KR101072536B1 - The Skylight System for Collection and Controll of Solar Energy - Google Patents

Abstract

The present invention relates to a skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors, and more particularly, a light collecting unit 100 including a light collecting panel, and a solar light unit formed under the light collecting unit. By including a skylight case part 200 formed to store or discharge the heat energy flowing through, one or more installed southward on the roof or roof of the building to move the light collecting unit 100 to enhance the light collecting performance and By storing heat energy inside the skylight case part, it directly or indirectly controls the temperature of the room, and forms part of the skylight case as a transparent window, so you can feel the openness of the sky in the room and make the scattered light, which is indirect light, constant It can be introduced into the room to save lighting energy while maintaining comfortable indoor illumination. It can be applied to a wide range of buildings, such as residential and commercial buildings, public buildings, and condensing and storing solar light and introducing solar light indoors, which can save construction time and costs by simply installing prefabricated integrated products on site. It is to provide a skylight system that functions.

Condensing unit, ceiling case, condensing panel. sunlight

Description

The Skylight System for Collection and Controll of Solar Energy

The present invention relates to a skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors, and more particularly, a light collecting unit 100 including a light collecting panel, and a solar light unit formed under the light collecting unit. By including a skylight case part 200 formed to store or discharge the heat energy flowing through, one or more installed southward on the roof or roof of the building to move the light collecting unit 100 to enhance the light collecting performance and By storing heat energy inside the skylight case part, it directly or indirectly controls the temperature of the room, and forms part of the skylight case as a transparent window, so you can feel the openness of the sky in the room and make the scattered light, which is indirect light, constant It can be introduced into the room to save lighting energy while maintaining comfortable indoor illumination. It can be applied to a wide range of buildings, such as residential and commercial buildings, public buildings, and condensing and storing solar light and introducing solar light indoors, which can save construction time and costs by simply installing prefabricated integrated products on site. It is to provide a skylight system that functions.

Human beings are currently facing the depletion of fossil fuels, and the efficient use of energy and active use of alternative energy are facing challenges in preparation for the high oil prices that will inevitably follow. Therefore, many studies have been conducted on solar energy, which is the most viable alternative to petroleum, and is infinitely clean energy that can be used almost infinitely if only suitable solar energy is supplied per unit area without consuming energy resources. Has been made.

The existing use of solar light in buildings was focused on the collection of the primary solar light required for hot water, heating, or power generation. It is necessary to minimize the heating and cooling energy required in buildings by controlling them, but in the winter season when there is little sunshine, it is not enough to expect the energy efficiency of buildings to be improved by only solar condensing. It should be placed northward to prevent indiscriminate direct sunlight or excessive rise in room temperature. The use of solar energy can be used wherever electricity is used, but due to the nature of the sun, continuous supply is impossible when the sun sets or the weather worsens. Constant power supply The main industrial facilities required at all times had a problem that their use was limited.

 In addition, the initial cost of building a solar energy generation facility is expensive, and it is more expensive to construct and maintain a power plant than the economic benefits of building electricity from a solar energy generation facility. In order to build a building, it is necessary to supply adequate amount of solar energy to guarantee economic feasibility.

The present invention aims at maximizing the utilization of solar energy in buildings by simultaneously solving the challenges of solar collection, indoor inflow control, and thermal energy storage.

The present invention has been made to solve the above conventional problems,

The object of the present invention is installed at least one south facing on the roof or roof of the building so that the solar collector is rotated around the hinge according to the altitude of the sun to maximize the condensing performance of the condensing panel and at the same time through the skylight case It provides a skylight system that functions to condense and store sunlight, indoor inflow of sunlight, characterized in that it acts as a sunshade so as to control the incoming sunlight.

Another object of the present invention includes a pinion gear and a rack gear on the outside of the light collecting unit so that the light collecting unit can be rotated so as to adjust and control the light collected by the ceiling case unit. It provides a skylight system that controls the indoor inflow of light.

Still another object of the present invention is to form a skylight case part with a transparent window such as glass to cause a greenhouse effect due to the incoming sunlight, to improve the indoor heating effect and to store thermal energy to improve the thermal insulation performance of the building It provides a skylight system that collects and stores solar light and controls the inflow of sunlight indoors.

Another object of the present invention is to form a reflector plate on the inner lower part of the skylight case to reflect the incoming sunlight to be discharged back to the outside without raising the room temperature, and only indirect light scattered light is introduced into the room to provide a comfortable indoor illumination. Provides a skylight system that functions to maintain and focus the solar condensing and storage of sunlight, characterized in that it is maintained.

Still another object of the present invention is to form an upper and lower openings on the side of the skylight casing to selectively open as needed to generate convection in the room because the cold air in the lower part of the indoor floor rises again as the warmth of the indoor upper floor is discharged to the outside. Since the air repeatedly circulates, it provides a skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors.

Another object of the present invention is to form a part of the skylight case transparent window, the sky can be seen from the interior through the skylight to feel a sense of openness and by moving the condensed loan to exclude the direct inflow of sunlight according to the season and time, and indirect light Phosphorus scattering light can be constantly introduced into the room provides a skylight system for condensing and storing solar light, and indoor inflow control of solar light, characterized in that it can maintain a pleasant indoor illuminance while reducing lighting energy.

Another object of the present invention can be applied to a wide range of buildings, such as residential and commercial buildings, public buildings, and can be installed on existing buildings, new buildings, flat roofs and inclined roofs, and are produced as a constant module, which is easy to reflect when designing buildings. It provides a skylight system that collects and stores solar light and controls indoor inflow of solar light, which can reduce construction time and cost by simply installing a prefabricated integrated product on site.

The present invention includes the following embodiments in order to achieve the above object.

According to an embodiment of the present invention, a light collecting unit including a light collecting panel and formed to rotate about a hinge, and formed under the light collecting unit, stores heat energy introduced through sunlight and reflects light by a reflecting plate. Forming a scattered light, characterized in that it comprises a skylight case portion formed to be transmitted to the room by the lower glass window formed on the bottom.

According to another embodiment of the present invention, the light collecting unit has a predetermined width and has a frame portion forming an edge, a light collecting portion for condensing sunlight and formed inside the frame portion, and formed at one end of the frame portion. And a hinge fixed to the skylight case part, a concentrator motor unit which is formed in the inner center portion of the frame unit, and drives the pinion and the rack gear, and is connected to both sides of the concentrator motor motor and can be an axis of the pinion gear. And a pinion gear formed at the end of the drive shaft, a rack gear formed to engage the pinion gear, and a support plate fixed to the lower end of the rack gear.

According to another embodiment of the present invention, one side of the intersecting frame protrudes outward to form a space part so that the frame part may be a "ㅂ" shape, so that sunlight may flow into the skylight case part through the space part. By storing heat energy, it is possible to promote the greenhouse effect.

According to another embodiment of the present invention, the light collecting unit may rotate around the hinge according to the altitude of the solar light to increase the solar light collecting effect of the light collecting unit and at the same time heat energy flowing into the sealed skylight case part By efficiently controlling the indoor heating effect and the lighting effect can be controlled.

According to another embodiment of the present invention, the skylight case part is formed in a right angled triangular cross-section cross-section of the skylight case upper portion, and formed in the lower portion of the skylight case upper portion of the skylight case including a reflector plate inside Include,

The upper part of the skylight case upper part and the skylight case case is characterized in that it comprises a respective opening.

According to another embodiment of the present invention, the opening includes a through hole formed so that the outside and the inside of the skylight case part and a casement window formed in the inside of the through hole to be opened and closed like a casement door, Selective opening and closing is characterized in that by circulating the heat energy stored inside the skylight case part to adjust the room temperature and circulate the air in the room to feel a refreshing feeling.

According to another embodiment of the present invention, the bottom surface of the skylight case part includes an inclined reflector and a horizontal reflector to convert the light flowing from the skylight case part into reflected light to achieve a greenhouse effect and to control the temperature of the room at the same time It is characterized in that to obtain an indirect lighting effect due to the scattered light.

According to another embodiment of the present invention, by forming a lower glass window in the lower part of the skylight case, the solar light flowing through the space portion of the light collecting unit is directly or indirectly introduced into the room to perform heating in the building, and lighting effect It can be obtained, the interior of the landscape can be seen to feel the sense of openness.

The present invention can achieve the following effects by the above configuration.

In the skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors according to the present invention, one or more solar components are installed on the roof or the roof of the building to the south and rotate around the hinge according to the altitude of the sun. By maximizing the condensing performance of the condensing panel by moving, it can achieve the effect of acting as a sunshade to control the sunlight flowing into the room through the skylight case part.

In the skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors according to the present invention, a pinion gear and a rack gear are included on the outside of the light collecting unit so that the light collecting unit can rotate and move. The effect that can be adjusted and controlled can be obtained.

In the skylight system for condensing and storing solar light and controlling indoor inflow of sunlight according to the present invention, by forming the skylight case part as a transparent window such as glass, the greenhouse effect is caused by the incoming sunlight to improve the indoor heating effect. By storing heat energy, it is possible to obtain the effect of improving the insulation performance of the building.

In the skylight system that collects and stores the sunlight according to the present invention and controls the indoor inflow of the sunlight, a reflection plate is formed on the inner lower part of the skylight case to reflect the incoming sunlight to be discharged back to the outside so as not to increase the room temperature. In addition, since only the indirect light scattered light is introduced into the room, an effect of maintaining a comfortable indoor illuminance can be obtained.

In the skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors according to the present invention, upper and lower openings are formed on the side surfaces of the skylight case to selectively open as necessary to discharge the warmth of the indoor upper layer to the outside. As the cold air in the lower part of the room rises again, convection occurs in the room, and the air circulates repeatedly, thereby making it possible to obtain a cooling feeling.

In the skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors according to the present invention, a part of the skylight case is formed as a transparent window so that the sky can be seen in the room through the skylight to feel a sense of openness, and the light gathering unit is rotated and moved. By eliminating the direct inflow of sunlight according to the season and time, the scattered light, which is indirect light, can be introduced into the room constantly, thereby reducing lighting energy and maintaining pleasant indoor illumination.

In the skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors according to the present invention, it can be applied to a wide range of buildings such as residential and commercial buildings, public buildings, and existing buildings, new buildings, flat roofs and inclined roofs. It is easy to reflect in the design of the building because it is installable and produced as a regular module, and it is possible to reduce the construction time and cost by simply installing the pre-fabricated integrated product on site.

The present invention includes a light collecting case 100 including a light collecting panel, and a skylight case part 200 formed under the light collecting unit and configured to store or discharge heat energy introduced through sunlight. One or more installations southward on the roof or rooftop of the roof to rotate the light collecting unit 100 to enhance the light collecting performance and to store the heat energy inside the skylight case part to discharge the heat or directly to control the temperature of the room directly or indirectly It is to provide a skylight system that functions to collect and store light and control the inflow of sunlight indoors.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the skylight system that functions to condense and store sunlight, indoor inflow control of sunlight according to the present invention.

1 is a perspective view of a skylight system according to an embodiment of the present invention, FIG. 2 is a perspective view of a light collecting portion of a skylight system according to an embodiment of the present invention, and FIG. 3 is a skylight case of a skylight system according to an embodiment of the present invention. Perspective view.

1 and 3, the skylight system according to an embodiment of the present invention is formed on the light collecting unit 100, and the lower portion of the light collecting unit 100, including a light collecting panel and flowing through the sunlight It includes a skylight case 200 formed to store or discharge the thermal energy.

As shown in FIG. 2, the light collecting unit 100 has a predetermined area and has a frame portion 101 to form an edge, and a light collecting unit for condensing sunlight and formed inside the frame unit 101. 102 and a hinge 103 formed at one end of the frame portion 101 and fixed to the skylight case portion 200 to be described later, and formed at an inner central portion of the frame portion 101 and described below. Condenser band motor unit 104 for driving pinion and gear gears, drive shaft 105 connected to both sides of the motor unit 104 and formed to be an axis of the pinion gear to be described later, and the drive shaft 105 A pinion gear 106 formed at an end of the rack; a rack gear 107 formed to engage the pinion gear 106; and a support plate 108 fixed to a lower end of the rack gear 107. It includes.

The frame portion 101 forms an outer edge of the light collecting portion 100, has a predetermined width, and uses a material such as stainless steel or steel, and the horizontal frame 1011 and the vertical frame 1013 cross each other. The vertical frame 1013 may protrude to the outside of the intersecting horizontal frame 1011 so as to become a “shape”. In addition, since the vertical frame 1013 protrudes outward, the space portion 1015 is formed so that sunlight can flow into the ceiling case portion 200 to be described later through the space portion 1015.

The light collecting unit 102 is formed in the form of a panel inside the frame unit 101, and collects energy from the sun and converts it into electricity. Solar light is formed in a solar cell composed of a semiconductor junction. When irradiated, electron-hole pairs are generated by light energy, and electromotive force is generated by a photovoltaic effect in which electrons and holes move and current flows through the n-layer and p-layer, and the current is connected to an externally connected load. Electricity is produced according to the principle of flowing, and in some cases it can be applied to the production of heating or hot water by using a solar collector plate.

The hinge 103 is formed at one end of the vertical frame 1013 of the frame part 101 to allow the frame part 101 to rotate freely. The light collecting stand part 100 and the skylight case part (to be described later) It is preferable to form with a material having sufficient durability to secure the connection 200.

The condenser band electric motor unit 104 is formed at the inner center of the frame unit 101 and is formed to drive a pinion gear, which will be described later. By converting the rotation spread value to the electric motor, the light collecting unit 100 may rotate in accordance with the guidance of the pinion rack gear to be described later. In addition, in the present invention, a computer is built in the inside of the light-collecting motor motor 104 to control the rotation of the light-collecting stand 100, but in another embodiment, a sensor for tracking the altitude of the sun instead of the computer is installed and calculated by the sensor. It is possible to control the rotation of the light collecting unit 100 according to the value. Therefore, in the method of controlling the rotation of the light collecting unit 100, it is preferable not to be limited to the computer storing the data value but to control the sensor by various methods such as a sensor. In addition, the present invention includes only the up and down movement of the light collecting unit 100 according to the altitude value of the sun, in another embodiment may be added to the left and right rotation movement in the direction of the sun.

The drive shaft 105 is formed on both sides of the light collecting band electric motor 104 and is formed longer than the horizontal length of the frame 101, the pinion gear formed at the end of the drive shaft 105 is a rack gear Allow it to interlock. In addition, the drive shaft 105 is driven by the light collecting motor motor 104 to be rotated.

The pinion gear 106 and the rack gear 107 is called a pinion gear 106 of the two gears of the small and large gear meshing with the device used to convert the rotational movement to linear or vice versa, Since the pinion gear 106 in the present invention is formed at the end of the drive shaft 105, the rack gear 107 is positioned where it is engaged with the pinion gear 106. In addition, the rack gear 107 has teeth 1071 arranged along the outer circumferential surface of the arc shape so that the light collecting unit 100 can rotate about the hinge 103. On the other hand, the rack gear 107 has a predetermined internal angle, which varies in size depending on the angle to which the light collecting unit 100 is to be rotated and the length of the radius of the engaging rack gear 107 and The length is changed according to the user's selection, and can be fixed to the support plate 108 to be described later.

The support plate 108 is fixed to one end of the rack gear 107 and is formed so as to be seated on the roof or roof of the building to be described below the skylight case part 200 of the skylight case part 200 It is located in the stop so that a part of the skylight case protrudes out of the building. Therefore, the support plate 108 is formed to match the width of the skylight case part 200 so that the skylight case part 200 is not separated, and the end of the support plate 108 protrudes outward to have a "#" shape. By forming it to be able to be fixed to the upper surface of the roof or roof of the building by screws or nails to the protruding support plate projection (1081). In addition, the support plate 108 may support the rack gear 107 and the skylight case part 200 by using a material having high durability such as stainless steel or steel.

Meanwhile, in the present invention, the pinion gear 106 and the rack gear 107 are used to rotate the light collecting unit 100. However, in another embodiment, the center lines of the main shaft and the driven shaft do not coincide with each other, but form an angle or parallel to each other. Use a universal joint that delivers power when you are at a distance, or use hydraulic presses or screw jack folding arms. Therefore, any medium that transmits power to rotate the light collecting unit 100 is not limited to the rack gear and pinion gear of the present invention, so long as it is a method capable of rotating the light collecting unit 100. Also apply.

As shown in FIG. 3, the skylight case part 200 is installed on the ceiling of a building, and is connected to the light collecting unit 100 by the hinge 103, and the skylight case part 200 has a cross section. It includes a skylight case upper portion 210 formed of a right triangle and formed as a transparent window, and a skylight case lower portion 220 formed at a lower portion of the skylight case upper portion 210 and including a reflecting plate therein.

The skylight case upper portion 210 has an upper window border portion 211 having a cross-sectional right-angled triangular shape, an upper glass window portion 213 inserted into a side surface and an upper surface of the upper window border portion 211, and the upper window It includes an upper opening portion 215 formed on the front of the edge portion 211.

The upper window border portion 211 is formed in a right-angled triangular cross-section and can be formed with a variety of materials, such as stainless steel, steel, it is preferred to use a material with strong durability and stability.

The upper glass window 213 is inserted to be closed on the left and right sides and the upper surface of the upper window border 211 to increase the heat insulation effect of the skylight case 200. In addition, the upper glass window 213 is not limited to glass, but may be formed of a transparent window, and synthetic resin such as plastic may be used.

The upper opening portion 215 is formed on the front surface of the upper window border portion 211, the upper through hole (2151) formed so that the outside and the inside of the skylight case portion 200, and the inside of the upper through hole (2151) It is formed in and includes an upper casement 2215 to be opened and closed like a casement door.

The upper through hole (2151) has a predetermined width and is formed so that the outside and the inside of the skylight case part 200 to penetrate to discharge the heat energy stored in the skylight case 200 to the outside or cold air outside To be introduced into the skylight case 200.

The upper casement 2215 has the same width as the upper through hole (2151) and can be opened and closed around the hinge (hinge), including a hinge (hinge) on the inside, which is described later window opening and closing motor unit 229 It is driven by and opened and closed by the user's selection so that the heat stored in the skylight case 200 may be discharged to the outside or the outside air may flow into the skylight case.

The skylight case lower portion 220 is a rectangular shape having an open top surface, one side of which is chamfered, and the other side is inserted into the side and upper surface of the lower window border portion 221 and the lower window border portion 221. A lower glass window part 223 and a lower opening part 225 formed on the front surface of the lower window border part 221, and a reflecting plate 227 formed on the inner bottom surface of the skylight case lower part 220; A window opening and closing motor unit 229 is formed inside the skylight case lower portion 220.

The lower window frame 221 may be formed of various materials such as stainless steel, but it is preferable to use materials having strong durability and stability.

The lower glass window 223 is inserted to be closed to the left and right sides and the lower surface of the lower window frame 221, which increases the heat insulation effect of the skylight case 200, as well as direct sunlight from the outside. Or indirectly flows in to heat the interior of the building, and the inflow of light can achieve the lighting effect of the interior, and the interior can be seen from the outside to feel a sense of openness. In addition, the lower glass window 223 is not limited to glass, but may be formed of a transparent window, and synthetic resin such as plastic may be used.

The lower opening 225 is formed on the front surface of the lower window rim portion 221 to form a lower through hole (2251) so that the outside and the inside of the skylight case part 200, and the inside of the through hole (2251) It is formed and includes a lower casement 2225 to be opened and closed like a casement door.

The lower through hole 2251 has a predetermined width and is formed to penetrate the outside and the inside of the skylight case part 200 so that the heat energy stored in the skylight case 200 can be introduced into the room.

The lower casement 2225 has the same width as the lower through hole (2251) and includes a hinge (hinge) in the inner side so that the lower casement (2252) can be opened and closed around the hinge (hinge), which will be described later. It is driven by the window opening and closing motor unit 229 which is opened and closed by the user's selection, so that the heat stored in the skylight case 200 flows into the room or the warm air of the room flows into the skylight case. And the cold air of the indoor floor is raised to allow the air in the room to circulate.

The reflector 227 adjusts the brightness of the light by using the reflection of light. As the light collecting unit 100 rotates, the reflecting plate 227 changes the reflection angle of the sunlight flowing into the skylight case part 200 to change the room temperature. Allow to reduce or raise. Accordingly, the reflector plate 227 is formed on the inner bottom surface of the skylight case part 200 and is formed to be inclined to extend to the inclined reflector plate 2251 and the inclined reflector plate 2251 and horizontally reflecting plate 2227. It includes.

The inclined reflector 2227 is formed to be inclined on the inner bottom surface of the skylight case part 200 so that the sunlight flowing into the skylight case part 200 is inclined when the altitude of the sun is formed to be the highest in the summer. Reflected by the reflector 2227 and is discharged through the upper opening 215, the greenhouse effect formed inside the skylight case 200 is reduced, and the radiant heat is also reduced according to the reduced greenhouse effect. As the reflected light is formed, the light flowing into the room is lowered, thereby obtaining the effect of indirect lighting.

The horizontal reflector 2227 is formed horizontally on the inner bottom surface of the skylight case part 200, and sunlight is introduced into the skylight case part 200 when the altitude of the sun is lower than the summer season, such as in the spring and autumn seasons. The reflected light is reflected by the horizontal reflector 2227 to form reflected light. At this time, part of the light is emitted to the outside, and the other part hits the skylight case part 200 and increases scattered light. Make sure you have enough light.

The window opening and closing motor part 229 is formed inside the skylight case part 200 and is driven to selectively open and close the casement windows 2152 and 2252 of the upper and lower openings 215 and 225. The heat stored in the case part 200 may be discharged to the outside, or the air in the room may be circulated. In addition, the window opening and closing electric motor unit 229 controls the opening and closing of the casement windows 2152 and 2252 by the user of the remote control in the room or by inserting a computer into the inside, such as the condenser band electric motor 104, The casement 2215 and 2252 can be opened and closed periodically with a pattern according to the time and the altitude of the sun.

Figures 4a to 4c is a state diagram used for the rotation of the light collecting unit of the skylight system according to an embodiment of the present invention.

As shown in Figure 4a to 4c, to install the skylight system of the present invention on the roof or roof of the building, the lower portion of the skylight case portion 200 is inserted into the room, the upper portion of the skylight case portion 200 Allow it to protrude out of the building. In addition, the light collecting stand unit 100 connected through the skylight case part 200 and the hinge 103 is rotated while the driving shaft 105 is driven by the light collecting unit motor motor 104 formed inside the light collecting stand unit 100. The pinion gear 106 connected to the drive shaft 105 rotates in engagement with the curved rack gear 107. Meanwhile, as described above, the condenser band electric motor unit 104 rotates the condenser band part 100 according to an input value by inputting data of solar altitude that varies by region, date, and time by embedding a computer inside.

Therefore, as shown in FIG. 4A, when the winter or sun altitude corresponding to 12, January, or February is low, the angle of the light collecting unit 100 is increased to increase the area of contact with the light collecting unit 102. The energy is concentrated as much as possible to be used for indoor heating or hot water supply, and the solar light is introduced into the skylight case portion 200 through the space portion 1015 of the frame portion 101, the skylight case portion 200 The solar light introduced into the solar cell is not blocked or reflected by the reflector 227 and is directly introduced into the room through the lower glass window part 223 by direct sunlight, thereby directly contributing to an increase in the temperature of the room. Maximize greenhouse effect, increase radiant heat, improve indoor heating effect, direct lighting, increase the light effect of the room, open the sky to see the sky through the sky I could feel the sense.

In addition, when the height of the sun is higher than the winter season, such as the spring and autumn season (March, April, May, September, October, November), as shown in FIG. 4B, the angle of the light collecting unit 100 is set lower than that of the winter season. Increase the effect of collecting the sunlight to the light portion 102, the sunlight flowing through the space portion 1015 of the frame 101 is reflected by the horizontal reflector 2227 of the skylight case portion 200 By forming the reflected light causes the greenhouse effect in the sealed skylight case 200, accordingly, the skylight case 200 emits radiant heat so that the room heating effect can be obtained. In addition, since the light flowing into the skylight case part 200 is formed in the form of reflected light, it is possible to block unnecessary direct sunlight and to stably introduce indirect light scattered light into the room, thereby achieving an effect of maintaining comfortable indoor illumination.

In addition, during the summer season (June, July, August) at the highest altitude of the sun or at noon, as shown in FIG. 4C, the angle of the condenser portion 100 is set lower than that of the spring and autumn season to the condenser 102. Although it is possible to increase the effect of collecting the sunlight, the sunlight flowing through the space portion 1015 of the frame 101 is reflected by the inclined reflector 2227 and is discharged out through the upper opening 215 Therefore, the greenhouse effect of the skylight case part 200 is reduced, and thus radiant heat is reduced. Therefore, the indoor temperature is prevented from rising and only scattered light, which is indirect light, can be introduced into the room to maintain a comfortable indoor illuminance (at this time, the upper casement 2215 of the upper opening 215 is in an open form. Is preferably maintained).

By rotating the light collecting unit 100 around the hinge according to the weather or the date according to the season, the light collecting effect of the light collecting unit is increased, and the heat energy flowing into the sealed skylight case 200 is efficiently controlled. Control the heating and lighting effects.

5a to 5c is a state diagram used for opening and closing windows of the skylight case portion of the skylight system according to the embodiment of the present invention.

As shown in FIGS. 5A to 5C, a casement 2022 is selectively formed by forming openings 215 and 225 including upper and lower casement windows 2152 and 2252 in upper and lower portions of the skylight case part 200. 2042) can be opened and closed, which can be controlled by the window opening and closing motor unit 229 formed inside the skylight case part 200.

As shown in FIG. 5A, when both the upper casement 2215 and the lower casement 2252 are opened, the warmth of the indoor upper floor is introduced into the skylight case part 200 through the lower opening 225 and the air introduced therein The air is discharged to the outside through the upper opening 215 again, so that the air in the room circulates to generate convection, thereby making it possible to feel a refreshing feeling. It is used to keep the air and circulate the air in the room.

In addition, in order to achieve the maximum heating effect in winter or as shown in FIG. 5B, only the lower casement 2225 of the lower opening 225 is kept open so that the skylight case 200 is stored. By introducing heat energy into the room, it improves the direct indoor heating effect and improves the insulation performance of the building.

In addition, in summer, the lower casement 2225 is closed and only the upper casement 2215 is opened in order to prevent the leakage of indoor cooling as shown in FIG. 5C. Emissions to the outside reduce the greenhouse effect, thereby reducing radiant heat, allowing the indoor temperature to be lowered.

The interior heating effect can be adjusted by the selective opening and closing of the upper and lower casement windows 2152 and 2252, and the opening and closing of the upper and lower casement windows 2152 and 2252 is not limited to use depending on the season, regardless of the season. By selectively using according to the needs of the room to maintain the cooling feeling of the room and to control the heating effect.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

1 is a perspective view of a skylight system according to an embodiment of the present invention

Figure 2 is a perspective view of the light collecting portion of the skylight system according to an embodiment of the present invention

3 is a perspective view of a skylight case of a skylight system according to an embodiment of the present invention;

4a to 4c is a state diagram used for the rotation of the light collecting unit of the skylight system according to an embodiment of the present invention

5a to 5c is a state diagram used for opening and closing the window case part of the skylight system according to an embodiment of the present invention

Description of the Related Art

100: light collecting unit 101: frame unit

102: light collecting unit 103: hinge

104: condenser band motor 105: drive shaft

106: pinion gear 107: rack gear

108: support plate 200: skylight case

210: upper part of the skylight case 220: lower part of the skylight case

211, 221: upper and lower window borders 213, 223: upper and lower glass windows

215, 225: upper and lower openings 227: reflector plate

229: window opening and closing motor portion 1011: horizontal frame

1013: vertical frame 1015: space part

1071: tooth of rack gear 1081: support plate protrusion

2151, 2251: upper and lower through holes 2152, 2252: upper and lower casement windows

2271: tilt reflector 2272: horizontal reflector

Claims (8)

A light collecting unit including a light collecting panel and formed to rotate about a hinge; It is formed in the lower portion of the light collecting unit and stores the heat energy flowing through the sunlight and forms a reflected light and scattered light by a reflecting plate and formed to be transmitted to the room by the lower glass window formed on the lower, The skylight case part includes a skylight case upper portion formed of a transparent window, and a skylight case lower portion formed at a lower portion of the skylight case upper portion and including a reflection plate therein, A skylight system for condensing and storing solar light and controlling the inflow of sunlight indoors, characterized in that the front of the skylight case upper part and the bottom of the skylight case includes respective openings. The method of claim 1, The light collecting unit has a predetermined width and forms a frame portion 101 forming an edge, a light collecting unit for collecting the solar light in the frame unit, and formed at one end of the frame unit, and the skylight case unit and A hinge fixed and connected to the inner central portion of the frame part, and a condenser stand motor for driving the pinion and the gear, a drive shaft connected to both sides of the condenser stand motor and formed to be an axis of the pinion gear, Condensing and storing solar light, characterized in that it comprises a pinion gear formed at the end of the drive shaft, a rack gear formed to engage the pinion gear, and a support plate fixed to the lower end of the rack gear Skylight system that controls light inflow. The method of claim 2, One side of the intersecting frame protrudes outward so that the frame part may be a "ㅂ" shape, and a space part is formed. This allows the sunlight to flow into the skylight case part to store the thermal energy, thereby promoting a greenhouse effect. Solar light collecting and storage, characterized in that the skylight system that functions to control the indoor inflow of sunlight. The method of claim 1, The light collecting unit may rotate around the hinge according to the altitude and direction of the sun to increase the light collecting effect of the light collecting unit and to efficiently control the heat energy flowing into the sealed skylight case part. And a skylight system for condensing and storing solar light, and controlling the inflow of sunlight indoors. delete The method of claim 1, The opening may include a through hole formed to penetrate the outside and the inside of the skylight case part, and a casement window formed in the inside of the hole to open and close like a casement door, thereby allowing the inside of the skylight case part to be selectively opened and closed. Concentrating and storing solar light, the skylight system that controls the indoor inflow of sunlight, characterized in that by circulating the heat energy stored in the room to adjust the room temperature and circulate the air to feel a refreshing feeling. The method of claim 1, The bottom surface of the skylight case part includes an inclined reflector and a horizontal reflector to convert the light flowing from the skylight case part into reflected light to achieve a greenhouse effect, to control the temperature of the room, and to obtain an indirect lighting effect due to scattered light. Condensing and storage of solar light, characterized in that the skylight system that controls the inflow of sunlight indoors. The method of claim 1, The lower part of the skylight case forms a lower glass window, so that the solar light flowing through the space portion of the condensing bag is directly or indirectly introduced into the interior, thereby heating the interior of the building and obtaining a lighting effect. The skylight system that collects and stores solar light and controls the inflow of sunlight indoors.

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