KR20190094867A - A apparatus for attaching a flexible sheet to a curved window glass - Google Patents

Abstract

The present invention relates to a curved surface bonding apparatus capable of sequentially bonding a flexible display element to a curved window glass without generating bubbles or defects. The curved surface bonding apparatus comprises: a glass mounting portion for driving up and down while adsorbing the window glass having a curved surface portion curved inwardly at an edge part; a display mounting portion disposed on a lower surface of the glass mounting portion, and mounting the flexible display element to be attached to the lower surface of the window glass on an upper surface thereof; a display pressing portion comprising a pair of rollers separated and moved, and for pressing and mounting the flexible display element sequentially from a central portion to an outer portion of the display mounting portion; and a sequential bonding portion installed in the display mounting portion and bonding the flexible display element mounted on the display mounting portion to the bottom surface of the window glass while expanding a bonding region in the outward direction from the central portion.

Description

Flexible material curved bonding device {A APPARATUS FOR ATTACHING A FLEXIBLE SHEET TO A CURVED WINDOW GLASS}

The present invention relates to a curved surface bonding device, and more particularly, to a flexible material curved surface bonding device capable of sequentially bonding a flexible display element to a curved window glass without bubble generation or failure.

Flexible materials, which can be variously deformed due to abundant elasticity such as films, are often used as one body by being attached to a specific material rather than being used by itself. Therefore, the development of a technology that can attach a flexible material to a specific shape of the material has been made.

In particular, recently, a display device including a mobile phone and a device using a touch screen panel have been used, and a structure in which a flexible material is bonded to a curved window glass 1 having one or more curved surfaces is started. Herein, the curved window glass 1 refers to a window glass having at least one of four rectangular window glass edges curved in a curved shape, and all slopes having curved shapes in a curved shape. Curved window glass is also used.

In the case of using such curved window glass, the pressure transfer direction (force vector) of the edge portion is not maintained in the direction perpendicular to the tangent of the edge in the process of attaching the flexible material to the curved window glass. Difficult to deliver, bubbles occur, or when the adhesion progresses, even if stuck, the phenomenon that falls with time hardening occurs.

In addition, when bonding the curved window glass, the deformation of the flexible pad is not implemented in the sequential deformation from the inside of the edge to the outer end point, so that air bubbles trapped in any part of the edge section of the product occur.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a flexible material surface bonding apparatus capable of sequentially bonding a flexible display element to a curved window glass without bubble generation or failure.

According to an aspect of the present invention, there is provided a flexible material surface bonding apparatus according to the present invention, including: a glass mounting portion configured to vertically drive a window glass having a curved portion curved inwardly at an edge portion thereof; A display pressurizing unit comprising a pair of rollers separated and moved, for pressing and mounting the flexible display device sequentially from a central portion to an outer portion of the display mounting portion; A display mounting unit disposed below the glass mounting unit and configured to mount a flexible display device on the top surface of the glass mounting unit to be bonded to the bottom surface of the window glass; And a sequential attaching portion installed on the display mounting portion and attaching the flexible display element mounted on the display mounting portion to the bottom surface of the window glass while expanding the bonding region in the outward direction.

And in the present invention, the display mounting portion, the upper surface portion having an upper surface having a plane similar to the plane portion area of the window glass; And a side curved portion having a curved shape corresponding to the curved portion of the window glass at an edge portion of the upper planar portion.

In addition, in the present invention, the sequential bonding portion is installed in a form surrounding the upper flat portion and the side curved portion of the display mounting portion, the elastic member having an elastic force; A fluid supply part formed through the upper planar part of the display mounting part in a vertical direction and supplying a fluid to a space between the elastic member and the display mounting part to elastically deform the elastic member; A fluid discharge part formed on a side curved portion of the display mounting part and sucking and discharging a fluid between the display mounting part and the elastic member; The fluid supply portion and the fluid discharge portion are simultaneously driven while the center portion of the flexible display element is bonded to the planar portion of the window glass, and the fluid portion is attached while the edge portion of the flexible display element is attached to the curved portion of the window glass. It is preferable to include a control unit for controlling the fluid supply unit and the fluid discharge unit to continue to drive the supply unit and the surface to deform the elastic member by sequential stop.

In addition, it is preferable that the curved bonding apparatus according to the present invention further include a process film provided between the elastic member and the flexible display element, and temporarily attaching the flexible display element to the surface of the elastic member.

In the present invention, it is preferable that the display mounting portion is further provided with an ultraviolet irradiation unit for irradiating the ultraviolet rays of the wavelength to remove the adhesive force of the process film.

On the other hand, the flexible material surface bonding apparatus according to the present invention, it is preferable that the display jig which is installed on the glass mounting portion side portion, the display jig to press the edge portion of the flexible display element attached to the elastic member to attach to the elastic member. Do.

According to the flexible material curved bonding device of the present invention, it is possible to achieve a remarkable effect that the flexible display element can be sequentially bonded to the curved window glass without bubbles or defects by using an elastic member that is expanded by sequential air flow. .

1 is a view showing the structure of a flexible material surface bonding apparatus according to an embodiment of the present invention.
2 is a view showing the structure of the sequential bonding portion according to an embodiment of the present invention.
3 is a view showing the structure of the sequential bonding portion according to another embodiment of the present invention.
4 and 5 are views illustrating bonding operations of the flexible material curved surface bonding apparatus according to an embodiment of the present invention.
FIG. 6 is a view illustrating sequential bonding processes by the flexible material curved bonding apparatus according to the exemplary embodiment of the present invention.
7 is a view illustrating a process film removal process according to an embodiment of the present invention.
8 to 11 illustrate a process of mounting a flexible display device according to an embodiment of the present invention.

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

As shown in FIG. 1, the flexible material curved bonding device 100 according to the present exemplary embodiment may include a glass mounting unit 110, a display mounting unit 120, a display pressing unit, and a sequential bonding unit 130. Can be.

First, as shown in FIG. 1, the glass mounting unit 110 is a component in which the window glass 1 is mounted on the lower surface. Here, the window glass 1 has a curved surface portion 1a curved inwardly at the edge portion, and the center portion 1b has a structure having a planar shape as a whole, and the glass mounting portion 110 has such a window glass 1. It has a structure in which a vacuum suction chuck (not shown in the figure) or the like is installed so as to adsorb.

Next, as shown in FIG. 1, the display mounting unit 120 is disposed below the glass mounting unit 110 and mounts the flexible display 2 to be attached to the bottom surface of the window glass 1 on an upper surface thereof. Element. In the present embodiment, since the display mounting unit 120 is a component that mounts the flexible display 2 bonded to the window glass 1 and performs the bonding operation, the display mounting unit 120 should have a structure suitable for the surface bonding operation.

Accordingly, the display mounting unit 120 preferably includes an upper planar portion 121 and a side curved portion 122. As shown in FIG. 2, the upper planar portion 121 is a portion having an upper surface similar to the area of the planar portion 1b of the window glass 1, and the side curved portion 122 is illustrated in FIG. 2. As illustrated, the edge portion of the upper planar portion 121 has a curved shape corresponding to the curved portion 1a of the window glass 1.

Next, the display pressing unit 160 performs a function of sequentially mounting the flexible display device 2 from the center to the edge in the process of mounting the flexible display device 2 to the display mounting unit 120. Component.

To this end, as shown in FIG. 1, the display pressing unit 160 may include a pair of rollers 161 and 162 capable of free movement. The pair of rollers 161, 162 move to the upper center portion of the flexible display element 2 with the flexible display element 2 set at the mounting position.

Then, as shown in FIGS. 8 to 10, after moving downward to closely contact the display mounting unit 120 from the center portion of the flexible display device 2, and expanding the close contact portion while rolling out of the braille. Finally, the flexible display device 2 is brought into close contact with the curved portion of the display mounting unit 120 as a whole.

Meanwhile, as shown in FIG. 1, the display pressing unit 160 may further include a protective film peeling unit 170. The protective film peeling part 170 is attached to the upper surface of the flexible display device 2 as shown in FIG. 11 after the mounting process of the flexible display device 2 by the display pressing unit 160 is completed. The protective film 3 is peeled off.

Next, as shown in FIGS. 1 and 2, the sequential bonding part 130 may be installed in the display mounting part 120, and the flexible display device 2 mounted in the display mounting part 120 may be mounted on the window. The glass 1 is a component that is sequentially bonded to the lower surface of the glass 1 while extending from the center to the outer side in the bonding area. The sequential bonding portion 130 is a very essential component of the surface bonding apparatus 100 according to the present embodiment, and allows the flexible display 2 to be bonded to the curved window glass 1 without defects such as bubble generation. Perform the function.

To this end, in this embodiment, the sequential bonding part 130 is specifically shown in FIG. 2, the elastic member 131, the fluid supply part 132, the fluid discharge part 134, and a controller (not shown). It may be configured to include. First, the elastic member 131 is installed in the form of surrounding the upper flat portion 121 and the side curved portion 122 of the display mounting portion 120, it is a component having an elastic force. The elastic member 131 has a uniform thickness as a whole, the elastic force is easily expanded by the fluid supplied to the space between the elastic member 131 and the display mounting portion 120 and the elastic force that is contracted to its original state when the fluid is discharged It is preferable to be made of a material such as excellent silicon.

In this case, the elastic member 131 is installed to include both the fluid supply part 132 and the fluid discharge part 133 forming area, and is disposed on the display mounting part 120 under the fluid discharge part 133. 134) to form a closed space between the display mounting unit 120 and the elastic member 131.

Next, as shown in FIG. 2, the fluid supply unit 132 is a component that supplies fluid to a space between the display mounting unit 120 and the elastic member 131. Therefore, the fluid supply unit 132 may be formed as a single through hole formed in the central portion of the display mounting unit 120, as shown in FIG. When the fluid supply part 132 is formed as one through-hole, the fluid supplied through the through-hole expands in the horizontal direction while expanding the elastic member 131 and expands the expansion region of the elastic member 131 to the outside. Finally extends to all expandable regions of the elastic member.

Of course, as shown in FIG. 3, the fluid supply part is formed of a plurality of through holes penetrating the display mounting part in an up and down direction over the entire area of the upper flat part 121 of the display mounting part, and the elastic member 131. The elastic member 131 may be elastically deformed by supplying a fluid to a space between the display mounting units 120. At this time, the fluid supply unit 132 is formed of a plurality of through holes 132a, each through hole has a structure that can be controlled individually. Accordingly, each of the holes 132a may be controlled in a manner in which the elastic member 131 is partially deformed from the center portion and the deformed portion is gradually expanded to the outside.

Next, as shown in FIG. 2, the fluid discharge part 133 is formed at the side curved portion 122 of the display mounting part 120, and between the display mounting part 120 and the elastic member 131. It is a component that inhales and discharges fluid. In this case, the fluid discharge part 133 is formed downward from a portion where the curved portion 122 starts from the edge portion of the display mounting portion 120. Since the fluid discharge part 133 sucks and discharges the fluid between the elastic member 131 and the display mounting part 120, when the fluid discharge part 120 is operated, the elastic member 131 of the portion is displayed on the display. Maintain close contact with the mounting portion 120 surface.

Next, the control unit (not shown) is a component that controls the fluid supply unit 132 and the fluid discharge unit 133 to be suitable for the bonding operation of the flexible display 2. Specifically, as shown in FIGS. 5 and 6, the controller is in fluid with the fluid supply unit 132 while the center portion of the flexible display element 2 is bonded to the planar portion 1a of the window glass 1. While simultaneously driving the discharge unit 133 and bonding the edge portion of the flexible display element 2 to the curved portion of the window glass 1, the fluid supply unit 132 is continuously driven while the fluid supply unit 132 is continuously driven. The fluid supply part 132 and the fluid discharge part 133 are controlled to stop the 133 in order to deform the elastic member 131.

In particular, the operation of attaching the edge portion of the flexible display 2 to the curved portion of the window glass 1 is a very difficult control operation, and the control unit may control the fluid discharge part 133 before starting the bonding of the curved portion 1b. 6A and 6B, the whole is continuously driven to expand only the portion of the elastic member 131 corresponding to the flat portion 1a to move the flexible display 2 toward the window glass 1. Pressurize.

Then, when the joining to the planar portion 1a is completed and the joining operation to the curved portion 1b starts, as shown in FIGS. 6C and 6D, the operation is sequentially performed from the uppermost portion of the fluid discharge portion 133. Stop. Then, the elastic member 131 starts to expand without the fluid being discharged from the stopped portion, and presses the flexible display 2 in the direction of the curved portion of the window glass 1 to be bonded.

In this way, if the elastic member 131 is controlled to sequentially expand from the flat portion to the curved portion, the flexible display 2 is moved from the flat portion 1a to the curved portion 1b of the window glass 1. Since the bonding operation is performed while sequentially pushing from the center to the outward direction, no defect such as bubbles or unbonded portions are generated inside the bonded portion.

Meanwhile, in the curved bonding device 100 according to the present embodiment, as shown in FIG. 1, the process film 140 may be further provided. The process film 140 is installed between the elastic member 131 and the flexible display device 2, and is a component that temporarily attaches the flexible display device 2 to the surface of the elastic member 131. That is, the process film 140 maintains the state in which the flexible display 2 is in close contact with the surface of the display mounting unit 120 while the bonding operation is in progress. As described above, the surface of the display mounting unit 120 has a shape similar to that of the window glass 1, so that the flexible display 2 closely adheres to the display mounting unit 120, thereby more effectively bonding operation is performed. Can be.

However, since the process film 140 should be able to separate the flexible display 2 from the display mounting unit 120 after the bonding operation is finished, irradiating UV light with a predetermined wavelength on the process film 140. It is preferable that it is made of a material that is cured and the adhesive force disappears.

As shown in FIG. 7, the display mounting unit 120 may further include an ultraviolet irradiation unit 150 for irradiating ultraviolet rays having a wavelength to remove the adhesive force of the process film 140.

In addition, it is preferable that the display jig 160 is further provided in the curved bonding apparatus 100 according to the present embodiment, as shown in FIG. 1. As shown in FIG. 1, the display jig 160 is installed at the side of the glass mounting unit 110 and presses an edge portion of the flexible display element 2 attached to the elastic member 131. It is a component attached to the member 131. That is, the edge portion of the flexible display 2 is pressed by pressing the lower portion of the edge of the flexible display 2 while the edge portion of the flexible display 2 is not attached to the surface of the display mounting portion 120. It is completely attached to the display mounting portion 120.

Meanwhile, the display jig 160 may also perform a function of peeling off and removing the protective film 3 attached to the upper surface of the flexible display 2 in this process. To this end, the display jig 160 may be further provided with a vacuum adsorption unit 162 for adsorbing and peeling off the protective film in the process of removing the protective film (3).

100: curved surface bonding apparatus according to an embodiment of the present invention
110: glass mounting portion 120: display mounting portion
130: sequential bonding portion 140: process film
150: ultraviolet irradiation unit 160: display pressing unit
170: peeling protection film
DESCRIPTION OF SYMBOLS 1: Curved window glass 2: Flexible display element
3: protective film

Claims (6)

A glass mounting portion for driving up and down in a state in which a window glass having a curved portion bent inwardly at an edge portion thereof is adsorbed;
A display mounting unit disposed below the glass mounting unit and configured to mount a flexible display device on the top surface of the glass mounting unit to be bonded to the bottom surface of the window glass;
A display pressurizing unit comprising a pair of rollers separated and moved, for pressing and mounting the flexible display device sequentially from a central portion to an outer portion of the display mounting portion;
And a sequential bonding portion installed in the display mounting portion and attaching the flexible display element mounted in the display mounting portion to the bottom surface of the window glass while expanding the bonding region in an outward direction. The display mounting unit of claim 1, wherein the display mounting unit includes:
An upper planar portion having an upper surface having a plane similar to the planar partial area of the window glass;
And a side curved portion having a curved shape corresponding to the curved portion of the window glass at an edge portion of the upper planar portion. The method of claim 2, wherein the sequential bonding portion,
An elastic member installed to surround the upper flat portion and the side curved portion of the display mounting portion and having an elastic force;
A fluid supply part formed through the upper planar part of the display mounting part in a vertical direction and supplying a fluid to a space between the elastic member and the display mounting part to elastically deform the elastic member;
A fluid discharge part formed on a side curved portion of the display mounting part and sucking and discharging a fluid between the display mounting part and the elastic member;
The fluid supply portion and the fluid discharge portion are simultaneously driven while the center portion of the flexible display element is bonded to the planar portion of the window glass, and the fluid portion is attached while the edge portion of the flexible display element is attached to the curved portion of the window glass. And a control unit for controlling the fluid supply unit and the fluid discharge unit to continuously deform the fluid discharge unit while continuously driving the supply unit so as to deflect the elastic member. The method of claim 3,
And a process film disposed between the elastic member and the flexible display element, the process film for temporarily attaching the flexible display element to the surface of the elastic member. The display mounting unit of claim 4, wherein the display mounting unit includes:
Curved bonding device further comprises an ultraviolet irradiation unit for irradiating ultraviolet light of the wavelength to remove the adhesive force of the process film. The method of claim 3,
And a peeling part disposed adjacent to the display pressing part and peeling off a protective film from an upper surface of the flexible display device mounted on the display mounting part.

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