KR102126863B1 - Manufacturing Method of Four Side Curved Type Window Glass for Mobile Device - Google Patents

Abstract

The present invention relates to a method of manufacturing four-side curved window glass for a mobile device, capable of improving a yield to reduce a manufacturing cost. According to the present invention, the method of manufacturing the four-side curved window glass for the mobile device includes: a flat glass manufacturing step; a flat glass loading step; a lower mold moving step; a flat glass preheating step; a curved glass forming step; and a curved glass cooling step.

Description

Manufacturing Method of Four Side Curved Type Window Glass for Mobile Device

The present invention relates to a method for manufacturing a sloped curved window glass for a mobile device, and more particularly, it is installed on an upper surface for a mobile device including a mobile phone, a smart phone, a PDA, and a tablet PC to protect a lower display panel. The present invention relates to a method for manufacturing a sloped curved window glass for a mobile device for forming a curved curved surface on a window glass.

With the rapid development of information and communication, the spread of mobile devices for transmitting and receiving their signals wirelessly is expanding.

These mobile devices (cell phones, smart phones, PDAs, tablet PCs, etc.) have been developed from the initial flip type to the folder type and the slide type. In particular, the recently developed mobile device display device is equipped with a touch screen. , It consists of a structure that inputs various information according to the operation of the touch screen and displays various screens accordingly.

As a touch method of the touch screen, there are a pressure-sensitive type that presses the window glass at a constant pressure to input a signal, and a capacitive type that allows a signal to be input using a minute current flowing through the human body by slightly touching a finger on the surface of the window glass. Recently, the supply of capacitive touch screens having excellent touch feeling and excellent reactivity has increased.

As described above, the window glass for the touch screen of the mobile device is 0.7 mm or less and has recently been thinned to 0.55 mm, and is manufactured mainly as a flat plate of a thin film by the plate glass method due to the reason that there is no distortion of the displayed screen. It is used by strengthening treatment to prevent damage by damage.

In the case of printing and coating on glass, touch sensors are also directly formed, printed, and coated, and Apple has sparked a design competition, which has led to an explosive increase in the smart device market.

The smart device market has exploded as Apple sparked competition in design.

In addition, a curved window glass is required as a smart device having a curved surface rather than a simple flat surface has emerged by implementing a design that meets the consumer's eye level and developing a flexible display.

Conventional techniques for manufacturing curved window glass include traditional lathe and CNC machining, press press method and lower mold only to heat and press the glass and mold to a certain temperature using upper and lower molds with the desired curved glass shape. There is a slumping method in which glass is placed on a mold and heated below the glass softening point, and then slumped by the weight of the glass. However, problems such as poor product quality, low productivity and low yield are almost improved. .

The design of the curved (3D) glass is a trend that is changing from Round to Fig. 1 --> Double-sided bend in FIG. 2 --> Slope to bend in FIG. 3 or Right-angled bend.

The sloped bend type or the right angled bend type has not yet been released.

In addition, a sloped curved product is being developed to minimize the bezel for maximizing the area of the display screen.

The current problem for coping with the above-mentioned sloped bend type or sloped right angle bend type is that in the case of a double-sided bent type or a gentle sloped bent type, thermoforming is performed using two molds up and down as shown in FIGS. For the symmetry of the mold, there must be a free processing in consideration of the expansion of the glass in the mold where the molding is performed, and it must be preheated, molded, and cooled for thermoforming, and then the glass must be mounted in the mold and moved, but thermal expansion and It is difficult to secure symmetry due to shaking when moving.

1. Korean Registered Patent Publication No. 10-1750261 (Registration date: June 19, 2017) Equipment for curved window glass and method for manufacturing curved glass using the same 2. Korean Registered Patent Publication No. 10-1764795 (Registration date: July 28, 2017) Automatic forming device for window glass surface 3. Korean Registered Patent Publication No. 10-1764794 (Registration date: July 28, 2017) Rotating mold for forming window glass curved surface and forming method using the same 4. Korean Registered Patent Publication No. 10-1782288 (Registration date: September 20, 2017) Curved window glass forming device for digital devices 5. Korean Registered Patent Publication No. 10-1523497 (Registration date: May 21, 2015) Method for manufacturing curved window glass for mobile devices 6. Korean Registered Patent Publication No. 10-1574415 (Registration date: November 27, 2015) Equipment and method for manufacturing curved glass

The present invention for solving the above problems is to form a slope alignment and primary free form (Free Form) due to glass expansion in the preheating step before the molding is completed, to implement the final shape in the molding step, stepwise cooling after molding It is to provide a method for manufacturing a slope-curved window glass for a mobile device to discharge after performing the.

The window glass manufacturing method of the present invention includes a lower mold forming a lower portion of a mold in the same shape as that of a curved glass loaded with flat glass loaded, and a mold device composed of upper molds having different shapes at each manufacturing step to realize a stepwise shape. It is a method of making flat glass into the curved glass in a glass forming apparatus using.

The planar glass is a cross shape having a cutting portion in which a corner is cut into a predetermined shape so that a corner portion is smoothly formed when molding into a quadrangular shape.

A concave portion is formed in the cutting portion so that a corner curved surface having a curved surface can be formed at the corner of the curved glass, and the flat glass has four convex portions having a curvature radius of 8 to 12 mm.

The right angle portion of the flat glass forms a curved surface with a radius of curvature of 0.8 to 1.2 mm to avoid sharpness.

The curved glass is a quadrilateral curved type that is displayed and touched on the four surfaces and the curved portions of the vertical portion in addition to the horizontal plane.

The curved glass includes a horizontal portion forming a horizontal surface; A vertical portion formed of four surfaces having a 90-degree angle to the horizontal portion and forming a vertical plane; Four corner curves that combine the horizontal part and the vertical part and form a straight curved surface with a constant radius of curvature, and the left and right curved surfaces and the upper and lower curved surfaces, and the left and right curved surfaces and the upper and lower curved surfaces meet each other to form a curved surface. It consists of a curved portion made of.

The lower mold has a lower mold body portion having the same shape as the inner shape of the curved glass.

The upper mold is used in the preheating step of the flat glass, and when preheating is progressed, the glass is deformed by its own weight when it is deformed, and is lowered by its own weight to form an alignment and a primary free form. Upper mold; It is used in the forming step of forming the preheated glass, and it is composed of a molded upper mold having an inner shape of the same shape as the outer shape of the curved glass to complete the final shape by pressing and to make the same shape as the outer shape of the curved glass. do.

The molding upper mold is set in a pressurized in-line press equipment installed in the glass molding apparatus.

The preheating upper mold has a preheated upper mold casing that is fitted with a slope on the lower mold for positional alignment with the lower mold, and is movable upward and downward; The preheating upper mold casing is coupled to the inside of the preheating upper mold casing and moves together by the movement of the preheating upper mold casing. As the preheating progresses, the temperature rises and the glass is bent due to its own weight. It is lowered by its own weight, including its own weight, and is composed of an inclined fixing jig inclined at a certain angle.

The molded upper mold has a molded upper mold casing fitted with a slope on the lower mold for positional alignment with the lower mold, and movable upward and downward; It is coupled to the inside of the molded upper mold casing and moves together by the movement of the upper mold casing, and includes an inner molding jig to complete the final shape by pressing the final curved glass shape.

The inclined fixing jig and the inner forming jig are structures that can be exchanged according to the shape of the curved glass to be molded.

The inclined fixing jig and the inner forming jig are metal materials made of a lubricity coating structure with a diamond-like carbon (DLC) film.

The lower mold is loaded with the flat glass to form a curved glass shape, and the lower mold main body portion having the same shape as the inner shape of the curved glass; The lower mold main body portion is coupled to the center, the preheated upper mold and the molded upper mold are fitted for positional alignment on the outside, and an outer casing having a certain height is formed, including a lower mold base serving as a base. do.

An upper mold fitting groove is formed in the outer casing to which the outer side of the preheated upper mold and the molded upper mold are fitted.

A jig moving groove is formed between the outer casing and the lower mold main body to form a space in which the inclined fixing jig of the preheated upper mold and the inner molding jig of the molded upper mold move downward. do.

The glass forming apparatus includes a glass loading unit loading the flat glass onto the lower mold; It includes a jig for seating the lower mold, and the transfer unit for transferring the lower mold, and rotates in a closed circuit; An apparatus for setting the preheated upper mold on the lower mold, a preheater for preheating and a lower heater installed, and preheating the flat glass loaded on the lower mold; It includes an apparatus for loading and unloading the molded upper mold to the lower mold and an inline press pressurizing equipment capable of pressing the molded upper mold, and an upper heater and a lower heater for maintaining a molding temperature are installed, and the preheated glass A forming unit which is molded into curved glass by pressing; An upper heater and a lower heater for adjusting a cooling speed to cool the temperature constant, and a cooling unit cooling the molded curved glass; A glass unloading unit for unloading the curved glass; A control unit for operating and controlling the glass forming apparatus; The glass loading part, the transport part, the preheating part, the forming part, the cooling part, the glass unloading part and the control part are installed, and include a frame part forming an outer shape.

The preheating unit and the first preheating unit to preheat from room temperature to 300 ℃; A second preheating unit preheating to 300-500°C; A third preheating unit preheating to 500-700°C; It is composed of a fourth preheating section preheating to 700~800℃.

The cooling unit is a first cooling unit for cooling to 800 ~ 700 ℃; A second cooling unit cooling to 700 to 600°C; A third cooling unit cooling to 600 to 400°C; A fourth cooling unit cooling to 400 to 200°C; It consists of a room temperature cooling unit that cools from 200°C to room temperature.

A gate is formed at the entrance of the preheating unit and the exit of the fourth cooling unit.

The manufacturing method includes a flat glass manufacturing step of manufacturing the flat glass in a predetermined shape and a predetermined size; A flat glass loading step of loading the flat glass on the lower mold; A lower mold moving step of moving the flat glass loaded into the lower mold to preheat the lower mold; The preheating upper mold is loaded into the lower mold, and the preheating upper mold and the lower heater are preheated to a predetermined temperature for a predetermined period of time before forming an alignment and primary mold, and then unloading the preheating upper mold. Preheating the flat glass; After loading the molded upper mold into the lower mold, and pressurizing the molded part where the upper and lower heaters for maintaining the molding temperature are installed to complete the final shape to form a curved glass shape, the curved glass that unloads the molded upper mold. Forming step; A cooling step for cooling the curved glass to a predetermined temperature for a predetermined time in a cooling unit in which an upper heater and a lower heater for adjusting a cooling rate are installed to cool the temperature constant; And unloading the curved glass to unload the cooled glass from the lower mold.

The problem to be solved of the present invention can be solved by the above-described window glass manufacturing method.

According to the method for manufacturing a sloped curved window glass for a mobile device of the present invention, the glass expansion in the preheating step is solved by the slope alignment and the primary provisional shape, and the final shape is realized in the forming step, thereby improving the accuracy of the shape and thus improving the yield. It has the effect of reducing the manufacturing cost by improving.

1 is an example of a round-type smartphone in which the existing round-type window glass is used.
2 is an example of a double-sided curved smartphone in which a double-sided curved window glass that is currently used is used.
3 is an example of a right-angled bending smartphone in which a sloped curved window glass to be used in the future is used
Figure 4 is an exemplary mold of a conventional concave shape
5 is an exemplary mold of a conventional convex shape
Figure 6 is an exemplary view of plain glass used in the manufacturing method of the present invention
7 is a perspective view of a window glass (curved glass) manufactured by the method for manufacturing a sloped curved window glass for a mobile device of the present invention
8 is an example of a defect of a curved corner of a curved portion of curved glass
9 is a step-by-step flowchart of a method for manufacturing a sloped curved window glass for a mobile device of the present invention
10 is a schematic diagram of a glass forming apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention
11 is a cross-sectional view of a preheating part inlet and a third preheating part of a glass forming apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention
12 is a cross-sectional view of a forming part and a cooling part of a glass forming apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention
13 is a schematic diagram of a mold apparatus used for preheating according to a method for manufacturing a sloped curved window glass for a mobile device of the present invention
14 is a schematic view of a mold apparatus used in molding according to a method for manufacturing a sloped curved window glass for a mobile device of the present invention
15 is a schematic diagram of a preheated upper mold according to a mold apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention
16 is a schematic view of a molded upper mold according to a mold apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention
17 is a schematic diagram of a lower mold according to a mold apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention

First, prior to entering the detailed description of the present invention, when it is determined that the detailed description of the known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user, operator, etc., so the definition of the present invention is a method for manufacturing a sloped curved window glass for a mobile device. The description should be made based on the contents throughout this specification.

Hereinafter, a preferred embodiment of the "method for manufacturing a sloped curved window glass for a mobile device" according to the present invention will be described in detail.

The following examples are only illustrated to illustrate the present invention, and are not intended to limit the scope of the present invention.

FIG. 1 is an example of a round-type smartphone in which an existing round-type window glass is used, and FIG. 2 is an example of a double-sided-flexion-type smartphone in which a currently used double-sided curved window glass is used, and FIG. 3 is a slope-type curved window to be used in the future. Glass is an example of a right-angled bending smart phone, Figure 4 is an exemplary concave shape mold example, Figure 5 is an existing convex mold example, and Figure 6 is a flat glass example used in the manufacturing method of the present invention 7 is a perspective view of a window glass (curved glass) manufactured by the method for manufacturing a sloped curved window glass for a mobile device according to the present invention, and FIG. 8 is a diagram illustrating a defect of a corner curved surface among curved surfaces of the curved glass, FIG. 9 is a step-by-step flowchart of a method for manufacturing a sloped curved window glass for a mobile device of the present invention, and FIG. 10 is a schematic diagram of a glass forming apparatus used for the method for manufacturing a sloped curved window glass for a mobile device of the present invention, and FIG. A cross section of a preheating part inlet and a third preheating part of a glass forming apparatus used in a method for manufacturing a sloped curved window glass for a mobile device, and FIG. 12 is a glass molding used in the method for manufacturing a sloped curved window glass for a mobile device of the present invention Fig. 13 is a schematic view of a molded part of a device and a cooling part, and Fig. 13 is a schematic diagram of a mold device used for preheating according to a method for manufacturing a sloped curved window glass for a mobile device of the present invention, and Fig. 14 is a sloped curved window for a mobile device of the present invention. 15 is a schematic diagram of a mold apparatus used for molding according to a glass manufacturing method, and FIG. 15 is a schematic diagram of a preheated upper mold according to a mold apparatus used in a method for manufacturing a sloped curved window glass for a mobile device of the present invention, and FIG. 16 is a mobile device of the present invention It is a schematic view of a molded upper mold according to a mold apparatus used in a method for manufacturing a sloped curved window glass for a device, and FIG. 17 is a schematic view of a bottom mold according to a mold apparatus used in a method of manufacturing a sloped curved window glass for a mobile device of the present invention.

The window glass manufacturing method of the present invention is a flat glass (3) is loaded and placed on the lower mold (22) constituting the lower part of the mold in the same shape as the shape of the curved glass (4), and a step-by-step shape to implement the step-by-step shape This is a method of making the flat glass 3 into the curved glass 4 in the glass forming apparatus 1 using the mold apparatus 2 composed of another upper mold 21.

The mold apparatus (2) is a flat glass (3) is loaded and placed on the lower mold (22) constituting the lower part of the mold in the same shape as the shape of the curved glass (4), and the step-by-step shape to implement the step-by-step shape It consists of another upper mold (21).

The upper mold 21 is used in the preheating step of the flat glass 3, and when preheating progresses, glass is deformed by its own weight, and when it deforms, it descends by its own weight and aligns and the primary mold free Form) to form a preheated upper mold 211; Used in the forming step of forming the pre-heated glass, the final shape is completed by pressing, and the inner shape of the same shape as the outer shape of the curved glass 4 is made to make the same shape as the outer shape of the curved glass 4. The branch consists of a molded upper mold 212.

The molded upper mold 212 is set in a pressurized inline press equipment installed in the glass molding apparatus 1.

The lower mold 22 has a lower mold body portion 221 having the same shape as the inner shape of the curved glass 4.

The core part of the present invention is to use the upper mold 21 which is different according to the manufacturing step. In the preheating step, the temperature rises as the preheating progresses, and when the glass is deformed due to its own weight, it is caused by its own weight depending on the deformation of the glass. Forming an Align and a Primary Free Form by using a preheated upper mold 211 that has a descending, inclined fixed jig 2112 that is inclined at a certain angle, and the final curved glass in the forming step. After forming the final shape by using the forming upper mold 212 with the internal molding jig 2122 that completes the final shape by pressing into the shape, it is cooled and discharged after cooling in stages in a cooling step.

According to the method for manufacturing a sloped curved window glass for a mobile device of the present invention, the glass expansion in the preheating step is solved by the slope alignment and the primary provisional shape, and the final shape is realized in the forming step, thereby improving the accuracy of the shape and thus improving the yield. It has the effect of reducing the manufacturing cost by improving.

As shown in FIG. 6, the flat glass 3 is preferably a cross shape having a cutting portion 31 in which a corner is cut into a predetermined shape so that the corner portion is smoothly formed when molding into a quadrangular shape.

The dimension of the flat glass 3 is changed according to the shape or size of the curved glass 2.

In the cutting portion 31, a corner curved surface 433 having a curved surface can be formed at a corner of the curved glass 4, and the flat glass 3 has four convex portions having a curvature radius of 8 to 12 mm. Concave portion 311 is formed to have (32).

It is preferable that the right-angled portion of the flat glass 3 forms a curved surface 33 having a curvature radius of 0.8 to 1.2 mm to avoid sharpness.

As shown in FIG. 7, the curved glass 4 is a quadrangular curved type that is displayed and touched on four and curved portions of the vertical portion in addition to the horizontal plane.

The curved glass 4 includes a horizontal portion 41 forming a horizontal surface; A vertical portion 42 formed of four surfaces having a 90-degree angle to the horizontal portion 41 and forming a vertical plane; The left and right curved surfaces 431 and the upper and lower curved surfaces 432, which combine the horizontal part 41 and the vertical parts 42 and have a constant radius of curvature, and the left and right curved surfaces 431 and the upper and lower sides. The curved surface 432 is formed to meet each other and is formed of a curved portion 43 composed of four corner curved surfaces 433 forming a curved surface.

The corner curved surface 433 must be formed as a vertical curved surface as in the vertical portion 42, so that the corners do not protrude and are smoothly finished.

As shown in FIG. 8, when using the existing mold apparatus, the corner curved surface 433 of the curved glass 4 does not form the same verticality as the vertical portion 42, and is rolled out, causing defects, Complementary modification of the existing mold device is required, and the final shape is completed by pressing in the forming step by solving the slope alignment and the first temporary shape in the preheating step to form the corner curved surface 233 of the curved glass 2 , It prevented the phenomenon that the corner curved surface 233 opens when the flat glass 1 is bent to a slope.

As shown in Figure 9, the manufacturing method of the window glass of the present invention comprises: a flat glass manufacturing step of manufacturing the flat glass 3 in a predetermined shape and size; A flat glass loading step of loading the flat glass 3 onto the lower mold 22; A lower mold moving step of moving the flat glass 3 to the waiting area to preheat the lower mold 22 loaded; The preheating upper mold 211 is loaded into the lower mold 22, and the preheating is performed after preheating to a predetermined temperature in a preheating section in which the upper heater and the lower heater for preheating are installed to a predetermined temperature, thereby forming the alignment and the primary mold. A flat glass preheating step of unloading the upper mold 211; After the molding upper mold 212 is loaded into the lower mold 22, and pressurized in a molding unit provided with an upper heater and a lower heater for maintaining a molding temperature, the final shape is completed and molded into the curved glass 4 shape. A curved glass forming step of unloading the forming upper mold 212; A curved glass cooling step of cooling the curved glass 4 to a predetermined temperature for a period of time in a cooling unit in which an upper heater and a lower heater for adjusting a cooling rate are installed to cool the temperature constant; And unloading the curved glass 4 to unload the cooled curved glass 4 from the lower mold 22.

The steps from the flat glass loading step to the curved glass unloading step are continuously operated step by step and are performed in an in-line glass forming apparatus 1.

The flat glass manufacturing step is a step of manufacturing the flat glass 3 in a predetermined shape and a predetermined size, and includes a heat treatment step if necessary.

The flat glass loading step is a step in which the flat glass 3 is loaded onto the lower mold 22 of the mold apparatus 2 and the preheated upper mold 211 is coupled to the upper part, and is preferably loaded by the robot. .

In the flat glass preheating step, the preheating upper mold 211 is loaded into the lower mold 22 and preheated to a predetermined temperature in a preheating section where an upper heater and a lower heater for preheating are installed for a predetermined period of time to align and primary mold. It is a step of unloading the upper preheating mold 211 after forming the, and forms the primary alignment (Free Form) and the slope alignment (Align) according to the glass expansion as the core of the present invention.

The flat glass preheating step includes a first preheating step of preheating at room temperature to 300°C in the first preheating section 131; A second preheating step of preheating in the second preheating unit 132 to 300~500°C; A third preheating step of preheating in the third preheating unit 133 to 500 to 700°C; It is composed of a fourth preheating step of preheating in the fourth preheating unit 414 from 700 to 800°C.

In the step of forming the curved glass, the molded upper mold 212 is loaded into the lower mold 22, and pressurized by a molding unit having an upper heater and a lower heater for maintaining a molding temperature to complete the final shape, thereby completing the curved glass 4 ) It is a step of unloading the upper mold 212 after molding into a shape.

The curved glass forming step is made in the forming part 14 of the glass forming apparatus 1, and an in-line press pressing facility is installed in the forming part 14 to press the forming upper mold 212 to perform molding. The pressing force is 1 to 1000 Pa, and the molding temperature is preferably 600 to 800°C. In order to maintain a constant temperature in the molding part 14, it is preferable that an upper heater and a lower heater for maintaining the molding temperature are installed.

As shown in FIG. 10, the glass forming apparatus 1 includes a glass loading part 11 for loading the flat glass 3 into the lower mold 22; It includes a jig for seating the lower mold 22, and transporting the lower mold 22, the transfer unit 12 for rotating in a closed circuit; It includes a device for setting the preheating upper mold 211 on the lower mold 22, an upper heater and a lower heater for preheating are installed, and the flat glass 3 loaded on the lower mold 22 is preheated. A preheater 13; It includes an apparatus for loading and unloading the molded upper mold 212 into the lower mold 22 and an inline press pressurizing device capable of pressing the molded upper mold 212, and an upper heater and a lower part for maintaining the molding temperature. A heater is installed, and a molding unit 14 for molding the preheated glass into a curved glass 4 by pressing; An upper heater and a lower heater for adjusting a cooling rate to cool the temperature constant, and a cooling unit 15 for cooling the molded curved glass 4; A glass unloading unit 16 for unloading the curved glass 4; A control unit 17 for operating and controlling the glass forming apparatus 1; The glass loading part 11, the transfer part 12, the preheating part 13, the forming part 14, the cooling part 15, the glass unloading part 16 and the control unit 17 are installed, forming an appearance It is preferably configured to include a frame portion 18.

The preheater 13 includes a first preheater 131 preheating from room temperature to 300°C; A second preheating unit 132 preheating to 300-500°C; A third preheating unit 133 preheating to 500-700°C; It is composed of a fourth preheating unit 134 preheating to 700 ~ 800 ℃.

The cooling unit 15 includes a first cooling unit 151 for cooling to 800 ~ 700 ℃; A second cooling unit 152 cooling to 700 to 600°C; And a third cooling unit 153 to cool to 600 ~ 400 ℃; A fourth cooling unit 154 cooling to 400 to 200°C; It is composed of a room temperature cooling unit 155 to cool from 200 ℃ to room temperature.

A gate 156 is formed at the inlet of the preheater 13 and the outlet of the fourth cooling unit 154.

It is preferable that the transfer unit 12 is provided with a step motor that drives a conveyor device to intermittently transfer the lower mold 22 loaded with the flat glass 3 in-line at regular time intervals.

The first preheating section 131, the second preheating section 132, the third preheating section 133, and the fourth preheating section 134 are divided into sections, and heaters are installed at upper and lower sections, respectively. , A temperature sensor is installed, and the control unit can control the temperature as described above.

The upper view of FIG. 11 is a cross-sectional view at the entrance of the first preheating part 131, showing that the preheating upper mold 211 evenly presses the slope of the flat glass 3 with its own weight. It seems that only two sides are pressed, but all four sides are evenly pressed.

The lower drawing of FIG. 11 shows the weight of the flat glass 3 in the third preheating section 133 or the fourth preheating section 134 when the strength is lowered by preheating and expansion occurs, so that the self-weight of the preheating upper mold 211 occurs. This shows that the four planes are evenly aligned with the glass expansion, that is, the slope symmetry and the first free form.

The upper view of FIG. 12 shows that an in-line press pressurizing facility (not shown) is installed in the molding part 14 to press the molding upper mold 212 to perform molding, and the pressing force is 1 to 1000 Pa, and the molding temperature. It shows that the upper and lower heaters for maintenance are installed.

The lower drawing of FIG. 12 shows the cooling step by step while passing from the first cooling unit 151 to the fourth cooling unit 154 in the cooling unit 15, and the upper heater for adjusting the cooling speed to cool at a constant speed And a lower heater are installed.

As shown in FIG. 13, the mold device 2 during preheating is composed of the lower mold 22 and the preheated upper mold 211, and the flat glass 3 is loaded on the lower mold 22. After the preheating upper mold 211 is placed on its own weight, the preheating upper mold 211 is guided to the upper portion of the preheating upper mold 211 on the preheating part so that the preheating upper mold 211 is vertically mounted without movement by its own weight. A guide device capable of being required is omitted in the present invention.

As shown in FIG. 14, the molding apparatus 2 at the time of molding is composed of the lower mold 22 and the upper mold 212, which are aligned in the preheating step and become the primary shape. (3) is placed on the lower mold 22 and placed on the upper portion of the molding part 14, and is pressed by the molding upper mold 212 coupled to an in-line press pressurizing equipment to complete the final shape to complete the curved glass. (4) After molding into a shape, the molding upper mold 212 is unloaded.

As shown in Figure 15, the preheating upper mold 211 is used in the preheating step of the flat glass 3, and when preheating progresses, the glass is lowered by its own weight when the glass is deformed by its own weight and is aligned. (Align) and 1st free form.

The preheating upper mold 211 includes a preheating upper mold casing 2111 having slopes fitted to the lower mold 22 for positional alignment with the lower mold 22 and movable upward and downward; It is coupled to the inside of the preheating upper mold casing 2111 and moves together by the movement of the preheating upper mold casing 2111, and as the preheating progresses, the temperature rises and the glass due to its own weight deflects the glass. It is lowered by its own weight, including its own weight, of the preheating upper mold casing 2111 according to the deformation, and is configured to include an inclined fixing jig 2112 inclined at a predetermined angle.

The preheating upper mold casing 2111 is preferably a rectangle resembling the curved glass 4.

The inclined fixing jig 2112 is preferably a structure that can be separated from the preheated upper mold casing 2111 and exchanged for another shape according to the shape of the curved glass 4 to be molded.

The inclined fixing jig 2112 is preferably a lubricity coating structure having a diamond-like carbon (DLC) film as a metal material.

The DLC film is an abbreviation for a diamond-like carbon film, and refers to an amorphous carbon film or a hydrogenated carbon film containing sp3 bonds corresponding to diamond bonds.

Because of its excellent wear resistance and low coefficient of friction, it is widely used as a surface coating film for sliding parts.

When coated with DLC, the coefficient of friction in the atmosphere is reduced to 1 compared to when DLC is not coated on ordinary metal products. When this DLC is applied to a mold, the DLC friction coefficient decreases only about 20 to 30% of the friction coefficient of similar metal products.

A guide device insertion rod 2113 for coupling to a guide device capable of guiding the upper part of the preheated upper mold 211 in order to be vertically mounted on the center upper part of the preheated upper mold casing 2111 without movement by its own weight. It is formed to a certain height.

As shown in Figure 16, the upper mold 212 is used in the forming step of forming the preheated glass, completes the final shape by pressing, and has the same shape as the outer shape of the curved glass 4 In order to make it has an inner shape of the same shape as the outer shape of the curved glass (4).

The molded upper mold 212 is set in a pressurized inline press equipment installed in the glass molding apparatus 1.

The molded upper mold 212 includes a molded upper mold casing 2121 having a slope fitted to the lower mold 22 for positional alignment with the lower mold 22 and movable upward and downward; Including the inner molding jig (2122) coupled to the inside of the molded upper mold casing (2121) to move together by the movement of the upper mold casing (2121), and to complete the final shape by pressing the final curved glass shape It is composed.

The inner forming jig 2122 is preferably a structure that can be separated from the forming upper mold casing 2121 and exchanged for another shape according to the shape of the curved glass 4 to be molded.

The internal forming jig 2122 is preferably a lubricity coating structure having a diamond-like carbon (DLC) film as a metal material.

In the upper center of the molded upper mold casing 2121, a pressurizing equipment coupling portion 2123 for coupling with an inline press pressing equipment is formed.

A guide device insertion rod 2113 for coupling to a guide device capable of guiding the upper part of the preheated upper mold 211 is formed at a constant height so as to be vertically mounted without movement by its own weight.

As shown in FIG. 17, the lower mold 22 is used in the forming step of forming the preheated glass, completing the final shape by pressing, and making the same shape as the outer shape of the curved glass 4 In order to have the inner shape of the same shape as the outer shape of the curved glass (4).

The lower mold 22 is loaded with the flat glass 3 to form a curved glass shape, and the lower mold main body 221 having the same shape as the inner shape of the curved glass 4; The lower portion of the lower mold main body portion 221 is coupled to the center, and the outer casing 2221 having a predetermined height is formed on the outside with the preheated upper mold 211 and the molded upper mold 212 fitted for positioning. It is configured to include a lower mold base 222 serving as a base.

The outer casing 2221 is formed with an upper mold fitting groove 2211 into which the outer sides of the preheated upper mold 211 and the molded upper mold 212 are fitted.

The outer casing 2221 has a certain width between the lower mold body portion 221, the pre-heating upper mold 211 of the inclined fixing jig 2112 and the molding upper mold 212 internal molding jig ( 2122) is formed a jig moving groove (2222) to form a space that can be moved downward.

According to the method for manufacturing a sloped curved window glass for a mobile device of the present invention, the glass expansion in the preheating step is solved by the slope alignment and the primary provisional shape, and the final shape is realized in the forming step, thereby improving the accuracy of the shape and thus improving the yield. It has the effect of reducing the manufacturing cost by improving.

1: Glass forming device
11: Glass loading section 12: Transfer section
13: preheating unit 131: first preheating unit
132: second preheating unit 133: third preheating unit
134: fourth preheating unit 135: gate
14: forming section 15: cooling section
151; 1st cooling part 152: 2nd cooling part
153: third cooling unit 154: fourth cooling unit
155: room temperature cooling section 156: gate
16: Glass unloading unit 17: Control unit
18: frame part
2: Mold device
21: upper mold 211: preheated upper mold
2111: Preheat upper mold casing 2112: Inclined fixing jig
2113: guide device insertion rod 212: molded upper mold
2121: Molded upper mold casing 2122: Internal molding jig
2123: pressurization equipment coupling part 22: lower mold
221: lower mold body part 222: lower mold base
2221: outer casing 22211: upper mold fitting groove
2222: jig moving home
3: flat glass
31: cutting portion 311: concave portion
32: convex portion 33: curved surface
4: curved glass
41: horizontal portion 42: vertical portion
43: curved portion 431: left and right curved surface
432: Upper and lower side curved surface 433: Corner curved surface
5: Existing mold device
51: upper mold 52: lower mold

Claims (7)

The flat glass (3) is loaded and placed and the lower mold (22) forming the lower part of the mold in the same shape as the shape of the curved glass (4), and the upper mold (21) with different shapes at different stages of manufacture to realize the stepwise shape In the method of manufacturing a window glass for making the flat glass (3) in the glass glass (4) in the glass forming apparatus (1) using the configured mold apparatus (2),
The curved glass (4) is a four-sided vertically curved and displayed on the four sides and the bent portion of the vertical portion in addition to the horizontal plane, a right angled curved type,
The curved glass 4 has a horizontal portion 41 forming a horizontal surface,
And the horizontal portion 41 and the vertical portion 42 formed of four sides forming a vertical plane having a 90-degree angle,
The left and right curved surfaces 431 and the upper and lower curved surfaces 432, which combine the horizontal part 41 and the vertical parts 42 and have a constant radius of curvature, and the left and right curved surfaces 431 and the upper and lower sides. The curved surface 432 is formed by a curved portion 43 consisting of four corner curved surfaces 433 forming a curved curved surface by meeting each other,
The lower mold 22 has a lower mold body portion 221 of the same shape as the inner shape of the curved glass (4),
The upper mold 21 is used in the preheating step of the flat glass 3, and when preheating progresses, glass is deformed by its own weight, and when it deforms, it descends by its own weight and aligns and the primary mold free Form) to form a preheated upper mold (211),
Used in the forming step of forming the pre-heated glass, the final shape is completed by pressing, and the inner shape of the same shape as the outer shape of the curved glass 4 is made to make the same shape as the outer shape of the curved glass 4. The branch consists of a molded upper mold 212,
The molding upper mold 212 is set in a pressurized inline press equipment installed in the glass forming apparatus 1,
The manufacturing method includes a flat glass manufacturing step of manufacturing the flat glass 3 in a predetermined shape and size;
A flat glass loading step of loading the flat glass 3 onto the lower mold 22;
A lower mold moving step of moving the flat glass 3 to the waiting area to preheat the lower mold 22 loaded;
The preheating upper mold 211 is loaded into the lower mold 22, and the preheating is performed after preheating to a predetermined temperature in a preheating section in which the upper heater and the lower heater for preheating are installed for a certain period of time to form the alignment and the primary mold. A flat glass preheating step of unloading the upper mold 211;
After the molding upper mold 212 is loaded into the lower mold 22, and pressurized in a molding unit provided with an upper heater and a lower heater for maintaining a molding temperature, the final shape is completed and molded into the curved glass 4 shape. A curved glass forming step of unloading the forming upper mold 212;
A curved glass cooling step of cooling the curved glass 4 to a predetermined temperature for a period of time in a cooling unit in which an upper heater and a lower heater for adjusting a cooling rate are installed to cool the temperature constant;
It includes a curved glass unloading step of unloading the cooled curved glass 4 in the lower mold 22,
The preheating upper mold 211 is fitted with a slope on the lower mold 22 for positional alignment with the lower mold 22, and a preheating upper mold casing 2111 that can be moved upwards and downwards,
It is coupled to the inside of the preheating upper mold casing 2111 and moves together by the movement of the preheating upper mold casing 2111, and as the preheating progresses, the temperature rises and the glass due to its own weight deflects the glass. It is lowered by its own weight, including its own weight, of the preheated upper mold casing (2111) according to the deformation, and includes an inclined fixing jig (2112) inclined at a certain angle,
The molded upper mold 212 has a molded upper mold casing 2121, which is fitted with a slope on the lower mold 22 for positional alignment with the lower mold 22, and can be moved upward and downward.
It is coupled to the inside of the molded upper mold casing (2121) and moves together by the movement of the upper mold casing (2121), and includes an inner molding jig (2122) that completes the final shape by pressurizing to the final curved glass shape. ,
The lower mold 22 is loaded with the flat glass 3 to form a curved glass shape, and the lower mold main body 221 having the same shape as the inner shape of the curved glass 4,
The lower portion of the lower mold main body portion 221 is coupled to the center, and the outer casing 2221 having a predetermined height is formed on the outside with the preheated upper mold 211 and the molded upper mold 212 fitted for positional consistency. It is composed of a lower mold base 222 serving as a base,
The outer casing 2221 is formed with an upper mold fitting groove 2211 into which the outer sides of the preheated upper mold 211 and the molded upper mold 212 are fitted,
It has a certain width between the outer casing 2221 and the lower mold main body portion 221, the internal forming jig of the inclined fixing jig 2112 of the preheating upper mold 211 and the forming upper mold 212 ( 2122) is formed a jig moving groove (2222) to form a space that can be moved to the bottom,
The glass forming apparatus 1 includes a glass loading part 11 for loading the flat glass 3 into the lower mold 22,
It includes a jig for seating the lower mold 22, and transports the lower mold 22, the transfer unit 12 for rotating in a closed circuit,
And a device for setting the preheating upper mold 211 on the lower mold 22, wherein an upper heater and a lower heater for preheating are installed, and preheating the flat glass 3 loaded on the lower mold 22. Preheating section 13,
It includes an apparatus for loading and unloading the molded upper mold 212 into the lower mold 22 and an inline press pressurizing device capable of pressing the molded upper mold 212, and an upper heater and a lower part for maintaining the molding temperature. The heater is installed, and the molding unit 14 for molding the preheated glass into a curved glass 4 by pressing,
In order to cool the temperature constantly, an upper heater and a lower heater for adjusting the cooling speed are installed, and a cooling unit 15 for cooling the molded curved glass 4,
A glass unloading unit 16 for unloading the curved glass 4,
A control unit 17 for driving and controlling the glass forming apparatus 1,
The glass loading part 11, the transfer part 12, the preheating part 13, the forming part 14, the cooling part 15, the glass unloading part 16 and the control unit 17 are installed, forming an appearance It includes a frame portion 18,
The inclined fixing jig 2112 and the inner forming jig 2122 are structures that can be exchanged according to the shape of the curved glass 4 to be molded.
The inclined fixing jig 2112 and the inner forming jig 2122 are metal materials made of a lubricity coating structure having a diamond-like carbon (DLC) film,
The preheating section 13 is a first preheating section 131 to preheat from room temperature to 300 ℃,
A second preheating unit 132 preheating to 300-500° C.,
A third preheating unit 133 preheating to 500-700° C.,
Consists of a fourth preheater 134 that preheats to 700-800°C.
The cooling unit 15 is a first cooling unit 151 for cooling to 800 ~ 700 ℃,
And a second cooling unit 152 to cool to 700 ~ 600 ℃,
And a third cooling unit 153 to cool to 600 ~ 400 ℃,
And a fourth cooling unit 154 to cool to 400 ~ 200 ℃,
Comprised of a room temperature cooling unit 155 to cool from 200 ℃ to room temperature,
A gate 156 is formed at the inlet of the preheater 13 and the outlet of the fourth cooling unit 154,
A guide device insertion rod 2113 for coupling to a guide device for guiding the upper part of the preheated upper mold 211 is formed at a predetermined height at a central upper portion of the preheated upper mold casing 2111,
A method for manufacturing a sloped curved window glass for a mobile device, characterized in that a pressurization equipment coupling portion 2123 for coupling with an inline press pressure equipment is formed at a central upper portion of the molded upper mold casing 2121.
delete delete delete According to claim 1,
The flat glass (3) is a cross shape having a cutting portion (31) in which a corner is cut into a predetermined shape so that the corner portion is smoothly formed when molding into a quadrangular shape,
In the cutting portion 31, a corner curved surface 433 having a curved surface can be formed at a corner of the curved glass 4, and the flat glass 3 has four convex portions having a curvature radius of 8 to 12 mm. Concave portion 311 is formed to have (32),
A method of manufacturing a sloped curved window glass for a mobile device, characterized in that the right angle portion of the flat glass 3 forms a curved surface 33 having a curvature radius of 0.8 to 1.2 mm to avoid sharpness.
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