KR101254513B1 - Sun Light Condensing Structure of Natural Lighting Apparatus using Prism - Google Patents

Abstract

The present invention relates to a light collecting structure of a natural light device using a prism, and in particular, a front prism panel (or front fresnel panel) inclined upward at an angle of 61 to 90 degrees with respect to a horizontal plane; A top prism panel (or top fresnel panel) connected to an upper end of the front prism panel (or front fresnel panel) and inclined upward at an angle of 0 to 29 degrees with respect to a horizontal plane; A pair of side prism panels each having a front end and an upper end connected to both side ends of the front prism panel (or front fresnel panel) and both side ends of the top prism panel (or top fresnel panel); The rear panel is connected to both the rear end and the upper end of the rear prism panel and the rear end of the upper prism panel (or upper Fresnel panel), respectively, and upright at an angle of 90 degrees with respect to the horizontal plane. By condensing and replacing the power demand used in the building there is an effect that can save energy.

Description

Sun Light Condensing Structure of Natural Lighting Apparatus using Prism}

The present invention relates to a light collecting structure of a natural light device using a prism, and more particularly to a light collecting structure of a natural light device that can reduce the energy consumption of the building by improving the light efficiency of sunlight.

The living conditions of modern people, especially urban people, suffer from modern illnesses such as sunlight deficiency syndrome due to lack of sunshine due to living conditions such as living in high-rise buildings such as apartments and buildings, or in low-rise buildings that are poorly sunlit. It is happening frequently.

In addition, high-rise buildings are not using the sunlight efficiently, causing the problem of consuming excessive energy by installing a separate light.

Due to these problems, high-rise buildings, such as apartments and buildings, are making various efforts to secure the amount of sunshine, and as one of these efforts, a lot of natural light devices have been devised. It is becoming.

These natural light devices are natural energy utilization devices that are expected to be introduced and expanded in the future as one of the solar energy utilization systems for preventing global warming, saving energy, and sustainable construction. There is a problem that goes out a lot.

The present invention has been made to solve the above problems of the prior art, the prism panel or fresnel panel on the front and top, and the prism panel on the side, and the reflector on the back to improve the light collection efficiency The purpose is to provide a light collecting structure of the natural light device using a prism that can reduce the energy consumption of the building.

The light collecting structure of the natural light device using the prism according to the present invention for solving the above problems is inclined upward at an angle of 61 to 90 degrees with respect to the horizontal plane, the inner angle of the place corresponding to the upper side of the incident side is 40 degrees, the lower side of the incident side A front prism panel made of a prism lens having an internal angle of 60 degrees, a remaining internal angle of 80 degrees, and a pitch of 1 to 2 cm; An upper prism panel connected to an upper end of the front prism panel and inclined upward at an angle of 0 to 29 degrees with respect to a horizontal plane, an internal angle of 60 degrees, and a prism lens having a pitch of 1 to 2 cm; A front end and an upper end are respectively connected to both side ends of the front prism panel and both side ends of the top prism panel, the inner angle of the place corresponding to the upper side of the incident side is 40 degrees, the interior angle of the place corresponding to the bottom side of the incident side is 60 degrees, and the rest. A pair of side prism panels made of a prism lens having an internal angle of 80 degrees and a pitch of 1 to 2 cm; The rear panel of the side prism panel and the rear end of the upper prism panel, both side ends and the upper end are respectively connected, upright at a 90 degree angle with respect to the horizontal plane, the rear panel consisting of a reflector.

In addition, the light collecting structure of the natural light device using the prism according to the present invention includes a front Fresnel panel inclined upward at an angle of 61 to 90 degrees with respect to the horizontal plane; A top fresnel panel connected to an upper end of the front fresnel panel and inclined upward at an angle of 0 to 29 degrees with respect to a horizontal plane; A front end and an upper end are respectively connected to both side ends of the front Fresnel panel and both side ends of the top Fresnel panel, and the inner angle of the place corresponding to the upper side of the incident side is 40 degrees and the interior angle of the bottom side of the incident side is 60 degrees. A pair of side prism panels formed of a prism lens having a pitch of 1 to 2 cm and having an internal angle of 80 degrees; The rear panel of the side prism panel and the rear end of the upper Fresnel panel, both sides and the upper end are respectively connected, upright at a 90 degree angle to the horizontal plane, it may be composed of a rear panel consisting of a reflector.

The light converging structure of the natural light device using the prism of the present invention configured as described above can efficiently condense sunlight by prism panels or fresnel panels installed on the front, top, and sides to replace the electric power demand used in buildings. There is an advantage to reduce the cost.

In addition, the installation angle of the front prism panel and the top prism panel, or the installation angle of the front fresnel panel and the top fresnel panel, and the inner angle of the prism lens constituting the prism panel are configured at an appropriate angle, and the rear panel is configured by a reflector to condense. There is an advantage that can further improve the efficiency.

In addition, when the front Fresnel panel and the upper Fresnel panel is installed, the weight can be reduced to provide a light-weight condensing structure.

1 is a view showing a prism lens of a front prism panel of a light collecting structure of a natural light device using a prism according to the present invention.
Figure 2 is a view showing a prism lens of the upper prism panel of the light collecting structure of the natural light device using a prism according to the present invention.
Figure 3 is a view showing a prism lens of the side prism panel of the light collecting structure of the natural light device using a prism according to the present invention.
4 is a view showing the rear surface of the light collecting structure of the natural light device using the prism shown in FIGS.
5 is a view showing a lens structure of the front Fresnel panel of the light collecting structure of the natural light device using a prism according to the present invention.
Figure 6 is a view showing a lens structure of the upper Fresnel panel of the light collecting structure of the natural light device using a prism according to the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of a light collecting structure of a natural light device using a prism according to the present invention will be described in detail.

1 is a view showing a prism lens of a front prism panel of a light collecting structure of a natural light device using a prism according to the present invention, and FIG. 2 is a prism of a top prism panel of a light collecting structure of a natural light device using a prism according to the present invention. 3 is a view illustrating a lens, and FIG. 3 is a view showing a prism lens of a side prism panel of a light collecting structure of a natural light using a prism according to the present invention, and FIG. 4 is a natural light using a prism shown in FIGS. 1 to 3. The back side of the condensing structure of the device.

5 is a view illustrating a lens structure of a front Fresnel panel of a light collecting structure of a natural light device using a prism according to the present invention, and FIG. 6 is a top surface of a light collecting structure of a natural light device using a prism according to the present invention. Figure shows the lens structure of the panel.

The light collecting structure of the natural light device using the prism according to the present invention includes the front prism panel 10, the top prism panel 20, the side prism panel 30, the back panel 40, the duct 50, and the like. It consists of a diffuser 60.

The front prism panel 10 is installed to be inclined upward at an angle θ1 to a horizontal plane. The front prism panel 10 is preferably made entirely transparent in consideration of light transmission efficiency, and a plurality of prism lenses are provided therein.

The prism lens provided in the front prism panel 10 has an internal angle a1 of 40 degrees at the upper side of the incidence edge among the three internal angles, an internal angle a2 of 60 degrees at the lower side of the incidence edge, and the remaining angles. (a3) makes an angle of 80 degrees. That is, of the two internal angles a1 and a2 generated on the surface where the sunlight is incident, the internal angle a1 located at the upper side is 40 degrees, the internal angle a2 located at the lower side is 60 degrees, and the innermost of the three internal cabinets. The inner angle (a3) located at will form an angle of 80 degrees. This angle is the angle that can receive the maximum sunlight, the angle set by various experiments. In addition, the pitch of each prism lens included in the front prism panel 10 is 1 to 2 cm.

Meanwhile, the front prism panel 10 may be replaced with the front Fresnel panel 10 'while maintaining the same installation angle and structure. Fresnel panel is a concave inclined concentric circles arranged in a continuous contour to collect the sunlight, the thickness is thin and light, the farther away from the luminous body, the light collecting efficiency is better than the prism panel. By replacing such a fresnel panel with the front prism panel 10, it is possible to increase the light collection efficiency and at the same time help to reduce the weight of the natural light device.

Here, the front prism panel 10 and the front fresnel panel 10 'are manufactured using a material of polymethyl methacrylate (PMMA) or polyethylene terephthalate (PET).

The upper prism panel 20 is installed so that a front end is inclined upward at an angle θ2 of 0 to 29 degrees with respect to a horizontal plane by being connected to an upper end of the front prism panel 10. The upper prism panel 20 is preferably made entirely transparent in consideration of light transmission efficiency, and a plurality of prism lenses are provided therein.

In the prism lens of the upper prism panel 20, the inner angles b1, b2, and b3 form an angle of 60 degrees. In addition, the pitch of each prism lens included in the upper prism panel 20 is 1 to 2 cm.

Meanwhile, the upper prism panel 20 may be replaced with the upper Fresnel panel 20 'while maintaining the same installation angle and structure. Like the upper Fresnel panel 10 ', the upper Fresnel panel 20' is installed to increase the light collection efficiency and at the same time reduce the weight of the natural light device.

Here, the upper prism panel 20 and the upper fresnel panel 20 'are manufactured using a material of polymethyl methacrylate (PMMA) or polyethylene terephthalate (PET).

The pair of side prism panels 30 are installed at both ends of the front prism panel 10 and at both ends of the top prism panel 20 so that a pair of front ends and top ends thereof are separated by a predetermined distance. The side prism panel 30 is preferably made entirely transparent in consideration of light transmission efficiency, and a plurality of prism lenses are provided therein.

The prism lens provided in the side prism panel 30 has an internal angle (c1) of a position corresponding to the upper side of the incidence edge among the three internal angles of 40 degrees, an internal angle of an internal angle (c2) of a position corresponding to the lower side of the incidence edge of 60 degrees, The remaining cabinet c3 forms an angle of 80 degrees. That is, of the two cabinets c1 and c2 formed on the surface where the sunlight is incident, the cabinet c1 positioned at the upper side is 40 degrees, the cabinet angle c2 positioned at the lower side is 60 degrees, and the other one of the three cabinets. The internal angle of c3 is to form an angle of 80 degrees. In addition, the pitch of each prism lens included in the side prism panel 30 is 1 to 2 cm.

Here, the side prism panel 30 is made of a material of polymethyl methacrylate (PMMA) or polyethylene terephthalate (PET).

The rear panel 40 has both side ends and top ends connected to the rear end of the side prism panel 30 and the rear end of the top prism panel 20, respectively, and is upright at a 90 degree angle θ3 with respect to a horizontal plane. The rear panel 40 is not formed of a prism panel or a fresnel panel but is composed of a reflector.

When the rear panel 40 is configured as a reflector having excellent reflectance, the back panel 40 can be transmitted to the duct 50 by minimizing the loss of incident sunlight.

Meanwhile, the front prism panel 10 and the front fresnel panel 10 ', the top prism panel 20 and the top fresnel panel 20', the side prism panel 30 and the back panel 40 are thick. Is made to be 7 ~ 8mm.

The duct 50 includes the front prism panel 10 or the front fresnel panel 10 ', the upper prism panel 20 or the upper fresnel panel 20', the side prism panel 30 and the rear panel. It is connected to the bottom of the 40 to guide the mined sunlight, it is produced in a size of 0.6m 0.60.6m ㅧ 0.6m.

The diffuser 60 is installed at the lower end of the duct 50 serves to disperse the sunlight guided from the duct 50 into the building.

10: front prism panel 10 ': front fresnel panel
20: Top Prism Panel 20 ': Top Fresnel Panel
30; Side Prism Panel 40: Back Panel
50: duct 60: diffuser

Claims (6)

A front prism panel 10 inclined upward at an angle θ1 with respect to a horizontal plane;
An upper prism panel 20 connected to an upper end of the front prism panel 10 and inclined upwardly at an angle of 0 to 29 degrees with respect to a horizontal plane;
A pair of side prism panels 30 having front and top ends connected to both side ends of the front prism panel 10 and both side ends of the top prism panel 20, respectively;
A rear panel 40 connected to both rear ends and an upper end of the side prism panel 30 and a rear end of the upper prism panel 20, respectively, upright at a 90 degree angle θ3 with respect to a horizontal plane, and formed of a reflector;
A duct 50 connected to the bottom of the rear panel 40 to guide the mined sunlight; And
It is connected to the lower side of the duct 50, the size is formed to expand toward the lower side diffuser 60 for dispersing the sunlight guided from the duct 50 into the building; natural light using a prism including a Condensing structure of the device.
A front Fresnel panel 10 'inclined upward at an angle θ1 to a horizontal plane;
An upper fresnel panel 20 'connected to an upper end of the front fresnel panel 10' and inclined upward at an angle of 0 to 29 degrees with respect to a horizontal plane;
A pair of side prism panels 30 having a front end and an upper end connected to both side ends of the front Fresnel panel 10 'and both ends of the top Fresnel panel 20';
Both rear and upper ends are connected to the rear end of the side prism panel 30 and the rear end of the upper Fresnel panel 20 ', respectively, and are upright at a 90 degree angle (θ3) with respect to a horizontal plane. );
A duct 50 connected to the bottom of the rear panel 40 to guide the mined sunlight; And
It is connected to the lower side of the duct 50, the size is formed to expand toward the lower side diffuser 60 for dispersing the sunlight guided from the duct 50 into the building; natural light using a prism including a Condensing structure of the device.
The method according to claim 1,
Each prism lens of the front prism panel 10 has an internal angle a1 of 40 degrees at the incident side, an internal angle a2 of 60 degrees at the lower side of the incident side, and a remaining internal angle a3. A condensing structure of a natural light device using a prism that forms an angle of 80 degrees, and the pitch of each prism lens is 1 to 2 cm.
The method according to claim 1,
The inner angles b1, b2, and b3 of each prism lens of the upper prism panel 20 form an angle of 60 degrees, and the pitch of each prism lens is 1 to 2 cm. Condensing structure.
The method according to claim 1 or 2,
Each prism lens of the side prism panel 30 has an internal angle c1 of 40 degrees at the top of the incident side, an internal angle c2 of 60 c at the bottom of the incident side, and a remaining angle c3. ) Has an angle of 80 degrees, the pitch of each prism lens is 1 ~ 2cm condensing structure of the natural light device using a prism.
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