KR20100035336A - Temperature heating device, temperature heating test device and method using the same - Google Patents

Abstract

PURPOSE: A heating device, a heating test device and a method thereof are provided to evaluate durability of a specimen by controlling the temperature of steel concrete or concrete which has various structures. CONSTITUTION: A heating device(200) comprises a halogen lamp heater(100), and a first and a second specimen support(120,140). The halogen lamp heater heats concrete specimen using a halogen lamp(110). The first and second specimen supports support both ends of the concrete specimen. The halogen lamp heater comprises a halogen lamp settling part and a halogen lamp support. The halogen lamp settling portion contains and fixes halogen lamps. The halogen lamp support supports the halogen lamp settling portion.

Description

TEMPERATURE HEATING DEVICE, TEMPERATURE HEATING TEST DEVICE AND METHOD USING THE SAME}

The present invention is to test the steel concrete or concrete of various structures, such as large or small structure by adjusting the temperature according to the virtual situation to observe the structural state of the test body and to evaluate the durability, temperature heating test using the same It is to provide an apparatus and method.

In the case where the large structural test specimen is steel concrete having a surface of steel plate (steel), the steel plate on the surface of the structure increases due to the thermal stress due to the rapid rise of temperature during the breakage of the pipe line in the containment building and the concrete inside the structure. The crack is generated in the concrete as it is out of the crack limit of the concrete by the thermal stress of the steel sheet.

In addition to the occurrence of concrete cracks due to rapid temperature changes, when the steel plate on the surface of the structure is subjected to thermal stress and the outside is exposed to the air at room temperature, cracks in the specimen occur due to unbalance of temperature and the structural performance of the structure is reduced. Degrades. Accordingly, there is a need for a heating apparatus that simulates the instantaneous temperature rise that occurs during a pipe breaking accident (LOCA) in a nuclear containment building as a large structure, or virtually experiments according to the situation.

In order to solve the above problems, the present invention can test the steel concrete or concrete of various structures, such as a large structure or a small structure by controlling the temperature according to the virtual situation to observe the structural state of the test body and evaluate the durability The present invention relates to a temperature heating device, a temperature heating test device and a method using the same.

In order to achieve the above technical problem, the temperature heating device according to the present invention is a halogen lamp heating device for heating a steel concrete or concrete test specimens of various structures, such as a large structure or a small structure using a plurality of halogen lamps, It characterized in that it comprises a first and a second test body support for supporting each end.

The halogen lamp heating apparatus includes a halogen lamp seat for accommodating and fixing the plurality of halogen lamps arranged at regular intervals, and a halogen lamp support for supporting a halogen lamp seat for accommodating the plurality of halogen lamps. It features.

Here, the halogen lamp seating portion is characterized in that used in stainless steel.

In addition, the halogen lamp support is a temperature heating device characterized in that it comprises a height adjustment device at the bottom to adjust the distance between the test body and the plurality of halogen lamps.

In addition, the halogen lamp support is characterized in that it comprises a hinge for supporting both ends of the test piece of the concrete or concrete, the height of the test piece and the hinge support for supporting the hinge.

In order to achieve the above technical problem, the temperature heating test apparatus according to the present invention is a temperature heating apparatus for virtually heating a steel concrete or concrete test body of various structures, such as a large structure or a small structure using a plurality of halogen lamps, and A temperature control unit for generating a temperature control signal to control the temperature according to a virtual situation desired by the user, and a virtual heating supply unit for adjusting the temperature of the temperature heating device according to the temperature control signal supplied from the temperature control unit. It is characterized by including.

Here, the temperature heating device is characterized in that it comprises a halogen lamp heating device for heating the test body using a plurality of halogen lamps, and first and second test body support for supporting each end of the test body.

The halogen lamp heating apparatus includes a halogen lamp seat for accommodating and fixing the plurality of halogen lamps arranged at regular intervals, and a halogen lamp support for supporting a halogen lamp seat for accommodating the plurality of halogen lamps. It features.

At this time, the halogen lamp seat is characterized in that it is used as stainless steel.

Here, the halogen lamp heating device is characterized in that formed at least one or more according to the size of the test body.

In addition, the plurality of halogen lamps are characterized in that to narrow or widen the interval between the lamps according to the virtual situation.

And, the halogen lamp support is characterized in that it comprises a height adjustment device at the bottom to adjust the distance between the test specimen and the plurality of halogen lamps.

At this time, the halogen lamp support is characterized in that it comprises a hinge for supporting both ends of the test piece of the concrete or concrete, the height of the test piece and the hinge support for supporting the hinge.

In order to achieve the above technical problem, the temperature heating test method according to the present invention comprises the step of generating a temperature control signal that can adjust the temperature according to the virtual situation through the temperature control unit, in accordance with the temperature control signal in the temperature heating device Controlling the temperature of the plurality of halogen lamps through a virtual heating supply, and heating the test specimen of steel concrete or concrete by the plurality of halogen lamps.

In addition, the step of generating a temperature control signal for controlling the temperature according to the virtual situation through the temperature control unit may be the temperature control signal to heat the temperature or step by step to adjust the temperature of the steel concrete or the test specimen of concrete step by step It is characterized by generating.

The temperature heating apparatus according to the present invention, the temperature heating test apparatus and the method using the same, stably emit a halogen lamp according to a temperature history in which a virtual situation is programmed to heat steel concrete or concrete of large or small structure. In this way, the accuracy of the temperature characteristic test can be improved by measuring the strain of the test body according to the temperature history and performing durability evaluation.

In addition, the large specimens cannot be heated in a short time due to heat conduction and fluid flow, but a large number of halogen lamps are formed at a position corresponding to the surface of the specimen, and the large specimens can be heated within a short time through radiant heat that is directly radiated. Can be. This ensures stability and accuracy in measuring temperature stress, making testing easy.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 13.

1 is a plan view showing a temperature heating apparatus applied to the temperature heating test apparatus of the steel concrete or concrete test specimen according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the temperature heating apparatus shown in FIG. 3 is a view showing the temperature heating device shown in FIG.

The temperature heating test apparatus for steel concrete or concrete test specimens virtually heats test specimens of various structures such as large structures or small structures to evaluate the structural performance of the specimens. In other words, the temperature heating test apparatus is a large-structure test specimen, for example, the surface of the concrete shown in Figure 4 steel (steel) 134, the steel concrete of the concrete 132 structure of the instantaneous temperature rise occurring in the event of pipe breakage This test evaluates the structural performance of the specimen through virtual experiments in the following situations or in situations where other cracks may occur.

To this end, the temperature heating test apparatus of the steel concrete or concrete test specimen is a temperature heating apparatus 200 for virtually heating the steel concrete or concrete test specimen, and the temperature heating apparatus 200 to control the temperature according to the virtual situation desired by the user A temperature control unit for generating a temperature control signal, and a virtual heating supply unit for adjusting the temperature of the temperature heating apparatus 200 according to the temperature control signal supplied from the temperature control unit.

The temperature heating apparatus 200 virtually heats the steel concrete or the concrete test specimen 130 using the halogen lamp 110. To this end, the temperature heating device 200 is a halogen lamp heating device 100 having a plurality of halogen lamps 110, and the first and second test body support for supporting each end of each of the steel concrete or concrete specimen 130 (120,140).

As shown in FIGS. 1 to 3, as the size of the steel concrete or concrete test body 130 increases in size, a plurality of halogen lamp heating devices 100 may be disposed according to the size thereof. In the present invention, three halogen lamp heating devices 100 are arranged below the test body 130 to be described as an example.

The halogen lamp heating device 100 includes a halogen lamp seat 102 and a plurality of halogen lamps for storing and fixing a plurality of halogen lamps 110 arranged at regular intervals to heat the steel concrete or concrete test specimen 130. And a halogen lamp support 104 supporting the halogen lamp seat 102 containing the 110 therein.

The halogen lamp seating unit 102 has a rectangular frame shape, and a space for accommodating and supporting a plurality of halogen lamps 110 is provided therein. The halogen lamp seat 102 may use stainless steel so that there is no deformation even at high temperatures. In this case, the halogen lamp 110 encapsulates an inert gas, a halogen material, and a tungsten filament inside the bulb, and emits light by flowing a current through the filament. In addition, the plurality of halogen lamps 110 may narrow or widen the interval between the lamps 110 according to a temperature desired by a user or a temperature according to a virtual experiment.

The halogen lamp support 104 includes a height adjusting device 106 that supports the halogen lamp seat 102 and adjusts the height under the halogen lamp support 104. As such, the height adjustment device 106 may adjust the distance between the steel concrete or concrete test specimen and the plurality of halogen lamps 110.

The first and second test specimen supports 120 and 140 are disposed at and supported at both ends of the steel concrete or concrete test specimen 130, respectively. Each of the first and second test body supports 120 and 140 supports hinges 124 and 144 and a hinge support to support the hinges 124 and 144 so as to support the steel concrete or the concrete test body 130 and adjust the height of the test body 130. (122,142).

The temperature controller generates a temperature control signal to control the temperature according to the virtual situation desired by the user. In other words, the temperature controller generates a temperature control signal and supplies it to the virtual heating supply to program the temperature history to test the steel concrete or concrete test body 130 to adjust the high temperature in real time.

The virtual heating supply unit adjusts the temperature of the temperature heating apparatus according to the temperature control signal from the temperature control unit. For this purpose, the virtual heating supply has a power switch, a power controller, and an automatic control device as shown in FIGS. 5 and 6. For example, the power controller may use a TRP-3 power controller, and the automatic control device may use a UT351 controller. In this case, the automatic control device may use an automatic control device capable of displaying a large PV (Present Value) that can display at least four digits on the screen, and the input cycle is at least 100 to 250 ms, and the measurement input degree is short. Uses an automatic control device with a performance of ± 0.1% FS. The automatic control device receives a temperature control signal such as a thermocouple, a resistance thermometer, a DC voltage, and controls the relay, solid state relay (SSR), and current output by PID (Proportinal Integral Differential (PID)) control.

7 is a flowchart illustrating a temperature heating test method using a temperature heating apparatus according to an embodiment of the present invention, and FIG. 8 is a view illustrating a temperature heating test using a large steel concrete test body according to an embodiment of the present invention.

In the temperature heating test method using the temperature heating apparatus according to an embodiment of the present invention, generating a temperature control signal capable of adjusting a temperature according to a virtual situation (S12), and adjusting the temperature of the temperature heating apparatus according to the temperature control signal. Step S14, and the step (S16) of heating the test body of the steel concrete or concrete by the temperature heating device. Thus, the temperature heating test method using a temperature heating apparatus is demonstrated concretely.

In detail, a temperature control signal for controlling a temperature according to a virtual situation is generated from the temperature control unit and supplied to the virtual heating supply unit. (S12) The temperature control unit virtually allows the user to know the structural performance of the steel concrete or concrete test specimen. Program to adjust the temperature to be tested.

That is, FIG. 9 is a graph showing pressure and temperature according to time, and as shown in FIG. 9, the temperature controller virtually increases the temperature per second and lowers it after a predetermined time. The case will be described as an example. The temperature control unit generates a temperature control signal that instantaneously raises the halogen lamp temperature to a temperature of 180 ° C. (360 ° F.) in 1000 seconds and then gradually lowers the halogen lamp temperature in 10000 seconds, 100000 seconds ... To supply.

The virtual heating supply unit receives a temperature control signal having the above conditions from the temperature control unit and supplies the same to the temperature heating apparatus (S14).

Accordingly, it can be seen in FIG. 10 that the temperature heating device is instantaneously or stepwise adjusted in temperature by receiving the temperature control signal generated under the above conditions. (S16) That is, FIG. When the temperature of the halogen lamp of a temperature heating apparatus was adjusted on condition, the temperature with respect to the time of a large steel concrete test body is shown. It can be seen that the steel concrete is heated by the halogen lamp as shown in FIGS. 11 and 12 by heating the plurality of halogen lamps. Thus, the structural performance of a test body can be known using a temperature heating apparatus.

In addition, although the temperature may be adjusted under the conditions as shown in FIG. 9, in addition, as shown in FIG. 13, the test body may be tested by adjusting a temperature of a virtual situation desired by the user, and thus structural performance may be known.

Thus, the temperature heating test apparatus of the present invention can not only easily test the thermal characteristics of a large structure, but also visually observe the test progress, and can accurately measure the displacement caused by the temperature stress by installing a displacement meter outside the specimen. have.

In the detailed description of the present invention described above with reference to the preferred embodiment of the present invention, those skilled in the art or those skilled in the art having ordinary knowledge of the present invention described in the claims to be described later It is apparent that various modifications and changes can be made in the present invention without departing from the spirit and scope of the invention.

1 is a plan view illustrating a temperature heating apparatus applied to a temperature heating test apparatus of steel concrete or concrete test specimen according to an embodiment of the present invention.

2 is a cross-sectional view showing the temperature heating device shown in FIG.

3 is a view showing the temperature heating device shown in FIG.

Figure 4 is a perspective view showing the steel concrete to be tested virtually in the temperature heating apparatus according to the present invention.

5 is a view showing a virtual heating supply according to the present invention.

FIG. 6 is a diagram illustrating an internal configuration of the virtual heating supply unit illustrated in FIG. 5.

7 is a flowchart illustrating a temperature heating test method using a temperature heating apparatus according to an embodiment of the present invention.

8 is a view showing a temperature heating test using a large steel concrete test specimen according to an embodiment of the present invention.

9 is a graph illustrating a virtual temperature history curve according to an embodiment of the present invention.

FIG. 10 is a graph showing a test body having a temperature change according to the virtual temperature history curve shown in FIG. 9.

11 is a view showing a test specimen tested in accordance with an embodiment of the present invention.

FIG. 12 is a diagram illustrating an infrared image of a test object having a temperature change according to the virtual temperature history curve shown in FIG. 9.

13 is a graph showing a temperature change of a test specimen simulated in accordance with an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: halogen lamp heating device 102: halogen lamp seat

104: halogen lamp support 106: height adjustment device

110: halogen lamp 120140: first and second specimen support

122,142 hinge support 124,144 hinge

130: test body

Claims (15)

A halogen lamp heating device for heating steel concrete or concrete specimens of various structures such as a large structure or a small structure by using a plurality of halogen lamps; And a first and a second test body support for supporting each of both ends of the test body. The method of claim 1, The halogen lamp heating device A halogen lamp seat for accommodating and fixing the plurality of halogen lamps arranged at regular intervals; And a halogen lamp supporter for supporting a halogen lamp seating unit accommodating the plurality of halogen lamps. The method of claim 2, And the halogen lamp seat is made of stainless steel. The method of claim 2, The halogen lamp support is a temperature heating device, characterized in that it comprises a height adjustment device at the bottom to adjust the distance between the test body and the plurality of halogen lamps. The method of claim 2, The halogen lamp support A hinge for supporting both ends of the test piece of the concrete or concrete and adjusting the height of the test piece; And a hinge support for supporting the hinge. A temperature heating device for virtually heating steel concrete or concrete test specimens of various structures such as large structures or small structures by using a plurality of halogen lamps; A temperature controller configured to generate a temperature control signal to control the temperature of the temperature heating device according to a virtual situation desired by a user; And a virtual heating supply unit for adjusting the temperature of the temperature heating device according to the temperature control signal supplied from the temperature control unit. The method of claim 6, The temperature heating device A halogen lamp heating device for heating the test body using a plurality of halogen lamps; And a first and a second test body support for supporting each end of each of the test bodies. The method of claim 7, wherein The halogen lamp heating device A halogen lamp seat for accommodating and fixing the plurality of halogen lamps arranged at regular intervals; And a halogen lamp support for supporting a halogen lamp seating unit containing the plurality of halogen lamps. The method of claim 7, wherein At least one halogen lamp heating device is formed according to the size of the test body temperature heating test device. The method of claim 8, The plurality of halogen lamps is a temperature heating test device, characterized in that for narrowing or widening the interval between the lamps according to the virtual situation. The method of claim 8, The halogen lamp support is a temperature heating test device, characterized in that it comprises a height adjustment device at the bottom to adjust the distance between the test body and the plurality of halogen lamps. The method of claim 8, The halogen lamp mounting portion is a temperature heating test device, characterized in that using stainless steel. The method of claim 8, The halogen lamp support A hinge for supporting both ends of the test piece of the concrete or concrete and adjusting the height of the test piece; And a hinge support for supporting the hinge. Generating a temperature control signal for controlling a temperature according to a virtual situation through a temperature controller; Adjusting a temperature of a plurality of halogen lamps included in a temperature heating device through a virtual heating supply according to the temperature control signal; Temperature heating test method using a temperature heating device comprising the step of heating a test body of steel concrete or concrete by the plurality of halogen lamps. The method of claim 14, The step of generating a temperature control signal for controlling the temperature according to the virtual situation through the temperature control unit is to generate the temperature control signal to heat the temperature of the steel concrete or concrete specimen or to adjust the temperature step by step The temperature heating test method using the temperature heating apparatus characterized by the above-mentioned.

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