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JP3408611B2 - Heating control device in windows of buildings - Google Patents
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JP3408611B2 - Heating control device in windows of buildings - Google Patents

Heating control device in windows of buildings

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Publication number
JP3408611B2
JP3408611B2 JP04349594A JP4349594A JP3408611B2 JP 3408611 B2 JP3408611 B2 JP 3408611B2 JP 04349594 A JP04349594 A JP 04349594A JP 4349594 A JP4349594 A JP 4349594A JP 3408611 B2 JP3408611 B2 JP 3408611B2
Authority
JP
Japan
Prior art keywords
air
window
passage
heat generating
case
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
Application number
JP04349594A
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Japanese (ja)
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JPH07253220A (en
Inventor
川 晋 清
Original Assignee
清川 晋
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Filing date
Publication date
Application filed by 清川 晋 filed Critical 清川 晋
Priority to JP04349594A priority Critical patent/JP3408611B2/en
Publication of JPH07253220A publication Critical patent/JPH07253220A/en
Application granted granted Critical
Publication of JP3408611B2 publication Critical patent/JP3408611B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Classifications

    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]

Landscapes

  • Central Heating Systems (AREA)

Description

【発明の詳細な説明】 【0001】 【産業上の利用分野】本発明は建築物の窓部における暖
房調整装置に関するもので、特にガラス窓の多い超高層
ビルの窓部の暖房として用いて好適な建築物の窓部にお
ける暖房調整装置に関する。 【0002】 【従来の技術】一般に高層ビルでは、高気密化、高断熱
化を図ることにより、外気とは異なる温度環境下に設定
するとともに、1年を通じて部屋全体を均一な温度に調
整することが求められている。 【0003】ところで、このような高層ビルの窓ガラス
付近、いわゆるペリメータゾーンでは、日中、太陽から
の照射光を受けて室内の温度が急激に高くなっている。
しかも、室内からの空調効果は届き難くなっている。し
たがって、この付近では他の場所と異なる独立した自然
対流が生じており、このため夏冬共、他の場所と同じ温
度下に設定することが困難となっている。 【0004】すなわち、このようなペリメータゾーンで
は、冬場には、太陽光を受けて温度上昇がある一方で冷
たい空気が窓を伝って床面に導かれている。したがっ
て、窓辺付近にいる人は、上体部の体感温度が高い反
面、足元だけが寒いという問題を生じさせていた。そこ
で、従来からこのようなペリメータゾーンにはパネル状
の暖房装置を設置し、この暖房装置で冬場は冷たい空気
を暖房し、足元近くに流れる冷たい空気を室内の平均温
度に近づけるようにしていた。 【0005】このような暖房装置は、一般に上部に空気
吸入口を備え、ガラス窓を伝って案内された冷たい空気
をこの空気吸入口から発熱部内に導入するとともに、内
部で熱交換された暖気を、同じく上部に設けた空気排出
口から室外に放出するようにしている。 【0006】そして、このような暖房装置は壁面に当接
させた状態で室内側に設置されている。 【0007】 【発明が解決しようとする課題】ところで、従来、この
ようなパネル状の暖房装置を窓際に設置した場合であっ
ても、ガラス窓を伝って下方に導かれた冷気は暖房装置
内に全て導入されるわけではなく、一部の冷気はその付
近に停まってしまう。しかも、窓際付近には直射日光で
暖房された空気も一緒に混在するため、温度環境が未だ
均一に成っていないのが現状であった。 【0008】本発明は、上記実情に鑑み、ガラス窓を伝
って下方に案内される空気を可及的に暖房装置内に導入
し、窓部付近の温度環境を室内の平均温度に近づけるこ
とが可能な建築物の窓部における暖房調整装置を提供す
ることを目的としている。 【0009】 【課題を解決するための手段】上記目的を達成するため
の本発明に係る建築物における暖房装置は、建築物の開
口部に配置されたガラス窓の下端を支持する壁面
の室内側に、略矩形ケース7を配置し、このケース7は
上部の壁面4側に空気吸入口9を、室内側に空気排出口
10をそれぞれ開口し、前記空気吸入口9を空気排出口
10との間の上下方向に延長する板状の発熱部6aを、
その下端とケース7の底面との間に空気が流通する隙間
を開けて配置することによって前記空気吸入口9に接続
する通路を下降流の通路に、前記空気排出口10に接続
する通路を加熱された空気の上昇流の通路15とし、こ
の上昇流の通路15を発熱部 6aとこれに対面する傾斜
板13により上方に向かって縮小するように形成し、更
に前記空気吸入口9の上部を上下の間隔をおいて壁面4
側に伸び、前記ガラス窓2の部分を流下する空気を案内
するためのガイド板11をた設けたことを特徴としてい
る。 【0010】 【作用】上記構成による本発明によれば、窓ガラスを伝
って下方に案内される空気は、空気吸入口内に導入され
るようにガイド板により積極的に導かれるので、ここを
流れる多量の冷たい空気を暖房装置内で暖めることがで
きる。また、暖房装置内で暖められ熱交換された空気
は、上方に向かう程、狭くなっている空気通路を案内さ
れ空気排出口から放出されるので、空気排出口からは勢
い良く放出されることになる。したがって、この暖めら
れた暖気を遠い室内方まで自然対流の形で効果的に放出
することが可能になる。 【0011】 【実施例】以下に、本発明に係る建築物の窓部における
暖房調整装置の一実施例について図面を参照しながら説
明する。 【0012】図1は本発明の第1の実施例による暖房調
整装置を設置した建築物の窓部付近を示したものであ
る。建築物の例えば南側の外壁付近には、開口部1が横
方向に連続的に形成されており、この開口部1には窓ガ
ラス2がフレーム3等に支持されて、配設されている。 【0013】また、このフレーム3を支持する壁面4の
室内5側には、パネル状の暖房装置6が壁面4に当接し
て設置されている。この暖房装置6は、一般にはペリカ
ンヒータと称され、窓付近の壁面4と略等しい高さを有
し、発熱部6aは略矩形のケース7内に構成されてい
る。 【0014】この暖房装置6の発熱部6aとしては、通
電により発熱するものであれば如何なる種類であっても
用いることができるが、発熱の均一性を考慮すれば、す
でに知られているように面状発熱体の使用が好ましい。 【0015】面状発熱体とは、図2に示したように、カ
ーボンなどの導電性の微粒子を混入した熱可塑性樹脂ま
たはゴムなどの帯材8の両側にリード線9、9を埋め込
んだ構造を有している。 【0016】この構造において、帯材8は発熱抵抗体と
して作用するものであり、図示のように電極としてのリ
ード線9、9間に直流または交流の電圧Eを印加する
と、帯材8を通してリード線9、9間に電流が流れ該帯
材8が発熱する。 【0017】この場合、発熱量は帯材8中に混入される
導電性微粒子の材質および量を加減することにより調整
することができ、また、リード線9、9が帯材8のほぼ
全長に亘って埋設されているので、該帯材8の全面に亘
ってほぼ均一に発熱させることができる。 【0018】また、ケース7には空気吸入口9と空気排
出口10とが具備されている。このうち、少なくとも空
気吸入口9はガラス窓2に対向するケース7の上部に形
成される。 【0019】また、ケース7の空気吸入口9と空気排出
口10とを仕切る壁の上部には、断面L字状のガイド板
11が横方向に設置されている。このガイド板11は、
矢印A1 のようにガラス窓2を伝って下方に流れる空気
を空気吸入口9内に積極的に案内するためのもので、空
気吸入口9の上方部にひさしのように延出している。 【0020】一方、発熱部6aと、この発熱部6aの前
方に配置されるカバー12との間には傾斜板13が設置
されている。この傾斜板13は、図示したように床面1
4に近い下部から上方に向かう程、発熱部6aに近づく
ように傾斜しており、上端部13aは空気排出口10の
近傍に固定されている。したがって、この傾斜板13に
より、発熱部6aの図の右側に形成される空気通路15
は、上方に向かう程、幅が狭くなっている。 【0021】本実施例による建築物の窓部における暖房
調整装置は上記のように形成されているが、以下にこの
作用について説明する。まず、冬場には、ガラス窓1を
伝って冷たい空気が下方に下がってくるが、この冷たい
空気は矢印A1 に示したようにガイド板11で積極的に
捕捉される。したがって、ガラス窓1を伝って下方に流
れる大部分の冷たい空気は、ガイド板11の下部を通っ
てケース7内に導入される。 【0022】ケース7内に導入された冷たい空気は、通
電状態にある発熱部6aで加熱された空気との間で順
次、熱交換される。そして、加熱された導入空気は矢印
2 のようにケース7の下端部を通り、下流の空気通路
15内に導入される。 【0023】ここで、空気通路15を流れる導入空気は
ほぼ暖気となっており、しかも熱交換がさらに続いてい
るため、空気通路15内を積極的に上昇する。しかし、
この空気通路15は、上方に向かう程、通路の幅が狭く
なっているため、ここを流れる空気はベンチュリ効果に
より上方部で流速が次第に速くなっている。 【0024】したがって、空気排出口10の近傍を流れ
る空気は流速が速いため、空気排出口10からは勢い良
く室5の内方に向かって飛び出ることになる。なお、実
験によればこのように勢い良く放出された空気は、矢印
3 、A4 、A5 のように放物線に沿った形で室5の内
方に放出された。 【0025】このような暖気の放出により、未だガイド
板11の周囲に冷たい空気が滞留しているとしても、そ
の冷気も暖気の流れに引き込まれて室5の内方に案内す
ることができる。 【0026】しかも、このような空気の流れは自然対流
となっているので、窓の付近にいる人であっても、その
流れに違和感を生じさせることはなく、騒音が生じるこ
ともない。さらに、放物線状に放出されるので、室の内
方で充分暖まった空気の流れに混合させることができ
る。また、前面カバー12の室内側においても発熱部6
aからの熱が輻射されているので、冷たい空気が滞留す
ることはない。 【0027】したがって、このような暖房調整装置を直
射日光を受けやすい窓の近くに設置することにより、窓
部付近を部屋の平均温度に近似させるように調整するこ
とができる。 【0028】以上、本発明の第1の実施例について説明
したが、本発明は上記実施例に何ら限定されない。例え
ば、以上の実施例では、暖房装置6の発熱体として面状
発熱体8を採用しているが、発熱体は他の構造であって
も勿論良い。 【0029】また、傾斜板13の発熱部6aに対向する
面に、高さ方向に複数のフィンを突出させることもでき
る。すると、これらのフィンの間が空気の案内通路とな
るので、下方からの空気をより積極的に上方に導くこと
ができる。 【0030】また、上記実施例では、ケース7内に発熱
部6aを横方向に1列収容したものについて説明した
が、図3に示したように、発熱部6aを2列に配置した
ものでも良い。 【0031】この場合には、発熱部6aと発熱部6aと
の間に、所定の傾斜板16を配置すれば良い。このよう
な傾斜板16は、1枚あるいは2枚であっても良いが、
1枚の傾斜板16を配設する場合には、例えばその上下
部の幅を異ならせることで、空気通路17、18の幅を
上方程、狭くすることができる。 【0032】このように2つの発熱部6a、6aを備え
た暖房調整装置では、ケース7の下端部を通る導入空気
は、矢印A2 で示したように、空気通路17側と、空気
通路18側との2方向に分離して進み、各々両側の発熱
部6a、6aで暖められながら上昇する。 【0033】そして、空気排出口10付近では、再び1
つの流れに合流し、矢印A3 、A4、A5 のように室5
の内方に放出されることになる。この実施例の場合も同
様に、暖められた空気は自然対流の形で室5内に放出さ
れる。したがって、強制的な空気の流れを生じさせるこ
とがなく、人に違和感を生じさせることはない。 【0034】 【発明の効果】以上説明したように、本発明に係る建築
物の窓部における暖房調整装置では、ガラス窓を伝って
下方に導かれる冷たい空気はガイド板に捕捉されて暖房
装置のケース内に導入される。したがって、冷たい空気
を周囲に発散させることはなく、多量の冷たい空気を暖
房装置内に取り入れることができる。また、内部で加熱
され、熱交換された空気は、上方に向かう程幅が狭くな
った通路を上昇するので、排出口からは勢い良く室内に
放出され、室内の空気に混合させることができる。 【0035】しかも、この空気の流れは自然対流である
ため、人に違和感を感じさえることはなく、自然な形で
空気調整を行うことができる。
Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating control device for a window of a building, and is particularly suitable for heating a window of a skyscraper having many glass windows. The present invention relates to a heating adjustment device for a window of a simple building. 2. Description of the Related Art Generally, in a high-rise building, the temperature of the room is set to be different from that of the outside air and the temperature of the entire room is adjusted to a uniform temperature throughout the year by increasing the airtightness and the heat insulation. Is required. By the way, near the window glass of such a high-rise building, that is, in a so-called perimeter zone, the room temperature is rapidly increased during the day due to the irradiation light from the sun.
Moreover, the effect of air conditioning from inside the room is hard to reach. Therefore, an independent natural convection different from other places is generated in this vicinity, and it is difficult to set the same temperature in other places in summer and winter. That is, in such a perimeter zone, in winter, the temperature rises in response to sunlight and cold air is guided to the floor through windows. Therefore, the person near the window has a problem that the body temperature is high, but only the feet are cold. Therefore, conventionally, a panel-shaped heating device has been installed in such a perimeter zone, and the heating device has been used to heat cold air in winter, so that the cold air flowing near the feet approaches the average indoor temperature. [0005] Such a heating device generally has an air intake port at the upper portion, and introduces cold air guided along a glass window into the heat generating portion from the air intake port, and also removes warm air exchanged internally. Also, the air is discharged to the outside from an air outlet provided in the upper part. [0006] Such a heating device is installed indoors in a state in which it is in contact with a wall surface. [0007] By the way, even when such a panel-shaped heating device is conventionally installed near a window, the cool air guided downward through the glass window is not provided in the heating device. Not all are introduced, and some cold air stops in the vicinity. In addition, since the air heated by direct sunlight is mixed together near the window, the current temperature environment has not been uniform yet. SUMMARY OF THE INVENTION In view of the above circumstances, the present invention introduces air guided downward through a glass window into a heating device as much as possible to bring the temperature environment near the window portion closer to the average temperature in the room. It is an object to provide a heating control device in a window of a possible building. A heating apparatus for a building according to the present invention for achieving the above object comprises a wall surface 4 supporting a lower end of a glass window 2 arranged in an opening 1 of the building.
A substantially rectangular case 7 is arranged on the indoor side of
An air inlet 9 is provided on the upper wall 4 side, and an air outlet is provided on the indoor side.
10 are respectively opened, and the air inlet 9 is an air outlet.
10, a plate-like heat generating portion 6a extending in the vertical direction between
A gap through which air flows between the lower end and the bottom of the case 7
Open and connected to the air inlet 9
To the downflow passage and to the air discharge port 10
Is a passage 15 for the ascending flow of heated air.
The upflow passage 15 is formed by the heat generating portion 6a and the slope facing the heat generating portion 6a.
It is formed to contract upward by the plate 13 and
The upper part of the air inlet 9 is vertically spaced from the wall 4
Guides the air flowing down the glass window 2
And a guide plate 11 for
You. According to the present invention having the above-described structure, the air guided downward through the window glass is positively guided by the guide plate so as to be introduced into the air suction port, and flows therethrough. A large amount of cold air can be heated in the heating device. In addition, the air that has been heated and exchanged heat in the heating device is guided through the narrowed air passage as it goes upward, and is discharged from the air discharge port. Become. Therefore, it is possible to effectively discharge the warmed air to a room far away in the form of natural convection. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a heating control device for a window of a building according to the present invention will be described below with reference to the drawings. FIG. 1 shows the vicinity of a window of a building provided with a heating control device according to a first embodiment of the present invention. An opening 1 is formed continuously in the lateral direction, for example, near the outer wall on the south side of the building, and a window glass 2 is provided on the opening 1 while being supported by a frame 3 or the like. On the wall 5 side of the wall 4 supporting the frame 3, a panel-shaped heating device 6 is installed in contact with the wall 4. The heating device 6 is generally called a pelican heater, has a height substantially equal to the wall surface 4 near the window, and the heat generating portion 6 a is configured in a substantially rectangular case 7. As the heat generating portion 6a of the heating device 6, any type can be used as long as it generates heat when energized. However, in consideration of the uniformity of heat generation, as is already known, The use of a sheet heating element is preferred. As shown in FIG. 2, the planar heating element has a structure in which lead wires 9, 9 are embedded on both sides of a band material 8 such as thermoplastic resin or rubber mixed with conductive fine particles such as carbon. have. In this structure, the strip 8 acts as a heating resistor, and when a DC or AC voltage E is applied between the lead wires 9 as electrodes as shown in FIG. An electric current flows between the wires 9 and the strip 8 generates heat. In this case, the calorific value can be adjusted by adjusting the material and amount of the conductive fine particles mixed into the strip 8, and the lead wires 9, 9 extend over almost the entire length of the strip 8. Since the belt material 8 is buried over the entire surface of the band material 8, heat can be generated substantially uniformly over the entire surface of the band material 8. The case 7 has an air inlet 9 and an air outlet 10. Among them, at least the air inlet 9 is formed on the upper part of the case 7 facing the glass window 2. A guide plate 11 having an L-shaped cross section is provided in the upper part of the wall of the case 7 which separates the air inlet 9 and the air outlet 10 from each other. This guide plate 11
It is for actively guiding the air flowing downward along the glass window 2 into the air inlet 9 as indicated by an arrow A 1 , and extends like an eave above the air inlet 9. On the other hand, an inclined plate 13 is provided between the heat generating portion 6a and the cover 12 disposed in front of the heat generating portion 6a. The inclined plate 13 is provided on the floor 1 as shown in FIG.
The upper part 13a is fixed to the vicinity of the air discharge port 10 in such a manner as to approach the heating part 6a from the lower part close to the upper part 4 to the upper part. Therefore, the air passage 15 formed on the right side of the heat generating portion 6a in the drawing by the inclined plate 13 is formed.
Are narrower toward the upper side. The heating control device in the window of a building according to the present embodiment is formed as described above, and its operation will be described below. First, the winter, but the cold air along the glass window 1 comes down below, the cold air is trapped actively with the guide plate 11 as indicated by the arrow A 1. Therefore, most of the cold air flowing downward through the glass window 1 is introduced into the case 7 through the lower portion of the guide plate 11. The cold air introduced into the case 7 is sequentially heat-exchanged with the air heated by the heat-generating portion 6a in an energized state. Then, introducing heated air passes through the lower end of the case 7 as shown by an arrow A 2, is introduced downstream of the air passage 15. Here, the introduced air flowing through the air passage 15 is almost warm, and heat exchange is further continued. But,
Since the width of the air passage 15 becomes narrower as it goes upward, the air flowing therethrough has a gradually increasing flow velocity in the upper part due to the Venturi effect. Therefore, since the air flowing near the air outlet 10 has a high flow velocity, the air will rush out of the air outlet 10 toward the inside of the chamber 5. According to the experiment, the air thus vigorously discharged was discharged into the chamber 5 along a parabola as indicated by arrows A 3 , A 4 and A 5 . Due to the release of the warm air, even if the cool air still stays around the guide plate 11, the cool air can be drawn into the flow of the warm air and guided into the chamber 5. Moreover, since such an air flow is a natural convection, even a person near the window does not give a sense of incongruity to the flow and does not generate noise. Furthermore, since the air is discharged in a parabolic shape, the air can be mixed with a sufficiently warm air flow inside the chamber. Further, the heat generating portion 6 is also provided on the indoor side of the front cover 12.
Since the heat from a is radiated, the cold air does not stay. Therefore, by installing such a heating adjustment device near a window that is easily exposed to direct sunlight, it is possible to adjust the vicinity of the window so as to approximate the average temperature of the room. Although the first embodiment of the present invention has been described above, the present invention is not limited to the above embodiment. For example, in the above embodiment, the planar heating element 8 is used as the heating element of the heating device 6, but the heating element may have another structure. Further, a plurality of fins can be projected in the height direction on the surface of the inclined plate 13 facing the heat generating portion 6a. Then, since the space between these fins serves as an air guide passage, air from below can be more positively guided upward. In the above-described embodiment, the case where the heat generating portions 6a are accommodated in the case 7 in one row in the horizontal direction has been described. However, as shown in FIG. 3, the heat generating portions 6a may be arranged in two rows. good. In this case, a predetermined inclined plate 16 may be arranged between the heat generating portions 6a. Such an inclined plate 16 may be one or two,
When one inclined plate 16 is provided, for example, the widths of the air passages 17 and 18 can be narrowed upward by making the widths of the upper and lower portions different. [0032] In the heating regulating device provided with thus two heating portion 6a, and 6a, the air introduced through the lower portion of the case 7, as shown by arrow A 2, the air passage 17 side, the air passage 18 The vehicle travels separately in two directions, and rises while being heated by the heat generating portions 6a on both sides. In the vicinity of the air outlet 10, 1
One of the joined flow, the chamber 5 as shown by arrow A 3, A 4, A 5
Will be released inward. In this embodiment as well, the heated air is discharged into the chamber 5 in the form of natural convection. Therefore, no forced air flow is caused, and no unpleasant feeling is caused to the person. As described above, in the heating adjusting device for a window of a building according to the present invention, the cold air guided downward through the glass window is caught by the guide plate, and Introduced in the case. Therefore, a large amount of cold air can be taken into the heating device without diffusing cold air to the surroundings. Also, the air that has been heated and exchanged heat inside rises in a passage whose width becomes narrower as it goes upward, so that it can be vigorously discharged from the discharge port into the room and mixed with the room air. In addition, since the air flow is natural convection, the air can be adjusted in a natural manner without feeling uncomfortable to humans.

【図面の簡単な説明】 【図1】図1は本発明の建築物の窓部における暖房調整
装置の一実施例を示した断面図である。 【図2】図2は同実施例で採用された発熱体の断面図で
ある。 【図3】図3は本発明の第2の実施例による建築物の窓
部における暖房調整装置の断面図である。 【符号の説明】 1 開口部 2 ガラス窓 4 壁面 5 室内 6 暖房装置 6a 発熱体 7 ケース 9 空気吸入口 10 空気排出口 11 ガイド板 15、17、18 空気通路
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing one embodiment of a heating adjusting device for a window of a building according to the present invention. FIG. 2 is a sectional view of a heating element employed in the embodiment. FIG. 3 is a sectional view of a heating control device in a window of a building according to a second embodiment of the present invention. [Description of Signs] 1 Opening 2 Glass window 4 Wall 5 Indoor 6 Heating device 6a Heating element 7 Case 9 Air intake 10 Air exhaust 11 Guide plates 15, 17, 18 Air passage

Claims (1)

(57)【特許請求の範囲】 【請求項1】 建築物の開口部に配置されたガラス窓
の下端を支持する壁面の室内側に、略矩形ケース7
を配置し、このケース7は上部の壁面4側に空気吸入口
9を、室内側に空気排出口10をそれぞれ開口し、前記
空気吸入口9を空気排出口10との間の上下方向に延長
する板状の発熱部6aを、その下端とケース7の底面と
の間に空気が流通する隙間を開けて配置し、前記空気吸
入口9に接続する通路を下降流の通路に、前記空気排出
口10に接続する通路を加熱された空気の上昇流の通路
15とし、 この上昇流の通路15を発熱部 6aとこれに対面する傾
斜板13により上方に向かって縮小するように形成し、
更に前記空気吸入口9の上部を上下の間隔をおいて壁面
4側に伸び、前記ガラス窓2の部分を流下する空気を案
内するためのガイド板11をた設けたことを特徴とする
建築物の窓部における暖房調整装置。
(57) [Claims] [Claim 1] A glass window arranged in an opening 1 of a building
A substantially rectangular case 7 is provided on the indoor side of the wall 4 supporting the lower end of
This case 7 has an air inlet on the upper wall 4 side.
9 and the air outlets 10 are respectively opened on the indoor side,
Air inlet 9 extends vertically with air outlet 10
The lower end of the plate-shaped heat generating portion 6a and the bottom surface of the case 7
A gap through which air flows is provided between the
The passage connected to the inlet 9 is replaced by a downflow passage,
The passage connecting to the port 10 is a passage for ascending flow of heated air.
15, the upward flow passage 15 is formed with the heat generating portion 6a and the inclined portion facing the heat generating portion 6a.
The swash plate 13 is formed so as to contract upward.
Further, the upper portion of the air inlet 9 is vertically spaced from the wall surface.
The air that extends to the side 4 and flows down the glass window 2
A heating adjusting device for a window of a building, provided with a guide plate 11 for entering the inside .
JP04349594A 1994-03-15 1994-03-15 Heating control device in windows of buildings Expired - Fee Related JP3408611B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP04349594A JP3408611B2 (en) 1994-03-15 1994-03-15 Heating control device in windows of buildings

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP04349594A JP3408611B2 (en) 1994-03-15 1994-03-15 Heating control device in windows of buildings

Publications (2)

Publication Number Publication Date
JPH07253220A JPH07253220A (en) 1995-10-03
JP3408611B2 true JP3408611B2 (en) 2003-05-19

Family

ID=12665302

Family Applications (1)

Application Number Title Priority Date Filing Date
JP04349594A Expired - Fee Related JP3408611B2 (en) 1994-03-15 1994-03-15 Heating control device in windows of buildings

Country Status (1)

Country Link
JP (1) JP3408611B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4809124B2 (en) * 2006-05-18 2011-11-09 エアサイクルハウジング株式会社 Lighting fixtures and building components
JP2011082191A (en) * 2011-01-14 2011-04-21 Air Cycle Housing Co Ltd Lighting fixture, and building member

Also Published As

Publication number Publication date
JPH07253220A (en) 1995-10-03

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