KR20140105878A - A device to generate natural energy using ground, underground and interior roads. - Google Patents

Abstract

The present invention relates to a natural energy producing device using various kinds of passages inside buildings, on the ground and underground. The natural energy producing device is capable of ventilating an indoor space and cooling and heating the indoor space by producing cold and hot air using the passages inside a building, the ground, and the underground at the same time. The building is built on the ground. Verandas and utility rooms are respectively installed toward the south and north on each floor of the building, to serve as passages connecting the upper and lower floors. Indoor spaces are installed in each passage of the verandas and utility rooms. Multi-layer type walls in which an inner space-passage is vertically formed is installed on each floor. On the top floor, a multi-layer type chimney is installed on the top. The Indoor air of each floor can be discharged through the inner passages of the multi-layer type chimney and upper outlets to the outside by a convection current deviation principle. Furthermore, related facilities including a house heat passage producing hot air by using the radiant heat of the sun, a geothermal passage(30) producing geothermal heat, and a multi-layer type fence(80) producing hot air and geothermal heat using the radiant heat of the sun at the same time are separately installed on the ground. The natural energy producing device cools and heats the building by directly circulating hot and cold air produced by the related facilities, which are connected to the indoor passages of each floor, while also circulating outer air, as the facilities are connected to outer air receiving chambers or an outer air inlets through which each facility receives the outer air. Also, the cold and hot air produced by the facilities can be stored in a heat-storage and cold-storage chamber. The stored hot and cold air can then be circulated to the indoor passages from the heat-storage and cold-storage chamber in the winter and summer respectively. Therefore, the natural energy producing device is capable of naturally ventilating, cooling and heating the building at the same time.

Description

A natural energy production system using ground, underground, and indoor aisles. {A device to generate natural energy using ground, underground and interior roads.

The present invention relates to a system for circulating indoor and outdoor air using an upper and lower passage installed inside a building, circulating hot and cold air generated in a passage provided in the ground and underground to the indoor, ≪ / RTI >

The building is installed on the ground, and a veranda and a utility room are installed in the form of a passage communicating with the upper and lower layers respectively in the south and north sides of each floor of the building, and an indoor space is installed between the veranda and the multi- A multi-storey wall with passageways on each floor is installed, and a multi-storey chimney is installed on the final multi-storey wall above the building to provide a structure that can discharge the indoor air from each floor to the outside by means of the inner passage and the upper outlet .

In addition, the ground includes a collecting passage for producing heat which uses solar radiant heat, a geothermal passage 30 for producing an underground geothermal heat, a double-layered fence 80 for producing heat and underground geothermal heat using solar radiation, And each of the facilities is connected to an outside air inflow chamber or an outside air inflow port through which external outside air flows and directly circulates the cold air heat produced by the facilities provided in each passage together with the external air circulation to the respective indoor passages, Cooling and storage after the first storage Heat storage shaft Circulating from the cold room to the indoor passage Using seasonal cold and warm heat Applying the natural ventilation while cooling and heating The ground and the natural energy production device utilizing the underground and indoor passages will be.

Existing buildings can be ventilated using a window installed on the side wall of the building, ventilating the room or using a separate device, and using a duct connected to the ceiling ventilator to ventilate the room. The indoor air can not be completely ventilated due to the indoor space, and further energy is consumed, resulting in energy wastes, energy crisis, waste, and global warming.

In addition, since the ventilating method using the natural convection, which has been invented, is problematic limited to the complete ventilation method and pure ventilation, it is possible to produce a variety of natural energy that can be utilized for beneficial use for improving the global environment, It is at the time when development of utilization technology is required.

Accordingly, the present invention utilizes the circulation of the inside / outside circulation by installing the inside / outside circulation passage inside the building to utilize the natural convection circulation inside the building,

In addition, the ground includes a solar heat path producing sun radiation heat, a geothermal passage (30) producing an underground geothermal heat, and a double-layer fence (80) jointly producing sun radiant heat and underground geothermal heat, And circulation of the outdoor air is carried out to cool and heat the indoor air by cold and hot air generated by the respective passages.

Accordingly, the present invention utilizes the natural convection circulation and the inner and outer circulation passages to the south and the north, respectively, using the natural convection circulation inside the building, and produces the solar radiation heat in the south passway, It is also possible to use the double layered chimney connected to the double layered wall on the roof of the building by installing the double layered wall which is installed in the indoor space and using the space inside the double layered wall as the thermal insulation space. As the building can be circulated, the building is constructed for indoor natural ventilation,

In addition, the ground includes a heat collecting passage (20) for producing hot heat using solar radiation, a geothermal passage (30) for producing an underground geothermal heat, a multi-layer And a fence (80) are respectively installed, and the facilities are connected to an outside air inflow room or an outside air inflow port through which the outside outside air flows, and the cold air heat produced by the related facility installed in each passage together with the outside air circulation, Circulating, or storing heat in the first stage of storage and cooling of the shaft, cooling the room in the summer, cold air in the summer, circulating the hot air in the winter through the indoor passage, and performing natural ventilation during the season .

Various passageways, multi-storey walls and multi-storey chimneys are used for building ventilation, so that human health can be promoted and human diseases can be prevented. Also, natural energy facilities produced in various passages can be used for indoor air-conditioning. There is an effect that can prevent the global warming progress as the carbon dioxide emission decreases.

1 is a cross-sectional view of a natural ventilation and natural energy production apparatus using the ground, underground, and indoor passages according to the present invention.
2 is a plan view of Fig.
3 is a cross-sectional view of the installation example of the geothermal production passage of FIG.
Fig. 4 is a sectional view of the heat collecting passage of Fig. 1; Fig.
Fig. 5 is a cross-sectional view of the modified heat collecting passage installation example of Fig. 4; Fig.

The present invention relates to an indoor air-conditioning system, an indoor air-conditioning system, an indoor air-conditioning system, a refrigerator, As regards the production apparatus,

The building is installed on the ground, and a veranda and a utility room are installed in the form of a passage communicating with the upper and lower layers respectively in the south and north sides of each floor of the building, and an indoor space is installed between the veranda and the multi- A multi-storey wall with a passage is installed to communicate with the upper and lower sides of each floor, and a multi-storey chimney is connected to the top of the building again over the final double-layer wall so that the indoor air in each floor can be discharged to the outside Buildings are installed.

In addition, the ground includes a collecting passage for producing heat which utilizes the radiant heat of the sun, a geothermal passage (30) for producing the underground geothermal heat, and a double-layered fence (80) And each facility is connected to an outside air inflow room or outside air inflow port for introducing outside outside air and circulates the hot air heat produced by the season by the facility provided with each outside air circulation along with the outside air circulation directly to each floor indoor path, After storage in shaft cooler, it is used as a method which can circulate cold air in summer and cold air in winter and cold air in winter. And the natural energy production apparatus utilizing the underground and indoor passages.

In the following description,

Natural energy production equipment utilizing ground, underground and indoor passages,

A building 100 installed as an upper and lower passage in the upper and lower parts of each floor of the building 100 and used for circulating indoor and outdoor air through the upper and lower passages,

In addition, a collecting passage (20) which is finally connected to the building passage and supplies solar heat to the building passage is installed on the ground

Also, a geothermal passage 30, which is finally connected to the building passage and supplies the underground geothermal heat to the building passage as described above,

Also, on the ground, a double-layer fence (80) is provided to supply the outdoor air introduced into the outside air inlet (21) which is finally connected to the building passage as described above and the cold air heat produced in the internal passage to the building passage.

Further, on the ground, purified air is supplied from the filter provided in the outside to the outside air, and then the outside air inflow chamber 22 for supplying the outside air inflow chamber and the geothermal passageway is provided and purified pure outside air is supplied to each of the collecting passages and the geothermal passageways.

The heat storage shaft cold room (60) for circulating cold storage heat generated from the heat collecting passage, the geothermal passage and the double layer fence directly circulates in the building internal passage, or separately stores and stores the stored cold and hot heat into the building upper and lower passages The hot and cold heat stored in each season can be selected and circulated to the room through the inside passage of the building.

In addition, the air flow circulated to each of the facility passages can be conveniently used by opening and closing the circulating airflow by providing the opening / closing controller 10 to each of the passages and airflow circulation openings, The natural energy production equipment utilized is installed.

In addition, the structure of the building 100 may include a cold / hot air distribution room (not shown) for distributing the cold / hot air stored in the heat storage shaft cold room connected to the heat storage shaft cold room to the building's south facing verandah passage 110 and the north- 140 are installed below the lower floor of the building. In the cold / hot air distribution room, the cold / hot air entering from the heat storage and shaft cold room is selected and introduced into the indoor space through the southward veranda passage and the north- .

In addition, each of the south-facing verandah passage 110 and the north-facing multi-purpose room passage connected to the cold / hot air distribution room has an air flow circulation passage provided with a plurality of through holes on each of the upper and lower passage ceilings and the floor, Closing regulator 10 is installed to regulate the circulation of hot and cold air circulating through the respective south-facing veranda passage 110 and the north-facing multi-purpose room passage in the cold / hot air distribution room to the indoor space .

In addition, an indoor space 130 is provided between the veranda passage and the multi-use room passage, and a multi-layer wall passage 50 is connected to the indoor space of each floor so that the indoor air in each floor can be transferred through the inner wall of each multi- A multi-layered chimney (70) is connected to the roof of the building over the final layer of the multi-layered wall passage, and the indoor air transferred through the multi-layered wall can be discharged to the outside through the inner passage and the upper outlet.

In addition, the veranda passage 110 is provided with a removable heat collecting plate 55 installed on the front surface of the inner wall of the passageway and receiving sunlight flowing into the inner space through the front transparent material to produce radiant heat, So that the radiant heat accumulated in the heat collecting plate is circulated to the heat collecting plate by circulating the heat from the heat collecting plate to the heat collecting plate.

In addition, the heat collecting plate is made of a plate of a metal type, such as a copper plate, through which heat is transferred and stored, and is bent into a metal plate to the front of the inner wall of the veranda passage. The bolt and nut are detached In the case of a cold blade such as a winter, a heat-collecting plate is attached to the heat-collecting plate, or a hot blade such as a summer is used to heat-insulate the heat-collecting plate or a heat- .

In addition, in the structure of the heat collecting passage 20, the horizontal heat collecting plate 27 is installed on the upper front surface where the heat collecting passage cross section receives sunlight, and the space outer air conveying passage 37 is installed between the heat collecting plate and the lower rear plate 28 And a plurality of heat collecting passages 20 provided with a heat collecting passage 20 having a heat insulating space formed between the heat insulating material and the lower surface of the back plate with both side faces closed are disposed on the ground surface, And a distribution pipe (23) connected to the outside air distribution pipe (23) for distributing the outside air uniformly through the outside air inflow chamber through the multiple outside air inflow chamber and collecting the radiant heat generated from the multiple homeopia passageway (38) installed between the central main passage and the heat storage shaft cold room (60) so that the radiant heat generated by the radiant heat transfer tube (24) Heat is introduced into the natural stone floor space installed in the cold storage room of the heat accumulation shaft, and the heat is raised by the self convection in the heat accumulation shaft cold room, and the heat is transferred to the natural stone floor. The radiant heat generated in the plurality of heat collecting passages is circulated to the southward or northward passages through the lower pipeline downward, and the radiant heat generated in the plurality of heat collecting passages is stored in the natural stone layer in the heat accumulating shaft cold room as described above.

In addition, the main pipe is connected to the outside air inflow chamber or the radiant heat transfer pipe, respectively, and the four-pipe pipe is connected to the other end of each pipe, As a result, the circulation of the radiant heat, which is produced by the inner passage of the heat-collecting passage, is achieved

Also, when the heat collecting passage is installed at a high height in the direction of circulating the radiant heat, the radiant heat circulation is smoothly circulated.

In addition, the structure of the heat storage shaft cold room 60 has a structure in which a heat insulating material, a heat insulating space, and a film are installed around the inside natural stone layer, and the conduction to the surrounding ground layer, Respectively, so that the hot and cold heat can be safely stored for each season, and the hot and cold heat is stored in the heat and cold storage room, respectively.

In addition, the heat collecting passage 20 is provided with a heat collecting plate 27 as a heat collecting passage space layer provided with a transparent material 26 composed of a single layer or a multi-layer in which the upper surface receiving the sunlight flows into the inner space layer And the solar radiation received from the heat collecting plate and stored in the heat collecting plate is further included so that the sunlight flowing through the transparent glass can be stored in the heat collecting plate installed in the space layer So that the efficiency of radiant heat production can be increased.

In addition, when a transparent material and a heat collecting plate are installed on the upper surface of the collecting channel, the production efficiency is high because the heat radiated from the heat collecting plate is discharged to the outside air when the heat collecting plate is installed directly on the heat collecting passage, On the other hand, when a transparent material and a heat collecting plate are installed on the upper surface of the heat collecting passage, all the light received through the transparent material is discharged to the inner heat collecting plate and the heat radiated from the heat collecting plate is discharged to the sealed inner space. This is because the heat loss to the outside is insignificant as a result of being tongue-in.

In addition, the use of heat collecting ducts with heat collecting plates installed on the upper surface can be used for scaffolding by being installed on grass.

In addition, there is no limitation on the material used for the heat-collecting passage, and it is not limited to the material used. In particular, the PVC plate is used as an injection mold or the extrusion mold is used. The metal heat storage plate may be directly installed, or a transparent glass may be provided on the upper surface provided with a curved heat storage plate as an internal space, and a single layer or a double layer glass may be installed thereon so as to be closed by air.

Also, the heat collecting passage 20 is installed in a detachable assembly mode in which a long heat collecting passage is divided into a proper length, and a hot blade such as a summer is demolished and a cold blade like a winter is installed and used. It is possible to use the yard effectively as it becomes possible to install it. In other words, spring and summer are used for planting vegetables in the yard, and in the winter season, the prefabricated house heat passage is installed to heat the scarce room heat by the heat produced in the prefabricated house passage. The efficiency of the utilization of the yard can be increased.

In addition, the structure of the geothermal passage 30 is provided with a geothermal passage 30, which is installed horizontally in the underground horizontally and has a large number of through holes from the lower side to the lower outer side of the passageway, And the horizontal natural stone layer 32 is horizontally disposed horizontally as a ground layer below the plurality of geothermal rising passages 31 so as to extend from the inside of the horizontal natural stone layer to the outside of the outside air inflow chamber When the outside air is introduced into the space between the horizontal natural stone floors by providing the outside air conveying passage 37 in which a plurality of through holes are formed inside and outside, the geologic layer below the horizontal natural stone floor rises upward, The geothermal heat is introduced into the main geothermal passage through the pipe and directly circulated to the inner passage of the building using a separate pipeline passage A geothermal transfer pipe (38) is connected between the geothermal passage and the heat storage shaft cold room (60) so that the geothermal heat flows into the heat storage shaft cold room like the heat collecting passage, The temperature lower than the internal temperature of the cold room is lowered to the space between the lower natural stones, and the temperature is stored as a natural stone. Further, if the temperature is higher than the internal temperature of the heat storage shaft, the natural stone layer is stored.

The geothermal passage 30 is connected to a plurality of through holes under the geothermal passage to form a long triangular natural stone layer (not shown) embedded in the inclined membrane provided with the inclined membrane 12 on both sides of the lower geothermal layer from both sides of the geothermal passage long geothermal passage. (32), it can be selected and installed by the user. That is, if the natural stone layer is installed as a long triangle with the inclined membrane on both sides of the long geothermal passage, the natural stone material will be consumed. However, , While the installation of multiple geothermal ascension channels above the horizontal natural stone floor below can reduce the amount of natural stone, but the cost of installation of the manpower increases or decreases.

In addition, the film is made of PVC soft or hard plate, and there is no limitation on the material used.

Further, the structure of the double-layer fence (80) is such that a quadrilateral fence is provided so as to face each other with a predetermined gap therebetween on the ground surface so that the upper face is closed and the middle plate (14) A double-layered fence passage 80 having upper and lower spatial passages formed thereon is installed vertically so that a natural stone layer is installed between both guide plates provided with an underground slope guide plate 14 on both long sides of the lower passage, As the stratum is circulated in the upper passageway, the lower passageways produce both temperature and moisture. In addition, the two-storey fence passage is divided into southward and northward sides from the left and right sides of the building. Upper and lower vertical partitioning walls (11) are installed, and the double-layered fence passage is provided with a south- A double-wall fence is installed in the structure where the outer air inlet 21 is installed on each side of the double-walled fence passageway, which is divided into a umbrella fence and divided into a south-facing and a north-facing upper and lower two-story fence passageways. The material of the double-layer fence is made of a material capable of storing radiant heat of the sun .

In addition, as the double-layer fence passage is divided into upper and lower passages as described above, the upper passageway of the upper passageway is long, and the upper passageway is provided with an external area and an inner passageway area for receiving sunlight, The short passageway is used as a pathway for geothermal production that can take advantage of geotherms rising up from the lower ground level through the lower ground.

In addition, the principle of generating radiant heat from a double-layered fence pathway is the front of a double-layered fence installed at the outer south wall of the fence and the left and right side fences. The radiant heat generated by light is stored in the front, left and right side fences, As the heat is transferred from the closing surface of the light to the rear, heat is radiated to the inner space air layer where the heat that is stored is in contact with the rear surface, and radiant heat formed by the space path is circulated through the heat storage shaft .

In addition, a double-layered façade that can use sunlight. When the outside air is introduced into the outside air inlet, the sunlight is closed in the southward and northward directions. In the double-layered fence passage, The cold air is circulated and circulated separately to the veranda and the multi-purpose room passage installed to the south and north sides of the building using separate piping passages, or the heat that has been circulated to the upper and lower sides of the natural stone space inside the heat storage shaft cold room, It is possible to store the heat and cool air to each natural stone by convection circulation to the below natural stones, respectively, and store the cold stones as natural stones in the upper and lower passages of the north-facing double-wall fence during the summer season. Save and save the saved So that it can be used for seasonal heating and cooling.

Also, as the passageway below the double-layer fence is capable of conveying the underground geothermal heat, the porosity and the multi-purpose room passageway installed to the south and north sides of the building as described above can directly circulate the geothermal heat generated in the lower passageway, It is possible to selectively use hot and cold air after circulating the geothermal circulation.

In addition, the material used as the double-layer fence is made of a material capable of storing radiant heat such as a metal plate or a brick, and can be installed and used as described above without limitation in the use of materials.

In addition, a filter is installed in the double-layer fence outside air inflow opening to purify the outdoor air introduced therein, and pure outdoor air purified through the upper and lower fence walls is circulated.

In addition, radiant heat generated from the heat collecting passages and the geothermal heat generated from the geothermal passageways and the hot gasses and geothermal heat generated from the double-walled fossil passageways can be circulated directly to the passageways of the buildings using separate pipelines as described above, Circulation and storage, and then selects the necessary hot and cold air in the room, and circulates the indoor air through the indoor passage.

A method of storing the hot and cold heat produced in each of the above facilities as a heat storage and cooling chamber will be described.

In the summertime, it circulates the northward sound cold air to the underground geothermal passage through the outside air inflow room installed on the north facing ground, and circulates the heat to the natural stone floor inside the heat accumulating shaft cold room through the air duct. When the inside and outside air is circulated by the convective principle with the double-layer chimney above the southward veranda passage through the space, the radiant heat rising due to the light flowing through the front transparent window in the south veranda passage is discharged upward, As the air flows into the indoor space through the north-facing multi-use room passage, the indoor heat is discharged and only the introduced cold air is left by the convection of the indoor space, thereby natural cooling is performed.

The above-mentioned principle is based on the fact that the upper and lower elevation difference of the outer air inflow room outer air inflow hole (21) installed to the north-facing upper side of the double-layer chimney outflow port 77 and the downward elevation difference and the total convection by the upward wind force discharged from the radiant up- As described above, the cold air remains in the inside of the room, and the hot updraft is continuously discharged to the outside, so that the cooling can be performed as described above.

In addition, the northward direction double wall (자 character) upper and lower passageways introduce northward sound air cooler into each outside air inlet, and the internal passageway of the double wall fence is introduced into the heat storage shaft cooling chamber. .

In addition, when circulating from the passageway below the heat storage shaft cold room to the multi-use room passage of the building, the heat stored on the heat accumulation shaft cold room is stored in the room through the upper passageway.

In winter, the southward radiant inflow chamber receives the southward radiant heat, circulates it through the heat collecting passage on the ground, flows into the inner space of the heat accumulating shaft and cold room from the heat collecting passage, circulates through the southward veranda passage of the building through the passageway below the heat accumulating shaft cold room The room can be heated by circulating the indoor multi-layer wall passage or the indoor multi-purpose room passage through the circulation hole 10 under the inner wall to the multi-use room passage and the upper multi-layer chimney. This principle is based on the fact that the warmer introduced into the interior of the room by the total height convection due to the difference in the vertical height difference between the discharge port 77 of the double-layered chimney and the outside air inlet 21 of the outside air inflow room The room temperature lower than the incoming heat is continuously discharged to the outside through the lower circulation hole due to the convection of the indoor space, so that the inside of the room is heated only by the ON heat.

Also, in the southward veranda, the solar radiation introduced through the front transparent material and the inner space is a detachable type heat collecting plate installed on the inner wall of the veranda space, and radiant heat generated by radiant heat is accumulated in the indoor space together with the radiant heat generated in the indoor heat exchanger So that the indoor heating efficiency is increased.

In addition, the radiant heat generated by sunlight in the southbound double-layered fence passage can be circulated to the inside of the room as described above,

In addition, it is possible to circulate the ground bed geothermal temperature produced in the underground installed geothermal passageway where the appropriate temperature is maintained without significant change of the quartz, directly or indirectly through the heating / do.

Also, the building of the present invention is composed of a double-layered double-layered structure in which the exterior exterior material and window are sealed and the outside air is prevented from flowing into the interior of the building. The door is composed of an airtight sealed door when the door is closed. The door is opened and the first door is closed and the doors 2 and 3 are opened and closed. As a result, the door is separated from the existing structure and is made of a closed insulation structure The air conditioner efficiency is improved. That is, a veranda and a multi-room space passage are installed outside and a front window or an outer wall is formed as a double layer in which a space layer is installed inside. As it is installed, it becomes possible to utilize the airtightness and the heat-insulating space, thereby improving the cooling and heating efficiency.

It is also apparent that the natural energy production apparatus utilizing the ground, underground and indoor passages of the present invention constituted as described above can be applied in various applications within the scope of the present technology.

10; Opening / closing regulator ~ circulation opening 11; Barrier
12; Membrane 14; Guide plate
15; Blocking plate 16; reprint
18; 19; Support plate
20; Heat collecting passage 21; Outside air inlet
22; An outside air inflow chamber 23; Outside air distributing pipe
24; Conduit 25; Connector
26; Transparent material 27; Heat plate
28; Rear plate 29; Bottom support plate
30; Zeon passage 31; A geothermal ascension path
32; A natural stone layer 33; Geothermal circulation direction
34; Ambient circulation direction 36; Zeon Production Room
37; An outside air transfer passage 38; Conveying pipe
50; A duplex wall passage 55; Detachable heat collecting plate
60; Heat storage shaft cold room 61; Insulation layer ~ Insulation space
63; A cold circulation opening 64; Open circulation hole
70; A double-layer chimney 77; outlet
80; A double-layered fence passage 100; building
110; Veranda passage 120; Multipurpose passage
130; Indoor space 140; Hot and cold air distribution room
200; surface

Claims (9)

In a natural energy production apparatus utilizing floor, underground and indoor passages,
A building 100 for circulating indoor and outdoor air using upper and lower passages installed therein;
A heat collecting passage (20) connected to the upper and lower passages of the building on the ground to produce and supply radiant heat of the sun;
A geothermal passage 30 which is finally connected to the upper and lower passages of the building to supply and supply an underground geothermal heat;
A double-layer fence (80) for producing and supplying hot and cold air produced in the inner passage together with outside air introduced into the outside air inlet (21) which is finally connected to the upper and lower passages of the building;
An outside air inflow chamber 22 for purifying inflow of external outside air and supplying the outside air to the accommodating passage and the geothermal passage;
A heat storage shaft cold room (60) for storing hot and cold air produced by the heat collecting passage, the geothermal passage and the double layer fence and supplying the stored hot and cold air to the upper and lower passages of the building respectively;
And an opening / closing controller (10) for controlling the opening and closing of the air flow circulated to the respective facilities. The apparatus for producing natural energy utilizing the ground, underground and indoor passages. The building (100) according to claim 1, wherein the building (100)
A cold / hot air distribution room (140) for distributing the cold / hot air stored in the cold / hot air circulation chamber to both upper and lower passages respectively installed on the south and north sides of the building;
A veranda passage (110) in which an opening / closing regulator is installed to each of the upper and lower passageway ceilings connected to the cold / hot air distribution room, an air flow circulation passage provided with a plurality of through holes at the bottom, and an air flow circulation hole installed between the upper and lower passages;
A multi-purpose room passage (120) having an air flow circulation passage provided with a plurality of through holes on the bottom and a plurality of through holes on the floor, a multi-use room passage (120) in which an air flow circulation hole is installed between the upper and lower passages;
An indoor space 130 formed between the veranda passage and the multi-room passage;
A multi-layered wall passage (50) installed in each of the above-mentioned indoor spaces for transporting indoor air through an internal passage;
And a multi-layered chimney (70) connected to the end of the multi-layered wall passage and discharging the indoor air conveyed through the multi-layered multi-layered wall through the inner passage and the upper discharge port. A natural energy production device. 2. The apparatus of claim 1, wherein the veranda passage (110)
And a de-deposition type heat collecting plate (55) installed on the front surface of the inner wall of the passageway for receiving solar light entering the inner space through the front duplex transparent material to produce radiant heat. A natural energy production device. The heat exchanger according to claim 1, wherein the heat collecting passage (20)
A plurality of houses having a heat insulating material or a heat insulating space layer provided on the back surface of the back plate on both sides of which the space outer air conveyance passage 37 is provided between the heat collecting plate 27 horizontally installed on the upper front side receiving the sunlight and the lower rear plate 28 A heat passage (20);
An outside air distribution pipe (23) which is connected between the multiple collection passage and the outside air inflow chamber and distributes external outside air introduced through the outside air inflow chamber to a plurality of collection passages;
A collecting pipe (24) collecting the radiant heat generated in the multiple collection passages into a main passage;
And a radiant heat transfer pipe (38) connected between the main pipe of the collector pipe and the heat storage shaft cold room (60). The heat exchanger according to claim 1, wherein the heat collecting passage (20)
A transparent material (26) composed of a single layer or a multi-layer in which the upper surface receiving the sunlight inflows sunlight into the inner space layer;
And a heat collecting plate (27) installed at the heat collecting passage space layer and receiving heat of sunlight flowing through the transparent material and the inner space layer to store radiant heat. Natural energy production equipment. The heat exchanger according to claim 1, wherein the heat collecting passage (20)
Wherein a plurality of long heat collecting passages are divided into a plurality of pieces and are installed in a prefabricated manner so as to be detachable according to the season. The apparatus according to claim 1, wherein the geothermal passage (30)
A geothermal passage (30) installed horizontally horizontally in the basement and provided with a plurality of through holes from the lower surface of the inner passage to the outside;
A plurality of geothermal rising passages (31) connected to the geothermal passage through holes to convey the lower geothermal temperature upward;
A horizontal natural stone layer 32 connected to a lower portion of the plurality of geothermal rising passages and extending widely to the ground layer;
An outside air conveyance passage (37) which is connected to the inside of the horizontal natural stone bed and the outside air inflow chamber and has a plurality of through holes for introducing external outside air into the space between the natural stone layers;
And a geothermal transfer pipe (38) connected between the geothermal passage and the heat storage shaft cold room (60). The apparatus according to claim 1, wherein the geothermal passage (30)
And a long triangular natural stone layer 32 connected to the plurality of through holes under the geothermal passage and embedded in the inclined membrane provided with the inclined membrane 12 on both sides of the lower ground layer from both sides of the geothermal passage long length geothermal passage It is a natural energy production device that utilizes ground, underground, and indoor passages. The multi-layer fence (80) according to claim 1,
A double-layered fence passage 80 is provided, which is composed of a vertically double-layered passageway in which the middle plate 16 is horizontally disposed in the horizontal direction from the upper surface of the upper surface of the fence, ;
A natural stone layer (32) installed on both sides of the passageway below the double-layer fence and having an induction plate such as a ramp and a ramp in the lower underground and embedded in both sides of the induction plate;
A top and bottom blocking film (11) provided at a point where the double layer fence passage is divided into left and right sides starting from left and right sides of the building;
And an outer air inlet (21) provided on the side of the upper and lower passages of the double layer fence passage. The apparatus for producing natural energy utilizing the ground, underground and indoor passages.

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