JPS59205550A - Energy-saving heat source, solar energy collector, and direct heat conduction therefrom from upper part to lower part directly and rapidly - Google Patents
Energy-saving heat source, solar energy collector, and direct heat conduction therefrom from upper part to lower part directly and rapidlyInfo
- Publication number
- JPS59205550A JPS59205550A JP58080204A JP8020483A JPS59205550A JP S59205550 A JPS59205550 A JP S59205550A JP 58080204 A JP58080204 A JP 58080204A JP 8020483 A JP8020483 A JP 8020483A JP S59205550 A JPS59205550 A JP S59205550A
- Authority
- JP
- Japan
- Prior art keywords
- heat
- metal
- materials
- solar
- collecting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S60/00—Arrangements for storing heat collected by solar heat collectors
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
- F24S60/00—Arrangements for storing heat collected by solar heat collectors
- F24S60/30—Arrangements for storing heat collected by solar heat collectors storing heat in liquids
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
Abstract
Description
【発明の詳細な説明】
太陽熱光線の照射する建造物、建築物等の加熱された屋
上表面、家屋の屋根面、壁面等の上部位表面の熱を、そ
のまゝ直接、速やかに、下方部位の床下や、縁下等へ送
りたい。勿論、電気も動力も何も使わず、いとも静かに
、粛々と送りたい。[Detailed Description of the Invention] Heat from the upper surfaces of buildings, heated rooftop surfaces of buildings, roofs and walls of houses, etc., which are irradiated with solar heat rays, is directly and immediately transmitted to the lower parts. I want to send it under the floor or under the rim. Of course, I want to send it very quietly and solemnly, without using electricity or power.
以上実に理想的なものであるが、パラボラ等の太陽熱光
線の集中方式であれば、瞬間的に二千度から三千度位の
高熱を発生出来得るが、普通金属表面等に於ける太陽熱
光線の照射温度は、三十度から七十度位を基範としてい
る。この太陽熱温水器等の静かなる熱温水、熱空気等の
自然熱循環を思考し施行するとき、温つた空気や温水は
、どうしても、上方へと上つて停滞し、その熱を下方へ
ともってくることは、如何にしても、不可能である。即
ち自然界に於ては、総て温つたもの、熱されたものは、
上方へと上つてゆく性質があり、下方へとは戻つてこな
い。これが自然循環の摂理なのだ。当然のことではある
が、これでは実に困つたものである。何故かと云へば、
屋根表面の熱や壁面の熱を、下方の床下や縁下へと持っ
てくることが出来ないからである。勿論、電気や動力や
水圧を使わずにである。実に困難な問題である。The above is truly ideal, but if the solar heat rays are concentrated using a parabola, it can instantaneously generate high heat of about 2,000 to 3,000 degrees, but solar heat rays on a normal metal surface, etc. The standard irradiation temperature is between 30 and 70 degrees. When considering and implementing the natural thermal circulation of quiet hot water and hot air such as from solar water heaters, the warm air and hot water inevitably rise upwards, stagnate, and bring their heat downwards. That is impossible no matter what. In other words, in the natural world, everything that is warm or heated is
It has the property of rising upwards and does not return downwards. This is the providence of natural circulation. Of course, this is a real problem. For some reason,
This is because heat from the roof surface and wall surfaces cannot be brought below to the floor or veranda. Of course, this is done without using electricity, power, or water pressure. This is a truly difficult problem.
当発明は、かゝる難事を見事に解決した。それは熱の自
然循環のみ考へていたから如何なかつた。The present invention successfully solved this difficult problem. This was possible because only the natural circulation of heat was taken into account.
熱の性質を種々考察するとき、自然循環のみでなく、熱
の伝導もあることだ。物の理、即ちこの熱伝導が、この
難事を解決したことだ。熱伝導を巧に利用すれば、上下
、左右、あらゆる方向へ伝へることが出来る。熱伝導の
良き金属材質を使用し、途中熱を逃がさぬ様にすれば良
い。熱伝導の時間も速い。また静かである。難点はその
到達距離が、短いことだ。然しちょっとした銅棒、銅管
位でも壁面と床下や縁下の距離位は、簡単に伝達でき得
る。施行場所により、その形状色彩等は適宜に合わせて
作れば良い。日本古来の美しく古風な建築も、近代的な
ビルも、一般住宅も、皆その建築美を汚さず、この太陽
熱伝導送達の蓄熱エネルギー住宅やビルに変化さすこと
が出来得る。何と楽しく素晴らしいことではなかろうか
!!。When considering various properties of heat, it is important to note that there is not only natural circulation but also heat conduction. The principle of matter, namely heat conduction, solved this difficult problem. If heat conduction is used skillfully, it can be transmitted in all directions, up and down, left and right. It is best to use a metal material with good heat conductivity to prevent heat from escaping during the process. Heat conduction time is also fast. It's also quiet. The problem is that the distance it can reach is short. However, even a small copper rod or pipe can easily convey the distance between the wall and the floor or edge. Depending on the place of implementation, the shape and color may be adjusted as appropriate. Beautiful old-fashioned Japanese architecture, modern buildings, and ordinary houses can all be transformed into houses and buildings that use solar heat conduction to deliver heat storage energy without compromising their architectural beauty. How fun and wonderful! ! .
図面第1図は、省エネ熱源、太陽熱集熱器及びその他熱
源機器類等の熱を、上方部位から、下方の側面透視図で
ある。1は本体、2はガラス板蓋3は温熱密閉箱、4は
金属性の太陽熱集熱板、5は接続端子、6は熱伝導金属
管、7は接続端子8は金属放熱板、9は水温水、10は
蓄熱温水自然循環貯蔵庫、11は注入口、12は太陽熱
光線の透過し易き蓄熱性の砕石資材、13は蓄熱性の砕
石資材、若くわそれに不燃性の炭素粒を混合した、軽重
量のモルタル等の、14は蓄熱性の断熱資材、15は断
熱包装外皮。
図面第2図は、省エネ熱源、太陽熱集熱器及びその他熱
源機器類等の熱を、上方部位から、下方部位へと直接的
に速やかに伝へ送る熱伝導の方法の上斜面透視図である
。1は本体、2はガラス板蓋、3は温熱密閉箱、4は金
属性の太陽熱集熱板、5は接続端子、6は熱伝導金属管
、7は接続端子、8は金属放熱板、9は水温水、10は
蓄熱温水自然循環貯蔵庫、11は注入口、12は太陽熱
光線の透過し易き蓄熱性の砕石資材、13は蓄熱性の砕
石資材、若くわそれに不燃性の炭素粒を混合した、軽重
量のモルタル等、14は蓄熱性の断熱資材、15は断熱
包装外皮。
特許出願人 小野作■FIG. 1 is a side perspective view of energy-saving heat sources, solar heat collectors, and other heat source equipment, etc., viewed from above and below. 1 is the main body, 2 is a glass plate lid 3 is a heat sealed box, 4 is a metallic solar heat collecting plate, 5 is a connection terminal, 6 is a heat conductive metal tube, 7 is a connection terminal 8 is a metal heat sink, 9 is a water temperature Water, 10 is a heat storage hot water natural circulation storage, 11 is an injection port, 12 is a heat storage crushed stone material that is easily penetrated by solar rays, 13 is a heat storage crushed stone material, young chicken and non-flammable carbon particles are mixed. 14 is a heat-storage insulating material such as light weight mortar, and 15 is a heat-insulating packaging outer shell. Figure 2 is an upper perspective perspective view of a heat conduction method for directly and quickly transmitting heat from energy-saving heat sources, solar collectors, and other heat source equipment from upper parts to lower parts. . 1 is the main body, 2 is a glass plate lid, 3 is a heat sealed box, 4 is a metallic solar heat collecting plate, 5 is a connection terminal, 6 is a heat conductive metal tube, 7 is a connection terminal, 8 is a metal heat sink, 9 10 is hot water, 10 is a heat storage hot water natural circulation storage, 11 is an injection port, 12 is a heat storage crushed stone material that is easily penetrated by solar rays, 13 is a heat storage crushed stone material, and non-combustible carbon grains are mixed with young seaweed. 14 is a heat-storage insulating material, and 15 is a heat-insulating packaging outer shell. Patent applicant: Onosaku ■
Claims (1)
密閉箱内に建築等の屋根材、壁材等に適する様に模した
、金属性の集熱板、若くわ集熱金網、金属線、金属細片
等の各種形状を夫々個別に内蔵し、それ等の表面部には
、色彩色豊かな塗装及び、太陽熱光線の透過し易き蓄熱
性の砕石資材やモルタル等を付着し、その裏面部等には
、蓄熱性の砕石と不燃性の炭素粒等を混合した、軽重量
のモルタル等を練固付着せしめ、それら金属性集熱板、
集熱金網、金属線、金属細片等には、熱伝導の良き金属
性の棒状、管状、板状板状細片、等の各種形状材質を夫
々の集熱器に合せて適宜に接続し、それらの外表面等を
、熱を逃がさぬ断熱不燃の蓄熱材等を以って外包し、そ
の熱伝導金属資材の下部末端には、金属放熱板等を接続
して目的を達成せしむる、省エネ熱源、太陽熱集熱器、
及びその他熱源機器類等の熱を、上方部位から下方部位
へと、直接的に速やかに伝へ送る熱伝導の方法。Inside a heat-sealed box whose surface is covered with glass, etc. through which solar heat rays can easily pass, metal heat-collecting plates, young wire heat-collecting wire mesh, and metal heat-collecting plates imitating materials suitable for roofing materials, wall materials, etc. for buildings, etc. Various shapes such as wires and metal strips are individually built in, and their surfaces are coated with richly colored paint and heat-storing crushed stone materials and mortar that are easily penetrated by solar heat rays. Light-weight mortar, etc., which is a mixture of heat-storing crushed stone and non-combustible carbon grains, etc., is kneaded and adhered to the back side of the metal heat collecting plate, etc.
For heat collecting wire mesh, metal wires, metal strips, etc., connect materials with various shapes such as metal rods, tubes, and plate strips with good heat conductivity as appropriate to suit each heat collector. The outer surfaces of these materials are wrapped with an insulating, non-combustible heat storage material that prevents heat from escaping, and a metal heat sink is connected to the lower end of the heat-conducting metal material to achieve the purpose. , energy saving heat source, solar thermal collector,
A heat conduction method that directly and quickly transmits heat from other heat source equipment, etc., from an upper part to a lower part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58080204A JPS59205550A (en) | 1983-05-10 | 1983-05-10 | Energy-saving heat source, solar energy collector, and direct heat conduction therefrom from upper part to lower part directly and rapidly |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58080204A JPS59205550A (en) | 1983-05-10 | 1983-05-10 | Energy-saving heat source, solar energy collector, and direct heat conduction therefrom from upper part to lower part directly and rapidly |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS59205550A true JPS59205550A (en) | 1984-11-21 |
Family
ID=13711847
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP58080204A Pending JPS59205550A (en) | 1983-05-10 | 1983-05-10 | Energy-saving heat source, solar energy collector, and direct heat conduction therefrom from upper part to lower part directly and rapidly |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS59205550A (en) |
-
1983
- 1983-05-10 JP JP58080204A patent/JPS59205550A/en active Pending
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