KR200174956Y1 - Tensile load device - Google Patents

Abstract

The present invention relates to a tensile load imposing device of a specimen, and is intended to efficiently absorb the impact applied to the tensile load imposing device and to improve the stability of the device.

In order to achieve the above object, the present invention provides a base 1, a load cell 4 and a support 7 fixed to the base, a guide wheel 11 rotatably installed on the support, and a guide wheel. A weight 15 connected to one end of the chain, the both ends of the test sample 8 are fixed between the other end of the chain and the load cell, and then a tensile force is applied to the test sample with the weight of the weight; Configure a device configured to measure the tensile strength of the test sample,

In particular, a shock absorbing means 18 is provided below the weight 15 vertically, and a guide flange 16 for guiding the additional shock absorbing means is provided, and is applied to the shock absorbing means 18. Shock absorbing means (20) is provided between the shock absorbing means (18) and the base (1) so that a shock is not transmitted to the base (1).

Description

Tensile load device for corrosion test equipment

The present invention relates to a device that artificially corrodes a specimen such as steel and imposes a tensile load on the specimen, and protects the device from the impact of the tensile load generated at the moment the test specimen is cut. It is related to the configuration to be able to absorb efficiently.

In general, the tensile load imposing device is configured to simultaneously test the tensile force while advancing the specimen in combination with a corrosion apparatus that forcibly corrodes the specimen, and the amount of the specimen at a predetermined tensile strength for a period of about one week to one month. Pull the end to run the test until the specimen is cut.

The tensile load imposing device is configured to perform a tensile test by attaching a weight ranging from several hundred Kg to several thousand Kg at one end of the specimen after setting the specimen, so that the impact of the weight of the weight when the test specimen is broken As it is transmitted to the tension load imposing device, there is a problem in that a large impact is applied to the corrosion device of the specimen or noise is generated.

The present invention has been devised in view of the above problems, and further falls to absorb the shock generated when the specimen is cut during the tensile test. The shock absorbing means is installed at the position, and the shock absorbing means is provided with a guide means for guiding the falling weight accurately.

Further, the shock absorbing means and the base of the tensile load imposing device are configured to be movable up and down so that the load applied in the vertical direction to the shock absorbing means is not transmitted to the base of the tensile load imposing device.

Therefore, the object of the present invention is to absorb and minimize the impact of the weight applied to the tensile load imposing device to improve the durability of the device and to improve the stability.

1 is a configuration diagram showing a state in which a specimen is set in the tension-loading device of the present invention,

2 is a block diagram showing a state in which the specimen is cut by the added tensile load in the tension load imposing device of the present invention.

* Description of the symbols for the main parts of the drawings *

1-Base 2-Guide Stand

3-Load display panel 4-Load cell

6-Corrosion Device 7-Support

8-Psalm 9, 22-Arm

11-guide wheel 15-weight

16-Guide Flange 17-Shoap Shoba

18-shock absorbing means 22-shock absorbing means

24-chain

The present invention includes a base, a load cell fixed to the base, a support fixed to the base, a guide wheel rotatably installed on the support, a weight connected to one end of the chain through the guide wheel, Fixing both ends of the test sample between the other end of the chain and the load cell and the tension load imposing device configured to measure the tensile strength of the test sample by applying a tensile force to the test sample with the weight of the weight In

The shock absorbing means is provided in the vertical down of the weight, the guide means for guiding the additional shock absorbing means is provided, and the shock absorbing means so that the shock applied to the shock absorbing means is not transmitted to the base; Impact cushioning means is provided between the base.

Hereinafter, the structure and operation of the present invention will be described in detail with reference to FIGS. 1 and 2.

The tensile load imposing device of the present invention is provided with a guide stand 2, a load display panel 3 and a support 4 on the base 1, and the load display panel 3 is fixed with a load cell 4 and a specimen. Means 5a and 5b are connected to the formed corrosive device 6, which is secured to the support 7. An arm 9 is installed at the upper end of the support 7 in the horizontal direction, and the arm and the support are installed in a rotatable state by a predetermined angle via the fixing pin 10 and the guide wheel 11. In addition, a weight connecting rod 13 is connected to the end of the arm 9 so as to be rotatable by a predetermined angle about the connecting pin 12. A stopper 14 is installed at the lower end of the weight connecting rod 13, and the weight 15 is fixed by the stopper. In order to allow the weight 15 to move in the vertical direction without shaking, a guide flange (guide means: 16) for vertical movement guide of the weight connecting rod 13 is installed at the central portion of the weight connecting rod 13. The flange 16 is fixed with the guide stand 2. On the other hand, at the lower end of the stopper 14, that is, the position at which the weight 15 descends, the shock absorbing means 18 constituted by the show pressure shovel 17, the show pressure shovel support plate 19, and the like is provided. In addition, the support plate 19 of the shobbsoba is connected to the base 1, but is connected by the impact buffer means 20 so that the shock applied to the shock absorbing means is not transmitted to the base. The shock absorbing means is composed of an arm 22 and connecting pins 21a and 21b, and the arm 22 is configured to be rotatable around the connecting pin 21a and the connecting pin 21b. In addition, the upper part of the arm (9) is provided with a chain fixing part 23, the chain 24 having one end coupled to the chain fixing part is lowered along the surface of the guide wheel (11) rotatably installed and the other end. Is connected to the specimen fixing means 5a of the corrosion apparatus 6.

Fix both ends of the test specimen (sample: 8) between the specimen fixing means (5a) and (5b) of the tensile load imposing device configured as described above, and properly adjust the weight of the weight (15) according to the tensile load of the specimen. Measure the tensile load of the specimen. The tensile load applied to the specimen 8 is applied to the load cell, and is configured to measure the signal of the load cell and display it on the display screen of the load display panel 3.

In the process of measuring the tensile strength of the specimen 8 under the conditions as shown in FIG. 1, when the specimen is cut to bear the load, the equilibrium state of the tensile force of the specimen 8 and the load of the weight 15 is broken. ) Falls towards the impact absorbing means 18. The additional drop with a large load of several hundred Kg or more absorbs the shock in the shock absorber 17 of the shock absorbing means 18. The guide flange 16 guides the weight 15 to fall exactly on the shock absorbing means. The shock absorbing means first absorbs the impact of the weight, and the shock absorbing means 18 and the base 1 so that the remaining shock that is not absorbed is not transmitted to the main body where the corrosion device 6 or the like is installed. Between the shock absorbing means 20 is further installed. The impact buffer means 22 is composed of a connecting pin (21a) (21b) and the arm (22).

FIG. 2 is a view showing a state in which the weight 15 is separated toward the shows bar 17 in the state in which the specimen 8 is cut, and as shown in the figure, when the specimen 8 is cut through the chain 24. As a result, the load 9 in equilibrium, that is, the arm 9, which is horizontal, is inclined toward the weight 15 and falls further downward.

By providing the shock absorbing means 18, the shock absorbing means 20 and the guide flange 16 as described above, it is possible to effectively absorb the impact applied by the weight of the weight (15). And the stability of the device can be improved.

In addition, if the shock absorbing means 18 and the base 1 are fixed by the connecting pins 21a and 21b using the arm, the shock in the vertical direction that is not absorbed in the shock can be prevented from being transmitted to the base as it is.

The present invention is a device for measuring the tensile load of a new piece, after the test piece is cut, the pressure under the weight (15) in the downward direction to effectively absorb the shock generated when the additional drop that was holding the load and to prevent noise By constructing the shock absorbing means 18 and the shock absorbing means 20 composed of the show bar 17 or the like, it is possible to reduce the impact applied to the device and to secure the stability of the device.

In addition, by forming the guide flange 16 on the weight connecting rod 13 connected to the weight 15, it is possible to obtain an effect that can more stably absorb the impact of the weight.

Claims (1)

A base, a load cell fixed to the base and a support, a guide wheel rotatably mounted to the support, and a weight connected to one end of the chain through the guide wheel, the other end of the chain and the load cell In the tensile load imposing device of the corrosion test equipment configured to measure the tensile strength of the test sample by fixing both ends of the test sample in between and applying a tensile force to the test sample with the weight of the weight, The shock absorbing means is provided in the vertical down of the weight, the guide means for guiding the additional shock absorbing means is provided, and the shock absorbing means so that the shock applied to the shock absorbing means is not transmitted to the base; Tensile load imposing device of the corrosion test facility, characterized in that the shock absorbing means is provided between the base.