KR101489667B1 - Bending Test Apparatus For Flexible Display - Google Patents

Abstract

The present invention relates to a bending test apparatus for a flexible display, which comprises: a specimen mounting tool which is a flexible display capable of bending with thin and light properties, includes a supporting means for flattening out a plate-shaped specimen, and repeats the bending motion of the specimen using rotational force transmitted to the supporting means; a motor which provides rotational force to the supporting means; a power transmitting unit which transmits the rotational force of the motor to the supporting means; and a bending radius regulating unit which is installed adjacently to the specimen mounting tool in order to regulate the bending radius of the specimen. Therefore, the bending test apparatus can be appropriate for tests for the durability and life of a specimen conducted under worst conditions, can restrain cracks and fracture due to concentrated stress during a specimen bending test, can improve efficiency in installing the specimen by facilitating height and interval regulation of the specimen mounting tool, and can provide excellent user convenience by easily regulating the bending radius of the bendable specimen using the bending radius regulating unit positioned at both sides of the specimen.

Description

TECHNICAL FIELD [0001] The present invention relates to a bending test apparatus for a flexible display,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bending test apparatus for a flexible display, and more particularly, to a bending test apparatus for a flexible display for developing a prototype of a flexible display or for durability and life test in a mass production product.

Flexible displays are attracting much attention as a representative product of next generation displays that can achieve the same image quality even when folded or bent. Flexible displays are expected to be applied to cell phones, PDAs, MR3 players, etc. because of their lightweight and non-breakable characteristics.

Such a flexible display can be made by thinly and lightly bending the TFT array layer and the color filter which adjust the direction of the liquid crystal on a thin and light substrate, and performs a process of testing various characteristics of the flexible display. For example, Korean Patent Publication No. 2010-0026366, entitled " OLED Specimen Test Apparatus ", discloses a test apparatus for clamping both sides of a specimen and repeatedly applying mechanical strain such as stretching, fatigue load and bending to the specimen by operation of an actuator To thereby grasp the material properties.

The tester 20 of the invention described in the prior art has two fixing means 25 for clamping both sides of the specimen 10 and an actuator 28 connected to one of the clamps to repeatedly apply the mechanical deformation. The fixing means comprises a clamp 25 and a clamping plate 26 hinged to the clamp 25 so as to clamp the specimen 10. One of the clamping plates 26 is connected to the actuator 28, One plate 26 is connected to the load cell 24 and measures the force of the actuator 28 using the load cell 24. Prior art is disclosed in the prior art in FIG. 5 in which the plate 26 lifts the clamp 25 with the advancing of the actuator 28 so that the clamp 25 is opened on both sides to bend the specimen 10 and then the actuator 28 The clamp 25 is returned to its original position and the specimen 10 is also flattened.

Although the prior art can perform a test in which the plate 26 lifts the clamp 25 and applies a physical deformation to the specimen in accordance with the forward and backward movement of the actuator 28, The stress is locally increased at the boundary between the portion fixed by the clamp 35 and the portion bent by the clamp 35, so that cracks may be generated or broken. Therefore, in the life test There are disadvantages that are not suitable.

Also, since the plate 26 lifts the clamp 25 to deform the specimen so as to bend convexly upward, the specimen may bend concavely downward. Therefore, There is a problem that is difficult to carry out. 8, when the actuator 28 which is in close contact with the bottom surface of the specimen 10 is driven to move up and down, the clamp 25 is inclined along the curved portion with respect to the plate 26, The bending operation in which the bending and unfolding are repeated is performed on the test piece 10 clamped to the test piece 25. However, since the clamps 25 on both sides of the specimen 10 are pressed together when the actuator 28 is brought into close contact with the bottom surface of the specimen 10, the clamped portions 35 and the bending portions Since the actuator 28 is brought into contact with the bottom surface of the test piece 10 and the test piece pushes up the test piece, an excessive external force is applied to the contact portion. There is a disadvantage that it is not suitable for the following.

[Patent Document 1] Korean Patent No. 10-10970204 (registered on July 07, 2010)

[Non-Patent Document 1] None

SUMMARY OF THE INVENTION It is an object of the present invention to provide a testing device for a flexible display in which a bending operation of a specimen is stably performed using a rotational force transmitted to a supporting means for fixing a plate-shaped specimen.

Another object of the present invention is to provide a flexible display test apparatus suitable for life test of a flexible display specimen which can be made thin and light.

According to another aspect of the present invention, there is provided a bending test apparatus for a flexible display, the flexible display including a support means for flatly supporting a plate-shaped specimen as a flexible display, A specimen mounting mechanism for bending the specimen placed on the support means; An electric motor for providing a rotational force for rotating the supporting means; A power transmission unit for transmitting the rotational force of the electric motor to the support means; And a bending radius adjusting unit provided adjacent to the specimen mounting mechanism for setting the bending radius of the specimen or changing the bending radius by changing the bending radius.

The supporting means may include a divided rotating portion and a fixed portion, and the series of bending operations in which the rotating portion returns to its original position after the rotating portion is rotated by the power transmitting portion is repeatedly performed.

The pivoting portion includes a base plate connected to the power transmitting portion and rotated by receiving a rotational force, a first support plate for supporting the bottom of the specimen, and a first connection plate coupled between the base plate and the first support plate. The fixing part includes a second supporting plate positioned parallel to the first supporting plate and supporting the bottom of the specimen, and a second connecting plate coupled to the second supporting plate.

Further, a marker for aligning the position of the test piece is formed on the surface of the support plate of at least one of the first support plate and the second support plate.

In addition, the motor is an AC servo motor driven in a forward direction or a reverse direction.

The bending radius adjuster may include a fixture and a guide protrusion detachably attached to the fixture, wherein the guide protrusion is protruded and formed with a thickness corresponding to a bending radius.

The guide protrusions are formed in the shape of a cylinder or a polygonal column.

The apparatus further includes a storage case for storing a plurality of guide protrusions corresponding to bending radii of the specimen.

The height adjusting unit adjusts the height of the first supporting plate and the second supporting plate in accordance with the bending radius reset by the bending radius adjusting unit, .

The height adjusting means may include an adjusting member for moving at least one of the first supporting plate and the second supporting plate in the height adjusting direction and the adjusting member for adjusting the height of the first connecting plate and the second connecting plate, And a fixation member for fixing the fixation member to at least one of the fixation member and the fixation member.

In addition, the adjusting member and the fixing member are each formed as a bolt that is fastened using a screw connection.

Further, the supporting means is provided on one of the rotary portion and the fixing portion, and has a gap adjusting means for adjusting a gap between the rotary portion and the fixing portion.

In addition, the gap adjusting means adjusts the gap by manually manipulating the adjusting bolt provided on the turning portion.

The power transmission unit includes a shaft holder coupled to the rotation shaft of the motor, a rotation case connected to a distal end of the rotation shaft, a shaft holder rotatably coupled to the end of the rotation shaft and the rotation case, And a fixed case installed at a distance from the case.

As described above, the bending test apparatus of the flexible display according to the present invention is suitable for the durability and life test of the specimen, which is carried out under severe conditions, and the rotation part of the specimen mounting mechanism supporting the specimen bottom is rotated in the forward direction and the reverse direction, It is possible to suppress the occurrence of cracks and breakage due to stress concentration during the bending test for bending and straightening.

According to the present invention, height adjustment and spacing adjustment of the pivoting portion and the fixing portion can be easily performed by the height adjusting means and the gap adjusting means provided in the specimen mounting mechanism, so that the efficiency of the specimen mounting operation can be improved.

The bending radius of the bending specimen can be easily adjusted by using the bending radius adjusting unit located on both sides of the specimen, so that the usability is excellent.

1 is a perspective view of a bending test apparatus for a flexible display according to an embodiment of the present invention.
2 is an exploded perspective view of a specimen mounting mechanism constituting a bending test apparatus for a flexible display according to an embodiment of the present invention.
3A is a plan view of the specimen mounting mechanism of FIG.
3B is a photographic image of the specimen mounting mechanism.
FIG. 4A is a cross-sectional view taken along line AA in FIG. 3, FIG. 4B is a detailed cross-sectional view of a portion "A" in FIG. 3, and FIG. 4C is a detailed cross-
FIG. 5A is a view showing a state where the fixed part and the rotating part of the specimen mounting mechanism are placed in parallel, and FIG. 5B is a view showing a state where the rotating part is rotated and positioned above the fixed part.
6A is a view for explaining a bending radius adjusting unit.
FIG. 6B is a view for explaining a storage case in which guide protrusions of the bending radius adjusting portion are housed and stored. FIG.

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

As shown in FIG. 1, the bending test apparatus 1 of the flexible display according to the present invention can perform the bending test on the flexible display using various test equipments provided on the flat stage 10. Here, the bending test can measure the durability and lifetime according to the function reproduction performance of the specimen (F) after several tens of times of the bending operation in which the portion of the plate-like specimen (F) is bent and the specimen is folded and re-stretched. Further, the image quality state displayed on the specimen F can be tested when the specimen F is bent while rotating the specimen F by a predetermined angle (e.g., 5 degrees).

The test equipment includes an electric motor 20, a power transmission portion 30, a specimen mounting mechanism 40, and the like.

The electric motor 20 is a power source for driving in a forward direction or a reverse direction by a controller (not shown). In the embodiment, the electric motor 20 is an alternating current (AC) servo motor. However, the electric motor 20 is not limited thereto. Can be applied.

The power transmission unit 30 includes a rotation shaft 31 coupled to the electric motor 20 and rotating in a forward or reverse direction and a power transmission unit 30 installed at a midpoint and a distal end of the rotation shaft 31, And includes a shaft holder 32 and a shaft holder 33 and a rotation case 34 coupled to the ends of the shaft 31 and interlocking with the shaft 31.

The shaft fixing table 33 is fixed to the pedestal 90 and has a bearing inside the shaft fixing table 33 so that the end of the rotating shaft 31 and the coupling portion of the rotation case 34 are rotatably engaged.

The rotary case 34 is integrally coupled to the rotary shaft 31 and interlocks with the rotary shaft 31.

The fixed case 35 is installed facing the rotary case 34 at a predetermined interval in the axial direction of the rotary shaft 31. [

A specimen fitting mechanism 40 is positioned between the rotating case 34 and the fixed case 80. [

The specimen mounting mechanism 40 includes a supporting means for supporting the bottom surface of the specimen F. [ The supporting means includes a rotary part (60) and a fixing part (70) which are arranged side by side on the bottom surface of the specimen (F) and divided from each other.

Referring to Fig. 2, the turning portion 60 is composed of a first supporting plate 61, a first connecting plate 62, and a base plate 63, which are stacked and installed. One side of the base plate 63 is integrally coupled to the rotation case 34 and rotates in a forward direction or a reverse direction in conjunction with the rotation case 34. [ The first connection plate 62 is located between the first support plate 61 located at the upper portion and the base plate 63 located at the lower portion and is disposed between the first support plate 61 and the first base plate 61 by using a fastening member such as a bolt, The plate 63 is connected. When the electric motor 20 is driven, the rotary shaft 31 rotates, and the rotary unit 30 interlocks with the rotary case 34 coupled to the end of the rotary shaft 31.

The fixing portion 70 includes a second supporting plate 71, a second connecting plate 72, and a receiving hole 73. The support hole 73 is fixed on the support plate 90. A second support plate 71 and a second connection plate 72 are stacked on the upper end of the support hole 73, The support plate (71) and the second connection plate (72) are fixed to the support hole (73). Although the second connection plate 72 is fixed to the support member 73 in the embodiment, the second connection plate 72 itself may be fixed to the support plate 90.

The size and type of the specimen (F) to which the specimen (F) is flatly placed on the first support plate (61) and the second support plate (71). 3, a plurality of markers 71a are formed on the surface of the second support plate 72 so that half of the test piece F is placed on each of the first and second support plates 61 and 71 . The test piece F is fixed on the first support plate 61 and the second support plate 71 using an adhesive member such as a double-sided tape provided on the bottom surface of the test piece F with reference to the mark 71a.

It is necessary to adjust the vertical height and the gap between the rotary part 60 and the fixing part 70 according to the test conditions. Therefore, the height adjusting part 110 and the gap adjusting part 120 are provided.

The height adjusting means 110 can adjust the height of the first supporting plate 61 and the second supporting plate 71 in accordance with the bending radius reset by the bending radius adjusting portion 80 and adjust the height of the first supporting plate 61 61 and the second support plate 71 and a fixing member for fixing the adjustment member.

4A to 4C, a plurality of height adjusting means 110 are provided in the rotary unit 60 and the fixing unit 70, respectively. In the embodiment, the rotary unit 60 and the fixing unit 70 are provided with two Respectively. The height adjusting means 110 includes an adjusting bolt 111 and a fixing bolt 112. A screw thread is formed outside the adjustment bolt 111, and a through hole is formed in the center of the adjustment bolt 111. The fixing bolt 112 is coupled to the through hole. The thread of the adjustment bolt 111 is engaged with the engagement groove of the first support plate 61 and the bottom surface of the bolt is supported on the upper surface of the first connection plate 62. 4C, when the adjusting bolt 111 is tightened or loosened, the bolt body supported on the upper surface of the first connecting plate 62 rotates in place and the first supporting plate 61 moved in the vertical direction moves The vertical height of the first support plate 61 is adjusted. After adjusting the vertical height of the first support plate 61, the fixing bolt 112 is used to fix the body of the adjustment bolt 111 to the first connection plate 62. Likewise, the vertical height of the second support plate 71 can be adjusted using the height adjusting means 110 with respect to the second support plate 71.

The gap adjusting means 120 may be provided on either the rotary portion 60 or the fixed portion 70 and adjusts the interval between the rotary portion 60 and the fixing portion 70.

The bolt head 121 protrudes outward and the bolt body 122 protrudes from one side of the base plate 63. The bolt head 121 protrudes outward from the base plate 63, And the end is pivotally coupled to the first connecting plate 62. [ A screw thread is formed outside the bolt body 122 and is engaged with a coupling groove on one side of the base plate 63. When the bolt head 121 is tightened or loosened, the first connection plate 62 and the first support plate 61 coupled to the bolt body 122 can be moved horizontally, and as shown in FIG. 4B, 61 and the second support plate 71 can be adjusted.

A bending radius adjusting unit 80 for adjusting the bending radius of the bending test piece F is installed inside the rotating case 34 and the fixed case 60, respectively.

The bending radius adjusting portion 80 is provided adjacent to the specimen mounting mechanism 40 for setting the bending radius of the specimen F or resetting the bending radius by adjusting the radius.

6A, the bending radius adjuster 80 includes a fixture 81 and a guide protrusion 82. As shown in Fig. The fixture 81 penetrates the inside of the rotation case 34 and is fixed to the shaft fixing table 33. The guide protrusion 82 is detachably installed in a mounting groove formed at the center of the fixture 81. For example, the fixture 81 can be fixed using a fastening bolt provided outside the fixture 81 in a state where the guide projection 82 is fitted in the mounting groove of the fixture 81. The guide protrusions 82 are protruded and formed with a thickness corresponding to the bending radius. For example, the guide protrusions 82 are formed into a cylindrical body or a polygonal columnar shape with an end protruding from one side of the body.

The bending radius of the specimen F bent by the guide protrusion 82 located on both sides of the specimen F can be set and the bending radius can be reset by changing the guide protrusion 82. [ For this purpose, the guide protrusions 82 can be formed in various sizes according to the bending radius. The plurality of guide protrusions 82 are stored in a separate storage case 100 as shown in FIG. 6B, The storage case 100 may be placed on the stage 10 and used.

The operation of the test apparatus for a flexible display according to the present invention will be described in detail.

Since it is necessary to adjust the position of the specimen mounting mechanism 40 in accordance with the size and type of the specimen F to be measured and the test conditions, the height adjusting means 110 and the gap adjusting means 120 The vertical height and the interval between the first support plate 61 and the second support plate 71 are set. The guide protrusion 82 of the bending radius adjusting portion 80 provided inside the rotary case 34 and the fixed case 35 is fixed to the fixture 81 by fixing the guide protrusion 82 corresponding to the bending radius, Can be selectively used in the storage case 100.

Then, the specimen F is placed on the rotating portion 60 and the fixing portion 70. That is, the bottom surface of the specimen F is fixed flat on the first support plate 61 and the second support plate 71 by using an adhesive member. Connect a signal cable between the connector of the specimen (F) and the signal analyzer to apply the signal to the specimen (F).

Then, the electric motor 20 is driven according to the control of a controller (not shown). When the life test is performed, the bending operation of bending or straightening the test piece (F) is repeated by repeating forward driving and reverse driving of the motor (20).

In Fig. 5A, the turning portion 60 and the fixing portion 70 are located side by side. When the electric motor 20 is driven in the forward direction, the first support plate 61 and the first connection plate 62 connected to the base plate 63 together with the rotation case 34 rotate in the forward direction as the rotation shaft 31 rotates. When the first support plate 61 is rotated, a half of the specimen F fixed to the first support plate 61 is bent with respect to the center of the specimen F. At this time, (82). 5B, the turning portion 60 is positioned above the fixing portion 70 in accordance with the rotation of the rotation case 34. As shown in FIG. Thereafter, when the electric motor 20 is driven in the reverse direction, the rotary shaft 31 rotates in the reverse direction, so that the rotary unit 60 is rotated in the reverse direction together with the rotary case 34 to spread the test piece F, (70). Thus, the bending operation can be performed by repeatedly performing the forward rotation and the reverse rotation of the rotary unit 60 in accordance with the forward and reverse directions of the electric motor 20. [

On the other hand, if the specimen F is bent in one direction, the image quality of the specimen F may be tested while the motor 20 is driven under the control of the controller to rotate the rotary unit 60 at predetermined angles .

10: stage 20: electric motor
30: Power transmission unit 31:
32: Axle holder 33: Axle holder
34: rotating case 35: fixed case
40: specimen mounting mechanism 60:
70: Fixing portion 80: Bending radius adjusting portion
90: pedestal 100: storage case

Claims (14)

A specimen mounting apparatus for bending a specimen placed on a supporting means in accordance with a bending radius set using a rotational force transmitted to the supporting means, ;
An electric motor for providing a rotational force for rotating the supporting means;
A power transmission unit for transmitting the rotational force of the electric motor to the support means;
And a bending radius adjusting section provided adjacent to the specimen mounting mechanism for setting the bending radius of the specimen or changing the bending radius by changing the bending radius,
Wherein the supporting means includes a divided rotating portion and a fixed portion,
And a series of bending operations in which the rotating portion is returned to its original position after the rotating portion is rotated by the power transmitting portion,
The pivoting portion includes a base plate connected to the power transmitting portion and rotated by receiving a rotational force, a first support plate for supporting the specimen bottom face, and a first connection plate coupled between the base plate and the first support plate ,
Wherein the fixing portion includes a second support plate disposed in parallel to the first support plate and supporting the specimen bottom surface, and a second connection plate coupled to the second support plate. delete delete The method according to claim 1,
Wherein a mark for aligning a specimen position is formed on a surface of at least one of the first support plate and the second support plate. The method according to claim 1,
Wherein the electric motor is an AC servo motor driven in a forward or reverse direction. The method according to claim 1,
Wherein the bending radius adjuster includes a fixture and a guide protrusion detachably mounted on the fixture,
Wherein the guide protrusion is protruded and formed with a thickness corresponding to a bending radius. The method according to claim 6,
Wherein the guide protrusion is formed into a cylindrical shape or a polygonal columnar shape. The method according to claim 6,
Further comprising a storage case for storing a plurality of guide projections corresponding to the bending radius of the specimen. The method according to claim 1,
Each of the rotary part and the fixing part is provided with height adjusting means,
Wherein the height adjusting means adjusts a height of the first supporting plate and the second supporting plate in accordance with a bending radius reset by the bending radius adjusting unit. 10. The method of claim 9,
Wherein the height adjusting means comprises: an adjusting member for moving at least one of the first supporting plate and the second supporting plate in a height adjusting direction; and at least one of the first connecting plate and the second connecting plate, And a fixing member which fixes the bending test piece to any one of the bending test piece and the bending test piece. 11. The method of claim 10,
Wherein each of the adjusting member and the fixing member is formed as a bolt for fastening by using a screw connection. The method according to claim 1,
Wherein the support means is provided at any one of the rotary portion and the fixing portion and includes a gap adjusting means for adjusting a gap between the rotary portion and the fixing portion. 13. The method of claim 12,
Wherein the interval adjusting means adjusts the interval by manually manipulating the adjusting bolt provided on the turning portion. The method according to claim 1,
The power transmission unit includes a shaft holder coupled to a rotation shaft of the motor, a rotation case connected to a distal end of the rotation shaft, a shaft holder having a rotation shaft end and a coupling portion of the rotation case rotatably engaged, Wherein the bending test apparatus includes a fixed case spaced a predetermined distance apart from the fixed case.

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