KR20200001238U - Laminating device for laminating curved object - Google Patents

Abstract

A laminating apparatus for laminating a curved object is disclosed. The laminating device includes a male mold including a carry platform formed on the base and the base and shaped to perform compression and deformation operations, and a female mold positioned on the male mold and including a suction platform, wherein the flexible member is a carry platform Located on the top, the suction platform can inhale curved objects in an irregular shape, and when the female and male are laminated together, the carry platform is anisotropic by the pressure applied by the curved object with an irregular shape. Deformed, the carry platform can be deformed by squeezing the flexible member, so that it can follow the shape of the curved object, and firmly attach the flexible member on the curved object, between the flexible member and the curved object. The generated bubbles are reduced.

Description

Laminating device for laminating curved objects{LAMINATING DEVICE FOR LAMINATING CURVED OBJECT}

The present invention provides a laminating device for laminating a curved object. More specifically, the present invention can be used to deform a curved object when a carry platform having an anisotropic deformation characteristic is a male and a female being laminated to each other, and after the carry platform squeezes the flexible member, the flexible member Provides a laminating device that can be firmly attached to the curved object, thereby reducing the foam generated between the curved object and the flexible member.

In recent years, the manufacturing industry has been faced with a shortage of labor, severe environmental pollution by manufacturing, rising environmentally-conscious awareness, rising costs for individuals and management, and transformational pressures from labor-intensive to technology-intensive. Many companies relocate their factories abroad or hire foreign workers to cope with rising manufacturing costs; Or, some companies adopt fixed helper manufacturing operations to improve production line automatic technology and organizational structure and reduce manufacturing cost, to achieve the goal of reducing working conditions, reducing manufacturing time and improving production capacity.

Moreover, with the rapid development of LCD display and film touch panel manufacturing technology, new generation products are designed to be lighter, thinner, more energy-efficient, with lower irradiation, flexibility or refraction, and larger size, resulting in wider visuals. The interface and higher resolution provide superior convenience and joy to consumers. For this reason, the development of display interfaces has become the focus of the industry, and related manufacturers have invested in new resources to develop new display technologies and new applications, thereby providing visual enjoyment to consumers. Normal LCD displays and touch panels are usually flat and the laminating technology is sufficiently developed, so it is relatively difficult to have an important breakthrough even if the laminating technology continues to develop. Recently, some manufacturers have developed a new display technology that uses an organic light emitting diode (OLED) flexible refractive panel, which has a wider viewing angle, better contrast, lower power consumption and compared to conventional LCD displays. Therefore, it has the advantage of higher reaction speed, and the curved laminating technique for curved panels has become an important technique, and it is necessary to find a stable method for laminating a curved substrate.

With the rapid development of essential conditions for LCD displays and film touch panels, all manufacturers strive to improve production rates and yields. The panel manufacturing process faces the bottleneck of the coating and laminating process applied in places such as polarizing substrates, grass substrates, optical films, touch control films, or encapsulating films of upper films, lower films, functional films and flexible active matrix OLED display panels. do. Strict performance is required for the performance of the surface of such films, plates or panels; Moreover, optical adhesive (also called OCR glue or water glue) or opaque solid optical adhesive (OCA glue) is commonly used to bind two substrates during the laminating process. However, the conventional technique of coating adhesion and laminating two substrates easily creates the problem of foam generation, long working time or low production rate, so it is difficult to meet the essential conditions for a large size panel. Recently, two laminating processes have been developed to meet the essential requirements for large size panels. In the first laminating process, a screen board is used to suck one substrate and move to the bottom of the other board, and two rollers are integrally attached and combined by using a roller to press and roll on the screen board. To do. The first laminating process is performed in a vacuum environment to prevent foaming, so that no light refraction problem occurs, and the production rate of the laminating process can be improved. However, during the rolling and laminating process using a screen board, the roller uses excessive force so that the substrate sucked as the screen board is reliably attached to another board, and the screen board can easily break when pushed and pulled in repeated use, so It is difficult to maintain the vacuum environment during the laminating process, the screen board does not fully absorb the substrate, and the entire structure becomes completely unstable. As a result, the quality and quantity of the panel laminating process are affected, making it difficult to achieve the conditions of production capacity and cost.

Moreover, in the other laminating process of the panel, the substrate is placed on the male mold, the curved panel is placed under the female mold, and the female and male molds are pressed against each other, so that the substrate is pressed by the curved panel to A curved portion corresponding to the curve is formed, and the curved panel and the substrate can be integrally attached. However, in this laminating process, when the curved panel is pressed onto the substrate, the surface of the substrate is brought into contact with the curved panel, and the contact position may have defects or damage caused by excessive force applied thereto. Moreover, when the curved panel is pressed onto the substrate, the adhesive coated on the surface of the substrate can be easily cut by the curved portion of the curved panel, and as a result, the curved panel and the substrate do not form a suitable bond with each other, or the adhesive. Part of the overflow or disadvantages increase.

The purpose of the laminating device for laminating a curved object according to the present invention is to develop a laminating device for precise laminating to improve the production capacity and production capacity of a manufacturing process.

The purpose of a laminating device for laminating a curved object according to the present invention is to develop a laminating device applied to laminate a curved object according to collected data, many experiments and modifications, and long experience in the art.

As an example of a laminating device for laminating a curved object according to the present invention, it is located on the base, the surface of the base, and includes a carry platform configured to perform compression and deformation operations, and the female mold including the suction platform is a male mold Located on the upper part, the flexible member is located on the carry platform, the curved object having an irregular shape can be sucked under the suction platform, and the male-shaped carry platform is made of a flexible material to be crimped and deformed, When the male and female molds are mutually laminated, the carry platform is anisotropically deformed by pressure applied by a curved object having an irregular shape, so that the deformed carry platform can be deformed by squeezing the flexible member, thereby The shape of the shaped object can be followed, and the flexible member is firmly attached to the curved object, thereby reducing the bubbles generated between the flexible member and the curved object, and the light refraction caused by the foam occurs. Not, the production rate of the laminating process can be improved.

As an example of a laminating device for laminating a curved object according to the present invention, the suction platform of the female mold includes a concave recess on the bottom surface, prevents shaking during the laminating process, and the female mold is accurately attached to the curved object The flexible member can be accurately attached on the bottom of the curved object, and as a result, the objective of increasing laminating stability and production rate can be achieved.

As another example of a laminating device for laminating a curved object according to the present invention, the carry platform of the male mold is made of a flexible material for pressing and deforming, and when the male and female molds are laminated to each other, the carry platform Provides good cushioning force so that the surface of the flexible member does not become excessively squeezed, thereby preventing the flexible member from being defective or damaged, thereby improving the production rate.

As a laminating apparatus for laminating a curved object according to the present invention, by reducing the bubbles generated between the flexible member and the curved object, the problem of photorefraction caused by bubbles can be solved to increase the production rate of the laminating process. .

During the process of laminating the flexible member, it prevents shaking, and the flexible member can be accurately attached to the bottom of the curved object, so that the flexible member can be stably fixed to the bottom surface of the curved object, so that the laminating The objective of increasing stability and production rate can be achieved.

The carry platform provides good cushioning to prevent the surface of the flexible member from being excessively squeezed, and to prevent the flexible member from being combined or damaged, resulting in improved production rate.

1: Male type 2: Female mold
3: flexible member 4: curved object
11: Base 12: Carrier Platform
21: suction platform 22: recess
31: adhesive layer 41: adhesion surface
221: Positioning unit 441: receiving groove

1 to 4, an exploded view of a laminating device, a schematic diagram of a work of laminating a female mold and a male mold, a schematic diagram of a female mold and a male mold before the female mold and the male mold are separated from each other, the female mold and the male mold It is a schematic diagram of a female mold and a male mold after the molds are separated from each other. The laminating device includes a male mold 1 and a female mold 2.

The male mold 1 consists of a base 11 which comprises a carrier platform 12 located on the surface and shaped to perform compression and deformation operations.

The female mold 2 includes a suction platform 21 having a suction function, the suction platform 21 includes a concave recess 22 at the bottom surface, and the recess 22 is formed inside and has an irregular surface It is composed of a positioning unit 221 having a.

The carry platform 12 of the male mold 1 can be made of a flexible material that is compressible and deformable: for example, the flexible material can be silica gel or rubber.

Moreover, the suction platform 21 of the female mold 2 may be a device having a suction function, for example, the suction platform 21 may be a vacuum suction platform, an electrostatic chuck, a mechanical suction chuck, or an adhesive suction chuck. .

In the practical use of the laminating device of the present invention, the flexible member 3 is located first on the carry platform 12 of the male mold 1, and the suction platform 21 of the female mold 2 is a recess 22 ) Is used to suck the irregular curved object 4 located in the positioning unit 221. The flexible member 3 includes an adhesive layer 31 formed on the surface, and the curved object 4 has an irregular shape and an attachment surface 41 formed on the bottom surface. The attachment surface 41 includes one or more recessed grooves 411. After the flexible member 3 and the curved object 4 are fixed on the male mold 1 and the female mold 2, the female mold 2 can move toward the male mold 1 and the flexible member The curved object 4 is laminated on the surface of (3), and after the curved object 4 is laminated on the surface of the flexible member 3, the curved object 4 is placed in the male mold 1 ), and after the carry platform 12 is squeezed and deformed according to the anisotropic deformation characteristics, the carry platform 12 touches the irregular attachment surface 41 of the curved object 4. Thus, it can be deformed, and the flexible member 3 is squeezed to deform, and consequently, the flexible member 3 is deformed to match the shape of the attachment surface 41, and receiving one or more of the attachment surface 41 The groove 411 is completely filled, and is also firmly attached on the attachment surface 41 through the adhesive layer 31, thereby laminating the flexible member 3 and the curved object 4. After the flexible member 3 and the curved object 4 are firmly coupled to each other, the male mold 1 and the female mold 2 can be separated so that the integrally laminated flexible member 3 and the curved body The object 4 can be obtained, thus completing the work of the laminating device of the present invention.

In an embodiment, the flexible member 3 may be a film sensor, a flexible OLED panel, a touch panel, an organic EL (Organic Electro Luminescence Display), a liquid crystal display, or a member made of polyethylene, polyethylene terephthalate or polyamide. In an embodiment, the adhesive layer 31 formed on the surface of the flexible member 3 may be a glue or adhesive, for example, a light glue (such as OGR glue) or a solid light glue (such as OCA glue). It is preferable that the adhesive layer 31 is located on the surface of the flexible member 3; However, in practical application, the adhesive layer 31 can be located on the attachment surface 41 of the curved object 4.

Moreover, in the embodiment, the curved object 4 is a glass substrate, a liquid crystal panel, a touch panel, an acrylic plate, a stainless steel plate, a flexible display, an organic light emitting diode panel, or a member made of polyethylene, polyethylene terephthalate or polyamide Can be

According to the above, the laminating apparatus of the present invention has the following advantages.

First, the carry platform 12 of the male mold 1 is made of a flexible material to perform a pressing and deformation operation, and when the female mold 2 and the male mold 1 are laminated to each other, the carry platform 12 ) Can be deformed anisotropically by the pressure applied by the curved object 4 having an irregular shape, so that the carry platform 12 can be used to compress and deform the flexible member 3, the curved object Following the shape of (4) and firmly attaching the flexible member 3 on the curved object 4, thereby reducing the bubbles generated between the flexible member 3 and the curved object 4, It can solve the problem of photorefraction caused by bubbles. As a result, the production rate of the laminating process can be increased.

Second, the curved object 4 can be fixed to the recess 22 of the female mold 2, and the curved object 4 is attached to and fixed to the female mold 2 through the recess 22 Can be prevented from shaking during the process of laminating the flexible member 3, and the flexible member 3 can be accurately attached on the bottom of the curved object 4, thus the flexible member 3 Can be stably fixed to the bottom surface of the curved object 4. As a result, the objective of increasing the laminating stability and production rate can be achieved.

Third, the carry platform 12 of the male mold 1 is made of a flexible material for pressing and deforming work, and when the female mold 2 is laminated downward on the male mold 1, the carry platform ( 12) prevents excessive compression of the surface of the flexible member 3 by providing good cushioning, and prevents the flexible member 3 from being combined or damaged, consequently improving the production rate.

What is described herein is only one embodiment for implementing a laminating device for laminating a curved object according to the present invention, and the present invention is not limited to this embodiment, and the present invention as claimed in the following claims Anyone who has ordinary knowledge in the field to which the subject design belongs without departing from the gist of the subject will have the technical spirit of the subject design to the extent that various changes can be made.

1: Male type 2: Female mold
3: flexible member 4: curved object
11: Base 12: Carrier platform
21: suction platform 22: recess
31: adhesive layer 41: adhesion surface
221: Positioning unit 441: receiving groove

Claims (10)

A male mold that is formed on a surface and comprises a base including a carry platform configured to position a preset flexible member to compress and deform the carry platform; And
A female mold that is shaped to be coupled to the male shape and is configured to suck a curved object, and includes a suction platform for performing a laminating operation on a preset flexible member.
Laminating device for laminating a curved object, characterized in that consisting of.
According to claim 1,
The laminating device for laminating a curved object, characterized in that the male carry platform is silica gel or rubber.
According to claim 1,
The female suction platform is a vacuum suction platform, electrostatic chuck, mechanical chuck or adhesive chuck, laminating device for laminating a curved object, characterized in that any one.
According to claim 1,
The female suction platform is composed of a concave portion concave on the floor and shaped to attach and position a preset curved object, the concave portion being formed therein and comprising a positioning portion having an irregular surface. A laminating device for laminating a molded object.
A male mold including a base located on a surface and configured with a carry platform configured to perform compression and deformation operations;
A female mold formed to be coupled to the male mold and including a suction platform; And
It consists of a flexible member located on the carry platform,
The curved object has an irregular shape, is sucked and positioned by a suction platform, and the curved object is formed on the bottom surface and is composed of an attachment surface shaped to compress and laminate the surface of the flexible member. A laminating device for laminating curved objects.
The method of claim 5,
The laminating device for laminating a curved object, characterized in that the male carry platform is silica gel or rubber.
The method of claim 5,
The female suction platform is a vacuum suction platform, electrostatic chuck, mechanical chuck or adhesive chuck, laminating device for laminating a curved object, characterized in that any one.
The method of claim 5,
The female suction platform is composed of a concave portion shaped to attach and position a curved object having a concave and irregular surface on the floor, and the concave portion is formed therein and is composed of a positioning portion having an irregular surface. Laminating device for laminating a curved object.
The method of claim 5,
The flexible member is any one of a film sensor, a flexible OLED panel, a touch panel, an organic EL, a liquid crystal display, or a member made of polyethylene, polyethylene terephthalate or polyamide, and the flexible member is formed on a surface and curved It is composed of an adhesive layer shaped to be attached to a molded object, the adhesive layer is a laminating device for laminating a curved object, characterized in that consisting of a light glue or a solid light glue.
The method of claim 5,
The curved object is any one of a glass substrate, a liquid crystal panel, a touch panel, an acrylic plate, a stainless steel plate, a flexible display, an organic light emitting diode panel, or a member made of polyethylene, polyethylene terephthalate or polyamide, and the curved object The laminating device for laminating a curved object, characterized in that the object is formed on an attachment surface and is formed of a receiving groove formed to deform and attach a flexible member.

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