KR20180137225A - Measuring appratus for temperature of pavement and estimating method for thermo-shield functions - Google Patents

Abstract

The present invention provides a temperature measurement device of a package. The temperature measurement device of a package comprises: a main body (100) which includes an upper plate (110), a lower plate (120), and a plurality of walls (130) installed between the upper plate (110) and the lower plate (120) and has a box structure in which an open part is formed only at a front side; a specimen accommodation unit (121) which is formed in the lower plate (120) to accommodate a package specimen (10) in which a temperature sensor (1) for surface temperature measurement is embedded; a heating unit (200) which is installed inside the main body (100) to adjust the degree of heating of the specimen accommodation unit (121); a temperature sensor (2) for measuring a radiation temperature which is installed to be exposed to the inner surface of a first wall (131) of the plurality of walls (130) in order to measure the radiation temperature of the package specimen (10); and a temperature sensor (3) for measuring a reflection temperature which is installed to be embedded in a second wall (132) of the plurality of walls (130) in order to measure the reflection temperature of the package specimen (10). Therefore, the present invention shows the actual heat insulation performance of a heat insulation package.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature measurement apparatus for a package and a method for evaluating the heat-insulation performance of the package using the apparatus. 2. Description of the Related Art [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field, and more particularly, to a temperature measurement apparatus for a package and a method for evaluating heat shield performance of a package using the same.

Due to the high-temperature road pavement heated by solar heat in the summer, the surrounding air temperature rises excessively and the temperature does not fall even in the evening, which is called the heat island phenomenon.

In order to alleviate this heat island phenomenon, researches on heat - shrinkable packages have been actively carried out.

However, since the experimental method and the evaluation method for verifying the actual heat performance of the heat-shrinkable package have not been developed, it has been pointed out as a problem.

An object of the present invention is to provide a device for measuring the temperature of a package that can demonstrate the actual heat shielding performance of a heat shielding package and a method for evaluating the heat shielding performance of the package using the same. .

A plurality of walls 130 provided between the upper plate 110 and the lower plate 120 and having a box structure in which a trimming portion is formed only at the front side, (100); A specimen storage part 121 formed on the lower plate 120 so as to accommodate the package specimen 10 in which the temperature sensor 1 for surface temperature measurement is embedded; A heating unit 200 installed inside the main body 100 to adjust the degree of heating of the sample accommodating unit 121; A temperature sensor 2 for measuring a radiation temperature, which is installed to be exposed to the inner surface of the first wall 131 of the plurality of walls 130 to measure the radiation temperature of the package specimen 10; And a temperature sensor 3 for measuring a reflection temperature, which is installed to be embedded in the second wall 132 of the plurality of walls 130, for measuring the reflection temperature of the package specimen 10 An apparatus for measuring the temperature of a package is proposed.

It is preferable that a plurality of the temperature sensors 2 for measuring the radiation temperature are provided along the vertical direction.

Preferably, the second wall 132 is formed of a concrete material, and the main body 100 excluding the second wall 132 is formed of a heat insulating material.

It is preferable that a plurality of the temperature sensors 3 for measuring the reflection temperature are provided along the vertical direction.

The main body 100 includes the lower plate 120a, the lower main body 100a having the plurality of walls 130, A central body (100b) having the plurality of walls (130) stacked on the lower body (100a); And an upper body 100c including the upper plate 110 and the plurality of walls 130 so as to be stacked on the central body 100b.

The heating unit 200 may include a lamp 220 mounted to the upper plate 110 to adjust a height of the heating unit 200 by a wire 210.

The present invention is a method for evaluating the heat shield performance of a package using the temperature measurement apparatus of the package, the method comprising: setting an evaluation reference temperature simulating a temperature in a state where the surface of the package is heated to the highest temperature by solar heat; Setting an evaluation time which is a measurement time interval of temperature in order to evaluate a process of raising the temperature of the package; A comparative packaging body specimen preparation step of embedding a temperature sensor 1 for surface temperature measurement on the comparative packaging body specimen 11; Preparing a test sample for a package for testing a test sample for embedding a temperature sensor for measuring a surface temperature (1) on the test sample (12); (11) for storing the comparative package specimen (11) in the specimen storage portion (121); While the inside temperature of the laboratory is equal to the surface temperature of the comparative packaging pellet sample 11, heat is generated by the heating unit 200 and heat is applied to the surface of the comparative packaging pellet sample 11, An evaluation reference temperature reaching time measuring step of measuring and recording an evaluation reference temperature reaching time which is a time required for the surface temperature of the comparative packaging sample piece 11 to reach the evaluation reference temperature; The surface temperature of the comparative packaging pellet sample 11 is maintained at the same temperature as the surface temperature of the comparative packaging pellet sample 11 until the surface temperature of the comparative packaging pellet sample 11 reaches the evaluation reference temperature, And the heat is applied to the surface of the comparative package specimen 11, the temperature sensor 1 for measuring the surface temperature, the temperature sensor 2 for measuring the radiation temperature, and the temperature sensor 2 for measuring the reflection temperature (3) measures the temperature at the evaluation time interval and records the measured temperature; Removing the comparative packaging specimen 11 from the specimen storage part 121 and storing the specimen 12 in the specimen storage part 121; While the heating unit 200 generates heat and applies heat to the surface of the test sample 12 during the time for reaching the evaluation reference temperature, the temperature sensor 1 for measuring the surface temperature, Measuring the temperature by the temperature sensor (2) and the temperature sensor (3) for measuring the reflection temperature at the evaluation time interval and recording the temperature; The surface temperature, the radiation temperature and the reflection temperature of the comparative packaging body specimen 11 were compared with the surface temperature, the radiation temperature and the reflection temperature of the test package body 12, And evaluating an evaluation value of the heat capacity of the package.

And setting an evaluation reference temperature arrival time range in which a range of time taken for the surface temperature of the package to reach the evaluation reference temperature in the actual situation is simulated, The temperature of the comparative package body is measured during the step of measuring the temperature of the heating unit 200 when the evaluation reference temperature reaching time measured by the measuring reference temperature reaching time measuring step does not fall within the evaluation reference temperature reaching time range. Adjusting the degree of heating of the sample accommodating portion 121, and repeating the step of measuring the temperature of the evaluation reference temperature again.

The present invention proposes an apparatus for measuring the temperature of a package that can demonstrate the actual heat shielding performance of the heat-shrinkable package and a method for evaluating the heat shield performance of the package using the same.

1 shows an embodiment of the present invention,
1 is a perspective view of a temperature measuring apparatus of a package.
2 is a front view of a temperature measuring apparatus of a package.
3 is a perspective view of a package specimen.

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

The apparatus for measuring the temperature of a package according to the present invention basically comprises a top plate 110 and a bottom plate 120 and a plurality of walls 130 provided between the top plate 110 and the bottom plate 120, A body 100 of a box structure having a front portion only at a front portion thereof; A specimen compartment 121 formed in the lower plate 120 so as to accommodate the package specimen 10 in which the temperature sensor 1 for surface temperature measurement is embedded; A heating unit 200 installed inside the main body 100 so as to adjust the degree of heating of the sample accommodating unit 121; A temperature sensor 2 for measuring a radiation temperature, which is installed so as to be exposed to the inner surface of the first wall 131 of the plurality of walls 130, for measuring the radiation temperature of the package specimen 10; And a temperature sensor 3 for measuring a reflection temperature installed to be embedded in the second wall 132 of the plurality of walls 130 to measure the reflection temperature of the package sample 10.

A method for evaluating the heat differential performance of a package using the apparatus for measuring the temperature of a package according to the present invention is performed as follows.

An evaluation reference temperature which simulates the temperature at which the surface of the package is heated to the highest temperature by solar heat is set.

In the case of the summer season, the surface of the package rises to about 60 ° C, so it is preferable to set the evaluation reference temperature.

An evaluation reference temperature reaching time range (2 to 4 hours) in which the range of time taken for the surface temperature of the package to reach the evaluation reference temperature in the actual situation is simulated is set.

If the time taken for the surface temperature of the package to reach the evaluation reference temperature is too short (the heating degree of the heating section is too large) or if it is too long (the heating degree of the heating section is too small) Because.

In order to evaluate the process of raising the temperature of the package, an evaluation time (about 10 minutes), which is a time interval for measuring the temperature, is set.

A comparative packaging sample 11 to be used as a comparison object is prepared, and a temperature sensor 1 for measuring the surface temperature of a thermocouple or the like is embedded therein.

A test package 12 for testing the heat-shielding performance is prepared, and the temperature sensor 1 for surface temperature measurement is also embedded therein.

First, the sample pouch 11 for comparison is housed in the sample storage section 121 of the temperature measuring apparatus.

The heat generated by the heat generating part 200 is generated on the surface of the comparative package specimen 11 in a state where the internal temperature of the laboratory and the surface temperature of the comparative packaging specimen 11 are equal to each other (about 30 ° C on a summer basis) While the heat is being applied, the evaluation reference temperature reaching time, which is the time required for the surface temperature of the comparative packaging sample piece 11 to reach the evaluation reference temperature (about 60 DEG C), is measured and recorded.

When the evaluation reference temperature reaching time measured by the evaluation reference temperature reaching time measuring step is not within the evaluation reference temperature reaching time range (2 to 4 hours), it means that the actual situation can not be simulated. The temperature of the specimen storage part 121 is adjusted and the evaluation reference temperature reaching time measuring step is repeated.

After the heating degree of the heating unit 200 is determined by the above process, the temperature of the interior of the laboratory and the surface temperature of the comparative packaging sample 11 are the same, While the heat is generated by the heat generating section 200 and heat is applied to the surface of the comparative package specimen 11 until the temperature reaches the evaluation reference temperature, the temperature sensor 1 for measuring the surface temperature, The temperature is measured and recorded at the evaluation time (about 10 minutes) by the temperature sensor 2 for use and the temperature sensor 3 for measuring the reflection temperature.

After the comparison of the temperature data of the comparative packaging pellet sample 11 is completed, the comparative pellet sample piece 11 is removed from the sample pellet compartment 121 and the sample P12 12).

During the time of reaching the evaluation reference temperature determined in the above process, heat is generated by the heat generating section 200 (to the same degree as the above-described degree of heat generation for the comparative packaging sample specimen 11) The temperature was measured at the evaluation time (about 10 minutes) by the temperature sensor 1 for surface temperature measurement, the temperature sensor 2 for radiation temperature measurement, and the temperature sensor 3 for reflection temperature measurement, Record.

The surface temperature, the radiation temperature, and the reflection temperature of the comparative packaging body specimen 11 are compared with the surface temperature, the radiation temperature, and the reflection temperature of the experimental package body specimen 12 to evaluate the heat-shielding performance of the packaging body.

Therefore, the apparatus for measuring the temperature of the package according to the present invention and the method for evaluating the heat-shielding performance of the package using the same can demonstrate the actual heat-shading performance of the heat-shrinkable package in comparison with the conventional package.

Hereinafter, an embodiment relating to a specific configuration of a temperature measuring device for a package according to the present invention will be described.

In order to evaluate the thermal performance of the package, three types of surface temperature, radiation temperature, and reflection temperature are measured.

Since the surface temperature means the temperature of the surface of the package, the temperature sensor 1 for surface temperature measurement is buried in the package specimen 10 and measured.

The radiation temperature refers to the temperature of the air heated by the heat of the package (which is a main factor of the heat island phenomenon), so that the radiation temperature is measured to be inwardly exposed to the inner surface of the first wall 131 of the plurality of walls 130 A temperature sensor 2 is provided, and the temperature around the temperature sensor 2 is measured.

The reflection temperature refers to the temperature of the building around the road as the sunlight reflected by the package heats the periphery of the road. Therefore, the reflection temperature is set so as to be embedded in the second wall 132 of the plurality of walls 130, (3) is provided, and the temperature of the second wall (132) itself is measured.

It is preferable that the second wall 132 in which the temperature sensor 3 for reflecting temperature measurement is embedded is formed of a concrete material in order to simulate an actual building and the main body 100 excluding the second wall 132 The upper plate 110, the lower plate 120, the first wall 131, and other walls) are preferably formed by a heat insulating material such as wood to minimize the influence on the temperature sensor 2 for measuring the radiation temperature.

In order to evaluate the heat-insulating performance in consideration of the height difference, the temperature sensor 2 for measuring the radiation temperature has a plurality of structures arranged along the vertical direction .

For example, when the temperature sensor 2 for measuring the radiation temperature is provided at each of the heights in consideration of the height of the pet (about 40 cm), the height of the baby carriage or the wheelchair (about 80 cm) , The advantage of being able to evaluate the differential performance more accurately.

It is preferable to provide a plurality of temperature sensors 3 for measuring the reflection temperature along the vertical direction in order to accurately evaluate the heat-shielding performance, because the temperature is measured differently depending on the height difference from the package even in the case of the reflection temperature.

As described above, in order to simulate the actual situation in which the package is heated by the solar heat, the evaluation reference temperature reaching time which is the time for reaching the evaluation reference temperature (about 60 ° C) is within the evaluation reference temperature reaching time range (2-4 hours) The degree of heating of the heat generating part 200 with respect to the specimen storage part 121 must be adjustable.

For this purpose, the heat generating unit 200 includes a structure in which a lamp 220 such as an incandescent lamp is installed in a structure in which the lamp 220 is suspended from the upper plate 110, and a height adjustable by a wire 210 for supplying electricity to the lamp 220 The above function can be performed.

That is, by controlling the height of the lamp 220, the degree of heating of the specimen storage part 121 can be adjusted by adjusting the distance between the lamp 220 and the package specimen 10.

The main body 100 of the temperature measuring apparatus includes a lower plate 100a having a lower plate 120 and a plurality of walls 130; A central body 100b having a plurality of walls 130 so as to be stacked on the lower body 100a; And an upper body 100c having a plurality of walls 130 so as to be stacked on the central body 100b.

This has the effect that the scale of the temperature measuring device can be adjusted as desired, and the transportation and storage becomes easy.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Temperature sensor for surface temperature measurement 2: Temperature sensor for radiation temperature measurement
3: Temperature sensor for measuring reflection temperature 100:
100a: Lower body 100b:
100c: upper body 110: top plate
120: lower plate 121: specimen storage part
130: wall 131: first wall
132: second wall 200:
210: wire 220: light

Claims (8)

A main body 100 of a box structure having a top plate 110, a bottom plate 120 and a plurality of walls 130 provided between the top plate 110 and the bottom plate 120 and having a trim only at the front side;
A specimen storage part 121 formed on the lower plate 120 so as to accommodate the package specimen 10 in which the temperature sensor 1 for surface temperature measurement is embedded;
A heating unit 200 installed inside the main body 100 to adjust the degree of heating of the sample accommodating unit 121;
A temperature sensor 2 for measuring a radiation temperature, which is installed to be exposed to the inner surface of the first wall 131 of the plurality of walls 130 to measure the radiation temperature of the package specimen 10;
A temperature sensor 3 for measuring the reflection temperature, which is installed in the second wall 132 of the plurality of walls 130, for measuring the reflection temperature of the package specimen 10;
And a temperature measuring device for measuring the temperature of the package. The method according to claim 1,
Wherein a plurality of the temperature sensors (2) for measuring the radiation temperature are provided along the vertical direction. The method according to claim 1,
Wherein the second wall (132) is formed of a concrete material, and the main body (100) except for the second wall (132) is formed by a heat insulating material. The method of claim 3,
Wherein a plurality of temperature sensors (3) for measuring the reflection temperature are provided along the vertical direction. The method according to claim 1,
In the main body 100,
A lower body (100a) having the plurality of walls (130);
A central body (100b) having the plurality of walls (130) stacked on the lower body (100a);
An upper body 110c and an upper body 100c having the plurality of walls 130 so as to be stacked on the central body 100b;
And a temperature measuring device for measuring the temperature of the package. The method according to claim 1,
The heating unit 200 may include a heat-
A lamp 220 installed to be suspended from the upper plate 110 and capable of adjusting the height by the electric wire 210;
And a temperature measuring device for measuring the temperature of the package. A method for evaluating the heat shield performance of a package using the temperature measuring device of the package according to any one of claims 1 to 6,
Setting an evaluation reference temperature simulating a temperature in a state where the surface of the package is heated to the highest temperature by solar heat;
Setting an evaluation time which is a measurement time interval of temperature in order to evaluate a process of raising the temperature of the package;
A comparative packaging body specimen preparation step of embedding a temperature sensor 1 for surface temperature measurement on the comparative packaging body specimen 11;
Preparing a test sample for a package for testing a test sample for embedding a temperature sensor for measuring a surface temperature (1) on the test sample (12);
(11) for storing the comparative package specimen (11) in the specimen storage portion (121);
While the inside temperature of the laboratory is equal to the surface temperature of the comparative packaging pellet sample 11, heat is generated by the heating unit 200 and heat is applied to the surface of the comparative packaging pellet sample 11, An evaluation reference temperature reaching time measuring step of measuring and recording an evaluation reference temperature reaching time which is a time required for the surface temperature of the comparative packaging sample piece 11 to reach the evaluation reference temperature;
The surface temperature of the comparative packaging pellet sample 11 is maintained at the same temperature as the surface temperature of the comparative packaging pellet sample 11 until the surface temperature of the comparative packaging pellet sample 11 reaches the evaluation reference temperature, And the heat is applied to the surface of the comparative package specimen 11, the temperature sensor 1 for measuring the surface temperature, the temperature sensor 2 for measuring the radiation temperature, and the temperature sensor 2 for measuring the reflection temperature (3) measures the temperature at the evaluation time interval and records the measured temperature;
Removing the comparative packaging specimen 11 from the specimen storage part 121 and storing the specimen 12 in the specimen storage part 121;
While the heating unit 200 generates heat and applies heat to the surface of the test sample 12 during the time for reaching the evaluation reference temperature, the temperature sensor 1 for measuring the surface temperature, Measuring the temperature by the temperature sensor (2) and the temperature sensor (3) for measuring the reflection temperature at the evaluation time interval and recording the temperature;
The surface temperature, the radiation temperature and the reflection temperature of the comparative packaging body specimen 11 were compared with the surface temperature, the radiation temperature and the reflection temperature of the test package body 12, Evaluation stage to evaluate;
Wherein the temperature of the package is measured. 8. The method of claim 7,
Setting an evaluation reference temperature arrival time range in which a range of time taken for the surface temperature of the package to reach the evaluation reference temperature in the actual situation is simulated,
Between the evaluation reference temperature reaching time measuring step and the comparison package body temperature measuring step,
The degree of heating of the heating unit 200 with respect to the specimen accommodating unit 121 is adjusted when the evaluation reference temperature reaching time measured by the evaluation reference temperature reaching time measuring step does not fall within the evaluation reference temperature reaching time range And repeating the evaluation reference temperature reaching time measuring step
Further comprising the step of evaluating the thermal performance of the package.

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