KR20110132259A - Eco-friendly prefabricated tents and temporary buildings-2 - Google Patents
Eco-friendly prefabricated tents and temporary buildings-2 Download PDFInfo
- Publication number
- KR20110132259A KR20110132259A KR1020110050950A KR20110050950A KR20110132259A KR 20110132259 A KR20110132259 A KR 20110132259A KR 1020110050950 A KR1020110050950 A KR 1020110050950A KR 20110050950 A KR20110050950 A KR 20110050950A KR 20110132259 A KR20110132259 A KR 20110132259A
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H15/00—Tents or canopies, in general
- E04H15/02—Tents combined or specially associated with other devices
- E04H15/10—Heating, lighting or ventilating
- E04H15/12—Heating
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H15/00—Tents or canopies, in general
- E04H15/02—Tents combined or specially associated with other devices
- E04H15/10—Heating, lighting or ventilating
- E04H15/14—Ventilating
- E04H15/16—Ventilating of tent roofs
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H15/00—Tents or canopies, in general
- E04H15/24—Tents or canopies, in general cone shaped, e.g. teepees
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H15/00—Tents or canopies, in general
- E04H15/32—Parts, components, construction details, accessories, interior equipment, specially adapted for tents, e.g. guy-line equipment, skirts, thresholds
- E04H15/34—Supporting means, e.g. frames
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H15/00—Tents or canopies, in general
- E04H15/32—Parts, components, construction details, accessories, interior equipment, specially adapted for tents, e.g. guy-line equipment, skirts, thresholds
- E04H15/54—Covers of tents or canopies
Abstract
Description
The present invention is to install the
The
Conventional tents consist of various colors, shapes, and shapes, which are accompanied by inconvenience in long-term use, which consists of simple packaging-like structures that can be easily installed and dismantled in summer or used as simple facilities. Inconvenience to be taken from outside and eat inside or outside and open the door for circulation inside and outside during the hot season break is composed of simple functions that are more uncomfortable for women than for men. There are many shortcomings in terms of convenience, and it is a situation that requires an eco-friendly tent composed of a structure that can be used as a living room because it is composed of a very inconvenient structure that cannot be used for a long time instead of a short term work.
In addition, the most commonly used buildings are classified into two types: temporary use or long-term use. Temporary use is not a problem. There is a big problem to live in, and it is necessary to build a building that can cope with it.
Therefore, the present invention applies the principle of natural circulation to the
Therefore, the present invention is to install the air discharge pipe that can circulate the inside and outside the tent and the inside of the building, and install the outside air inlet under the tent and the building, respectively, circulating the inside and outside air into the tent and the building in the tent It can cook and produce energy needed for living by utilizing the surrounding natural energy, circulating the energy produced with the internal and external circulation as described above, and operating the convenience facilities along with ventilation and cold heating as well as the internal and external air circulation. It is solved in a way to promote human health.
The present invention can be used for a long time while being able to cook in the tent, the temporary building is a natural energy produced as well as ventilation and cold heating, while operating the convenience facilities, it is possible to promote the human health by internal and external air circulation.
1 is a perspective view of the present invention prefabricated tent and installation example of the bet exhaust pipe.
Figure 2 is a perspective view of the installation example of the outside air inlet chamber installed between the tent and the above air discharge pipe.
Figure 3 is an elevational view of the building installed in the triangular elevation of the present invention and a bet exhaust pipe installation example.
Figure 4 is a plan view of installing the building upper surface and the air transfer pipe.
5 is a cross-sectional view of the prefabricated building, the internal exhaust pipe and the underground heat storage chamber and the cold storage chamber.
6 is a cross-sectional view and top and mouth cross-sectional view of the opening and closing regulator.
7 is a reverse air flow blocking plate installation example up and down circulation cross-sectional view.
8 is a perspective view illustrating an example of a removable multilayer light collecting plate.
The present invention installs the
That is, the inside of the
In the case of tents, when cooking inside tents, the smoke, smoke, and smoke vapors are naturally discharged to the outside, so that they can cook freely. In addition, South-facing transparent windows can be installed to enjoy far-infrared sun-rays with UV protection. Installation During natural sunbathing, the radiant heat generated by the inflow of solar light in the tent is a convective car principle. It is composed of eco-friendly method using natural and external circulation.
In addition, by installing double inner cloth inside the tent waterproof cloth, it has built-in insulation material or built-in air-injected jubs, respectively, to prevent cold and heat conduction to the outer wall using indirect double layer. In addition, the waterproof cloth can be installed in double layers to inject air into the double layers to insulate using the air layer injected directly, and can be used for four seasons. It is composed by such a method
In addition, the
The use of existing buildings is very inconvenient to carry out everyday life in buildings, such as the use of external sources of energy or electricity.
Therefore, the present invention is an eco-friendly prefabricated type that can operate a drying room that can dry food waste treatment and agricultural and marine products while using electricity and hot water production and natural storage with cooling and heating using natural energy produced in the surroundings. Regarding the eco-friendly prefabricated building, which is constructed in a way to promote human health while using the
In brief summary,
The air transport pipe (76), which introduces external air into the ground on which the
In addition, by using the
In addition, a cold storage chamber 120 and a heat storage chamber 110 that can be used to store and use winter cold air and summer warmer, which are generated in accordance with the fluctuations of the climate above ground, are installed as described above. By circulating through the storage room to store cold air and heat separately, when the off-season or cold heat is not produced, circulate the cold air into the room to perform cold heating or circulate cold air to the storage room installed in the room to operate the storage. do.
The following is described in detail with the drawings
(1) Eco-friendly prefab tent (100) that can cook while circulating the inside and outside air to promote human health,
1 is a structure in which the pipe 60 supporting the waterproof cloth is installed to the inside where the
In addition, the pipe (63) installed into the tent (80) is installed inclined from the lower ground to the upper inner center, and the upper part assembled with the upper pipe (63) and the upper pipe (63) is piped into a vertically bent pipe.
In addition, the front of the tent is a
In addition, the opening and closing controller 55 for controlling the opening and closing of the inside and outside air circulation is installed above the inside of the tent and used to control the inside and outside air being circulated. When the upper and lower plates installed with the upper and lower plates rotated around the central axis and the upper and lower through-holes coincide with each other, the inner and outer air are circulated and the inner and outer air circulation is blocked when the through-holes are blocked by crossing each other. The amount of circulation can be adjusted.
In addition, the opening and closing controller 55 is a material such as a thick hard cloth or P V C aluminum is used and assembled with a tent
In addition, the outdoor air inlet (88) and the air outlet (77) is installed in the insect repellent screen and the outside air inlet to block the harmful harmful insects,
In addition, as shown in FIG. 2, the
In addition, the bottom is installed between the
In addition, as a side space layer between the
In addition, the tent (80) side is composed of a double layer to install a device that allows the air in and out inside the double layer can be easily in and out of the air to increase the thermal insulation efficiency,
In addition, by installing a material through which the ultraviolet light is transmitted to the
In addition, the tent (80) waterproof cloth (22) can be used to install the outer surface of the black matte or white gloss, when used as a black matte, the sun light is absorbed into black, the internal heating effect is generated for a while, In addition, the white light reflecting the sun's light is installed in the high gloss with high reflectivity to reflect the heat flowing into the outside to increase the efficiency of cooling, each can be used seasonally.
In addition, the
In addition, the
The door is installed through the access passage, and the insect screen is installed, and the access passage through the double door rather than entering directly into the tent while blocking the inflow of the harmful insect in the tent, and also the door has a tent and a certain space double It is installed outside the doorway, and the insect repellent effect is amplified. Also, the screen can be used as a substitute for the door.
(2) Eco-friendly prefabricated buildings where the bodies are installed in a convection vehicle to facilitate outside air circulation, producing and circulating relevant natural energy necessary for life, operating power generation, hot water production, drying rooms, and natural storage with cooling and heating. 200),
As above, the building has a wide bottom floor area, and the upper floor is narrowed, and the inner area is narrowed, and the drying chamber 99 is assembled on the lower building consisting of triangles to dry the moisture waste to the outside air, which is circulated.
In addition, the air generator 71 is assembled with the internal
In addition, the cold storage chamber 120 and the heat storage chamber 110 are installed to store the cold heat inside the underground ground layer so that cold air or radiant heat is introduced from the outside air transport pipe and stored and used below. .
In addition, as described above, the internal and external air is circulated to open and close the controller 55 is installed to be able to use the opening and closing and control the internal and external circulation,
As described in the tent, the opening / closing regulator 55 is circulated inside or outside of which two plates provided with through holes are rotated or two plates are installed in an appropriate form such as a straight line and a semi-circle, and the through holes are circulated with each other in the upper and lower plates. It is used while opening and adjusting the or the plate 89 attached to the rotary shaft 74 into the internal and external air transfer pipe 76 or the internal and external air circulation passage as shown in FIG. It is used to open and close the internal and external air circulation while opening and closing the inner and outer air conveying passages (75) in which both sides of the plate are rotated, so that the plate is rotated and closed by both of the pedestals. Any other suitable method may be used.
In addition, the
The heat conduction pipe 78 is installed on the inside of the multilayer light collecting plate space layer as shown in FIGS. 3 to 5 to circulate water into the pipe to produce hot water with radiant heat formed on the space layer by solar light. It will be described in detail in the production method and also the access passage 27 is connected to the outside of the multi-layer condensing plate is installed, the access door is installed in each of the access passage inside and outside with a proper space, respectively installed in the double door to open and close the door after entering and exit 2 As the door is used to enter and close the car door, the entrance and exit of the outside air and bets are blocked, and when the door is closed, it is installed like a refrigerator door in a sealed manner and the interior and exterior of the building is completely sealed. It is composed of the method to circulate to the designated place by inflow from the inside, and the internal indoor temperature is greatly affected by the external air. Not receiving the will increase the efficiency of cold heating.
In addition, the frame, the H beam, ㅁ angle pipe, c-shaped pipe, etc. are used, the internal and external air is circulated up and down between each of the skeleton and the frame installed vertically up and down inside the duplex
In addition, the storehouse 11 is installed inside the temporary building to circulate cold air in the cold storage chamber 120 to store food. The airflow circulation tube 56 under the natural stone layer 92 inside the cold storage chamber 120 is Connected to the top or bottom of the reservoir (11) and the air flow circulation tube 56 is connected to the natural stone layer (92) above or below the reservoir to circulate the cold air stored in a separate power to the refrigerator to keep the internal temperature of the refrigerator cooler chamber 120 While the low temperature is maintained such that the internal storage is stored for a long time as the cold that is introduced with the internal and external air circulation.
In addition, the
In addition, the drying chamber 99 is provided with a ventilation shelf 98 for drying moisture and the like, and the internal and external air circulated to the internal and external air transport passage 75 or the indoor 95 in the multilayer
In addition, the outside air conveying pipe 76 is provided with an
In addition, by installing the outdoor air conveying pipe 76 installed to the outside inclined from the outside to prevent the phenomenon that the rain water flows into the outside air inlet flows back to the room.
In addition, the heat storage chamber 110 or the cold storage chamber 120 has a membrane 96 installed around the outside of the natural stone layer in which the natural stone layer 92 is installed inside the underground ground layer, so that the air circulation pipe 56 is disposed up and down the membrane. One side of the air circulation tube is connected to the outside air conveying pipe 76, and the other side of the air circulation tube 56 is connected to the indoor or outdoor air conveying passage 75 inside the multi-layered
In addition, a reverse airflow blocking plate 10 is installed inside the air circulation pipe 56 to prevent cold and hot air leakage.
In addition, the opening and closing controller 55 for controlling the opening and closing of the internal and external air circulation inside the air circulation tube is installed to control the opening and closing of the cold and hot air circulation with the internal and external air circulated.
In addition, the
In addition, the membrane 96 installed around the outside of the natural stone layer 92 prevents the outflow of cold and heat stored as the natural stone layer with blocking the inflow of soil into the inner natural stone layer, that is, installed outside the natural stone layer 92. By installing a material that does not conduct cold air conduction, such as PVC, to prevent side conduction of stored cold heat, and prevents the flow of cold heat, while installing the air flow circulation pipe 56 up and down the membrane to prevent cold heat stored inside It is possible to circulate to the place of use, and the natural stone layer and the air circulation tube separately installed with the airflow circulation tube 56 having a wide inlet up and down the natural stone layer without installing the membrane only above or below the natural stone layer 92 or the above method. By installing the ocher layer mixed with ocher soil and water all around the outside of the surrounding and natural stone layer (92) side, or by installing the soil layer directly around the outside of the natural stone layer Circulating a cold heat to the inner space formed between the upper and lower curb stone layer to the cold heat is conducted to earth through the natural stone layer is able to use the cold heat stored in the soil layer.
In addition, the
In addition, the
In addition, the internal and external air transfer pipe 75 connected to the heat storage chamber 120 or the heat storage chamber 110 is a space layer installed between the frame and the frame installed in the multi-layer
In addition, the reverse airflow blocking plate 10 installed inside the airflow circulation pipe 56 is a stand provided with a
In addition, the cold layer 120 is installed around the natural stone layer 92 of the cold storage chamber 120 or the heat storage chamber 110. It is possible to use hot water, that is, by embedding a metal bucket in which cold heat is conducted into the soil layer, and circulating the water into the bucket, the soil layer heat is conducted to the bucket, respectively, to use the cold and hot water produced in the bucket. Store and use the produced hot water, and install the pipe with the through hole on the side of the pipe to the inside of the soil layer. Will be available.
In addition, the heat storage chamber 110 installed as described above,
A separate movable multi-layer light collecting plate 97 for accumulating radiant heat to the heat storage chamber is installed on the outer surface so that high temperature can be stored in the heat storage room. As shown in FIG. Heat conductive metal plate and metal support are installed to the rear where the space layer is installed, and the solar light is transmitted through the transparent material to the internal space layer and the incoming light changes to the heat, and the incoming light is converted into heat. High heat is accumulated by the continuous light, and the accumulated high heat radiant heat is released to the space layer, and the space layer radiant heat is transferred to the air flow circulation tube 56 by the outside air introduced into the
In addition, the heat storage chamber 110 or the cold storage chamber 120 may expand or shrink the area of the inner natural stone layer and the outer soil layer according to the building use area to fit the entire heat storage chamber 110 or the heat storage chamber 120. By installing the proper size, it is possible to use cold storage for a long time.
In addition, the storage cooling chamber 120, the through hole is provided in the upper surface of the
In addition, separate pipes are installed over the natural stone layer and the soil layer to install through-holes and distribute water through the main pipe. Will be.
Next, how to cool cold air in the cold storage room 120 using sub-zero weather,
An air flow circulation tube 56 is connected between the membrane 96 installed around the natural stone layer 92 inside the cold storage chamber 120 and the north side air transfer tube 76, and the internal and external air transfer passage 75 inside the multilayer condenser plate on the membrane. The airflow circulation pipes 56 are connected to each other, and the northward cold air is introduced downwards by the convection below the natural stone layer 92 into the north air transfer pipe 76 and the
The method of accumulating external radiant heat in the heat storage chamber 110 using room temperature weather,
In contrast to the cold storage chamber 120, an air flow circulation tube 56 is connected between the natural stone layer 92, the membrane 96, and the south-facing air transport tube 76 inside the heat storage chamber 110. (75) The air flow circulation pipes 56 are connected to each other, and the radiant heat produced by solar light flows over the natural stone layer 92 to the south air flow pipe 76 and the
In addition, as heat is stored in the heat storage chamber 110, as described in the heat storage chamber, high heat is naturally stored in the heat storage chamber by convection.
In addition, as illustrated in FIG. 8, the radiant heat flowing into the heat storage chamber 110 is introduced into the heat storage chamber 110 to store high-temperature radiation heat in the heat storage chamber 110 by introducing radiant heat produced by a separate movable multilayer light collecting plate 97. As described above, the movable double-layered light collecting plate 97 converts heat into heat in a metal plate in which solar light is transmitted to the inner space layer through the transparent material of the
A method of producing cooling, heating and related energy together with ventilation to an
As the outside air flows from the
In addition, when cold air is introduced into the
In addition, the south-facing radiant heat flows into the upper and lower air transfer passages 75 of the multi-layer
In the method for producing indoor heating and hot water utilizing the heat produced in the space layer 73 between the transparent layer and the rear layer 32 of the multilayer
Solar light enters the space layer 73 through the
As shown in FIG. 5, the solar light penetrates the front layer transparent material through the transparent layer of the
As described above, the bet continues to circulate from the space layer to the interior, and the space between the
In addition, by circulating the water inside the heat conduction pipe 78 installed above the space layer to produce the hot water by the radiant heat produced as described above in the space layer at this time to the heat conduction pipe 78 installed above the space layer while the indoor circulation is blocked. Radiation heat, which is raised by convection, is conducted to the inner water layer through the surface around the heat conduction pipe 78 to produce hot water. The principle of producing hot water as described above is that the air molecules expanded at high heat become lighter due to buoyancy. As the temperature rises, the hot air conducts heat to the heat conduction pipe 78 and meets the upper heat conducting pipe 78, so that the low-temperature air becomes dense by convection, and the air having a higher temperature than the low-temperature air descending instead rises, that is, radiant heat produced. Continues to rise and, on the contrary, the air that conducts heat while being in contact with the heat conduction pipe 78 As the air flow continues to circulate up and down by convection as in the convection phenomenon of the atmosphere downward, that is, the hot water is produced as described above, and radiant heat continuously produced by solar light during the day is not discharged to the outside and the heat conduction pipe 78 is As the low temperature and high temperature heat are circulated by convection, the hot water is produced. The hot water produced is transferred to the hot water storage room by a separate pipe, and the high temperature is stored upward by the convection, and the low temperature water is stored downward. As the stored low temperature water flows back to the bottom of the heat conduction pipe 78 and rises upward, the heat is accumulated as described above. Will be used.
Living in a residential building composed of the above is to save energy because the efficiency of heating is improved by taking a good night's sleep on the upper floor of the 3rd floor in winter. Become,
In addition, the summer season can be reversed or circulating the inside and outside air to maintain the same internal temperature as the outside, circulating without the internal energy by the internal and external air circulating without energy, the north-failed cold air is introduced into the room becomes natural cooling.
As described above, the natural energy existing around the building can be used to produce natural energy necessary for living and circulate as described above, and to store the dried waste for a long time by naturally drying the natural storage, agricultural and marine products and waste together with indoor ventilation and cold heating. As it is possible to recycle and also generate power to be discharged after use, and also to the outside air generator 71 installed in the upper upper portion to discharge the bet between the wings to generate power to the outside air.
In addition, the present invention is installed in such a way that the door is double-closed and closed in order to allow the outside air to flow into the designated place and circulated by the convection outside the designated place as described above, and also completely seal the exterior material and also airflow In order to improve the efficiency of energy production and cold-heating, a facility is installed to prevent backflow of gas, and a device is installed and used to open and close the air flow circulating to and from the building. It is possible.
In addition, the present invention eco-friendly prefabricated tents and street buildings can be used to install the bet exhaust pipe for discharging the bet to the upper part by using the existing building shape other than the above-mentioned triangular pyramid type or in the appropriate form according to the user's preference. The energy produced in the building is not limited to the present invention, and additional energy may be included in the present invention or only the required energy production facility may be installed and used without using the total energy produced in the present invention.
In addition, the present invention is not limited to the building is obvious that it can be applied to all buildings used,
In addition, it will be apparent to those skilled in the art that the present invention made as described above may be variously modified without departing from the technical spirit.
10; Backflow block 11; Storage
18;
21;
24;
27;
32;
34; Front transparent layer 50; Flooring
52; Through-hole 55; Switchgear
56; Air circulation tube 57; Internal and external air conveying pipe
58; Passage 60; pipe
61; Assembly 63; Pillar pipe
70; Bet discharge tube 71; Outdoor generator
72; Bet generator 73; Radiant heat circulation passage
74; Axis of rotation 75; Internal and external air transfer path
76; Internal and external air transfer pipes 77; Bet outlet
78; Thermally conductive tubing 79; House mission
80;
82;
84; Pushpin 85; throttle
86; Handle 87; Inflow room
88; Outdoor air inlet 89; plate
90; Roof 91; Soil layer
92;
94; Guide member 95; inside
96; Membrane 97; Removable Duplex Condenser
98; Ventilation shelf 99; Drying room
100; Prefab tent 110; Heat storage room
120;
200; Autumn building
Claims (21)
Tent 80 consisting of a triangular elevation with a wide bottom and an inner area narrowing upward,
A pipe 60 for supporting the tent.
Is installed on the side of the tent and the outside air inlet 88 is introduced outside the outside air,
Transparent window 30 is installed in front of the tent and the sunlight is introduced into the inside,
Opening and closing the controller 55 is installed over the inside of the tent to open and close the internal and external circulation
It is assembled on the tent and the bet discharge pipe 70 for discharging the internal bet,
A column pipe 63 connected to the pipe to support the internal exhaust pipe;
Bet discharge outlet 77 is installed to the side above the bet discharge pipe,
Eco-friendly prefabricated tent, characterized in that it comprises a mini roof (90) installed to the upper end of the bet discharge pipe to prevent rain.
An inner cloth 24 installed inside the tent 80, an outer waterproof cloth 22,
A space layer formed laterally between the waterproof cloth 22 and the inner cloth 24;
The air inlet chamber 87 is installed around the tent floor 80 and the air discharge pipe 70 connected to the space layer to inflow outside air, and
Eco-friendly prefabricated tent, characterized in that installed including a control for opening and closing the outside air circulated and installed between the waterproof cloth (22) and the inner cloth (24) under the space layer circulating the outside air introduced into the outside air inlet chamber.
Eco-friendly prefabricated tent, characterized in that it comprises a heat insulating material or a jug installed as a side space layer between the outer waterproof cloth 22 and the inner cloth (24).
Eco-friendly prefab tent, characterized in that the side is composed of a multi-storey device installed in and out of the air.
Eco-friendly prefab tent, characterized in that the material is transmitted through ultraviolet rays.
Eco-friendly prefab tent characterized in that it is installed in black matte or white glossy.
Eco-friendly prefabricated tent is installed support line 33 for fixing the tent 80 and the bet discharge pipe (70).
An access passage 27 extending from the tent 80 to the outside;
An entrance door installed in the access passage;
Eco-friendly prefab tent, characterized in that the installation is included a screen.
A building 200 consisting of a triangular elevation with a large floor area and a narrow inner surface as it rises up,
And a drying chamber (99) for drying the moisture waste into the outside air that is assembled and circulated above the building.
It is assembled above the drying chamber and the air discharge pipe 70 for discharging the rising air in the building,
A bet generator 72 which is installed inside the bet discharge pipe and generates power by circulating upward air;
An outside air generator 71 which is installed at the upper end of the inside of the inside of the inside of the air discharge pipe and generates power by external wind while discharging the bet between the wings;
The air transfer pipe 76 and the air is installed to the floor of the building or the outer ground to introduce the outside air,
A cold storage chamber 120 and a heat storage chamber 110 for storing cold air or radiant heat from the outside air transport pipe and storing it underground;
Eco-friendly prefabricated building, characterized in that it comprises an opening and closing the outlet pipe and the outside air transport pipe and the internal and outdoor air circulation opening and closing controller 55 to control the opening and closing of the internal and outdoor circulation.
Skeletal framework from the bottom of the floor to the inner center of the stomach,
A multi-layer light collecting plate 180 provided with a space layer 73 between the front and back layers having the front and back layers 34 to 32 disposed on both sides of the frame;
A transparent layer provided as the multilayer condenser front layer 34,
A heat conduction pipe 78 installed on the double-layered light collecting plate space layer and circulating water therein to produce hot water by radiant heat formed on the space layer by solar light;
An access passage 27 connected to the outside of the multi-layer condenser plate and having double access doors;
Internal and external air circulation circulated to the space layer 73 or the room 95, and
Eco-friendly prefabricated building, characterized in that the installation is installed in the building includes a storage 11 for storing food by circulating cold air storage 120.
Ventilation shelf (98) is installed inside and is low-dry spreading moisture waste,
Eco-friendly prefabricated building, characterized in that the interior and exterior air circulated to the multi-layered condenser plate 180, the indoor and outdoor air transfer passage 75 or the indoor 95 to the ventilation shelf.
An outside air inlet 88 installed at a place where a through-hole is installed at an upper surface between the sealed inner space and the outside by blocking both ends;
Eco-friendly prefabricated building, characterized in that the bottom through the air installed in the bottom of the air inlet is installed in the bottom through-hole circulating the rain water flowing into the outside inlet.
Natural stone layer 92 is installed into the underground ground layer,
A membrane 96 installed around the outside of the natural stone layer,
It is connected to the top and bottom of the air circulation pipe 56 and the cold and hot air circulation with the internal and external air circulation, and
It is installed in the air circulation pipe inside the reverse air flow blocking plate 10 and the opening and closing controller 55 to prevent opening and closing the cold, hot air flow or outside and outside circulation, and
An earth layer 91 installed around the outside of the membrane,
A heat insulation layer 93 installed around the outside of the soil layer,
Eco-friendly prefabricated building, characterized in that the installation includes a separate removable multi-layer light collecting plate (97) for storing radiant heat to the heat storage chamber.
A through hole installed on each of the membrane 96 and the heat insulating layer 93,
Eco-friendly prefabricated building, characterized in that it further comprises a drain 82 is installed in the center below each of the membrane and the heat insulation layer.
Cold air inflow step introduced to the external north air transfer pipe 76 outside air inlet 88;
Transferring the cold air down the natural stone layer (92) inside the cold storage chamber (120) to the air circulation tube (56);
Conducting and storing cold air by natural stone while the transferred cold air circulates up and down under a space formed between natural stone layers;
A convection circulation step in which warmth in the natural stone layer rises up by cold air introduced under the natural stone layer;
It includes the step of circulating by the convection circulation through the air flow circulation pipe 56 installed on the natural stone layer through the internal and external air transfer passage 75 inside the double-layered light collecting plate 180 to the convection difference by the convection circulation;
The cold storage chamber 120 is cold air is continually stored cold storage in order of natural stone layer from the bottom of the natural stone layer (92) while the cold air flow circulated in the convection difference as described above.
Radiant heat inflow step flowing into the external air inlet (76) outside air inlet 88 outside;
The radiant heat is transferred to the heat storage chamber 110 natural stone layer through the air circulation pipe 56;
Conducting and accumulating radiant heat to natural stone while the transferred radiant heat is circulated downward from a space formed between natural stone layers;
A convection circulation step in which cold air in the natural stone layer descends from the top to the bottom by radiant heat introduced into the natural stone layer;
Cold air descending by the convection circulation is circulated by a convection difference or a separate power through the air flow circulation pipe 56 installed below the natural stone layer to the internal and external air transfer passage 75 inside the double-layered light collecting plate 180;
The heat storage chamber (110) is a heat accumulation of the radiant heat in the heat storage chamber, while the heat is continuously circulated in the convection lane as described above, the heat of the heat is stored in the heat storage chamber in descending order from the top of the natural stone layer.
Radiating heat introduced into the heat storage chamber (110), further comprising the step of radiant heat produced in a separate movable double layer light collecting plate (97), heat storage heat storage to the heat storage chamber.
An outside air inflow step introduced into an outside air inlet pipe 76 installed inside and outside;
A convection circulation step in which indoor rising air is circulated while the outdoor air is introduced into the indoor 95;
A step of drying the waste apparatus while the ascending air is circulated between the wastes of water that are raised above the drying chamber (99);
A power generation step in which the rising air is generated by the power generated by rotating the blade while pushing one blade 21 of the bet generator 72 by the guide member 94 of the discharge pipe 70;
The air flow is discharged to the space air outlet (77) between the blades of the outside air generator (71);
In addition, while utilizing the air conditioning and related energy with ventilation, which increases the efficiency of natural drying and internal generator generators, along with cold heating, while properly opening and closing the controller 55 installed for each circulation during internal and external air circulation as described above. How to.
Cooling and heating the room by introducing cold air into the outside air inlet 88 installed outside of the outside air flowing into the room 95 toward the outside air inlet 88, or by introducing radiant heat into the outside air inlet installed southward; ;
The radiant heat is introduced into the multi-layered condenser plate 180 and the external air transport passage 75, and further comprising the step of circulating as described above to the drying chamber 99, utilizing ventilation and heating and related energy with ventilation Way.
Solar light is introduced into the space layer 73 through the front layer 34 transparent material;
Converting the incoming solar light into heat in a spatial layer;
The heat converted in the spatial layer rises up by convection;
The elevated heat is introduced into the room (95) through the side of the rear layer (32) above the space layer;
By the heat introduced into the room, the indoor cold air flows into the space layer through the side under the rear layer (32);
In addition, as the above-described low temperature flower introduced under the space layer 73 is reheated by solar light, the heated heat continues to circulate as described above from the indoor space to the space layer, thereby improving heating efficiency with indoor heating and heating. How to produce a number.
The elevated heat is conducted through the surrounding surface of the heat conduction pipe 78 installed above the space layer to the inner water layer to produce hot water;
In addition, indoor heating and hot water, which increase the production of hot water while continuously circulating and conducting by convection as described above with heat conduction pipe 78 without being radiated to the outside by solar light during the day, are not discharged to the outside. How to produce.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101356977B1 (en) * | 2012-10-30 | 2014-02-04 | 구자호 | A device to install dry rooms and storage houses for produce utilizing circulation of indoor and outdoor air and ground temperature |
KR101482974B1 (en) * | 2013-11-25 | 2015-01-23 | (주)자연에너지 연구소 | A device and method to construct inexpensive airtight buildings with natural interior environment capable of providing heating and cooling and promoting health in nature. |
KR101488803B1 (en) * | 2012-10-26 | 2015-02-04 | 구자호 | Installation of a natural drying space utilizing solar heat and circulation of indoor and outdoor air. |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101488803B1 (en) * | 2012-10-26 | 2015-02-04 | 구자호 | Installation of a natural drying space utilizing solar heat and circulation of indoor and outdoor air. |
KR101356977B1 (en) * | 2012-10-30 | 2014-02-04 | 구자호 | A device to install dry rooms and storage houses for produce utilizing circulation of indoor and outdoor air and ground temperature |
KR101482974B1 (en) * | 2013-11-25 | 2015-01-23 | (주)자연에너지 연구소 | A device and method to construct inexpensive airtight buildings with natural interior environment capable of providing heating and cooling and promoting health in nature. |
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