KR101734360B1 - Bending And Fatigue Tester Of Coldest place Building Material - Google Patents

Abstract

The present invention relates to an apparatus to test fatigue and bending of a building material of a coldest site. More specifically, the present invention relates to an apparatus to test fatigue and bending of a building material of a coldest site having a load support and a room chamber having a heat blocking air layer to minimize deformation of the load support and damage to the load support. The present invention comprises: a main body (10); the room chamber (20); a temperature control unit (40); and a press unit (50).

Description

{Bending And Fatigue Tester Of Coldest place Building Material}

The present invention relates to an ultimate ground bending and fatigue tester, and more particularly, to an apparatus and a method for suppressing cooling heat transmitted to a floor of a building on which a fatigue tester is installed to prevent safety and harmful environment of the building, To a bending and fatigue tester of extreme geotechnical materials having a room chamber and a load support for forming a short-circuited thermal air layer for minimizing deformation and breakage of the load support by keeping the temperature constant.

A material tester is a device that measures the physical properties of a material by applying a load to the material. Basically, it consists of a load part, a load measuring part, and other accessories. In order to measure the temperature characteristics of the material, a temperature control device such as a furnace for a high temperature or a chamber for a low temperature is installed. However, the temperature control device provided in many testing machines is mainly concerned with a space in which a test object of a testing machine is installed as shown in FIG. 1, and a type that is locally mounted on a load support. In order to perform the bending and fatigue tests of a bulky and heavy-weight test piece, such as a reinforced concrete structure, it is common to install an actuator on the upper part of the testing device, not to install the actuator on the lower part of the testing device. It is difficult to install a temperature control device.

In order to understand the physical properties of the concrete used in the extreme ground, the material test should be carried out under the conditions of use. Therefore, the bending and fatigue test should be carried out at a temperature of -60 to 60 degrees, which is an environment of extreme ground. A room chamber is required to maintain a constant temperature between -60 and 60 degrees in order to establish the test conditions for this extreme paper.

In a situation where the temperature in the room chamber is maintained at -60 degrees, a sudden temperature difference from the floor of the building where the tester is installed causes a severe thermal stress on the load support for supporting the specimen, and the damage is likely to occur.

In order to prevent this, it is necessary to use a heat insulating material to prevent the transmission of cooling heat. However, materials having the same strength as that of a steel material used as an insulating material are not common, and when such a material is used, an accurate test load can not be applied And thermal stress is generated in the floor of the concrete due to the severe temperature difference due to the insulating material passing through the room chamber itself, thereby causing serious damage to the building.

In addition, condensation is generated in the lower layer of the building where the tester is installed, causing mold

, As well as electrical stability such as corrosion and leakage of equipment and equipment installed by the falling water.

(Patent Document 0001) Korean Patent Registration No. 10-0413063 (December 15, 2003)

(Patent Document 0002) Korean Patent Publication No. 10-1381808 (Apr. 31, 2014)

In order to solve the above-described problems, the present invention provides a room chamber which maintains a temperature of -60 degrees in order to form an air layer having a constant temperature in the inside of a specimen support frame on which a test piece is installed, And prevents the deformation and breakage of the specimen support caused by the sudden temperature difference between the cooling heat of the building and the floor of the building. Also, the air layer effectively blocks the cooling heat of the room chamber, which is transmitted to the floor of the building where the fatigue tester is installed, And to provide a bending and fatigue tester of extreme geotechnical materials.

The bending and fatigue tester of the present invention has a column 110 installed vertically on the building floor 1 and spaced apart from the floor 1 and vertically extending to the upper portion of the lower plate 100, A main body 10 provided with an upper support 120 extending laterally so as to support both lower ends thereof;

A door 200 is installed on the front side of the body 10 and an inner test temperature of -60 degrees is maintained inside the body 10 and a test piece supporting part of the test piece is supported by the center opening 212 of the bottom plate 210 A room chamber 20 in which an air flow space accommodated in the bottom plate 210 and communicating with the interior of the sample supporting unit 30 is formed;

A cooling air supply pipe 400 and a cooling air discharge pipe 410 for supplying and discharging cooling air to and from the room chamber 20 are installed and the bottom plate 210 of the room chamber 20 and the specimen supporting unit 30 A temperature control unit 40 provided with an air-layer air supply pipe 430 and an air-layer air discharge pipe 440 for supplying and discharging air so that an air layer having a constant temperature is formed in the internal air flow space of the air-

A presser plate 514 provided at a central portion of the upper support 120 and applying a press load to the test piece at the lowermost portion is inserted through the upper support 120 and the upper portion of the room chamber 20, .

The present invention relates to an apparatus and a method for controlling the temperature of a room chamber and a method of controlling the temperature of the room, It is possible to reduce the damage and deformation of the specimen support portion and to prevent the cooling heat inside the room chamber from being transmitted to the floor of the building by effectively blocking the air layer at a certain temperature, It is possible to secure the safety of the building while suppressing the formation of condensation on the living room, and it is possible to protect the devices installed on the lower layer of the building, and thus, the effect of space utilization can be expected.

1 is a sectional view of a conventional fatigue testing machine.
2 is a perspective view of a fatigue testing machine according to the present invention.
3 is a detailed view of the inside of a room chamber of a fatigue testing machine according to the present invention.
4 is a detailed view of a configuration of a fatigue testing machine according to the present invention except for a room chamber;
5 is a plan view of a fatigue testing machine according to the invention.
6 is an exploded view of a specimen supporting part of a fatigue testing machine according to the present invention.
7 is a schematic view illustrating operation of a temperature controller of a fatigue testing machine according to the present invention.
8 and 9 are temperature comparisons of a fatigue testing machine according to the present invention.

The bending and fatigue tester of the present invention has a column 110 installed vertically on the building floor 1 and spaced apart from the floor 1 and vertically extending to the upper portion of the lower plate 100, A main body 10 provided with an upper support 120 extending laterally so as to support both lower ends thereof;

A door 200 is installed on the front side of the body 10 and an inner test temperature of -60 degrees is maintained inside the body 10 and a test piece supporting part of the test piece is supported by the center opening 212 of the bottom plate 210 A room chamber 20 in which an air flow space accommodated in the bottom plate 210 and communicating with the interior of the sample supporting unit 30 is formed;

A cooling air supply pipe 400 and a cooling air discharge pipe 410 for supplying and discharging cooling air to and from the room chamber 20 are installed and the bottom plate 210 of the room chamber 20 and the specimen supporting unit 30 A temperature control unit 40 provided with an air-layer air supply pipe 430 and an air-layer air discharge pipe 440 for supplying and discharging air so that an air layer having a constant temperature is formed in the internal air flow space of the air-

A presser plate 514 provided at a central portion of the upper support 120 and applying a press load to the test piece at the lowermost portion is inserted through the upper support 120 and the upper portion of the room chamber 20, .

A plurality of room chamber air layer reinforcements 211 are formed in the bottom plate 210 of the room chamber 20 so as to be equally spaced and orthogonal to each other. A plurality of air flow holes 390 having a communicating structure with the room chamber air layer supporting ribs 211 are formed to allow a predetermined temperature of air supplied from the air layer air supply pipe 430 to flow into the bottom plate 210 and the specimen supporting part 30, as shown in FIG.

In addition, a circulation fan 220 is installed inside the room chamber 20 to control the pressure inside the room chamber 20 and to maintain the internal temperature uniformly.

Also, a temperature sensor 230 is installed inside the room chamber 20 so that a test temperature inside the room chamber 20 can be maintained at -60 degrees.

The specimen supporting unit 30 includes a lower support plate 300 having a plurality of rod-like specimen air layer ribs 301 extending in the longitudinal direction on the upper surface thereof, an upper support plate 300 installed on the upper portion of the lower support plate 300, Right and left side support rods 320 and 330 installed on both sides of the upper and lower support plates 310 and 300 and a plurality of air flow through holes 390 The upper and lower support plates 340 and 350 are installed on the front and rear surfaces of the upper and lower support plates 310 and 300 and the bending block 370 is installed on the upper support plate 310 to fix the test piece thereon. The bending block in which the "T" groove 361 is formed so as to be movable forward and rearward is composed of a copper plate 360 and a temperature sensor 380 installed on the upper part of the lower support plate 300 for measuring the internal temperature .

The pressing unit 50 is installed on the upper support 120 and includes a crosshead 500 that moves up and down along the head guide 502 by head cylinders 503 on both sides, And an actuator 510 installed on the lower portion of the upper support 120 to load the test piece with a load 512 having a load cell 513 and a pressure plate 514 mounted thereon.

The air layer formed in the room chamber 20 and the specimen supporting part 30 is heated to a predetermined temperature between 10 and 15 degrees according to the temperature inside the room chamber 20 and the degree of the cooling heat transmitted to the building floor 1. [ .

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

FIG. 1 is a sectional view of a conventional fatigue testing machine, FIG. 2 is a perspective view of a fatigue testing machine according to the present invention, FIG. 3 is a detailed view of the interior of a room chamber of a fatigue testing machine according to the present invention, FIG. 5 is a plan view of a fatigue testing machine according to the present invention, FIG. 6 is an exploded view of a specimen supporting part of a fatigue testing machine according to the present invention, and FIG. 7 is a view showing a fatigue testing machine according to the present invention. 8 and 9 are temperature compares of the fatigue testing machine according to the present invention.

2 and 3, the fatigue testing machine according to the present invention includes a main body 10, a room chamber 20, a specimen supporting portion 30, a temperature regulating portion 40, and a pressing portion 50, do.

As shown in FIGS. 2 and 4, the main body 10 includes a lower plate 100 installed on a floor 1 of a building made of concrete and spaced left and right by a predetermined distance, do. A column 110 is vertically extended to the upper portion of each of the left and right lower plates 100. The upper portion of the column 100 is laterally extended so that both sides thereof are supported by the column 100 And upper supports 120 installed on the upper portions of the pillars 100 at both lower ends thereof.

As shown in FIGS. 2 and 3, the room chamber 20 is installed on the upper side of the building floor 1 and inside the main body 10. The room chamber 20 is formed by bending a test piece made of concrete or the like, In order to perform the fatigue test, the internal temperature of the test piece is measured by the temperature regulating part 40 at the time of bending and fatigue test of the test piece in the form of a square box having an opening / -60 < / RTI >

At this time, it is preferable that the room chamber 20 is made of a sandwich panel filled with polyurethane foam between the steel plates so as to be able to maintain an effective heat trajectory and shape. The bottom plate 210, which is the lower end of the room chamber 20, Sandwich panels are excluded for air layer formation for the stages.

The bottom plate 210 formed at the lower portion of the room chamber 20 is formed with an opening 212 at a central portion thereof to receive the specimen supporting portion 30.

A plurality of room chamber air layer reinforcing ribs 211 having a plurality of through holes are formed at equal intervals and orthogonal to each other so as to maintain the shape of the bottom plate 212, So that a flow space of air supplied from the regulating unit 40 is formed.

The air of a predetermined temperature supplied from the temperature control unit 40 flows freely between the room chamber air layer reinforcements 211 inside the bottom plate 212 and is discharged to the floor plate 212 of the room chamber 20 The cooling air in the room chamber 20 in which the test temperature is maintained at -60 degrees is blocked by the air layer from being transmitted to the building floor 1 and the cooling heat inside the room chamber 20 and the building floor 1 ), Which is caused by a severe temperature difference of the thermal stress.

The test piece supporting part 30 is mounted on the upper part of the room chamber 20 to support the load of the test piece and is received in the room chamber 20 and has an opening 212 in the opening part 212 of the bottom plate 210 of the room chamber 20 212 are sealed.

The specimen supporting part 30 is damaged by the thermal stress due to the difference between the internal temperature of the room chamber 20 and the temperature of the building floor 1, A plurality of air flow holes 390 having a mutual communication structure with the room chamber air layer reinforcing bars 211 provided on the bottom plate 210 of the room chamber 20 are formed in the lower portion of the specimen supporting portion 30 The air of a predetermined temperature supplied from the temperature control unit 40 flows freely not only inside the bottom plate 210 of the room chamber 20 but also inside the specimen supporting unit 30 so that an air layer can be formed.

The temperature of the air layer formed in the room chamber 20 and the specimen supporting part 30 is preferably maintained at a temperature of 10 degrees to 15 degrees. In this case, the temperature of the air layer is always maintained at 10 degrees to 15 degrees, (1) and the thermal stress caused by the temperature difference do not occur.

As shown in FIG. 6, the specimen supporting unit 30 includes a plurality of rod-like specimen air layer reinforcing bars 301 arranged at equal intervals and extending in the longitudinal direction, A lower support plate 300 on the lower support plate 300 is provided at the lowermost portion and an upper support plate 310 in the form of a plate corresponding to the lower support plate 300 is provided at an upper portion of the lower support plate 300, Left, right, front and rear side supports 320, 330, 340, and 350 are installed on the left, right, front and rear sides of the support plate 300 to support the upper support plate 310 and the lower support plate 300 .

The upper and lower ends of the left and right side support rods 320 and 330 are bent outward so that the left and right side support rods 320 and 330 are correspondingly coupled to the opening 212 of the room chamber 20, A plurality of the air flow holes 390 are formed at equal intervals in the left and right side support rods 320 and 330 and the front and rear support rods 340 and 350 so that the upper support plate 310 and the lower support plate 300 Thereby enabling the flow of air between them.

A bending block 360 is installed on a top surface of the upper support plate 310 and a bending block 370 on which a test piece is mounted and fixed without moving the test piece. Quot; T "groove 561 is formed so that the bending block 370 is moved back and forth to fix the test piece, so that the lower surface of the bending block 370 is connected to the" T "groove 561 And the like.

4 and 5, the temperature control unit 40 supplies and discharges cooling air into the room chamber 20 and supplies the cooling air to the lower end of the room chamber 20 and the inside of the specimen supporting unit 30 So that the internal temperature of the room chamber 20 and the temperature of the air layer are always kept constant during the test.

The temperature control unit 40 includes a cooling air supply pipe 400 and a cooling air discharge pipe 410 which are installed outside the main body 10 to supply and discharge the cooling air into the room chamber 20, The temperature control unit 40 is provided to penetrate into the room chamber 20 and to supply air at a predetermined temperature to the lower end of the room chamber 20 and the lower portion of the specimen supporting unit 30, An air layer air supply pipe 430 and an air layer air discharge pipe 440 having an air circulation structure for discharging the air are installed in the bottom plate 210 of the room chamber 20 and extend through the temperature control unit 40, respectively.

7, the temperature controller 40 controls the operation of the internal cooler 460, the heat exchanger, and the suction fan 470 by the operation of the temperature controller 450 at the time of testing, as shown in a schematic operation diagram of the temperature controller 40 shown in FIG. The cooling air supply pipe 400 continuously supplies the cooling air to the inside of the room chamber 20 so that the interior of the room chamber 20 can maintain a testing temperature of -60 degrees,

Air in the air layer air supply pipe 430 is continuously supplied to the inside of the bottom plate 210 of the room chamber 20 and the interior of the specimen supporting portion 30 at a constant temperature of 10 ° to 15 °, An air layer for maintaining an image of 10 degrees to 15 degrees is formed below the specimen support portion 30,

And has an air circulation structure in which air is discharged through the cooling air discharge pipe 410 and the air layer air discharge pipe 440 according to the temperature inside the room chamber 20 and the temperature of the air layer.

Temperature sensors 230 and 380 are installed on the lower support plate 300 of the room chamber 20 and the specimen supporting part 30 so that the internal temperature of the room chamber 20 and the temperature of the air layer can be maintained at a constant temperature during the test And displays the internal temperature on the temperature display unit 480. When the internal temperature is out of the set temperature, it sends a signal to the temperature controller 450 to manually or automatically supply and discharge air.

A circulation fan 220 is installed inside the room chamber 20 to regulate the internal pressure by the cooling air continuously supplied to the inside of the room chamber 20 and to uniformly adjust the internal temperature.

4, the pressing unit 50 is installed on the upper support 120 to apply a pressing load to the test piece in the room chamber 20 and measure the compression load. The pressing unit 50 is disposed on the upper side of the upper support 120, And an actuator 510 operated by the crosshead 500 to apply a pressing load to the test piece.

The crosshead 500 is provided with a head guide 502 vertically installed so as to be opposed to the left and right at the center of the upper surface of the upper support 120 so as to pass through both sides of the crosshead 500, A head cylinder 503 for raising and lowering the crosshead 500 is provided so that the crosshead 500 is lifted upward and downward along the head guide 502 by the operation of the head cylinder 503. [

The actuator 510 is installed vertically through the center of the crosshead 500. The actuator rod 512 installed below the actuator 510 is provided with a load cell 513 on the upper side and a pressure plate 514 on the lowermost end. The pressure plate 514 provided on the actuator rod 512 applies an indentation load to the upper portion of the test piece while the actuator 510 is operated by moving up and down of the crosshead 500. In the load cell 513, The load is measured.

The temperature control unit 40 and the pressing unit 50 are controlled by the temperature control unit 40 and the pressing unit 50, Is not a core technology of the present invention, so a detailed description thereof will be omitted.

As shown in FIGS. 8 and 9, the fatigue tester according to the present invention has an air chamber at a temperature of 10 to 15 degrees at a lower portion of a room chamber and a specimen supporting portion, It can be seen that the temperature which is transmitted to the floor of the building is significantly different from the case where the air chamber is not formed in the room chamber and the specimen supporting portion, It is possible to prevent the damage of the specimen support portion and the damage and safety of the building caused by the rapid temperature difference between the room temperature and the floor of the building.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many obvious changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

1- Building Floors
10- Body
100-bottom plate
110-pillar
120-upper support
20-Room Chamber
200-opening door
210-bottom plate
212-
211-Room Chamber Air Layer Reinforcement
220-circulating fan
230-temperature sensor
30-specimen support
300-lower support plate
301-Specimen Air Layer Reinforcement
310-upper support plate
320-left side support
330-right side support
340-front support
350-rear support
The 360-bending block is a copper plate
370-Bending Block
40-
400-Cooling air supply line
410-Cooling air discharge pipe
430-air-layer air supply pipe
440-Air layer air outlet pipe
50-
500-crosshead
502-head guide
503-head cylinder
510-Actuator
512-load
513-load cell
514-Plate

Claims (7)

A lower plate 100 is installed on a building floor 1 so as to be spaced left and right and a column 110 extending vertically to the upper portion of the lower plate 100, A main body 10 provided with a support 120;
A door 200 is installed on the front side of the body 10 and an inner test temperature of -60 degrees is maintained inside the body 10 and a test piece supporting part of the test piece is supported by the center opening 212 of the bottom plate 210 A room chamber 20 in which an air flow space accommodated in the bottom plate 210 and communicating with the interior of the sample supporting unit 30 is formed;
A cooling air supply pipe 400 and a cooling air discharge pipe 410 for supplying and discharging cooling air to and from the room chamber 20 are installed and the bottom plate 210 of the room chamber 20 and the specimen supporting unit 30 A temperature control unit 40 provided with an air-layer air supply pipe 430 and an air-layer air discharge pipe 440 for supplying and discharging air so that an air layer having a constant temperature is formed in the internal air flow space of the air-
A presser plate 514 provided at a central portion of the upper support 120 and applying a press load to the test piece at the lowermost portion is inserted through the upper support 120 and the upper portion of the room chamber 20, Respectively,
A plurality of room chamber air layer reinforcing bars 211 are formed in the bottom plate 210 of the room chamber 20 so as to be equally spaced and orthogonal to each other. A plurality of air flow holes 390 having a communication structure with the room chamber air layer reinforcing bars 211 are formed and air having a predetermined temperature supplied from the air layer air supply pipe 430 flows into the bottom plate 210 And an air layer is formed inside the lower part of the specimen supporting part (30). delete The method according to claim 1,
Wherein a circulation fan (220) is installed inside the room chamber (20) to adjust the pressure inside the room chamber (20) and to maintain the internal temperature uniformly. The method according to claim 1,
Wherein a temperature sensor (230) is installed inside the room chamber (20) so that a test temperature inside the room chamber (20) can be maintained at -60 degrees. The method according to claim 1,
The specimen supporting part 30 includes a lower supporting plate 300 having a plurality of rod-shaped specimen air layer reinforcing bars 301 extending in the longitudinal direction on the upper surface thereof,
The upper and lower support plates 310 and 300 are installed on both sides of the upper and lower support plates 310 and 300. The upper and lower support plates 310 and 310 are installed on the upper and lower support plates 300 and 300, The front and rear support rods 340 and 350 are installed on the front and rear surfaces of the upper and lower support plates 310 and 300 and the upper and lower support plates 340 and 350 are formed with the right side support rods 320 and 330 and a plurality of air flow holes 390. And a bending block 370 for fixing the test piece to the upper portion of the lower supporting plate 300 and a bending block having a "T" And a temperature sensor (380) for measuring an internal temperature of the bending and fatigue tester. The method according to claim 1,
The pressing unit 50 is installed on the upper support 120 and includes a crosshead 500 that ascends and descends along the head guide 502 by the head cylinders 503 on both sides, And an actuator 510 installed below the upper supporter 120 for applying a load to the test specimen is provided with a rod 512 on which a load cell 513 and a pressure plate 514 are mounted. Bending and fatigue tester of building materials. The method according to claim 1,
Wherein the air layer formed in the room chamber (20) and the specimen supporting part (30) is maintained at a temperature of 10 degrees to 15 degrees.

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