WO2013002541A2 - Natural energy production apparatus using indoor and outdoor air circulation, thermal storage material, and cold storage material - Google Patents

Abstract

The present invention relates to an eco-friendly energy production apparatus in which a thermal storage material layer for storing heat and a cold storage material layer for storing cold air are each formed within an underground layer, and a ground layer and a thermal insulation layer are formed into an appropriate thickness outside the underground layer. Thus, residual solar heat is stored in a double-layer heat collecting plate and is circulated through a double-layer pipeline so as to be stored in the thermal storage material layer in summer, and low temperature cold air is circulated to the cold storage material layer and stored in the cold storage material layer in winter, so that the stored heat or cold air can be put to off-season use. A variety of thermal storage materials and cold storage materials can be appropriately applied so as to store heat in summer and cold air in winter, and to use the stored heat and cold air in heating or cooling a building or the like.

Description

Natural energy production equipment using internal and external air circulation, heat storage and cool storage materials.

The present invention is to store heat and cold in the building by storing heat and cold in the heat storage cold storage material using surplus heat in summer and sub-zero temperature in winter, and to raise edible crops when used in a plastic house, etc. By using natural climate, it is related to eco-friendly energy that can save heat and heating cost and reduce carbon dioxide emission by saving heat in summer and heat in winter as heat storage material and cold storage material in underground soil layer.

Existing energy utilization examples use existing existing resources to absorb underground geothermal heat for cooling and heating the ground building, to use underground water temperature of underground water, or to use underground heat by circulating special solution or water through the pipe. Most of them use the existing underground geothermal heat. Geothermal heat can be reused only when it is restored to its original or proper temperature after use. Some areas cannot be restored depending on the region. If it is long, there may be a problem that the geothermal energy cannot be used as much as the facility cost. Also, the underground layer may be destroyed to contaminate the underground ground layer in order to use the ground heat, and the liquid or circulating water circulating inward may cause The problem is that the pipes are destroyed and contaminate the underground. The development of technology that can cope remarkable is thought that as the required time.

When we look at the global environment that we live in, we can't predict the fluctuations of the four seasons. Spring, summer, fall and winter are not progressing. Spring and autumn are short, and summer and winter are long. As an alternative to this, the short-lived and fall are turning into a sad reality.Alternatively, by installing heat accumulators under the ground using summer heat, the heat is circulated by heat storage to accumulate a layer of heat accumulators for storage and use in winter. In order to solve this problem, eco-friendly energy that can save air-conditioning and environment using surplus heat and cold air is used as a method.

Accordingly, the present invention is a heat storage heat storage material by heating the heat storage material by heat transfer to a processing material or a phase change material that can be stored and stored by heat storage or cold storage by storing natural materials such as natural stone, natural soil or natural water as heat storage heat storage materials. Using a material that absorbs cold air and gradually cools to sub-zero temperatures and accumulates heat, a proper layer of soil is installed on the outer six sides of the heat storage material with appropriate width and thickness to store heat inside the underground ground layer. In addition, the insulation space layer and insulation layer are installed outside the six external soil layers, and the heat or hot water produced from the double-layered light collecting plate installed on the ground or in the building is circulated and stored inside the heat storage layer or the heat storage layer embedded in the basement. To cool the ice layer by circulating the cold air in winter or by using water to freeze the ice. By cooling the cooling member is configured such that it can take advantage of the heat and cold in the off-season, respectively.

It can save the building's heating and cooling and agricultural products for a long time, grow edible crops for four seasons, save energy and reduce carbon dioxide emission.

1 is a cross-sectional view of the building installation example used for the cold storage, heat storage chamber and energy production facilities installed in the underground ground layer of the present invention.

Figure 2 is a cross-sectional view of the installation example of energy utilization facilities and pyramid-shaped building installed as a heat storage, heat storage chamber.

Figure 3 is a cross-sectional view of the example of the cold storage, heat storage passage and ground building installed in the ground layer.

Figure 4 is a cross-sectional view of the production of hot water production using a sun shader installed inside the building double-storey window.

5 is a cross-sectional view of a double layer pipe for transferring cold heat.

6 is a cross-sectional view of a double multilayer pipe for transferring hot and cold heat.

[Description of the code]

7; Sunshade 8; Water circulation pipe

10; Switch regulator 11; Fresh air inlet

12; Air inflow pipe 13; Blocking plate

15; Circulating sphere 17; Cold air absorption tube-hot air absorption tube

18; Cold and hot air passage 20; Natural stone floor

22; Outlet 23; Passage

24; Pedestal 25; membrane

26; Support 27; Heat conduction plate

28; Fixing plate 30; Soil layer

31; Piping 32; External piping

33; Cold and hot air transfer pipe 35; surface

36; Ground layer 50; Insulation space layer and insulation layer

51; Through-hole 52; Cold water storage room

55; Air purification chamber 58; Distribution room

60; Bingo 61; door

62; Hot water storage room 65; Access

66; Agricultural products 70; Bet discharge pipe

71; Water canal 72; drain

73; Duplex piping 74; Central axis

75; Cold air absorption tube 76; Double Duplex Pipe

77; Ice 80; Multi-layer condenser

81; Transparent layer 82; Internal and external air conveying pipe

83; Back layer 84; Space floor

85; Pin 86; handle

88; Circulation direction 89; Tumbler

90; Reflector 98; Duplex water collector

99; Cellar 100; Low rise building

110; Cold storage chamber 111; Long-term storage

115; A cold storage passage 120; Heat storage room

122; Long term heat storage chamber 125; Heat storage pathway

200; high rise

The present invention installs a heat storage cold storage room and the like inside the underground ground floor, and a facility that is used to produce energy to the ground and the ground is installed to circulate the energy produced by the heat storage cold storage room and use the energy stored in the building after storage To the natural energy production system using internal and external air circulation, heat storage and cool storage materials

As shown in the drawing, the heat storage, the cold storage chamber and the heat storage, and the heat storage chamber and the cold storage chamber which store the cold and hot air through each of the heat storage and the cold storage material while the cold heat is circulated up and down into the cold storage passage, respectively. Regenerated passages and regenerated passages are respectively installed to circulate through the horizontally installed pipe passages while the heat and cold air is regenerated and stored in the regenerated and regenerated materials installed inside, respectively.

The production facilities for introducing and producing hot and cold air into the ground and the ground, and also the buildings using the stored energy are installed respectively, circulating the produced cold and hot air into the heat storage chamber and the cold storage chamber or the heat storage passage and the cold storage passage installed underground. The heat from the heat accumulating, the heat accumulating material and the cold air is convection, and the cold air is stored in the lower layer, and the hot air is stored in the upper layer, respectively.

More specifically

In the natural energy production apparatus using the internal and external air circulation, heat storage, cool storage material,

The outside air inlet pipe 12 is installed in the south-facing and north-facing ground, respectively, and a plurality of outside air inlets 11 are installed on the top of the outside air inlet pipe 12, and external air is introduced through the outside air inlet 11.

In addition, the outdoor air flowing into the outdoor air inlet pipe is circulated to the double-layered condenser plate 80 installed on the outer wall and the ground of the south facing building, and the heat is stored as the heat storage material while the sun is closed by the internal heat storage material. Heat is produced by conducting heat into the circulating outside air as radiated heat is released.

In addition, inside the south-facing double-layered light collecting plate is installed a sunlight shader (7) to block the radiant heat flowing into the building interior through the front transparent material while the radiant heat is accumulated by the light to the sunlight shader (7) continues to produce radiant heat.

In addition, the sun shader 7 is a surface of a material such as copper plate aluminum that conducts heat, and is installed in black or matte to prevent light reflection while absorbing black unique solar radiation heat, thereby allowing the radiant heat to be accumulated and used. .

In addition, the radiant heat produced by the inflow of solar light into the heat storage material inside the double-layered light collecting plate installed on the ground is transported and circulated inside the heat storage chamber 120 or the heat storage passage 115 installed as the underground ground layer, and circulated over the internal heat storage material by convection. While the heat is transferred to the heat storage material as heat is stored in the heat storage chamber 120, or the heat storage material above the heat storage passage 115, the internal warmth in the heat storage chamber 120 or the heat storage passage 115 is reversed. Heat is continuously stored above the heat storage chamber 120 or the heat storage passage 115 while being discharged downward by convection and discharged to the final outside along the entire convection circulation direction through the inner passage.

In addition, the cold air introduced through the north air inlet pipe outside air inlet, the cold air is conducted to the cold storage material below the inside of the cold storage chamber 110 or the cold storage passage 115 installed in the underground ground layer, while the cold air is stored in the lower layer of the cold storage material. 110 or the internal storage of the cold storage passage 115 is introduced into the upper passage through the cold storage material by convection, and discharged to the outside in the final circulation along the entire circulation direction, leaving only the cold air downstairs so that the stored cold air is installed downward. The cold air introduced into the room through the entire convection circulation used and stored in the room is stored below the room, but the indoor warmer rise air rises upwards and is discharged to the outside through the final air discharge pipe 70, and the room becomes natural cooling.

In addition, the cold and hot air and the outside air is circulated to the opening and closing controller 10 is installed in a structure that can be used while opening and closing the cold and hot air and the outside air circulation is circulated.

In addition, the multilayer light collecting plate 80 is provided with a transparent layer 81 in front of the solar light is transmitted through the

      In addition, the rear layer 83 is installed to the rear of the transparent layer, and the rear layer 83 may be installed and used as a heat storage material for radiating heat or a transparent material for transmitting light.

      In addition, a spaced space layer 82 is installed between the front and rear layers so that solar light is transmitted and used to circulate internal and external air into the interior space.

      In addition, the radiant heat generated by the sunlight shade or heat accumulating material installed inside the space layer by the sun light is introduced into the space layer, and the radiant heat rises to the outer surface of the multi-layered water collector 98 or the water circulation pipe 8 installed in the space. The radiant heat is conducted to the water circulated inside, thereby producing hot water.

      In addition, the rear layer of the rear light collecting plate 80 installed on the ground is provided with a space layer or a heat insulating layer that blocks conduction of the radiant heat produced from the double light collecting plate to the ground layer, and through the conduction of the radiant heat produced by the double light collecting plate 80. Heat loss is prevented.

In addition, the multi-layer condenser plate 80 is installed with a reflector plate 90 on the ground to reflect the sun light to increase the radiation heat production, the radiation heat introduced through the reflector plate is added to the radiation heat of the existing solar heat and hot water production Can be increased.

This method is also used a lot in winter.

In addition, the heat storage heat storage material described above can be used for all materials that can be heat storage heat storage such as phase change material or natural stone.

In addition, the heat storage chamber 120 or the heat storage chamber 110,

       A heat storage material 20 or a heat storage material 21 for storing cold heat is installed inside, so that a film 25 is installed around the heat storage material or the heat storage material, and the heat storage material 20 or around the film 25. The soil layer 30 is installed to block the external conduction of the heat and cold air stored as the cold storage material to protect the heat and cold air stored by the thermal insulation unique to the soil layer, that is, a fine air layer is formed as the earth layer. It is possible to block the external conduction of hot and cold air stored inside by the air layer.

      In addition, the insulation layer and the insulation layer 50 is installed around the soil layer so that the insulation can be secondarily cooled together with the soil layer to block the conduction of the internal heat and cold air to the ground layer. By installing the additional insulation space and the insulation layer 50 in duplicate around the layer 50, it is possible to completely protect the heat and cold air stored therein.

      In addition, between the heat storage material or the heat storage material and the multi-layered light collecting plate and the air inlet pipe on the ground, a double-layer pipe 73 is connected to transfer hot and cold air without loss by the internal insulation space, and further installed a space layer It is also possible to install and use the double layer piping 73 in which piping is additionally installed around the space layer.

In addition, by connecting the hot and cold heat transfer pipe 33 between the heat storage material or the cool storage material and between the air discharge pipe 70 installed at the upper end of the building roof, the internal warming by the heat and cold air introduced into each heat storage material or cool storage material to the final outside. The heat storage chamber 120 or the cold storage chamber 110 is configured as a structure used for discharging.

In addition, the heat storage passage 115 or the heat storage passage 115,

     The heat and cold air transfer passage 18 is installed into the heat storage material layer or the heat storage material layer in which the heat storage material layer 20 or the heat storage material layer 21 in which hot air or cold air is introduced and stored is installed. Around the cold ash layer, there is provided a soil layer 30 that blocks the conduction of each stored hot and cold air around the sides;

      In addition, the insulation layer and the insulation layer 50 is installed around the soil layer to block the conduction of the cold air in the soil layer to the ground layer, and the south-facing double-layered light collecting plate 80 or the north-facing ground air inflow pipe and the hot and cold air transport. The heat storage passage 125 or the heat storage passage 125 is a structure that can be safely transported to the heat storage passage 125 or the cold storage passage 115 without loss of heat and cold air by the double-layer pipe 73 is connected by the heat insulating space inside the double-layer pipe. The cold storage passage 115 is configured.

 In addition, the heat storage chamber, the cold storage passage and the cold storage chamber, and the cold storage passage, each of the natural heat production apparatus using the internal and external air circulation, heat storage, the cool storage material by the method such that the cold heat can be stored and used in common, respectively. Consist of

The present invention made as described above is apparent to those skilled in the art that various modifications and applications are possible without departing from the technical spirit.

Claims (5)

1. In the natural energy production apparatus using the internal and external air circulation, heat storage, cool storage material,

   Outside air inlet pipe 12 is installed to the south facing and north facing ground, the outside air inlet 11 is installed to introduce external air;

   A multi-layer condenser plate 80 installed on the outer wall and the ground of the south-facing building, which is converted into radiant heat by the internal heat storage material while the outside air introduced into the outside air inlet is circulated to the double-layer space;

   A sun shader (7) installed inside the south-facing double-layered light collecting plate to block radiant heat introduced into the building interior through the front transparent material, and radiant heat is produced by light;

   A heat storage chamber 120, or a heat storage passage 115, which is transferred to radiant heat produced inside the multilayer light collecting plate installed on the ground and stored as an internal heat storage material;

   A cold storage chamber 110 or a cold storage passage 115 in which cold air introduced into the north air inlet pipe outside air inlet is stored:

   Natural energy production apparatus using the internal and external air circulation and heat storage, the cool storage material, characterized in that the opening and closing regulator 10 is installed to open and close the cold heat and the outside air circulation.
2.        The method of claim 1, wherein the multilayer light collecting plate 80,

          A transparent layer 81 installed at a front surface to allow solar light to pass through;

         A rear layer 83 made of a heat storage material for radiating heat being accumulated while the light flowing into the transparent layer is closed or a transparent material for transmitting light;

         A space layer 82 installed between the front and rear layers to circulate internal and external air while solar light is transmitted;

         A multi-layered water heat collecting plate 98 or a water circulation pipe 8 installed as the space layer so that radiant heat produced by the sun shader or the rear layer heat storage material is conducted;

         A space layer or a heat insulation layer disposed on the rear surface of the rear layer to block conduction of radiant heat produced by the multilayer light collecting plate to the ground layer.

         Natural energy production apparatus using the internal and external air circulation, heat storage, and cool storage material, characterized in that the reflection plate 90 is installed on the ground to reflect the sun light to the multilayer light collecting plate 80 to increase the radiation heat production.
3.        According to claim 1, wherein the heat storage chamber 120 or the heat storage chamber 110,

          A heat storage material 20 or a cold storage material 21 for storing cold heat respectively;

          Membrane 25 installed around the heat storage material or the heat storage material

         A soil layer 30 installed around the membrane to block external conduction of heat and cold air stored as the heat storage material 20 or the heat storage material;

         An insulation space and insulation layer 50 installed around the soil layer to block conduction of hot and cold air into the soil layer;

         A double layer pipe (73) connected between the heat storage material or the heat storage material and the multi-layer light collecting plate and the air inlet pipe on the ground to transfer hot and cold air without loss;

         Cold and hot air transfer pipe 33 connected between the heat storage material or the cold storage material and between the air discharge pipes 70 installed at the upper end of the building roof to discharge internal warmth by hot and cold air introduced into each heat storage material or heat storage material to the outside. Natural energy production apparatus using the internal and external air circulation and heat storage, regenerated coolant, characterized in that comprises a.
4.        According to claim 1, wherein the heat storage passage 125 or the cold storage passage 115,

        A heat storage material layer 20 or a heat storage material layer 21 into which hot or cold air is introduced and stored;

        Hot and cold air transfer passages 18 installed in the heat storage layer or the heat storage layer;

         An earth layer 30 installed around the heat storage layer or the heat storage layer to block conduction of the stored heat and cold air around the side surface;

         An insulation space and insulation layer 50 installed around the soil layer to block conduction of hot and cold air into the soil layer;

         Natural energy using internal and external air circulation, heat storage, and cool storage material, including the double-sided pipe 73 connected between the south-facing ground double-layered light collecting plate 80 or the north-facing ground air inflow pipe and the hot and cold air transfer passages. Production equipment.
5.        The heat storage chamber and the cold storage passage of claim 1,

   Natural energy production apparatus using internal and external air circulation, heat storage, and regenerated coolant, characterized in that the cold heat is stored in common for each season.

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