CN113480188B - OGS glass, coating method thereof and vehicle-mounted touch control assembly - Google Patents

Abstract

The invention discloses OGS glass, a coating method thereof and a vehicle-mounted touch control assembly, wherein the coating method comprises the following steps: the method comprises the steps that a functional layer is made on glass to be cut, and a plurality of independent touch sensors are formed on the glass to be cut; cutting the glass to be cut into at least two large pieces of glass, wherein each large piece of glass comprises at least two independent touch sensors; carrying out surface optical film plating treatment on the large glass sheet; and cutting the large glass sheet into a plurality of OGS glasses containing one touch sensor. According to the invention, the condition that the small-size glass cannot be cleaned cleanly and even the small-size glass falls off due to the fact that the small-size glass cannot be clamped is reduced, the cleaning effect is improved, and the product yield is improved.

Description

OGS glass, coating method thereof and vehicle-mounted touch control assembly

Technical Field

The invention relates to the technical field of display, in particular to OGS (one glass solution) glass, a coating method thereof and a vehicle-mounted touch control assembly.

Background

The OGS touch screen is an electronic product protection screen manufactured under the technology that a touch sensor is directly formed on protection glass, so that the glass of the OGS touch screen has double functions of the protection glass and the touch sensor. Compared with the mainstream G/G touch screen, the OGS touch screen has the advantages of simple structure, thinness and good light transmittance, and because a glass substrate and a bonding procedure are saved, the OGS touch screen also reduces the production cost and improves the product percent of pass.

The size of the current OGS touch screen is mostly 7inch or more, and for example, the OGS touch screen is often used in a mobile phone and the like. The glass applied to the OGS touch screen is coated in a way that a plurality of independent touch sensors are plated on the glass to be cut, then the glass to be cut is cut into the OGS glass only containing one touch sensor, and finally the OGS glass is cleaned and subjected to surface treatment. And after the glass coating is finished, carrying out subsequent procedures.

However, with the increasing demand for in-vehicle display touch, there have been many demands for small-sized (e.g., 0.5-3.5 inch) OGS touch screens, such as air conditioner display screens, one-touch start screens, steering wheel display screens, and the like, in recent years. For these small-sized glass coating requirements, the following problems may occur using the existing coating lines: too small a size results in inefficient cleaning of the cleaning line, e.g., unclean cleaning, flaking, etc.

Disclosure of Invention

The invention discloses OGS glass, a film coating method thereof and a vehicle-mounted touch control assembly, which are used for solving the problem that in the prior art, the OGS glass is not cleanly cleaned when small-size OGS glass is manufactured.

In order to solve the problems, the invention adopts the following technical scheme:

provided is a coating method of OGS glass, comprising the following steps:

step S10, a functional layer is made on the glass to be cut, so that a plurality of independent touch sensors are formed on the glass to be cut;

step S20, cutting the glass to be cut into at least two large pieces of glass, wherein each large piece of glass comprises at least two independent touch sensors;

step S30, carrying out surface optical film plating treatment on the large glass;

and S40, cutting the large glass sheet into a plurality of OGS glasses containing one touch sensor.

Optionally, each of the touch sensors has a length of 20-40mm and a width of 20-40mm.

Optionally, the length of the glass to be cut is 350-1000mm, and the width of the glass to be cut is 350-1000mm.

Optionally, the length of the large glass sheet is 250-600mm, and the width of the large glass sheet is 200-250mm.

Optionally, in step S10, the touch sensor is plated on the glass to be cut by using a yellow light process.

Optionally, the step S10 and the step S20 further include the steps of:

and silk-printing a protective blue film on the front surface and the back surface of the glass to be cut.

Optionally, if the optical film is an AG film, step S30 specifically includes the steps of:

cleaning the large glass sheet by using a cleaning line;

plating an AG film on the surface of the large glass sheet;

heating and curing the AG film;

cleaning the large glass sheet;

and coating protective films on the front surface and the back surface of the large glass sheet.

Optionally, if the optical film is an AR film or an AF film, the step S30 specifically includes the steps of:

tearing off the protective film;

plating an AR film and an AF film on the surface of the large glass sheet;

cleaning the large glass sheet;

and coating protective films on the front surface and the back surface of the large glass sheet.

Also provided is an OGS glass manufactured by the coating method, which comprises the following steps:

a glass substrate;

the touch sensor is plated on the glass substrate;

an optical film covering the OGS glass surface.

The vehicle-mounted touch control assembly comprises the OGS glass manufactured by the film coating method.

The technical scheme adopted by the invention can achieve the following beneficial effects:

when a large piece of glass is cleaned and wiped, the area of the large piece of glass can reach 250 × 200mm at minimum. When the existing cleaning equipment is used for cleaning a large glass, the large glass can be clamped and fixed on the cleaning equipment, the condition that the small glass cannot be cleaned or even the glass falls due to the fact that the small glass cannot be clamped is reduced, the cleaning effect is improved, and the product yield is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below to form a part of the present invention, and the exemplary embodiments and the description thereof illustrate the present invention and do not constitute a limitation of the present invention. In the drawings:

FIG. 1 is a flow chart of coating of an OGS glass according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a glass to be cut according to an embodiment of the present invention.

Wherein the following reference numerals are specifically included in figures 1-2:

glass-1 to be cut; a touch sensor-2; large glass sheets-3; OGS glass-4.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to be exhaustive or exhaustive. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The coating method of the OGS glass 4 comprises the following steps as shown in figures 1 and 2:

step S10, a functional layer is formed on the glass 1 to be cut, so that a plurality of independent touch sensors 2 are formed on the glass 1 to be cut;

step S20, cutting the glass 1 to be cut into at least two large pieces of glass 3, wherein each large piece of glass 3 comprises at least two independent touch sensors 2;

step S30, carrying out surface optical film plating treatment on a large piece of glass 3;

in step S40, the large glass 3 is cut into a plurality of pieces of OGS glass 4 including one touch sensor 2.

The touch sensors 2 have the same structure and area, and the length of each touch sensor 2 is 20-40mm, and the width of each touch sensor 2 is 20-40mm. The length of the glass 1 to be cut is 350-1000mm, the width is 350-1000mm, and the specific length and width are determined according to the size of production equipment so as to adapt to various production equipment. And the touch sensor 2 is plated on the glass 1 to be cut by adopting a yellow light process and then cut into a large piece of glass 2. The length of the large sheet of glass 3 may be 250-600mm and the width 200-250mm. So set up, can adopt current cleaning equipment to wash large glass 2, carry out the surface again and plate the optical coating to the OGS touch-sensitive screen that will make is applied to on-vehicle touch-control subassembly, for example air conditioner display screen, a key start-up screen, steering wheel display screen etc..

In addition, the method between step S10 and step S20 further includes the steps of: and (3) silk-screening protective blue films on the front surface and the back surface of the glass 1 to be cut. When the glass 1 to be cut is cut, the glass 1 to be cut is protected by the protective blue film, and the risk that the surface of the glass 1 to be cut is scratched is reduced.

In step S30, the optical film may be an AG (anti-glare) film, or a combination film of an AR (anti-reflection) film and an AF (anti-fingerprint) film. When the optical films are different, the coating processes are different. For example, when the optical film is an AG film, the AG film plating process is performed on the surface of a large glass sheet, and the AG film plating process specifically includes the steps of: cleaning a large glass sheet 3 by using a cleaning line; plating an AG film on the surface of a large piece of glass; heating and curing the AG film; cleaning a large glass sheet 3; the front and back surfaces of the large glass 3 are covered with protective films. The AG film is plated by adopting the process, the process is simple, and the fastness of the AG film is higher. Wherein, the protection film can be PET release film, directly covers PET release film after the automation line washs big piece glass 3.

When the optical films are an AR film and an AF film, the surface of the large glass 3 is plated with the AR film and the AF film, and the method specifically comprises the following steps: tearing off a protective blue film printed on the glass 1 to be cut before cutting the glass 1 to be cut; plating an AR film or an AF film on the surface of the large glass; cleaning a large piece of glass; and coating protective films on the front surface and the back surface of the large glass. The process for plating the AR film or the AF film is simple in process, and the AR film and the AF film are good in service performance.

In step S40, the large glass 3 can be cut by laser, and the large glass 3 can be cut according to the typesetting, so as to obtain the small-sized OGS coating sample. The method specifically comprises the following steps: silk-screen front and back protective film blue film of large glass 3 → OGS glass 4 obtained by laser cutting the large glass 3 into single pieces according to typesetting → edging the OGS glass 4 → tearing off the front and back protective film → cleaning the OGS glass 4.

After the step S40, performing other processes such as bonding a flexible printed circuit board, attaching an optical film to the back surface of the OGS glass 4, attaching foam, performing a function test, and the like according to the requirements, and then completing the manufacture of the OGS touch screen.

When the OGS glass 4 is coated with the film by the method, and the large glass 3 is cleaned and wiped, the minimum area of the large glass 3 can reach 250 × 200mm. When using current cleaning equipment to wash large glass 3, can press from both sides tightly and fix large glass 3 on cleaning equipment, reduce because of can not press from both sides tight small-size glass and lead to the condition emergence that small-size glass washd unclean or even the piece falls, improve clean effect, promote the product yield. Furthermore, the OGS glass 4 which is formed by cutting the large glass 3 into single pieces is not cut when the glass is wiped manually, so that the large glass 3 is wiped manually, the feeding is less when the next process is carried out, and the efficiency is high.

The OGS glass 4 of the present invention includes a glass substrate, a touch sensor 2 plated on the glass substrate, and an optical film covering the touch sensor 2. The OGS glass 4 is manufactured by the above-described coating method. Thus, in the process of manufacturing the OGS glass 4, when the large glass 3 is cleaned and wiped, the area of the large glass 3 can reach 250 × 200mm at minimum. When using current cleaning equipment to wash large glass 3, can press from both sides tightly and fix large glass 3 on cleaning equipment, reduce because of can not press from both sides tight small-size glass and lead to the condition emergence that small-size glass washd unclean or even the piece falls, improve clean effect, promote the product yield. Furthermore, the OGS glass which is obtained by cutting the large glass 3 into single pieces is not used when the large glass 3 is manually wiped, so that the large glass 3 is manually wiped to enter the next process, the feeding is less, and the efficiency is high. Therefore, the existing cleaning equipment can be used to clean the large glass 3 coated with the touch sensor 2, and the manufactured OGS touch screen can be applied to vehicle-mounted touch components, such as air conditioner display, one-key start, steering wheel display, and the like.

Wherein, the length of the touch sensor can be 20-40mm, and the width is 20-40mm. The optical film may be an AG film, an AR film, or an AF film.

The vehicle-mounted touch assembly comprises the OGS glass manufactured by the coating method. The OGS glass 4 is manufactured by the above-described coating method. Thus, in the process of manufacturing the OGS glass 4, when the large glass 3 is cleaned and wiped, the area of the large glass 3 can reach 250 × 200mm at minimum. When using current cleaning equipment to wash large glass 3, can press from both sides tightly and fix large glass 3 on cleaning equipment, reduce because of can not press from both sides tight large glass 3 and lead to the condition emergence that large glass 3 washs unclean or even the piece falls, improve clean effect, promote the product yield. Furthermore, the OGS glass 4 which is formed by cutting the large glass 3 into single pieces is not cut when the large glass 3 is manually wiped, so that the large glass 3 is manually wiped to enter the next process, the feeding is less, and the efficiency is high. Therefore, the existing cleaning equipment can be used for cleaning the large glass 3 plated with the touch sensor 2, and the manufactured OGS touch screen can be applied to vehicle-mounted touch components, such as air conditioner display, one-key start, steering wheel display and the like.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. A coating method of OGS glass is characterized by comprising the following steps:

step S10, a functional layer is formed on the glass to be cut, so that a plurality of independent touch sensors are formed on the glass to be cut; the front side and the back side of the glass to be cut are printed with protective blue films in a silk-screen mode, when the glass to be cut is cut, the protective blue films protect the glass to be cut, and the risk that the surface of the glass to be cut is scratched is reduced;

step S20, cutting the glass to be cut into at least two large pieces of glass, wherein each large piece of glass comprises at least two independent touch sensors; wherein the length of the large glass sheet is 250-600mm, and the width of the large glass sheet is 200-250mm;

step S30, carrying out surface optical film plating treatment on the large glass;

wherein, when the optical film is an AG film, the step S30 specifically includes the steps of:

cleaning the large glass sheet by using a cleaning line;

plating an AG film on the surface of the large glass sheet;

heating and curing the AG film;

cleaning the large glass sheet;

coating protective films on the front surface and the back surface of the large glass sheet;

when the optical film is an AR film or an AF film, the step S30 specifically includes the steps of:

tearing off the protective blue film;

plating an AR film and an AF film on the surface of the large glass sheet;

cleaning the large glass sheet;

coating protective films on the front surface and the back surface of the large glass sheet;

and S40, cutting the large glass sheet into a plurality of OGS glasses containing one touch sensor.

2. The method of coating an OGS glass according to claim 1, wherein each touch sensor has a length of 20-40mm and a width of 20-40mm.

3. The method for coating OGS glass according to claim 2, wherein the glass to be cut has a length of 350-1000mm and a width of 350-1000mm.

4. The OGS glass coating method according to claim 3, wherein in the step S10, the touch sensor is coated on the glass to be cut by adopting a yellow light process.

5. An OGS glass manufactured by the OGS glass coating method according to any one of claims 1-4, which is characterized by comprising the following steps:

a glass substrate;

the touch sensor is plated on the glass substrate;

an optical film covering the OGS glass surface.

6. An on-vehicle touch component, characterized by comprising the OGS glass manufactured by the coating method of the OGS glass according to any one of claims 1-5.

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