KR20190072856A - Test piece holding unit and high temperature testing apparatus - Google Patents

Abstract

According to one embodiment of the present invention, a specimen support unit can comprise: a support body member; a specimen holding member associated with the support body member and provided with a specimen; and a support rod member of which one end part is extended from one side surface of the support body member, to which the specimen holding member is connected, and in which a cooling path formed. A high-temperature repeating test device according to another embodiment of the present invention can comprise: a heating furnace having a high-temperature inner environment; the specimen support unit; and a repeating actuator to which the specimen support unit is coupled, and which inserts the specimen support unit into the heating furnace or separates it outward from the inside of the heating furnace. Therefore, an objective of the present invention is to provide the specimen support unit in which the support configuration of the specimen does not cause deformation such as bending.

Description

Technical Field [0001] The present invention relates to a test piece holding unit and a high temperature testing apparatus,

The present invention relates to a specimen supporting unit and a high temperature repeated testing apparatus including the same.

Generally, general steel which is applied to automobile exhaust system is inferior to oxidative corrosion environment such as high temperature and exhaust gas and is replaced by stainless steel to improve product life in such oxidative corrosion environment.

Steels applied to such automotive exhaust systems are exposed to repeated heating and cooling environments where they are heated by hot exhaust gases of about 800 to 900 DEG C and cooled again when the engine stops.

Various chemical components such as carbon monoxide (CO), nitrogen oxides (NOx), hydrocarbons (HC), ozone (O3), carbon dioxide (CO2) and sulfurous acid gas (SOx) exist in the exhaust gas, Are passing through the exhaust system under high temperature conditions and cause oxidation and corrosion.

Therefore, development of a strong heat-resisting and oxidation-resistant steel has been carried out in the environment. To develop such a steel, a high-temperature repetitive testing apparatus for testing a specimen in the environment is required.

In this high-temperature repetitive testing apparatus, the specimen is placed on the supporting member and the test is repeated while the heating furnace is heated and released repeatedly.

Here, after the support rod member is fastened to the support body member at one end with a screw so that the specimen is fastened to the support rod member having one end portion coupled to the support body member, the release prevention stopper is screwed to the other end portion of the support rod member So as to prevent the specimen from coming off.

However, such a support member has a problem of warping due to the weight of the specimen and the high temperature environment in the heating furnace. Also, there is a problem that the coupling member is damaged due to a weak coupling force of the coupling part with the supporting body member.

Accordingly, in the course of repeated experiments, a problem of collision and breakage between the heating furnace opening and the specimen or the support rod member occurs.

In addition, in order to replace the specimen, it is necessary to remove the detachment stopper and replace a plurality of specimens. Since the screwed portion of the detachment stopper is deformed by oxidation or the like due to repetitive exposure of the high temperature environment, Is increased.

Therefore, it is necessary to study a specimen supporting unit and a high temperature repetitive testing apparatus for solving the above-mentioned problems.

It is an object of the present invention to provide a specimen supporting unit in which the supporting structure of a specimen does not cause deformation such as warping and a high temperature repetition testing apparatus including the specimen supporting unit.

Another aspect of the present invention is to provide a specimen supporting unit that facilitates replacement of a specimen and a high temperature repetition testing apparatus including the same.

The specimen supporting unit according to an embodiment of the present invention includes a supporting body member, a specimen holding member connected to the supporting body member, a specimen holding member provided with the specimen, and a supporting body member, And a supporting rod member in which a sample holding member is connected and in which a cooling flow path is formed.

Here, the support rod member of the specimen supporting unit according to an embodiment of the present invention may include a support pipe having an inner hollow and a cooling channel pipe spirally provided in the support pipe.

In addition, the support rod member of the specimen support unit according to an embodiment of the present invention may include an escape prevention tab protrudingly coupled to a side adjacent to one end of the support pipe.

The supporting rod member of the specimen supporting unit according to an embodiment of the present invention may be characterized in that the other end portion is coupled to the supporting body member.

In addition, the specimen holding member of the specimen holding unit according to an embodiment of the present invention may include a pair of connecting anchors and specimens to be mounted on the supporting rod member, and the both ends are inserted into the seating holes formed in the connecting anchors And may include a sample rod.

Here, the connecting anchor of the specimen supporting unit according to an embodiment of the present invention may be characterized in that at least a part of the inner surface of the connecting hole into which the supporting rod member is inserted forms an interval from the outer surface of the supporting rod member.

The specimen clamping rod of the specimen supporting unit according to an embodiment of the present invention may be characterized in that a seating groove is formed at both ends of the specimen clamping rod inserted into the seating hole.

Further, in the specimen supporting unit according to an embodiment of the present invention, only one of the connecting anchors is fixedly coupled to the supporting rod member, and the other one is provided so as to be inclined to the supporting rod member.

In addition, the sample holding member of the sample holding unit according to an embodiment of the present invention may include a gap holding ring provided in the sample holding rod so as to be positioned between the specimens coupled to the sample holding rod.

A high temperature repetition testing apparatus according to another embodiment of the present invention is a heating furnace in which a high temperature environment is formed, a specimen support unit and a specimen support unit are coupled to each other, and the specimen support unit is introduced into the heating furnace, And a repetition driver for releasing it from the inside of the heating furnace to the outside.

In addition, it may include a switch provided adjacent to the heating furnace of the high temperature repetition testing apparatus according to another embodiment of the present invention, for adjusting the opening and closing of the opening formed in the heating furnace into which the specimen supporting unit enters.

The specimen supporting unit of the present invention and the high temperature repetition testing apparatus including the same have the advantage of preventing a warp or the like of the supporting rod member supporting the specimen from being deformed so as to prevent collision at the time of entering the heating furnace or the like.

In another aspect, the specimen supporting unit of the present invention and the high temperature repetition testing apparatus including the same facilitate the replacement of the specimen, thereby shortening the testing time and reducing the load on the operator.

It should be understood, however, that the various and advantageous advantages and effects of the present invention are not limited to those described above, and may be more readily understood in the course of describing a specific embodiment of the present invention.

1 is a side view showing a specimen supporting unit of the present invention.
2 is a front view showing a state in which a connecting anchor is coupled to a supporting rod member in the specimen supporting unit of the present invention.
3 is a side view showing a modified arrangement of the connecting anchors for coupling the specimen mounting rod to the connecting anchor in the specimen supporting unit of the present invention.
Fig. 4 is a cross-sectional view showing a state where the sample rod is coupled to the connecting anchor in the sample supporting unit of the present invention.
5 is a side view showing a state in which a gap retaining ring is provided on a specimen holder bar in the specimen holder unit of the present invention.
6 is a side view showing the high temperature repetition testing apparatus of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Also, in this specification, the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise, and reference signs allotted in the same reference notation or the like throughout the specification refer to the same or corresponding components .

The present invention relates to a specimen supporting unit 100 and a high temperature repetition testing apparatus including the specimen supporting unit 100. The specimen supporting unit 100 does not cause deformation such as warpage of the supporting rod member 130 supporting the specimen T, It is possible to prevent the collision of the test piece T with the test piece T. In other respects, it is possible to easily replace the test piece T, thereby shortening the test time and reducing the load on the operator.

1 is a side view showing a specimen supporting unit 100 according to the present invention. Referring to the drawings, a specimen supporting unit 100 according to an embodiment of the present invention includes a supporting body 100, And a supporting body member 110 coupled to the supporting body member 110 and having one end extended from one side of the supporting body member 110 and a specimen holding member 120 provided with a specimen T, And a supporting rod member 130 to which the sample holding member 120 is connected and in which a cooling channel is formed.

As described above, even when the support rod member 130 is exposed to a high temperature environment such as the heating furnace 200, cooling is performed by the cooling channel, thereby preventing a problem such as warping due to thermal deformation.

The support body member 110 is coupled to the repetitive actuator 300 for entering the heating furnace 200 or the like to be described later, and the support member 130 is coupled to the support body member 110.

For example, the support body member 110 may be formed with a through-hole through which the other end of the support rod member 130 may pass, in order to allow the support rod member 130 to pass through the support body member 110 .

The specimen holding member 120 serves as a medium for providing the specimen T to the supporting rod member 130.

In addition, the specimen holding member 120 may include a connecting anchor 121, a specimen rod 122, and the like to facilitate the engagement and disengagement of the specimen T.

That is, the specimen holding member 120 of the specimen supporting unit 100 according to the embodiment of the present invention includes a pair of connecting anchors 121 mounted on the supporting rod member 130, And a specimen rod 122 to which both ends are respectively inserted into a seating hole 121a formed in the connection anchor 121. [

Here, the connection anchor 121 is coupled to the support rod member 130, and the specimen rod 122 is coupled to the connection anchor 121.

Since the specimen holder 122 is inserted into the connecting anchor 121 at both ends in the shape of a bar so that the connecting anchor 121 is obliquely arranged and one end of the specimen holder 122 is moved The sample can be released from the connection anchor 121 and can be coupled to the sample rod 122 by the opposite operation.

In order to arrange the connection anchor 121 obliquely with the support bar member 130, at least a part of the connection hole 121b into which the support bar member 130 is inserted is spaced apart from the support bar 130 . A detailed description thereof will be described later with reference to FIG. 2 and FIG.

The specimen clamping rod 122 is inserted into the connection hole 121a formed in the connection anchor 121 so that the specimen clamping rod 122 is inserted into the connection anchor 121, A seating groove 122a may be formed in the rod 122, and a detailed description thereof will be given later with reference to FIG.

The supporting rod member 130 is configured such that the specimen holding member 120 is coupled to the supporting body member 110. Here, the support rod member 130 should bear the weight of the specimen T or the like provided to the specimen holding member 120, and one end thereof may be provided as a free end extending from one side of the support body member 110 do.

Therefore, it is possible to consider the possibility that the support rod member 130 is deformed due to thermal deformation in the heating furnace 200 or the like in a high temperature environment. However, since the cooling channel is formed in the support rod member 130, It is possible to prevent the occurrence of thermal deformation even in a high temperature environment. For this purpose, the support rod member 130 may include a support pipe 131, a cooling flow pipe 132, and the like.

That is, the supporting rod member 130 of the specimen supporting unit 100 according to an embodiment of the present invention includes a support pipe 131 having an inner hollow and a cooling channel 130 provided spirally in the support pipe 131, And may include a tube 132.

Thus, it is possible to prevent the support pipe 131, which is connected to the sample holding member 120, from being thermally deformed by the cooling channel pipe 132.

Here, the support pipe 131 may be formed with an inner hollow to allow the cooling channel pipe 132 to be formed therein. In addition, the support pipe 131 may be formed of a metal material, or may be formed of a ceramic material in order to secure heat resistance. The inside of the support pipe 131 may be formed of a ceramic material.

The cooling channel pipe 132 may be disposed in the hollow of the support pipe 131 to cool the support pipe 131. The cooling channel pipe 132 may be disposed so as to form a cooling channel so as to be spirally arranged in the support pipe 131 and increase the contact area with the support pipe 131.

In addition, the supporting rod member 130 of the specimen supporting unit 100 according to an embodiment of the present invention includes an escape prevention tab 133 protruding from a side adjacent to one end of the supporting pipe 131 .

That is, when the connection anchor 121 of the sample holding member 120 is coupled with the support pipe 131, the release prevention tab 133 may be provided to prevent the connection anchor 121 from being separated from the connection anchor 121 will be.

More specifically, the support pipe 131 is inserted into the connection hole 121b formed in the connection anchor 121 and is coupled to the connection anchor 121. At this time, the connection anchor 121 is connected to the support pipe 131 Since the one end of the support pipe 131 is provided with the release prevention tab 133 and the protrusion 131 is formed on the side adjacent to the one end of the support pipe 131, . The separation prevention tab 133 may be coupled to the support pipe 131 by a screw connection so that the connection anchor 121 is coupled to the support pipe 131, (Not shown).

The supporting rod member 130 of the specimen supporting unit 100 according to an embodiment of the present invention may be configured such that the other end of the supporting rod member 130 is coupled to the supporting body member 110 in a penetrating manner.

That is, the supporting rod member 130 is configured not to be coupled to only one side of the supporting body member 110 but to be penetrated through the supporting rod member 130, It is possible to increase the number of the portions supported by the supporting member 110, thereby making it easy to prevent warping of the free end.

2 is a front view showing a state in which a connecting anchor 121 is coupled to a supporting rod member 130 in the specimen supporting unit 100 of the present invention and Fig. Including a modified anchoring position of the anchor 121 for coupling the sample rod 122 with the anchor 121 to the sample anchor 121. FIG.

The connecting anchor 121 of the specimen supporting unit 100 according to the embodiment of the present invention is formed such that at least a part of the inner surface of the connecting hole 121b into which the supporting rod member 130 is inserted is inserted into the connecting hole 121b, Thereby forming an interval between the outer surface of the member 130 and the outer surface of the member 130.

In other words, in order to arrange the connection anchor 121 obliquely with the support bar member 130, at least a part of the connection hole 121b into which the support bar member 130 is inserted is spaced apart from the support bar by a predetermined distance The diameter of the connection hole 121b of the connection anchor 121 is formed to be larger than the diameter of the support member 130. [

For example, an outer diameter of the connection hole 121b and the outer diameter of the support rod member 130 may be formed as shown in FIG.

When the connection hole 121b is formed to have a larger diameter than the outer diameter of the support bar member 130 so that a certain distance is formed between the inner surface of the connection hole 121b and the outer surface of the support bar member 130, 3, the connection anchor 121 may be disposed obliquely to the support bar member 130. As shown in FIG. Accordingly, the specimen clamp rod 122 coupled to the connection anchor 121 can be separated from the connection anchor 121.

In order for the specimen holder 122 to be coupled to the connecting anchor 121, the connecting anchor 121 is arranged at an angle so that a space for inserting the specimen holder 122 is secured, So that the fixing rod 122 can be coupled to the seating hole 121a of the connecting anchor 121.

In the specimen supporting unit 100 according to the embodiment of the present invention, only one of the connecting anchors 121 is fixedly coupled to the supporting rod member 130, and the other one is inclined to the supporting rod member 130 So that it is possible to perform the above-described operations.

When the specimen holder 122 is connected to the connecting anchor 121, the specimen holder 122 is moved to the connecting anchor 121 on one side because the connecting anchor 121 on one side does not move. And is easily inserted into the formed seating hole 121a.

FIG. 4 is a cross-sectional view illustrating a state where the sample rod 122 is coupled to the connection anchor 121 in the sample supporting unit 100 of the present invention. Referring to the drawings, The specimen fixing rod 122 of the supporting unit 100 may have a seating groove 122a formed at both end portions thereof to be inserted into the seating hole 121a.

That is, in order for the specimen holder 122 to be inserted into the connecting anchor 121, the specimen holder 122 is inserted into the holder hole 121a formed in the connecting anchor 121, The rod 122 may be formed with a seating groove 122a.

This facilitates the operation of coupling the specimen rod 122 to the connecting anchor 121 and allows the specimen rod 122 to be stably stuck after being coupled to the connecting anchor 121 .

For example, a seating hole 121a of a connection anchor 121 fixed to a pair of the connection anchors 121 coupled to the support rod member 130 is inserted into one end of the specimen rod 122, The one end of the sample rod 122 serves as a fulcrum and the other end of the sample rod 122 is inserted into the seating hole 121a of the remaining connecting anchor 121 And the other end of the sample rod 122 is inserted to facilitate coupling.

After the specimen rod 122 is coupled to the connection anchor 121, the weight of the specimen T coupled to the specimen rod 122 and the weight of the specimen rod 122 The seating groove 122a of the sample rod 122 can be stably coupled to the seating hole 121a of the connecting anchor 121. [

5 is a side view showing a state in which the gap holding ring 123 is provided on the specimen holder rod 122 in the specimen holder unit 100 of the present invention. Referring to the drawings, The specimen holding member 120 of the specimen supporting unit 100 includes a gap retaining ring 122 provided on the specimen sticking rod 122 so as to be positioned between the specimens T coupled to the specimen sticking rod 122 123).

That is, when a plurality of specimens T are coupled to the specimen rod 122, the specimen rod 122 may be positioned in an inclined form when the specimen rod 122 is coupled to the anchor member, The spacing rings 123 can be disposed between the specimens T so that the spacing between the plurality of specimens T can be maintained.

The gap retaining ring 123 may be provided by setting the width in consideration of the interval to be set between the specimens T. That is, when a wide gap is required between the specimens T, a wide gap holding ring 123 may be disposed between the specimens T, or a plurality of gap holding rings 123 may be provided between the specimens T As shown in FIG.

FIG. 6 is a side view showing a high temperature repetition testing apparatus of the present invention. Referring to the drawings, a high temperature repetition testing apparatus according to another embodiment of the present invention includes a heating furnace 200 having a high temperature environment therein, The unit 100 and the specimen supporting unit 100 are coupled to each other and the specimen supporting unit 100 is inserted into the heating furnace 200 or released from the inside of the heating furnace 200, (300).

In other words, the heating furnace 200, the specimen supporting unit 100, and the repetitive driving unit 300 may be included to repeatedly expose the specimen T to a high temperature and a low temperature environment.

Here, the repetitive actuator 300 moves the specimen supporting unit 100 equipped with the specimen T to the heating furnace 200 in a high-temperature environment. At this time, the high temperature and the cooling The specimen T is automatically charged into the heating furnace 200 by a program to automatically determine the repetition characteristics of the specimen T, and then the specimen T is automatically drawn out after a certain period of time to be repeatedly cooled to repeatedly perform a predetermined number of cycles to induce oxidation .

After the cycle is completed, the oxide layer is removed, and the weight loss of the specimen (T) is analyzed before and after the experiment.

In addition, in the high temperature repetition testing apparatus according to another embodiment of the present invention, the opening 200a formed in the heating furnace 200, which is provided adjacent to the heating furnace 200 and into which the sample supporting unit 100 enters, And an opening / closing device 400 for adjusting opening and closing.

That is, when the specimen T enters the opening 200a of the heating furnace 200 by the specimen supporting unit 100, the opening and closing unit 400 moves to the outside and the specimen supporting unit 100 After the heater 200 is removed from the heating furnace 200, the opening and closing unit 400 may be provided to close the opening 200a to maintain a high temperature environment inside the heating furnace 200. [

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. But will be obvious to those of ordinary skill in the art.

100: specimen supporting unit 110: supporting body member
120: specimen holding member 121: connecting anchor
122: specimen locating rod 123: spacing ring
130: support rod member 131: support pipe
132: cooling channel tube 133:
200: heating furnace 300: repeating actuator
400: Actuator

Claims (11)

A support body member;
A specimen holding member connected to the support body member and provided with a specimen; And
A support rod member coupled to the support body member at one end thereof so as to extend at one end thereof, the support rod member being connected to the sample holding member and having a cooling passage formed therein;
And a supporting member. The method according to claim 1,
Wherein the support-
A support pipe having an inner hollow; And
A cooling flow passage provided spirally inside the support pipe;
And a supporting member. 3. The method of claim 2,
Wherein the support-
A release-preventing tab protrudingly joined to a side adjacent to one end of the support pipe;
And a supporting member. The method according to claim 1,
And the other end of the support rod member is coupled to the support body member so as to penetrate therethrough. The method according to claim 1,
The sample holding member
A pair of connection anchors mounted on the support member; And
A specimen clamping rod to which a specimen is coupled and both ends of the specimen are inserted into a seating hole formed in the connecting anchor;
And a supporting member. 6. The method of claim 5,
Wherein the connection anchor at least a part of the inner surface of the connection hole into which the support rod member is inserted forms an interval from an outer surface of the support rod member. 6. The method of claim 5,
Wherein the specimen holder bar has a seating groove formed at both end portions thereof to be inserted into the seating hole. 6. The method of claim 5,
Wherein only one of the connection anchors is fixedly coupled to the support rod member, and the other one is provided so as to be inclined to the support rod member. 6. The method of claim 5,
The sample holding member
A spacing ring provided in the specimen holder bar so as to be positioned between specimens bonded to the specimen holder bar;
And a supporting member. A heating furnace having a high temperature environment inside;
A specimen-holding unit according to any one of claims 1 to 9; And
A repeat driver to which the specimen supporting unit is coupled and the specimen supporting unit is introduced into the heating furnace or released from the inside of the heating furnace;
/ RTI > 11. The method of claim 10,
A switch provided adjacent to the heating furnace and adapted to open and close an opening formed in the heating furnace in which the specimen supporting unit enters;
/ RTI >

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