KR20160042775A - Folding test machine - Google Patents

Abstract

The present invention relates to a bending test machine which checks the durability of a bend and is operated through a slight control even if a bending radius or an arc length is changed. The bending test machine comprises the following steps: installing a fixed wall and a moving wall in a square frame to face each other; installing mounting parts where a workpiece is installed in the top ends of both sides to be rotated to the fixed wall and the moving wall within a vertical plane; installing the workpiece and both ends of a leaf spring in both mounting parts to be hung between the fixed wall and the moving wall in a bent state; and repetitively moving the moving wall to the fixed wall to bend the workpiece.

Description

FOLDING TEST MACHINE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a folding test machine for testing the durability of folding, bending, or bowing a thin glass plate or a resin plate used for a substrate such as a cellular phone or a flexible display such as an organic EL, .

Recent mobile phones are getting thinner. As a result, the inner substrate is of course thin. However, if the thickness is reduced, the curvature becomes excessively severe and the substrate may be damaged. Here, the term "bending" generally means bending in the form of an arc, but the bending is a constant curvature (for example, a curvature in which the radius of curvature changes smoothly continuously), and the substrate or the like is used under such curvature will be. For this reason, the test is performed before use, but it is a problem that it functions normally when curved. Conventionally, it is judged whether or not it is proper to bend by hand. However, if the radius of curvature of the curvature is different, it is not efficient to have the length of the arc (length of the curved portion) hand in hand.

However, it is not impossible not to think about the curvature as a machine, but there is something that can not be done depending on the way of doing.

Japanese Patent Application Laid-Open No. 2013-057538 discloses an apparatus that uses a bending machine. However, although this document relates to the bending of a planar body, it is not intended to make the object to be bent uniform by merely bending the object. Also, it is not possible to test by changing the curvature radius of curvature.

The present invention allows this bending test to be carried out by a machine so that the machine can be operated with slight adjustment even if the radius of curvature or the length of the arc is different.

According to one aspect of the present invention, there is provided a method of manufacturing a workpiece, comprising the steps of: providing a fixed wall and a moving wall in a substantially rectangular frame so as to oppose a workpiece (for example, The object to be tested) is rotatably mounted in the vertical plane with respect to the fixed wall and the moving wall, and both ends of the leaf spring are mounted on both the mounting portions in addition to the workpiece and the workpiece, And the workpiece is repeatedly bent so that the workpiece is curved in a curved state between the walls and the moving wall is moved away from the stationary wall.

According to another aspect of the present invention, there is provided a configuration in which both walls are movable movable walls, and both sides or one side are fixed so as to make a perspective toward the other side. Further, on the other side, there is provided a configuration in which leaf springs having the same length as the workpiece are mounted on both sides of the workpiece.

In one side surface, a work such as a thin glass plate or a resin plate is stuck to the fixed wall and the moving wall in a curved state, and the moving wall is moved away from the fixed wall so as to bend the workpiece repeatedly. At this time, the shape requirement such as the radius of curvature of the curvature of the workpiece is changed, but this is made possible by changing the stroke of the actuator for moving the moving wall and the initial position of both walls. In addition, the mounting portion on which the workpiece is mounted can be rotated in a vertical plane with respect to the moving wall or the fixed wall (which can be tilted toward the other side) so that it can cope with a stroke change without leaving internal stress . It is also preferable to adjust the speed of curvature, but this can be done by changing the speed of the actuator.

On the other side, by moving both the fixed wall and the movable wall, it is possible to variously change the shape of the curvature and the shape of the curvature radius. In yet another aspect, the leaf spring tends to curl with a constant radius of curvature, thereby allowing the workpiece to follow it.

1 is a perspective view of a bending test machine.
2 is a side view of the bending test machine.
Figure 3a is an enlarged side view of the vicinity of the mounting portion.
3B is an enlarged side view of the vicinity of the mounting portion.
Figure 4 is a perspective view of another example of a flexure tester.
Figure 5 is a side view of another example of a flexure tester.
Fig. 6 is a side view of a curved testing machine including a state in which the workpiece is largely curved.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a perspective view of a testing machine of the present invention. In the frame 1 having a box-like shape, the fixed wall 2 is provided substantially perpendicularly to one end and the movable wall 3 is disposed substantially vertically to the inside. Here, the fixing wall 2 is fixed to the frame with a fixture such as a bolt. The movable wall 3 is movably provided so as to be brought close to or away from the fixed wall 2 by an external force. To this end, a connecting portion 13 capable of connecting an actuator such as a cylinder to the downwardly extending portion 3a of the moving wall 3 is provided, and an actuator (not shown) is connected thereto. The actuator may be any reciprocating device or a reciprocating piston. It is also possible to say that Fig. 1 shows the main constituent parts which cause the curvature of the bending test machine.

The fixing of the fixed wall 2 and the movement of the moving wall 3 may be realized by a well-known structure. In this embodiment, the frame 1 is composed of a frame member that connects one end side and the other end side of the frame 1 so as to extend in a direction substantially perpendicular to the fixed wall 2 from one end side of the frame 1 opposite to the other end side On both sides, a pair of rails 14 are provided. In each rail 14, a slider 15 is movably assembled on each rail 14. [ Pass the bar 16 leading to the fixed wall 2 to the slider 15 on each rail 14 in the opposite position. Likewise, the bar 17 leading to the moving wall 3 is passed to the slider 15 on each rail 14 in the opposite position. Since the fixing wall 2 does not move with respect to the frame 1, the bracket 18 is lowered from the bar 16 to the outside of the side surfaces on both sides and the bracket 18 is screwed to the frame 1 (19). Thereby, when the actuator of the movable wall 3 is operated, the movable wall 3 moves so as to move away from or close to the fixed wall 2. [ When the position of the fixing wall 2 is changed, the position of the bracket 18 can be changed by adjusting the screw 19 or the like.

In the bar 16, a pair of substantially vertically arranged plate-like columns are erected parallel to the longitudinal direction of the bar 16, and a top plate 22 is fixed thereon. The top plate 22 is elongated in the longitudinal direction substantially in parallel to the bar 16 and is longer than the outer end portion facing the inner end portion facing the moving wall 3 and has a trapezoidal shape at the top surface Respectively. And a hinge 9 is provided at the inner end thereof. Similarly, in the bar 17, a pair of substantially vertically arranged plate-like pillars are arranged in parallel in the longitudinal direction of the bar 17, and the top plate 23 is fixed thereon. The top plate 23 extends in the longitudinal direction substantially in parallel to the bar 17 and has a trapezoidal shape at the top face, which is longer than the opposite end facing the fixed wall 2 at the inner end. And a hinge 10 is provided at the inner end.

The workpiece 4 having a substantially rectangular plate shape is placed between the moving wall 3 and the fixed wall 2 (hereinafter, the dimension in the spreading direction is referred to as the workpiece 4 in plan view) And the direction substantially perpendicular thereto is referred to as the width of the workpiece 4). At this time, the mounting to the moving wall 3 is carried out by the mounting portion 6 (see FIG. 6) which is rotatably mounted in the vertical plane with the hinge 10 on the top plate 23 provided on the top (top) side of the moving wall 3 And a press plate 8 fixed thereon. Likewise, the mounting to the stationary wall 2 includes a mounting portion 5 which is rotatably mounted in a vertical plane with a hinge 9 on a top plate 22 provided on the top (top) side of the stationary wall 2, And is inserted between the presser plates 7 that are formed on the outer circumferential surface. That is, the mounting portions 5 and 6 rotatably mounted by the respective hinges 9 and 10 are arranged such that the fixed wall 2 and the moving wall 3 are separated or brought close to each other, So that it can be rotated). The inclination angle of both ends of the workpiece 4 varies depending on the radius of curvature caused by the bending of the workpiece 4 because both ends of the workpiece 4 are attached to the mounting portions 5 and 6 . The mounting portions 5 and 6 can be tilted (or pivoted) and therefore can cope with this. In addition, it is intended to minimize the local stress or stress concentration that may occur inside the workpiece 4 as much as possible.

The hinges 9 and 10 have been studied to reduce the resistance of the rotation by reducing the weight. Since the workpiece 4 has a heavy weight, the movable wall 3 and the fixed wall 2 have a curved shape slightly downward when they are separated by a distance close to the length of the workpiece 4. 3A and 3B are side views of the recess. The mounting portions 5 and 6 are pulled downward by the spring 11. Is designed so that the mounting portions 5 and 6 do not rise up above the horizontal position due to inertia when bent. In the test by the present tester, it is not preferable that the moving wall 3 is farther from the fixed wall 2 than the distance when the workpiece 4 is laid. This is because the workpiece 4 may be subjected to tension.

A plate spring 12 having the same length as that of the workpiece 4 is attached to the outer sides of the side ends of the workpiece 4 other than the opposing two end portions fixed to the mounting portions 5, ) With a bolt (20). The leaf spring 12 tends to have a constant radius of curvature when curved so that the mounting portions 5 and 6 are tilted (or pivoted) at an optimum angle for a constant radius of curvature. Since the workpiece is mounted at the tilting angle (or inclination angle) of the mounting portions 5 and 6, the workpiece also curves at a constant radius of curvature. That is, the curvature of the workpiece 4 can follow the curvature of the leaf spring 12 and the workpiece 4 can be curved constantly by providing the leaf springs 12 on both sides of the workpiece 4 There is a number. At this time, it is preferable that the leaf spring 12 has higher durability than the workpiece 4. It is preferable that the resistance of the leaf spring 12 to the curvature be larger than the resistance of the workpiece 4. [

While the foregoing is a basic form of the present invention, there are various other modifications. The best thing is to move the fixed wall 2 in the same way as the moving wall 3. 4 and 5, the bracket 18 and the screw 19 of the fixing wall 2 are removed and the connecting portion 21 is formed in the downwardly extending portion 2a. In this connecting portion 21, To connect the actuator. Thereby, when the two actuators are actuated at the same time, the fixed wall 2 and the movable wall 3 move together. At this time, by changing the moving speed and the stroke or the direction of the both, the variety of test forms can be achieved.

Also, if you lock one side (so that you can change the locking position), you can also try moving only one side.

Further, the bending test machine, which is an embodiment of the present invention, can greatly curl the workpiece 4. For example, as shown in Fig. 6, since the mounting portions 5 and 6 face downward almost vertically and the workpiece 4 contacts the fixed wall 2 and the moving wall 3, the U- The curvature of the workpiece 4 can be controlled. In addition, even when the workpiece 4 is broken during the durability test, the fixed wall 2 and the moving wall 3 may prevent scattering of debris. For example, the fixed wall 2 and the movable wall 3 can have almost half the length of the work 4.

1: frame
2: fixed wall 3: moving wall
2a:
3a:
4: Workpiece
5: mounting part 6: mounting part
7: Presser plate 8: Presser plate
9: HINGE 10: HINGE
11: spring 12: leaf spring
13: connection part 14: rail
15: Slider 16: Bar
17: Bar 18: Bracket
19: Screw 21: Connection
22: top plate 23: top plate

Claims (7)

A mounting portion for mounting a workpiece on the top of both walls is provided so as to be rotatable in a vertical plane with respect to the fixing wall and the moving wall respectively, Wherein the plate spring is mounted on both ends in addition to the workpiece and the workpiece so as to be curved between the fixing wall and the moving wall, and the moving wall is moved away from the fixing wall to repeatedly bend the workpiece. The method according to claim 1,
A curved tester in which both walls are movable movable walls, and one side or both sides are fixed to one side so as to make a perspective toward the other side. The method according to claim 1,
A curved tester equipped with a leaf spring of the same length as the workpiece on both sides of the workpiece. 3. The method of claim 2,
A curved tester equipped with a leaf spring of the same length as the workpiece on both sides of the workpiece. 1. A curved tester for repeatedly bending a plate workpiece,
A substantially rectangular frame,
A workpiece mounting portion that is fixed with respect to the frame and mounts one end side of the workpiece;
A workpiece mounting portion movably provided with respect to the frame, the workpiece mounting portion mounting the opposite end of the workpiece;
And an actuator connection portion for driving the movable workpiece mounting portion so as to move toward and away from the workpiece mounting portion to be fixed,
Wherein the workpiece mounting portion is rotatable within a plane including the moving direction. 6. The method of claim 5,
Wherein the workpiece mounting portion is provided with an elastic member for preventing rotation of the workpiece which is repeatedly subjected to curvature due to recoil. 6. The method of claim 5,
Wherein the movable workpiece mounting portion is connected to a slider movable on a rail provided on the frame.

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