KR101286387B1 - Bend test apparatus of flat surface shaped body - Google Patents

Abstract

<Problem> It is to provide the bending test apparatus of the planar body which can test repeatedly the test subject which is a wide planar body by arming force.
<Solution> Protrude inwardly with the swing shaft oscillating in the same direction from the columns on both sides, and sandwich the test object with a planar body between the swing shafts to fix the two arms upward in the same phase. And a fixing clamp for fixing the upper portion of the test object to the tip of the arm, and a bracket for holding two rollers in a front-rear arrangement in the inner side of the arm, the center of gravity of the roller shaft and the swing shaft. The shaft is fixed concentrically, and the test object is extended downwards between the rollers, and the lower end is connected to a movable clamp which is urged downward so as to descend to a spring or its own weight, while the outside of the test object is inside the bracket. The tension clamp and the movable clamp are provided between the rollers via a tension absorbing strap for maintaining the test object under arm swing and without tension. Connect.

Description

Bent TEST APPARATUS OF FLAT SURFACE SHAPED BODY}

This invention relates to the bending test apparatus of the thin planar body which has a predetermined | prescribed width and length. As such a planar body, there exist a liquid crystal display panel, an organic electroluminescent panel, a solar cell panel, etc., and the width may exceed 1 m. These planar bodies are bent during manufacture, transportation, storage, and construction, but are generally armed forces that do not receive tensile or compressive forces when they are bent. For this reason, it is necessary to test the durability by carrying out the bending test with no force.

The present applicant first proposes a test apparatus that can simultaneously test bending and twisting of a linear body such as a cable, a seat belt, and a cord by armless force in Patent Document 1 below. However, since the planar body has a considerably wider width as described above, it is not possible to test bending and warping in this manner, and at the same time, it cannot.

Japanese Patent Application No. 2011-8649

The present invention provides a bend test apparatus that can bend a planar body having a considerable width and length by force.

To this end, in the present invention, as described in claim 1, the test object protruding inwardly with concentric oscillation shafts swinging in the same direction from the columns on both sides, and sandwiching a test object having a planar body between the oscillation shafts, 2 The two arms are fixed upward in the same phase, and a fixing clamp for fixing the upper part of the test object to the top of the arm, and the two rollers in the front and rear of the arm in the front and rear arrangement The bracket is fixed at the center of the shaft center of the roller and the shaft center of the swing shaft concentrically, and the test object is extended downwards between the rollers, and connected to a movable clamp which is pushed downward to lower the spring to its own weight. On the other hand, a tension-absorbing strap which keeps the test subject under arming force and the outside of the test subject from the inside of the bracket is passed between the rollers. Is provided by the bending test apparatus of the body surface, characterized in that the connection to the fixed clamp and the movable clamp.

Moreover, in this bending test apparatus, as described in Claim 2, the means by which two tension absorption straps are provided on both sides of a test object, as described in Claim 3, the tension absorption strap is rigid It is high and provides the means whose thickness is substantially the same as the thickness of a planar body.

When the object under test is clamped with an upper fixing clamp connected to the arm, the arm swings and bends with two rollers. The planar body is wound on the roller, and the circumferential length becomes longer than when it is straight. At this time, since the distance between the fixed clamp and the mid point (swing shaft) of the roller is constant, the length of the roller and the movable clamp is slightly but shortened, and the test object cannot be maintained without tension unless the movable clamp rises by that much. It is the tension absorbing strap that enables this, and the movable clamp is pulled up to maintain the subject under tension. On the other hand, when the arm returns to the top and the test object is straight, the test subject is loose unless the movable clamp is lowered in reverse.

Therefore, at this time, the movable clamp is pulled downward by the downward biasing force, but the movable clamp is lowered only to a predetermined position (the position to hold the subject under armless force) by the tension absorbing strap. Is maintained at armed force regardless of swing angle or speed.

1 is a front view of a test apparatus.
2 is a sectional view taken along the line AA in Fig.
3 is a cross-sectional side view showing the relationship between the test object and the roller.
It is explanatory drawing which shows an example of rocking rotation of a rocking shaft.
5 is a partial cross-sectional view showing the state of the clamp.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described with reference to drawings. 1 is a front view of a bending test apparatus showing an example of the present invention, FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1, and FIG. 3 is a cross-sectional view showing the relationship between the test object and the roller, but the tester is a frame. The column 1, two arms 2 extending upward from the inside of the column, and a fixing clamp 4 which is installed at the tip between the arms 2 and fixes the upper end of the test object 3 which is a planar body. ) And a movable clamp 5 or the like provided between the columns 1 on both sides (this direction is called a left and right direction) to be movable up and down to clamp the lower end of the test object 3.

In this case, the arm 2 is fixed to the bracket 6 by welding, bolting, or the like, and one of the brackets 6 is swinged by the swing shaft 8 driven by the drive device 7. The other bracket 6 also oscillates in synchronism with the one bracket 6, and therefore, the other bracket 6 is moved in the column 1 by a transmission structure 10 such as an orthogonal gear 9 or the like. It is told. The bracket 6 is provided so that a set of rollers 11 can be rotated at predetermined intervals from the shaft center of the swing shaft 8 so as to be able to rotate at predetermined intervals. (3) is inserted with some margin.

Both the fixed clamp 4 and the movable clamp 5 clamp the test object 3, and are fixed by, for example, screwing or fitting. Among these, the movable clamp 5 is able to move up and down with respect to the column 1. In the fixed clamp 4 and the movable clamp 5, two tension absorbing strings (hereinafter, referred to as strings) 12 are pulled over the rollers 11 on both sides of the test object 3. When the arm 2 is swung, the space between the fixed clamp 4 and the movable clamp 5 is invariably maintained and the test object 3 is held unarmed. In this respect, the length of the string 12 is determined by the test object ( It is set to correspond to the length which keeps 3) the tensionless force.

On the other hand, although the movable clamp 5 can be moved up and down above, in the present invention, the strap 12 is connected to the movable clamp 5 and the bracket 18 supporting the movable clamp 5 is provided. It is urged downward with a regular spring (not shown) so that it can slide up and down with respect to the column 1 (it may depend on self weight). In addition, since the movement of the movable clamp 4 up and down (particularly, the downward movement) has to be agile when the bending is performed at high speed, the spring is made somewhat strong. Moreover, it is preferable that the string 12 has high rigidity, and both strings need to be the same.

Although FIG. 4 is explanatory drawing of the drive apparatus 7 for rocking the rocking shaft 8, although the structure which rockes the rocking shaft 8 may be any structure, For example, above (or, The disk 13 to be forcibly rotated downward, a cam follower 14 is suspended from the disk 13, and the cam follower 14 and the pivot shaft 8 are connected to each other. When it connects with the body 15, the oscillation shaft 8 oscillates by rotation of the disk 13 in a fixed direction. At this time, the cam follower 14 must change the position of the cam follower 15 in accordance with the rotation of the disc 13, but the long hole for adjusting the position of the cam follower 14 in the connective body 15 ( 16) may be formed. Moreover, if the groove | channel through which the cam follower 14 inserts is made into the hole 17 long in the radial direction, the swing angle can be changed.

Fig. 5 is a cross-sectional view showing an example of the state of the clamp of the test object 3 by the fixed clamp 4 and the movable clamp 5, but the cases 4a and 5a of the U-shaped body having the center side open, respectively. ), The test object 3 is inserted into these cases 4a and 5a, and it can be considered to clamp tightly by clamping tools 19, such as a bolt, from one surface of the cases 4a and 5a. In this case, in order not to damage the test object 3, it is preferable to apply the buffer 20, such as soft resin and rubber | gum, on both surfaces. In addition to this, it is conceivable to insert the test object 3 entirely, such as a strong fit.

Next, the bending test of the test object 3 which is a planar body will be explained. The upper and lower sides of the test object 3 are clamped to the fixed clamp 4 and the movable clamp 5, and the disc 13 is rotated to rotate the swing shaft. Rotate and swing (8). In this case, the arm 2 and the bracket 6 swing, the fixed clamp 4 also swings, and the test object 3 is repeatedly bent back and forth to achieve the durability test. The test object (3) is maintained at an armed force due to the presence of That is, when bent, the movable clamp 5 is tensioned upward with the string 12, and the movable clamp 5 is tensioned with a spring and lowered downward, but does not descend beyond the length of the string 12. In this respect, the strap 12 also serves as a stopper for restricting the movable clamp 5 from lowering more than necessary. Of course, the fluctuation of the repetition is counted the number of times.

When the bending position is to be changed, the position of the fixing clamp 4 can be changed with respect to the arm 2, and this may be changed. In addition, you may substitute in the spring which drives the movable crank 5.

1 column 2 arms
3 Test Subject 4 Clamp
4a case of clamp
5 Movable clamp 5a Case of movable clamp
6 Bracket
7 drive unit
8 oscillating shaft 9 orthogonal gear
10 motorized structure
11 roller 11a roller shaft
12 Tension Absorption Strap
13 discs
14 cam follower 15 junction
16 long holes 17 long holes
18 Bracket 19 Clamp Tool
20 cushioning material

Claims (3)

The two test pieces are projected to the inside with concentric swinging shafts swinging in the same direction from the columns on both sides, and the two arms are fixed upwards in phase with the swinging shaft interposed therebetween. A fixing clamp for fixing the upper part of the subject under test is installed at the tip, and the bracket for holding the two rollers in the front and rear arrangement in the inner side of the arm is fixed with the center of the shaft center of the roller and the shaft center of the swing shaft concentrically. The test object is extended downwards between the rollers, and the lower end is connected to a movable clamp which is urged downward to lower the spring or the weight thereof, while the outside of the test object is moved from the inside of the bracket to the arm swing. In between, between the tension absorbing straps to maintain the tension without connecting the fixed clamp and the movable clamp through the roller Bending test apparatus of the upper surface of. delete delete

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