KR101893305B1 - Housing For Thermophysical Property Test Apparatus - Google Patents

Abstract

The present invention relates to a housing for a thermophysical property measurement device of a steel material and, more specifically, to a housing for a thermophysical property measurement device of a steel material, which inserts a deformation gauge installation device for inserting a deformation gauge into a heating furnace for measuring thermophysical property of a steel material specimen to easily insert the deformation gauge into the heating furnace without allowing heat inside the heating furnace to flow to the outside. According to one embodiment of the present invention, the housing for a deformation gauge installation device formed to insert the deformation gauge therein in a heating furnace to measure the thermophysical property of a steel material specimen comprises: a tubular body with a predetermined length; a locking step extended from the other end part of the body in a vertical direction; and an enclosing film having an incised part formed at a central part in a vertical plate shape with a predetermined size and formed inside the body to enclose the body. One side end part of the body is inserted into the deformation gauge installation device and an end part of the deformation gauge penetrates the incised part of the enclosing film to be inserted into the heating furnace.

Description

{Housing for Thermophysical Property Test Apparatus}

The present invention relates to a housing for a steel material thermometer, and more particularly, to a housing for a steel material thermometer, and more particularly, to a housing for measuring a thermal property of a steel material specimen by inserting a strain gauge for inserting a strain gauge into a heating furnace, The present invention relates to a housing for a steel thermophysical property measuring instrument capable of easily inserting a deformation measuring gauge into a heating furnace without being leaked to the outside.

Generally, steel materials used in buildings should be measured for thermal properties in case of fire or the like.

Therefore, heat is applied directly to the steel specimen and the thermal properties such as tensile force of the steel specimen are measured by a strain gauge or the like. However, when the steel specimen is inserted into the heating furnace, a strain gauge is installed on the steel specimen It is necessary to insert a strain gage into the furnace.

Therefore, an installation hole for inserting an additional strain gauge into the heating furnace is formed on one side of the heating furnace, and the thermal property of the steel specimen can be measured by inserting the strain gauge through the installation hole into the heating furnace Respectively.

However, since there is no cap covering such an installation port, the installation port is formed so as to penetrate the deformation measurement gauge, so that it must have a certain size. In such an installation port, heat inside the heating port is leaked to the outside So that it is difficult to accurately measure the thermal properties of the steel specimen.

As a background of the present invention, there is a patent registration No. 1654164 entitled " Tensile Compression Tensile Test Device and Method Therefor "(Patent Document 1). In the above-mentioned background art, 'a conductive plate which is closely attached to fix a grip plate of a specimen, an insulating block which is made of an insulating material and on which the conductor pressing plate is mounted, and an alignment plate fixing flange in which an alignment rod groove and an alignment groove are formed in a holder- And a pair of grip bodies which include a pressing block body to which the insulating block is mounted and in which the conductor pressing plates are opposed to and close to each other with the grip plate of the specimen interposed therebetween, A pair of grip parts for pressing and fixing together; A power supply line including a power supply line for supplying a power supply pulse to the power supply terminal and the power supply terminal; And a grip portion seating portion formed on one side of the grip portion so as to protrude from the grip portion and protruding from the grip portion and having an inner width narrowed toward the open side and wider toward the opposite side of the open side, A pair of holder portions to which the grip portions respectively mounted on one end of the specimen are mounted to provide tension or compressive force to the specimen; And a pair of reinforcing plates formed on opposite sides of a surface of the pair of buckling prevention plates which are in close contact with the connecting portions, And a pair of reinforcing plates which are located on the outer circumferential surface of the specimen and which are pressed against the specimen during the compression test of the specimen by providing an elastic force to the reinforcing plate, And a restoring elastic member for reducing the buckling force according to a change in the thickness of the buckling preventing jig.

However, in the background art, it is not possible to measure the thermal properties of the steel material in the closed heating furnace, so that no separate stopper member is required.

Patent No. 1654164 entitled " Tensile Compression Tester for Tensile Specimen &

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a strain gauge for inserting a strain gauge into a heating furnace for measuring the thermal properties of a steel specimen, It is possible to easily insert a strain gauge into the heating furnace without heating and to heat the steel specimen with a specific temperature uniformly so that the steel material thermometer can be accurately and easily measured. The purpose is to provide.

The present invention relates to a housing for a strain gauge fitting for fitting a strain gauge fitting for inserting a strain gauge in a heating furnace for measuring the thermal properties of a steel specimen, the housing comprising: a body having a predetermined length; A knurl extending in a direction perpendicular to the other end of the body; And a closure membrane which is formed in the inside of the main body so that a cut portion is formed at a central portion in a vertical plate shape of a predetermined size and the main body is closed, and one end portion of the main body is fitted in the strain gauge fitting, And the end of the measuring gauge is inserted into the heating furnace through the cut-out portion of the closing membrane, thereby providing a housing for a steel material thermometer.

The present invention also provides a housing for a steel thermophysical property measuring device, wherein a plurality of closing membranes are formed at regular intervals in the body.

Also, it is intended to provide a housing for a steel thermophysical property measuring device, characterized in that the closing membrane is formed of soft silicon.

The housing for a steel material thermometer of the present invention is inserted into a strain gauge mounting hole for inserting a strain gauge into a heating furnace for measuring the thermal properties of a steel specimen so that the heat inside the heating furnace can be easily So that it is possible to uniformly heat the steel specimen at a specific temperature, so that it is possible to accurately and easily measure the thermal stability of the steel specimen.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of an embodiment of a heating furnace in which a housing for a steel material thermal property measuring instrument of the present invention is used.
Fig. 2 is a cross-sectional view of Fig. 1; Fig.
3 is an exploded perspective view of the housing for a steel thermophysical property measuring instrument of the present invention.
4 is a sectional view of the coupled state of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

FIG. 1 is a perspective view of an embodiment of a heating furnace using a housing for a steel thermophysical property measuring instrument of the present invention, and FIG. 2 is a sectional view of the above-described FIG. 1.

1 and 2, the housing 70 for a steel material thermal property measuring instrument according to the present invention is characterized in that the deformation measuring gauge 50 in the heating furnace 10 for measuring the thermal properties of the steel specimen 2 is inserted So that the deformation measuring gauge can be easily inserted into the heating furnace without the heat inside the heating furnace 10 flowing out to the outside.

An embodiment of the heating furnace 10 in which the housing 70 of the present invention is used will be briefly described. Inside the heating furnace 10, in which heat coil or the like of a predetermined size is built in, The strain gauge 50 is inserted into the heating furnace 10 in order to position the steel specimen 2 and measure the thermal properties of the steel specimen 2. [

At this time, for insertion of the gauge portion of the deformation measuring gauge 50, a strain gauge fitting portion 15 of a predetermined size is passed through a side of the heating furnace 70 so that the inside and the outside of the heating furnace 10 are communicated with each other, And the deformation measuring gauge 50 is inserted through the gauge mounting hole 15. [

The deformation measuring gauge 50 inserted into the heating furnace 10 is fixed to the steel sample piece 2 to heat the inside of the heating furnace 10 and to measure the thermal properties of the steel sample piece 2 at a specific temperature Is measured by the deformation measuring gauge (50).

According to the present invention, the strain gauge fitting 15 of the heating furnace 10 is closed to prevent the heat inside the heating furnace 10 from flowing out, and at the same time, the strain gauge 50 can be easily inserted .

FIG. 3 is an exploded perspective view of a housing for a steel thermophysical property measuring instrument of the present invention, and FIG. 4 is a sectional view of the coupled state of FIG.

As shown in FIGS. 3 and 4, the housing 70 for a steel thermophysical property measuring instrument of the present invention comprises: a main body 71 of a tubular shape having a predetermined length; An engaging pin 72 extending in a direction perpendicular to the other end of the main body 71; And a closing membrane 73 formed inside the main body 71 so that a cutout portion 731 is formed at a central portion in a vertical plate shape having a predetermined size and the main body 71 is closed, 10) to be fixed to the steel specimen (2).

Since the main body 71 is fitted in the strain gauge fitting 15, the shape of the cross section is the same as the shape of the strain gauge fitting 15 and the size of the cross section is the same as the strain gauge fitting 15 So that it can be held firmly in the strain gauge fitting 15 of the heating furnace 10 and fixed without any fixing means.

The length of the main body 71 is formed to be the same as or similar to the thickness of the wall of the heating furnace 10 so that the closing membrane 73 is formed therein.

Since the engaging jaw 72 is extended in the direction perpendicular to the other end of the main body 71 so that the engaging jaw 72 reaches the heating furnace 10 And serves to double the spacing space between the strain gauge fitting 15 and the housing 70 so that the inside of the heating furnace 10 So that the heat of the heat exchanger is not lost to the outside.

Particularly, in the present invention, a separate closing membrane 73 is formed inside the main body 71 to close the end face of the main body 71.

The deformation measuring gauge 50 has a variety of known products and the gap and size of the gauge portions are different so that the closure film 73 is provided with a cutout portion 731 in the vertical direction, So that it can be inserted into the heating furnace 10 through the cutout portion 731 irrespective of the size and size of the gauge portion.

The closing membrane 731 is made of a soft material having heat resistance so that the gauge portion of the deformation measuring gauge 50 can easily be inserted through the cut portion 731 and the cut portion 731 can be easily So that the heat inside the heating furnace 10 can be prevented from flowing out to the outside.

Particularly, a single closing membrane 73 may be provided inside the main body 71 to close the end face, but a plurality of the closing membrane 73 may be formed at regular intervals in the main body 71, So that the inside and the inside of the heating furnace 10 can be completely shut off.

The housing 70 of the present invention may be formed of various known materials having heat resistance, and may be integrally formed of the same material or separately.

Particularly, the closing membrane 73 can use various known heat-resistant synthetic resins, and in particular, it is possible to use silicone having high heat resistance, weather resistance, etc. and excellent ductility.

The gauges of the deformation measuring gauges 50 can be easily inserted through the cutouts 731 by using soft silicon and the cuts can be effectively closed after the inserts are inserted to effectively cut the inside and the outside of the heating furnace 10 have.

The housing for a steel material thermometer of the present invention as described above is inserted into a strain gauge mounting hole for inserting a strain gauge into a heating furnace for measuring the thermal properties of a steel specimen so that the heat inside the heating furnace does not flow out It is possible to easily insert the deformation measurement gauge into the heating furnace without heating the steel sheet, and it is possible to uniformly heat the steel specimen at a specific temperature, thereby making it possible to accurately and easily measure the thermal stability of the steel specimen.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

2: Steel specimen
10: heating furnace
15: Deformation gauge mounting hole
50: strain gauge
70: Housing for measuring steel thermal properties
71:
72: Girls sleep
73: closure membrane
731:

Claims (3)

A strain gauge mounting structure (15) for fitting a strain gauge (50) in a heating furnace (10) for measuring the thermal properties of a steel specimen,
A main body 71 of a tubular shape having a predetermined length; An engaging pin 72 extending in a direction perpendicular to the other end of the main body 71; A cut-away portion 731 is formed at a central portion in a vertical direction and formed in a shape of soft silicon, and a plurality of shut-off films 73 (73) are provided inside the body 71 so as to close the body 71, ), ≪ / RTI >
The end portion of the deformation measuring gauge 50 penetrates through the cut portion 731 of the closing membrane 73 and flows into the heating furnace 10 So that it is inserted into the housing. delete delete

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