KR101930204B1 - Method manufacturing for window-camera lens - Google Patents

Abstract

The present invention relates to a method for manufacturing window glass coated with AR coating on front and rear sides for a camera. An object of the present invention is to enhance the transmittance of a window glass and to prevent a ghost phenomenon caused by reflections when photographing with the camera. That is, the present invention relates to a method for manufacturing window glass for a camera which is characterized by forming AR coating layers on both front and rear sides of the window glass. Accordingly, an object of the present invention is to enhance the transmittance of the window glass and to prevent ghost phenomenon caused by reflection when photographing with the camera by forming AR coating layers on both front and rear sides of the window glass.

Description

Technical Field [0001] The present invention relates to a method for manufacturing a window glass lens for an AR coating camera,

The present invention relates to a method of manufacturing a window glass for a front and rear AR coating camera, and more particularly, to a method for manufacturing a window glass for a camera, which comprises: forming an AR coating layer on both sides of a front side and a rear side of a window glass, And to prevent a ghosting phenomenon caused by reflection when a camera is photographed.

Another object of the present invention is to form an etching pattern layer by etching the front surface or the back surface of a window glass, thereby maximizing the decoration effect.

Generally, a camera for a smart phone is provided with a window glass for protecting a camera lens on the front side.

The camera window protects the window glass while maximizing the light transmittance of a lens of a camera for a smart phone.

The camera window that protects the window glass as described above is made of highly durable reinforced window glass and the antireflection coating (AR) coating layer is formed on the back side to increase the transmissivity of the camera window to minimize the phenomenon caused by diffuse reflection .

However, in the conventional camera window for a smartphone as described above, since the AR coating layer is formed only on the rear surface of the camera window, the transmittance is not remarkably improved, and the AF coating layer, which is the anti-fingerprint coating formed on the front surface, There was a problem that it was easily damaged.

Korean Patent Publication No. 10-2017-0019406

Accordingly, the present invention provides a camera window for a smartphone as described above, wherein the AR coating layer is formed only on the rear surface of the camera window, so that the transmittance is not remarkably improved and the AF coating layer, So that the AF coating layer can be easily damaged.

That is, the present invention provides a method of manufacturing a window glass for a camera, comprising: a printing process of forming a printing layer on a rear surface of a window glass; a front AR coating process of forming a front AR coating layer on a front surface of the window glass; A rear AR coating process for forming a rear AR coating layer on the rear surface of the window glass, and an AF coating process for forming an AF coating layer on the front surface of the front AR coating layer.

The present invention relates to a chamfering cell cutting process in which a chamfering portion is formed on a rim of a glass cell that is divided into cell units by a cell cutting process and a cracking process is performed by a cell cutting line by a pickup force when the window glass is cut- Up line to form a broken line for forming a pick-up line.

The present invention relates to a process for forming a chamfering cell, which comprises the steps of: etching protective UV printing to form an etching protection layer on the entire surface of a window glass; and UV curing the etching protection layer, A cleaning process for washing foreign materials, a laser cell cutting process for forming a cell cutting line for cutting a window glass by a laser using a laser, a glass for forming a chamfer along a cell cutting line by penetrating an etching liquid into a cell cutting line And an etching protection layer removing process for removing the etching protection layer.

The present invention is further characterized in that the AF binding strengthening process is further performed before the AF coating process so that the bonding strength of the AF coating layer is firmly maintained.

The present invention is characterized in that the AF binding strengthening process is performed through an AR edge etching separation process in which the rim of the front AR coating layer formed through the front AR coating process is etched away.

The present invention is characterized in that the AF binding strengthening process is performed such that the front AR coating layer is formed through the binding hole masking process so that the AF binding hole is formed in the front AR coating layer rim during the front AR coating process and the AF binding is formed on the edge of the front AR coating layer .

The present invention is characterized in that an etching pattern forming process for forming an etching pattern layer on the front or rear edge of the window glass is further performed.

The present invention is characterized in that the etching pattern formation process is performed by forming an etching pattern layer on the front surface of the window glass so as to improve the binding force of the AF coating layer and forming the front AR coating layer and the AF coating layer on the window glass through the AF binding strengthening process will be.

In the etching pattern formation process of the present invention, the etching pattern layer may be formed on the rear surface of the window glass so as to enhance the aesthetics of the etching pattern layer, a multi-layered vapor deposition layer may be formed on the upper surface of the etching pattern layer, And a printing layer is formed on the surface of the substrate.

Accordingly, it is an object of the present invention to improve the transmittance of a window glass and to prevent a gossiness phenomenon due to reflection when photographing a camera by forming an AR coating layer on both the front and rear sides of the window glass.

It is another object of the present invention to provide an etching pattern layer on the front or rear surface of a window glass to maximize the decoration effect.

1 is a main process diagram showing an embodiment of the present invention.
Fig. 2 is an illustration of a window glass according to Fig. 1; Fig.
FIG. 3 is a main process diagram showing that an AF coupling bundling process is additionally performed in the practice of the present invention. FIG.
Fig. 4 is an illustration of a window glass according to Fig. 3; Fig.
FIG. 5 is a main process diagram showing an additional process of etching pattern formation in the practice of the present invention. FIG.
Figs. 6 to 9 are exemplary views of a window glass according to Fig. 5; Fig.
10 and 11 are a detailed main process diagram of the cell cutting process in the practice of the present invention.

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

The present invention is intended to improve the transmittance of a window glass and to prevent a gossiness phenomenon caused by reflections during camera shooting. It is to be understood that the terms and words used in the present specification and claims are to be construed as limited to ordinary or dictionary terms And the inventor should interpret the meaning and concept in accordance with the technical idea of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

That is, the present invention provides a method for manufacturing a window glass 10 for a camera, comprising: a printing process 100 for forming a printing layer 20 on a rear surface of a window glass 10; A cell cutting process 300 for forming a cutting line in a cell unit of the window glass 10, a backside AR coating layer 32 on the backside of the window glass 10, And an AF coating process 500 in which an AF coating layer 40 is formed on an upper surface of the front AR coating layer 31.

Here, the printing process 100 forms printing layers 20 of various colors through printing on the back surface of the window glass 10. [

The front AR coating process 200 forms the front AR coating layer 31 on the entire surface of the window glass 10 so as to reduce the refractive index and increase the light transmittance.

In addition, the cell cutting process 300 forms a cutting line so that the window glass 10 can be cut and separated in units of cells.

The cell cutting process 300 includes a chamfering cell cutting process 310 for forming a chamfer at the edge of a glass cell that is divided and cut by a cell unit and a window glass 10 cut in a cell unit by a pick- And a pick-up broken line forming process 320 for forming a broken line 62 for causing a crack to be induced in the cell cutting line 61.

The chamfer forming cell cutting process 310 may include an etching protection UV printing process 311 for forming an etching protection layer on the entire surface of the window glass 10 and a UV irradiation process for the etching protection layer, A cleaning process 313 for cleaning foreign substances on the front and back surfaces of the window glass 10, a laser process for forming a cell cutting line 61 for cutting the window glass 10 by a laser using the laser, A glass etching process 315 for penetrating the etching liquid into the cell cutting line 61 to form a chamfer along the cell cutting line 61 and an etching protection layer removing process 316 for removing the etching protection layer 314, ).

The pick-up broken line forming process 320 forms a broken line 62 that causes a crack to be induced in the cell cutting line 61 by a pick-up force when picking up the window glass 10 cut in a cell unit.

The broken line 62 is formed to be connected to the scanning line of the adjacent glass cell at the center of the cell cutting line 61.

In addition, the rear AR coating process 400 forms a rear AR coating layer 32 at the center of the rear surface of the window glass 10.

The AF coating process 500 includes forming an AF coating layer 40 on the front AR coating layer 31 formed on the front surface of the window glass 10.

The AF binding strengthening process 210 may be performed before the AF coating process 500 so that the AF coating layer 40 is firmly retained in the binding force.

The AF binding strengthening process 210 may be performed through an AR edge etching and peeling process for etching and peeling the edge of the front AR coating layer 31 formed through the front AR coating process 200.

The AR edge etching and peeling process is performed by coating an entire surface of the front AR coating layer 31 with an exposure mask, exposing the top surface of the exposure mask to light, exposing, developing, etching, and peeling.

The AF binding strengthening process 210 forms the front AR coating layer 31 through the binding hole masking process so that the AF binding holes 41 are formed in the front AR coating layer 31 in the front AR coating process 200, And the AF binding is formed on the rim of the AR coating layer 31.

Meanwhile, in the practice of the present invention, an etching pattern forming process 600 for forming an etching pattern layer 42 on the front or rear edge of the window glass 10 may be further performed.

The etching pattern forming process 600 may include a laminating process for laminating an etching film on the surface of the window glass 10, an exposure process for exposing the etching film to the etching process, a developing process for developing the exposed etching film, And a peeling process for peeling off the etching film.

The etching pattern layer 42 is formed on the entire surface of the window glass 10 so as to improve the binding force of the AF coating layer 40 in the etching pattern forming process 600 and the front AR coating layer 31 and the AF coating layer 40 can be formed on the window glass 10.

The etch pattern layer 42 is formed on the rear surface of the window glass 10 so as to increase the esthetics of the etch pattern layer 42 in the etch pattern formation process 600, And the printing layer 20 is formed on the multi-layer deposition layer 50. The multi-layer deposition layer 50 is formed on the multi-

Hereinafter, the operation and effect of the application of the present invention will be described.

In the method for manufacturing a window glass 10 for a camera as described above, the printing layer 20 is formed on the back surface of the window glass 10 so that the AR coating layer can be formed on both the front and rear sides of the window glass 10 A printing process 100 and a front AR coating process 200 for forming an AR coating layer on the entire surface of the window glass 10, a cell cutting process 300 for forming a cutting line for the window glass 10 on a cell basis, A rear AR coating process 400 for forming an AR coating layer on the rear surface of the window glass 10 and an AF coating process 500 for forming an AF coating layer 40 on the AR coating layer on the front surface of the window glass 10 The difference in refractive index between the window glass 10 and the air due to the front AR coating layer 31 and the rear AR coating layer 32 is minimized and the transmittance of the window glass 10 is improved. It prevents the goeth phenomenon.

As a result of comparing the light transmittances of 450 nm, 550 nm and 650 nm optical wavelengths through the ultra-transparent window glass 10 to which the present invention was applied and the low-transmission window glass 10 to which the present invention was not applied, It can be seen that the transmittance of the highly transparent window glass 10 to which the present invention is applied is greatly improved.

(20 pieces of the window glass 10 of the present invention and the comparative example were each tested and manufactured)

Meanwhile, in the practice of the present invention, a chamfer forming cell cutting process 310 for forming a chamfered portion on a rim of a glass cell which is divided into cell units by a cell cutting process 300 and a window glass 10 And a pick-up broken line forming process (320) for forming a broken line (62) for causing a crack to be induced in the cell cutting line (61) by a pick-up force when picking up the picked- Durability and operation interference are prevented, and the glass cell is clearly cut and separated by the broken line 62 during the pickup process of the glass cell.

In addition, in the practice of the present invention, when the multi-deposition process is performed to form the multi-deposition layer 50 on the back surface of the window glass 10, the color and reflectance of the formed pattern are improved.

Meanwhile, in the practice of the present invention, the AF binding strengthening process 210 is performed by performing an AR edge etching peeling process or a binding hole masking process so that the AF coating layer 40 formed through the AF coating process 500 is firmly formed The bonding strength of the AF coating layer 40 formed on the upper surface of the front AR coating layer 31 is improved.

In the embodiment of the present invention, an etching pattern forming process 600 for forming an etching pattern layer 42 on the front or rear edge of the window glass 10 is further performed, The bonding force of the AF coating layer 40 is improved.

The etching pattern layer forming process is formed on the rear surface of the window glass 10 and the multi-layer deposition layer 50 is formed on the upper surface of the etching pattern layer 42. The multi-layer deposition layer 50 is provided with a printing layer 20 The etch pattern layer 42 is aesthetically pleasing.

10: Window glass
20: Printed layer
31: front AR coating layer 32: rear AR coating layer
40: AF coating layer
41: AF bonding hole 42: etching pattern layer
50: multi-deposition layer
61: cell cutting line 62: broken line
100: Printing process
200: Front AR coating process
210: AF binding strengthening process
300: Cell cutting process
310: chamfer forming cell cutting process
311: Etch protection UV printing process 312: Etching UV curing process
313: Cleaning process 314: Laser cell cutting process
315: Glass Etching Process 316: Etching Protection Layer Removal Process
320: Pick-up Broken Line Formation Process
400: Bottom AR coating process
500: AF coating process
600: etching pattern formation process

Claims (7)

A method of manufacturing a window glass for a camera, comprising:
A printing process 100 for forming a printing layer 20 on the backside of the window glass 10 and a front AR coating process 200 for forming a front AR coating layer 31 on the entire surface of the window glass 10, A rear AR coating process 400 for forming a rear AR coating layer 32 on the backside of the window glass 10, a front AR coating layer 31, And an AF coating process (500) in which an AF coating layer (40) is formed on an upper surface;
The cell cutting process 300 includes a chamfering cell cutting process 310 for forming a chamfer at the edge of a glass cell that is divided and cut by a cell unit and a window glass 10 cut in a cell unit by a pick- And a pick-up broken line forming process (320) for forming a broken line (62) for causing a crack to be induced in the cell cutting line (61);
The broken line (62) is formed to be connected to the scanning line of the adjacent glass cell at the center of the cell cutting line (61);
The chamfer forming cell cutting process 310 may include an etching protection UV printing process 311 for forming an etching protection layer on the entire surface of the window glass 10 and a UV irradiation process for the etching protection layer, A cleaning process 313 for cleaning foreign substances on the front and back surfaces of the window glass 10, a laser process for forming a cell cutting line 61 for cutting the window glass 10 by a laser using the laser, A glass etching process 315 for penetrating the etching liquid into the cell cutting line 61 to form a chamfer along the cell cutting line 61 and an etching protection layer removing process 316 for removing the etching protection layer 314, Wherein the front and rear AR coating cameras are made of glass.
The method of claim 1, further comprising:
The AF binding strengthening process 210 is further performed before the AF coating process 500 so that the AF coating layer 40 is firmly retained in its binding force,
The AF binding strengthening process 210
Wherein the etching is performed through an AR edge etching and peeling process for etching and stripping the rim of the front AR coating layer (31) formed through the front AR coating process (200).
The method of claim 1, further comprising:
The AF binding strengthening process 210 is further performed before the AF coating process 500 so that the AF coating layer 40 is firmly retained in its binding force,
The AF binding strengthening process 210
The front AR coating layer 31 is formed through the binding hole masking process so that the AF binding holes 41 are formed in the front AR coating layer 31 at the front AR coating process 200, Wherein the first and second AR coating cameras are configured to form a bundle.
4. The method according to claim 2 or 3,
A method for fabricating a window glass for a front and rear AR coating camera, comprising the steps of: (a) forming an etching pattern layer (42) on a front or rear edge of a window glass (10).
5. The method of claim 4,
The etching pattern forming process 600 forms an etching pattern layer 42 on the entire surface of the window glass 10 so as to improve the binding force of the AF coating layer 40,
Wherein the AF coating layer (40) is formed on the upper surface of the front AR coating layer (31) through the AF joint strengthening process (210).
5. The method of claim 4,
The etching pattern forming process 600 may include forming the etching pattern layer 42 on the rear surface of the window glass 10 so as to increase the esthetics of the etching pattern layer 42 and forming the etching pattern layer 42 on the upper surface of the etching pattern layer 42 Wherein the multi-deposited layer (50) is formed on the multi-deposited layer (50), and the printed layer (20) is formed on the multi-deposited layer (50).
5. The method of claim 4,
The etching pattern forming process 600 may include a laminating process for laminating an etching film on the surface of the window glass 10, an exposure process for exposing the etching film to the etching process, a developing process for developing the exposed etching film, And a peeling process for peeling off the etching film. The method for manufacturing a window glass for a front and rear AR coating camera,

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