invention.
5 is a diagram illustrating an example in which the computer shown in FIG. 4 measures the thickness of a thin film.
6 is a view showing a camera for measuring the thickness of a flexible substrate according to the present invention moves along a rail installed across the flexible substrate on the flexible substrate.
FIG. 7 is a diagram showing that the camera shown in FIG. 6 is zigzag on the flexible substrate.
8 is a view showing an embodiment of an apparatus for printing a thin film on a flexible substrate according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 and 4 is a view showing the principle of the thin film thickness measurement of the flexible substrate according to the present invention.

FIG. 5 is a diagram illustrating an example in which the computer 302 illustrated in FIG. 4 measures the thickness of the thin film 202.

First, visible light, ultraviolet (UV), or infrared light is used as the light source 300 according to the type of the thin film 202 coated on the flexible substrate 200.

The computer 302 has a waveform of the first reflected light 206 in which the incident light 204 provided from the light source 300 is reflected from the surface of the thin film 202, and the incident light 204 is formed of the flexible substrate 200 and the thin film. The thickness of the thin film 202 is measured by analyzing the interference of the waveform of the second reflected light 208 reflected at the boundary surface of 202.

Since the present invention has a different reflectance for each material, the thickness of each thin film having a multilayer structure can be measured.

FIG. 6 is a view illustrating a camera 406 for measuring a thin film thickness of a flexible substrate according to the present invention, moving along a rail 402 installed across the flexible substrate 400 on the flexible substrate 400. 400, a rail 402, a position sensor 404, a camera (charge coupled device (CCD)) 406, and a trigger mark 408.

FIG. 7 is a diagram illustrating that the camera 406 shown in FIG. 6 progresses zigzag on the flexible substrate 400.

The trigger mark 408 is displayed on one surface of the flexible substrate 400 at regular intervals in the longitudinal direction.

The position sensor 404 provides the trigger mark detection signal to the controller 502 of FIG. 8 whenever the trigger mark 408 is detected.

The camera 406 is moved by the linear motor in the width direction of the flexible substrate 400 under the control of the controller 502.

As an example of the total inspection, the operating time of the camera 406 is 2 sec, the longitudinal velocity V _MD of the flexible substrate 400 of the camera 406 is 5 mpm (80 mm / sec), and the flexible substrate 400 of the camera 406. The width direction V _{CD is set} to 1 mm / 2 sec (0.5 mm / sec), and the number of shots per specific time of the camera 406 is set to 300 times, and the length of the flexible substrate 400 is 48 m. Complete the full width inspection of.

That is, when the longitudinal velocity V _MD of the flexible substrate 400 is 1mpm, it is possible to perform a full width inspection on the 9.6m coating. At this time, if five cameras are installed for each section, it is possible to inspect the width of the 9.6m coating.

8 is a view showing an embodiment of an apparatus for printing a thin film on a flexible substrate according to the present invention, the flexible substrate 400, the camera 406, the ink controller 500, the pump 502, the valve 504 , The control unit 506, the first and second roll printing units 510 and 520, the first, second and third servomotors 514, 524 and 528, and the first, second and third drivers 512. , 522, 526.

In the same figure, the first roll printing unit 510 is printed on the flexible substrate 400 by 1 degree to pattern the first thin film, and the second roll printing unit 520 is printed on the flexible substrate 400 by 1 degree. The second thin film is patterned by printing at 2 degrees, and the first and second degrees of printing are described in detail as follows. At this time, the first servomotor 514 is controlled by the controller 506 through the first driver 512 to perform a 1 degree printing operation of the first roll printing unit 510. The second servomotor 524 performs the second degree printing operation of the second roll printing unit 520 under the control of the controller 506 through the second driver 522.

First, the camera 406 is mounted on the rail 402 as shown in FIG. 6, and photographs the surface of the flexible board 400 while moving in a zigzag form on the flexible board 400 as shown in FIG. 7. to provide. At this time, since the camera 406 reciprocates in the width direction of the flexible board 400 and the flexible board 400 proceeds to the right, the camera 406 proceeds zigzag on the flexible board 400 as a result. .

The controller 506 measures the thickness of each thin film having a multi-layer structure on the flexible substrate 400 from the image signal provided from the camera 406 in the same manner as in FIG. 3 described above, according to the thickness of the thin film according to the second degree printing. Control each part.

For example, the controller 506 may further supply ink for printing the second degree thin film through the ink controller 500 or the second roll when the thin film according to the second degree printing having a multilayer structure on the flexible substrate 400 is thin. The printing unit 520 makes the 2-degree printing slow so that the thin film according to the 2-degree printing becomes thicker.

The controller 506 receives an image signal photographed from the camera 406 and displays a surface image of the flexible substrate 400 on a screen (not shown) to display foreign matter on the surface of the flexible substrate 400. Scratches, wrinkles, and layer alignment may be indicated so that an operator may easily take measures according to foreign matter, scratches, wrinkles, and layer alignment on the surface of the flexible substrate 400. In this case, the electron microscope may be fixedly mounted on a specific portion of the camera 406 so that the electron microscope provides the surface image of the flexible substrate 400 to the controller 506.

The position sensor 404 is fixedly installed on the trigger mark 408 side of the rail 402 to detect the position of the trigger mark 408 and provides a trigger mark detection signal to the control unit 506, so that the control unit 506 is flexible. The traveling speed of the substrate 400 can be obtained. In this case, the trigger marks 408 are displayed at regular intervals in the longitudinal direction on one surface of the flexible substrate 400.

The traveling speed of the flexible board 400 may be obtained through an encoder installed in the second servomotor 524 that transfers the camera 406 and the flexible board 400.

The camera 406 reciprocates in the width direction of the flexible substrate 400 in conjunction with the longitudinal velocity V _MD of the flexible substrate 400. In this case, the specific number of photographing times of the camera 406 may be adjusted according to the working environment, and the flexible substrate 400 in the width direction speed V _CD of the camera 406 may be represented by Equations 1 and 2 below.

Referring to Equation 1, the flexible substrate 400 of the camera 406, the width direction speed V _CD = ((Pi + dt) + Pi) / dt.

In Equation 2, the flexible substrate 400 of the camera 406 has a widthwise velocity V _CD. = V _MD * β, where β is a constant. β varies depending on the specific number of shots per hour of the camera 406.

The present invention can be used to manufacture electronic devices such as organic solar cells (OPV), organic light emitting diodes (OLED), and thin film transistors (TFT).

Here, as the second degree thin film printed on the flexible substrate 400 is transparent, the camera 406 may capture an image according to the thickness of the second degree thin film.

As described above, the present invention adjusts the thickness of the second degree thin film to be printed next according to the thickness of the thin film inlined to the roll printing system and printed on the flexible substrate by two degrees. Therefore, the thickness of the second degree thin film can be easily controlled. There is an advantage.

In addition, since the alignment error between layers in the width direction of the real-time flexible substrate 400 in a continuous process can be known in real time, such an error is the third servomotor 528 for the widthwise transfer of the flexible substrate 400. It is fed back to the error correction value of the third driver 526 for driving the) can be constructed as an automatic alignment system.

The controller 506 receives the image signal photographed from the camera 406 and displays the surface image of the flexible board 400 on the screen provided with the foreign matter, scratches, wrinkles, and layer alignment on the surface of the flexible board 400. Since the state appears, there is an advantage that the operator can easily take measures according to the foreign matter, scratches, wrinkles, and the layer alignment state on the surface of the flexible substrate 400.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

200, 400: flexible board
202: thin film
204: incident light
206 and 208: first and second reflected light beams
300 light source
302: Computer
402: rail
404: position sensor
406: camera
408: trigger mark
500: ink controller
502: pump
504: Valve
506 control unit
510, 520: first and second roll printing unit
514, 524, 528: first, second, third servomotor
512, 522, 526: first, second, third driver

Claims (5)

An apparatus for allowing a flexible substrate to pass through a first roll printing unit and a second roll printing unit in order, and printing a 1 degree thin film on the first roll printing unit and a 2 degree thin film printing on the second roll printing unit.
An ink supply unit supplying ink for printing the second degree thin film;
A rail provided across the flexible substrate on the flexible substrate immediately after the second roll printing unit;
A camera which zigzag photographs the surface of the first degree thin film printed and the second degree thin film printed flexible substrate while reciprocating a specific section on the flexible substrate along the rail by hanging on the rail; And
The thickness of the second degree thin film is measured by analyzing the interference between the waveform of light reflected from the surface of the second degree thin film and the waveform of light reflected at the interface between the second degree and the first degree by receiving the image signal photographed from the camera. And a control unit for controlling the ink supply amount of the ink supply part and the printing speed of the second roll printing part according to the thickness of the second degree thin film so that the second degree thin film is printed with a uniform thickness. Device for printing.
The method according to claim 1,
Trigger marks are displayed on one surface of the flexible substrate at regular intervals in a longitudinal direction, and fixed to the trigger marks of the rails to detect the position of the trigger marks and provide a trigger mark detection signal to the controller. The apparatus for printing a thin film on a flexible substrate, characterized in that the control unit further comprises a position sensor for obtaining the traveling speed of the flexible substrate.
The method according to claim 1 or 2,
The control unit receives an image signal photographed from the camera and displays the surface image of the flexible substrate on a screen provided with the foreign matter, scratches, wrinkles, and layer alignment on the surface of the flexible substrate. Device for printing a thin film on a flexible substrate.
The method according to claim 1 or 2,
The cameras are provided in plural numbers at a predetermined interval in the width direction of the flexible substrate, and each of the plurality of cameras zigzags the surfaces of the first degree thin film printed and the second degree thin film printed flexible substrate while reciprocating in its section. Device for printing a thin film on a flexible substrate, characterized in that for shooting.
The method according to claim 1 or 2,
The camera is a device for printing a thin film on a flexible substrate, characterized in that the camera using a charge coupled device.

Images