KR101916175B1 - Underground structure with natural lighting function - Google Patents

Abstract

The underground structure according to the present invention comprises: a structure installed in an underground space to have an indoor space and having an opening formed in an outer wall; A light guide part formed in a wall shape made of a material having a transparency within a predetermined range and coupled to an outer surface of the structure so as to cover the opening part, and a reflection layer coupled to cover the lower side of the light guide part, And a light transmission unit including a lower plate and an upper plate made of a material capable of transmitting natural light and covering the upper side of the light guide unit. The upper plate is installed to be exposed to the ground, and natural light introduced through the upper plate And is transmitted to the interior space of the structure through the light guide portion.

Description

Background Art [0002] Underground structure with natural lighting function [0003]

BACKGROUND OF THE INVENTION Field of the Invention [0002] The present invention relates to a subterranean building constructed underground, and more particularly, to a subterranean building having a natural light function configured to guide sunlight irradiated to the ground to the interior.

During the construction, air conditioning, mining and ventilation are very important in terms of energy conservation and health care, and various developments are taking place in the mining and ventilation structure. Especially, it has been found that natural light has many advantages for human health, and recently, development of mining system using natural light has been actively carried out. For example, there has been developed a method for installing a window capable of opening and closing on an outer wall or ceiling of an architectural structure so that a greater amount of natural light can be introduced into the interior of the architectural structure.

However, there is a problem in that natural light can not be delivered directly to buildings buried underground because windows can not be installed on outer walls or ceilings. Natural light has not only a sufficient amount of light to function as a light source but also has a function of supplying growth light necessary for growth and development of life and sterilizing and purifying based on ultraviolet rays. The advantage of such natural light can not be utilized at all.

In order to solve the above problems, a mining device (Korea Public Utility 20-2011-0008013) for transmitting natural light irradiated to the ground to the inside of the underground building has been developed. The light device is configured such that natural light is reflected by the underground structure through a ramp excavated to the side of the underground structure, and natural light can be irradiated even to a building completely buried in the underground structure.

However, such a conventional natural light device for underground buildings requires a separate ramp for exposing the side wall of the underground building to the outside, which requires a large area of land and a large construction cost . Especially, in the case of the city center where the distance between the buildings is narrow, it is difficult to secure space for excavation in such a slope, so that it is practically inapplicable in the field.

KR 20-2011-0008013U

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above problems and it is an object of the present invention to provide a lighting system capable of transmitting natural light to an interior of a structure underground, The object of the present invention is to provide an underground structure in which the illuminance of the lighting provided in the room can be adjusted.

According to an aspect of the present invention, there is provided an underground structure comprising: a structure installed in an underground space having an indoor space and having an opening formed in an outer wall; A light guide part formed in a wall shape made of a material having a transparency within a predetermined range and coupled to an outer surface of the structure so as to cover the opening part, and a reflection layer coupled to cover the lower side of the light guide part, And a light transmission unit including a lower plate and an upper plate made of a material capable of transmitting natural light and covering the upper side of the light guide unit. The upper plate is installed to be exposed to the ground, and natural light introduced through the upper plate And is transmitted to the interior space of the structure through the light guide portion.

An LED mounted on an upper surface of the lower plate and a lower surface of the upper plate, respectively, and a light amount sensor for sensing an amount of light entering the upper plate,

And the LED is turned on when the amount of light entering the upper plate is less than a preset reference value.

Wherein the light guiding portion is configured to have an upper space and an lower space opened,

A reflective sheet is attached to a portion of the inner wall surface of the light guide portion other than a portion corresponding to the opening portion,

One or more LEDs are provided on the outer surface of the reflective sheet.

The inner space of the light guide portion is filled with water,

A transparent window is provided on a portion of the light guide portion corresponding to the opening,

An oxygen generator for supplying oxygen to the water filled in the light guide portion and a filter for filtering the water filled in the inner space of the light guide portion.

The use of the underground structure according to the present invention allows natural light to be transmitted to the interior of a structure provided in the underground, thereby saving energy for mining. Further, since a large space is not required around the structure, There is an advantage that the illuminance of the lighting provided to the inside of the room can be adjusted, which is convenient to use.

1 is a vertical sectional view of an underground structure according to the present invention.
2 is an exploded perspective view of an optical transmission unit included in an underground structure according to the present invention.
3 and 4 are horizontal sectional views of an underground structure according to the present invention.
5 is a vertical cross-sectional view of the second embodiment of the light transmitting unit.
6 is a vertical cross-sectional view of the third embodiment of the light transmitting unit.
7 is an exploded perspective view of the fourth embodiment of the light transmitting unit.
8 is a vertical cross-sectional view of the fifth embodiment of the light transmitting unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of the underground structure according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a vertical sectional view of an underground structure according to the present invention, FIG. 2 is an exploded perspective view of a light transmission unit included in an underground structure according to the present invention, and FIGS. 3 and 4 are horizontal sectional views of an underground structure according to the present invention .

The underground structure according to the present invention is constructed so as to be buried in the ground, and natural light irradiated to the ground can be introduced into the room, so that energy required for mining can be reduced, and various advantages other than mining Supply, sterilization, purification, and the like).

That is, the underground structure according to the present invention includes a structure 100 installed in an underground space to have an indoor space and having an opening 110 formed in an outer wall thereof, and an upper surface exposed to the ground while being in contact with an outer surface of the structure 100. The natural light irradiated to the ground is configured to be transmitted to the interior space of the structure 100 through the light transmitting unit 200. [ Further, a separate ventilation opening 300 is communicated with the structure 100 for ventilation of the indoor space, and an elevation passage 120 is provided at the center of the structure 100. The elevating passage 120 may be formed of a staircase, an elevator may be installed, or the elevating passage 120 may be ventilated.

The light transmitting unit 200 may be formed of a material having transparency higher than a predetermined reference value so that natural light can be transmitted, and may be formed into a vertically erected wall shape so that an installation space can be minimized. However, the light transmitting unit 200 can be made of any material or structure so long as the natural light provided at one end (the upper end in this embodiment) can be conveyed on one side (the surface facing the opening 110).

That is, the light transmitting unit 200 can be manufactured in various structures according to the mounting position and the use. For example, in the case of the optical transmission unit 200 (the optical transmission unit 200 located at the center in FIG. 1) disposed between the two structures 100 arranged in series, the natural light introduced into the upper part is transmitted In the case of the light transmitting unit 200 (the light transmitting unit 200 located on the left and right in FIG. 1) mounted on the outer wall of one of the structures 100, The natural light introduced at the upper end may be transmitted only to the surface corresponding to the opening 110 of the left and right sides. The structure in which the light provided at one end is transmitted to one side in this manner has been commercialized in a light guide plate for a conventional lighting apparatus, and a detailed description thereof will be omitted.

The light transmitting unit 200 may be installed to cover the entirety of the opening 110 so as to transmit a larger amount of natural light to the inner space of the structure 100. Of course, if the user desires less light, the light transmitting unit 200 may be mounted to cover only a part of the opening 110, and the light transmitting unit 200 itself may be made of a translucent material.

When the top surface of the light transmitting unit 200 is contaminated or damaged, the amount of light entering the light transmitting unit 200 may be reduced The problem may be degraded. Therefore, it is preferable that the light transmitting unit 200 is made of a material having high strength so that contamination and damage are not easy. However, if the entire light transmitting unit 200 is made of a material having high strength, .

Therefore, the light transmitting unit 200 can be made of a material having high strength, only the upper side exposed to the ground and the lower side placed on the ground, among the light transmitting units 200. That is, the light transmitting unit 200 is formed in a wall shape made of a material having a transparency within a preset range, and is provided with a light guide portion (not shown) coupled to the outer surface of the structure 100 to cover the opening portion 110, A lower plate 230 coupled to cover the lower side of the light guide unit 210 and an upper plate 220 made of a material capable of transmitting natural light and coupled to cover the upper side of the light guide unit 210, And the like. When the light transmitting unit 200 is divided into the light guiding unit 210, the lower plate 230 and the upper plate 220, only the lower plate 230 and the upper plate 220 are made of a material having high strength, 200) can be reduced.

When the lower plate 230 is made of a material having high transparency, most of the natural light flowing downward through the upper plate 220 is absorbed by the lower plate 220, The amount of light transmitted to the interior space of the structure 100 is reduced. Therefore, it is preferable that the lower plate 230 includes a support layer 232 having a high strength and a reflection layer 234 attached to the upper surface of the support layer 232. When the reflection layer 234 is provided on the upper surface of the lower plate 230 as described above, natural light flowing down through the upper plate 220 is reflected without passing through the lower plate 230, It is possible to obtain an effect of increasing the amount of light transmitted to the light source.

In addition, the light transmission unit 200 may be manufactured in various shapes according to the shape of the structure 100 constructed in the basement. For example, when the planar shape of the structure 100 is formed in a square shape as shown in FIG. 3, the light transmitting unit 200 may be formed in a flat plate shape and installed on each outer wall of the structure 100, As shown in FIG. 4, when the planar shape of the structure 100 is circular, the light transmitting unit 200 may be formed in a cylindrical shape so as to surround the entire outer wall of the structure 100.

That is, the light transmitting unit 200 can be manufactured in various sizes and shapes as long as it can cover the opening 110 of the structure 100.

5 is a vertical cross-sectional view of the second embodiment of the light transmitting unit 200. Fig.

In the underground structure according to the present invention, a sufficient amount of natural light is transmitted through the opening 110 on a clear weather day, but the amount of light transmitted through the opening 110 is reduced on weathery days. The underground structures according to the present invention are provided with LEDs 240 on the upper surface of the lower plate 230 and the lower surface of the upper plate 220 so that a sufficient amount of light can be supplied through the openings 110 even in the case of the weather, .

If the LED 240 is provided on the lower plate 230 and the upper plate 220 and the weather is blurred and the amount of natural light is small when the LED 240 is provided in the lower plate 230 and the upper plate 220, the amount of light supplied to the indoor space through the opening 110 is increased .

5, the LED 240 may be provided on the side wall of the light guide 210 as well as the lower plate 230 and the upper plate 220. That is, the arrangement pattern and the number of the LEDs 240 can be variously changed according to various conditions such as the size of the opening 110, the size of the light transmitting unit 200, and the like.

6 is a vertical cross-sectional view of the third embodiment of the light transmitting unit 200. Fig.

In the embodiment shown in FIGS. 1 to 5, only the case where the light guide unit 210 is formed as one block is shown. However, if the light guide unit 210 is manufactured in the form of a block, .

Accordingly, the light guiding unit 210 may be manufactured to have an upper space and an open space, as shown in FIG. 6, so as to reduce the amount of material to be manufactured. In this case, the upper plate 220 and the lower plate 230 are preferably installed so as to cover and cover the opened upper and lower sides of the light guiding portion 210. If the inside of the light guiding part 210 is formed as an empty structure as described above, it is possible to reduce the manufacturing cost of the light guiding part 210 and to lighten the light transmitting unit 200.

The other part of the inner wall surface of the light guiding part 210 except for the part corresponding to the opening part 110 is provided with a reflection (reflection) function so that most of natural light introduced into the light guiding part 210 can be transmitted to the opening part 110 side. Preferably, the sheet 250 is attached. When the reflective sheet 250 is attached to the inner surface of the light guide 210, most of the natural light introduced through the upper panel 220 can be provided to the opening 110, thereby increasing the efficiency of light. The reflective sheet 250 may be attached only to the upper plate 220 and the lower plate 230 or may be attached to the front and rear sides of the upper plate 220 and the lower plate 230 and the light guide 210, But may be attached over the entire remaining area of the light transmitting unit 200 except for the area facing the opening 110. [

In addition, one or more LEDs 240 may be provided on the reflection sheet 250 so that sufficient light can be supplied to the interior space of the structure 100 even if the natural light amount flowing through the upper plate 220 is insufficient.

Fig. 7 is an exploded perspective view of the fourth embodiment of the light transmitting unit 200. Fig.

The underground structure according to the present invention may be configured such that when the natural light entering through the upper panel 220 is insufficient, the LED 240 is automatically turned on so that the lighting of the interior space of the structure 100 can be maintained constant. A light amount sensor 400 for controlling the lighting of the LEDs 240 may be provided.

The light amount sensor 400 senses the amount of light that flows into the upper plate 220 and generates a light signal to turn on the LED 240 when the amount of light entering the upper plate 220 is less than a preset reference value , And the interior space of the structure 100 can be maintained bright regardless of the weather.

In order to transmit a larger amount of natural light to the opening 110 side, the horizontal cross-sectional area of the light guiding portion 210 should be made wider. When the horizontal cross-sectional area of the light guiding portion 210 is widened, There is a problem that a large space is required. 7, the upper part of the light guiding part 210 is formed as an upper light shielding part so as to increase the light amount of the natural light introduced into the upper plate 220 while minimizing the installation space of the light transmitting unit 200. [ Shape.

If the upper inner wall of the light guiding portion 210 is inclined toward the upper side, a large amount of natural light can be introduced even if the portion to be buried in the ground is inflow, so that the mining effect is improved.

8 is a vertical sectional view of the fifth embodiment of the light transmitting unit 200. Fig.

The light transmitting unit 200 included in the present invention can be utilized not only as a light guide plate that transmits natural light, but also as an interior goods function.

For example, the light transmitting unit 200 may be configured to have a function of an aquarium that can raise fish. That is, the light guiding part 210 is waterproofed so that the inner space is completely isolated from the outside, and the inner space is filled with water. At a portion of the light guiding part 210 corresponding to the opening part 110, May be provided. An oxygen generator 500 for supplying oxygen to the water filled in the light guide unit 210 and a filter 600 for filtering the water filled in the inner space of the light guide unit 210 are provided .

When the inside space of the light guide unit 210 is filled with water and the transparent window 212 is provided, the user can raise the fish in the light guide unit 210 and the fish in the light guide unit 210 can be placed in the transparent window 212 So that the light transmitting unit 200 can perform functions of interior goods.

In addition, when a wave is formed in the water filled in the light guiding part 210, natural light introduced into the light guiding part 210 forms light reflection in various patterns according to the wave, This is an advantage that it becomes possible.

The reflection plate 250 and the LED 240 may be provided on the light guide 210 and the upper and lower plates 220 and 230. The mounting position and the number of the reflection plate 250 and the LED 240 may be And can be variously changed according to the user's selection.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: Structure 110:
120: lift passage 200: optical transmission unit
210: light guiding portion 212: transparent window
220: top plate 230: bottom plate
232: Support layer 234: Reflective layer
240: LED 250: reflective sheet
300: Ventilation hole 400: Light amount sensor
500: oxygen generator 600: filter

Claims (4)

A structure 100 installed in an underground space to have an indoor space and having an opening 110 formed in an outer wall thereof;
A light guide part 210 formed in a wall shape made of a material having transparency within a predetermined range and coupled to an outer surface of the structure 100 to cover the opening part 110, And a top plate 220 which is made of a material capable of transmitting natural light and is coupled to cover the upper side of the light guide unit 210 An optical transmission unit (200); / RTI >
The upper plate 220 is exposed to the ground so that natural light introduced through the upper plate 220 is transmitted to the interior space of the structure 100 through the light guide unit 210,
An LED 240 mounted on the upper surface of the lower plate 230 and the lower surface of the upper plate 220 and a light amount sensor 400 sensing the amount of light introduced into the upper plate 220,
When the amount of light entering the upper plate 220 is less than a preset reference value, the LED 240 is turned on,
The light guiding portion 210 is configured to have an upper space and a lower space,
A reflective sheet 250 is attached to the inner wall surface of the light guiding portion 210 except the portion corresponding to the opening 110,
At least one LED 240 is provided on the outer surface of the reflective sheet 250,
The inner space of the light guiding portion 210 is filled with water,
A transparent window 212 is provided at a portion of the light guiding portion 210 corresponding to the opening 110,
An oxygen generator 500 for supplying oxygen to the water filled in the light guide unit 210 and a filter 600 for filtering the water filled in the inner space of the light guide unit 210 Underground structures featured.
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