KR20130000646A - Underground complex center structure - Google Patents

Abstract

PURPOSE: An underground complex structure is provided to remarkably reduce power consumption by enabling natural lighting through a wide area. CONSTITUTION: An underground complex structure comprises multiple indoor spaces(10), pedestrian passages(20), and ceiling panels(30). The indoor spaces are formed in an underground space and are used for various activities. The pedestrian passages connect the indoor spaces together. The ceiling panels form the whole or portions of the ceilings of the indoor spaces and the pedestrian passages and are composed of a tempered glass or synthetic resin material for transmitting and reflecting light.

Description

Underground Complex Center Structure

The present invention relates to an underground composite structure such as an underground shopping mall, and more particularly, to an underground composite structure in which a ceiling is made of a panel through which light can pass, so that external light is introduced into an underground space to increase natural light. It is about.

Full-scale development and use of underground spaces have grown since the 1970s, with the development of the economy and the emergence of economic and environmental necessities in cities and their availability as industrial facilities. In the 1970s, underground development was expanded to expand urban transportation facilities such as subway line 1 and Namsan 1, 2, and 3 tunnels, and underground streets and underpasses in subway stations were actively developed. In the 1980s, the development of subway lines 2, 3 and 4, the underground linkage project between the historical connecting sections of subway lines 2 and 3, and the systemization of the joint districts according to the development of new cities were carried out. Since the 1990s, underground transit stations and underground shopping centers have been established and operated by the construction of subway lines 5, 6, 7, 8, and 9 and the construction of urban subways.

In recent years, ground development has been developed and operated more concretely and extensively to use underground space as an alternative to saturation and urban traffic problems.

The use of these underground living spaces has the advantage of solving urban problems due to its excellent accessibility such as diversification of urban structures and transportation in urban areas with high population density and high land prices. The facility is installed to provide light to the underground interior space. Therefore, there is a problem of high power consumption due to the artificial lighting system.

Therefore, in the related art, a natural light apparatus for providing an underground space by providing an optical path for connecting an external space with an external space such as an underpass, and guiding external sunlight into the underground space through the optical path has been developed.

However, since the conventional natural light device can provide natural light only to a portion of the underground space, a large number of natural light devices must be installed, which causes a cost increase.

The present invention is to solve the above problems, the object of the present invention is that the natural light is made through a large area can significantly reduce the power consumption, the outside of the basement inside and the inside is not visible from the outside It is to provide an underground composite structure that can cause interest of outsiders.

The present invention for achieving the above object is a plurality of interior space is partitioned in the underground space utilized as a space for a specific human activity; A walking passage connecting the indoor space; A ceiling panel which forms a ceiling of all or part of the indoor space and the pedestrian passage, and includes a ceiling panel that forms a boundary between the underground space and the ground; The ceiling panel provides an underground composite structure, which is made of tempered glass or synthetic resin that transmits light from the ground to the underground and reflects the light from the underground to the ground.

According to the present invention, the ceiling panel that forms the interior space of the underground composite structure and the pedestrian passage has a characteristic of transmitting the light of the outside (ground) and reflecting the light of the inside (underground). Natural light can be used. Therefore, it is possible to drastically reduce the use of artificial lighting devices during the daytime, which can greatly reduce the power consumption, and because it is possible to grow plants using natural light, to create green areas in the underground space and create a pleasant environment with a landscape effect. You may.

In addition, since the outsider can see the inside of the underground space through the ceiling panel, it can cause motivation to flow into the outsider, which also causes additional effects that can lead to increased sales of the underground mall.

1 is a schematic view showing an embodiment of an underground composite structure according to the present invention.
FIG. 2 is a perspective view showing the ground composite structure of FIG. 1 viewed from the ground. FIG.
3 is a bird's eye view showing an example of an underground composite structure according to the present invention.
Figure 4 is a block diagram showing an embodiment of a cooling and heating system of the underground composite structure according to the present invention.

Hereinafter, exemplary embodiments of the underground composite structure according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIG. 1 to FIG. 3, the underground composite structure according to an embodiment of the present invention is divided into an underground space and includes a plurality of indoor spaces 10 that are utilized as a space for a specific human activity, and the indoor space. Pedestrian passage 20 connecting the unit 10, and the ceiling panel 30 forming the ceiling of all or part of the interior space 10 and the pedestrian passage 20 and forms a boundary between the underground space and the ground. It consists of the included configuration. Here, the ceiling panel 30 has a property that allows light transmission from the ground to the basement but does not allow light transmission from the basement to the ground, and the natural light from the outside through the ceiling panel 30 into the basement space. It is introduced to provide natural light effect.

The indoor space 10 may be a space for a variety of human activities, such as shopping stores, cultural / art activities, sports facilities, restaurants and cafeterias, rest areas. As described above, the ceiling panel 30 may provide natural light by introducing external light into the underground space, thereby providing a pleasant environment by forming a green space in which the plants can grow in the indoor space 10. Can be.

The pedestrian passage 20 includes a conventional corridor or a corridor, an escalator, and the like that connect the indoor space 10.

The ceiling panel 30 is made of tempered glass or synthetic resin having the property of transmitting light from the ground to the underground direction and reflecting light from the basement to the ground. Therefore, since external natural light is introduced into the basement space, it is possible to provide light inside the basement space without using a separate external lighting device during the day.

In addition, since the ceiling panel 30 allows only light transmission from the outside of the underground space, that is, the ground to the basement, the person walking on the ground can see the inside of the underground space through the ceiling panel 30, but the person in the underground space. Cannot see the ground. This is to prevent the pedestrians on the ground because when the person in the basement looks at the pedestrians walking on the ground ceiling panel 30 through the ceiling panel 30 can feel shame.

In order to make the ceiling panel 30 transmit external light and reflect the internal light, surface treatment or special film for diffuse reflection of light from the basement to the ground on the lower surface of the ceiling panel 30 is performed. Alternatively, the ceiling panel 30 itself may be made of a material having a property of allowing only light transmission in one direction.

In addition, the UV blocking film may be attached to the upper surface or the lower surface of the ceiling panel 30 to prevent ultraviolet rays from being introduced into the underground space from the outside of the natural light, and transmit only visible and infrared rays.

On the other hand, the support space 40 for supporting the ceiling panel 30 is installed in a grid-like structure on the interior space 10 and the pedestrian passage 20. The support frame 40 may use a conventional beam structure, but as shown in FIG. 4, a hollow portion 41 in which air flows is formed along a longitudinal direction and air flowing along the hollow portion 41. The plurality of air injection holes 42 may be formed of a hollow tube formed to penetrate the inside and outside of the hollow portion 41 so that the air can be discharged to the outside. In this case, when one end of the support frame 40 is connected to the geothermal heat pump system 50, it is possible to perform cooling and heating using geothermal energy.

That is, since geothermal energy is lower than the atmospheric temperature in summer and higher than the atmospheric temperature in winter, the geothermal heat pump system 50 which performs cooling and heating using geothermal energy is environmentally friendly and consumes less space. There is an advantage that the air conditioner 10 and the walking passage 20 can be heated. The geothermal heat pump system may be configured using a conventional geothermal heat pump air conditioning system. For example, the geothermal heat pump system includes a geothermal heat exchanger for exchanging heat with a heat transfer fluid that absorbs hot or cold geothermal heat, a circulation pump for transferring geothermal energy heat exchanged by the heat transfer fluid of the geothermal heat exchanger, and the circulation pump An evaporator that absorbs the heat source to receive the geothermal energy transferred by the heat exchanger at an appropriate temperature for cooling and heating and to supply the heat exchanged geothermal energy to a place of use, a compressor for compressing heat converted into gas to high temperature, and the compressed It may include a condenser for releasing high-temperature, high-pressure gas to transfer heat to the water of the water line, and an expansion valve for reducing the refrigerant liquefied while passing through the condenser.

The geothermal heat pump system 50 and the support frame 40 are connected to each other by a connection duct 51, the support frame 40 is geothermal heat by a blowing fan 52 installed inside the connection duct 51 The cold air or warm air generated by the heat pump system 50 is supplied, and the cold air or hot air is injected through the air injection hole 42 to cool or heat the indoor space 10 and the walking passage 20.

As such, when the support frame 40 supporting the ceiling panel 30 is used as an air conditioning duct for supplying air for heating and cooling, there is no need to install an additional air conditioning duct, thereby reducing the construction cost. There is this.

In the underground composite structure of the present invention having the structure as described above, the ceiling panel 30 forming the ceiling of the plurality of interior spaces 10 and the walkway 20 transmits the light of the outside (ground) and the inside ( Because the light of the underground) reflects, natural light can be obtained by using all or part of the ceiling. Therefore, it is possible to drastically reduce the use of artificial lighting devices during the daytime, which can greatly reduce the power consumption, and because it is possible to grow plants using natural light, to create green areas in the underground space and create a pleasant environment with a landscape effect. You may.

In addition, since the outsider can see the inside of the underground space through the ceiling panel 30, it can cause a motive to be introduced into the basement to the outsider, which also causes an additional effect that can lead to increased sales of the underground mall.

Embodiment of the above-described underground composite structure according to the present invention is presented for illustrative purposes only to help understanding of the present invention is not limited to this, the person skilled in the art to which the present invention belongs Various changes and implementations may be made within the scope of the technical idea described in the claims.

10: interior space 20: pedestrian path
30: ceiling panel 40: support frame
41: hollow portion 42: air injection hole
50: geothermal heat pump system 51: connection duct
52: blower fan

Claims (6)

A plurality of indoor spaces partitioned in an underground space and used as a space for a specific human activity;
A walking passage connecting the indoor space;
A ceiling panel which forms a ceiling of all or part of the indoor space and the pedestrian passage, and includes a ceiling panel that forms a boundary between the underground space and the ground;
The ceiling panel is an underground composite structure, characterized in that made of tempered glass or synthetic resin that transmits light from the ground to the underground direction and reflects the light from the basement to the ground. According to claim 1, Underground composite structure characterized in that the grid support frame for supporting the ceiling panel is installed on the interior space and the pedestrian passage. The underground composite structure according to claim 1 or 2, wherein the lower surface of the ceiling panel has a surface treatment for diffuse reflection of light from the basement to the ground. According to claim 1 or claim 2, Underground composite structure, characterized in that the one side of the ceiling panel is a UV blocking film is attached to block the ultraviolet light and transmit only visible light and infrared light. The underground composite structure of claim 1, wherein the underground composite structure further comprises a geothermal heat pump system configured to generate air for heating and cooling from geothermal energy and supply the air to the indoor space and the walking path. According to claim 5, Support frame for supporting the ceiling panel is installed in the upper portion of the interior space and the pedestrian passage, the inner side of the support frame is formed to penetrate through the hollow portion and the inside and the outside of the hollow portion flows A plurality of air injection holes are formed so that the air flowing through the hollow portion is discharged to the outside, and the support frame is connected to the geothermal heat pump system to receive air for cooling and heat exchanged from the geothermal heat pump system. Underground composite structure, characterized in that the injection through the underground space.

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