KR200338691Y1 - Apparatus for 4 point stress addition using screwbolt - Google Patents

Abstract

The present invention is a device for giving a four-point constant bending stress in a test that induces the occurrence of cracks in the interior of the specimen through corrosion by toxic gas under stress applied to the specimen. Unlike the one used, it is a 4 point constant stress adder that generates warpage of the specimen using screw bolts.

According to the present invention, it is possible to measure the measurement object directly in the field, so that accurate measurement value and inspection result can be obtained, and it is a device to give 4 point constant bending stress. In addition, by attaching a non-conductor at each contact point to eliminate the influence of conduction on the specimen during the test to improve the accuracy of the test, there is an effect of preventing the twisting of the stress during the use of the rotating guide pin.

Description

Apparatus for 4 point stress addition using screwbolt

The present invention relates to a 4 point constant stress adding device using a screw bolt, and in particular, cracks are generated in the test piece through corrosion by toxic gas in the state where a 4 point constant stress is added to the test piece. It is a device for giving a 4 point constant bending stress in the test to induce a 4 point constant stress adding device capable of generating warpage of a specimen by a simple method without using power.

Conventionally, in a stress adding device for inducing crack generation of a test piece, a load is applied using a motor that can rotate and shift as a device for applying a load to generate a constant stress. That is, in order to generate a load, the rotational motion of the motor is converted into a linear motion using a motor, and a load is applied, or a hydraulic pump is operated using the motor, and a load is applied using the hydraulic pressure generated by the hydraulic pump.

However, the stress-added device using the power inevitably has a problem that the components are complicated, and as a result, the manufacturing cost is increased and expensive.

The present invention is designed to solve the above problems, and aims to generate the deflection of the specimen in a simple manner by using a screw bolt without generating power to the stress adding device for giving a constant bending stress.

The non-conductor is attached to each contact with the test piece to remove the influence of the conduction on the test piece to increase the precision of the test, and to prevent the twisting of the stress during the use of the rotating guide pin.

1 is a front view of a four point constant stress adding device using a screw bolt according to the present invention.

Figure 2 is a plan view of a four-point constant stress adding device using a screw bolt according to the present invention.

<Description of Major Symbols in Drawing>

1. 4 point constant stress adding device

10. Support 20. Pressure member

30. Screw bolts 12, 22. Non-conductor

40. Anti-rotation guide pin 50. Dial gauge

The present invention to achieve the object of the above invention,

In the four-point constant stress adding device (1) which applies a load to the test piece (2) and tests crack generation,

A support 10 for fixing the test piece 2; A pressing member 20 in contact with the test piece to apply a load; A dial gauge 50 in contact with a lower portion of the test piece to measure the degree of warpage of the test piece 2 by the load of the pressing member 20; And a pedestal 60 for supporting the dial gauge 50, wherein the pressure member 20 has a screw bolt 30 installed therein to penetrate the support 10 in the center of the screw bolt 30. It is characterized by applying a load to the test piece (2) by rotation.

In addition, in order to eliminate the influence of the load on the visible specimen (2), the non-conductor (backlight, 12, 22) is provided at the contact portion of the pressing member 20 and the support 10 in contact with the specimen. It features.

In addition, the pressing member 20 is characterized in that it further comprises an anti-rotation guide pin 40 on both sides of the screw bolt 30 in order to prevent the twisting of the pressing member in the stress added by the rotation of the screw bolt.

Hereinafter, a configuration and an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of a stress adding device using a screw according to the present invention, Figure 2 is a plan view of a stress adding device using a screw according to the present invention.

As shown in Fig. 1 and Fig. 2, the support 10 has a lower opening, and both sides have a predetermined length of protruding shape. The test piece (2) is raised and fixed on the protruding portion to perform the stress test.

Non-conductors 12 are installed at both protruding portions of the support to come into contact with the test piece 2, which serves to perform a more precise measurement by eliminating the influence of the stress on the conduction during the test. The four points are the non-conductor 12 is installed on each projecting portion of the support 10, respectively, and the test piece 2 and both sides of the lower portion of the pressing member 20 to be described below and in contact with the test piece (2) Say the part you touch.

The non-conductor 12 and the pressing member 20 to which a constant stress is applied have a rectangular shape and apply a load to the test piece 2.

Non-conductors 22 are formed on both sides of the lower part of the pressing member 20 in contact with the test piece 2. The non-conductor 22, like the non-conductor 12 installed on the support 10, serves to eliminate the influence of the conduction against the test piece 2 in the stress-added test, thereby enabling more accurate measurement. .

The screw bolt 30 serves to apply a load to the test piece 2 by the pressing member 20, and is formed in the center of the pressing member 20 by penetrating the support 10.

By the rotation of the screw bolt 30, the pressing member 20 is lowered to the lower part with the test piece 2 to apply a load to the test piece (2).

Both sides of the screw bolt 30 is formed with an anti-rotation guide pin 40 to prevent the rotation of the pressing member 20. As shown, the anti-rotation guide pin 40 is also formed through the support 10.

That is, the bolt 42 is rotated by the rotation of the screw bolt 30, and the pressing member 20 also rotates with the rotation of the bolt 42. The anti-rotation guide pin 40 is pressurized in this way. This prevents the member 20 from rotating.

One side of the anti-rotation guide pin 40 is the bolt 42 is attached to the pressing member 20 is seated.

The dial gauge 50 measures the bending degree (displacement) of the test piece 2 when the dial gauge pin 52 contacts the lower portion of the test piece 2 and transmits the load by the pressing member 20.

A pedestal 60 for supporting the dial gauge 50 is formed at the lower portion of the dial gauge 50, and connecting members 62 are installed at both sides of the pedestal 60 to be connected to the support 10. Lose.

Next will be described the operation of the stress adding device using a screw bolt according to the present invention configured as described above.

First, the test piece 2 is placed over and fixed to the non-conductor 12 formed on the support 10. Then, the screw bolt 30 is rotated, and the bolt 42 formed on the support member 20 is rotated by the rotation of the screw bolt 30, and the support is rotated by the bolt 42. The member 20 is lowered to the bottom where the test piece 2 is located.

By the anti-rotation guide pin 40, the pressing member 20 is immediately lowered without rotating.

When the non-conductor 22 formed in the pressing member 20 is in contact with the test piece 2, once the rotation of the screw bolt 30 stops, zero adjustment of the dial gauge 50 (measurement) Reference point setting).

When the screw bolt 30 is continuously rotated after zero adjustment of the dial gauge 50, the non-conductor 22 of the pressing member 20 presses the surface of the test piece 2 and enters the dial gauge. 50 is to measure the degree of bending through the dial gauge pin 52 in contact with the test piece (2).

In the above description of the preferred embodiment of the four-point constant stress adding device using a screw bolt according to the present invention, the scope of the present invention is not limited thereto, but the scope of the utility model claims and the accompanying drawings in the various It is possible to carry out by modifying, and this also belongs to the scope of the present invention is natural.

According to the stress adding device using the screw bolt according to the present invention as described above, it is possible to measure the measurement object in the field to obtain accurate measured values and inspection results, without using power as a device for giving a constant bending stress A simple method using a screw bolt can cause warpage of the specimen.

In addition, by attaching a non-conductor at each contact point, it eliminates the influence of conduction on the test piece during the test, thereby improving the precision of the test, and by using the rotation guide pin, there is an effect of preventing the twisting of the stress.

Claims (3)

In the four-point constant stress adding device for applying a load to the test piece to test the crack generation, A support for fixing the test piece; A pressing member for applying a load in contact with the test piece; A dial gauge in contact with a lower portion of the test piece and measuring a degree of warpage of the test piece by a load of the pressing member; And Including a pedestal for supporting the dial gauge, The pressure member is a screw bolt penetrating the support is installed in the center is a four-point constant stress adding device using a screw bolt, characterized in that to apply a load to the test piece by the rotation of the screw bolt. The method of claim 1, 4. A four-point constant stress adding device using a screw bolt characterized in that a non-conductor is installed at the contact portion of the pressing member and the support in contact with the test piece so as to eliminate the influence of the load on the test piece. The method of claim 1, The pressing member is a four-point constant stress adding device using a screw bolt, characterized in that it further comprises an anti-rotation guide pins on both sides of the screw bolt to prevent the twisting of the pressing member when the stress is added by the rotation of the screw bolt.