KR101783244B1 - A method for attaching a flexible display to the multiple bending plate - Google Patents

Abstract

The present invention relates to a method of attaching a flexible display to multiple folded surfaces capable of attaching a flexible display to a multiple folded member having two or more folded portions without bubbling, and more particularly to a method of attaching a flexible display 1) preparing a multiple bending material 10 having at least one bending portion; 2) preparing a sequential pressurizing part 40 which freely rotates and sequentially presses the flexible display 20 in the direction of the surface of the multiple bending material while moving along the surface of the multiple bending material; 3) While sequentially moving one end of the flexible display 20 from one end to the other end of the flexible display 20 while the one end of the flexible display 20 is approaching one end of the multiple bending material 10, Step.

Description

FIELD OF THE INVENTION The present invention relates to a method of attaching a flexible display to a multi-

The present invention relates to a method of attaching a flexible display, and more particularly, to a method of attaching a flexible display to multiple folded surfaces capable of attaching a flexible display to a multiple folded member having two or more folded portions without bubbling will be.

Recently, various display devices are installed in products such as automobiles. Especially, flexible display devices equipped with a touch screen panel function have been developed and the application range of the display devices has been expanded.

Therefore, as shown in FIG. 1, it is also possible to install a flexible display as a whole on the inner surface of a vehicle having multiple folded surfaces for aesthetics, and to mount all of the existing electronic control buttons on the touch screen panel.

However, there is no development of a technique for attaching a flexible display to a multiple bending member having multiple bending surfaces through an automated process, and technical development thereof is urgently required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of attaching a flexible display to multiple folded surfaces capable of attaching a flexible display to multiple folded members having two or more folded portions without bubbling.

According to an aspect of the present invention, there is provided a method of attaching a flexible display to multiple folded surfaces, comprising the steps of: 1) preparing a multiple folded material having at least one bent portion; 2) preparing a sequential pressurizing part 40 which freely rotates and sequentially presses the flexible display 20 in the direction of the surface of the multiple bending material while moving along the surface of the multiple bending material; 3) While sequentially moving one end of the flexible display 20 from one end to the other end of the flexible display 20 while the one end of the flexible display 20 is approaching one end of the multiple bending material 10, Step.

In the present invention, the sequential pressurizing unit 40 includes a pressurizing cylinder 42 made of a silicon material; A rotation bar (44) inserted into the hollow portion of the pressure cylinder (42); And a bearing part 46 installed between the pressure barrel 42 and the rotation bar 44 and reducing frictional force during rotation of the pressure barrel 42.

In the present invention, the sequential pressurizing unit 140 includes a bar-shaped pressurizing unit 142 filled with a fluid; A fluid supply part 144 for supplying a fluid into the pressing part 142; And a temperature control unit 148 installed in the fluid supply unit 144 and controlling the temperature of the fluid supplied into the pressurization unit 142.

In the present invention, the step 3) includes the steps of: a) setting a plurality of detection points 12 at predetermined intervals along the edges of the multiple bending material 10; b) sequentially detecting the plurality of detection points (12) while moving along the multiple bending material (10) using an optic (50) having an auto focus function; c) By using the detection point detection information of the optical device (50), the flexible display (20) is controlled by the sequential pressing unit (40) while adjusting the pulling force and the pulling direction with respect to the other end of the flexible display The method comprising the steps of:

According to the present invention, there is an advantage that the flexible display can be completely attached to the multiple bending members having two or more bent surfaces with no bubble generation and uniform pressurization for all areas.

1 is an illustration of an interior of a general automobile.
2 is a view showing a shape of a multiple bending material according to an embodiment of the present invention.
3 is a view showing a configuration of a sequential pressurizing portion according to an embodiment of the present invention.
4 is a view showing a configuration of a sequential pressurizing portion according to another embodiment of the present invention.
5 to 7 are views showing respective steps of a method of attaching a flexible display according to an embodiment of the present invention.

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

The method of attaching the flexible display to the multiple folded surfaces according to the present embodiment starts with preparing the multiple folded material 10 and the flexible display 20 as shown in FIG. Here, the multi-folded material 10 refers to a panel-shaped material having at least one bent portion. The 'bending portion' refers to the portion of the panel which is gently bent while maintaining the curved shape of the panel as a whole.

As shown in FIG. 2, the multiple bending material 10 is placed on a material placing table 30 having a surface structure conforming to the cross-sectional shape of the multiple bending material, and is prepared in a state in which no movement occurs. As a matter of course, a vacuum adsorption unit (not shown) may be provided on the material placing table 30 so that the multi-bending material 10 may be adsorbed so as not to move.

At this time, in the present embodiment, a plurality of detection points 12 may be spaced apart at regular intervals along both side edges of the multiple bending material 10. This detection point 12 may be labeled with a color that can be perceived visually or may be labeled as being perceivable as light in an invisible light region. The detection points 12 thus installed are used to grasp the shape of the multiple bending material 10 in the subsequent process of attaching the flexible display 20.

As shown in FIG. 5, the flexible display 20 is prepared in a state where both ends are gripped on the upper side of the multiple bending material 10.

Next, the step of preparing the sequential pressurizing portion 40 is proceeded. The sequential pressing unit 40 presses the flexible display 20 in the direction of the surface of the multiple bending material 10 while moving along the surface of the multiple bending material 10, Is a component attached to the multiple bending material (10).

3, the sequential pressurizing unit 40 may include a pressurizing cylinder 42, a rotary shaft 44, and a bearing unit 46. The pressurizing cylinder 42 may be a pressurizing cylinder. 3, the pressurizing cylinder 42 has a cylindrical shape as a whole, and the outer circumferential surface of the pressurizing cylinder 42 is in direct contact with the flexible display 20 so that the flexible display 20 is moved in the direction of the multi- And pressurized and attached. At this time, the pressurizing cylinder 42 preferably comprises a pad made of a silicone material having elasticity. A hollow is formed at the center of the pressurizing cylinder 42 so that a rotation rod 44 described later can be inserted.

3, the rotary bar 44 is inserted into the hollow portion of the pressure cylinder 42, and the pressure cylinder 42 is connected to an external moving portion (not shown) And move them. At this time, the rotation bar (44) serves as a rotation center of the pressure cylinder (42).

3, the bearing portion 46 is provided between the pressurizing cylinder 42 and the rotary shaft 44, and is a component for reducing the frictional force during rotation of the pressurizing cylinder 42. As shown in FIG. Therefore, the presser bar 42 can pressurize all the surfaces of the flexible display 20 by the bearing portion 46 without any frictional force, despite the movement of the rotation bar 44.

4, the sequential pressurizing unit 140 may include a pressurizing unit 142, a fluid supply unit 144, and a temperature regulating unit 148. In this case, First, the pressing portion 142 has a rod shape as a whole and has a structure in which a fluid is filled in the pressing portion 142 to have elasticity. The pressing portion 142 directly contacts the flexible display 20 and presses the flexible display 20 in order to be attached to the surface of the multiple bending material 10. [

Next, as shown in FIG. 4, the fluid supply part 144 is a component for supplying fluid into the pressing part 142. The fluid is supplied into the pressing part 142 by the fluid supply part 144, so that the pressure inside the pressing part 142 is maintained at a constant pressure, and a uniform cementing operation can be performed.

4, the temperature regulating unit 148 is installed in the fluid supply unit 144 and controls the temperature of the fluid supplied into the pressurizing unit 142. [ It is preferable to heat the flexible display 20 within a range that does not cause deformation of the panel of the flexible display so as to adjust the optimum adhesion condition. Therefore, the temperature is controlled by adjusting the temperature of the fluid supplied to the pressurizing unit 142_ by using the temperature regulator 148.

Next, the sequential pressurizing unit 40 is moved from one end to the other end of the flexible display 20, and sequentially pressurized and attached. 5, in a state where the flexible display 20 is arranged parallel to the upper side of the multiple bending material 10, one end of the flexible display 20 is connected to one end of the multiple bending material 10 As shown in FIG.

Specifically, this step starts with a small step of setting a plurality of detection points 12 at predetermined intervals along the edges of the multiple bending material 10 as shown in FIG. Here, since the detection point 12 is as described above, it is not described repeatedly.

As shown in FIGS. 5 and 6, a plurality of detection points 12 are successively detected while moving along the multiple bending material 10 by using the optical device 50 equipped with the auto focus function. The step proceeds. 5 and 6, the optical unit 50 is installed on the front side of the sequential pressing unit 40 and moves together with the sequential pressing unit 40 to detect the detection points 12 The distance between the multiple bending material 10 and the shape of the multiple bending material 10 is detected.

The flexible display 20 is attached to the flexible display 20 using the sequential pressing unit 40 while adjusting the pulling force and the pulling direction with respect to the other end of the flexible display 20 using the detection point detection information of the optical device 50 . Of course, the vertical position of the sequential pressing part 40 is also changed according to the detection point detection information of the optical device 50 so that the same pressure is applied to the flexible display 20.

The position of the gripping means 70 gripping the other end of the flexible display 20 and the gripping angle thereof are adjusted so that the portion of the sequential pressing portion 40, which is not pressed by the sequential pressing portion 40, So that the flexible display 20 is sequentially attached while preventing a phenomenon of being brought into contact with or adhering to the flexible display 20.

10: Multiple bending material 20: Flexible display
30: Material mounting base 4O: Sequential pressing portion
50: optics 60, 70: gripping means

Claims (4)

1) preparing a multiple bending material (10) having at least one bending portion;
2) preparing a sequential pressurizing part 40 which freely rotates and sequentially presses the flexible display 20 in the direction of the surface of the multiple bending material while moving along the surface of the multiple bending material;
3) While sequentially moving one end of the flexible display 20 from one end to the other end of the flexible display 20 while the one end of the flexible display 20 is approaching one end of the multiple bending material 10, Comprising:
The sequential pressurizing portion (40)
A bar-shaped pressing portion 142 filled with a fluid therein;
A fluid supply part 144 for supplying a fluid into the pressing part 142;
And a temperature regulating unit 148 installed in the fluid supply unit 144 for regulating the temperature of the fluid supplied into the pressurizing unit 142,
The step (3)
a) setting a plurality of detection points (12) at regular intervals along the edges of the multiple bending material (10);
b) sequentially detecting the plurality of detection points (12) while moving along the multiple bending material (10) using an optic (50) having an auto focus function;
c) By using the detection point detection information of the optical device (50), the flexible display (20) is controlled by the sequential pressing unit (40) while adjusting the pulling force and the pulling direction with respect to the other end of the flexible display And attaching the flexible display to the multi-folded surface. 2. The apparatus according to claim 1, wherein the sequential pressing portion (40)
A pressurizing cylinder 42 made of a silicone material;
A rotation bar (44) inserted into the hollow portion of the pressure cylinder (42);
And a bearing part (46) provided between the pressure barrel (42) and the rotation bar (44) for reducing frictional force during rotation of the press barrel (42) How to. delete delete

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