KR200462893Y1 - Arch skylight of building arch roof - Google Patents

Abstract

The present invention relates to an arch roofing miner for building roofs that is integrated with the arched roof of the building and draws natural light (sunlight) from the exterior to the room. More specifically, it is applied to factories, gymnasiums, warehouses, military barracks, etc. The arched roof is formed in the arch shape along the curve of the roof to keep the exterior of the building without damaging the exterior of the building without damaging the exterior of the building. The light collecting plate 10 which is exposed to the outside of the arched roof 200 of the building for the purpose of improving the appearance and convenience by constructing to shield and open the natural light at the same time by driving the light shielding film by the system is Formed into an arch shape that matches the curve of the arched roof 200, The wall surface is composed of a reflector 21 to form arcuate both side reflectors 21 in the longitudinal direction of the light transmission path 20 for scattering the light passing therebetween, and is installed between the light transmission path 20 and the light collecting plate 10. The light shielding film 30 is wound on a roller 35 driven by a spring, and a wire 60 wound around the motor 50 is connected to a wire coupling hole 32 formed in the guide bar 31 at the end thereof. It is configured to open and close while moving on an arc along an arc-shaped curve by the driving of the motor 50, the light scattering plate 40 for diffusing the light guided to the light transmission path 20 while sealing the bottom of the light transmission path 20 is arcuate. Combining the arcuate light collecting plate 10 and the light transmission path 20 arched light scattering plate 40, and configured to install the arcuate body 100 to the arched roof 200 and at the same time
At this time, the light shielding film 30 forms an arcuate guide rail 101 at both sides in a longitudinal direction in a space adjacent to the light-converging plate 10 of the light transmitting path 20 of the body 100 in the longitudinal direction, and is supported by a spring to drive The wire 60 wound around the motor 50 is connected to the wire coupling hole 32 of the guide bar 31 formed at the end of the light shielding film 30 wound on the roller 35 to drive the light shielding film 30. By configuring the light to open and close, the overall shape of the miner coincides with the curved shape of the arched roof, and the light collecting plate is curved in an arc shape without damaging the original aesthetics of the arched roof. It is a novel design that can be constructed to open and close the light shielding films of multiple lighters simultaneously with a single motor when the lighters are installed adjacent to each other.

Description

Arch skylight for building roof {Arch skylight of building arch roof}

The present invention relates to an arch roofing miner for building roofs that is integrated with the arched roof of the building and draws natural light (sunlight) from the exterior to the room. More specifically, it is applied to factories, gymnasiums, warehouses, military barracks, etc. The arched roof is formed in the arch shape along the curve of the roof to keep the exterior of the building without damaging the exterior of the building without damaging the exterior of the building. The purpose of the system is to drive the light shielding film and to shield and open the natural light at the same time to improve the appearance and convenience.

In the construction of buildings due to industrial development, the use of large buildings such as gymnasiums, performance halls, and barracks of soldiers, as well as warehouses and factories that are not residential, has increased. To reduce the load on the roof as a method for eliminating, there have been many examples of constructing an arcuate iron roof such as a case plate.

In addition, these buildings have high roof and wide indoors, so that the structure of installing windows on the existing wall does not draw enough natural light from the outside.

In addition, indoor ventilation was also a problem, and a separate ventilation hole had to be installed on the roof or wall.

Recently, a technique for installing a miner on the roof of a building has been developed as a method for drawing external light into the interior of the above buildings, and it is almost common to install a miner on the roof of a building.

Therefore, the FRP and reinforced plastic skylights used in the arched roof of the roof or the arched building were easy to inflow into the natural light, but were not able to block the light as needed. It is configured to attach the light collector to the upper part, attach the reflector to the inner wall, and select the opening and closing of the light. In recent years, the evacuation phenomenon of the skylight plate and the miner has come due to defects in appearance, and in recent years, when building arched panel buildings, wall windows and windows are used. There was a problem.

However, until now, the miner has focused on transmitting the mined light to the room, and ignores the shape of the roof, and simply sunshines and illuminates the room. There was a problem that the appearance of the building was damaged due to the appearance of horns on the roof, and above all, the task of maintaining confidentiality was difficult and the skylight could not be installed continuously.

In order to solve the above problems, the present invention constitutes a light emitter that induces external light to the room.

The arched roof of the building is exposed to the outside to induce light, and the light collecting plate is formed into an arch shape that matches the curve of the arched roof, and the wall is composed of reflecting plates, and both sides in the longitudinal direction of the floodlight to scatter the light passing therethrough. The reflective plate is formed in an arch shape, and has a double waterproof function in the construction of a light beam bent according to the arched appearance, and a light shielding film installed between the floodlight and the light collecting plate is wound on a spring driven by a roller and formed on the guide bar at the end. By connecting the wire wound to the motor to the wire coupling hole, the light shielding film moves on the arc along the arc-shaped curve by the driving of the motor. The arch diffuser is configured to diffuse the light guided to the furnace in an arch, Combining the arch and the diffuser of the floodlight and the arch to form a body to configure it to be installed on the arched roof.

According to the present invention having the above-described configuration, the overall shape of the miner is embedded in the roof in accordance with the curved shape of the arched roof, and the light collecting plate is curved in an arch shape without damaging the original aesthetic of the arched roof. In addition to condensing, it is easy to waterproof after installation and has excellent airtightness, and when installed adjacent to multiple lighters, it can be constructed to open and close the light shielding films of multiple lighters at the same time with a single motor. It is a novel design.

1 is a view illustrating a configuration and installation state of the present invention.
Figure 2 is an enlarged horizontal cross-sectional view illustrating the configuration of the present invention.
Figure 3 is an excerpt perspective view of the installation state of the present invention.
Figure 4 is another exemplary embodiment of the present invention.

Looking at the embodiment according to the specific configuration of the present invention by the accompanying drawings as follows.

Example;

The top of the floodlight consists of a square tube that cuts a part of the roof and induces external light into the room. A light collecting plate is formed at the top, and the roof material and the skylight are integrated by welding or seaming by inserting a light receiver into the cut-out of the roof. In constructing by installing in combination,

As illustrated in FIG. 1, the light collecting plate 10 that is exposed to the outside of the arch roof 200 of the building to induce light is formed as an arc-shaped curved plate that matches the curve of the arch roof 200 in the longitudinal direction.

And the wall surface is composed of a reflector below the square to form a light-transmitting path 20 of scattering light passing through the light-transmitting path 20 is the upper and lower sides of both side reflecting plate 21 in the longitudinal direction This fan shape is formed in a round arch shape.

The light shielding film 30 installed between the rectangular cylindrical light-transmitting path 20 and the light collecting plate 10 has a roller that rotates one end of the cylindrical spring on the upper side of the light-transmitting path 20 by a spiral spring. One end fixed to 35) is configured by winding the spiral spring to be wound. The free end of the light shielding film 30 wound on the roller configured as described above is coupled to the guide bar 31 having the wire coupling hole 32 formed therein so as to guide both ends of the guide bar 31 to the guide rail 101. . The wire 50 connected to the winding drum (not shown) mounted on the motor 50 by the driving of the motor 50 is connected to the wire coupling hole 32 of the guide bar 31, thereby connecting the motor 50. The light shielding film 31 is configured to be opened and closed while moving along the arcuate curve by the driving of the light scattering plate, and the light scattering plate 40 diffuses the light induced in the light transmitting path 20 while sealing the bottom of the square light transmitting path 20. The arch is formed to be curved in an arc shape.

To install the condenser, the arcuate body 100 having the arcuate curved light collecting plate 10 is attached to the upper end and the arcuate light transmitting path 20 of the arcuate bent diffuser plate 40 is attached to the lower end. A portion of the arched roof 200 cut in order to be embedded is installed so that the upper light collecting plate 10 coincides with the curve of the arched roof (200).

1 to 3, the light shielding film 30 has arcuate guide rails 101 at both sides in a lengthwise direction in a space adjacent to the light-converging plate 10 on the upper side of the light-transmitting path 20 of the arcuate body 100. ) And a roller 35 which is driven by the spiral spring and driven by the restoring force of the spiral spring, and one end is integrally coupled to the roller 35 so that the spiral spring is wound around the light shielding film ( A guide bar 31 having a wire coupling hole 32 formed at the other end of the coupling unit 30 is integrally coupled to each other so that both ends thereof are guided to the guide rail 101, and then wire coupling of the guide bar 31 is performed. The wire (60) wound by the driving of the motor 50 is connected to the ball 32 is configured to open and close the light shielding film 30 in an arc shape by the driving of the motor 50.

And as shown in FIG. 3, when the arcuate body 100 is continuously installed adjacently, each of the wires 60 wound by the driving of the single motor 50 is wound on the roller 35 supported by the spiral spring. Single wire 60 in which a plurality of light shielding films 30 are wound by the driving of a single motor 50 by being sequentially connected to the wire coupling holes 32 of the respective guide bars 31 formed at the end of the light shielding film 30. It is convenient to use if configured to open and close at the same time.

The light shielding film 30 installed as described above may be selectively used by a user by operating the motor 50 using a remote controller.

The completed miner can be constructed with the construction roof, but it can also be constructed by cutting the roof of the existing construction.

That is, the construction of the arched roof 200 is appropriately cut to install the above-described light emitter, and the skylight arcuate body 100 is buried into the interior of the cut arched roof 200 so that only the upper ends are constructed so as to match with each other. It will be mined and guided into the building to spread.

The present invention described above is a useful design that can be used by installing the arched iron plate roof of a large building.

DESCRIPTION OF SYMBOLS 10 Condensing plate 20 Floodlight 21 Reflector
30: light shielding film 31: guide bar 32: wire bonding hole
35: roller 40: diffuser 50: motor
60: wire
100: arched body 101: guide rail 200: arched roof

Claims (3)

delete The upper part of the floodlight, which consists of a square tube that cuts a part of the roof and induces external light into the room, forms a light collecting plate, and the lower part inserts a lighter that forms a diffuser plate into the incision to weld or seam the roofing material and the skylight. In constructing a miner that is integrally installed and installed,
The light collecting plate 10 which is exposed to the outside of the arch roof 200 of the building to induce light is formed of a curved plate curved in an arc shape that matches the curve of the arch roof 200 in the longitudinal direction, and the wall below is a reflecting plate. Both side reflecting plates 21 of the light-transmitting path 20 of the light-transmitting path 20 configured to scatter the light passing therethrough are formed in an arch shape such that the upper and lower ends thereof are curved in the longitudinal direction, and the light-transmitting path 20 of the square-shaped shape ) And the light shielding film 30 installed between the light collecting plate 10 and the light blocking film 30 moved along the arcuate curve by the driving of the motor 50, and the bottom of the square light-transmitting path 20 is sealed. The light diffuser 40 for diffusing the light guided by 20 is composed of a curved plate curved in an arc shape, and the arcuate light collecting plate 10 and the light-transmitting path 20 are formed in a longitudinal side shape by combining the arcuate light diffuser plate 40. This arch Configured as an arcuate body (100) is configured to be round to be installed integrally fixed by welding or ssiming by inserting the lower end of the body 100 to the cut part of the arched roof 200 and the incision,
The light shielding film 30 forms an arcuate guide rail 101 at both sides in a longitudinal direction in a space adjacent to the light-converging plate 10 on the light-transmitting path 20 of the arcuate body 100 in the longitudinal direction, and is supported by a spiral spring and spiral spring. One end is integrally coupled to the roller 35 to form a roller 35 driven by a restoring force of the wire 35, and a wire coupling hole 32 is formed at the other end of the light shielding film 30 wound on the roller 50 so that the spiral spring is wound. The guide bar 31 is formed integrally coupled to each other and the both ends of the guide bar 101 is configured to be guided to the guide rail 101, and then wound around the motor 50 to the wire coupling hole 32 of the guide bar 31. The arch 60 miner for the building roof, characterized in that the wire 60 is configured to include the configuration to open and close the light shielding film 30 in an arc shape by the drive of the motor (50).
The method of claim 2,
When the arcuate body 100 is continuously installed adjacent to each other, each of the single wires 60 wound by the driving of the motor 50 is formed at the end of each light shielding film 30 wound on the roller 35 supported by the spiral spring. By sequentially connecting to the wire coupling hole 32 of the guide bar 31 of the plurality of light shielding film 30 is configured to be closed and opened at the same time by a single wire 60 wound by the driving of a single motor (50) An architectural arch roofing light receiver.

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