KR19980016696U - Cylindrical holder attached to tensile tester - Google Patents

Abstract

The present invention fixes the cylindrical holder to the holder which fixes both ends of the optical fiber to the tensile tester, so that when the optical fiber is cut according to the tensile strength test, the normal part is always cut so that high-precision test data can be obtained. It relates to a cylindrical holder attached to the tester.

The configuration of the present invention, a plurality of cylindrical bridle 32; A fixed rod 34 fixed to each holder 12 and 22 of the tensile tester at the center of the outer circumferential surface of each bridle 32; It is characterized by consisting of a double-sided tape (36) attached to the periphery of the outer peripheral surface of each of the bridles 32, the end of the fiber to be subjected to the tensile test to the outer surface is wound and attached.

Description

Cylindrical holder attached to tensile tester

The present invention relates to a cylindrical holder attached to a tensile tester, and more particularly, by fixing a cylindrical holder to a holder for fixing both ends of the optical fiber to the tensile tester, when the optical fiber is cut according to the tensile strength test, always the normal site The invention relates to a cylindrical holder attached to a tensile tester which allows cutting to obtain a high degree of test data.

In general, fibers should have the required tensile strength, depending on the nature of the field in which they are used. In particular, the optical fiber to which the optical signal is transmitted must have adequate strength to ensure the minimum life after laying the cable as the glass material. If the tensile strength of a certain part is damaged or cut after the optical fiber is laid, it is impossible to transmit the optical signal.

Therefore, it is necessary to undergo a tensile test to confirm that the manufactured optical fiber has a proper tensile force, but because the optical fiber is made of glass material, it is very difficult to fix both ends of the optical fiber during the tensile test. For this reason, a specific jig has been developed to easily fix both ends of the optical fiber to facilitate the tensile test.

As described above, the conventional tensile tester for testing the tensile strength of the optical fiber (including fibers) is provided with holders 12, 22 for fixing both ends of the optical fiber as shown in FIG. 12 is fixed to the fixed plate 10, the other holder 22 is installed on the movable plate 20 installed to move horizontally or vertically and moves together. Each of the holders 12 and 22 is divided into two sides, and the adjustment levers 13 and 23 provided on one side thereof can adjust the spacing.

Therefore, when it is necessary to fix both ends of the optical fiber for the tensile test, and the holder 12 installed on the fixed plate 10 and the holder 22 installed on the movable plate 20 to widen the interval between the control lever (13) (23) Then, the two ends of the optical fiber is positioned therebetween, and then, by using the control levers 13 and 23 again, the interval between the holders 12 and 22 is narrowed to fix both ends of the optical fibers located therebetween. As such, when both ends of the optical fiber are fixed, the movable plate 20 is moved to perform a tensile test of the optical fiber.

When the tensile test is carried out, the optical fiber is stretched and is cut if it is stretched beyond the limit of the tensile force of the optical fiber. Therefore, the tensile strength of the optical fiber can be known based on the tensile length and the applied force to the limit value.

By the way, when the optical fiber is cut by the tensile test as described above, the cutting part is most preferably cut at the intermediate part between the holder of the fixed plate and the holder of the movable plate, but in the tensile test, the optical fiber starts to be snapped into the holder. Most parts are cut off. Due to this phenomenon, it is impossible to measure the exact tensile force of the optical fiber, because such a force is applied to the optical fiber as the shear force to the holder to fix the optical fiber. That is, the portion where the tensile stress and shear stress generated when the optical fiber is tensioned is the part where the optical fiber is started to be snapped to the holder.

Therefore, when fixing both ends of the optical fiber, it is necessary to prevent stress from concentrating on the fixing portion so that the accurate tensile force of the optical fiber can be measured.

The present invention was devised to solve such a conventional problem, and its purpose is to wound and fix both ends of the optical fiber by a cylindrical holder, so that the normal part is cut when the optical fiber is tensioned and cut by the tensile strength test. Therefore, high tensile test data can be obtained.

1 is a front view showing a state in which the holder of the tension tester according to the prior art fixed both ends of the optical fiber.

Figure 2 is a front view showing that the cylindrical holder is installed in each holder of the tensile tester according to the present invention.

3 is a perspective view of a cylindrical holder showing a state in which both ends of the optical fiber is fixed to the cylindrical holder according to the present invention.

Figure 4 is a side view showing a state in which the optical fiber is fixed to the cylindrical holder.

*** Explanation of symbols for main parts of drawing ***

10: fixed plate 12, 22: holder

13, 23: control lever 20: movable plate

30: cylindrical holder 32: bridle

34: fixed rod 36: double-sided tape

Means for achieving the object of the present invention, a plurality of cylindrical bridle;

A fixed rod fixed to each holder of the tensile tester at the center of the outer circumferential surface of each bridle;

It is attached to the periphery of the outer periphery of each of the bridle, characterized in that consisting of a double-sided tape is wound around the end of the optical fiber is attached and fixed.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Referring to Figure 2, Figure 2 is a front view showing the cylindrical holder 30 is installed in the holder 12, 22 of the tensile tester according to the present invention, the fixed plate 10 and the movable plate 20 of the tensile tester Holders 12 and 22 are provided, respectively, and cylindrical holders 30 are fixed to each holder 12 and 22.

3 and 4, the cylindrical holder 30 is provided with a fixed rod 34 which is bitten and fixed to each holder 12 and 22 of the tensile tester at the center of the outer peripheral surface of the cylindrical bridle 32. , The double-sided tape 36 is attached to the outer circumferential surface of the bridle 32, and the end of the optical fiber is wound around it and fixed. At this time, since the optical fiber is made of glass, the diameter of the cylindrical holder 30 must be 150 mm or more so that the optical fiber to be wound is not damaged.

When installing the cylindrical holder 30 having such a structure, the adjustment levers 13 and 23 adjust the distance between the holders 12 and 22 provided on the fixed plate 10 and the movable plate 20. (23), and between the fixing rod 34 of the cylindrical holder 30 in between, and tightening the holder 12, 22 using the adjustment lever (13) (23) again fixing rod (34) Fix it.

As described above, when the cylindrical holder 30 is fixed to the holders 12 and 22 of the fixed plate 10 and the movable plate 20, both ends of the optical fiber to be tested are wound on the outer circumferential surface of the bridle 32 of the cylindrical holder 30. . At this time, since the double-sided tape 36 is attached to the outer circumferential surface of the bridle 32, the optical fiber wound around the bridle is fixed to the double-sided tape 36.

When both ends of the optical fiber is fixed as described above, the movable plate 20 is operated to perform the tensile test of the optical fiber.

According to the present invention as described above, the holder for fixing the end of the optical fiber is formed in a cylindrical shape, the optical fiber is gently wound, and both ends of the wound optical fiber is bonded by the adhesive force of the double-sided tape attached to the outer peripheral surface of the cylindrical brim When the optical fiber is tensioned by fixing, stress does not occur at the contact portion between the optical fiber and the cylindrical shaft. Therefore, in the tensile strength test, since the optical fiber is always cut at the normal cutting position, that is, at both ends of the optical fiber, there is an advantage of obtaining high tensile test data of the optical fiber.

Cylindrical holder attached to the tensile tester according to the present invention is described for illustrative purposes only and those skilled in the art can implement a variety of modifications and applications based on the present specification, such modifications Examples or applications are found to be included in the true spirit and scope of the inventors intended and the scope of the utility model registration claims prescribed below.

Claims (1)

A plurality of cylindrical bridles 32; A fixed rod 34 fixed to each holder 12 and 22 of the tensile tester at the center of the outer circumferential surface of each bridle 32; Cylindrical holder attached to the tensile tester, characterized in that consisting of a double-sided tape (36) attached to the periphery of the outer circumferential surface of each of the bridles 32, the end of the fiber to be tested on the outer surface is wound and attached.