KR101449409B1 - Testing Device for Bending Flexible Printed Circuit Board - Google Patents

Abstract

According to the present invention, a device for testing bending of a flexible printed circuit board (PCB) includes a base portion; a fixing portion disposed at an upper portion of the base portion to fix one end of a flexible PCB; a disk disposed at the upper portion of the base portion to support one side of a central portion of the flexible PCB; and a driving portion disposed at the upper portion of the base portion to fix the other end of the flexible PCB facing the fixing portion, and moving to bend the flexible PCB in a direction surrounding the disk.

Description

[0001] The present invention relates to a flexible PCB bending test apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible PCB bending test apparatus, and more particularly, to a flexible PCB bending test apparatus for measuring mechanical bending characteristics such as separation of semiconductor components mounted on a flexible PCB.

Recently, flexible PCBs (Flexible Printed Circuit Boards), which are formed of flexible materials, are increasingly being applied so that a substrate on which semiconductor components are mounted can be bent in accordance with the trend of multi-function, high performance and various designs.

As shown in FIG. 1, such a flexible PCB is formed of a flexible material such as a film and has wirings formed therein. Since the flexible PCB can be bent or bent, three-dimensional wiring is easy, The application range is expanding.

However, when the semiconductor component is mounted on the flexible film substrate, the film substrate itself may be bent or bent due to ductility, while the semiconductor component mounted on the film substrate and the solder for fixing the semiconductor component and the substrate do not have ductility, A problem may arise in that the soldered portion is lowered due to the repetitive warping of the solder.

Therefore, there is a need for an apparatus for testing whether soldering portions such as solder portions of semiconductor mounted on a film substrate and a film substrate manufactured in a product development process have sufficient durability.

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Accordingly, it is an object of the present invention to provide a flexible PCB bending test apparatus for measuring mechanical bending characteristics such as deviation of semiconductor components mounted on a flexible PCB.

In order to accomplish the above object, the present invention provides a flexible PCB bending test apparatus comprising: a base; a fixing unit for fixing one end of the flexible PCB provided on the base unit; And a driving unit for fixing the other end of the flexible PCB facing the fixing unit on an upper portion of the base unit and moving the flexible PCB to be bent in a direction wrapping the disc.

At this time, a plurality of disc insertion grooves may be formed in the base portion to change the position of the disc.

A guide groove may be formed in the base for guiding the position of the disk.

Also, the size of the disc may be changeable.

The base unit may further include a guide rail for guiding the driving unit to be stably driven.

In addition, the guide rail may be formed such that the diameter of the guide rail gradually decreases as the moving distance becomes shorter as the flexible PCB is wound on the disc.

The guide rails may be formed to correspond to the sizes and the changing positions of the disc.

The present invention has the following effects.

First, it is possible to test various mechanical durability of soldering parts, such as soldering of semiconductor parts mounted on flexible PCB and flexible PCB, by performing bending test in which flexible PCB with semiconductor parts mounted repeatedly is bent.

Secondly, the configuration of the test apparatus is simple and easy to manufacture, and the manufacturing cost is reduced.

Third, since the flexible PCB is bent based on the disc, the flexible PCB can be rotated by 180 ° or more, so that the flexible PCB can be flexibly tested at various angles.

Fourth, since the position of the disc or the diameter of the disc can be changed without changing the test apparatus, it is possible to test the flexure characteristic of the flexible PCB with respect to various positions and various radius of curvature by using one test apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, And shall not be interpreted.
1 is a perspective view of a flexible PCB bending test apparatus according to the present invention;
2 is a schematic exploded perspective view of a flexible PCB bending test apparatus according to the present invention;
3 is a plan view of a flexible PCB bending test apparatus according to a modification of the present invention;
4 is a plan view of a flexible PCB bending test apparatus according to another embodiment of the present invention;
5 is a perspective view of a flexible PCB bending test apparatus according to another embodiment of the present invention; And
6 is a view illustrating the use of the flexible PCB bending test apparatus according to the present invention.

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

Configuration of flexible PCB bending test equipment

FIG. 1 is a perspective view of a flexible PCB bending test apparatus according to the present invention, and FIG. 2 is a schematic exploded perspective view of a flexible PCB bending test apparatus according to the present invention. 1 and 2, the flexible PCB bending test apparatus 10 according to the present invention includes a base unit 500, a fixing unit 200, a disc 300, and a driving unit 400.

The base unit 500 is a device that provides a space in which the fixing unit 200, the disc 300 and the driving unit 400 can be seated and provides a space in which the driving unit 400 can stably move. The base portion 500 is formed as a flat plate as a whole. At this time, as shown in FIG. 2, insertion holes 511 and 520 for inserting the fixing part 200 and the disc 300 may be formed on one side of the upper surface of the base part 500. At this time, the fixing groove insertion groove 520 is formed at one end of the base portion 500, and the disk insertion groove 511 is formed at the center portion of the base portion 500.

3 is a plan view of a flexible PCB bending test apparatus according to a modification of the present invention. As shown in FIG. 3, a plurality of disk insertion grooves 511 can be formed to change the installation position of the disk 300 to change the measurement position of the flexible PCB. The plurality of disk insertion grooves 511 may be formed in a row along the installation direction of the flexible PCB 100 or may be formed in a plurality of grid shapes taking into consideration the size change of the disk 300. [

4 is a plan view of a flexible PCB bending test apparatus according to another embodiment of the present invention. As shown in FIG. 4, a guide groove 512 having a predetermined length is formed so that the installation position of the disc 300 can be precisely changed. In order to change the test position of the flexible PCB 100, the guide groove 512 may be formed in a long length along the installation direction of the flexible PCB 100, + Self-repeating fence shape.

The fixing unit 200 fixes one end of the flexible PCB 100 to be tested for bending property and is integrally formed with the base unit 500 at one end of the base unit 500 or integrally formed with the base unit 500 (Not shown) formed on the upper surface of the main body insertion groove 520. A first fixing groove 210 into which one end of the flexible PCB 100 can be inserted is formed on one side of the fixing part 200. One end of the flexible PCB 100 inserted into the first fixing groove 210 is fixed to the first fixing groove 210 such as a clip type or a screw pressing type. Any method can be used as long as it can be fixed so as not to be damaged.

The disk 300 is provided to contact one side of the flexible PCB 100 to measure a bending characteristic, and serves as a shaft for flexing the flexible PCB 100. The disc 300 may be integrally formed with the base portion 500 at one side of the center of the base portion 500 or may be detachably attached to the disc insertion groove 511 or the guide groove 512 formed in the base portion 500 . When the disk 300 is detachably mounted, the disk 300 having various diameters may be changed to measure the flexural characteristics of the flexible PCB 100 with respect to various curvatures. That is, when the diameter of the disk 300 is large, the flexure of the flexible PCB 100 is gentle, while when the diameter of the disk 300 is small, the flexion of the flexible PCB 100 is strong. Various bending characteristics can be tested only by the change. Also, the measurement position of the flexible PCB 100 may be changed to test the overall flexure characteristic of the flexible PCB 100 without changing the entire test apparatus 10. 3, when a plurality of disk insertion grooves 511 are formed in the base 500, the disk insertion grooves 511 are formed in a row along the installation direction of the flexible PCB 100, 300 can be changed by changing the inserting position of the flexible PCB 100. The disc insertion groove 511 having a different distance from the flexible PCB 100 is provided with a disc 300 having a different diameter so that the degree of warping of the flexible PCB 100 is changed at the same test position and the warpage of the flexible PCB 100 You can test the characteristics.

When the guide groove 512 for fixing and fixing the position of the disk 300 is formed on the base part 500, a fixing device such as a screw or a bolt (Not shown). In order to accurately test the flexural characteristics of the flexible PCB 100, the disc 300 must be fixed such that the test position is not changed. The position of the disc 300 can be freely moved in the case of the guide groove 512 while the position of the disc 300 can be freely moved in the case of the guide groove 512. On the other hand, Since the position of the disc 300 may be shifted during the bending test of the disc 100, the position of the disc 300 may be fixed by using a fixing device or the like.

The driving unit 400 is provided at the other end of the base unit 500 opposite to the fixing unit 200 to fix the other end of the flexible PCB 100 to the flexible PCB 100, To be bent in the direction of the arrow. At this time, a second fixing groove into which the other end of the flexible PCB 100 can be inserted is formed on one side of the driving unit 400. The method of fixing the other end of the flexible PCB 100 inserted into the second fixing groove may be the same as that of the first fixing groove 210 of the fixing unit 200, Any method may be used as long as the other end of the flexible PCB 100 can be fixed so as not to be detached. The driving unit 400 is provided at a position opposite to the fixing unit 200 and is located at a position where the flexible PCB 100 fixed to the fixing unit 200 and the driving unit 400 is not bent by the disc 300 do. If the driving unit 400 is located inside the disc 300, it may be difficult to test an accurate bending characteristic since the flexible PCB 100 is already bent in a state where the flexible PCB 100 is initially coupled. At this time, the driving unit 400 can be manually operated by the user, and is automatically moved through a control device (not shown) connected to the power device to the outside using a power device such as a motor (not shown) 100 of the flexible PCB 100 are gradually bent and the flexural characteristics of the flexible PCB 100 can be measured.

5 is a perspective view of a flexible PCB bending test apparatus according to another embodiment of the present invention. 5, a guide rail 530 for guiding the path of the driving unit 400 is installed on the upper part of the base unit 500 so that the driving unit 400 can be driven without shaking . At this time, the guide rail 530 moves the end of the first flexible PCB 100, that is, the end of the flexible PCB 100 in the fully extended state, as the disk 300 is wrapped around the disk 300, The diameter of the guide rail 530 is formed to be gradually shorter as the distance corresponding to the distance that the flexible PCB 100 is wrapped around the disc 300 is not an exact semicircular shape. 5, since the moving path of the driving unit 400 is changed according to the installation position of the disc 300 and the diameter of the disc 300, the number of the guide rails 530 A plurality of guide rails 530 can be formed at the same time. 5, the guide rail 530 is formed as a groove on the upper part of the base part 500. However, a separate rail device such as a train rail is provided to correspond to the installation position and size of the disk 300 Even if the disc 300 having various positions and sizes is used, the driving unit 400 can be stably driven, thereby preventing the flexible PCB 100 from being twisted, Flexural properties can be tested.

Flexible PCB bending test method

6 is a view illustrating the use of the flexible PCB bending test apparatus according to the present invention. The bending characteristic test method of the flexible PCB 100 using the flexible PCB bending test apparatus 10 having the above-described configuration is as follows.

First ends of the flexible PCB 100 are inserted into the first fixing groove 210 and the second fixing groove and fixed to the fixing unit 200 and the driving unit 400, respectively. 6, the flexible PCB 100 fixed to the fixing part 200 and the driving part 400 is positioned on the outer side of the disc 300 by the disc 300 Do not bend. That is, the flexible PCB 100 installed at the beginning is spaced apart from the outer surface of the disc 300 by a predetermined length, or the flexible PCB 100 is installed so that one side of the flexible PCB 100 is not bent on the outer side of the disc 300. If the flexible PCB 100 is bent at the initial installation of the flexible PCB 100, accurate testing may be difficult.

Next, as shown by the dotted line in FIG. 6, the flexible PCB 100 drives the driving unit 400 in a direction to cover the disc 300. [ At this time, the movement of the driving unit 400 causes the flexible PCB 100 to move in a state where the flexible PCB 100 is not stretched or compressed as much as possible. That is, the guide rail 530 of the base unit 500 is designed and formed so that the flexible PCB 100 is bent in a state where the flexible PCB 100 is not compressed or stretched to the maximum. 6, the flexible PCB 100 may be gradually bent so that the flexible PCB 100 may be flexibly connected to the flexible PCB 100 according to the degree of flexing of the flexible PCB 100 according to the extent to which the flexible PCB 100 surrounds the disc 300. [ 100 can be tested at the same time as the mechanical characteristics such as elongation and repetitive load, as well as the soldering portion 120 and the bending characteristic of the semiconductor component 110 for attaching the semiconductor component 110.

It is possible to repeatedly perform the experiment by changing the installation position of the disc 300 or the diameter of the disc 300 after completing the bending characteristic test for a part of the flexible PCB 100 through the above-described process. The mounting position and diameter of the disc 300 may be changed by selectively mounting the disc 300 in a plurality of disc insertion grooves 511 formed in the base 500 or sliding the guide along the guide groove 512 After the position is changed, the disk 300 may be fixed using the fixing device, and the experiment may be repeated.

As described above, those skilled in the art will understand that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

10: Test equipment
100: Flexible PCB
110: Semiconductor parts
120: soldering portion
200:
210: first fixing groove
300: disk
400:
500: Base portion
511: Disc insertion groove
512: Guide groove
520: Fixing section insertion groove
530: guide rail

Claims (7)

A base portion;
A fixing unit provided at an upper portion of the base to fix one end of the flexible PCB;
A disk provided on an upper portion of the base portion to support a central portion of the flexible PCB; And
A driving unit for fixing the other end of the flexible PCB opposed to the fixing unit on an upper portion of the base unit, the flexible PCB moving to be bent in a direction wrapping the flexible PCB;
Lt; / RTI >
Wherein the base portion includes a guide rail for guiding the driving portion to be stably driven,
Wherein the guide rail is formed such that the diameter of the guide rail gradually decreases as the distance from the center axis of the disc to the end of the flexible PCB becomes shorter as the flexible PCB is wound on the disc. The method according to claim 1,
And a plurality of disk insertion grooves are formed in the base portion so as to change the position of the disk. 3. The method of claim 2,
And a guide groove for guiding the position of the disk is formed in the base. The method according to claim 1,
The flexible PCB bending test apparatus capable of changing the size of the disk. delete delete The method according to claim 1,
Wherein the plurality of guide rails are formed to correspond to a size and a changing position of the disk.

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