KR20150128351A - U-VALUE and G-VALUE Measuring Apparatus - Google Patents

Abstract

A U-value and G-value measuring apparatus may include a reflective device which reflects sunlight and transmits it horizontally, a chamber which accommodates the sunlight transmitted from the reflective device and collects heat, a light source device which is installed between the reflective device and the chamber and transmits artificial light to the chamber when the sunlight exists, and a case which accommodates the light source device and the chamber and forms a darkroom.

Description

U-VALUE and G-VALUE Measuring Apparatus

The present invention relates to a meteorological and geo-value measuring apparatus, and more particularly to a meteorological and geo-value measuring apparatus capable of simultaneously measuring a meteorological value and a ground-value of a specimen using sunlight and natural light, And a ground-value measuring apparatus.

In general, products having heat insulation performance and solar radiation transmission performance, such as windows, etc., determine the superiority of products by measuring the heat quantity of light sources such as oil-value and paper-value.

U-VALUE is a coefficient with a value of 0 to 1 that is used in a dictionary meaning 'total indoor inflow of solar radiation through a glass window'. In North America, the solar heat gain coefficient (SHGC, Solar Heat Gain Coefficient. The measurement of paper-value is to judge the total solar energy transmission capability of a transparent product such as a window.

In order to measure the oil value, constant temperature and humidity conditions are required to maintain the specific temperature difference in order to simulate the indoor and outdoor conditions and the oil value of the product is measured through the heat flow rate measurement device conforming to KS F 2278. Because ground-value measures the total transmission performance of a transmissive product for solar radiation, it requires a chamber environment that constitutes an artificial light source and room conditions similar to the solar radiation or solar radiation spectrum of natural light sources. Previously, the spectral data of glass was measured and the ground-value was estimated by KS L 2514 or NFRC-200 standard.

The KS regulation has already been established for the measurement of the rate of heat transfer rate. On the other hand, geo-value measuring devices have not yet established international standards, but their importance is increasing with the recent trend of increasing cooling load of buildings, It is expected to be very high. The value of u - value and paper - value is a key performance indicator in window, which should be measured at both development and evaluation of window, but it is difficult to easily install and use because it requires high capital investment cost. Therefore, there is a need for a method that can commonly use two measuring devices under limited space and cost conditions.

On the other hand, in the case of the paper-value measuring apparatus, it is most preferable to perform the experiment under direct sunlight solar radiation conditions, which is natural light. However, because direct solar radiation is not available for many days during the year and ambient testing is not easy, most of the time, measurements are being made through artificial light sources in indoor chambers. However, in case of artificial light source, it is not easy to secure a light source similar in solar radiation and spectrum, and the operation cost is very high and it is in great demand.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and an object of the present invention is to provide a method for measuring a fluidity of a fluid, - to provide a device capable of measuring the value.

It is still another object of the present invention to provide an indoor / outdoor all-terrain ground-value measuring apparatus capable of measuring the most ideal natural light solar radiation as a light source in accordance with an ambient weather condition and measuring an artificial light source in the room.

According to an aspect of the present invention, there is provided an apparatus for measuring a value of a sun-value and a ground-value, comprising: a reflector for reflecting sunlight horizontally and receiving the sunlight transmitted from the reflector; A light source device installed between the chamber and the reflection device for transmitting artificial light to the chamber when there is no sunlight and a case for accommodating the light source device and the chamber and forming a dark room can do.

The reflecting device may include a reflecting plate for reflecting the sunlight, an angle adjusting device for adjusting the reflecting plate at a predetermined angle, and a fixing device for fixing the angle adjusting device and the reflecting plate on the floor.

The chamber includes a first wall for partitioning the outside and the inside of the room, a sunlight introducing portion for introducing the sunlight into the inside of the first wall on one side of the first wall, a frame An outdoor condition chamber having an air flow generating device for controlling an air flow in the first wall inner space and a fan heater for controlling a temperature of the first wall inner space; An indoor heat retaining device for controlling an internal temperature of the inner heat insulating wall; and an indoor heat retaining device for controlling an indoor temperature of the indoor heat retaining wall through a virtual A heat collecting plate for collecting heat of sunlight and artificial light transmitted through the foil plate; And an indoor condition chamber provided with a door.

The light source device includes a lamp that emits artificial light into the chamber, a reflector that accommodates the lamp and collects the artificial light of the lamp, a rotating device that controls the reflector to rotate in all directions, A fixing table for fixing the light source device, and a moving wheel provided below the fixing table for moving the light source device.

The case may include a main body that houses the chamber and the light source device to form a dark room, and a door that is formed on one side of the main body and opens and closes to receive solar light reflected and transmitted to the reflector.

According to another aspect of the present invention, there is provided a meteorological and geo-value measuring apparatus including a reflector for reflecting sunlight and horizontally transmitting the sunlight, A light source device installed between the chamber and the reflection device for transmitting artificial light to the chamber when there is no sunlight; a first body for accommodating the light source device and the chamber; And a second body accommodating solar light and having a curved glass plate.

The reflecting device may include a reflecting plate for reflecting the sunlight, an angle adjusting device for adjusting the reflecting plate at a predetermined angle, and a fixing device for fixing the angle adjusting device and the reflecting plate on the floor.

The chamber includes a first wall for partitioning the outside and the inside of the room, a sunlight introducing portion for introducing the sunlight into the inside of the first wall on one side of the first wall, a frame An outdoor condition chamber having an air flow generating device for controlling an air flow in the first wall inner space and a fan heater for controlling a temperature of the first wall inner space; An indoor heat retaining device for controlling an internal temperature of the inner heat insulating wall; and an indoor heat retaining device for controlling an indoor temperature of the indoor heat retaining wall through a virtual A heat collecting plate for collecting heat of sunlight and artificial light transmitted through the foil plate; And an indoor condition chamber provided with a door.

The light source device includes a lamp that emits artificial light into the chamber, a reflector that accommodates the lamp and collects the artificial light of the lamp, a rotating device that controls the reflector to rotate in all directions, A fixing table for fixing the light source device, and a moving wheel provided below the fixing table for moving the light source device.

The case may have the first body as a dark room, and may have an opening / closing door between the first body and the second body so as to prevent the sunlight from entering.

According to the oil-value and ground-value measuring apparatus of the present invention, sunlight can be introduced by a reflecting device, and when the weather condition is not good, the light source device can measure the oil- Can be measured.

In addition, the test chamber can be easily installed by separating the outdoor condition chamber and the indoor condition chamber of the y-value and ground-value measuring apparatuses.

In addition, the air flow generator installed in the outdoor condition chamber of the oil-value and ground-value measuring apparatus can control the wind speed of the wind, so that the oil-value and paper-value can be measured under various environmental conditions and the same environmental conditions.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a y-value and paper-value measuring apparatus according to an embodiment of the present invention; Fig.
FIG. 2 is a sectional view showing a state in which a plurality of reflecting devices are provided in the oil-value and paper-value measuring device shown in FIG. 1;
3 is a plan view showing the oil-value and paper-value measuring apparatus shown in Fig.
4 is a cross-sectional view of a chamber according to one embodiment of the present invention.
FIG. 5 is a cross-sectional view of a chamber according to an embodiment of the present invention. FIG.
6 is a perspective view illustrating a light source device according to an embodiment of the present invention.
7 is a perspective view showing a state in which a reflection device according to an embodiment of the present invention is installed.
8 is a cross-sectional view showing a y-value and paper-value measuring apparatus according to another embodiment of the present invention.
FIG. 9 is a sectional view showing a state in which a plurality of reflecting devices are provided in the oil-value and paper-value measuring device shown in FIG. 8;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view illustrating a yaw-value and ground-value measuring apparatus according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of the oil- FIG. 3 is a plan view showing the oil-value and ground-value measuring apparatus shown in FIG. 1. FIG.

1 to 3, the oil-value and ground-value measuring apparatus according to an embodiment of the present invention includes a reflection device 100 that reflects and transmits the sunlight 10 horizontally, A chamber 200 for receiving the solar light 10 transmitted from the chamber 100 and collecting heat of the solar light 10 and a chamber 200 installed between the chamber 200 and the reflection device 100, A light source device 300 for transmitting the artificial light 20 to the chamber 200 and a case 400 for accommodating the light source device 300 and the chamber 200 to form a dark room.

The reflection device 100 may reflect the sunlight 10 at a predetermined distance from the case 400. The solar light 10 reflected by the reflection device 100 may be horizontally transmitted to the chamber 200 as shown in FIG.

The reflector 100 includes a reflector 110 for reflecting the sunlight 10, an angle adjuster 120 for adjusting the reflector 110 at a predetermined angle, And a fixing device 130 for fixing the reflection plate 110 on the floor.

The reflection plate 110 may use a reflective film or the like to reflect the sunlight 10, and may be formed in various shapes. The reflector 110 may have a predetermined thickness and may be positioned at a predetermined height from the floor so that the sunlight 10 reflected by the reflector 110 flows into the chamber 200. The reflection plate 110 may have various shapes such as a circular shape or a square shape.

The angle adjusting device 120 may be coupled to the reflection plate 110 to rotate the reflection plate 110 at a predetermined angle. The angle of the sunlight 10 reflected and transmitted by the angle adjusting device 120 can be adjusted.

The fixing device 130 may be fixed to the floor so that the reflection plate 110 and the angle adjusting device 120 are not separated from each other. The reflecting device 100 installed outside by the fixing device 130 may not be broken and may not be detached.

In addition, as shown in FIG. 2, the reflection device 100 may be installed in a number of ways to smoothly transmit light to the chamber 200 according to the position of the sun.

For example, since the sun moves according to time and season, the sunlight 10 can not be smoothly transmitted to the chamber 200 by one reflecting device 100 fixed to the floor, A plurality of sunlight 10 may be reflected and transmitted to the chamber 200.

When the reflection device 100 is installed in the case 400, the fixing device 130 may be provided separately from the fixing device 130 for fixing the reflection device 100 to the floor.

The chamber 200 is provided on the front surface of the reflection device 100 and the sunlight 10 reflected by the reflection device 100 can be introduced. The chamber 200 measures the oil-value and ground-value of the sunlight 10 flowing through the outdoor condition chamber 210 into which the sunlight 10 flows and the outdoor condition chamber 210 And an indoor condition chamber 220 for storing the indoor condition.

The light source device 300 may be provided between the chamber 200 and the reflection device 100 to supply the artificial light 20 when the heat can not be collected by the sunlight 10 since the weather condition is poor.

The case 400 can accommodate the light source 300 and the chamber 200. When the light source 300 emits the artificial light 20, A dark room can be formed so that a large amount can be introduced. The case 400 may be formed with a closed top and a side wall and the wall formed on the case 400 and the reflection device 100 may be formed by the reflection device 100 such that the sunlight 10 flows The opening and closing door 420 can be opened and closed.

The opening and closing door 420 may be opened and closed in various ways, and a separate groove may not be formed so that a dark room may be formed when the opening and closing door 420 is closed.

FIG. 4 is a cross-sectional view of a chamber according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view illustrating a chamber according to an embodiment of the present invention.

4 to 5, the chamber 200 according to an embodiment of the present invention includes an outdoor condition chamber 210 in which the artificial light 30 is installed and the oil-value and ground-value of the artificial light 30 And an indoor condition chamber 220 for measurement.

The outdoor condition chamber 210 includes a first wall 211 for partitioning the outdoor and the inside of the room and a first wall 211 for connecting the sunlight 10 and the artificial light 20 to one side of the first wall 211. [ And a frame 215 (not shown) for providing the artificial light 30 to the first wall 211 opposite to the solar light introducing portion 212 formed in the first wall 211 An airflow generating device 213 for controlling the airflow in the inner space of the first wall 211 and a fan heater 214 for controlling the temperature of the inner space of the first wall 211.

A urethane panel may be used for the first wall 211, a urethane panel 100T having a thermal resistance of 4 ㎡ K / W may be used for the inner wall, and a black high emissivity paint having an emissivity of 0.92 or more may be used for the inner wall. In addition, the outer wall of the first wall 211 may include an air circulation device capable of circulating air.

The solar light introducing portion 212 formed on one side of the first wall 211 for introducing the sunlight 10 and the artificial light 20 into the interior of the first wall 211 has a heat resistance of 200 Lt; 0 > C or more, and the influence of the external and external radiation of the artificial light 20 can be blocked.

The solar light introducing portion 212 formed on one side of the first wall 211 for introducing the sunlight 10 and the artificial light 20 into the interior of the first wall 211 has a heat resistance of 200 Deg.] C or more, and the influence of the external and external radiation of the sunlight 10 and the artificial light 20 can be blocked.

A frame 215 capable of installing the artificial light 30 can be provided on the side of the first wall 211 opposite to the first wall 211 in which the sunlight introduction part 212 is formed. The frame 215 may be made of a plywood or an iron plate, and a material that does not cause deformation, breakage, or the like of the artificial light 30 may be provided inside the frame 215.

The air flow generating device 213 and the fan heater 214 for controlling the air flow in the inner space of the first wall 211 are provided inside the first wall 211 so that the same Conditions can be formed. In order to test the artificial light 30 as is actually used in the outside air, a fan heater 214 is installed for setting the actual heat transfer rate to increase the temperature inside the first wall 211, The generator 213 may be provided to regulate the wind speed of the outside air to adjust the condition of the coefficient of surface heat transfer resistance to make the wind speed equal to the outside of the room. The airflow generator 213 can adjust the wind speed using an inverter capable of adjusting the wind speed. The airflow generating device 213 can be made of high transmittance glass (low iron glass) to transmit the sunlight 10 and the artificial light 20.

For example, in order to make the outdoor condition of summer, the fan heater 214 is operated to raise the temperature in the outdoor condition chamber 210 and to operate the airflow generator 213 to adjust the average wind speed of the area where the artificial light 30 is installed And the like.

A moving device is provided at the lower end of the airflow generating device 213 so that the airflow generating device 213 can be moved inside the outdoor condition chamber 210.

The outdoor condition chamber 210 is also provided with a moving device so that the outdoor condition chamber 210 can be separated from the indoor condition chamber 220 in order to fix the artificial light 30 to the frame 215.

The indoor condition chamber 220 is provided with a second wall 221 for partitioning the outside and the inside of the room, an internal heat insulating wall 225 inside the second wall 221 and an internal temperature of the internal heat insulating wall 225 A solar cell 10 and an artificial light 20 for collecting the amount of heat of the solar light 10 and the artificial light 20; The heat collecting device 222 may be provided.

The second wall 221 can prevent the heat generated in the indoor condition chamber 220 from being discharged to the outside by using the urethane panel 100T having a thermal resistance of 4 K / K or more.

The interior wall of the second wall 221 is provided with an inner heat insulating wall 225 for maintaining the internal temperature of the indoor condition chamber 220. A black high emissivity paint having an emissivity of 0.92 or more is applied to the inner wall of the inner heat insulating wall 225 Can be used.

A room temperature holding device 223 for controlling an internal temperature of the indoor condition chamber 220 is provided in the interior heat insulating wall 225. The room temperature holding device 223 can maintain 15 to 20 ° C (± 0.5 ° C).

The front plate 224 transmits the sunlight 10 and the artificial light 20 transmitted through the artificial light 30 and blocks the influence of the infrared radiation on the front plate 224 And can be formed of a high transmittance type glass (low iron glass). Since the transmission plate 224 has a higher transmittance than that of a general float plate glass and has a uniform spectral characteristic, the spectral characteristics of the sunlight 10 and the artificial light 20 may be hardly changed.

The lower portion of the transfer plate 224 is provided with a DC fan and a DC heater for adjusting the heat transfer rate and controlling the temperature. The DC fan is provided with a plurality of axial fans to change the voltage of the power source to adjust the wind speed to maintain the wind speed. The DC heater uses a platinum resistance thermometer to perform temperature control through power supply current control. DC fans and DC heaters can supply power by measuring voltage and current.

The heat collecting device 222 is fixed to the inner heat insulating wall 225 and the amount of heat of the solar light 10 and the artificial light 20 transmitted through the artificial light 30 and the partition plate 224 A cold plate for removing the heat of the heat flow sensor for measuring the temperature of the sunlight 10 and the heat ray of the artificial light 20 can be provided.

And the artificial light 30 is installed once by the heat flow sensor of the heat collecting device 222, so that both the oil-value and paper-value can be measured.

A pad is provided at a portion where the outdoor condition chamber 210 and the indoor condition chamber 220 are coupled so that the room temperature of the indoor condition chamber 220 is not changed. The pads are provided in the outdoor condition chambers 210 and the indoor condition chambers 220, respectively, so that the pads can provide a double adiabatic effect.

For example, since the indoor condition chamber 220 measures the oil-value and ground-value of the artificial light 30 installed in the outdoor condition chamber 210, the portion contacting the artificial light 30 can be opened . Therefore, the temperature of the indoor condition chamber 220 can be changed by a gap generated when the outdoor condition chamber 210 and the indoor condition chamber 220 are combined. Since the test condition is changed when the temperature of the indoor condition chamber 220 is changed, accurate measurement values can not be obtained. Therefore, a double pad is installed at a portion where the indoor condition chamber 220 and the outdoor condition chamber 210 are coupled, The temperature inside the chamber 220 can be prevented from being changed.

6 is a perspective view illustrating a light source device according to an embodiment of the present invention.

6, the light source apparatus 300 according to an exemplary embodiment of the present invention includes a lamp 310 for emitting the artificial light 20 to the chamber 200, a lamp 310 for receiving the lamp 310, A reflector 320 that collects the artificial light 20 of the reflector 310 and a rotation device 330 that controls the reflector 320 to rotate in all directions, And a moving wheel 350 provided at a lower portion of the fixing table 340 to move the light source device 300. [

The lamp 310 may use a xenon lamp that emits an artificial light 20 most similar to the sunlight 10, a xenon lamp of 7 kW or more, and an exposure distance of up to 5,900 mm. And the lamp 310 can generate heat of 1,000 W / m 2 or more. Also, the deviation of the light source distribution should be within ± 5.0%. In addition, the glass of the lamp 310 can be applied to a temperature at a heat-resistant temperature of 500 ° C and a quartz of the lamp 310 at a heat-resistant temperature of 1100 ° C.

The reflector 320 may receive the lamp 310 and protrude from the front of the light source 300 so that the artificial light 20 emitted from the lamp 310 may be transmitted to the front A light reflecting sheet such as a reflection sheet can be attached to the inner side.

The light emitted from the lamp 310 can be concentrated on the front surface by the reflector 320 so that the amount of heat generated by the lamp 310 can be reduced.

The rotating device 330 may rotate the reflector 320 in all directions to transmit the artificial light 20 guided to the front by the reflector 320 to a desired position. The rotating device 330 may be formed at a lower portion of the reflector 320 so as to rotate the reflector 320 horizontally and vertically.

When the rotary device 330 rotates the reflector 320 up and down, a separate locking device is opened and the reflector 320 is rotated by using the first rotary device 331 provided on both sides of the reflector 320, The second rotary device 332 provided below the first rotary device 331 rotates and the second rotary device 332 disposed on the lower side of the first rotary device 331 rotates, The first rotating device 331 provided on the upper part and the reflection shade 320 can be horizontally rotated.

As shown in FIG. 5, the fixing table 340 may be fixed to the light source 300 by various methods such as fixing the light source 300.

The moving device may be provided below the fixing table 340 to allow the light source device 300 to move in all directions. The moving device may be provided in various forms such as a wheel. When the sunlight 10 is introduced by the reflection device 100, the light source device 300 is installed at a position where the sunlight 10 flows . In addition, the mobile device may include a separate locking device to prevent movement of the artificial light 20 when the lamp 310 emits light.

Also, the moving device can be formed by moving the rails. The moving device transmits the artificial light 20 at the same position in the chamber 200 which is not smoothly moved. Therefore, when the sunlight 10 is introduced by the rail, the solar light 10 So that the artificial light 20 can be emitted at the correct position by the rail when the sunlight 10 does not flow.

7 is a perspective view showing a state in which a reflection device according to an embodiment of the present invention is installed.

7, the reflection device 100 according to an embodiment of the present invention includes a reflection plate 110 for reflecting the sunlight 10, an angle adjustment unit for adjusting the angle of the reflection plate 110 at a predetermined angle, A device 120 and a fixing device 130 for fixing the angle adjusting device 120 and the reflection plate 110 on the floor.

The reflector 100 may be fixed to the floor so that the sunlight 10 can flow into the chamber 200 when the weather condition is good.

The reflection plate 110 may include various devices such as a reflection film, a reflection sheet and a mirror on the front surface so as to reflect the sunlight 10, and a plurality of the sunlight 10 may be introduced into the chamber 200 And may be provided with a predetermined area.

Although not shown in the drawing, the reflection plate 110 may be provided with a cleaning device for removing the foreign substances when the reflection plate 110 is dirty and allowing the sunlight 10 to smoothly flow into the chamber 200 .

The cleaning apparatus may include a wiper for spraying the cleaning liquid and removing the cleaning liquid to prevent the sunlight 10 from being refracted by the cleaning liquid.

The angle adjuster 120 may be coupled to both sides of the reflector 110 to adjust the angle of the reflector 110 to allow the sunlight 10 to flow into the chamber 200. [ can do. The angle adjusting device 120 may be provided with a control device for controlling the angle of the angle adjusting device 120 to a fine angle.

In addition, the angle adjusting device 120 may include a separate locking device to prevent the sunlight 10 from moving after the sunlight 10 enters the chamber 200.

The fixing device 130 may fix the angle adjusting device 120 and the reflection plate 110 to the floor. The angle adjusting device 120 can transmit the sunlight 10 to the same position of the chamber 200 for a long time by the fixing device 130.

Although not shown in the figure, the fixing device 130 can be moved in all directions by removing the locking device by providing the moving device at the lower portion.

A rotating plate may be provided between the fixing device 130 and the angle adjusting device 120 so that the sunlight 10 is transmitted to the fixing device 130 130 and the angle regulating device 120 can be horizontally rotated.

In the following description of the oil value and paper value measuring apparatus according to another embodiment of the present invention, the same reference numerals as those of the oil value and paper value measuring apparatus according to the above- A detailed description thereof will be omitted.

FIG. 8 is a cross-sectional view showing a yaw-value and ground-value measuring apparatus according to another embodiment of the present invention, and FIG. 9 is a sectional view of the oil- Fig.

A reflection device 100 for reflecting and transmitting the sunlight 10 according to an embodiment of the present invention as shown in FIGS. 8 to 9, A chamber 200 for collecting the amount of heat generated by the chamber 200 and for transmitting the artificial light 20 to the chamber 200 when no sunlight 10 is present between the chamber 200 and the reflection device 100; A first main body 411 accommodating the light source 300 and the chamber 200 and a glass plate 430 formed in a curved shape to receive the reflector 110, (400) having a second body (412) for receiving the first body (10).

The reflector 100 includes a reflector 110 for reflecting the sunlight 10, an angle adjuster 120 for adjusting the reflector 110 at a predetermined angle, And a fixing device 130 for fixing the reflection plate 110 at the bottom.

In addition, as shown in FIG. 9, the reflection device 100 may be installed in a plurality to transmit light to the chamber 200 according to the position of the sun.

Since the position of the sunlight 10 changes according to the season and time, the reflection device 100 is installed inside and outside the second main body 412 so that the sunlight 10 is reflected on the floor of the second main body 412 The sunlight 10 can be transmitted to the reflection device 100 fixed to the chamber 200 and supplied to the chamber 200.

The chamber 200 is provided on the front surface of the reflection device 100 and the sunlight 10 reflected by the reflection device 100 can be introduced. The chamber 200 measures the oil-value and ground-value of the sunlight 10 flowing through the outdoor condition chamber 210 into which the sunlight 10 flows and the outdoor condition chamber 210 And an indoor condition chamber 220 for storing the indoor condition.

The light source device 300 may be provided between the chamber 200 and the reflection device 100 to supply the artificial light 20 when the heat can not be collected by the sunlight 10 since the weather condition is poor.

The light source device 300 includes a lamp 310 for emitting the artificial light 20 to the chamber 200 and a reflector 320 for receiving the lamp 310 and collecting the artificial light 20 of the lamp 310 A rotatable unit 330 for controlling the reflector 320 to rotate in all directions, a fixing unit 340 extending below the rotating unit 330 to fix the light source unit 300, And a moving wheel 350 provided at a lower portion of the light source device 300 to move the light source device 300.

The case 400 includes a first body 411 for receiving the light source 300 and the chamber 200 and a glass plate 430 having a curved shape for receiving the reflector 110, (Not shown).

The first body 411 can accommodate the light source device 300 and the chamber 200. When the light source device 300 emits the artificial light 20, ), So that a large amount can be introduced into the dark room.

The second body 412 can accommodate the reflective device 100 and has a ceiling extending by a predetermined length from the ceiling of the first body 411 and side walls extending from the first body 411 . The ceiling of the second body 412 may have a curved glass plate 430 to allow the solar light 10 to flow therethrough.

The glass plate 430 can be transmitted to the reflective sheet accommodated in the second body 412 without refracting the sunlight 10 when the sunlight 10 is introduced. The glass plate 430 may have a structure that can be opened or closed according to test conditions and may include a separate cleaning device that can be cleaned when foreign matter is buried.

The case 400 may be opened or closed so that the sunlight 10 can be introduced into the wall provided between the first main body 411 and the second main body 412 by the reflective device 100 The opening / closing door 420 may be provided.

The opening and closing door 420 may be opened and closed in various ways, and a separate groove may not be formed so that a dark room may be formed when the opening and closing door 420 is closed.

While the present invention has been described with reference to the above-described embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. 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: Solar light 20: Artificial light
100: reflection device 200: chamber
300: Light source device 400: Case

Claims (10)

A reflecting device for reflecting the sunlight and transmitting it horizontally,
A chamber for receiving the solar light transmitted from the reflecting device and collecting heat,
A light source device installed between the chamber and the reflection device and transmitting artificial light to the chamber when there is no sunlight;
And a case accommodating the light source device and the chamber to form a dark room.
The method according to claim 1,
The reflection device includes a reflection plate for reflecting the sunlight,
An angle adjusting device for adjusting the reflection plate at a predetermined angle,
And a fixing device for fixing the angle adjusting device and the reflection plate on the floor.
3. The method of claim 2,
The chamber includes a first wall for partitioning the outside and the inside of the room, a sunlight introducing portion for introducing the sunlight into the inside of the first wall on one side of the first wall, a frame An outdoor condition chamber having an air flow generating device for controlling an air flow in the first wall internal space and a fan heater for controlling a temperature of the first wall internal space;
A second wall coupled to the outdoor condition chamber for partitioning the outdoor and the inside of the room, an inner heat insulating wall for reducing a temperature change generated through the second wall, And a heat collecting device for collecting calories of sunlight and artificial light transmitted through the foil plate, wherein the heat collecting device comprises: And an indoor condition chamber provided with the indoor condition chamber.
The method of claim 3,
The light source device includes a lamp for emitting artificial light to the chamber,
A reflector accommodating the lamp and collecting artificial light of the lamp,
A rotating device for adjusting the reflector to rotate in all directions,
A fixture extending from a lower portion of the rotary device to fix the light source device,
And a moving wheel provided at a lower portion of the fixing table to move the light source device.
5. The method of claim 4,
The case includes a main body for accommodating the chamber and the light source device to form a dark room,
And an opening / closing door formed on one side of the main body and opening / closing the sunlight to be reflected and transmitted to the reflection plate.
A reflecting device for reflecting the sunlight and transmitting it horizontally,
A chamber for receiving sunlight transmitted from the reflecting device and collecting heat,
A light source device installed between the chamber and the reflection device and transmitting artificial light to the chamber when there is no sunlight;
And a case having a first main body for accommodating the light source device and the chamber, and a second main body having a curved glass plate for receiving the sunlight and accommodating the sunlight.
The method according to claim 6,
The reflection device includes a reflection plate for reflecting the sunlight,
An angle adjusting device for adjusting the reflection plate at a predetermined angle,
And a fixing device for fixing the angle adjusting device and the reflection plate on the floor.
8. The method of claim 7,
The chamber includes a first wall for partitioning the outside and the inside of the room, a sunlight introducing portion for introducing the sunlight into the inside of the first wall on one side of the first wall, a frame An outdoor condition chamber having an air flow generating device for controlling an air flow in the first wall internal space and a fan heater for controlling a temperature of the first wall internal space;
A second wall coupled to the outdoor condition chamber for partitioning the outdoor and the inside of the room, an inner heat insulating wall for reducing a temperature change generated through the second wall, And a heat collecting device for collecting calories of sunlight and artificial light transmitted through the foil plate, wherein the heat collecting device comprises: And an indoor condition chamber provided with the indoor condition chamber.
9. The method of claim 8,
The light source device includes a lamp for emitting artificial light to the chamber,
A reflector accommodating the lamp and collecting artificial light of the lamp,
A rotating device for adjusting the reflector to rotate in all directions,
A fixture extending from a lower portion of the rotary device to fix the light source device,
And a moving wheel provided at a lower portion of the fixing table to move the light source device.
10. The method of claim 9,
Wherein the case includes a first body formed in a dark room and an opening / closing door provided between the first body and the second body so as to prevent the sunlight from entering the solar cell.

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