KR101136400B1 - Testing device of ring-shaped test object and test system having the same - Google Patents

Abstract

The present invention relates to a test device for a ring-shaped test object and a test system having the same, wherein the test device for the ring-shaped test object includes a recessed portion recessed from one surface and a ring-shaped test object to be fitted. A base body having a protruding portion protruding from the bottom of the portion, a ring member formed to wind the outer circumferential surface of the protruding portion, formed of an elastic material, and disposed on the inner circumferential surface of the test object, laminated on the ring member, and the ring member being And a pressing member for urging the ring member along the longitudinal direction of the protrusion to expand toward the test object, and a sensing unit configured to measure the deformation of the test object according to the expansion of the ring member. As a result, the present invention converts the pressing force in the tensile / compression direction to a uniform internal pressure applied to the ring-shaped test object to easily implement the pressure resistance test of the ring-shaped test object.

Description

TESTING DEVICE OF RING-SHAPED TEST OBJECT AND TEST SYSTEM HAVING THE SAME}

The present invention relates to a test apparatus for measuring the mechanical properties of the ring-shaped test object and a test system having the same.

In general, in order to measure the mechanical properties of a ring-shaped structure, it is necessary to estimate the pressure resistance or deformation of the structure. In the case of a uniform structural material such as a metal, it is possible to estimate the breakdown strength and deformation through tensile strength test, but in the case of a directional composite structural material, it is difficult to estimate the breakdown strength and deformation only by the tensile strength test alone. Therefore, for ring-shaped structures formed of composite structural materials, pressure-resistant structural tests are required.

Currently, the pressure structure test is a test method (ASTM-D2290) designed with a semicircular shape of a test apparatus, but this method does not apply pure tension in the circumferential direction by simply applying a tensile load to the structure, and on a curved specimen Rather, there is a problem in that the bending load is applied. There is another method (especially 1991-0004105) to increase the width of both ends of the specimen by cutting the specimen into the shape of some arcs rather than the entire circle. It requires complex shapes, such as drilling, and has the disadvantage of causing stress concentrations when applied to composite specimens.

Therefore, the operation is made with a simple mechanism, and a device that performs a more reliable pressure-resistant structural test of the ring-shaped structure can be considered.

SUMMARY OF THE INVENTION The present invention provides a test apparatus and a test system having the same, which are simple in structure and can more accurately measure the mechanical properties of a ring-shaped test object.

In addition, the present invention is to provide a test apparatus and a test system having the same that can evaluate the pressure resistance of the ring-shaped test object made of a composite material.

In order to achieve the above object of the present invention, the test device for a ring-shaped test object according to an embodiment of the present invention, the recessed portion and the ring-shaped test object to be recessed in one surface to fit the recessed portion A base body having a protrusion protruding from the bottom, a ring member formed to wind the outer circumferential surface of the protrusion, formed of an elastic material, disposed on the inner circumferential surface of the test object, laminated on the ring member, and the ring member being tested And a pressing member for urging the ring member in the longitudinal direction of the protrusion to expand toward the object, and a sensing unit configured to measure the deformation of the test object according to the expansion of the ring member.

According to an example related to the present invention, the protruding portion is a cylinder having a bottom of the recess portion, and a circumferential groove is formed along the circumference of the cylinder so that at least a portion of the ring member is inserted in the bottom of the recess portion. . A lubricant may be applied to at least one of the outer circumferential surface of the cylinder or the inner circumferential surface of the ring member to reduce friction between the protrusion and the ring member.

According to another example related to the present invention, the sensing unit includes a displacement measuring sensor disposed in the vertical direction to measure the deformation amount of the test object in the vertical direction and the longitudinal direction. The sensing unit may include a through hole and a stop screw. The through hole penetrates through the side wall of the recess so that the displacement measuring sensor is disposed, and the stop screw moves in a direction perpendicular to the through hole to fix the displacement measuring sensor to press the displacement measuring sensor.

According to another example related to the present invention, the ring member may be a rubber ring made in surface contact with the inner circumferential surface of the test object to apply a uniform pressure to the inner circumferential surface of the test object.

In addition, in order to realize the above object, the present invention is made to be mounted to the support of the physical property tester and has a base body having a protrusion projecting from one surface so that the ring-shaped test object is fitted, and the compression force in the longitudinal direction of the protrusion When applied, the ring member is inserted into the protrusion so as to expand the outer peripheral surface is disposed on the inner peripheral surface of the test object, laminated on the ring member, the pressing device of the physical property tester to press the ring member along the longitudinal direction of the protrusion and Disclosed is a test apparatus for a ring-shaped test object including a pressure member configured to be connected, and a sensing unit configured to measure deformation of the test object due to expansion of the ring member.

In addition, the present invention is a physical property tester having a pressing device for applying a compressive force in the vertical direction to the ground and a support formed in parallel with the ground, a ring-shaped test object to measure the physical properties by the physical property tester, and the ring-shaped test A test system comprising a test device of a subject is disclosed.

The test apparatus of the ring-shaped test object and the test system having the same according to the present invention configured as described above convert the pressing force in the tension / compression direction to a uniform internal pressure applied to the ring-shaped test object by using the ring member. . Through this, the mechanical properties of the test object can be measured more accurately, and the pressure resistance test of the test object using the axial compressive load in the general tensile / compression tester becomes possible.

In addition, according to the present invention, by pressing the inner peripheral surface of the ring-shaped test object and measuring the displacement of the test object, the pressure resistance of the directional composite structural material used in guided weapons and aircraft can be easily measured.

1 is a conceptual diagram illustrating a test system according to an embodiment of the present invention.
2 is an enlarged view of a test apparatus for a ring-shaped test object of FIG.
3 is an exploded view of a test apparatus of the ring-shaped test object of FIG.
4 is a cross-sectional view of the test apparatus of the ring-shaped test object of FIG.

Hereinafter, a test apparatus for a ring-shaped test object and a test system having the same according to the present invention will be described in more detail with reference to the accompanying drawings. In the present specification, different embodiments are given the same or similar reference numerals for the same or similar configurations, and the description is replaced with the first description. As used herein, the singular forms "a", "an" and "the" include plural forms unless the context clearly indicates otherwise.

1 is a conceptual diagram illustrating a test system S according to an embodiment of the present invention.

The test system S includes a physical property tester 10, a ring-shaped test object 20 (see FIG. 2), and a test device 100 of a ring-shaped test object.

Physical property tester 10 is a tester for measuring the physical properties of the material, for example, may be a tensile or compression tester, universal testing machine and the like. This figure illustrates a compression tester as an example of the physical property tester (10).

Physical property tester 10 is provided with a pressing device 11 and the support (12).

The pressing device 11 is made to apply a compressive force in the vertical direction to the ground, the support 12 is formed parallel to the ground. According to the illustration, the test apparatus 100 is seated on the support 12, and the test apparatus 100 is fixed to the support 12 by a fixing device (not shown).

The ring-shaped test object 20 may be a ring-shaped specimen in which physical properties are measured by the physical property tester 10. The test object 20 is mounted to the test apparatus 100, and is made of a directional composite structural material used for, for example, a guided weapon or an aircraft.

The test apparatus 100 is fixed to the support 12 of the property tester 10, and made to press the inner circumferential surface of the test object 20 in the horizontal direction with the ground by using the compression force of the property tester 10, It is formed to measure the deformation of the test subject 20 according to.

Hereinafter, the test apparatus 100 of the ring-shaped test object will be described in more detail. FIG. 2 is an enlarged view of the test apparatus 100 of the ring-shaped test object of FIG. 1, FIG. 3 is an exploded view of the test apparatus 100 of the ring-shaped test object of FIG. 2, and FIG. 4 is a ring-shaped test of FIG. 2. It is sectional drawing of the test apparatus 100 of a subject.

Referring to the drawings, the test apparatus 100 includes a base body 110, a ring member 120, the pressing member 130 and the sensing unit 140.

The base body 110 is made to be fixed to the support 11 (see FIG. 1) of the physical property tester 10, and may be formed as a cylindrical body. According to the illustration, the base body 110 includes a recess 111 and a protrusion 112.

The recess 111 is recessed in one surface of the base body 110. More specifically, the recess 111 is formed in a shape recessed toward the lower surface from the upper surface of the cylindrical base body 110.

The protrusion 112 protrudes from the bottom of the recess 111 and is formed to fit the ring-shaped test object 20. The protrusion 112 may be a cylinder having a bottom surface of the recess 111. However, the present invention is not necessarily limited thereto. For example, the recessed portion is not formed in the base body 110, and the protrusion 112 may protrude from one surface of the base body 110.

A lubricant (not shown) may be applied to at least one of the outer circumferential surface of the cylinder or the inner circumferential surface of the ring member 120 to reduce friction between the protrusion 112 and the ring member 120. Through this, the inner diameter of the ring member 120 may be formed closer to the outer diameter of the cylinder.

The ring member 120 is formed to wind the outer circumferential surface of the protrusion 112, is formed of an elastic material, and is disposed on the inner circumferential surface of the test object 20. The ring member 120 is inserted into the protrusion 112 so that the outer circumferential surface expands when a compressive force is applied in the longitudinal direction of the protrusion 112, and has a diameter corresponding to the inner circumferential surface of the test object 20.

At the bottom of the recess 111, a circumferential groove 113 is formed along the circumference of the cylinder so that at least a portion of the ring member 120 is inserted. More specifically, the circumferential groove 113 is recessed from the bottom of the recess 111, and is formed in an annular shape so as to wind the circumference of the cylinder.

For example, the ring member 120 is formed in a hollow tube shape, one end of which is formed higher than the test object 20, and according to the illustration, the other end of the hollow tube shape is inserted into the circumferential groove 113. Accordingly, the outer peripheral surface of the hollow tube shape is made to be parallel to the inner peripheral surface of the test object 20.

The pressing member 130 is stacked on the ring member 120 to press the ring member 120 along the lengthwise direction of the protrusion 112. The pressing member 130 is made to be connected to the pressing device 11 of the physical property tester (10). For example, the pressing member 130 is formed in the form of a hollow tube made of a metal material, one end is formed to contact the pressing body (11a, see Fig. 1) of the pressing device 11, the other end is the ring member 120 It is seated at one end of). Through such a connection relationship, when the pressing member 130 moves in the longitudinal direction of the protrusion 112, the ring member 120 expands toward the test object 20.

The ring member 120 may be, for example, a rubber ring. The rubber ring is made in surface contact with the inner circumferential surface of the test object 20. When the ring member 120 expands through this, a uniform pressure is applied to the inner circumferential surface of the test object.

The sensing unit 140 is configured to measure the deformation of the test object 20 according to the expansion of the ring member 120. Referring to the drawings, the sensing unit 140 may include a displacement measuring sensor 141, a through hole 142, and a stop screw 143.

Displacement measuring sensor 141 is disposed in the vertical direction to measure the deformation amount of the test object 20 in the vertical direction and the longitudinal direction of the protrusion (112).

The through hole 142 penetrates through the side wall of the recess 111 so that the displacement measuring sensor 141 is inserted therein. The through holes 142 may be formed in plural, and are disposed to be spaced apart at a predetermined interval along the outer circumference of the protrusion 112 from the side wall. More specifically, the displacement measuring sensor 141 penetrates at least one of the plurality of through holes 142 such that the hour hand contacts the outer circumferential surface of the test object 20.

The stop screw 143 is formed to press the displacement measuring sensor 141 by moving in the vertical direction with the through hole 142 so that the displacement measuring sensor 141 is fixed. A screw hole is formed in a vertical direction with the through hole 142 so that the stop screw 143 may be tightened in the vertical direction. By tightening the stop screw 143, the displacement measuring sensor 141 may be fixed to the desired position by the tester.

The apparatus for testing a ring-shaped test object as described above and a test system having the same are not limited to the configuration and method of the embodiments described above, but the embodiments are all or part of each of the embodiments so that various modifications can be made. It may alternatively be configured in combination.

Claims (8)

A base body having a recessed portion recessed from one surface and a protrusion projecting from the bottom of the recessed portion so as to fit a ring-shaped test object;
A ring member formed to wind the outer circumferential surface of the protrusion and formed of an elastic material and disposed on the inner circumferential surface of the test object;
A pressing member stacked on the ring member and configured to press the ring member along the longitudinal direction of the protrusion so that the ring member expands toward the test object; And
Apparatus for testing a ring-shaped test object including a sensing unit for measuring the deformation of the test object according to the expansion of the ring member. The method of claim 1,
The protrusion is a cylinder having a bottom of the recess portion,
Apparatus for testing a ring-shaped test object, characterized in that a peripheral groove is formed along the circumference of the cylinder so that at least a portion of the ring member is inserted in the bottom of the recess. The method of claim 2,
And a lubricant applied to at least one of an outer circumferential surface of the cylinder or an inner circumferential surface of the ring member to reduce friction between the protrusion and the ring member. The method of claim 1,
The sensing unit includes:
And a displacement measuring sensor disposed in the vertical direction to measure the deformation amount of the test object in the longitudinal direction and the vertical direction. The method of claim 4, wherein
The sensing unit includes:
A through hole penetrating through the side wall of the recess portion such that the displacement measuring sensor is disposed; And
And a stop screw formed to move in a vertical direction with the through hole to press the displacement measuring sensor so that the displacement measuring sensor is fixed. The method of claim 1,
The ring member is a test device for a ring-shaped test object, characterized in that the rubber ring made in surface contact with the inner peripheral surface of the test object to apply a uniform pressure to the inner peripheral surface of the test object. A base body formed to be mountable on a support of the physical property tester, the base body having a protruding portion protruding from one surface to be fitted with a ring-shaped test object;
A ring member inserted into the protrusion to expand an outer circumferential surface when a compressive force is applied in the longitudinal direction of the protrusion, the ring member disposed on an inner circumferential surface of the test object;
A pressing member stacked on the ring member and connected to the pressing device of the physical property tester to press the ring member along a length direction of the protrusion; And
Apparatus for testing a ring-shaped test object including a sensing unit for measuring the deformation of the test object according to the expansion of the ring member. A physical property tester having a pressing device for applying a compressive force in a vertical direction to the ground, and a support formed in parallel with the ground;
A ring-shaped test object whose physical properties are measured by the physical property tester; And
The base body is fixed to the support of the physical property tester, is made to press the inner circumferential surface of the test object in the horizontal direction with the ground by using the compression force of the physical property tester, and formed to measure the deformation of the test object according to the pressing The test system comprising a test apparatus for a ring-shaped test object according to any one of claims 1 to 7.

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