JP3340714B2 - House heating system using a heat storage type heat supply device - Google Patents
House heating system using a heat storage type heat supply deviceInfo
- Publication number
- JP3340714B2 JP3340714B2 JP2000011997A JP2000011997A JP3340714B2 JP 3340714 B2 JP3340714 B2 JP 3340714B2 JP 2000011997 A JP2000011997 A JP 2000011997A JP 2000011997 A JP2000011997 A JP 2000011997A JP 3340714 B2 JP3340714 B2 JP 3340714B2
- Authority
- JP
- Japan
- Prior art keywords
- heat
- house
- hot water
- supply device
- heat storage
- 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
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/25—Greenhouse technology, e.g. cooling systems therefor
Landscapes
- Greenhouses (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本願発明は、農業分野におけ
るすべてのハウス栽培において、ハウス内の温度を管理
して植物の栽培促進を図るハウス内加温システムに関
し、特に熱源として蓄熱式熱供給装置を用いたハウス内
加温システムに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating system in a house for promoting the cultivation of plants by controlling the temperature in the house in all house cultivation in the field of agriculture, and more particularly to a heat storage type heat supply device as a heat source. It relates to the in-house heating system used.
【0002】[0002]
【従来の技術】近年、メロン、苺等の各種の果物や、ト
マト、キュウリ等の各種の野菜、キキョウ等に代表され
る花卉等の各種植物の栽培が、ビニールハウス等による
ハウス栽培で盛んに行われてきている。かかるハウス栽
培は、冬場においても太陽熱を利用することにより、ハ
ウス内の温度を植物栽培に適した温度に保つことができ
るので、栽培植物の成長を十分に促すことができる。し
かし、冬場の夕方から夜、そして朝方にかけての時間帯
や、曇りの日、雨や雪の日には、ハウス内の温度をハウ
スの保温効果のみでは適温に保つのが困難であった。こ
れを考慮して、従来ハウスの多くは、何らかの加温装置
を付属装置として設置している。かかる目的の加温装置
としては、ガス、石油、重油等をボイラ等で燃焼させて
熱源として用いる方式の装置がある。これらは、燃焼に
よって加温した空気を直接又は熱交換して送風ダクト等
介してハウス内に供給する方式や、温水をハウス内に張
り巡らせたパイプ等に供給して暖める方式のものであっ
た。2. Description of the Related Art In recent years, the cultivation of various fruits such as melons and strawberries, various vegetables such as tomatoes and cucumber, and various plants such as flowers such as kikyo has become popular in greenhouse cultivation. Is being done. In such house cultivation, the temperature in the house can be maintained at a temperature suitable for plant cultivation by utilizing solar heat even in winter, so that the growth of cultivated plants can be sufficiently promoted. However, it was difficult to keep the temperature in the house at an appropriate temperature only in the house from the evening of the winter to the evening and then to the morning, on a cloudy day, or on a rainy or snowy day. In consideration of this, many conventional houses have some kind of heating device installed as an accessory device. As a heating device for such a purpose, there is a device of a system in which gas, oil, heavy oil, or the like is burned in a boiler or the like and used as a heat source. These are systems in which air heated by combustion is directly or heat-exchanged and supplied into a house through a ventilation duct or the like, or a system in which warm water is supplied to a pipe or the like stretched around the house and heated. .
【0003】[0003]
【発明が解決しようとする課題】しかし、上記の加温方
式を採る装置では、いずれも燃料を燃焼させることにな
るので、排気に窒素酸化物や一酸化酸素や亜硫酸ガス等
が含まれ、それらガスの充満によるハウス内の作業環境
の悪化や、これらガスへの内的または外的要因による化
学変化によって起こる栽培植物へ悪影響が問題化してい
た。However, in any of the apparatuses employing the above-described heating method, fuel is burned, so that the exhaust gas contains nitrogen oxides, oxygen monoxide, sulfur dioxide, etc. Problems have arisen that the working environment in the house is degraded due to the filling of the gas, and that the cultivated plants are adversely affected by chemical changes due to internal or external factors to these gases.
【0004】また、ボイラ等の設備設置や管理設備の為
のイニシャルコストや設置スペースの確保等の問題があ
り、これら加温装置の設置は大規模施設での利用に限ら
れるというのが現状であった。さらに、燃焼装置を付帯
するため常に火災などの危機回避を配慮してければなら
ない煩わしさがあった。そして、上記問題点を考慮した
設備の充実は、過重なコスト負担を招き、ひいてはハウ
ス栽培商品へのコスト上昇に繋がっていた。[0004] Further, there are problems such as initial costs and installation space for boilers and other equipment installation and management equipment, and the installation of these heating devices is currently limited to use in large-scale facilities. there were. In addition, there is a trouble that a fire device or the like must always be considered in order to attach a combustion device. Further, the enhancement of the facilities in consideration of the above problems has caused an excessive cost burden, which has led to an increase in the cost of house cultivation products.
【0005】[0005]
【目的】そこで、本願発明は上記した各問題点に着目し
て為されたものであり、排気等の発生しない加温方式を
採用し、イニシャルコストの節約及び設置スペースの省
スペース化を目的とし、さらには危険が少なく安全であ
り、運転コストを低く抑えることができる蓄熱式熱供給
装置を用いたハウス内加温システムを提供するものであ
る。Therefore, the present invention has been made in view of the above-mentioned problems, and aims at adopting a heating method that does not generate exhaust gas, etc., to reduce initial costs and save installation space. Another object of the present invention is to provide an in-house heating system using a regenerative heat supply device that is safe with less danger and can keep operating costs low.
【0006】[0006]
【課題を解決するための手段】上記目的を達成するため
に、本願発明にかかる蓄熱式熱供給装置を用いたハウス
内加温システムは、充填した蓄熱材(10)と、該蓄熱
材(10)を加熱するための加熱手段(12)と、該蓄
熱材(10)内に水(W)を流通させる熱交換回路(1
3)と、から成る蓄熱式熱供給装置(1)と、前記熱交
換回路(13)と連通し、ハウス(H)内の適宜の個所
に適宜の個数設置し、前記蓄熱式熱供給装置(1)で生
成した加熱水蒸気(S)を散布する蒸気散布手段(5
2)と、から成ることを特徴としている。In order to achieve the above object, a heating system in a house using a heat storage type heat supply device according to the present invention comprises a filled heat storage material (10) and a heat storage material (10). ) And a heat exchange circuit (1) for flowing water (W) through the heat storage material (10).
3) and a regenerative heat supply device (1) comprising: a regenerative heat supply device (1) communicating with the heat exchange circuit (13); Steam spraying means (5) for spraying the heated steam (S) generated in 1).
2).
【0007】また、熱交換回路(13)から蒸気散布手
段(52)へ至るハウス(H)内の配管路中の適宜個所
に、放熱手段(5)を連結したことを特徴としている。Further, a heat radiating means (5) is connected to an appropriate portion in a pipe line in the house (H) from the heat exchange circuit (13) to the steam dispersing means (52).
【0008】さらに、充填した蓄熱材(10)と、該蓄
熱材(10)を加熱するための加熱手段(12)と、該
蓄熱材(10)内に水(W)を流通させる熱交換回路
(13)と、から成る蓄熱式熱供給装置(1)と、前記
熱交換回路(13)によって生成した水蒸気(S)を供
給して、予め貯留させた水(W)を温水(O)化して貯
水する温水タンク(6)と、該温水タンク(6)からハ
ウス(H)内の適宜の経路を配管して温水タンク(6)
に戻る温水管路(61)と、該温水管路(61)の適宜
個所に適宜の個数配置した放熱手段(5)と、から成る
ことを特徴としている。Further, the filled heat storage material (10), heating means (12) for heating the heat storage material (10), and a heat exchange circuit for flowing water (W) through the heat storage material (10). test (13), a regenerative heat supply device (1) consisting of the heat exchange circuit (13) to thus generated steam (S)
Feeding to hot water previously heated tank reservoir is not a water (W) to the water with hot water (O) of the (6), pipe the appropriate path within the house (H) from the hot water tank (6) Tank (6)
And a heat radiating means (5) disposed in an appropriate number of places in the hot water pipe (61).
【0009】なお、上記の特許請求の範囲及び課題を解
決するための手段の欄で記載した括弧付き符号は、発明
の構成の理解を容易にするために参考として図面符号を
付したもので、この図面上の形態に限定するものでない
ことはもちろんである。Note that the reference numerals in parentheses described in the claims and in the section of "Means for Solving the Problems" are given with reference numerals in the drawings for reference in order to facilitate understanding of the structure of the invention. Of course, the present invention is not limited to the form on the drawing.
【0010】[0010]
【発明の実施の形態】以下、本願発明の実施の形態例に
ついて、図面に基づき詳細に説明する。図1は本願発明
の1つの実施形態を示す概略図であり、図2は本願発明
の他の実施形態を示す概略図である。Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a schematic diagram showing one embodiment of the present invention, and FIG. 2 is a schematic diagram showing another embodiment of the present invention.
【0011】本願発明にかかる蓄熱式熱供給装置を用い
たハウス内加温システムの実施形態は、主に、蓄熱式熱
供給装置(以下、「熱供給装置」と略称する。)1、放
熱手段5、加温状態を制御する制御装置7から成る。The embodiment of the in-house heating system using the regenerative heat supply device according to the present invention is mainly composed of a regenerative heat supply device (hereinafter abbreviated as "heat supply device") 1 and a radiator. 5, a control device 7 for controlling the heating state.
【0012】[実施形態1の構成]熱供給装置1は、蓄
熱材10と加熱手段である電気ヒータ12、及び熱交換
回路13とからなり、該蓄熱材10は、蓄熱効率の高い
物質から形成され、断熱材で被った密封容器からなる充
填槽11内に充填収納している。この蓄熱材10内に
は、内部を効率よくかつ均一に加熱し得るように加熱手
段としての電気ヒータ12を配置している。さらに、こ
の蓄熱材10の充填域には、蓄えた熱量を効率的に熱交
換し得るように、例えば、コイル状又は往復回路状配管
の熱交換回路13を配設している。そして、該熱交換回
路13内には、付帯配置した貯水タンク2から送流ポン
プ3を介して適宜に供給される水Wを、熱媒体として流
通させている。なお、この水Wは水道水や地下水等を適
宜選択するものである。[Configuration of First Embodiment] The heat supply device 1 includes a heat storage material 10, an electric heater 12 as a heating means, and a heat exchange circuit 13, and the heat storage material 10 is formed from a material having a high heat storage efficiency. It is filled and stored in a filling tank 11 composed of a sealed container covered with a heat insulating material. In the heat storage material 10, an electric heater 12 as a heating means is arranged so that the inside can be efficiently and uniformly heated. Further, a heat exchange circuit 13 of, for example, a coil-shaped or reciprocating circuit-shaped pipe is provided in a region where the heat storage material 10 is filled so that the stored heat can be efficiently exchanged. In the heat exchange circuit 13, water W appropriately supplied from the water storage tank 2 attached thereto via the feed pump 3 is circulated as a heat medium. In addition, this water W selects tap water, groundwater, etc. suitably.
【0013】次に、上記熱交換回路13の流出側には、
加熱されて水蒸気Sとなった気体を流通させる送気管4
が、開閉塞手段である元弁14を介して接続している。
また該送気管4には、通路遮断手段である電磁弁40を
介してハウスH内部の配設した放熱手段5の加熱管50
と連通接続している。Next, on the outflow side of the heat exchange circuit 13,
An air supply pipe 4 through which a gas that has been heated and turned into steam S flows.
Are connected via a main valve 14 which is an open / close means.
The heating pipe 50 of the heat radiating means 5 disposed inside the house H is connected to the air supply pipe 4 via an electromagnetic valve 40 as a passage blocking means.
Is in communication with
【0014】該加熱管50には、周辺空気との熱交換効
率を向上するため、円盤状のフィン51を多数個環装し
ている。また、前記加熱管50の適宜の位置には、電磁
弁53を介した蒸気散布手段52を、加熱管50から垂
下状に配設している。なお、この蒸気散布手段52は、
加熱蒸気を周辺へ直接散布してハウスH内を加温するも
のであるため、蒸気が直接植物にかからないように、そ
の配置位置を配慮する必要があり、カバー等にてそれぞ
れの蒸気散布手段52を被うように配設することが望ま
しい(図示省略)。The heating tube 50 is provided with a large number of disk-shaped fins 51 in order to improve the efficiency of heat exchange with the surrounding air. Further, at an appropriate position of the heating pipe 50, a vapor spraying means 52 via an electromagnetic valve 53 is disposed so as to hang down from the heating pipe 50. In addition, this steam spraying means 52
Since the heating steam is directly sprayed to the surroundings to heat the inside of the house H, it is necessary to consider the arrangement position of the steam H so that the steam does not directly hit the plants. It is desirable to arrange so as to cover (not shown).
【0015】また、ハウスH内、若しくはハウスH外の
適当な位置には、炭酸ガスボンベ等の炭酸ガス供給手段
を設置し、光合成の促進に必要な炭酸ガス(CO2)を
ハウス内にを供給するようにしてもよい(図示省略)。Further, a carbon dioxide gas supply means such as a carbon dioxide gas cylinder is provided at an appropriate position inside or outside the house H to supply carbon dioxide (CO 2 ) necessary for promoting photosynthesis into the house. (Not shown).
【0016】制御装置7は温度感知装置54からの信号
をフィードバックして上記電磁弁40、53を開閉制御
して、ハウスH内の温度を調整している。該制御装置7
の設置位置はハウスHの外側及び内側のどちらでも良
い。なお、本実施形態では外側に設置している。The controller 7 feeds back a signal from the temperature sensor 54 to control the opening and closing of the solenoid valves 40 and 53 to adjust the temperature in the house H. The control device 7
May be located outside or inside the house H. In this embodiment, it is installed outside.
【0017】[実施形態1の作用]以上のように構成し
た実施形態1は、次のように作用する。先ず、電気ヒー
タ12で加熱された蓄熱材10は、その蓄熱効果で所定
熱量を長時間保持する。この電気ヒータ12への給電
は、例えば、電力コストを考慮して深夜電力等を利用す
ると良い。[Operation of the First Embodiment] The first embodiment configured as described above operates as follows. First, the heat storage material 10 heated by the electric heater 12 retains a predetermined amount of heat for a long time due to its heat storage effect. For the power supply to the electric heater 12, for example, midnight power may be used in consideration of power cost.
【0018】かかる蓄熱材10が所定の熱量を蓄えた状
態で保持しておき、必要時に送流ポンプ3を起動させる
ことにより、貯水タンク2から水Wを熱交換回路13に
送流させる(矢印a)。かかる流水Wは、熱交換回路1
3で熱交換により加熱されて水蒸気Sとなり、元弁14
の開成により送気管4を流通し(矢印b)、制御装置7
からの制御信号による電磁弁40の開成により、加熱管
50内を流通することになる。そして、流通する加熱水
蒸気Sは、フィン51と蒸気散布手段52の適宜な開成
により、効果的に熱交換が行われて付近の雰囲気温度を
上昇させ、さらにこの加温空気は自然対流によってハウ
スH内へ行き渡ることにより、ハウスH内の環境温度を
上昇させることになる。The heat storage material 10 holds a predetermined amount of heat in a state of being stored, and when necessary, starts the water supply pump 3 to flow the water W from the water storage tank 2 to the heat exchange circuit 13 (arrow). a). The flowing water W is supplied to the heat exchange circuit 1
In step 3, the steam is heated by heat exchange to become steam S,
Flow through the air supply pipe 4 (arrow b), and the control device 7
When the solenoid valve 40 is opened according to the control signal from the heater, the gas flows through the heating pipe 50. The flowing heated steam S is effectively exchanged heat by appropriately opening the fins 51 and the steam dispersing means 52 to raise the ambient temperature in the vicinity, and further, the heated air is supplied to the house H by natural convection. By spreading the inside, the environmental temperature in the house H is increased.
【0019】[実施形態2の構成]次に実施形態2は、
上記実施形態1とは熱供給装置1からハウスH内への熱
供給方法が異なるものである。上記実施形態1が熱供給
装置1からの水蒸気Sを直接ハウスH内に配管流通させ
たり、直接雰囲気中に散布するのに対して、実施形態2
は熱供給装置1からの加熱水蒸気Sで、途中の温水タン
ク6に貯留させた水Wを温水O化し、その温水Oをハウ
スH内に配管した温水管路61を流通させることによ
り、ハウスH内の環境温度を上昇させるものである。[Structure of Embodiment 2] Next, Embodiment 2
Embodiment 2 is different from Embodiment 1 in the method of supplying heat from the heat supply device 1 into the house H. Embodiment 2 is different from Embodiment 1 in that the steam S from the heat supply device 1 is directly circulated through a pipe in the house H or is directly dispersed in the atmosphere.
Is heated steam S from the heat supply device 1, the water W stored in the hot water tank 6 on the way is turned into hot water O, and the hot water O is passed through a hot water pipe 61 piped in the house H, so that the house H It raises the environmental temperature inside.
【0020】ここで、熱供給装置1、貯留タンク2、送
流ポンプ3、送気管4、及び放熱手段5は、上記実施形
態1と同様な構成であるため、図面上に同一符号を付し
て、構成の詳細な説明を省略する。Here, since the heat supply device 1, the storage tank 2, the inflow pump 3, the air supply pipe 4, and the radiating means 5 have the same configuration as in the first embodiment, they are denoted by the same reference numerals in the drawings. Therefore, a detailed description of the configuration will be omitted.
【0021】実施形態2の温水タンク6は、ハウスH外
に設置しており、該温水タンク6の内部には元弁14及
び電磁弁40を介して熱供給装置1に連通接続した送気
管4を導入している。またこれとは別に、該温水タンク
6には、送流ポンプ3を貯水タンク2と連通した給水管
60を接続している。さらに、この温水タンク6には、
ハウスH内において循環経路を構成する温水管路61を
接続している。すなわち、温水タンク6の底部付近から
温水ポンプ62を介してハウスH内の天井付近を配管し
て往路を構成し、復路をハウスH内の地面付近に配設し
て温水タンク6の上部側面に接続することにより構成し
たものである。さらに、往路側の温水管路61の適宜位
置には、放熱手段5である加熱管50を適宜な個数配置
している。The hot water tank 6 of the second embodiment is installed outside the house H. Inside the hot water tank 6, an air supply pipe 4 connected to the heat supply device 1 through a main valve 14 and a solenoid valve 40 is connected. Has been introduced. Separately from this, a water supply pipe 60 that connects the feed pump 3 to the water storage tank 2 is connected to the hot water tank 6. Furthermore, in this hot water tank 6,
In the house H, a hot water pipe 61 forming a circulation path is connected. That is, pipes are routed from the vicinity of the bottom of the hot water tank 6 to the vicinity of the ceiling in the house H via the hot water pump 62 to form a forward path, and the return path is disposed near the ground in the house H and is located on the upper side surface of the hot water tank 6. It is configured by connecting. Further, at an appropriate position of the hot water pipe 61 on the outward path, an appropriate number of heating pipes 50 as the heat radiating means 5 are arranged.
【0022】なお、本実施形態では温水タンク6をハウ
スH外に設置しているが、その設置スペースが確保可能
であればハウスH内に設置しても良い。Although the hot water tank 6 is installed outside the house H in the present embodiment, it may be installed inside the house H if the installation space can be secured.
【0023】[実施形態2の作用]以上のように構成し
た本願発明の実施形態2は、実施形態1と同様に機能し
た熱供給装置1から供給された水蒸気Sが、送気管4を
介して温水タンク6に供給されて、予め貯留タンク2よ
り給水管60を介して貯留していた温水タンク6内の水
Wを加熱して温水Oを生成する。[Operation of Second Embodiment] In the second embodiment of the present invention configured as described above, the steam S supplied from the heat supply device 1 functioning in the same manner as the first embodiment is supplied through the air supply pipe 4. The water W in the hot water tank 6 that is supplied to the hot water tank 6 and stored in advance from the storage tank 2 via the water supply pipe 60 is heated to generate hot water O.
【0024】そして、かかる温水Oが、温水ポンプ62
によりハウスH内の温水管路61に流通し(矢印c)、
加熱管50の熱交換によりハウスH内の環境温度を上昇
させて、温水タンク6に戻ることになる(矢印d)。The hot water O is supplied to a hot water pump 62.
Circulates through the hot water pipe 61 in the house H (arrow c),
The heat exchange of the heating pipe 50 raises the environmental temperature in the house H and returns to the hot water tank 6 (arrow d).
【0025】[0025]
【他の構成への変更可能性】なお、上記実施例の熱供給
装置1の加熱手段としては、電気ヒータを用いている
が、これに限らず、例えば、熱電対や太陽エネルギー加
熱等の熱流回路に置き換えることも可能である。[Possibility of change to another configuration] Although an electric heater is used as the heating means of the heat supply device 1 of the above embodiment, the present invention is not limited to this. For example, a heat flow such as a thermocouple or solar energy heating is used. It is also possible to replace with a circuit.
【0026】[0026]
【効果】本願発明は上記のように構成することで、予め
蓄熱しておいた蓄熱材からの熱量供給により水蒸気の生
成をするようにしていると共に、必要時に必要な熱量を
迅速に取り出して対応することが可能であるので、燃料
の燃焼による排気等の環境もしくは栽培植物への悪影響
の問題がない。According to the present invention, as described above, water vapor is generated by supplying heat from a heat storage material which has stored heat in advance, and a necessary amount of heat is quickly taken out when necessary. Therefore, there is no problem of adverse effects on the environment or cultivated plants such as exhaust gas due to the combustion of fuel.
【0027】また、ボイラ等の大型設備や管理設備の設
置の必要が無い為、イニシャルコストの節約、及び設置
スペースの省スペース化も図ることが可能となる。Since there is no need to install large-scale equipment such as a boiler or management equipment, it is possible to save initial costs and save installation space.
【0028】さらには、熱源を加熱ヒータによって蓄熱
した蓄熱材から取り出すようにしているため、安全であ
ると共に電気ヒータへの電力供給を低料金の深夜電力が
利用可能となり、運転コストを低く抑える効果を有す
る。Further, since the heat source is taken out of the heat storage material stored by the heater, the power supply to the electric heater is safe and low-night power can be used at a low rate, and the operation cost can be reduced. Having.
【図1】 本願発明の1つの実施形態を示す概略図であ
る。FIG. 1 is a schematic diagram showing one embodiment of the present invention.
【図2】 本願発明の他の実施形態を示す概略図であ
る。FIG. 2 is a schematic view showing another embodiment of the present invention.
1 熱供給装置(蓄熱式熱供給装置) 10 蓄熱材 11 充填槽 12 電気ヒータ 13 熱交換回路 14 元弁 2 貯水タンク 3 送流ポンプ 4 送気管 40 電磁弁(送気管の) 5 放熱手段 50 加熱管 51 フィン 52 蒸気散布手段 53 電磁弁(蒸気散布手段の) 54 温度感知装置 6 温水タンク 60 給水管 61 温水管路 62 温水ポンプ 7 制御装置 H ハウス B 植物 W 水 S 水蒸気 O 温水 REFERENCE SIGNS LIST 1 heat supply device (heat storage heat supply device) 10 heat storage material 11 filling tank 12 electric heater 13 heat exchange circuit 14 main valve 2 water storage tank 3 sending pump 4 air supply pipe 40 solenoid valve (of air supply pipe) 5 heat radiation means 50 heating Pipe 51 Fin 52 Steam dispersing means 53 Solenoid valve (of steam dispersing means) 54 Temperature sensing device 6 Hot water tank 60 Water supply pipe 61 Hot water pipeline 62 Hot water pump 7 Controller H House B Plant W Water S Steam O Hot water
Claims (3)
0)を加熱するための加熱手段(12)と、該蓄熱材
(10)内に水(W)を流通させる熱交換回路(13)
と、から成る蓄熱式熱供給装置(1)と、 前記熱交換回路(13)と連通し、ハウス(H)内の適
宜の個所に適宜の個数設置し、前記蓄熱式熱供給装置
(1)で生成した加熱水蒸気(S)を散布する蒸気散布
手段(52)と、 から成る蓄熱式熱供給装置を用いたハウス内加温システ
ム。A heat storage material filled with said heat storage material.
0) and a heat exchange circuit (13) for flowing water (W) through the heat storage material (10).
And a heat storage type heat supply device (1), which communicates with the heat exchange circuit (13) and is installed at an appropriate number of places in the house (H). And a steam dispersing means (52) for dispersing the heated steam (S) generated in (1), and a house heating system using a regenerative heat supply device comprising:
2)へ至るハウス(H)内の配管路中の適宜個所に、放
熱手段(5)を連結したことを特徴とする請求項1記載
の蓄熱式熱供給装置を用いたハウス内加温システム。2. A steam distribution means (5) from a heat exchange circuit (13).
2. A heating system in a house using a regenerative heat supply device according to claim 1, wherein a heat radiating means (5) is connected to an appropriate place in a pipe line in the house (H) leading to 2).
0)を加熱するための加熱手段(12)と、該蓄熱材
(10)内に水(W)を流通させる熱交換回路(13)
と、から成る蓄熱式熱供給装置(1)と、 前記熱交換回路(13)によって生成した水蒸気(S)
を供給して、予め貯留させた水(W)を温水(O)化し
て貯水する温水タンク(6)と、 該温水タンク(6)からハウス(H)内の適宜の経路を
配管して温水タンク(6)に戻る温水管路(61)と、 該温水管路(61)の適宜個所に適宜の個数配置した放
熱手段(5)と、 から成ること特徴とした蓄熱式熱供給装置を用いたハウ
ス内加温システム。3. A filled heat storage material (10) and said heat storage material (1).
0) and a heat exchange circuit (13) for flowing water (W) through the heat storage material (10).
When a regenerative heat supply device (1) consisting of, and thus produced in the heat exchange circuit (13) water vapor (S)
Supplies, previously hot water tank reservoir is not a water (W) to the water with hot water (O) of the (6), pipe the appropriate path within the house (H) from the hot water tank (6) A regenerative heat supply device, comprising: a hot water pipe (61) returning to the hot water tank (6); and a heat radiating means (5) arranged in an appropriate number at an appropriate position in the hot water pipe (61). House heating system used.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2000011997A JP3340714B2 (en) | 2000-01-20 | 2000-01-20 | House heating system using a heat storage type heat supply device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2000011997A JP3340714B2 (en) | 2000-01-20 | 2000-01-20 | House heating system using a heat storage type heat supply device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JP2001204270A JP2001204270A (en) | 2001-07-31 |
| JP3340714B2 true JP3340714B2 (en) | 2002-11-05 |
Family
ID=18539780
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2000011997A Expired - Fee Related JP3340714B2 (en) | 2000-01-20 | 2000-01-20 | House heating system using a heat storage type heat supply device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3340714B2 (en) |
Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP4738460B2 (en) * | 2008-08-29 | 2011-08-03 | 有限会社金木屋工業 | Regenerative heating system |
| KR101436440B1 (en) | 2012-10-16 | 2014-09-03 | (주)양협 | Greenhouse and hydroponic cultivation for axis column expression heat pump airconditioning, heating system |
| CN105165477A (en) * | 2015-08-25 | 2015-12-23 | 丹阳市香逸林果专业合作社 | Moisture retaining and heating apparatus for liquidambar styraciflua cutting seedling |
| CN105309240A (en) * | 2015-10-14 | 2016-02-10 | 锡山区先锋家庭农场 | Steam heating device for greenhouse |
| CN106063404A (en) * | 2016-06-28 | 2016-11-02 | 北京航空航天大学 | A kind of self-driven multifunctional mobile straw and the improvement of root stubble utilization system |
-
2000
- 2000-01-20 JP JP2000011997A patent/JP3340714B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JP2001204270A (en) | 2001-07-31 |
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