KR950008217Y1 - Tensile fatigue tester - Google Patents

Abstract

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Description

Tensile Repeated Fatigue Tester

1 is a front view of the present invention.

2 is a perspective view of the sample holding device and the tension load applying device shown in FIG.

* Explanation of symbols for main parts of the drawings

2, 2 ': sample fixing mechanism 3: driving mechanism

4: control box 5, 5 ': slider

7, 7 ': sample holder 8, 8': sample holding plate

18: sample vibration control plate 19: thermostat

The present invention is directed to a tensile fatigue tester capable of testing repeated long fatigue for the dynamic load of all samples under chemical conditions regardless of the shape and size of the sample.

Conventional tensile fatigue testers for dynamic loads include demattia Fatigue Tester, rubber belt tester, disc fatigue tester, and tube tester. All of them were limited to the sample to be measured, and only the samples having a certain size could be fixed. Therefore, the size of the samples had to be adjusted to the tester's sample size, and each of the testers had a separate thermostat. Since it was not possible to test by changing the measurement conditions such as in a specific solution or at a specific temperature, and also because the load was applied to the sample only at a constant speed, it was not possible to test it by changing the vibration conditions on the sample. There was this.

In addition, JP-A-61-24643 discloses a parallel static displacement fatigue test device, which has a fixed side test piece and a load side test piece for fixing several test pieces in parallel. It has a drive mechanism for reciprocating the load side test piece part according to the set amplitude and setting period.A load detection device such as a load cell for load detection is provided between the load transmission member on the drive side and the load side test piece part. Although it has the advantage of being able to test at the same time, the specimens had to be prepared at fixed intervals at the fixed side and the load side of the specimen, and since they do not have a thermostat, they can be tested by changing the measurement conditions such as in a specific solution or at a specific temperature. Not only could it be done, but even if a thermostat was provided, A test piece there is a problem that can not be tested going to vary the measurement conditions as described above, since there can was placed in a constant temperature bath.

The present invention solves all the problems of the conventional tester and test apparatus, the object of the present invention is to eliminate the hassle of having to prepare a sample only a certain size by allowing to arbitrarily adjust the distance between a set of sample holding mechanism Of the final product made of the sample to be measured, such as a tire cord, by arranging a thermostat under the sample fixing mechanism, which is connected to a temperature controller, and can contain various solutions, and allowing the sample fixed to the sample fixing mechanism to be placed in the thermostat. To provide a tensile repeat fatigue tester that can be tested under conditions similar to those used.

Hereinafter, the present invention will be described in more detail by way of example.

The present invention, as illustrated in Figs. 1 and 2, is located on one set of sample holding mechanisms 2 and 2 'positioned on one upper side of the main frame 1 and on the other upper side of the main frame 1. It consists of a drive mechanism (3) and a control box (4).

The specimen holding mechanisms (2) and (2 ') are extended from the lower ends of the bridges (6) and (6') and the bridges (6) and (6 ') extending long below the sliders (5) and (5'). Sample holders (7) and (7 ') extending horizontally toward the sample holder, and sample holding plates (8) and (8') assembled on the sample holders (7) and (7 '). ), (7 '), and sample holding plates (8) and (8') are provided with screw holes (10) and (10 ') to which fastening means (9) and (9'), such as a set screw, are fitted. .

The slider 5 'of one of the specimen holding mechanisms 2' is movably fitted to an angle 11 fixed on the main frame 1, and a fastening means 12 such as a set screw is provided to fix the position. A screw hole 13 to be fitted is formed.

In the center of the slider (5) of the other sample holding mechanism (2) can be slidably fitted to the slide guide rod (15) supported at both ends by the brackets (14) and (14 ') at the angle (11). A hole 16 is penetrated, and the slider 5 is connected to the driving mechanism 3, which will be described later, and one side of the sample vibration width adjusting plate 18 having several adjustment holes 17 drilled at regular intervals is fixed. have.

Under the sample holding mechanisms (2) and (2 '), there is provided a thermostat (19) containing various solutions so that the sample to be measured can be measured even in various solutions. The jack 20 is capable of raising and lowering toward the sample on which both ends are fixed to the sample holding mechanisms 2 and 2 ', respectively, and the lower support 21 of the mechanical jack 20 is the main frame. At the bottom of (1), the upper support 22 is fixed to the bottom center of the thermostat 19, respectively, and the operation handle 23 of the mechanical jack 20 extends out of one side of the main frame 1. .

The drive mechanism 3 is composed of a drive motor 24 and a reducer 25. The crank 27 is fixed to the output shaft 26 of the reducer 25, and the crank 27 of the connecting rod 28 One end is supported, and the other end of the connecting rod 28 is provided with a bolt, nut, or the like through an adjusting hole 17 of the sample vibration width adjusting plate 18 fixed to the slider 5 of the sample fixing device 2. It is connected to the sample vibration control plate 18 by fixing means 29 and 29 '.

The control box 4 includes a speed controller 30 of the drive motor 24, a temperature controller 31 connected to a heating means and a temperature sensor omitted from the thermostat 19, and an output shaft 26 of the reduction gear 25. The vibration frequency counter 32, and the power supply switch 33 of the sample to be measured can be represented by the number of revolutions.

In the drawings, reference numeral S denotes a sample to be measured.

Referring to the effect of the present invention configured as described above are as follows.

In the present invention, as illustrated in FIGS. 1 and 2, the slider 5 'of one of the specimen holding mechanisms 2', to which one end of the sample S to be measured is fixed, is represented by a dashed line from the angle 11. Since the clamping means 9 'can be fixed at the moved position in the state of being fitted in the movable position, the distance between the sample holding mechanisms 2 and 2' is adjusted to the length of the sample to be measured. Can be tailored to eliminate the conventional hassle to prepare the sample to be measured (S) only a certain size.

The sample holding mechanisms 2 and 2 'are provided with sliders 5, 5', bridges 6, 6 ', and sample holders 7, 7' and the sample holding plate 8, respectively. (8 '), a thermostat (19) connected to the temperature controller (31) and containing various solutions at the end of the bridge (6), (6') of the sample holding device (2), (2 ') It is possible to move up and down toward the sample (S) to be fixed between the sample holder (7), (7 ') and the sample holding plate (8), (8'). You can test it as you go.

In addition, the present invention, as specifically illustrated in Figure 2, the sample holding mechanism (2), (2 ') to tighten or loosen both ends of the sample (S) to be measured by the tightening means (9), (9') It has a plate-shaped sample holder (7), (7 ') and a sample holding plate (8), (8'), so that all samples having different shapes such as seals, plastic pipes, rubber plates, and synthetic films can be used. Can be fixed and tested

Since the tester according to the present invention is not limited to the shape or size of the sample to be measured, it is possible to test various types of samples, and the test preparation operation is very simple, and it is possible to test by changing the temperature. Since the sample can be tested while immersing in various solutions, there is an advantage that it can be tested under various conditions similar to the actual conditions of use of the final product made of the sample to be measured.

Claims (1)

One sample fixing mechanism connected to the driving mechanism (3) in a linear reciprocating load of a sample holding mechanism in which both ends of the sample to be measured are reciprocated by an electric driving mechanism to give a cyclic tensile load to the sample. A slider 5 having a hole 16 into which the slide guide rod 15 is fixed to the angle 11, a bridge 6 extending below the slider 5, and the bridge ( 6) A sample holding plate (7) extending in the horizontal direction from the end, and the sample holding plate (8) coupled to the sample holder (7) and the tightening means (9), the other sample holding mechanism (2 ') Slider 5 'secured by tightening means 12 in a fitted state to be able to move along angle 11, bridge 6' elongated below this slider 5 ', and ridge 6'. Pressing the sample coupled to the sample holder (7 '), the material holder (7') and the tightening means (9 ') extending horizontally from the end (8 '), a repetition furnace characterized in that the thermostat 19, which is raised and lowered by a normal mechanical jack 20, is provided directly below the sample holding mechanisms 2 and 2'. Testing machine.