KR101533940B1 - Loading apparatus for stress relaxation tester - Google Patents

Abstract

The present invention relates to an apparatus for applying load for a stress relaxation tester. According to the present invention, the apparatus for applying load for a stress relaxation tester capable of applying load to a specimen comprises: a supporting plate whose at least part of upper surface has a predetermined inclination; a moving plate whose lower surface has an inclination corresponding to the upper surface of the supporting plate, and prepared to be moved along the upper surface of the supporting plate; a movement control member connected to the moving plate, and to move the moving plate along the upper surface of the supporting plate; a load applying plate arranged in the upper surface of the moving plate and prepared to be lifted along movement of the moving plate, and to apply load to a load pin connected to the specimen; and a fixing part to mutually fix the load pin to the load plate in order to lift the load pin when the load applying plate is lifted. Therefore, provided is the apparatus for applying load for a stress relaxation tester having an effect of applying large load to a specimen with a small force while having a simple structure by vertically applying load to the specimen by movement of a moving plate due to rotation of a movement control member.

Description

[0001] LOADING APPARATUS FOR STRESS RELAXATION TESTER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a load applying device for a stress relaxation tester, and more particularly, to a load applying device for a stress relaxation tester that has a simple structure and can apply a large load to a test piece with a small force.

Recently, the maintenance and evaluation of the main equipment of nuclear power plant is recognized as a very important issue related to the safety of nuclear power plant. Among the facilities used in nuclear power plants, piping is the core equipment of the heat transport system, and the total length of the piping is about 80 km per unit of the power plant 1, which accounts for about 40% of the equipment. Damage to these pipes directly affects the safety of the nuclear power plant, so the strength and safety of the piping must be ensured during the entire lifetime.

It is necessary to study the characteristics of structural materials to ensure soundness because a large problem may arise in case of leakage accident in nuclear power plant. Efforts to evaluate the integrity through various tests and non-destructive tests including stress relaxation tests, and to predict and analyze the defects found in the tests are continuing.

Stress relaxation refers to a behavior in which a stress is applied to a viscoelastic material such as a rubber, and the stress is reduced with the lapse of time even when the strain is maintained. This is a relative concept to the creep, which refers to the characteristic that the deformation gradually increases over time when a constant load is maintained on the viscoelastic material.

The stress-relieving machine's load-adding device that performs this stress relaxation test should be able to effectively transfer a constant displacement to the specimen, and the fixed strain rate should not change for a long period of time.

1 is a view schematically showing a conventional load applying device for a stress relaxation tester. Referring to FIG. 1, a conventional stress relaxation tester 10 uses bolts and nuts to maintain the delivered load. In this case, when a large load is required, a considerably large force is required for operating the bolt or the nut.

It is therefore an object of the present invention to provide a load applying device for a stress relaxation tester which has a simple structure and can apply a large load to a test piece even with a small force.

The above object is achieved by an apparatus for applying a load to a specimen in a stress relaxation test of a specimen, comprising: a support plate having at least a part of an upper surface thereof having a predetermined inclination; A lower plate having an inclination corresponding to an upper surface of the support plate and movable along an upper surface of the support plate; A movement adjusting member connected to the moving plate and moving the moving plate along the upper surface of the supporting plate; A load applying plate disposed on the upper surface of the moving plate and movable up and down according to the movement of the moving plate to apply a load to the load pin connected to the specimen; And a fixing unit for fixing the load plate and the load pin so that the load pin is lifted and lowered when the load application plate is lifted or lowered.

The apparatus may further include a vertical guide member coupled to the load applying plate such that the load applying plate is vertically moved by the movement of the moving plate.

The vertical guide member passes through the load applying plate and is fixed to the support plate.

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The moving plate is provided with an insertion hole having a thread on the inner circumferential surface thereof. The movement adjusting member has a thread corresponding to the insertion hole formed on an outer circumferential surface thereof. The insertion hole is inserted into the insertion hole, .

Here, it is preferable that the moving plate is formed with a horizontal guide groove recessed along the moving direction from the other side.

Here, it is preferable that the moving plate further includes a guide portion for guiding the movement of the movement adjusting member when the moving plate is moved.

Here, it is preferable that the guide portion is protruded from the upper surface of the support plate.

According to the present invention, a load applying apparatus for a stress relaxation tester having a relatively simple structure and capable of applying a large load to a specimen with a small force is provided.

In addition, since the load applying device for the stress relaxation tester is firmly fixed to the stress relaxation tester, it is possible to prevent the reliability from being lowered due to the abnormal load change.

In addition, since the load applying plate is moved up and down when the moving plate is moved left and right by the vertical guide member, the load can be stably applied.

Further, since the movement adjusting member is moved up and down by a predetermined height when the moving plate is moved by the movement adjusting member, stable movement of the moving plate is possible.

1 is a view schematically showing a conventional load applying device for a stress relaxation tester,
FIG. 2 is a view schematically showing a stress relaxation tester to which a load applying device for a stress relaxation tester according to an embodiment of the present invention is applied,
3 is a front view of the load applying device for the stress relaxation tester of FIG. 2,
Figure 4 is an exploded perspective view of the load application device for the stress relaxation tester of Figure 2,
Fig. 5 is a view showing the operation of the load applying device for the stress relaxation tester of Fig. 2. Fig.

Prior to explanation, a stress relaxation tester to which a stress applying device for a stress relaxation tester according to an embodiment of the present invention is applied will be briefly described.

2 is a schematic view of a stress relaxation tester to which a load applying device for a stress relaxation tester according to an embodiment of the present invention is applied. Referring to FIG. 2, the stress relaxation tester 20 includes a lower frame 21 installed on a floor or a floor of a building, an upper frame 22 provided apart from the lower frame 21, A load cell 24 provided on the lower frame 21 and a lower jig 25 provided on the load cell 24 for fixing the lower end of the test piece, And an upper jig 26 for fixing the upper end of the specimen.

The load is applied to the upper jig 26 which fixes the upper end of the specimen through the load pin P passing through the load application device 100 for the stress relaxation tester and the upper frame 22, The load is measured from the load cell 24 on which the lower jig 25 is installed. When the strain of a specimen reaches a certain strain, it measures the change of load for a few hours to several months for a few months while maintaining displacement.

Hereinafter, a load applying apparatus for a stress relaxation tester according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 3 is a front view of the load applying device for the stress relaxation tester of Fig. 2, and Fig. 4 is an exploded perspective view of the load applying device for the stress relaxation tester of Fig. 3 and 4, a load applying apparatus 100 for a stress relaxation tester according to an embodiment of the present invention includes a support plate 110, a moving plate 120 that is seated on an upper surface of the support plate 110, A movement adjusting member 130 installed on one side of the moving plate 120, a load applying plate 140 mounted on the upper surface of the moving plate 120, a vertical guide member 140 mounted on the load applying plate 140, And a fixing unit 170 mounted on the guide 160 and the load applying plate 140 installed on the support plate 110. The fixing unit 170 is mounted on the support plate 110,

The support plate 110 is fixed on the upper surface of the upper frame 22 of the stress relaxation tester 20 to support the moving plate 120, the load applying plate 140, the load pins P, do.

At least a part of the upper surface of the support plate 110 is inclined. In the present embodiment, the area outside the area where the vertical guide member 150 is provided is inclined. The support plate 110 is firmly fixed to the upper frame 22 so that even when the load is applied to the load pin P and the specimen is deformed after the strain reaches the specific strain, The plate 120, the load applying plate 140, the load pin P, and the like are stably supported.

The moving plate 120 moves along the upper surface of the support plate 110 to vertically move the load applying plate 140 to apply a load to the specimen. The lower surface of the moving plate 120 has an inclination corresponding to the inclination of the upper surface of the supporting plate 110, and the upper surface of the moving plate 120 is provided as a flat plate. That is, the vertical surface of the moving plate 120 has a trapezoidal shape.

The moving plate 120 moves along the upper surface of the supporting plate 110 by the movement adjusting member 130 so that when the moving plate 120 moves along the upper surface of the supporting plate 110 3, the total height of the support plate 110 and the movement plate 120 is different. When the movable plate 120 moves along the upper surface of the support plate 110 to increase the total height, the load applying plate 140 rises and the load pin P rises to apply a load to the specimen.

On one side of the moving plate 120, an insertion hole 121 is formed so that the movement adjusting member 130 can be inserted. In the present embodiment, the moving plate 120 is screwed with the movement adjusting member 130, and a thread is formed on the inner peripheral surface of the insertion hole 121.

A horizontal guide groove 122 is formed on the other side of the moving plate 120, that is, on the opposite side of the side where the insertion hole 121 is formed, along the moving direction of the moving plate 120. The load pin P is installed through the upper frame 22, the support plate 110, the moving plate 120, and the load applying plate 140. The load pin P penetrates the moving plate 120 through the horizontal guide groove 122 and the horizontal guide groove 122 is recessed along the moving direction of the moving plate 120 to move the moving plate 120 It is not affected by the load pin P.

The movement adjusting member 130 is configured to move the moving plate 120. The movement adjusting member 130 is inserted into the insertion hole 121 of the moving plate 120 through the guide portion 160.

In this embodiment, a thread is formed on the outer circumferential surface of the movement regulating member 130 to be screwed with the moving plate 120, and the moving plate 120 is moved by rotating. That is, the total height of the support plate 110 and the movement plate 120 is changed according to the rotation of the movement plate 120.

Although the movement regulating member 130 and the moving plate 120 are screwed together in this embodiment, the present invention is not limited thereto as long as the moving plate 120 can be moved.

When the movement adjusting member 130 rotates to change the total height of the support plate 110 and the movement plate 120, the position of the insertion hole 121 is also changed. However, the movement adjusting member 130 can be moved up and down along the guide groove 161 of the guide portion 160 to cope with a change in the position of the insertion hole 121.

The movement adjusting member 130 rotates to move the moving plate 120 and moves up and down along the guide groove 161 by the change of the position of the insertion hole 121 due to the movement of the moving plate 120 do.

The load applying plate 140 is configured to apply a load to the specimen by being moved up and down by the movement of the moving plate 120. The load applying plate 140 is provided in the form of a flat plate and is seated on the upper surface of the moving plate 120.

The load applying plate 140 is fixed to the load pin P by the fixing portion 160. Accordingly, when the moving plate 120 moves and the load applying plate 140 vertically moves, the load is applied to the specimen by lifting the load applying plate 140 and the load pin P fixed thereto.

The vertical guide member 150 restricts the movement of the moving plate 120 in the moving direction so that the load applying plate 140 is lifted and lowered vertically. Since the load applying plate 140 is seated on the upper surface of the moving plate 120, when the moving plate 120 moves along the upper surface of the supporting plate 110, the load applying plate 140 can move together. In this case, the reliability of the stress relaxation test is lowered because the load is applied abnormally. In the present embodiment, the vertical guide members 150 are provided in pairs and are installed through the load application plate 140 and fixed to the support plate 110.

The movement of the load applying plate 140 in the lateral direction is restricted by the vertical guide member 150 and the load applying plate 140 is moved up and down along the vertical guide member 150 when the moving plate 120 is moved.

The vertical guide member 150 is fixed to the support plate 110 through the load application plate 140. The vertical guide member 150 may be installed to interconnect the load application plate 140 and the upper frame 22 The present invention is not necessarily limited to this, provided that the load applying plate 140 is not moved to the right or left.

The guide unit 160 is configured to guide the movement control member 130 to move up and down when the moving plate 120 is moved. The guide portion 160 is formed with a guide groove 161 that is vertically recessed and is installed on the upper surface of the support plate 110. The guide portion 160 is installed in a plane region of the upper surface of the support plate 110 and the movement adjusting member 130 is inserted into the insertion hole 121 through the guide portion 160 through the guide groove 161, .

When the moving plate 120 moves by adjusting the movement adjusting member 130, the height of the insertion hole 121 is changed. That is, the insertion hole 121 is formed at a predetermined position of the moving plate 120. When the moving plate 120 moves, the height from the upper surface of the upper frame 22 is changed. In other words, when the total height of the support plate 110 and the movement plate 120 is increased, the position of the insertion hole 121 is also increased. However, when the movement regulating member 130 disposed in the guide groove 161 moves along the guide groove 161 in accordance with the height change of the moving plate 120, do.

The fixing portion 170 fixes the load applying plate 140 and the load pin P to each other. When the load applying plate 140 moves upward due to the movement of the moving plate 120 and the load pin P and the load applying plate 140 are not fixed to each other, In the present invention. In this case, there is a problem that the load is unusually applied to the load pin (P) or the load is not applied.

However, since the load applying plate 140 and the load pin P are fixed by the fixing unit 170, when the load applying plate 140 is lifted and lowered, the load pins P are lifted and lowered together to apply a load to the specimen.

Hereinafter, the operation of a load applying device for a stress relaxation tester according to an embodiment of the present invention will be described.

A load pin P is installed through the upper frame 22 and the support plate 110 fixed on the upper surface of the upper frame 22 and then the load pin P and the upper jig 26 for fixing the specimen are mounted. Lt; / RTI >

Thereafter, the moving plate 120 and the load applying plate 140 are sequentially installed on the upper surface of the supporting plate 110, and the load applying plate 140 and the load pin P are fixed through the fixing portion 170 .

Fig. 5 is a view showing the operation of the load applying device for the stress relaxation tester of Fig. 2. Fig. Referring to FIG. 5, when the movement adjusting member 130 is rotated, the moving plate 120, which is screwed with the movement adjusting member 130, moves along the upper surface of the support plate 110.

The total height of the support plate 110 and the movement plate 120 is raised by the movement of the movement plate 120 and at the same time the movement control member 130 is lifted along the guide groove 161. In addition, since the load applying plate 140 is limited in the lateral movement by the vertical guide member 150, the load applying plate 140 is raised only in the vertical direction.

When the load applying plate 140 rises, the fixed load pin P rises together and a load is applied to the specimen.

When the strain of the specimen reaches a specific strain by applying a load by the rotation of the movement adjusting member 130, the displacement is maintained.

Therefore, according to the present invention, by applying the load in the vertical direction to the specimen from the movement of the moving plate by the rotation of the movement adjusting member, the load for the stress relaxation tester having a simple structure and applying a large load to the specimen with a small force Device is provided.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: Load applying device for stress relaxation tester
110: support plate 120: moving plate
130: movement adjusting member 140: load applying plate
150: vertical guide member 160:
170:

Claims (8)

An apparatus for applying a load to a specimen during a stress relaxation test of the specimen,
A support plate having at least a part of an upper surface thereof having a predetermined inclination;
A lower plate having an inclination corresponding to an upper surface of the support plate and movable along an upper surface of the support plate;
A movement adjusting member connected to the moving plate and moving the moving plate along the upper surface of the supporting plate;
A load applying plate disposed on the upper surface of the moving plate and movable up and down according to the movement of the moving plate to apply a load to the load pin connected to the specimen; And
And a fixing unit for fixing the load plate and the load pin so that the load pin is lifted and lowered when the load application plate is lifted and lowered. The method according to claim 1,
Further comprising a vertical guide member coupled to the load applying plate such that the load applying plate is vertically lifted by the movement of the moving plate. 3. The method of claim 2,
Wherein the vertical guide member passes through the load applying plate and is fixed to the support plate. delete The method according to claim 1,
Wherein an insertion hole is formed on one side surface of the moving plate to form a thread on an inner circumferential surface thereof,
Wherein the movement adjusting member is formed with a thread corresponding to the insertion hole on an outer circumferential surface thereof and is inserted into the insertion hole to move the moving plate. 6. The method of claim 5,
Wherein the moving plate is formed with a horizontal guide groove recessed along the moving direction from the other side. The method according to claim 6,
Further comprising a guide portion for guiding the up and down movement of the movement adjusting member when the moving plate is moved. 8. The method of claim 7,
Wherein the guide portion is protruded from the upper surface of the support plate.

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