KR102354947B1 - Jig device for bending reliability test apparatus - Google Patents

Abstract

A jig device for a bending reliability test apparatus according to the present invention includes a driving member for providing a rotational force, a rotational force transmitting member for transmitting the rotational force from the driving member, and a pair of frame members rotated by the rotational force transmitting member, A jig device used in a bending reliability test device including a pair of jig base members coupled to the frame member, wherein the jig device is coupled to the jig base member and arranged to seat a test object, the jig device comprising: A first jig plate and a second jig plate for supporting the test object, a rotation support member disposed between the first and second jig plates, and the other end in a state in which one side is fixed to the pair of jig plates and a connecting member rotatably installed with respect to the rotary support member, wherein a groove for rotation of the connecting member is formed in the rotary support member, so that the pair of jig plates and the connecting members coupled thereto face each other It is characterized in that it is configured to be rotated to a position that is spread horizontally with the position.
According to the present invention, a pair of jig plates included in the jig device are configured to be bent at the same angle by a simple configuration, so that the configuration of the jig device can be compact and the device can be miniaturized, and the test object has a very small bending radius Because it is possible to secure the durability of the components for bending even while being bent with a , it is possible to increase the durability of the reliability test for a very small bending radius.
In addition, when bending the bending test object, only the bending force is applied to the test object, and the tensile force that may be generated by bending is not applied, so that the reliability of the bending test can be increased. Since both the in-direction in which the upper surface is rotated to face each other and the out-direction in which the lower surface of the inspection object is rotated to face each other are possible, inspection efficiency can be improved.

Description

JIG DEVICE FOR BENDING RELIABILITY TEST APPARATUS

The present invention relates to a jig device used in a bending reliability test device, and more particularly, a pair of jig plates included in the jig device are configured to be bent at the same angle by a simple configuration, while the test object is bent very small The invention relates to a jig device for a bending reliability test device that can be bent in a radius and configured to ensure durability of components for bending.

In recent years, along with the rapid development of technologies related to various electrical and electronic devices, technologies for display parts and various connector devices are also gradually developed.

In particular, technologies related to organic light emitting diodes and flexible connectors that are flexibly bent or bent are in the spotlight, and accordingly, the role played by devices for manufacturing or testing thereof is also emphasized.

In the case of components such as display components, connectors, or flexible PCBs that can be bent flexibly, durability against repeated bending is inspected before shipment.

In the case of a bending endurance test device for performing such an inspection, it should be designed so that only the bending force is constantly applied to the center of the inspection object, and the reliability of the inspection is secured only when it is configured to be in a constant rotational state even during long-term operation. can be

In addition, in order to increase the accuracy of the bending reliability test, it is preferable that only the bending force is completely applied to the inspection object, and the unintentional tensile force or torsional force is not applied.

On the other hand, in order to place the inspection object in the inspection apparatus, a jig device for supporting the inspection object through a pair of jig plates configured to be relatively rotated with respect to each other is used.

In recent years, with the development of flexible connector and organic light emitting diode device technology, the need for reliability testing when these test objects are bent with a very small bending radius is increasing.

However, in order to bend the test object with a small bending radius, the dimensions of the components for rotating the pair of jig plates relative to each other must be designed to be very small. In this case, there is a limit that the components do not have sufficient durability.

In order to shorten the replacement cycle of the jig device during the bending reliability test, it is required to develop a jig device having sufficient durability while being bent with a very small bending radius.

In addition, in the bending reliability test, it is preferable that a pair of jig plates rotate toward each other at the same rotation angle or relatively rotate in a direction away from each other. Irregular tensile and impact forces may be applied to the object.

And, in the case of the jig device used in the conventional bending reliability testing device, the jig device for an in-direction test rotated so that the upper surface of the inspection object faces each other and the out (Out) rotated so that the lower surface of the inspection object faces each other There is a disadvantage that a jig device for direction test must be manufactured and used, respectively.

The present invention has been devised to solve the problems as described above, and an object of the present invention is a jig for a bending reliability test device configured to bend a pair of jig plates included in the jig device at the same angle by a simple configuration. to provide the device.

Another object of the present invention is to provide a jig device for a bending reliability testing apparatus configured to ensure durability of components for bending while a test object is bent with a very small bending radius.

Another object of the present invention is to provide a jig device for a bending reliability testing apparatus configured so that only bending force is applied to the test object when bending the bending test object, and tensile force that may be generated by bending is not applied.

Another object of the present invention is to change the rotational direction, so that both the In direction in which the upper surface of the inspection object is rotated to face each other and the Out direction in which the lower surface of the inspection object is rotated to face each other are both It is to provide a jig device for a bending reliability test device configured to be possible.

A jig device for a bending reliability test apparatus according to the present invention for achieving the above object includes a driving member for providing a rotational force, a rotational force transmitting member for transmitting the rotational force from the driving member, and as long as it is rotated by the rotational force transmitting member A jig device used in a bending reliability test device including a pair of frame members and a pair of jig base members coupled to the frame member, wherein the jig device is coupled to the jig base member to seat a test object The jig device includes a first jig plate and a second jig plate for supporting the test object, a rotation support member disposed between the first and second jig plates, and one side is fixed to the pair of jig plates and a connecting member that is installed so that the other end is rotatable with respect to the rotating support member in a state where a groove is formed in the rotating support member for rotation of the connecting member, the pair of jig plates coupled thereto It is characterized in that the connecting members are configured to be rotated to a position facing each other and a position to be spread horizontally.

Preferably, the rotation support member is formed in a cylindrical shape and is installed as a pair between the first jig plate and the second jig plate, and a groove for rotation of the connecting member is formed along a circumferential direction of the rotation support member do.

In addition, the connecting member may be coupled to both side portions of the first jig plate and the second jig plate, respectively, and an opening may be formed in a portion of the jig plate opposite the connecting member.

In addition, an elevating member displaced in a vertical direction by rotation of the connecting member and a vertical shaft guiding the vertical displacement of the elevating member may be installed inside the rotation support member.

Here, an insertion roller may be installed at an end of the connection member facing the lifting member, and a receiving opening for accommodating the insertion roller may be formed inside the lifting member.

Preferably, the lifting member is disposed at the center of the rotation support member, and the connecting members are disposed on both sides of the lifting member as the center, and the insertion rollers of the connecting member disposed on the both sides are together with the lifting member. placed within the receiving opening of

According to the present invention, a pair of jig plates included in the jig device are configured to be bent at the same angle to each other by a simple configuration, so that the configuration of the jig device can be compact and the device can be miniaturized.

In addition, since it is possible to secure the durability of the components for bending while the test object is bent with a very small bending radius, reliability test durability for a very small bending radius can be increased.

In addition, when bending the bending test object, only the bending force is applied to the test object, and the tensile force that may be generated by the bending is not applied, so that reliability of the bending test can be increased.

In addition, by changing the rotation direction, both the In direction in which the upper surface of the inspection object is rotated to face each other and the Out direction in which the lower surface of the inspection object is rotated so that the bottom surface of the inspection object faces each other is possible, so the inspection efficiency can be increased can

The accompanying drawings are for understanding the technical spirit of the present invention together with the detailed description of the present invention, so the present invention should not be construed as limited to the matters shown in the following drawings.
1 is a perspective view of a state in which a jig device according to the present invention is installed in a bending reliability test device;
2 is a perspective view of the jig device according to the present invention,
3 is a perspective view of a rotation support member and a connecting member included in the jig device;
4 is a perspective view showing an operating state of the connecting member;
5 is a perspective view showing another operating state of the connecting member,
6 is a plan cross-sectional view of the rotation support member and the connecting member,
7 is an exploded perspective view of the jig device;
8 is a side view showing a state in which the jig device is rotated.

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

Prior to this, the terms used in the present specification and claims should not be construed as being limited in the dictionary meaning, and based on the principle that the inventor can appropriately define the concept of the term to describe his invention in the best way. , should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Accordingly, the configurations shown in the embodiments and drawings described in this specification are only preferred embodiments of the present invention, and do not express all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that water and variations may exist.

1 is a perspective view of a state in which a jig device according to the present invention is installed in a bending reliability test device, FIG. 2 is a perspective view of the jig device according to the present invention, and FIG. 3 is a rotation support member and a connection member included in the jig device 4 is a perspective view showing an operating state of the connecting member, FIG. 5 is a perspective view showing another operating state of the connecting member, and FIG. 6 is a plan sectional view of the rotating support member and the connecting member, 7 is an exploded perspective view of the jig device, and FIG. 8 is a side view showing a rotated state of the jig device.

1 and 2, the jig device for a bending reliability test apparatus according to the present invention includes a driving member 10 for providing a rotational force, and a rotational force transmitting member 20 for transmitting the rotational force from the driving member 10. And, a pair of frame members 30 rotated by the rotational force transmission member 20, and a pair of jig base members 40 coupled to the frame member 30 Used in a bending reliability testing apparatus As a jig device 50 to be used, the jig device 50 is coupled to the jig base member 40 and arranged to seat the test object 100, and the jig device 50 holds the test object 100 A first jig plate 51 and a second jig plate 52 for supporting, a rotation support member 53 disposed between the first and second jig plates 51 and 52, and the pair of jigs and a connecting member (54, 54-1, 55, 55-1) installed so that the other end is rotatable with respect to the rotation support member (53) in a state in which one side is fixed to the plates (51, 52), wherein the A groove 531 for rotation of the connection members 54, 54-1, 55, 55-1 is formed in the rotation support member 53, and the pair of jig plates 51 and 52 and the coupled thereto are formed. It is characterized in that the connecting members (54, 54-1, 55, 55-1) are configured to be rotated to a position facing each other and a horizontally unfolded position.

The bending reliability test apparatus according to the present invention and the jig-bang device used therein may be used, for example, in bending reliability testing of flexible-bending display parts, connectors, or flexible PCB boards.

The driving member 10 is configured to include a motor, and generates a rotational force by supplying power.

The rotational force generated by the driving member 10 is transmitted to the rotational force transmitting member 20 .

The rotational force transmitting member 20 is configured to include a plurality of gears therein, and one shaft of the gears is connected to the shaft of the driving member 10 , and the rotational force from the driving member 10 is The gears included in the rotational force transmission member 20 are rotated by this.

In the rotational force transmission member 20, for example, two first gears and a second gear may be installed, and the first gear and the second gear are formed of the same gear.

The rotational force from the driving member 10 may be transmitted to any one of the two gears in the rotational force transmitting member 20 , and the two gears formed in the same manner may be engaged with each other to rotate.

In addition, the shafts of the first gear and the second gear are respectively connected to the pair of frame members 30 through a connecting shaft.

In addition, in the pair of frame members 30 , the other end side of the portion connected to the first gear and the second gear is supported by the bearing unit 80 .

Thus, by the rotation of the first gear and the second gear that are engaged with each other by the rotation of the driving member 10 and rotate at the same angle in opposite directions, the pair of frame members 30 are also rotated at the same angle in the opposite direction. can be rotated.

By this rotation, a state in which the frame members 30 are rotated upward to face each other is called an in-direction rotation state, and a state in which the frame members 30 are rotated upward to face each other is referred to as an out-direction rotation state to be rotated downward to face each other. state is called

The frame member 30 may be connected to the side of the jig base member 50 through, for example, a rotation coupling member 60 .

In order to connect the frame member 30 to the side of the jig base member 50 , for example, a connecting bar 35 may be used.

Thus, one end of the rotation coupling member 60 is coupled to the connecting bar 35 , and the other end thereof is coupled to the side of the jig base member 50 .

The jig base member 40 is formed of, for example, an aluminum alloy in a plate shape, and the jig base member 40 is coupled to a jig device 50 on which the object 100 to be inspected is seated.

And, in a state in which the inspection object 100 is seated on the jig device 50 , a bending force is applied to the inspection object 100 by the rotation of the frame member 30 .

In a state in which the jig device 50 is installed on the jig base member 40 as described above, by converting the rotation direction of the motor installed inside the driving member 10 to the forward or reverse direction, the two jig base members 40 They may be driven in an upwardly rotated in (In) direction or downwardly rotated in an out (Out) direction.

Thus, by changing the rotation direction of the motor of the driving member 10 in the inspection apparatus according to the present invention, both the in-direction inspection and the out-direction inspection can be performed.

The bending reliability test apparatus shown in FIG. 1 is an apparatus employed to exemplarily describe the usage state of the jig apparatus 50 according to the present invention, and the jig apparatus 50 according to the present invention is limited to the test apparatus. It is not used, and may be installed and used in various other bending reliability test devices.

The jig device 50 according to the present invention is a device that is seated on the jig base member 40 of the test device in a state in which the test object 100 is supported, and a first jig for supporting the test object 100 . It includes a plate 51 and a second jig plate 52 .

The first and second jig plates 51 and 52 are made of the same material as an aluminum alloy and are formed in a rectangular plate shape.

A rotation support member 53 is disposed between the first jig plate 51 and the second jig plate 52 .

In addition, in a state in which one side is fixed to the pair of jig plates 51 and 52 , the connecting members 54 , 54 - 1 , 55 , 55 so that the other end can be rotated relative to the rotation support member 53 . -1) is installed.

The connecting members 54 , 54 - 1 , 55 and 55 - 1 are respectively coupled to both sides of the first jig plate 51 and the second jig plate 52 .

As shown in FIG. 2 , the rotation support member 53 has a cylindrical shape as a whole, and a pair is installed between the first jig plate 51 and the second jig plate 52 .

In addition, a groove 531 is formed in the rotation support member 53 so that the connecting members 54 , 54 - 1 , 55 , 55 - 1 can be moved in the circumferential direction.

Thus, while the connecting members 54, 54-1, 55, 55-1 are moved along the groove 531 of the rotation support member 53, the connecting members 54, 54-1, 55, 55- 1) coupled to the jig plates (51, 52) can also be rotated to a position facing each other and a horizontally unfolded position.

When the jig plates (51, 52) are rotated to overlap each other, in order to prevent interference between the connecting members (54, 54-1, 55, 55-1) and the jig plates (51, 52), An opening 512 may be formed in a portion of the jig plates 51 and 52 opposite to the connecting members 54 , 54 - 1 , 55 and 55 - 1 .

3 to 7, inside the rotation support member 53, the lifting member 56 displaced in the vertical direction by the rotation of the connecting members 54 and 55, and the upper and lower portions of the lifting member 56 A vertical axis 57 for guiding the directional displacement may be installed.

In a state where the insertion rollers 546 and 556 are coupled to the ends of the connecting members 54 and 55, the insertion rollers 546 and 556 have a receiving opening 562 formed in the center of the elevating member 56. accepted within

That is, in a state in which the lifting member 56 is disposed at the center of the rotation support member 53 , the connecting members 54 and 55 are disposed on both sides of the lifting member 56 as a center.

In addition, insertion rollers 546 and 556 coupled to the connecting members 54 and 55 disposed on both sides of the lifting member 56 are disposed in the receiving openings 562-1 and 562-2 of the lifting member. .

In the connection members 54 and 55 , fixed rollers 542 and 552 are coupled to opposite sides of the insertion rollers 546 and 556 , and the fixed rollers 542 and 552 are the rotation support members 53 . It is rotatably installed at both ends.

2, the configuration of the rotation support member 53 on the left side and the insertion roller and the fixed roller installed therein is the same as the configuration of the rotation support member on the right side and the insertion roller and the fixed roller installed therein in the same shape. formed symmetrically.

And, in FIG. 3, with the lifting member 56 as the center, the connecting members 54 and 55 installed on both sides thereof, the insertion roller and the fixing roller are also formed symmetrically with each other in the same shape.

As can be seen from FIGS. 3 and 6 , the center points of the insertion rollers 546 and 556 are installed in a state deviating from the center points of the fixed rollers 542 and 552 .

Thus, the fixing rollers 542 and 552 are rotated inside the rotation support member 53 in a fixed position by the rotation of the connecting members 54 and 55, whereas the insertion rollers 546 and 556 are The fixed rollers 542 and 552 perform a rotational motion together with an orbital motion with respect to the center.

That is, since the insertion rollers 546 and 556 are installed on the opposite side of the connecting members 54 and 55 in a state deviating with respect to the fixed rollers 542 and 552, the rotation of the connecting members 54 and 55 is By this, the insertion rollers 546 and 556 revolve around the fixed rollers 542 and 552 while rotating at the same time.

And, the height of the lifting member 56 is also displaced according to the height displacement during the orbital rotation of the insertion rollers 546 and 556, and conversely, according to the height direction position of the lifting member 56, the insertion roller ( The orbital positions of 546 and 556 may also be determined.

However, since the insertion rollers 556 coupled to the two connecting members 54 and 55 are all disposed together in the receiving opening 562 of the elevating member 56, displacement of the elevating member 56 in the height direction Accordingly, the height direction positions of the two insertion rollers 546 and 556 are located at the same height.

In addition, since the two insertion rollers 546 and 556 are positioned at the same height, the rotational positions of the two connecting members 54 and 55 are also the same.

Thus, the two connecting members 54 and 55 and the jig plates 51 and 52 coupled thereto can also be rotated at exactly the same rotation angle.

For example, in a state in which the two connecting members 54 and 55 are spread out in the horizontal direction as shown in FIG. 3 , the insertion rollers 546 and 556 are inserted into one side within the insertion opening 562 of the elevating member 56 . It is positioned at the end.

In this state, when the connecting members 54 and 55 are rotated upward by approximately 45 degrees as shown in FIG. 4 , the insertion rollers 546 and 556 are interposed in the insertion opening 562 of the elevating member 56 . In this case, the lifting member 56 is slightly lowered from the initial position.

Thereafter, when the connecting members 54 and 55 are further rotated and positioned in the vertical direction as shown in FIG. 5 , the insertion rollers 546 and 556 are inserted into the other side inside the insertion opening 562 of the elevating member 56 . The position is biased toward the end, and at this time, the lifting member 56 is positioned at the lowest position.

In this state, when the connecting members 54 and 55 are rotated away from each other again, the lifting member 56 is raised again and the insertion rollers 546 and 556 are returned to their original positions.

As described above, the lifting member 56 is inserted into the insertion opening 562 of the lifting member 56 by the position in which the lifting member 56 is lifted up and down along the vertical axis 57 installed inside the rotation support member 53 . The height direction positions of the insertion rollers 546 and 556 to be used are all arranged at the same position, and the two connecting members 54 and 55 may also be arranged at the same rotational position.

Thus, the two connecting members 54 and 55 can be configured to be rotated at the same rotation angle by a simple mechanical configuration.

Meanwhile, the bending radius at which the test object 100 is bent may be adjusted by a distance between the two fixed rollers 542 and 552 spaced apart from each other in the horizontal direction.

Accordingly, without reducing the dimensions of the lifting member 56, the insertion rollers 546, 556, and the connecting members 54 and 55, etc. for relatively rotating the jig plates 51 and 52 as described above, the two fixing By adjusting the horizontal distance between the rollers 542 and 552, the bending radius of the test object 100 can be reduced, so that the durability of the component can be sufficiently secured.

On the other hand, as shown in FIG. 8 , the central portion 102 of the test object 100 is disposed in the spaced portion C between the jig plates 51 and 52, and the two jig plates 51 , 52) is rotated as in FIG. 8, the central portion 102 of the test object 100 is disposed in the spaced space portion (C).

By the configuration of the lifting member 56 and the insertion rollers 546 and 556 as described above, the two jig plates 51 and 52 are rotated at the same angle with respect to the rotation support member 53, and the test Since the central portion 102 of the object 100 is disposed in the space portion C spaced apart between the two jig plates 51 and 52, the central portion 102 of the test object is in a state such as a free end. Only the bending force is received.

In the case of a flexible display panel, it is configured to include countless element layers, and the bending reliability is tested with the same rotational force applied to both sides of the bending test target area (eg, the central portion 102 of the test target). It is preferable to be

This is because, when different rotational forces are applied to both sides of the test target area based on the test target area, irregular tensile force generated by the bending force and the bending force on the display panel is applied to the area other than the test target area, thereby This is because it may cause a problem of delamination between device layers.

However, according to the above-described configuration of the present invention, the same rotational force can be applied to both sides of the test target region based on the test target region, and the test target region can be configured to receive only the bending force completely in the free end state.

This is a factor that increases the accuracy of the bending reliability test without causing a problem of delamination between the device layers.

As mentioned above, although the present invention has been described with reference to limited embodiments and drawings, the technical spirit of the present invention is not limited thereto, and by those of ordinary skill in the art to which the present invention pertains, the technical spirit of the present invention and Various modifications and variations will be possible within the scope of equivalents of the claims to be followed.

10: driving member
20: rotational force transmission member
30: frame member
40: jig base member
50: jig device
53: rotation support member
54, 55: connecting member
56: elevating member
57: vertical axis
100: test object

Claims (6)

a driving member providing rotational force;
a rotational force transmitting member for transmitting rotational force from the driving member;
a pair of frame members rotated by the rotational force transmitting member;
A jig device used in a bending reliability test device including a pair of jig base members coupled to the frame member,
The jig device is coupled to the jig base member and arranged to seat the test object,
The jig device is
a first jig plate and a second jig plate for supporting the test object;
a rotation support member disposed between the first and second jig plates;
and a connecting member installed so that the other end is rotatable with respect to the rotation support member in a state in which one side is fixed to the pair of jig plates,
A groove for rotation of the connection member is formed in the rotation support member, and the pair of jig plates and the connection members coupled thereto are configured to rotate to a position facing each other and a position to be spread horizontally,
The rotation support member is formed in a cylindrical shape and is installed as a pair between the first jig plate and the second jig plate,
A groove for rotation of the connection member is formed along the circumferential direction of the rotation support member,
The connection member is coupled to both sides of the first jig plate and the second jig plate, respectively,
An elevating member displaced in the vertical direction by the rotation of the connecting member and a vertical shaft guiding the vertical displacement of the elevating member are installed inside the rotation support member,
An insertion roller is installed at an end of the connecting member facing the lifting member, and a receiving opening for accommodating the insertion roller is formed inside the lifting member,
The lifting member is disposed in the center of the rotating support member, the connecting members are disposed on both sides of the lifting member as a center, the insertion rollers of the connecting members disposed on both sides are together with the receiving opening of the lifting member placed within,
In the connecting members, fixed rollers are coupled to opposite sides of the insertion rollers, and the fixed rollers are rotatably installed at both ends of the rotating support member,
The central point of the insertion roller is installed in a state deviating from the central point of the fixed roller,
By rotation of the connecting member, the fixed roller is rotated inside the rotating support member in a fixed position,
The insertion roller is configured to rotate with respect to the center of the fixed roller with an orbital motion,
A jig device for bending reliability testing apparatus, characterized in that the lifting member is displaced in the height direction according to the displacement of the insertion rollers in the height direction. The method of claim 1,
A jig device for a bending reliability test device, characterized in that an opening is formed in a portion of the jig plate opposite the connecting member. delete delete delete delete

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