KR101015220B1 - The method to utilize solar energey with double-layer sunbeamcollection panels. - Google Patents

Abstract

      Regarding the production of warmth or hot water by introducing sunlight into the double-layered light collecting plate 99 made of a double layer, the air layer is centered between the front and rear layers made of transparent or opaque material and heat conductive material and non-conductive material which can receive sunlight. A double-layer light collecting plate that finishes the side slopes and installs a circulation pipe 21 through which air or water enters the proper area of the side or front and rear layers.

Space layer Water layer Air layer Front layer Rear layer Interior protective layer

Description

The method to utilize solar energey with double-layer sunbeamcollection panels.

The present invention relates to a method of producing warmth or hot water using a double layer light collecting plate (99) made of transparent or opaque material using solar light. The transparent water can be used to produce warmth or hot water while using it as a window, and the opaque light collecting panel of opaque material can be used as a roofing material or a wall to replace the exterior material. The place where sunlight shines can be installed and used to produce warmth or hot water, and it is about producing warmth and hot water using solar light, which is pure natural resources, without the need for extra energy.

The hot water used in the existing room is almost exclusively used to produce hot water using fossil energy or electricity, and a solar light collecting plate has been developed to produce power using natural energy using sunlight, but it is expensive. Solar hot water production technology has been commercialized, but solar water hot water production technology is commercially available, but it is not easy to use because it is limited to facility cost and hot water production. Also, when looking at existing houses, most of them are clogged with opaque materials and only some windows are installed. Due to this, the inflow of sunlight is limited, and this is why high-rise buildings that emit light by installing all the glass on all four sides are being installed. However, these buildings are heated by heating cost in the winter and cooling by the sun's radiant heat in summer. There is a vicious cycle of rising costs. In response, sunscreen films have been developed and used, but they are also not fully processed and their lifespan cannot be understood how long they can withstand solar heat. It is a pity that the building that helps human health is not yet cared for. It is a pity that the animals and plants are living under the sun's energy, but the developed human beings live in the sky. It is already known that it is beneficial to human health to live by receiving far-infrared rays that are blocked with ultraviolet rays. It is known that it is possible to use indoor far-infrared rays of the sun by using ultraviolet-blocked transparent glass. Development is desired I think that with the time.

The energy we use to get hot water is almost fossil energy, and sometimes electricity is used. However, electricity is disadvantageous than fossil energy in terms of cost unless it is used at night. Such electricity is also consumed by additional energy, such as fossil energy using fossil energy and nuclear power based on uranium. In particular, fossil energy has become a major cause of polluting our atmosphere and destroying the environment. The development of eco-friendly energy to protect the atmosphere and protect the environment is in an urgent time. Therefore, some of the above problems will be solved by the warmth or hot water production method of the double-layered light collecting plate using solar light, which can cope with it.

     In order to achieve the above object, the present invention uses a multi-layer light collecting plate made of a transparent or opaque material capable of receiving sunlight to form an air layer inside the double layer, and allows air or water to enter and exit the sun when the sun is irradiated to the surface layer. As the light meets the surface of the multi-layer condenser plate, the radiant heat is accumulated and the heat continues to be accumulated by the light that flows in the front layer. The heat of the front layer is conducted to the air or water at the rear of the front layer, and the temperature of the air or water rises. Using the principle that the warm and hot water is produced by using a multi-layer light collecting plate made of a transparent or opaque material that can produce warm or hot water by circulating air or water to solve the above problems.

It can produce warmth or hot water using solar energy, which is eco-friendly energy, so there is no additional energy cost, installation cost is low, and the atmosphere is preserved to save the environment, and once installed, it can be used almost semi-permanently. It is effective to protect human health by environment.

500

7=0.25㎡ )규격의 복층 집광판과 유리제품인 브론즈색 양면 반투명 (500

500

15=0.25㎡)와 양면 투명유리 (500

500

15=0.25㎡)의 복층집광판 3종류로 내부물층 두께약 5미리 내외로 수온 13℃의 물을 주입하여 외부온도 14℃ 상온에서 태양빛을 약90분정도 조사한후 수온을 측정한결과 투명재질은 34도 브론즈색 반투명은 39도 검정동판은 46도의 약1.25리트의 온수를 각각 생산하여 1㎡당 1시간반에 약 5리트의 온수가 각각생산 되었다 다음은 동판 (500

500

7=0.25㎡ )규격의 복층집광판 표면 검정색 2장을 이용하여 한쪽으로 투명재질인 3미리 유리를 15미리 간격을 두고 공간층60을 복층 집광판 전면위로 설치하여 실험한 결과 상온 약20도의 온도에서 수온약14.5도의 물을 주입하여 1시간 태양빛을 조사후 수온을 검사하니 기존 검정색 동판의 수온은 43도이고 투명유리를 이용한 복층 집광판위로 공간층60을 설치한 곳은 51도 온도로 온도차가 8도의 차이가 발생하는 결과를 실험을 통하여 알게 되었다
다음은 첨부된 도면을 설명하면
도1은 본발명 태양빛을 이용한 복층 집광판과 전후로 공간층이 설치된 각각의 실시예 단면도 이고
도2는 투명재질로 이루어진 복층집광판 평면도 이고
도3은 도 2의 E 단면도 이고
도4는 사각형태로 구성된 투명 복층집광판 실시예 평면도 이고
도5는 도4의 A 단면 복층 집광판 옆면 태두리와 탄력 마감재 분해도와 조립도 이고 도6은 도4의 C 단면 복층 집광판 4면 연결구 단면 상세도 이고
도7은 도4의 D 지지장식 단면 분해도와 조립도 이고
도8은 불투명 복층집광판 평면도와 측단면과 입면도이고
도9는 도 8의 B 뚜껑순환구 단면도 이고
도 10은 불투명 복층집광판 표면앰버와 전면층 요철형태 평면과 단면도 이고
도 11은 오목형의 전면층 불투명 복층집광판 평면도이고
도 12는 도11 G의 오목형 전면에 투명 보호층과 공간층이 설치된 복층집광판 단면도 이고
도 13은 넓은 면적으로 이루어진 복층집광판 평면도와 측단면과 입면도 이고
도 14는 지면위 발판 평면도와 단면도 이고
도 15는 경사형 물순환 지지대와 후면순환관이 설치된 투명 복층집광판 평면과 입단면도 이고
도 16은 도 15 H의 후면순환관 입단면도 이고
도 17은 본발명 건물 지붕위로 설치된 복층 집광판과 전후면 공간층을 이용한 온기와 온열수생산 실시예 입 단면도 이고
도 18은 대형 지지장식 단면 분해도 이다
다음은 도면을 통해 좀더 구체적으로 설명하면
도 17과 같이 건물 지붕(110)위로 내기를 배출하는 내기배출관(96)이 설치되어 남향 경사지붕으로 투명재질 투명 보호층(50)과 공간층(60)과 실내 보호층(70) 순으로 설치되어 아래 전면벽(111) 복층 공간층과 위공간층이 연결되어 전면벽 아래 외기유입구(63)와 내부 내기유입구(65)가 설치된 건물(A)와;
지붕(110) 공간층(60) 사이로 온수를 생산하는 다수의 복층집광판(99)이 설치되어 복층집광판 윗쪽이 집수관(91)과 연결되어 집수관과 온수저장실(69) 위쪽과 배출관(90) 으로 연결되어 온수저장실 아래쪽에서 공급관(81)까지 유입관(80) 으로 연결 유입관과 연결된 아래 복층집광판 에서 위 복층집광판 으로 물이 순환되어 태양빛에 의해 온수가 생산되는 온수생산 시설(B)와;
전면벽(111) 아래 외기유입구(63)와 내기유입구(65)로 개폐조절기(66)가 설치되고 복층집광판 위쪽 전후면 공간층(60)과 내기 배출관(96) 내부로 개폐조절기 (66)가 설치되어 내외기 유입구쪽 개폐조절기로 내외기가 각각 유입되어 위쪽 각각의 개폐조절기에 의해 실내나 내기배출관 으로 내외기가 개폐 조절 순환되는 내외기 순환부(C)를 포함하여 구성되는 것을 특징으로 하는 복층 집광판을 이용한 태양에너지 활용방법 으로
건물(A) 지붕(110)으로 설치되는 투명재질은 자외선이 투과되지 않는 재질과 투과되는 2가지 재질이 설치되고 내기 배출관(96)은 대류차를 이용할수 있는 높이로 설치되어 지붕재 내부 공간층(60)과 실내 온열기가 배출되고
시설(B) 복층집광판(99)의 형상은 전후면 평면에 윗면이 삼각 4각 원형 마른모형의 모양으로 구성되며 단면이 전면층(10)과 공기층(20)과 후면층(30)의 3개층으로
구성되어 측면이 마감되며 도 4와 5와 같이 투명재 4각형일때 전후면층 사이 측면
외곽4면 전체로 지지판(6)이 설치되어 지지판 상하면과 전면층(10)과 후면층(30)
외부면 으로 연질층(8)을 설치 4면 테두리로 탄력마감재(85)를 끼워 전후면층을
밀착시켜 마감되어 내부 공기층으로 공기나 물이 출입되는 순환관(21)이 설치되어 순환관이 각 연결구(22~23~24)와 체결되어 복층집광판이 서로 연결되어 복층집광판 에서 생산된 온수가 순환되고
시설(B) 복층 집광판(99)의 재질은 투명재와 불투명 재질이 사용되고 투명재는 자외선 차단재와 투과재의 2가지 재질이 사용되며 유리 강화유리 PVC투명 아크릴 석영유리와 유색 반투명 불투명 검정색과 불투명 재질은 열전도 재질과 부전도 재질이 사용되며 금속재 인조석 자연석과 PVC 합성수지 단열재로 구성되고
복층 집광판(99)은 전면층과 후면층과 옆 측면 4면을 같은 재질을 사용하거나 각각 서로다른 재질이 사용되고
복층집광판(99)은 도 10과같이 전후면층 형상이 평면 오목형 볼록형 주름형에 전면 표면은 민자나 엠버 요철식 으로 구성되며 불투명 재질은 전면층(10)이나 표면이 검정색 무광택 으로 설치되고
복층 집광판(99)은 도 14와 15와 18과 같이 공기층 내부로 공기나 물을 주입시 태양빛에 의한 공기 팽창이나 물의 팽창과 외부 압력을 지지해주는 지지대(27)나 지지장식(28)이 전후면층 으로 설치되고
지지대(27)는 도 15와같이 복층 집광판(99) 공기층으로 전면층과 후면층 내면으로 부착되거나 접착 설치되며 투명 유리는 매끄러운 전후면과 지지대 표면을 연마후 친환경 이액형 경화재로 접착되고 금속재질은 용접처리 되고
지지장식(28)은 도 7과 도 18과같이 볼트와 낫트형으로 구성되며 낫트는 원통관 내부로 나사 홈이 설치되어 원형판 머리가 부착되고 볼트는 일반 볼트식 원형 마루보에 외부 주위가 나사홈이 설치되어 낫트와 같은 원형판 머리가 부착되는 형태로 구성되어 복층 집광판 전후면층 으로 낫트가 삽입될수 있는 지름크기의 관통구멍을 설치 공기층으로 관통구멍이 있는 지지판(6)과 전후면층 외부로 연질층(8)을 부착시켜 낫트와 볼트를 전후면층 외부에서 체결 전후면층을 밀착시켜 설치되고
복층 집광판(99)을 투명재질과 유리로 제작시 매끄러운 표면을 거칠게 연마후 측4면 태두리 마감은 도 3과같이 금형이나 성형틀을 이용 연질이나 경질의 이액형 경화재나 수지가 사용되고 또한 우래탄 발포등을 이용 연질이나 경질 원액을 주입시켜 굳혀서 마감하거나 도 5와같이 별도의 지지대를 이용 접착제로 접착후 탄력 마감재(85)를 측4면 전체로 끼워 압착 마감되고
각 복층 집광판(99) 과의 공기나 물순환은 도 4와같이 복층 집광판 코너 4면을 경사지게 설치 코너 경사각(35) 으로 공기나 물순환 순환관(21)을 설치 각 연결구 (22~23~24)로 서로 연결 외부로 캡을 끼워 마감되는 방법과
양면뚜껑 순환구(26)를 도 8과 9와같이 양쪽 복층 집광판 으로 설치 공기나 물이 복층집광판(99)과 서로 소통되는 방법과
복층 집광판(99) 전면이나 후면 중앙 상하 외곽으로 도 15와 같이 후면 순환관(83)을 설치 공기나 물이 순환되며
순환관(21)은 배관으로 복층 집광판 내부로 공기나 물을 출입시키며 복층 집광판과 같은 재질이나 다른재질이 사용되며 연질이나 경질 금속 합성수지로 이루어지고
양면뚜껑 순환구(26)는 도 9와같이 2개의 병뚜껑을 붙여 벌려놓은 형태로 뚜껑 위 내부가 서로 관통 연결되어 뚜껑 원통관 외부 주위 홈통으로 원형 박킹이 설치되어
복층 집광판 후면층(30)이 외부로 돌출된 전면층(10) 에서 아래 내부 물층위 까지 원통배관식 홀구멍이 설치되어 내부 물층과 연결되며 양쪽 복층 집광판 홀구멍 내로 양면뚜껑 순환구를 삽입하면 한쪽 복층 집광판 내부 물이 양면뚜껑 순환구를 통해 반대쪽 복층 집광판 내부로 순환되며
후면 순환관(83)은 도 16과같이 복층 집광판(99) 후면층(30) 중앙 상하로 관통구멍을 설치 관통구멍 으로 배관형 외부 나사홈이 형성된 볼트에 중앙이 관통된 원형 머리가 부착되어 후면층 내부와 박킹으로 밀착되어 설치된 후면층 외부로 ㄱ자형 내부 나사홈이 있는 배관이 박킹(5)을 사이에 두고 볼트와 체결되어 상하 복층 집광판 ㄱ자배관이 만나는 지점 외부 테두리가 오목하게 덜어간 곳으로 실리콘이나 박킹을 설치 외부로 밴드로 체워 마감되어 하에서 위 복층 집광판 으로 물이 순환되며
순환부(C) 개폐 조절기(66)는 기류의 순환을 차단하거나 조절순환 시키거나 순환시키는 기기로 닫혀지면 공기가 새지않고 밀폐되는 방식으로 구성되며 내외기가 순환되는 곳으로 설치된다
도 17과같이 전면벽(111) 외기유입구(63)와 내기배출관(96)내 개폐 조절기(66)를 열고 복층 집광판(99)과 전후 공간층(60) 에서 태양빛에 의해 생산되는 열기와 실내로 유입되는 빛에의한 열기를 내기배출관 으로 대류차 원리로 순환시켜 실내 냉방과 복층 집광판의 온수생산이 감소되고
또한 외기 유입구(63)와 내기배출관(96)내 개폐 조절기(66)를 닫고 내기유입구(65) 와 복층 집광판(99) 전후 공간층(60) 개폐 조절기를 열면 공간층 내에서 생산되는 열기가 상승하여 실내로 순환되어 실내 아래 낮은온도의 내기가 내기 유입구와 지붕재 공간층 으로 대류차 원리로 순환되어 실내 난방과 복층 집광판 에서 온수가 생산되고
또한 외기 유입구(63)와 내기 유입구(65)와 내기배출관(96)과 지붕내 공간층 위 각각의 개폐 조절기(66)를 닫으면 지붕재 공간층(60) 내부로 태양빛에 의한 고온의 복사열이 축열되고 축열된 복사열이 복층 집광판 전후면과 물층(20) 으로 전도되어 고온수 생산이 증가되고 또한 내외기를 각 개폐조절기(66)로 조절 순환시켜 온열수 생산을 가감하고
도 17과같이 건물(A) 지붕재 투명 보호층(50)을 설치하지 않고 시설(B) 복층 집광판(99)을 지붕 외장재로 설치 실리콘이나 박킹을 이용 틈새를 마감 빗물유입을 차단하여 온수를 생산하고
또한 복층 집광판(99) 전면층(10)과 공기층(20)과 후면층(30)의 3개층중 전면층 (10) 재질을 자외선 투과재질을 설치 복층 집광판 내부로 천천히 느리게 순환되는 물층으로 자외선을 투과시켜 물속 유해균을 멸균시켜 식용수를 생산하고
도 17과같이 복층 집광판(99) 전면으로 공간층(60)과 투명 보호층만 설치하거나 후면으로 공간층과 실내 보호층만 설치하거나 복층 집광판만 단독으로 설치 복층 집광판내 내부물층이 실내로의 유효열기를 흡수하여 실내 냉방과 온열수를 생산하고
복층 집광판(99) 내부로 순환되는 물이나 공기는 정화시설을 이용 정화후 순환 되며 불투명 금속 재질일 때는 불순물 부착이 방지되는 니켈 주석 구리의 합금을 사용하고 투명재질이나 유리는 내부로 불순물 부착을 차단하는 코팅재층이 설치되는 복층 집광판을 이용한 태양에너지 활용방법.
Prior to the description of the multi-layer light collecting plate 99 of the present invention, the experimental results will be described.

500

7 = 0.25㎡) Duplex Condensing Plate and Bronze Color Double Sided Translucent Glass (500

500

15 = 0.25㎡) and double-sided transparent glass (500

500

15 = 0.25㎡) three types of two-layer condensing plates. The inner material layer thickness is about 5mm and water is injected into the water at 13 ℃. After irradiating the sunlight at the ambient temperature of 14 ℃ for about 90 minutes, the water is measured. The 34-degree bronze translucent 39-degree black copper plate produces about 1.25 liters of hot water at 46 degrees, respectively, and about 5 liters of hot water is produced per 1m 2.

500

7 = 0.25㎡) The surface of the multilayer collector plate of the standard was installed using 2 sheets of black, and 3 mm glass transparent material on one side was spaced 15 millimeters apart. The water temperature of the existing black copper plate is 43 degrees, and the space layer 60 is installed on the multi-layer light collecting plate using transparent glass, and the temperature difference is 8 degrees. The result of the difference was found through experiments.
The following describes the attached drawings
1 is a cross-sectional view of each embodiment provided with a multi-layer light collecting plate using the sunlight of the present invention and a space layer before and after
2 is a plan view of a multilayer light collecting plate made of a transparent material;
3 is a cross-sectional view taken along line E of FIG.
4 is a plan view of an embodiment of a transparent multilayer light collecting plate having a rectangular shape;
FIG. 5 is an exploded view and an exploded view of the edges of the A-sided multi-layered light collecting plate and the elastic finish of FIG. 4, and FIG. 6 is a cross-sectional detail of the four-sided connector of the C-sided multi-layered light collecting plate of FIG. 4.
7 is a cross-sectional exploded view and assembly view of the D support decoration of FIG.
8 is a plan view, side cross-sectional view, and elevation view of an opaque multilayer collector plate;
9 is a cross-sectional view of the B lid circulation port of Figure 8
10 is a cross-sectional view of the opaque multilayer panel and the front layer concave-convex shape
11 is a plan view of a concave front layer opaque multilayer collector plate;
FIG. 12 is a cross-sectional view of a multilayer light collector plate having a transparent protective layer and a space layer formed on the concave front surface of FIG. 11G; FIG.
13 is a plan view, side cross-sectional view, and elevation view of a multilayer light collecting plate having a large area;
14 is a plan view and a cross-sectional view of the scaffold on the ground
15 is a plan view and a cross-sectional view of a transparent multilayer light collecting plate installed with an inclined water circulation support and a rear circulation pipe;
16 is a cross-sectional view of the rear circulation tube of FIG. 15H;
17 is a cross-sectional view of a warmth and hot water production example using a multi-layer light collecting plate and a front and rear space layer installed on the roof of the present invention building.
18 is a large support cross-sectional exploded view
Next, the drawings will be described in more detail.
As shown in FIG. 17, the air discharge pipe 96 is installed to discharge the air on the building roof 110, and then the transparent transparent protective layer 50, the space layer 60, and the indoor protective layer 70 are installed in a south-facing inclined roof. And the lower front wall 111, the multi-storey space layer and the upper space layer is connected to the building (A) is installed outside the air inlet 63 and the internal air inlet 65 under the front wall;
A plurality of multi-layer condenser plates 99 for producing hot water are installed between the roof 110 and the space layer 60, and the upper portion of the multi-layer condenser plates is connected to the collection pipe 91 so that the collection pipe and the hot water storage room 69 are located above the discharge pipe 90. Connected to the inlet pipe 80 from the bottom of the hot water storage room to the supply pipe (81) and connected to the inlet pipe from the lower duplex collecting plate (2) and the hot water production facility (B) where hot water is produced by sunlight ;
The open / close controller 66 is installed to the outside air inlet 63 and the air inlet 65 under the front wall 111, and the open / close controller 66 is installed inside the front / rear space layer 60 and the inside of the bet discharge tube 96 above the multilayer condenser. Multi-layered light collecting plate is installed, including the internal and external air circulation portion (C) that the internal and external air flows into the internal and external air inlet-side opening and closing controller, and the inside and outside air is controlled and circulated to the indoor or indoor exhaust pipe by the respective opening and closing regulators above. By using solar energy
Transparent material to be installed as a building (A) roof 110 is a material that does not transmit ultraviolet light and two materials that are transmitted are installed, and the bet exhaust pipe 96 is installed at a height that can use a convection vehicle, so that the interior space of the roofing material ( 60) and the room warmer is discharged
Facility (B) The double-layered light collecting plate 99 is formed in the shape of a triangular quadrilateral circular model on the front and back planes, and has three sections of the front layer 10, the air layer 20, and the rear layer 30. to
When the side is finished, the side between the front and rear layers when the transparent material as shown in Figures 4 and 5
Support plate (6) is installed on the entire outer surface of the support plate upper and lower surfaces, front layer (10) and rear layer (30)
Install the soft layer (8) on the outer surface Insert the elastic finish material (85) on the four edges
Circulation pipe 21 is installed to close and close the air or water into the inner air layer, and the circulation pipe is fastened to each connector 22 to 23 to 24 so that the multi-layer light collecting plate is connected to each other to circulate the hot water produced in the multi-layer light collecting plate. Being
Facility (B) The multi-layer light collecting plate 99 is made of a transparent material and an opaque material, and a transparent material is made of two materials, a UV blocking material and a transparent material. Material and non-conductive material are used, and it is composed of metal artificial stone natural stone and PVC synthetic resin insulation
The multi-layer light collecting plate 99 uses the same material for the front layer, the rear layer, and the four sides of the side, or different materials are used.
The multi-layer condenser plate 99 has a front concave convex convex corrugation shape with a front and rear layer shape as shown in FIG.
The multi-layer light collecting plate 99, as shown in Figures 14, 15 and 18, the support 27 or support 28 to support the expansion of the air by the sunlight or the expansion of the water and external pressure when injecting air or water into the air layer before and after Being installed with a cotton layer
The support 27 is a double layered light collecting plate 99 air layer as shown in FIG. 15, or is attached to the inner surface of the front layer and the rear layer. Welded
The support decoration 28 is composed of a bolt and a nat type as shown in Figs. 7 and 18, the nat is a screw groove is installed into the cylindrical tube is attached to the head of the circular plate, the bolt is a general bolt-shaped circular floor beam, the outer peripheral screw groove It is installed in such a shape that a circular plate head, such as a nat, is attached, and a through-hole having a diameter size through which the nat can be inserted into the front and rear layers of the multi-layer light collecting plate, and the support plate 6 having the through holes as the air layer and the soft layer outside the front and rear layers. 8) Attach the nut and bolt outside the front and back layer by attaching it.
When the multilayer light collecting plate 99 is made of transparent material and glass, the surface of the four-sided edge after polishing the smooth surface is roughened using a mold or a mold as shown in Fig. 3, and a soft or hard two-component hardening material or resin is used. Inject the soft or hard undiluted solution to harden the finish or after bonding with a separate support using an adhesive as shown in Figure 5, the elastic finish (85) by pressing the four sides to the end
Air or water circulation with each of the multi-layer light collecting plate 99 is installed to incline the four sides of the multi-layer light collecting plate corner as shown in Fig. 4 Install the air or water circulation circulation pipe 21 at the corner inclination angle 35 each connector (22 to 23 to 24) With the cap and the outside
The double-sided lid circulation port 26 is installed on both duplex light collecting plates as shown in FIGS. 8 and 9.
Air or water is circulated by installing the rear circulation pipe 83 as shown in FIG. 15 to the upper or lower center of the multi-layer light collecting plate 99 or the rear.
Circulation pipe 21 is a pipe to the air or water into the inside of the multi-layer light collecting plate, and the same material or other materials are used, such as a multi-layer light collecting plate made of soft or hard metal synthetic resin
The double-sided lid circulation port 26 is formed by attaching the two bottle caps open as shown in FIG.
Cylindrical piping hole is installed from the front layer 10 where the multi-layered light collecting plate rear layer 30 protrudes outwards to the lower inner water layer and is connected to the inner water layer. The water inside the duplex light collecting plate is circulated through the double-sided lid circulation port into the opposite duplex light collecting plate.
As shown in FIG. 16, the rear circulation tube 83 has a circular head with a center penetrated to a bolt having a pipe-type external thread groove formed as a through hole. The pipe with the 'A' internal screw groove is fastened to the bolt with the boxing (5) in between the floor and the back layer installed close to the box. Silicone or boxing is installed to finish the band to the outside and water is circulated to the upper double layer light collecting plate from below.
Circulation part (C) opening and closing controller 66 is configured in such a way that air is not leaked and closed when closed by a device that blocks, regulates, or circulates the circulation of airflow, and is installed as a place where internal and external air is circulated.
As shown in FIG. 17, the front and rear air outlets 63 and the internal / exhaust regulator 66 in the internal air discharge pipe 96 are opened, and heat generated by sunlight from the double-layer light collecting plate 99 and the front and rear space layers 60 and indoors. By circulating the heat caused by the light flowing into the air-convection pipe principle on the convection vehicle principle, the cooling of the room and the production of hot water of the multi-layer condenser are reduced.
In addition, when the open / close controller 66 in the outside air inlet 63 and the air discharge pipe 96 is closed and the air inlet 65 and the double-layer light collecting plate 99 are opened and closed, the open / close regulator is heated to generate heat in the space layer. The low temperature bet under the room is circulated on the inlet and the roof space layer on the convection principle, so that hot water is produced from the indoor heating and the double-layered light collecting plate.
In addition, when the air inlet 63, the air inlet 65, the air discharge pipe 96, and each opening and closing controller 66 on the roof layer are closed, high-temperature radiant heat of the sun is accumulated inside the roof layer 60. And the accumulated heat is conducted to the front and rear surfaces of the multi-layered light collecting plate and the water layer 20 to increase the production of hot water, and to regulate and circulate the internal and external air to each opening / closing controller 66 to add and subtract hot water production.
As shown in FIG. 17, the building (A) roofing material is installed without installing the transparent protective layer 50, and the facility (B) double-layered light collecting plate 99 is installed as a roof covering material.
In addition, among the three layers of the multi-layer light collecting plate 99, the front layer 10, the air layer 20, and the rear layer 30, the ultraviolet light transmitting material is installed on the front layer 10 material. Permeate to sterilize harmful bacteria in water to produce drinking water
As shown in FIG. 17, only the spatial layer 60 and the transparent protective layer are installed in the front of the multi-layer light collecting plate 99, or only the space layer and the indoor protective layer are installed in the rear, or only the multilayer light collecting plate is installed alone. Absorbs heat and produces indoor cooling and hot water
Water or air circulated inside the multi-layer light collecting plate 99 is circulated after purification using a purification facility. When the material is opaque metal, an alloy of nickel tin copper is used to prevent the adhesion of impurities. Transparent materials or glass blocks the adhesion of impurities to the inside. Solar energy utilization method using a multi-layer light collecting plate is installed coating layer to.

1 is a cross-sectional view of each embodiment provided with a multi-layer light collecting plate using the present invention and the space layer before and after.
2 is a plan view of a multilayer light collecting plate made of a transparent material.
3 is a cross-sectional view of FIG. 2E.
4 is a plan view of an embodiment of a transparent multilayer light collecting plate having a rectangular shape.
* Figure 5 is an exploded view and assembly view of the A-sided double-layered light collecting plate side surface and elastic finish of Figure 4;
* Figure 6 is a cross-sectional detail view of the four-side C-layer double-layer light collecting plate four-sided connector of FIG.
* Figure 7 is a cross-sectional exploded view and assembly view of D support decoration of FIG.
8 is an opaque duplex collector plate top view and side cross-sectional view and elevation view.
9 is a cross-sectional view of the B lid circulation port of FIG.
10 is a planar cross-sectional view of a multilayer condenser plate surface amber and front-side concave-convex shape.
11 is a plan view of a concave front layer opaque multilayer light collecting plate.
Fig. 12 is a sectional view of a multilayer light collecting plate provided with a transparent layer and a space layer on the concave front surface of Fig. 11G.
13 is a plan view, side cross-sectional view, and elevation view of a multilayer light collecting plate made of a large area;
14 is a plan view and a cross-sectional view of the scaffold on the ground.
* Fig. 15 is a cross-sectional view of a transparent multi-layer light collecting plate and a sloped water circulation support and a rear circulation pipe are installed.
Figure 16 is a cross sectional view of the rear circulation tube of Figure 15 H.
* Figure 17 is a cross-sectional view of the embodiment of the warmth and hot water production using the multi-layer light collecting plate and the front and rear space layer installed on the roof of the present invention building.
18 is an exploded view of a large support decoration section.
(Explanation of symbols for the main parts of the drawing)
2; Bolt 3; Nat
5; Boxing 6; Support plate
7; Band 8; Soft layer
9; Sun 10; Front layer
11; Front 20; Water layer ~ air layer
21; Circulation tube 22; 1-sided connector
23; Two-sided connector 24; 4-sided connector
25; Water circulation direction 26; Lid Circulation Hole
27; Support 28; Support
29; Circulating ball 30; Back layer
31; Rear 33; 2 side cap
34; Four-sided cap 35; Corner slope
50; Transparent protective layer 55; Scaffolding
60; Space layer 61; Fresh air inlet
62; Inflow 63; Outside air inlet
64; Warmth inlet 65; Bet Inlet
66; Regulator 69; Hot water storage room
70; Indoor protective layer 77; air blower
80; Inlet tube 81; Supply pipe
82; Insulation 83; Rear circulation tube
84; Finish 85; Elastic Finish
88; Finishing layer 89; support fixture
90; Discharge tube 91; Water pipe
96; Bet discharge line 97; Unevenness
98; Amber 99; Duplex Condenser
100; Surface layer 101; surface
110; Roof 111; Front wall
112; Rear wall 200; inside
A; Adhesive trimmed cross section B; Lid circulation section
C; Water circulation connector section D; Supporting Section
E; Molded border finish section G; Concave Duplex Light Collector Side Section
H; Rear circulation tube cross section

Claims (25)

The air exhaust pipe 96 for discharging the bet on the building roof 110 is installed in the south facing slope roof in the order of the transparent material transparent protective layer 50, the space layer 60 and the indoor protective layer 70 in order. (111) a building (A) having a multi-storey space layer and an upper space layer connected to the outside air inlet 63 and the internal air inlet 65 under the front wall; A plurality of multi-layer condenser plates 99 for producing hot water are installed between the roof 110 and the space layer 60, and the upper portion of the multi-layer condenser plates is connected to the collection pipe 91 so that the collection pipe and the hot water storage room 69 are located above the discharge pipe 90. Connected to the inlet pipe 80 from the bottom of the hot water storage room to the supply pipe (81) and connected to the inlet pipe from the lower duplex collecting plate (2) and the hot water production facility (B) where hot water is produced by sunlight ; The open / close controller 66 is installed to the outside air inlet 63 and the air inlet 65 under the front wall 111, and the open / close controller 66 is installed inside the front / rear space layer 60 and the inside of the bet discharge tube 96 above the multilayer condenser. Multi-layered light collecting plate is installed, including the internal and external air circulation portion (C) that the internal and external air flows into the internal and external air inlet-side opening and closing controller, and the inside and outside air is controlled and circulated to the indoor or indoor exhaust pipe by the respective opening and closing regulators above. How to use solar energy using The method of claim 1 Transparent material to be installed as a building (A) roof 110 is a material that does not transmit ultraviolet light and two materials that are transmitted are installed, and the bet exhaust pipe 96 is installed at a height that can use a convection vehicle, so that the interior space of the roofing material ( 60) and the solar energy utilization method using the multi-layer light collecting plate that emits indoor warmer        The method of claim 1       Facility (B) The double-layered light collecting plate 99 is formed in the shape of a triangular quadrilateral circular model on the front and back planes, and has three sections of the front layer 10, the air layer 20, and the rear layer 30. When the side is finished and the transparent material is a square, the support plate (6) is installed as a whole of the outer side surface between the front and rear layers when the four sides of the support layer upper and lower layers and the front layer (10) and the rear layer (30) to the outer surface of the soft layer (8) The resilient finish material (85) is installed on the four sides and the back and front layers are in close contact with the inner air layer is completed, the circulation pipe 21 is installed in and out of the air or water, the circulation pipe is connected to each connector (22 ~ 23 ~ 24) and Solar energy utilization method using multi-layer condensing plate which is connected to each other and the hot condensation plate is connected The method of claim 1       Facility (B) The material of the double-layered light collecting plate is made of transparent material and opaque material, and the transparent material is made of two kinds of materials such as UV blocking material and transparent material. Method of using solar energy using multi-layer light collecting plate composed of natural artificial stone and PVC synthetic resin insulation        The method of claim 4       The multi-layer light collecting plate 99 uses solar energy using a double-layer light collecting plate using the same material for the front layer, the rear layer, and the four sides of the side, or using different materials.        The method of claim 3       The front and rear layers of the multilayer condenser 99 are planar concave convex corrugations, and the front surface is composed of either uneven or amber concave, and the opaque material is the front layer 10 or the surface of which is black matte. Way The method of claim 1 Multi-layered light collecting plate (99) The sun using a double-layered light collecting plate in which air support by the sunlight or water support and external pressure (28) are installed in the front and rear layers when air or water is injected into the air layer. How to use energy        The method of claim 7,       The support 27 is a double layered light collecting plate 99 air layer attached to or adhered to the inner surface of the front layer and the rear layer. The transparent glass is polished to a smooth front and rear surface and the surface of the support is bonded with an eco-friendly two-part hardener and the metal material is welded. Solar energy utilization method using light collecting plate        The method of claim 7,       The support decoration (28) is composed of a bolt and a nat type, the nat is a screw groove is installed inside the cylindrical tube is attached to the head of the round plate, the bolt is a circular plate, such as nat, with a screw groove is installed around the outside in a general bolt-shaped round floor beam It consists of a head-attached form and installs through-holes of diameter size through which the nat can be inserted into the front and rear layers of the multi-layer light collecting plate. Fastening bolts outside the front and back layers The solar energy utilization method using the multi-layer light collecting plate installed by bringing the front and back layers into close contact        The method of claim 1        When manufacturing the multi-layer light collecting plate 99 with transparent material and glass, the side four-sided edge finish is hardened by injecting a soft or hard undiluted solution using a soft or hard two-component hardening material or resin using a mold or a molding mold, and using uratan foaming. How to use solar energy using a multi-layer light collecting plate that is finished or pressed and bonded with adhesive using an adhesive, and then the elastic finishing material (85) is pressed into the entire four sides.        The method of claim 1        Air or water circulation with each of the multi-layered light collecting plate 99 is inclined to the four sides of the multi-layered light collecting plate, and the air or water circulation circulation pipe 21 is installed at each side of the inclined angle 35. How to close the cap with the outside of the connection The double-sided lid circulation port 26 is installed on both sides of the double light collecting plate, and the air or water communicates with the double light collecting plate 99. Double-sided light collecting plate (99) Install the rear circulation pipe (83) in the upper and lower center of the front or rear center Solar energy utilization method using the double-layered light collecting plate circulating air or water        The method of claim 11       Circulation pipe 21 is a pipe and the air or water into the inside of the multi-layer light collecting plate, the same material or other materials are used, such as a multi-layer light collecting plate, and the solar energy utilization method using a multi-layer light collecting plate made of soft or hard metal synthetic resin.        The method of claim 11       The double-sided lid circulation port 26 is formed by attaching two bottle caps, and the inner side of the lid penetrates each other, and a circular boxing is installed in the outer circumference of the lid tube. Cylindrical pipe-type hole holes are installed from the front layer 10 where the rear layer 30 protrudes outward to the water layer below the inside, and are connected to the inner water layer. Method of utilizing solar energy using the double-layered light collecting plate in which the water inside is circulated inside the double-sided light collecting plate through the double-sided lid circulation port        The method of claim 11       The rear circulation pipe 83 has a circular headboard through which the center penetrates into the tubular bolt formed with a threaded groove to the outside through the upper and lower centers of the multi-layered light collecting plate 99 and the rear layer 30. Installed on the outer side of the back layer closely, the pipe with the 'A' internal thread groove is fastened to the bolt and the upper and lower duplex light collecting plate, respectively with the boxing (5) in between, and the silicon or the boxing is installed at the point where the 'A' pipe passes. How to use solar energy using multi-layer light collecting plate where water is circulated to upper double-layer light collecting plate by finishing band outside        The method of claim 1       Circulation part (C) opening and closing controller 66 is a device that blocks, regulates, or circulates the circulation of airflow, and is closed with air leaking.        The method of claim 1        Opening and closing regulator 66 in front wall 111, outside air inlet 63 and air outlet tube 96, and light entering the interior of the duplex light collecting plate 99 and the front and rear space layers 60 by sunlight and the light introduced into the room. Method of utilizing solar energy using double layer light collecting plate that circulates heat by discharge pipe on convection principle and reduces indoor cooling and hot water production of double layer light collecting plate        The method of claim 1       Opening and closing the opening and closing controller 66 in the outside air inlet 63 and the air discharge pipe 96 and opening and closing the space layer 60 before and after the inside of the inside air inlet 65 and the multi-layer light collecting plate 99 increases the heat produced in the space layer. Method of utilizing solar energy using double layer light collecting plate where hot water is produced in indoor heating and double layer light collecting plate by circulation inside the room and low temperature bet is circulated under the inlet and roof space layer.        The method of claim 1        When the air inlet 63, the air inlet 65, the air discharge pipe 96, and each of the opening and closing controllers 66 on the roof layer are closed, high-temperature radiant heat by sunlight is accumulated in the roofing layer 60. The accumulated heat of radiated heat is conducted to the front and rear surfaces of the multi-layer light collecting plate and the inner water layer 20 to increase the production of high-temperature water and to control and circulate the internal and external air to each opening / closing controller 66, thereby utilizing solar energy using a multi-layer light collecting plate to add or subtract hot water production.        The method of claim 1       Building (A) Roofing material Installation of building (B) Duplex light collecting plate (99) as roof covering material without installing transparent protective layer (50) Finishing gap using silicon or boxing Using double layer light collecting plate to produce hot water by blocking rainwater inflow How to use solar energy        The method of claim 19      Multi-layered light collecting plate (99) Among the three layers of the front layer (10), air layer (20) and rear layer (30), the material of the front layer (10) is installed with UV-transmitting material. Solar energy utilization using multi-layer condenser        The method of claim 1        Install only the spatial layer 60 and the transparent protective layer in front of the multi-layer light collecting plate 99, or install only the space layer and the indoor protective layer in the rear, or install only the multi-layer light collecting plate alone The water layer inside the double-layer light collecting plate absorbs the effective heat to the room Solar energy utilization method using multi-layer light collecting plate that produces cooling and hot water        The method of claim 1       Water or air circulated inside the multi-layer light collecting plate 99 is circulated after purification using a purification facility, and an alloy of nickel tin copper which prevents adhesion of impurities when an opaque metal material is used, and transparent materials or glass block impurities from being adhered to the inside. Solar energy utilization method using multi-layer light collecting plate installed coating layer delete delete delete

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