KR20180085921A - Folding tester - Google Patents

Abstract

The present invention relates to a folding tester for a flexible film. The folding tester comprises a driving device (1) disposed at one side and a main body (101) disposed at the other side and having an operation device (2) and a film fixing device (3) separated formed. The operation device (2), which fixes an end (a2) of a film by the driving device (1), rotates to the film fixing device (3) fixing an end (a1) of the film to test the film (a) in a folding manner. In other words, the present invention can precisely test structural characteristics of the film and a thin film material on the surface of the film by applying physical stress of the folding manner to a single side or both sides using the flexible film.

Description

[0001] Folding tester for flexible film [0002]

The present invention relates to an apparatus for precisely testing the mechanical reliability of a flexible film (including a flexible glass substrate) and a thin film material deposited / coated on the film, and more particularly, to a flexible film And more particularly, to a folding test apparatus for a flexible film capable of precisely testing changes in the structural characteristics of a film and a thin film of the film while continuously applying stress.

Generally, a flexible film (hereinafter, referred to as a "film") refers to a flexible substrate used for manufacturing a touch screen, a display, a hybrid, a power generation film provided with a piezoelectric element, and the like. oxide, indium tin oxide (ITO), IZO, metal or functional organic or inorganic coatings to impart the function and electrical characteristics of the film.

Here, the background of the present invention is a method and apparatus for testing structural limitations of a film and a thin film material deposited on the film by successively applying physical stress (implementing minimum to maximum curvature radius) .

More specifically, the reliability evaluation of the film and its thin film material against the conventional physical stress is largely based on a rolling method in which a film is repeatedly wound on a roll and tested, and a twist method in which both ends of the film are twisted in a symmetrical direction.

However, the above methods are limited to the flexibility test of the film, and it is impossible to test the reliability of the maximum bending stress according to the structural limit of the film, that is, the test to know the limit of the bending stress precisely or the structural characteristic of the film and the thin film material. .

On the other hand, as a technique for solving the above problem, a bending test apparatus according to a radius of curvature of a flexible substrate and a flexible display device (Patent Application No. 2014-0110927; hereinafter referred to as "Prior Art") has been filed .

In the prior art, the first electrode part and the second electrode part move in opposite directions with both ends of the film being fixed, and then move in the opposite direction, and the film is bent symmetrically with respect to the center line The bending test is performed according to the radius of curvature of the first electrode part and the second electrode part. Therefore, the film test result close to the use result in the actual use environment can be obtained accurately, Since the first guide and the second guide are formed in a predetermined length in the vertical direction, it is possible to realize a bending radius of up to 2.5 mm by pushing both ends of the film inwards in the above bending test. Therefore, It was possible to test the structural characteristics of the thin film material.

In the prior art, however, the curvature radii realized for the test of the film are simply formed by bending both ends of the film and naturally formed by the working range. When the physical stress (bending and spreading) is continuously applied for a long time, There has been a concern that the radius may be bent (broken). Furthermore, in recent years, testing of a film having a radius of curvature of 0.5 mm or less has been required due to the development of film and thin film materials, there has been a problem in that the above radius of curvature can not be realized .

In addition, it has been difficult to accurately set the radius of curvature and to obtain the correct result, and there has been a lack of forming error of the radius of curvature depending on the kind of the thin film material deposited on the film and its surface.

Also, since the prior art is a test method in which both ends of the film are moved face to face on the center line to form a radius of curvature in the center of the film, it is necessary to select only one of the upper direction (inner bending) or the lower direction There were disadvantages.

Korean Patent Application No. 2014-0110927

It is an object of the present invention to provide a folding type film testing apparatus capable of measuring various properties of a film and a thin film material, Stress) can be realized, and the test can be performed more precisely, while diversity testing can be performed by variously controlling the folding direction and the angle of the film.

It is another object of the present invention to provide a method of testing sheet resistance at the same time as physical stress testing of a film.

In order to achieve the above object, the present invention provides a folding test apparatus for a flexible film,

A main body 101 having a driving device 1, an operating device 2, and a film fixing device 3,

The driving device (1) comprises a driving motor (12) having a rotating shaft (11)

The operation device 2 includes a rotation plate 21 connecting one end with the rotation axis 11 of the drive motor 12 and a mounting table 22 on the other side while connecting one end to the other end of the rotation plate 21 The upper clip 24 is bolted to the center seating groove 24 "of the lower clip 24 and the both side mounting shafts 25 of the lower clip 24 ' 21 and the upper and lower clips 24, 24 'which are respectively installed at the other end and the mounting base 22 of the rotating base plate 23,

The film fixing device 3 includes a film fixing block 32 having an installation groove 31 of a certain depth on both sides and a film fixing member 32 for fixing both ends of the film fixing block 32 to the installation groove 31 of the film fixing block 32, A fixed plate 33, a film joint plate 34 coupled to the upper longitudinal line of the film fixing plate 33, guide bar blocks 35 and 35 'provided on both sides of the film fixing block 32, And a pair of guide bars 36 and 36 'for fixing both ends to the both side guide bar blocks 35 and 35'.

The upper and lower clips 24 and 24 'may be coupled to the rotating base plate 23 via the tension device 4 so that the upper and lower clips 24 and 24' The present invention is characterized in that,

The tension device 4 includes spring blocks 41 and 41 'respectively fixed to the other end of the rotation plate 21 and the mounting base 22 of the rotation base plate 23,

LM shafts 42 and 42 'which are respectively installed between the spring blocks 41 and 41' and the opposite side portions of the rotating base plate 23 at predetermined lengths,

And the shaft brackets 43 and 43 'are installed on both sides of the LM shafts 42 and 42', respectively. The shaft brackets 43 and 43 ' A tension plate 44 which is axially coupled to the shaft brackets 43 and 43 ', respectively,

Is positioned between the both sides of the LM shafts 42 and 42 'positioned between the both side spring blocks 41 and 41' and the tension plate 44 and both sides of the tension plate 44 and both sides of the rotating base plate 23 A spring 45 installed on the LM shafts 42 and 42 ', respectively,

And a guide LM shaft (46) having one end fixed to one side surface of the tension plate (44) and the other end penetrating the rotating base plate (23).

The present invention realizes a reliable test of a thin film material deposited on a film and its film by a folding method through the above means so that a more accurate and precise test can be performed and a high quality result is obtained, We will make great progress in material development.

In addition, the present invention is capable of setting and testing the bending angle of the film by the folding method in multiple and multiple ways, thereby making it possible to more effectively evaluate the film characteristics by the diversification stress. Further, At the same time, there is a feature that the sheet resistance change test generated in the film can be precisely performed at the same time.

1 is a full example of the present invention,
Fig. 2 is an exploded view of the present invention,
3 is an enlarged cross-sectional view of the present invention,
Fig. 4 is a partial enlarged view of the present invention showing a film fixing state,
5 is an enlarged cross-sectional view of the sub-section of FIG.
6 is a partially enlarged cross-sectional view showing an embodiment of the present invention,
7 is a partially enlarged cross-sectional view of a portion "a" of another embodiment of the present invention,
8 is a folded state view of a film according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

In the following description of the known technology, which is considered to be blurred from the gist of the present invention, briefly or omissively, a description will be given of a structure having the same function by a single name and code.

In addition 1 is a perspective view of a main body having a driving device, an operating device, and a film fixing device according to the present invention.

* Detailed configuration of the present invention

The folding test apparatus for a flexible film according to the present invention has a driving device 1 on one side thereof and an operation device 2 and a film fixing device 3 to constitute the main body 101. As shown in Fig.

More specifically, it is as follows.

The drive device (1) comprises a drive motor (12) having a rotary shaft (11).

In addition, the drive unit 1 is provided with a sensor bracket 13 by its rotation shaft 11 so that the drive motor 12 can be controlled by the motor control sensor 14.

The actuating device 2 includes a rotary plate 21 having a predetermined length which is positioned in a direction orthogonal to the rotary shaft 11 of the drive motor 12 and then connected to one end of the rotary plate 21, A rotating base plate 23 having a predetermined length for connecting one end to the other end of the rotating plate 21 and having a mounting base 22 at the other side and a center base 23 for fixing the upper clip 24 to the center of the lower clip 24 ' And a fixed length of a bolt connecting the bolt to the groove 24 "and mounting the both mounting shafts 25 of the lower clip 24 'to the other end of the rotating plate 21 and the mounting base 22 of the rotating base plate 23 Upper and lower clips 24 and 24 '.

The film fixing device 3 includes a film fixing block 32 formed of a horizontal bar 32a and a vertical bar 32b and provided with an inner groove 31 having a predetermined depth by both side horizontal bars 32a, A film fixing plate 33 for fixing the both ends of the film fixing plate 32 to the inner groove 31 of the film fixing block 32 respectively and a film joint plate 34 for coupling the film fixing plate 33 on the longitudinal line, And the fitting portion 35a is bolted to both sides of the vertical bar 32b on one side of the film fixing block 32 and the fitting portion 35b is fixed to the vertical bar 32b by the bolts 35a and the fitting portion 35b, And a pair of guide bars 36 and 36 'for fixing both ends to the both side guide bar blocks 35 and 35', respectively. The guide bar blocks 35 and 35 ' .

The film fixing device 3 may be installed at least one between the guide bar 36 and the guide bar 36 'and between the guide bars 36 and 36' and the guide bar blocks 35 and 35 ' A position adjusting block 37 for adjusting the distance between the bar 36 and the guide bar 36 'and adjusting the height of the guide bars 36 and 36' from the guide bar blocks 35 and 35 ' And the like.

The film fixing device 3 is provided with a mounting member at one side of the film fixing block 32 to be fixed to the main body 101 and at the same time a guide bar block 35 located in the direction of the driving device And is axially coupled with one end of the rotary plate 21 to be fixed in position.

The present invention is completed through the above-described configuration, and an embodiment through the above configuration will be described below.

* Embodiments of the present invention

The folding test apparatus for a flexible film according to the present invention is a folding test apparatus for a flexible film, which tests a film by folding test to check the structural limit of the film, that is, the limit of the bending stress precisely and the reliability of the maximum bending stress depending on the structural characteristics of the film and the thin film material It is the device that conducts the test.

To explain this more specifically, the present invention has an embodiment of the preparation and test steps of the film.

4, the film a to be tested is passed through between the guide bar 36 and the guide bar 36 'of the film holding device 3, and then one end a1 of the film Fixed on the film fixing plate 33 with the film joint plate 34,

The other end a2 of the film is placed in the catch groove 24 "formed in the lower clip 24 'of the actuating device 2 and is pressed and fixed to the upper club 24.

Next, the film preparing step is completed and the film testing step is performed.

In the film testing step, the test condition values of the film (a), i.e., the folding angle of the film, the number of times of folding, the folding speed, etc., are input through the microcomputer 103 and the test is performed with the corresponding condition value.

The rotation plate 21 having the rotating base plate 23 is driven by the driving motor 12 to rotate the driving shaft 11 about the rotation axis The other end a2 of the film fixed to the upper and lower clips 24 and 24 'is folded at one end a1 of the opposite film while being rotated in the direction of the lower clip 24 or 24 in the up or down direction, Conduct.

At this time, in the present invention, the maximum range in which the other end a2 of the film can be folded at one end a1 of the film is within +/- 180 degrees at the reference starting point 0 deg., Referring to Fig.

To illustrate once again through an example,

When the folding test is to be performed from the starting point of 0 ° to the point of + 180 ° of the film (a) to be tested, the rotating plate 21 and the rotating plate 21 are rotated by the driving device 1 through the control of the microcomputer 103, The base plate 23 and the upper and lower clips 24 and 24 'are continuously and repeatedly rotated at n speed and n time from the 0 ° start point of the film to the + 180 ° position so that the other end (a2) (A1).

At this time, the driving device 1 controls the driving motor 12 with the motor control sensor 14 and the sensor bracket 13 so that the operating device can move to the starting point of 0 ° of the film and to the + 180 ° So that accurate rotation operation can be performed.

The upper and lower clubs 24 and 24 'for fixing the other end a2 of the film are fixed to the mounting plate 25 of the rotating plate 21 and the rotating base plate 23 by the free And the upper and lower clubs are rotated together with the upper rotation base plate 23 so that the rotation of the upper and lower clubs can be prevented by the rotation of the film a, And the other end a2 is kept in a straight line state at all times.

When the other end (a2) of the film is folded at one end (a1) of the film, the bending portion (aa) formed at the folding boundary point of the film is guided by the guides And the diameter of the bending portion (aa: physical stress generating portion) of the film (a) is always set to a constant diameter according to the diameter of the guide bar 36 and the reliability test of the film (a) Precision.

(For reference, the above-mentioned bending portion aa refers to a boundary point of the folding when the other end a2 of the film is folded at one end a1 of the film, that is, a portion where bending and physical stress occurs.)

In the present invention, when the film (a) is folded, the guide bars (36) and (36 ') always provide a constant bending portion, thereby ensuring the accuracy and reliability of the film test.

In the meantime, the present invention can perform the folding test as described above even if the other end (a2) of the film is at any condition within a range of 0 to 180 degrees from the end (a1) of the film, You can repeat the angle diversity test repeatedly.

Further, according to the present invention, the diameter of the bending portion (aa) of the film (a) can be variously formed according to the selection of the diameter (thickness) of the guide bars 36 and 36 '.

As another example of the present invention,

The upper and lower clips 24 and 24 'are coupled to the rotating base plate 23 through the tension device 4 so that the upper and lower clips 24 and 24' The tension device 4 includes a spring block 41 fixed to the other end of the rotation plate 21 and a mounting base 22 of the rotation base plate 23, LM shafts 42 and 42 'which are respectively installed at predetermined lengths between the spring blocks 41 and 41' and both side portions of the rotating base plate 23 and the LM shafts 42 ' The shaft brackets 43 and 43 'are provided on both sides of the shaft bracket 43 and the shaft brackets 43 and 43' And the LM shafts 42 and 42 'positioned between the both side spring blocks 41 and 41' and the tension plate 44. The LM shafts 42 and 42 ' play A spring 45 provided on each of the LM shafts 42 and 42 'positioned between both sides of the rotary base plate 43 and both sides of the rotary base plate 23 and one end fixed to one side of the tension plate 44 And the other end is constituted by a guide LM shaft 46 through which the rotating base plate 23 is passed.

Here, the guide LM shaft 46 serves to enable the tension plate 44 to be guided safely from the rotating base plate 23.

The springs 45 on the LM shafts 42 and 42 'located between the both sides of the spring 45 described later, that is, the both sides of the tension plate 44 and both sides of the rotating base plate 23, 45 of the LM shafts 42 and 42 'positioned between the two side spring blocks 41 and 41' and the tension plate 44, So that the tension plate 44 can have a higher elastic force in the direction of the rotating base plate 23 than in the direction of the one-side spring blocks 41 and 41 ', thereby being eccentrically positioned in the rotating base plate direction.

In this embodiment, when the film (a) is folded, when the bent portion (aa) is formed at the center portion of the film (a) by being caught by the guide bars 36 and 36 ' a phenomenon occurs in which both ends or one end of a) is pulled. So that the present invention is able to cope with the pulling phenomenon of the film by adding the above configuration to the operation device 2.

The upper and lower clips 24 and 24 that fix the other end a2 of the film to the tension plate 44 having a constant tension by the spring 45 while being guided by both shaft brackets 43 and 43 ' (A) is formed by the film (a) according to the above embodiment, and the bending portion aa is formed by the film (a) The position of the upper and lower clips 24 and 24 'fixing the other end a2 of the film is set to be smaller than the position of the tension plate 24 when the one end (the other end a2 of the film) (44) is corrected by the tension force so that the problem that the film (a) unexpectedly stretches or breaks can be compensated.

Further, in the above-described structure, the contact switch 201 is further provided on one side of each of the tension plate 44 and the rotating base plate 23 facing each other, so that during the film test, When the lower clip and the tension plate come close to the rotating base plate, they are sensed to be urgently reported as a test error due to breakage of the film.

Further, in the present invention, the positive-pole terminal connector 301 is provided as one of the mounting shafts 25 on both sides of the lower clip 24 ', and the one side of the film- The terminal connector 302 is provided so that the film resistance test of the film folded at the same time as the physical stress test of the upper film can be performed at the same time.

Here, the positive polarity terminal connector 301 may be formed at any position of the operating device 2 that is not disturbed by the rotation action of the rotating base plate 23, if necessary, and the negative polarity terminal connector 302 Further, even if it is constituted at any position of the film fixing device 3, it can have the same action as above, and there is no need to be limited to the above configuration.

However, when obtaining the change in the surface resistance of the film through the positive terminal connector and the negative terminal connector, the operating device and the film fixing device are preferably made of a conductive material.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. That is, those skilled in the art will appreciate that many modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. Accordingly, all such appropriate modifications and alterations and equivalents should be regarded as falling within the scope of the present invention.

1: drive device 11: rotary shaft
12: drive motor 13: sensor bracket
14: Motor control sensor 2: Operation device
21: rotating plate 22: mounting table
23: rotating base plate 24: upper clip
24 ': Lower clip 24'': Anchor groove
25: mounting shaft 3: film holding device
31: Anchor groove 32: Film fixing block
32a: a horizontal bar 32b: a vertical bar
33: film fixing plate 34: film joint plate
35, 35 ': guide bar block 35a:
35b: mounting portion 36, 36 ': guide bar
37: Position adjusting block 4: Tension device
41, 41 ': Spring block 42, 42': LM shaft
43, 43 ': shaft bracket 44: tension plate
45: spring 46: guide LM shaft
101: main body 102: partition wall
103: Microcomputer 201: Contact switch
301: Connector for positive polarity terminal 302: Connector for negative polarity terminal
a: film a1: one end of the film
a2: the other end of the film aa: bending portion

Claims (6)

A main body 101 in which a driving device 1 is disposed on one side of the partition wall 102 and an actuating device 2 and a film fixing device 3 are provided on the other side,
The actuating device 2 for fixing the other end a2 of the film is rotated by the driving device 1 with the film holding device 3 fixed at one end a1 of the film to rotate the film a in a folding manner Method). ≪ / RTI >
The method according to claim 1,
The drive device 1 constituting the main body 101 is constituted by a drive motor 12 having a rotary shaft 11,
The actuating device 2 includes a rotary plate 21 connecting one end to the rotary shaft 11 of the drive motor 12 and a mounting table 22 on the other side while connecting one end to the other end of the rotary plate 21 The rotary base plate 23 and the upper clip 24 are bolted to the center seating groove 24 "of the lower clip 24 'and the both mounting shafts 25 of the lower clip 24' And the upper and lower clips 24 and 24 ', respectively, to be installed on the other end and the mounting base 22 of the rotating base plate 23,
The film fixing device 3 includes a film fixing block 32 having an installation groove 31 having a predetermined depth to both sides and a film fixing plate 32 for fixing both ends of the film fixing block 32 to the installation groove 31 of the film fixing block 32, A film joint plate 34 coupled to the upper side of the upper side of the film fixing plate 33, guide bar blocks 35 and 35 'provided on both sides of the film fixing block 32, And a pair of guide bars (36) and (36 ') for fixing both ends to the bar blocks (35) and (35'), respectively.
3. The method of claim 2,
Wherein a sensor bracket (13) is provided on a rotary shaft (11) of the drive unit (1) so that the motor control sensor (14) can control the drive motor (12) .
3. The method of claim 2,
The positive polarity terminal connector 301 is provided on one of the mounting shafts 25 on both sides of the lower clip 24 'and the negative polarity terminal connector 302 is mounted on one side of the film fixing plate 33 So that a test for changing the surface resistance of the folded film can be performed simultaneously with the physical stress test of the film.
3. The method of claim 2,
The upper and lower clips 24 and 24 'of the operating device 2 are coupled to the rotating base plate 23 through the tension device 4 so that the upper and lower clips 24 and 24' The present invention is characterized in that,
The tension device 44 includes spring blocks 41 and 41 'which are fixed to the other end of the rotation plate 21 and the mounting base 22 of the rotating base plate 23, spring blocks 41 and 41' LM shafts 42 and 42 'that are respectively installed at predetermined lengths between both sides of the rotary base plate 23 and both ends of the LM shafts 42 and 42' are positioned on both sides of the LM shafts 42 and 42 ' A tension plate 44 is provided with brackets 43 and 43 'so that the both side mounting shafts 25 of the lower clip 24' placed in the front are axially coupled to the shaft brackets 43 and 43 ' And LM shafts 42 and 42 'positioned between the both side spring blocks 41 and 41' and the tension plate 44 and between both sides of the tension plate 44 and both sides of the rotating base plate 23 , And a spring (45) provided on the LM shaft (42) and the LM shaft (42 ') positioned on the LM shaft.
6. The method of claim 5,
And a contact switch (201) is further provided on one side of each of the tension plate (44) and the rotating base plate (23) facing each other.

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