JP2953110B2 - Vacuum solar heat collector - Google Patents
Vacuum solar heat collectorInfo
- Publication number
- JP2953110B2 JP2953110B2 JP3145681A JP14568191A JP2953110B2 JP 2953110 B2 JP2953110 B2 JP 2953110B2 JP 3145681 A JP3145681 A JP 3145681A JP 14568191 A JP14568191 A JP 14568191A JP 2953110 B2 JP2953110 B2 JP 2953110B2
- Authority
- JP
- Japan
- Prior art keywords
- water
- storage container
- water storage
- glass container
- container
- 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.)
- Expired - Fee Related
Links
Classifications
-
- 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
- Y02E10/44—Heat exchange systems
Description
【0001】[0001]
【産業上の利用分野】本発明は、ガラス容器内部に円筒
状の貯水容器を配置した真空式太陽熱集熱装置に関する
ものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum solar heat collecting apparatus in which a cylindrical water storage container is disposed inside a glass container.
【0002】[0002]
【従来の技術】太陽光線の持つ熱エネルギーを熱源とし
て利用する太陽熱集熱装置は、従来より種々の形態のも
のが提案され、温水器の分野において広く利用されてい
る。真空式太陽熱集熱装置も各種発明されており、本出
願人は、特願昭62−16424号において、ガラス容
器内部に円筒状の貯水容器を配置した真空式太陽熱集熱
装置を提案している。2. Description of the Related Art Various types of solar heat collectors utilizing the heat energy of sunlight as a heat source have been proposed in various forms, and are widely used in the field of water heaters. Various types of vacuum solar heat collectors have also been invented, and the present applicant has proposed a vacuum solar heat collector in which a cylindrical water storage container is arranged inside a glass container in Japanese Patent Application No. 62-16424. .
【0003】この出願には、一端が密封され、他端が小
口径に絞られて開口した透明な長尺円筒状のガラス容器
と、一端が密封され、他端が小口径に絞られて開口し、
ガラス容器内部に支持具を介して同軸状に配置され、外
表面に選択吸収膜が被覆形成された円筒状の金属製貯水
容器と、ガラス容器及び貯水容器の開口端を貫通して貯
水容器内部の密封端付近まで挿入された第1の管と、ガ
ラス容器の開口端を貫通して貯水容器の開口端に接続さ
れた第2の管と、ガラス容器の開口部を封止する封着金
具とを備えてなり、ガラス容器と貯水容器との間を真空
に保持してなる真空式太陽熱集熱装置が示されている。This application discloses a transparent long cylindrical glass container having one end sealed and the other end squeezed to a small diameter, an opening sealed at one end and the other end squeezed to a small diameter. And
A cylindrical metal water storage container coaxially disposed inside the glass container via a support and having an outer surface coated with a selective absorption film; and a glass container and the inside of the water storage container penetrating through the open ends of the water storage container. A first tube inserted to the vicinity of the sealed end of the container, a second tube penetrating the open end of the glass container and connected to the open end of the water storage container, and a sealing fitting for sealing the opening of the glass container. And a vacuum solar heat collecting apparatus in which a vacuum is provided between the glass container and the water storage container.
【0004】この真空式太陽熱集熱装置を使用する場
合、ガラス容器及び貯水容器の開口端を密封端より低く
配置し、貯水容器内部への給水を第2の管から行い、温
水の取り出しを第1の管又は第2の管から行うようにす
る方法と、ガラス容器及び貯水容器の開口端を密封端よ
り高く配置し、貯水容器内部への給水を第1の管から行
い、温水の取り出しを第2の管から行う方法がある。[0004] In the case of using this vacuum solar heat collecting apparatus, the open ends of the glass container and the water storage container are arranged lower than the sealed end, water is supplied into the water storage container from the second pipe, and hot water is taken out. A method in which the opening is performed from the first pipe or the second pipe, the opening ends of the glass container and the water storage container are arranged higher than the sealed end, water is supplied to the inside of the water storage container from the first pipe, and hot water is taken out. There is a method performed from the second tube.
【0005】[0005]
【発明が解決しようとする課題】しかしながら上記真空
式太陽熱集熱装置を上記した前者の方法で使用する場
合、貯水容器内部の上方に空気溜りが形成され、その空
気溜りには、貯水から発生した塩素ガス等が含まれるた
め、金属製貯水容器が腐食し易いという問題がある。ま
たこの方法では、貯水容器内部に新たな水を供給するこ
となく温水を取り出すという、いわゆるロット採湯が不
可能であり、温水を取り出す際には、必ず新たな水を貯
水容器内部に供給する必要があるため、温水が水と混合
して水温が低下してしまうという問題がある。However, when the above-mentioned vacuum solar heat collecting apparatus is used in the former method, an air reservoir is formed above the inside of the water storage container, and the air reservoir is generated from the water storage. Since chlorine gas and the like are contained, there is a problem that the metal water storage container is easily corroded. Further, in this method, it is impossible to take out hot water without supplying new water into the water storage container, that is, so-called lot hot water extraction is impossible. When taking out hot water, always supply new water into the water storage container. Since it is necessary, there is a problem that hot water is mixed with water and the water temperature is lowered.
【0006】一方、後者の方法で使用する場合も、ロッ
ト採湯が不可能であり、しかも内径の小さい第一の管か
ら水が貯水容器内部に供給されるため、水の貯水容器内
部に流入する速度が速く、温水と水との混合割合が大き
くなって水温が大幅に低下し易いという問題がある。ま
た冬期において、水が凍結するのを防止したり、配管内
を清掃する目的で貯水容器内部の水抜きを行うことも不
可能である。On the other hand, in the case of using the latter method as well, it is impossible to take a lot of water, and since water is supplied into the water storage container from the first pipe having a small inner diameter, the water flows into the water storage container. There is a problem that the mixing speed is high, the mixing ratio of warm water and water is large, and the water temperature is apt to drop significantly. In winter, it is impossible to prevent the water from freezing or to drain the water inside the water storage container for the purpose of cleaning the inside of the pipe.
【0007】本発明の目的は、貯水容器内部に空気溜り
が形成されず、且つ、ロット採湯や水抜きを行うことが
できる真空式太陽熱集熱装置を提供することである。An object of the present invention is to provide a vacuum solar heat collecting apparatus in which no air pool is formed inside a water storage container, and in which lot hot water can be collected and drained.
【0008】[0008]
【課題を解決するための手段】本発明の真空式太陽熱集
熱装置は、両端が小口径に絞られて開口した透明な長尺
円筒状のガラス容器と、両端が小口径に絞られて開口
し、ガラス容器内部に支持具を介して同軸状に配置さ
れ、外表面に選択吸収膜が被覆形成され、ガラス容器の
内容積の60%以上を占める内容積を有する円筒状の金
属製貯水容器と、ガラス容器の各開口部を貫通して貯水
容器の各開口部に接続された連結管と、ガラス容器の各
開口部を封止する封着金具とを備え、ガラス容器と貯水
容器との間には、間隙が存在し、その間隙部が真空に保
持され、各連結管がガラス容器の両端に位置するヘッダ
ー管に各々接続されてなることを特徴とする。SUMMARY OF THE INVENTION A vacuum solar heat collecting apparatus according to the present invention comprises a transparent long cylindrical glass container having both ends squeezed to a small diameter and an opening having both ends squeezed to a small diameter. A cylindrical metal water storage container which is disposed coaxially inside the glass container via a support member, has a selective absorption film coated on the outer surface thereof, and has an inner volume occupying 60% or more of the inner volume of the glass container. And a connection pipe penetrating each opening of the glass container and connected to each opening of the water storage container, and a sealing metal fitting for sealing each opening of the glass container, and the glass container and the water storage container There is a gap between the gaps, the gap is maintained in a vacuum, and each connecting pipe is connected to a header pipe located at both ends of the glass container.
【0009】また本発明の真空式太陽熱集熱装置は、好
ましくは連結管あるいは封着金具の一部にベローズが形
成されてなることを特徴とする。Further, the vacuum solar heat collecting apparatus of the present invention is characterized in that a bellows is preferably formed on a part of the connecting pipe or the sealing fitting.
【0010】[0010]
【作用】本発明において、ガラス容器内部に配置された
円筒状の金属製貯水容器は、ガラス容器の小口径開口部
より大きく、且つ、ガラス容器の内径より小さい外径を
有し、ガラス容器の内容積の少なくとも60%以上の容
積を占める程十分に大きなものであるため、その中に大
量の水が貯められる。そして透明なガラス容器を透過し
た太陽熱は、選択吸収膜を介して貯水容器に集熱され
る。貯水容器に集められた熱は、真空断熱作用により熱
ロスが防止され、貯水容器内部の水を保温する。貯水容
器内部の水は、太陽熱で温められて比重の小さくなった
部分が貯水容器内部の上方へ移動するため、貯水容器内
部で自然循環を生じて全体が昇温される。In the present invention, the cylindrical metal water storage container disposed inside the glass container has an outer diameter larger than the small-diameter opening of the glass container and smaller than the inner diameter of the glass container. Since it is large enough to occupy at least 60% or more of the internal volume, a large amount of water is stored therein. The solar heat transmitted through the transparent glass container is collected in the water storage container via the selective absorption film. The heat collected in the water storage container is prevented from heat loss by the vacuum heat insulating action, and keeps the water inside the water storage container warm. The water inside the water storage container is heated by the solar heat, and the portion whose specific gravity is reduced moves upward inside the water storage container, so that a natural circulation occurs inside the water storage container, and the entire temperature is raised.
【0011】また連結管あるいは封着金具の一部にベロ
ーズを形成すると、貯水容器とガラス容器との間に生じ
た熱応力が緩和されるため、両者の接続部における真空
劣化を抑えることができる。Further, when a bellows is formed in a part of the connecting pipe or the sealing fitting, thermal stress generated between the water storage container and the glass container is relieved, so that it is possible to suppress a vacuum deterioration at a connection portion between the two. .
【0012】本発明の真空式太陽熱集熱装置を使用する
場合、一方のヘッダー管が他方のヘッダー管よりも高く
なるようにして建物の屋根上や屋上等に据付設置し、上
方あるいは下方のヘッダー管の一端を、例えば水道等の
給水圧力源に減圧逆止弁を介して連結することによって
空気溜りを形成することなく、貯水容器内部に水を充満
させることが可能である。When the vacuum solar heat collecting apparatus of the present invention is used, one header pipe is installed on a roof or a roof of a building so that one header pipe is higher than the other header pipe, and the upper or lower header is installed. By connecting one end of the pipe to a water supply pressure source such as a water supply via a pressure-reducing check valve, it is possible to fill the inside of the water storage container with water without forming an air pocket.
【0013】また下方のヘッダー管の一端を給湯栓を有
する給湯管に連結し、貯水容器内部の温水を取り出すよ
うにすると、給水用ヘッダー管からの水の供給を停止す
ることによってロット採湯が可能となる。この場合、貯
水容器内部の温水を取り出した後、給水用のヘッダー管
から新たに水を貯水容器内部に供給する。また通常、貯
水容器内部の空気の出入りをコントロールするため、上
方のヘッダー管の一端には、自動空気抜弁等が取り付ら
れる。When one end of the lower header pipe is connected to a hot water supply pipe having a hot water tap and hot water is taken out of the water storage container, the supply of water from the water supply header pipe is stopped, so that the lot hot water can be collected. It becomes possible. In this case, after the hot water inside the water storage container is taken out, water is newly supplied from the water supply header tube into the water storage container. Usually, an automatic air vent valve or the like is attached to one end of the upper header tube in order to control the flow of air inside the water storage container.
【0014】[0014]
【実施例】以下、本発明の真空式太陽熱集熱装置を実施
例に基づいて詳細に説明する。DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a vacuum solar heat collecting apparatus of the present invention will be described in detail based on embodiments.
【0015】図1は、本発明の真空式太陽熱集熱装置を
示す縦断面図である。FIG. 1 is a longitudinal sectional view showing a vacuum solar heat collecting apparatus according to the present invention.
【0016】ガラス容器1は、予め成形された開口部1
aを有する2つのガラスキャップ1bの端部が透明な長
尺円筒状のガラス管1cの両端に溶着して形成され、ガ
ラスキャップ1bの開口部1aは、ガラス管1cの本体
部の外径より小径となっている。ガラスキャップ1bの
材質としては、ガラス管1cと同一、又はガラス管1c
の熱膨張係数に近い熱膨張係数を有し、支障なく溶着で
きるものであればよい。The glass container 1 has an opening 1 formed in advance.
The ends of two glass caps 1b having a are welded to both ends of a transparent long cylindrical glass tube 1c, and the opening 1a of the glass cap 1b is larger than the outer diameter of the main body of the glass tube 1c. It has a small diameter. The material of the glass cap 1b is the same as the glass tube 1c or the glass tube 1c.
Any material may be used as long as it has a thermal expansion coefficient close to that of the above and can be welded without hindrance.
【0017】ガラス封着金具2は、ガラス容器1と良好
に封着できる円筒状金属から作製され、例えばガラス容
器1がソーダ石灰ガラスの場合は、42%Ni−6%C
r鋼、硼珪酸ガラスの場合は、コバール合金で作製され
る。ガラス封着金具2の一端には連結管3の熱膨張係数
と近似した熱膨張係数を有し、耐食製に優れた金属から
なる中継ぎ封着金具4の一端が被さるようにして溶接又
はロウ付けによって接着され、他端にはガラス容器1の
開口部が封着されている。また中継ぎ封着金具4の他端
は、連結管3に溶接又はロウ付けされている。封着した
部分は、当然のことであるが、歪みを十分に取り除いて
いる。The glass sealing member 2 is made of a cylindrical metal which can be sealed well with the glass container 1. For example, when the glass container 1 is made of soda-lime glass, 42% Ni-6% C
In the case of r steel and borosilicate glass, it is made of a Kovar alloy. One end of the glass sealing fitting 2 has a coefficient of thermal expansion close to that of the connecting pipe 3 and is welded or brazed so as to cover one end of the intermediate sealing fitting 4 made of metal having excellent corrosion resistance. The other end has an opening of the glass container 1 sealed at the other end. Further, the other end of the relay sealing fitting 4 is welded or brazed to the connecting pipe 3. The sealed portion is, of course, sufficiently free of distortion.
【0018】尚、ガラス封着金具2が連結管3と同一の
金属、あるいは熱膨張係数が略同じ金属であれば、中継
ぎ封着金具4は、必ずしも必要でなく、直接ガラス封着
金具2と連結管3とを封着することが可能である。If the glass sealing member 2 is made of the same metal as the connecting pipe 3 or a metal having substantially the same thermal expansion coefficient, the relay sealing member 4 is not necessarily required. The connection pipe 3 can be sealed.
【0019】貯水容器5は、銅、ステンレス、鉄等の金
属から作製され、両端に開口部5aを有する金属製円筒
体5bと、この円筒体5bの両端に嵌合され、全周溶接
又は全周ロウ付けされた2つの金属製キャップ体5cと
で構成される。円筒体5bとキャップ体5cとは、同一
材質とするか熱膨張係数が同一又は近似した異種金属で
接合に支障とならないものであればよい。この貯水容器
5は、ガラス容器1の内容積の少なくとも60%を占め
る程大きな容積を有し、その外表面には選択吸収膜(図
示せず)が被覆形成され、ガラス容器1と貯水容器5と
の間には、間隙が存在し、その間隙部は、所定の真空度
[例えば10-4Torr]に保持されている。ガラス容
器1内部を真空排気するには、ガラス容器1の端部ある
いは中継ぎ封着金具4の一部に排気管を設け、そこから
排気した後、溶着あるいはロー付けすることによって封
止する。The water storage container 5 is made of a metal such as copper, stainless steel, iron, or the like, is fitted with a metal cylindrical body 5b having openings 5a at both ends, and is fitted to both ends of the cylindrical body 5b, and is welded all around. It is composed of two metal cap bodies 5c which are brazed circumferentially. The cylindrical body 5b and the cap body 5c may be made of the same material or different metals having the same or similar thermal expansion coefficients as long as they do not hinder the joining. The water storage container 5 has such a large volume that it occupies at least 60% of the internal volume of the glass container 1, and its outer surface is coated with a selective absorption film (not shown). And a gap is provided between them, and the gap is maintained at a predetermined degree of vacuum [for example, 10 -4 Torr]. In order to evacuate the inside of the glass container 1, an exhaust pipe is provided at an end of the glass container 1 or a part of the joint sealing fitting 4, and after evacuating therefrom, sealing is performed by welding or brazing.
【0020】貯水容器5の両端の開口部5aには、各連
結管3の一端が取り付けられ、各連結管3の他端は、上
方のヘッダー管6あるいは下方のヘッダー管7にロウ付
け、差し込み又は接続具を用いて接続されている。各連
結管3の一部には、ベローズ3aが形成され、このベロ
ーズ3aによって貯水容器5とガラス容器1との間に生
じる熱応力が緩和される。貯水容器5の両端を構成する
キャップ体5c及び円筒体5bの中央部には、各々支持
具8a、8bが装着されている。支持具8a、8bは、
貯水容器5をガラス容器1内部に熱伸縮を許容しつつ同
軸状に支持するために用いられる。貯水容器5の両端に
小径外周部5dを設けることは、支持具8aによる貯水
容器5のガラス容器1内部での安定支持を確保し、且
つ、支持具8aの装着部以外の部分の貯水容器5の貯水
容積を増加させることに役立つものである。One end of each connecting pipe 3 is attached to the opening 5a at both ends of the water storage container 5, and the other end of each connecting pipe 3 is brazed and inserted into the upper header pipe 6 or the lower header pipe 7. Alternatively, they are connected using a connection tool. A bellows 3a is formed in a part of each connecting pipe 3, and the bellows 3a relieves thermal stress generated between the water storage container 5 and the glass container 1. Supports 8a and 8b are attached to the center portions of the cap body 5c and the cylindrical body 5b constituting both ends of the water storage container 5, respectively. The supports 8a, 8b
It is used for supporting the water storage container 5 coaxially inside the glass container 1 while allowing thermal expansion and contraction. Providing the small-diameter outer peripheral portions 5d at both ends of the water storage container 5 ensures the stable support of the water storage container 5 inside the glass container 1 by the support tool 8a, and at the same time, the water storage container 5 in a portion other than the mounting portion of the support tool 8a. It is useful for increasing the storage volume of water.
【0021】支持具8aは、弾性金属線条を便宜の形
状、例えば略W形状に屈曲させたものであり、2個対称
的に使用してガラス容器1の内面に傷を与えないように
4点接触している。また支持具8bは、コイルバネ部と
板バネ部からなり、コイルバネ部によって貯水容器5と
ガラス容器1との間に一定の間隔を形成している。The support member 8a is formed by bending an elastic metal wire into a convenient shape, for example, a substantially W shape, and uses two symmetrical members so as not to damage the inner surface of the glass container 1. Point contact. The support 8b includes a coil spring portion and a plate spring portion, and forms a fixed interval between the water storage container 5 and the glass container 1 by the coil spring portion.
【0022】上記真空式太陽熱集熱装置は、建物の屋根
上等に所定角度傾斜して据付設置され、給水バルブを開
くことによって上方のヘッダー管6から供給された水
は、上方の連結管3を介して貯水容器5に流入し、一定
時間温まるまで汲み置きされた後、給湯栓を開くことに
よって下方の連結管3を介して下方のヘッダー管7から
温水として取り出される。その後、取り出された温水の
量と同量の水が上方のヘッダー管6から上方の連結管3
を介して貯水容器5内に供給される。The above-mentioned vacuum solar heat collecting apparatus is installed at a predetermined angle on the roof of a building or the like, and the water supplied from the upper header pipe 6 by opening the water supply valve is used for the upper connecting pipe 3. After flowing into the water storage container 5 through the tub and being drawn for a certain period of time until it is warmed up, the hot water tap is opened and taken out from the lower header pipe 7 through the lower connecting pipe 3 as hot water. Thereafter, the same amount of water as the amount of hot water taken out is transferred from the upper header pipe 6 to the upper connecting pipe 3.
Is supplied to the inside of the water storage container 5.
【0023】尚、本発明の真空式太陽熱集熱装置におけ
る水の供給と取り出しは、上記の方法に限定されるもの
ではなく、例えば下方のヘッダー管7の一端から貯水容
器5内部に水を供給し、同じヘッダー管7の他端から温
水を取り出すことも可能である。その場合、上方のヘッ
ダー管6は、空気抜きとオーバーフローの際の排水口と
しての機能を果たす。The supply and removal of water in the vacuum solar heat collecting apparatus of the present invention is not limited to the above method. For example, water is supplied from one end of the lower header pipe 7 into the water storage vessel 5. However, it is also possible to take out hot water from the other end of the same header tube 7. In that case, the upper header tube 6 functions as a drain port in the case of air bleeding and overflow.
【0024】次に図2は、上記した本発明の真空式太陽
熱集熱装置を4本で1ユニットとし、これを2ユニット
接続して建物の屋根9上に据付設置した給湯設備の実施
例を示す概略斜視図である。Next, FIG. 2 shows an embodiment of a hot water supply system in which the above-mentioned vacuum solar heat collecting apparatus of the present invention is made up of four units as one unit, and two units are connected and installed on the roof 9 of a building. It is a schematic perspective view shown.
【0025】図2において、各真空式太陽熱集熱装置
は、上方のヘッダー管6及び下方のヘッダー管7に並列
に接続されている。上方のヘッダー管6は、減圧逆止弁
10と給水バルブ11を設けた給水管12を介して水道
等の給水圧力源に接続され、給水バルブ11を開放して
おくことにより、水道等の給水圧力源からの水圧が減圧
逆止弁10を通して適正な圧力に減圧されて給湯設備全
体に作用する。例えば我が国における水道の水圧は、所
定値[例:3kg/cm2 ]に維持され、これを減圧逆
止弁10により適正な圧力[例:0.8kg/cm2 ]
に減圧調整して使用される。In FIG. 2, each vacuum solar heat collector is connected in parallel to an upper header tube 6 and a lower header tube 7. The upper header pipe 6 is connected to a water supply pressure source such as a water supply via a water supply pipe 12 provided with a pressure-reducing check valve 10 and a water supply valve 11. The water pressure from the pressure source is reduced to an appropriate pressure through the pressure reducing check valve 10 and acts on the entire hot water supply facility. For example, the water pressure of the tap water in Japan is maintained at a predetermined value [e.g., 3 kg / cm 2 ], and this is adjusted to an appropriate pressure [e.g., 0.8 kg / cm 2 ] by the pressure-reducing check valve 10.
It is used after adjusting the pressure.
【0026】下方のヘッダー管7は、給湯栓13を有す
る給湯管14に接続され、給湯栓13は、浴室15や炊
事場16等に分岐配置されている。また上方のヘッダー
管6には、逃がし弁17と自動空気抜弁18が設けられ
ている。さらに給水管12の途中には、ドレン管19と
ドレンバルブ20が設けられている。The lower header pipe 7 is connected to a hot water supply pipe 14 having a hot water tap 13, and the hot water tap 13 is branched and disposed in a bathroom 15, a kitchen 16 and the like. The upper header pipe 6 is provided with a relief valve 17 and an automatic air release valve 18. Further, a drain pipe 19 and a drain valve 20 are provided in the middle of the water supply pipe 12.
【0027】図2の給湯設備の使用方法は、以下のとお
りである。The method of using the hot water supply equipment shown in FIG. 2 is as follows.
【0028】先ず最初にドレンバルブ20、給湯栓13
が閉じられ、給水バルブ11が開放される。これにより
水道等の給水圧力源からの水圧で水が減圧逆止弁10を
通過して給水管12から上方のヘッダー管6に流入し、
上方のヘッダー管6からそれに接続された各連結管3に
分配されて各ガラス容器1内部に位置する各貯水容器5
から給湯管14まで水が充満される。各貯水容器5から
給湯管14までの空気は、下方のヘッダー管7を通って
自動空気抜弁18から排出される。この時、給湯設備内
の圧力は、減圧逆止弁10で設定した所定圧力に保持さ
れる。この状態でしばらく放置すると、各貯水容器5内
の水は、太陽熱が各ガラス容器1を透過して選択吸収膜
を介して各貯水容器5を加熱することにより昇温され、
内部で自然循環する。水が十分に温水になった状態で給
水バルブ11を閉じ、給湯栓13を開放すると、自動空
気抜弁18から吸気しながら各貯水容器5内の温水が取
り出される。温水の取り出しが完了した後、給湯栓13
を閉じ、給水バルブ11を開けると、取り出された温水
量と同量の水が各貯水容器5内に水道等の給水圧力源か
ら供給される。First, the drain valve 20 and the hot water tap 13
Is closed, and the water supply valve 11 is opened. As a result, water flows from the water supply pressure source such as the water supply through the pressure reducing check valve 10 and flows into the upper header pipe 6 from the water supply pipe 12,
Each water storage container 5 distributed from the upper header pipe 6 to each connection pipe 3 connected thereto and located inside each glass container 1
To the hot water supply pipe 14 are filled with water. Air from each water storage container 5 to the hot water supply pipe 14 is discharged from the automatic air vent valve 18 through the lower header pipe 7. At this time, the pressure in the hot water supply facility is maintained at a predetermined pressure set by the pressure reducing check valve 10. If left in this state for a while, the water in each water storage container 5 is heated by the solar heat passing through each glass container 1 and heating each water storage container 5 through the selective absorption film,
Natural circulation inside. When the water supply valve 11 is closed and the hot-water tap 13 is opened in a state where the water has become sufficiently hot water, the hot water in each water storage container 5 is taken out while suctioning the air from the automatic air vent valve 18. After the removal of hot water is completed,
Is closed and the water supply valve 11 is opened, the same amount of water as the amount of hot water taken out is supplied into each water storage container 5 from a water supply pressure source such as tap water.
【0029】尚、冬期において水が凍結する恐れのある
時や配管内を清掃する時は、給水バルブ11を閉じ、給
湯栓13及びドレンバルブ20を開けることによって各
貯水容器5内部及び配管内の水を抜くことが可能であ
る。When the water may freeze in winter or when cleaning the inside of the pipe, the water supply valve 11 is closed and the hot water tap 13 and the drain valve 20 are opened to open the inside of each water storage container 5 and the inside of the pipe. It is possible to drain the water.
【0030】[0030]
【発明の効果】本発明の真空式太陽熱集熱装置は、貯水
容器内部に空気溜りが形成されず、一度に多量の水を温
めることができ、且つ、貯水容器内に新たな水を流入さ
せなくとも温水を取り出す、いわゆるロット採湯が可能
であるため、温水と水とが混合することによる水温の低
下をきたすことがなく、しかも凍結を防止したり、配管
内を清掃するための水抜きも容易に行える。According to the vacuum solar heat collecting apparatus of the present invention, no air pocket is formed inside the water storage container, a large amount of water can be heated at a time, and new water flows into the water storage container. It is possible to take out hot water at the same time, so-called hot water collection, so that the temperature of the water does not drop due to the mixing of the hot water and the water, and also to prevent freezing and drainage for cleaning the inside of the piping. Can be easily performed.
【0031】また連結管あるいは封着金具の一部にベロ
ーズを形成することによって、貯水容器とガラス容器と
の間に生じる熱応力を緩和することができる。Further, by forming a bellows on a part of the connecting pipe or the sealing fitting, thermal stress generated between the water storage container and the glass container can be reduced.
【0032】さらに本発明においては、上記の効果以外
にも貯水容器が金属製であるため、熱衝撃による破損が
なく、軽量で必要な耐圧強度を維持することができるこ
と、ガラス容器及び金属製貯水容器の開口端を小口径に
絞っているため、ガラス容器の開口端の封着金具による
封止面積を減少させ、内部の真空がリークする確率を大
幅に減少させること、高価なガラス封着金具を小径化で
きるとともに、ガラスよりも熱伝導率の大きい金属部分
を小径化することによって封着金具からの熱損失を少な
くすることができ、且つ、透明ガラス部分が大きくなる
ことにより採光部が広くなるため集熱効率を向上するこ
とができるという効果も有している。Further, in the present invention, in addition to the above effects, since the water storage container is made of metal, it is free from damage due to thermal shock, can be lightweight and can maintain the required pressure resistance, and can be made of a glass container and a metal water storage container. Because the opening end of the container is narrowed to a small diameter, the sealing area of the opening end of the glass container is reduced by the sealing metal, the probability of internal vacuum leakage is greatly reduced, and an expensive glass sealing metal The diameter of the metal part having a higher thermal conductivity than glass can be reduced, and the heat loss from the sealing metal can be reduced, and the lighting part can be widened by increasing the size of the transparent glass part. Therefore, there is also an effect that the heat collection efficiency can be improved.
【図1】本発明の真空式太陽集熱装置の実施例を示す縦
断面図である。FIG. 1 is a longitudinal sectional view showing an embodiment of a vacuum solar heat collecting apparatus of the present invention.
【図2】本発明の真空式太陽熱集熱装置をユニットにし
て用いた給湯設備の実施例を示す概略斜視図である。FIG. 2 is a schematic perspective view showing an embodiment of a hot water supply facility using the vacuum solar heat collecting apparatus of the present invention as a unit.
1 ガラス容器 2 ガラス封着金具 3 連結管 3a ベローズ 4 中継ぎ封着金具 5 貯水容器 6 上方のヘッダー管 7 下方のヘッダー管 8a 支持具 8b 支持具 12 給水管 14 給湯管 DESCRIPTION OF SYMBOLS 1 Glass container 2 Glass sealing fitting 3 Connecting pipe 3a Bellows 4 Intermediate sealing fitting 5 Water storage container 6 Upper header pipe 7 Lower header pipe 8a Supporting tool 8b Supporting tool 12 Water supply pipe 14 Hot water supply pipe
Claims (2)
長尺円筒状のガラス容器と、両端が小口径に絞られて開
口し、ガラス容器内部に支持具を介して同軸状に配置さ
れ、外表面に選択吸収膜が被覆形成され、ガラス容器の
内容積の60%以上を占める内容積を有する円筒状の金
属製貯水容器と、ガラス容器の各開口部を貫通して貯水
容器の各開口部に接続された連結管と、ガラス容器の各
開口部を封止する封着金具とを備え、ガラス容器と貯水
容器との間には、間隙が存在し、その間隙部が真空に保
持され、各連結管がガラス容器の両端に位置するヘッダ
ー管に各々接続されてなることを特徴とする真空式太陽
熱集熱装置。1. A transparent long cylindrical glass container having both ends narrowed and opened to a small diameter, and both ends narrowed and opened to a small diameter, and coaxially disposed inside the glass container via a support. A cylindrical metal water storage container having an inner volume occupying 60% or more of the inner volume of the glass container having a selective absorption film coated on the outer surface thereof, and a water storage container penetrating through each opening of the glass container. A connection pipe connected to each opening and a sealing fitting for sealing each opening of the glass container are provided, and a gap exists between the glass container and the water storage container, and the gap is evacuated to a vacuum. A vacuum solar heat collecting apparatus, wherein the connection pipes are held and connected to header pipes located at both ends of a glass container.
ズが形成されてなることを特徴とする請求項1の真空式
太陽熱集熱装置。2. The vacuum solar heat collecting apparatus according to claim 1, wherein a bellows is formed on a part of the connecting pipe or the sealing fitting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3145681A JP2953110B2 (en) | 1991-05-21 | 1991-05-21 | Vacuum solar heat collector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3145681A JP2953110B2 (en) | 1991-05-21 | 1991-05-21 | Vacuum solar heat collector |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH04344071A JPH04344071A (en) | 1992-11-30 |
JP2953110B2 true JP2953110B2 (en) | 1999-09-27 |
Family
ID=15390631
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3145681A Expired - Fee Related JP2953110B2 (en) | 1991-05-21 | 1991-05-21 | Vacuum solar heat collector |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2953110B2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20010044370A (en) * | 2001-02-14 | 2001-06-05 | 김석종 | Absorber tube allowing the thermal expansion and contraction in the solar compound concentrator |
JP2010002167A (en) * | 2008-05-21 | 2010-01-07 | Hideji Nishihara | Solar heat collector |
KR101224229B1 (en) * | 2011-11-10 | 2013-01-21 | 김정희 | Evacuated glass tube solar collector with barrier guide |
CN103335412A (en) * | 2013-04-06 | 2013-10-02 | 李尚喜 | Heat re-conduction glass tube solar assembly |
RU2660309C1 (en) * | 2014-08-22 | 2018-07-05 | Чжунин Чанцзян Интернэшнл Нью Энерджи Инвестмент Ко., Лтд | Solar heat collecting adsorption composition tube, solar heat collecting adsorption composite layer, consisting of solar heat collecting adsorption composite tubes, and cooling and heating system, formed from the solar heat collecting adsorption composite layer |
-
1991
- 1991-05-21 JP JP3145681A patent/JP2953110B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH04344071A (en) | 1992-11-30 |
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