KR101465345B1 - Apparatus for testing specimen having curved circumference - Google Patents

Abstract

The present invention relates to an apparatus for testing a specimen having a curved surface, in which a flat shaped specimen having a curved surface is experimented, the apparatus including: a base plate; a plurality of pressurizing parts installed on the base plate facing each other to apply surface pressure to the specimen; and a movement limiting part to limit the specimen from moving in a thickness direction of the specimen, wherein the movement limiting part includes a plurality of lower supporting parts extending from the pressurizing parts to a center of the specimen to support a lower surface of the specimen, and a plurality of upper support parts extending from the pressurizing parts to a center of the specimen and spaced apart from an upper part of the lower supporting part so that the specimen is accommodated between the lower supporting part and the upper supporting part. Therefore, according to the present invention, the apparatus for testing a specimen having a curved surface, which measures a transformation characteristic of the specimen occurring when a weight is applied to a large sized specimen having a curved circumference, and secures highly reliable data, can be provided.

Description

[0001] APPARATUS FOR TESTING SPECIMEN HAVING CURVED CIRCUMFERENCE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test apparatus for a specimen having a curved surface, and more particularly to a test apparatus for a specimen having a curved surface capable of testing a specimen characteristic by applying a compressive force to the specimen having a curved surface.

The circular structure is a form that can be widely seen in various fields of industry including the plant. Unexpected accidents or the like may cause a force that causes such a change of the structure, and in such a case, it is essential to secure the safety. Therefore, it is necessary to grasp various characteristics including the load that the structure can withstand in advance.

A large circular structure means a structure having a diameter of several meters or more among the circular structures. If the structure is large, special techniques for evaluation are required. The present invention relates to an experimental method of simulating the phenomenon that such a large cylindrical large structure is subjected to a force in a direction parallel to the ground and evaluating the influence thereof.

However, as the structure to be tested becomes larger, the experimental load increases, so the jig supporting the specimen and the equipment for inspecting the specimen are also increased, and it is difficult to accurately grasp the characteristics of the specimen.

Conventional equipment for testing a large structure has a problem that it is difficult to perform a test under conditions that occur in an actual environment due to frequent deformation or breakage due to a large load applied thereto, .

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method of measuring a deformation characteristic of a specimen generated by applying a load to a large specimen having a curved periphery, The present invention also provides a test apparatus for a specimen.

The above object is achieved by an apparatus for testing a flat plate specimen having a curved surface according to the present invention, comprising: a base plate; A plurality of pressing portions provided on the base plate so as to face each other and applying a pressing force to the specimen in a plane direction; And a movement restricting portion for restricting the movement of the specimen in the thickness direction, wherein the movement restricting portion includes a lower support portion which is provided in plurality and extends from the push portion toward the center of the specimen and supports the lower surface of the specimen; And a top supporting portion extending from the pressing portion toward the center of the specimen and spaced upward from the bottom supporting portion so as to receive the specimen between the pressing portion and the bottom supporting portion. This is accomplished by a test apparatus.

Further, the pressing portion may include: a pressing cylinder that provides a pressing force; A load cell installed at an end of the pressure cylinder to measure a compressive force applied to the specimen; And a specimen holder installed at an end of the load cell and contacting the specimen.

In addition, the surface of the specimen holder in contact with the specimen may form a curvature.

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Further, the pressing portion may be installed along the circumference of the imaginary circle on the base plate.

The apparatus may further include a fixing member for fixing the end portion of the motion restricting portion.

The fixing member may be formed in a ring shape and may have through holes spaced vertically from each other so that the end portions of the upper support portion and the lower support portion may be installed.

The base plate may further include an engaging and holding portion for preventing the pressing portion from separating upward from the base plate when a load is applied by supporting the pressing portion in contact with the upper surface of the pressing portion.

According to the present invention, there is provided an apparatus for testing a specimen having a curved surface capable of measuring a specimen characteristic by applying a load to a specimen of a large structure having a curvature circumferential surface.

Further, by restricting the movement of the specimen in the thickness direction through the motion restricting portions provided above and below the specimen, it is possible to apply an accurate load to the specimen.

Further, since the coupling between the pressing portion and the base plate, which is subjected to load through the coupling holding portion, is further strengthened, it is possible to prevent the pressing portion from being detached from the base plate during the load application, and the measurement reliability of the specimen characteristic can be improved.

1 is a schematic perspective view of a test apparatus for a specimen having a curved surface according to an embodiment of the present invention,
Fig. 2 is a schematic plan view of a test apparatus for a specimen having a curved surface of Fig. 1,
Fig. 3 is a schematic side view of a test apparatus for a specimen having a curved surface of Fig. 1,
Fig. 4 schematically shows the pressing portion of the test apparatus of the specimen having the curved surface of Fig. 1,
Fig. 5 is a schematic view showing a coupling holding portion of a test apparatus for a specimen having a curved surface of Fig. 1. Fig.

Hereinafter, a test apparatus for a specimen having a curved surface according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of a test apparatus for a specimen having a curved surface according to an embodiment of the present invention, Fig. 2 is a schematic plan view of a test apparatus for a specimen having a curved surface of Fig. 1, Of the test piece.

1 to 3, a test apparatus 100 for testing a specimen having a curved surface according to an embodiment of the present invention is an apparatus for testing a specimen by applying a load to a large flat specimen having a curved surface, A movement limiting unit 130, a fixing member 140, a coupling holding unit 150, a measuring unit 160, and a deformation preventing unit 170.

The specimen S to be tested in this embodiment is described as being a circular flat plate structure having a large diameter, but the present invention is not limited to the above-described configuration as far as it is a structure having a curved surface at a part of the circumferential surface.

The base plate 110 is a base structure for supporting a pressing portion 120, which will be described later, and is provided in a flat plate shape. Since the specimen S is mounted on the upper side of the base plate 110, the thickness, material, and area of the base plate 110 are determined in consideration of durability so as to support the load of the specimen S and the pressing portion 120. [ .

Fig. 4 schematically shows the pressing portion of the test apparatus of the specimen having the curved surface of Fig. 1;

4, the pressing unit 120 is installed on the upper side of the base plate 110 to apply a load to the specimen S along the surface direction. The pressing unit 120 includes a pressure cylinder 121, a load cell 122, And a specimen holder 123.

On the other hand, a plurality of pressing portions 120 are provided on the base plate 110 along a circumference of a virtual circle having a larger diameter than the specimen S. In this case, the number of the pressing units 120 to be installed is determined in consideration of the type of the specimen S, the shape of the test piece, and the like. In this embodiment, the four pressing units 120 are disposed adjacent to each other, U, and each pressurizing unit 120 is arranged to be spaced apart from each other.

Further, the pressing portions 120 are arranged to face each other so as to apply compressive force to the specimen S.

The pressurizing cylinder 121 provides a load applied to the specimen S, and is provided with a cylinder adopting a method using hydraulic pressure. However, the driving method of the pressurizing cylinder 121 is not limited to the hydraulic pressure, but may be any one of various forms used in the technical field in consideration of the load required in the test, the weight of the specimen S, Can be used.

The load cell 122 is provided between the pressurizing cylinder 121 and a specimen holder 123 to be described later and is a device for measuring the load applied to the specimen S and is widely known in the technical field. do.

The specimen holder 123 is a member mounted on an end of the load cell 122 and directly contacting with the outer surface of the specimen S to apply a load.

On the other hand, the portion of the specimen holder 123 directly contacting the specimen S forms a recessed region inward, and the surface of the recessed region is in close contact with the specimen S to prevent the loss of the load So as to have a curvature corresponding to the curvature of the circumferential surface of the specimen S.

The movement restricting part 130 is for restricting the movement of the specimen in the thickness direction so that a correct load can be applied by the pressing part 120. The movement restricting part 130 includes an upper support part 131 and a lower support part 132. [

The upper support part 131 is for limiting the upward movement radius of the specimen S, and a plurality of the upper support parts 131 are provided. The upper support portion 131 is provided in the form of a bar having a long length and one end is mounted on the pressing portion 120 and the other end is provided on a fixing member 140 described later.

Therefore, as described above, in the present embodiment, sixteen pressing portions 120 constitute four pressing units U, so that sixteen upper supporting portions 131 extend from the pressing portion 120, The length of the upper support portion 131 is designed to correspond to the distance between the pressing portion 120 and a fixing member 140 described later.

The upper support portion 131 is spaced upward from the upper surface of the finally-mounted specimen S by a predetermined distance so as to provide a space for allowing deformation of the specimen S by the applied load.

However, if necessary, the upper support portion 131 may be brought into close contact with the specimen S to completely restrict the movement and deformation of the specimen S in the thickness direction.

The lower support part 132 is for restricting the downward movement of the substrate S, and a plurality of the lower support parts 132 are provided. Like the upper support part 131, the lower support part 132 is also provided in the form of a bar, and one end of the lower support part 132 is installed on the pressing part 120 and the other end of the lower support part 132 is provided on a later-

Accordingly, in the present embodiment, as described above, a total of sixteen pressing portions 120 are provided, so that the sixteen lower supporting portions 132 extend from the pressing portion 120, Is designed to correspond to the interval between the fixing member 120 and a fixing member 140 described later.

The lower support part 132 is spaced downward from the upper support part 131 by a predetermined distance and the lower support part 132 is brought into contact with the lower surface of the finally mounted sample S.

According to the structure of the upper support part 131 and the lower support part 132 described above, the upper support part 131 is installed at the upper end of the pressing part 120 and the other end is fixed to the upper end through hole of the fixing member 140 And one end of the lower support part 132 is installed at the lower end of the pressing part 120 and the other end is installed at the lower end of the fixing member 140.

The fixing member 140 is provided in a ring shape for fixing the position of the motion restricting part 130 composed of the upper supporting part 131 and the lower supporting part 132 and preventing misalignment.

The fixing member 140 is provided on a region where an imaginary straight line connecting the upper supporting portion 131 and the imaginary straight line connecting the lower supporting portion 132 facing each other intersects with each other, A through hole for mounting the upper support part 131 is formed and a through hole for receiving the lower support part 132 is formed at the lower part of the fixing member 140, respectively.

Accordingly, the fixing member 140 can be moved between the motion limiting portions 130, which are provided in the inner space of the fixing member 140 so as to be opposed to each other, in a state where the upper supporting portion 131 and the lower supporting portion 132 are fixed The intersection point where the imaginary straight lines connecting the two intersecting points are located.

Fig. 5 is a schematic view showing a coupling holding portion of a test apparatus for a specimen having a curved surface of Fig. 1. Fig.

5, the engagement holding portion 150 prevents the pressing portion 120 from being separated from the base plate 110 and includes a horizontal rod 151, a support member 152, 153). The coupling holding portion 150 is provided with a structure capable of supporting the pressing unit U composed of the four pressing portions 120 disposed adjacent to each other.

The horizontal rod 151 is a member for mounting the contact portion 153 described later and supporting the pressing portion 120 downward and firmly fixing it.

The supporting member 152 is a member for mounting and fixing the horizontal rod 151 on the base plate 110. The support member 152 is mounted on the horizontal rod 151 and installed at a position corresponding to a virtual circle in which the pressing portion 120 is installed so as to firmly support the pressing portion 120. [

The contact portion 153 is provided on the horizontal rod 151 and is in direct contact with the pressing portion 120 to support the pressing portion 120 downward.

The measuring unit 160 measures the amount of deformation of the specimen S due to the applied load. In the present embodiment, the measuring unit is provided with a potentiometer, but the present invention is not limited thereto.

The deformation preventing portion 170 is a member for preventing deformation of the base plate 110 and the pressing portion 120 mounted on the coupling holding portion. The first preventing portion 171 and the second preventing portion 172, .

The first prevention part 171 is a rectangular frame provided by connecting the I-beam structure to four sides.

The second prevention part 172 is an I-beam structure, and a pair of the first prevention part 171 is installed across the center of each side of the first prevention part 171 to improve the durability of the first prevention part 171 Member.

Hereinafter, the operation of one embodiment of the test apparatus 100 for a specimen having a curved surface will be described.

First, a disc-shaped specimen S having a predetermined diameter is disposed on the lower support portion 131. [ At the same time,
The pressing cylinder 121 is operated so that the specimen holder 123 of the pressing portion 120 can be brought into close contact with the circumferential surface of the specimen S. [

When the specimen S is stably placed on the lower support part 132, the upper support part 131 is attached to the upper end of the press part 120 to limit the movement of the specimen S in the thickness direction, Is finally completed.

When the mounting of the above-described specimen S is completed, a load is applied to the specimen S in the surface direction through the pressurizing cylinder 121. The load applied by the pressure cylinder 121 is measured by the load cell 122 and the load required for the test of the specimen S can be accurately applied using the load information measured on the load cell 122. [

On the other hand, the motion restricting section 130 restricts the upward / downward movement of the specimen S, which is not intended during the test, so that the load can be accurately applied to the specimen S by the pressurizing cylinder 121.

The coupling holding portion 150 is in contact with and supports the pressing portion 120 so that deformation does not occur in the specimen S when a large load is applied but a phenomenon in which the pressing portion departs upward from the base plate 110 Thereby improving the durability of the entire apparatus.

The deformation preventing portion 170 also prevents deformation of the base plate 110 and the pressing portion 120 and prevents the pressing portion 120 from being separated from the base plate 110 when a load is applied.

As described above, a large compressive force is applied to the specimen S by the opposed pressing cylinder 121, the specimen S is deformed, and the measuring unit 150 measures the deformation characteristics of the specimen S do.

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.

110: base plate 120: pressing portion
130: motion restricting part 140: fixing member
150: engagement holding portion 160: measuring member
170:

Claims (8)

In an apparatus for testing a flat plate specimen having a curved surface,
A base plate;
A plurality of pressing portions provided on the base plate so as to face each other and applying a pressing force to the specimen in a plane direction;
And a motion restricting part for restricting the thickness direction movement of the specimen,
The motion restricting portion includes a lower support portion which is provided in plurality and extends from the pressing portion toward the center of the specimen and supports the lower surface of the specimen; And a top supporting portion extending from the pressing portion toward the center of the specimen and spaced upward from the bottom supporting portion so as to receive the specimen between the pressing portion and the bottom supporting portion. tester. The method according to claim 1,
The pressing portion
A pressurizing cylinder for providing a compressive force; A load cell installed at an end of the pressure cylinder to measure a compressive force applied to the specimen; And a specimen holder installed at an end of the load cell and contacting the specimen. 3. The method of claim 2,
And the surface of the specimen holder contacting the specimen forms a curvature. The method according to claim 1,
Wherein the pressing portion is provided along a circumference of an imaginary circle on the base plate. 5. The method of claim 4,
Further comprising a fixing member for fixing the end portion of the motion restricting portion. 6. The method of claim 5,
Wherein the fixing member is formed in a ring shape and is formed with through holes spaced vertically from each other so that the end portions of the upper support portion and the lower support portion can be installed. The method according to claim 6,
Further comprising an engagement holding portion which is provided on the base plate and contacts the upper surface of the pressing portion to support the pressing portion downward to thereby prevent the pressing portion from being separated from the base plate upward when a load is applied, Test equipment for specimens having. delete

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