KR101362798B1 - Apparatus for measuring coefficient of overall heat transmission - Google Patents

Abstract

An apparatus for measuring heat permeability according to the present invention includes: a chamber including an outdoor condition chamber in which an artificial weather condition is set and an indoor condition chamber in which an indoor temperature condition is set; A test object fixing frame installed between the outdoor condition chamber and the indoor condition chamber and to which the test object is fixed; A calorie measurement device provided in the interior condition chamber and measuring the amount of heat flowing through the test body; And an electromagnet fixing device for fixing the test object fixing frame to the calorimetry using an electromagnet.

Description

Heat permeability measuring device {APPARATUS FOR MEASURING COEFFICIENT OF OVERALL HEAT TRANSMISSION}

The present invention relates to a thermal permeability measuring device, and more particularly, to a thermal permeability measuring device that can easily fix the test specimen fixed frame and the calorimeter.

Heat permeation rate is defined as the amount of heat flowing through a building member when there is a unit time, unit area, or unit temperature difference.

Heat permeability is an important measure in evaluating the performance of building members, such as windows and the like, because it refers to thermal insulation performance in which outdoor heat flows into the room or heat flows out of the room.

In order to measure the thermal permeability, the specimen is coupled to the specimen holding frame, and the specimen holding frame is brought into close contact with the chamber. The heat permeability of the test body is measured by measuring the amount of heat passing through the test body by applying heat to the chamber.

When measuring the thermal permeability of the test specimen, it is important to prevent heat from leaking between the test specimen fixed frame and the chamber. It is necessary to fix the specimen holding frame firmly to the chamber to prevent heat from leaking between the specimen holding frame and the chamber.

In the related art, in order to fix the test object fixing frame firmly to the chamber, the worker fixed using a fastening member such as a bolt. As described above, since the operator has to fix the test object fixing frame to the chamber by using a fastening member such as a plurality of bolts, it takes a lot of time.

In addition, since the operator must fix the test object fixing frame to the chamber by using the fastening member, the fastening force of the fastening member is not uniform for each part. If the fastening force of the fastening member is not uniform for each part, there is a problem that it is difficult to measure the exact heat permeability value.

If the fastening force is too strong on the fastening member, a physical force is applied to the test specimen fixed frame or the test specimen, and a stress occurs in the test specimen fixed frame or the test specimen. As described above, when stress is generated in the test specimen fixed frame or the test specimen, there is a problem in that it is difficult to accurately measure the value of the thermal permeability of the test specimen.

The present invention is to solve the above problems, an object of the present invention is to provide a heat permeability measuring device that can quickly fix the test body to the heat permeability measuring device can shorten the heat permeation measurement time.

Still another object of the present invention is to provide a heat permeability measuring device capable of improving the heat permeability measurement accuracy by fastening the test specimen fixing frame with a uniform fastening force to prevent stress from occurring in the test specimen fixing frame or the test specimen.

An apparatus for measuring heat permeability according to an aspect of the present invention includes a chamber including an outdoor condition chamber in which an artificial weather condition is set and an indoor condition chamber in which an indoor temperature condition is set; A test object fixing frame installed between the outdoor condition chamber and the indoor condition chamber and to which the test object is fixed; A calorie measurement device provided in the interior condition chamber and measuring the amount of heat flowing through the test body; And an electromagnet fixing device for fixing the test object fixing frame to the calorimetry using an electromagnet.

The electromagnet fixing device may include an electromagnet provided in the calorimeter and having a magnetism when a current flows, and an iron plate provided in the test object fixing frame and pulled toward the electromagnet when the electromagnet has magnetism.

The electromagnet may be continuously installed along the edge of the calorimeter.

When the iron plate is pulled toward the electromagnet may further have a close contact means for the fixed frame is in close contact with the calorimeter.

The contact means is installed to protrude more than the electromagnet, it may be formed of an elastic body having elasticity.

The elastic body may be provided at both sides of the electromagnet, and may be formed of an air tube including air therein.

A lower portion of the calorimeter may be provided with a moving means to move the calorimeter.

An apparatus for measuring heat permeability according to another aspect of the present invention includes an outdoor condition chamber in which an artificial weather condition is set up outdoors; An indoor condition chamber in which room temperature conditions are set and installed to move forward or backward with respect to the outdoor condition chamber; A test object fixed frame fixed to the test body and installed to slide between the outdoor condition chamber and the indoor condition chamber; A calorie measurement device which is installed to be movable in the indoor condition chamber and measures the amount of heat flowing through the test body; And an electromagnet fixing device for fixing the test object fixing frame to the calorimetry using an electromagnet.

The electromagnet fixing device may include an electromagnet provided in the calorimeter and having a magnetism when a current flows, and an iron plate provided in the test object fixing frame and pulled toward the electromagnet when the electromagnet has magnetism.

An end portion of the calorie measurement device is provided with a close contact means for closely contacting with the test body fixed frame, the electromagnet is provided in a plurality of the calorie measurement device, it may be installed on the rear side than the close contact means.

A latching means for engaging the indoor condition chamber with the outdoor condition chamber, and a movement to move the indoor condition chamber forward or backward with respect to the outdoor condition chamber while the indoor condition chamber is caught with the outdoor condition chamber; Means may be further provided.

Ends of the outdoor condition chamber and the indoor condition chamber may be provided with a gasket to be in close contact with the test object fixing frame to prevent leakage of heat.

According to the heat permeability measuring device according to the present invention, the test body fixed frame provided with the test body can be temporarily fixed to the chamber by using the electromagnet can shorten the heat permeability measurement time.

The specimen holding frame to which the specimen is fixed can be fixed to the chamber with uniform force, and the stress can be prevented from occurring in the specimen or the specimen holding frame, so that the thermal permeability of the specimen can be accurately measured.

1 is a cross-sectional view showing the overall appearance of the apparatus for measuring heat permeability according to an embodiment of the present invention.
Figure 2 is a plan view showing the overall appearance of the apparatus for measuring heat permeability according to an embodiment of the present invention.
Figure 3 is a detailed view of the outdoor condition chamber in the heat transmission rate measuring apparatus according to an embodiment of the present invention.
Figure 4 is a detailed view of the indoor condition chamber in the heat permeability measuring device according to an embodiment of the present invention.
Figure 5 is a detailed view of the electromagnet fixing device provided in the heat transmission rate measuring device according to an embodiment of the present invention.
6 is a front view of an electromagnet fixing device according to a modified embodiment.
7 is a detailed view of an electromagnet fixing device according to a modified embodiment.

Hereinafter, with reference to the accompanying drawings will be described in detail the heat transmission rate measuring apparatus according to an embodiment of the present invention.

1 is a cross-sectional view showing the overall appearance of the apparatus for measuring heat permeability according to an embodiment of the present invention, Figure 2 is a plan view showing the overall appearance of the apparatus for measuring heat permeability according to an embodiment of the present invention.

1 and 2, the apparatus for measuring heat permeability according to an embodiment of the present invention includes a test body fixing frame 10 in which a test body T is fixed, a chamber 20 in which conditions such as temperature are set, and a chamber. (20) It is provided with a control device 30 for controlling various devices installed inside to set the weather conditions and the like in the chamber (20).

The chamber 10 includes an outdoor condition chamber 100 in which an outdoor artificial weather condition is set and fixed to the floor, and an indoor condition chamber 200 in which the indoor temperature condition is set and movable in the floor.

Since the windows and the like are installed at the part forming the boundary between the outdoor and the indoor, the test body T, which is a heat permeability measurement target, is also installed between the outdoor condition chamber 100 and the indoor condition chamber 200.

In order to install the test body T between the outdoor condition chamber 100 and the indoor condition chamber 200, a rail 21 is installed at the bottom, and a rail is provided under the test object fixing frame 10 to which the test body T is fixed. A wheel 11 rolling along 21 may be installed.

Therefore, the test body fixing frame 10 having the test body T fixed therebetween can be simply installed between the outdoor condition chamber 100 and the indoor condition chamber 200, and the test body T which has been finished with the test can be simply removed. It becomes possible.

When the chamber 20 is configured, the outdoor condition chamber 100 is fixed, while the indoor condition chamber 200 is installed to move in a forward or backward direction with respect to the outdoor condition chamber 100.

As described above, a moving unit 201 is provided to move the indoor condition chamber 200 in the forward or backward direction with respect to the outdoor condition chamber 100.

The moving means 201 includes a rail 202 installed on the floor, a wheel 203 sliding along the rail 202 installed under the indoor condition chamber 200, and an indoor condition chamber 200. Hydraulic device 204 to push or pull toward the chamber 100 may be provided.

The indoor condition chamber 200 may include the moving means 201 to move the indoor condition chamber 200 toward the outdoor condition chamber 100 so that the indoor condition chamber 200 may be in close contact with the test object fixing frame 10. .

Referring to FIG. 2, the indoor condition chamber 200 may be provided with a locking means 250 to allow the indoor condition chamber 200 to be caught by the outdoor condition chamber 100.

The locking means 250 includes a hydraulic device 251 provided in the outdoor condition chamber 100 and a locking part 255 provided in the indoor condition chamber 200 to which the hydraulic device 251 is caught.

The hydraulic device 251 is rotatably coupled to one side of the outdoor condition chamber 100 and generates a cylinder 252, a rod 253 that is introduced into the cylinder 252 and the rod 253 of the A hook hook 254 is provided at the end.

In the state where the hook 254 of the hydraulic device 251 provided in the outdoor condition chamber 100 is caught by the catching part 255 provided in the indoor condition chamber 200, the rod ( When pulling the 253, the indoor condition chamber 200 may move to the outdoor condition chamber 100 to fix the indoor condition chamber 200 in close contact with the test object fixing frame 10.

And the end of the outdoor condition chamber 100 and the indoor condition chamber 200 is provided with a gasket 15 to be in close contact with the test object fixing frame 10 to prevent heat leakage.

Figure 3 is a detailed view of the outdoor condition chamber in the heat permeability measuring device according to an embodiment of the present invention. Hereinafter, the structure of the outdoor condition chamber will be described in detail with reference to FIG. 3.

The outdoor condition chamber 100 is a chamber in which an outdoor artificial weather condition is set. The outdoor condition chamber 100 has a cube shape in which a space is formed inside and an opening 101 is formed at one side.

The outdoor condition chamber 100 is provided with devices for setting the outdoor weather conditions. Such devices may be installed in the duct 105 provided at the rear side of the outdoor condition chamber 100.

Inside the duct 105, a refrigerator 110 for cooling the inside of the outdoor condition chamber 100, a heater 120 for heating the inside of the outdoor condition chamber 100, and a refrigerator 110 or the heater 120. Blowing fan 130 for discharging the air heated or cooled by the outdoor condition chamber 100 is installed.

A discharge port 106 is formed at an upper side of the duct 105, and a plurality of blades 140 are disposed at the discharge hole 106 so that the air blown by the blower fan 130 is evenly distributed into the outdoor condition chamber 100. Can be installed.

Meanwhile, the airflow generating device 150 may be installed in the outdoor condition chamber 100.

The airflow may actually occur in the outdoors where windows and the like are installed, and the heat transmission rate of the window and the like may vary depending on the airflow. Therefore, by generating the air flow using the air flow generating device 150, it is possible to form the same conditions as the test body (T) is installed outdoors.

The airflow generation device 150 may include a wind fan 151 for generating airflow, and a guide duct 152 for guiding the airflow generated by the blower fan 151 to the test body T. The guide duct 152 may be bent into a substantially '-' shape to guide the generated airflow to move from bottom to top. And the support bar 153 may be provided to support the air flow generating device 150 having a '-' shape as a whole.

Although not shown, a heater or a cooler may be installed inside the guide duct 152 to adjust the temperature of the airflow generated by the blower fan.

The lower portion of the air flow generating device 150 may be provided with a moving means 154 such as a wheel. Therefore, the user can move to the desired position inside the outdoor condition chamber 100.

Figure 4 is a detailed view of the indoor condition chamber in the heat permeability measuring device according to an embodiment of the present invention. Hereinafter, the structure of the indoor condition chamber will be described in detail with reference to FIG. 4.

The indoor condition chamber 200 is a chamber in which the temperature condition of the room is set. The indoor condition chamber 200 has a cube shape having a space formed therein and an opening 201 formed at one side thereof.

Indoor condition chamber 200 is provided with devices for setting the temperature conditions of the room. Such devices may be installed in the duct 205 provided at the rear side of the indoor condition chamber 200.

Inside the duct 205, a refrigerator 210 for cooling the inside of the indoor condition chamber 200, a heater 220 for heating the inside of the indoor condition chamber 200, and humidity of the indoor condition chamber 200 may be provided. A humidifier 230 for adjusting and a blowing fan 240 for discharging air in the duct 205 to the outdoor condition chamber 200 are installed.

And the interior of the chamber 200 is provided with a calorimetry 300 for measuring the amount of heat flowing through the test body (T).

The calorie measurement device 300 includes a case 310 having one side open, and a heat supply unit 320 provided inside the case 310 and supplying heat to the case 310. The case 310 of the calorie measurement device 300 is preferably filled with a heat insulating material having a high insulation performance so that the amount of heat flowing out through the case 310 is minimized.

The heat supply unit 320 may include a partition wall 321 provided at the rear end of the case 310, a heater 322 installed in the partition wall 321, and heat generated from the heater 322. It is provided with a blowing fan 323 to be supplied inside. The heat supply means 320 is controlled by the control device 30, it is possible to maintain a constant temperature inside the calorimeter 300.

And the lower portion of the calorimeter 300 is provided with a moving means 330, such as a wheel can move the heat supply means 320 in the interior condition chamber 200.

Meanwhile, an electromagnet fixing device for fixing the test object fixing frame 10 to the calorie measuring device 300 is provided.

Hereinafter, with reference to the accompanying drawings for the electromagnet fixing device will be described in detail.

5 is a detailed view of an electromagnet fixing device provided in the apparatus for measuring heat permeability according to an embodiment of the present invention.

Referring to FIG. 5, the electromagnet fixing device 400 is provided in the calorimeter measuring device 300 and has an electromagnet 410 having magnetism when a current flows, and is provided in the test object fixing frame 10 and the electromagnet 410 is magnetic. When provided with the iron plate 420 is pulled toward the electromagnet 410.

On the other hand, the end of the calorimeter 300 is provided with a close contact means 350 for close contact with the test body fixed frame 10.

The electromagnet 410 may be provided in plural calorimeters 300, and may be installed at the rear side of the adhesion means 350. In FIG. 5, the electromagnet 410 is shown to be installed at four sides of the calorimeter 300, but the number of the electromagnets 410 may be more or less than that.

Since the apparatus for measuring heat permeability according to an embodiment of the present invention includes an electromagnet fixing device 400, when a current is applied to the electromagnet 410, the electromagnet 410 has a magnetic force, and is applied to the test object fixing frame 10 by magnetic force. The provided iron plate 420 is pulled.

At this time, since the electromagnet 410 is installed on the rear side than the close means 350, the close means 350 is in close contact with the test object fixing frame 10, the electromagnet 410 may not be in close contact with the iron plate 420.

Thus, between the calorimeter 300 and the test piece fixing frame 10 by the electromagnetic force between the electromagnet 410 provided in the calorimeter measuring device 300 and the iron plate 420 provided in the test piece fixing frame 10. Pulling force is generated.

The adhesion means 350 provided at the end of the calorimetry 300 by the force acting between the calorimetry 300 and the test fixture fixing frame 10 is in close contact with the test fixture fixing frame 10. Therefore, after maintaining the inside of the calorimetry 300 in an airtight state by increasing the temperature inside the calorimetry 300 it is possible to measure the heat perfusion through the test body (T) fixed to the test body fixed frame (10).

On the other hand, by adjusting the strength of the current applied to the electromagnet 410, it is possible to easily adjust the pulling force between the calorimeter 300 and the test specimen fixed frame 10. As described above, in the apparatus for measuring heat permeability according to the present invention, the test object fixing frame 10 may be brought into close contact with the end of the calorie measuring device 300 using the electromagnet fixing device 400.

6 is a front view of an electromagnet fixing device according to a modified embodiment, and FIG. 7 is a detailed view of the electromagnet fixing device according to a modified embodiment.

Hereinafter, in describing the electromagnet fixing device according to the modified embodiment, the same configuration as that described in the above-described electromagnet fixing device uses the same reference numerals, and a detailed description thereof will be omitted.

6 and 7, in the electromagnet fixing device 400 according to a modified embodiment of the present invention, the electromagnet 411 is continuously installed along the edge of the calorimeter 300.

In addition, the contact means 351 provided at the end of the calorimeter 300 is provided at both sides around the electromagnet 411.

At this time, the contact means 351 is installed to protrude from the electromagnet 411, it may be formed of an elastic body having elasticity. The contact means 351 may be formed in more specifically an air tube containing air therein.

Therefore, when a current is applied to the electromagnet 411, the contact means 351 is in close contact with the test object fixed frame 10. At this time, since the contact means 351 is formed of an air tube containing air therein, the air tube is deformed laterally when the air tube is in close contact with the test frame fixing frame 10, and thus the inside of the calorimeter 300 is hermetically sealed. Can be maintained.

In the above, the configuration of the apparatus for measuring heat permeability according to an embodiment of the present invention has been described, and the operation of the apparatus for measuring heat permeability is described below.

First, a test object (T) such as a window to be tested is fixed to the test object fixing frame (10).

Next, the test fixture fixing frame 10 is pushed and positioned between the outdoor condition chamber 100 and the indoor condition chamber 200 by using the wheel 11 provided under the test object fixing frame 10.

Next, the indoor condition chamber 200 is moved toward the outdoor condition chamber 100 by using the moving means 201 to bring the indoor condition chamber 200 into close contact with the test object fixing frame 10.

The indoor condition chamber 200 is caught by the outdoor condition chamber 100 using the locking means 250.

Next, the electromagnet fixing device 400 is operated to keep the test object fixing frame 10 in close contact with the calorie measuring device 300, thereby keeping the inside of the calorimeter measuring device 300 in an airtight state.

As such, the temperature of the calorimeter 300 is increased by heating the heater 322 in the calorimeter 300 using the control device 30 while keeping the calorimeter 300 in the airtight state. Keep it constant In addition, the temperature of the outdoor condition chamber 100 is kept lower than the temperature inside the calorimetry 300.

For example, if the temperature inside the indoor condition chamber 100, in particular, the calorimetry device 300 is set to 30 ° C., and the temperature inside the outdoor condition chamber 200 is set to 20 ° C., the inside of the calorimeter 300 is measured. Heat flows to the outdoor condition chamber 100 through the test body T.

At this time, in order to maintain the temperature inside the calorimeter 300, the heater 322 inside the calorimeter 300 must be heated to continuously inject calories, and at this time, the calorimeter is input into the calorimeter 300. By measuring the amount of heat to be in the calorimeter 300 inside the calorimetry 300 through the test body (T) it is possible to indirectly calculate the amount of heat flowing to the side of the chamber 100.

Thus, the heat permeation rate of the test body T can be measured by measuring the amount of heat flowing through the test body T at the unit time, unit area, and unit temperature difference.

The above has been described in detail with respect to the heat permeability measuring device according to an embodiment of the present invention.

As described above, according to the apparatus for measuring heat permeability according to an embodiment of the present invention, the test object fixing frame 10 is temporarily placed on the calorimetry device 300 without using the manual labor of the operator using the electromagnet fixing device 400. It can be fixed, and the heat transmission rate measurement time can be shortened.

In addition, since the pulling force is generated between the calorimetry 300 and the test object fixing frame 10 by the electromagnetic force by using the electromagnet fixing device 400, by adjusting the intensity of the current applied to the electromagnet 410 calories The pulling force between the measuring device 300 and the test object fixed frame 10 can be easily adjusted.

In addition, since the use of the electromagnet fixing device 400 can prevent excessive stress from occurring in the test body T or the test object fixing frame 10, the thermal permeability of the test body T can be accurately measured.

In the above described the heat permeability measuring device according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, something to do.

10: test object fixed frame 100: outdoor condition chamber
200: room condition chamber 300: calorimetry device
350: contact means 400: electromagnet fixing device
410: electromagnet 420: iron plate

Claims (12)

delete delete delete delete delete delete delete An outdoor condition chamber in which an outdoor artificial weather condition is set;
An indoor condition chamber in which room temperature conditions are set and installed to move forward or backward with respect to the outdoor condition chamber;
A test object fixed frame fixed to the test body and installed to slide between the outdoor condition chamber and the indoor condition chamber;
A calorie measurement device which is installed to be movable in the indoor condition chamber and measures the amount of heat flowing through the test body; And
And an electromagnet fixing device provided on the calorimeter and having an electromagnet having a magnetism when a current flows, and an iron plate provided on the test specimen fixing frame and pulled toward the electromagnet when the electromagnet has magnetism.
An end portion of the calorimetry device is provided with a close contact means for close contact with the test object fixed frame,
The electromagnet fixing device uses the electromagnet to the calorimeter measuring the frame fixed frame,
The electromagnet is provided in plurality in the calorie measurement device, is installed on the rear side of the contact means,
The indoor condition chamber includes a locking means for the indoor condition chamber to be caught by the outdoor condition chamber, and the indoor condition chamber is moved forward or backward with respect to the outdoor condition chamber while the indoor condition chamber is caught by the outdoor condition chamber. And moving means for moving in the direction,
An end portion of each of the outdoor condition chamber and the indoor condition chamber is provided with a gasket to be in close contact with the test object fixing frame to prevent leakage of heat. delete delete delete delete

Images