JP3084852B2 - Carbonated spring production equipment - Google Patents
Carbonated spring production equipmentInfo
- Publication number
- JP3084852B2 JP3084852B2 JP03308767A JP30876791A JP3084852B2 JP 3084852 B2 JP3084852 B2 JP 3084852B2 JP 03308767 A JP03308767 A JP 03308767A JP 30876791 A JP30876791 A JP 30876791A JP 3084852 B2 JP3084852 B2 JP 3084852B2
- Authority
- JP
- Japan
- Prior art keywords
- hot water
- combustion gas
- water
- discharge
- water supply
- 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
Landscapes
- Bathtub Accessories (AREA)
- Treating Waste Gases (AREA)
- Gas Separation By Absorption (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、炭酸ガスを含む燃焼ガ
スを溶解させて炭酸ガスを含んだ湯または水を得る炭酸
泉製造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 carbonated spring manufacturing apparatus for dissolving a combustion gas containing carbon dioxide gas to obtain hot water or water containing carbon dioxide gas.
【0002】[0002]
【従来の技術】従来この種の炭酸泉製造給湯装置には、
図8に示すようなものがあった。図中の実線矢印は湯水
の流れ方向、波線は燃焼ガスの流れ方向を示している。2. Description of the Related Art Conventionally, this type of carbonated spring manufacturing and hot water supply apparatus includes:
There was one as shown in FIG. In the figure, solid arrows indicate the flow direction of hot water and dashed lines indicate the flow direction of combustion gas.
【0003】鉛直方向上方の一端を大気解放した燃焼室
1と、燃焼室1の側面に設けられ水平方向に火炎fを形
成する燃焼手段2と、この燃焼手段2より下方の燃焼室
1に連接した湯を貯めておく貯湯室3と、燃焼室1内の
上方より下方に水を供給する給水路4と、貯湯室3に貯
った湯を所定の場所に供給するため貯湯室3に接続され
た給湯路5と、給湯路5の途中に設けた搬送装置6から
構成されている。そして水は給水路4を通って燃焼室1
内部に吐出され、燃焼手段2で形成された火炎fと直接
接触して熱交換されるとともに燃焼ガス中の二酸化炭素
が溶解した湯となる。湯は鉛直下方に落下し貯湯室3に
貯った後、搬送装置6により給湯路5を介して所定の場
所に供給されるようになっていた。[0003] A combustion chamber 1 whose upper end in the vertical direction is open to the atmosphere, a combustion means 2 provided on a side surface of the combustion chamber 1 for forming a flame f in a horizontal direction, and a combustion chamber 1 below the combustion means 2 are connected. A hot water storage chamber 3 for storing hot water, a water supply passage 4 for supplying water downward from above in the combustion chamber 1, and a hot water storage chamber 3 for supplying hot water stored in the hot water storage chamber 3 to a predetermined location. A hot water supply path 5 is provided, and a transport device 6 provided in the middle of the hot water supply path 5. And the water passes through the water supply channel 4 and the combustion chamber 1
It is discharged into the inside, and is brought into direct contact with the flame f formed by the combustion means 2 to exchange heat and become hot water in which carbon dioxide in the combustion gas is dissolved. The hot water falls vertically downward and is stored in the hot water storage chamber 3, and then supplied to a predetermined location by the transport device 6 via the hot water supply path 5.
【0004】[0004]
【発明が解決しようとする課題】しかしながら、上記の
ような構成では、貯湯室3を有するとともに、貯湯室3
に貯った湯を搬送するための搬送装置6が必要となり非
常に機器容積が大きくなる。また水道と縁切りをしてい
るため2階等への給湯の際には流量が不足し、それを補
うために大流量の搬送装置6が必要であった。また燃焼
室1内に水を噴霧し熱交換を行なっているので燃焼が非
常に不安定となるという課題があった。However, in the above configuration, the hot water storage room 3 is provided and the hot water storage room 3 is provided.
A transport device 6 for transporting the hot water stored in the apparatus is required, and the equipment volume becomes very large. In addition, the flow rate is insufficient at the time of hot water supply to the second floor or the like because it is cut off from the water supply, and a large flow rate transfer device 6 is required to compensate for the shortage. Further, since heat is exchanged by spraying water into the combustion chamber 1, there is a problem that combustion becomes very unstable.
【0005】本発明は、かかる従来の課題を解消するも
ので、コンパクトかつ安価に医学的な効果がある血流増
加作用をもたらす炭酸泉を作るとともに、溶解しなかっ
た残留燃焼ガスが給水給湯路内を通って湯または水と共
に供給されないようにせしめ、かつ湯または水が排出路
を逆流し排出路から噴出しないようにし、安定した湯ま
たは水の供給を行なうとともに、使用上の安全性を高め
ることを目的としている。SUMMARY OF THE INVENTION The present invention solves the above-mentioned conventional problems. The present invention provides a carbonated spring which is compact and inexpensive, has a medical effect, and has a medical effect. To prevent the hot water or water from being supplied along with the hot water or water, and to prevent the hot water or water from flowing backward through the discharge path and squirting from the discharge path, to provide a stable supply of hot water or water and to enhance safety in use. It is an object.
【0006】[0006]
【課題を解決するための手段】上記課題を解決するため
に、本発明炭酸泉製造装置の第1手段は、湯または水が
通る給水給湯路と、二酸化炭素を含む燃焼ガスが通る燃
焼ガス導入路と、燃焼ガス導入路から供給された燃焼ガ
スを給水給湯路内に導入し燃焼ガス中の二酸化炭素を溶
解する給水給湯路の途中に設けた燃焼ガス導入手段と、
湯または水と湯または水に溶解しなかった残留燃焼ガス
を分離する燃焼ガス導入手段の給水給湯路下流側に設け
た気液分離手段と、気液分離手段において分離した残留
燃焼ガスを気液分離手段から排出する排出路と、排出路
内を流れる残留燃焼ガスの流量を調節する排出路の途中
に設けた排出量調節手段と、排出量調節手段を制御する
制御手段とを備えたものである。Means for Solving the Problems To solve the above problems, the first means of the carbonated spring manufacturing apparatus according to the present invention comprises a hot water supply passage through which hot water or water passes, and a combustion gas introduction passage through which a combustion gas containing carbon dioxide passes. And combustion gas introduction means provided in the middle of the hot water supply path for introducing the combustion gas supplied from the combustion gas introduction path into the hot water supply path and dissolving carbon dioxide in the combustion gas,
Gas-liquid separation means provided downstream of the hot water supply channel of the combustion gas introduction means for separating hot water or residual combustion gas not dissolved in the hot water or water, and gas-liquid separation of the residual combustion gas separated by the gas-liquid separation means. It comprises a discharge path discharged from the separation means, a discharge control means provided in the discharge path for controlling the flow rate of residual combustion gas flowing in the discharge path, and a control means for controlling the discharge control means. is there.
【0007】本発明の炭酸泉製造装置の第2手段は、本
発明炭酸泉製造装置の第1手段において、気液分離手段
内の湯または水の水位を検知する水位検知手段と、水位
検知手段からの情報に応じて排出量調節手段を制御する
制御手段を備えたものである。The second means of the carbonated spring manufacturing apparatus of the present invention is the first means of the carbonated spring manufacturing apparatus of the present invention, wherein the water level detecting means for detecting the level of hot water or water in the gas-liquid separating means; It is provided with control means for controlling the discharge amount adjusting means according to the information.
【0008】本発明の炭酸泉製造装置の第3手段は、本
発明炭酸泉製造装置の第1手段において、排出路内の湯
または水の有無を検知する湯水検知手段と、湯水検知手
段からの情報に応じて排出量調節手段を制御する制御手
段を備えたものである。[0008] The third means of the carbonated spring manufacturing apparatus of the present invention is the first means of the carbonated spring manufacturing apparatus of the present invention, wherein the hot water detecting means for detecting the presence or absence of hot water or water in the discharge path, and the information from the hot water detecting means. It is provided with control means for controlling the discharge amount adjusting means accordingly.
【0009】本発明の炭酸泉製造装置の第4手段は、本
発明炭酸泉製造装置の第1手段において、給水給湯路内
を流れる湯または水の流量を検知する水量検知手段と、
水量検知手段からの情報に応じて排出量調節手段を制御
する制御手段を備えたものである。The fourth means of the carbonated spring manufacturing apparatus according to the present invention, in the first means of the carbonated spring manufacturing apparatus according to the present invention, comprises: a water amount detecting means for detecting a flow rate of hot water or water flowing in the water supply hot water supply channel;
It is provided with control means for controlling the discharge amount adjusting means according to the information from the water amount detecting means.
【0010】本発明の炭酸泉製造装置の第5手段は、本
発明炭酸泉製造装置の第1手段において、燃焼ガス導入
路内を流れる燃焼ガスの流量を検知する燃焼ガス流量検
知手段と、前記燃焼ガス流量検知手段からの情報に応じ
て排出量調節手段を制御する制御手段を備えたものであ
る。A fifth aspect of the carbonated spring manufacturing apparatus according to the present invention is the first aspect of the carbonated spring manufacturing apparatus according to the first aspect, wherein the combustion gas flow rate detecting means for detecting a flow rate of the combustion gas flowing in the combustion gas introduction passage; It is provided with control means for controlling the discharge amount adjusting means according to the information from the flow rate detecting means.
【0011】[0011]
【作用】本発明は、上記の第1の手段により、二酸化炭
素を含んだ燃焼ガスは、燃焼ガス導入路から燃焼ガス導
入手段に導かれる。一方湯または水は給水給湯路を介し
て燃焼ガス導入手段に供給される。燃焼ガス導入手段に
おいて湯または水と燃焼ガスが混合し、熱交換するとと
もに、燃焼ガス中の水溶性の高い二酸化炭素が溶解して
炭酸ガスを含む湯または水となる。その後気液分離手段
において溶解しなかった残留燃焼ガスと炭酸ガスが溶解
した湯または水は分離され、残留燃焼ガスは排出路を介
して気液分離手段から排出される。排出路を流れる残留
燃焼ガスの流量は、排出路の途中に設けられた排出量調
節手段によって制御される。炭酸ガスが含まれる湯また
は水は気液分離手段から出て給水給湯路を介してシャワ
ーや風呂等の所定の場所に供給される。According to the present invention, the combustion gas containing carbon dioxide is guided from the combustion gas introduction passage to the combustion gas introduction means by the first means. On the other hand, hot water or water is supplied to the combustion gas introducing means via a hot water supply channel. Hot water or water is mixed with the combustion gas in the combustion gas introducing means, and heat exchange is performed. At the same time, highly water-soluble carbon dioxide in the combustion gas is dissolved to obtain hot water or water containing carbon dioxide gas. Thereafter, the residual combustion gas not dissolved and the hot water or water in which the carbon dioxide gas is dissolved are separated in the gas-liquid separation means, and the residual combustion gas is discharged from the gas-liquid separation means via the discharge path. The flow rate of the residual combustion gas flowing through the discharge path is controlled by a discharge amount adjusting means provided in the middle of the discharge path. Hot water or water containing carbon dioxide gas exits from the gas-liquid separation means and is supplied to a predetermined location such as a shower or a bath via a hot water supply channel.
【0012】制御手段は、気液分離手段内の湯または水
が多くなり、湯または水が排出路から吐出する状態にな
った場合には、排出路の通路面積を縮小し排出路内を流
れる流量が少なくなるように排出量調節手段を制御し、
湯または水が排出路から吐出するのを防ぐ。また逆に気
液分離手段内の残留燃焼ガスが多くなり、残留燃焼ガス
が給水給湯路内に湯とともに供給される状態になった場
合には、排出路の通路面積を拡大し排出路内を流れる流
量が多くなるように排出量調節手段を制御し、残留燃焼
ガスが給水給湯路から所定の場所に供給されるのを防ぎ
安全な湯または水の供給を行う。The control means reduces the passage area of the discharge passage and flows through the discharge passage when the amount of hot water or water in the gas-liquid separation means increases and the hot water or water is discharged from the discharge passage. Controlling the emission control means to reduce the flow rate,
Prevent hot or cold water from being discharged from the drain. Conversely, when the residual combustion gas in the gas-liquid separation means increases and the residual combustion gas is supplied together with the hot water into the water supply / hot water supply path, the passage area of the discharge path is enlarged, and the inside of the discharge path is increased. The discharge amount adjusting means is controlled so as to increase the flowing amount of flow, thereby preventing the residual combustion gas from being supplied to a predetermined place from the water supply / hot water supply path and supplying safe hot water or water.
【0013】また本発明の第2の手段においては、気液
分離手段内の湯または水の水位を水位検知手段で検知
し、湯または水の水位が所定の位置より高くなった場合
には、排出路の通路面積を縮小し排出路内を流れる流量
が少なくなるように排出量調節手段を制御し、湯水が排
出路から吐出するのを防ぐ。逆に湯または水の水位が所
定の位置よりも低くなった場合には、排出路の通路面積
を拡大し排出路内を流れる流量が多くなるように排出量
調節手段を制御し、残留燃焼ガスが給水給湯路から所定
の場所に供給されるのを防ぎ安全な湯または水の供給を
行う。In the second means of the present invention, the level of hot water or water in the gas-liquid separation means is detected by a water level detecting means, and when the water level of the hot water or water becomes higher than a predetermined position, The discharge amount adjusting means is controlled so as to reduce the passage area of the discharge path and reduce the flow rate in the discharge path, thereby preventing hot water from being discharged from the discharge path. Conversely, when the level of the hot water or water becomes lower than the predetermined position, the discharge control means is controlled so that the passage area of the discharge path is enlarged and the flow rate in the discharge path is increased, and the residual combustion gas is controlled. Is prevented from being supplied to a predetermined place from the hot water supply channel, and safe hot water or water is supplied.
【0014】また本発明の第3の手段においては、排出
路内の湯または水の有無を湯水検知手段で検知し、湯ま
たは水が排出路内に存在する場合には、排出路の通路面
積を縮小し排出路内を流れる流量が少なくなるように排
出量調節手段を制御し、湯または水が排出路から吐出す
るのを防ぐ。逆に湯または水が排出路内に存在しない場
合には、排出路の通路面積を拡大し排出路内を流れる流
量が多くなるように排出量調節手段を制御し、残留燃焼
ガスが給水給湯路から所定の場所に供給されるのを防ぎ
安全な湯または水の供給を行う。In the third means of the present invention, the presence or absence of hot water or water in the discharge path is detected by hot water detecting means, and when hot water or water exists in the discharge path, the passage area of the discharge path is determined. The discharge amount adjusting means is controlled so as to reduce the flow rate and flow rate in the discharge path, thereby preventing hot water or water from being discharged from the discharge path. Conversely, when hot water or water does not exist in the discharge path, the discharge control means is controlled so as to increase the passage area of the discharge path and increase the flow rate flowing in the discharge path, and the residual combustion gas is supplied to the hot water supply path. To prevent hot water or water from being supplied to a predetermined place.
【0015】また本発明の第4の手段においては、給水
給湯路の途中に湯または水の流量を水量検知手段で検知
し、湯または水の流量が所定の流量より多い場合には、
排出路の通路面積を縮小し排出路内を流れる流量が少な
くなるように排出量調節手段を制御し、湯または水が排
出路から吐出するのを防ぐ。逆に湯または水の流量が少
ない場合には、排出路の通路面積を拡大し排出路内を流
れる流量が多くなるように排出量調節手段を制御し、残
留燃焼ガスが給水給湯路から所定の場所に供給されるの
を防ぎ安全な湯または水の供給を行う。Further, in the fourth means of the present invention, the flow rate of hot water or water is detected by a water amount detecting means in the middle of the hot water supply path, and when the flow rate of hot water or water is higher than a predetermined flow rate,
The discharge amount adjusting means is controlled so as to reduce the passage area of the discharge path and reduce the flow rate in the discharge path to prevent hot water or water from being discharged from the discharge path. Conversely, when the flow rate of hot water or water is small, the discharge control means is controlled so that the passage area of the discharge passage is increased and the flow amount flowing in the discharge passage is increased, and the residual combustion gas is discharged from the water supply hot water supply passage to a predetermined amount. Provide a safe supply of hot water or water to prevent it from being supplied to the place.
【0016】また本発明の第5の手段においては、燃焼
ガス導入路内を流れる燃焼ガスの流量を燃焼ガス流量検
知手段で検知し、燃焼ガスの流量が少ない場合には、排
出路の通路面積を縮小し排出路内を流れる流量が少なく
なるように排出量調節手段を制御し、湯または水が排出
路から吐出するのを防ぐ。逆に燃焼ガスの流量が多い場
合には、排出路の通路面積を拡大し排出路内を流れる流
量が多くなるように排出量調節手段を制御し、残留燃焼
ガスが給水給湯路から所定の場所に供給されるのを防ぎ
安全な湯または水の供給を行なう。According to a fifth aspect of the present invention, the flow rate of the combustion gas flowing in the combustion gas introduction path is detected by the combustion gas flow rate detection means. If the flow rate of the combustion gas is small, the passage area of the discharge path is reduced. The discharge amount adjusting means is controlled so as to reduce the flow rate and flow rate in the discharge path, thereby preventing hot water or water from being discharged from the discharge path. Conversely, when the flow rate of the combustion gas is large, the discharge control means is controlled so that the passage area of the discharge path is increased and the flow rate flowing in the discharge path is increased, so that the residual combustion gas flows from the water supply hot water path to a predetermined location. And supply safe hot water or water.
【0017】[0017]
【実施例】以下本発明の実施例を添付図面にもとづいて
説明する。図中の実線矢印は湯水の流れ方向を示し、波
線矢印は燃焼ガスの流れ方向を示し、破線は信号線を示
している。また同一の構成要素には同一の符号を付けて
いる。Embodiments of the present invention will be described below with reference to the accompanying drawings. In the drawing, solid arrows indicate the flow direction of hot and cold water, dashed arrows indicate the flow direction of combustion gas, and dashed lines indicate signal lines. The same components are denoted by the same reference numerals.
【0018】図1は、本発明の炭酸泉製造装置の第1手
段を給湯機に応用した場合の一実施例の要部切断の概略
構成図である。7は燃焼用空気を供給する燃焼ファン8
によって供給された空気と燃料搬送管9によって供給さ
れた燃料を混合し燃焼させる燃焼手段である。燃焼手段
7から燃焼ガスの流れ方向下流側に順に燃焼室10と熱
交換器11と排気路12が連接して設けられている。1
3は湯水が流れる給水給湯路であり、給水給湯路13の
途中に熱交換器11が設けられている。給水給湯路13
によって供給された水は熱交換器11で熱交換されて湯
となり熱交換器11から出湯される。また排気路12の
途中には、燃焼ガスの一部が流れるように燃焼ガス導入
路14が排気路12から分岐して設けられている。給水
給湯路13の熱交換器11下流側には直圧型縁切り器1
5が設けられ、給水給湯路13内を湯水が逆流する場合
は逆流を阻止し、逆流のない場合には直圧型縁切り器1
5の上流の供給圧のまま湯水を流すようにしている。直
圧型縁切り器15の下流側には燃焼ガス導入路14を介
して排気路12から燃焼ガスを導入して湯中に混入する
燃焼ガス導入手段16が設けられ、さらに燃焼ガス導入
手段16の下流側には燃焼ガスと湯を分離する気液分離
手段17が設けられている。気液分離手段17と排気路
12とは排出路18で連通されている。また排出路18
の途中には排出路18内を流れる残留燃焼ガスの流量を
調節する排出量調節手段19が設けられている。FIG. 1 is a schematic configuration diagram of a main part of an embodiment in which the first means of the carbonated spring manufacturing apparatus of the present invention is applied to a water heater. 7 is a combustion fan for supplying combustion air 8
Is a combustion means for mixing and burning the air supplied by the fuel and the fuel supplied by the fuel transfer pipe 9. A combustion chamber 10, a heat exchanger 11, and an exhaust path 12 are sequentially provided downstream from the combustion means 7 in the flow direction of the combustion gas. 1
Reference numeral 3 denotes a hot water supply channel through which hot water flows, and a heat exchanger 11 is provided in the middle of the hot water supply channel 13. Water supply hot water supply channel 13
The water supplied by the heat exchanger 11 is subjected to heat exchange in the heat exchanger 11 to become hot water, and is discharged from the heat exchanger 11. In the middle of the exhaust passage 12, a combustion gas introduction passage 14 is provided branching from the exhaust passage 12 so that a part of the combustion gas flows. The direct pressure type edger 1 is located downstream of the heat exchanger 11 in the water supply hot water supply path 13.
5 is provided to prevent backflow when hot water flows backward in the water supply / hot water supply path 13, and to prevent direct backflow when there is no backflow.
The hot and cold water is allowed to flow with the supply pressure upstream of 5. Downstream of the direct pressure type edger 15, there is provided combustion gas introduction means 16 for introducing combustion gas from the exhaust path 12 through the combustion gas introduction path 14 and mixing it into the hot water, and further downstream of the combustion gas introduction means 16. Gas-liquid separation means 17 for separating combustion gas and hot water is provided on the side. The gas-liquid separating means 17 and the exhaust path 12 are communicated by a discharge path 18. Also, the discharge path 18
A discharge control means 19 for controlling the flow rate of the residual combustion gas flowing in the discharge passage 18 is provided in the middle of the process.
【0019】20は制御手段であり、排出量調節手段1
9を制御する。図2において燃焼ガス導入手段14の一
例を示す。21は給湯入口で直圧型縁切り器15に連接
している。22は給湯出口で気液分離手段17に連接し
ている。23はノズル、24はベンチュリー、25は燃
焼ガス入口で燃焼ガス導入路14に連接している。Reference numeral 20 denotes a control means, and the discharge amount adjusting means 1
9 is controlled. FIG. 2 shows an example of the combustion gas introducing means 14. Reference numeral 21 denotes a hot water supply inlet which is connected to the direct pressure type edger 15. A hot water supply outlet 22 is connected to the gas-liquid separation means 17. Reference numeral 23 denotes a nozzle, 24 denotes a venturi, and 25 denotes a combustion gas inlet which is connected to the combustion gas introduction passage 14.
【0020】上記構成において、燃焼ファン8によって
供給された空気と燃料搬送管9によって供給された燃料
は燃焼手段7によって混合され燃焼室10内に火炎fを
形成する。火炎fによって生成された燃焼ガスは熱交換
器11で給水給湯路13から供給された水と熱交換が行
なわれ、燃焼ガスは冷却されて低温となり排気路12よ
り排気される。燃焼ガスの一部は排気路12の途中から
分岐して設けた燃焼ガス導入路14を介して燃焼ガス導
入手段16へと導かれる。In the above configuration, the air supplied by the combustion fan 8 and the fuel supplied by the fuel transfer pipe 9 are mixed by the combustion means 7 to form a flame f in the combustion chamber 10. The combustion gas generated by the flame f exchanges heat with the water supplied from the hot water supply path 13 in the heat exchanger 11, and the combustion gas is cooled to a low temperature and exhausted from the exhaust path 12. A part of the combustion gas is guided to the combustion gas introduction means 16 via a combustion gas introduction path 14 which is provided by branching from the middle of the exhaust path 12.
【0021】一方熱交換器11に供給された水は湯とな
り直圧型縁切り器15に入る。直圧型縁切り器15にお
いて、給水給湯路13内を湯が逆流する場合には、逆流
が防止され、逆流のない場合には、供給された圧力を保
ちつつ給水給湯路13内を湯が流れる。その後湯は直圧
型縁切り器15の給水給湯路13下流側に設けられた燃
焼ガス導入手段16に送られる。燃焼ガスは燃焼ガス導
入路14を介して燃焼ガス導入手段16の燃焼ガス入口
25から入り、ノズル23周囲に滞留する。燃焼ガス導
入手段16では湯の供給圧によりノズル23から高速で
湯が噴出し、ベンチュリー24に入る。この際にベンチ
ュリー24はエゼクタ効果により負圧となりノズル23
の周囲の燃焼ガスがベンチュリー24に吸引される。ベ
ンチュリー24内に入った湯と燃焼ガスは、ベンチュリ
ー24内および気液分離手段17に至るまでの給水給湯
路13内で湯と直接的に接触し燃焼ガス中の水溶性の高
い二酸化炭素が湯に溶解するとともに燃焼ガスと熱交換
が行なわれる。湯に溶解しなかった燃焼ガスの残りであ
る残留燃焼ガスは気液分離手段17に入り湯と分離さ
れ、気液分離手段17内の上方に滞留し、排出路18を
介して排気路12に戻る。排気路12に戻る残留燃焼ガ
スの流量は、排出路18の途中に設けた排出量調節手段
19によって調節される。一方、二酸化炭素が溶解し温
度の上昇した湯は気液分離手段17を出て給水給湯路1
3を介してシャワーや浴槽に供給される。On the other hand, the water supplied to the heat exchanger 11 becomes hot water and enters the direct pressure type edger 15. In the direct pressure type edger 15, when hot water flows backward in the hot water supply channel 13, backflow is prevented. When there is no reverse flow, hot water flows in the hot water supply channel 13 while maintaining the supplied pressure. Thereafter, the hot water is sent to combustion gas introduction means 16 provided on the downstream side of the hot water supply channel 13 of the direct pressure type edger 15. The combustion gas enters from the combustion gas inlet 25 of the combustion gas introduction means 16 via the combustion gas introduction passage 14 and stays around the nozzle 23. In the combustion gas introducing means 16, the hot water is spouted from the nozzle 23 at high speed by the hot water supply pressure, and enters the venturi 24. At this time, the venturi 24 becomes negative pressure due to the ejector effect and the nozzle 23
Is sucked into the venturi 24. The hot water and the combustion gas that have entered the venturi 24 come into direct contact with the hot water in the venturi 24 and in the water supply hot water supply passage 13 leading to the gas-liquid separation means 17, and the highly water-soluble carbon dioxide in the combustion gas is converted into the hot water. And heat exchange with the combustion gas is performed. Residual combustion gas, which is the remainder of the combustion gas not dissolved in the hot water, enters the gas-liquid separation means 17 and is separated from the hot water, stays in the gas-liquid separation means 17 and stays in the exhaust path 12 via the discharge path 18. Return. The flow rate of the residual combustion gas returning to the exhaust passage 12 is adjusted by an emission amount adjusting means 19 provided in the middle of the exhaust passage 18. On the other hand, hot water whose temperature has risen due to the dissolution of carbon dioxide exits the gas-liquid
3 to a shower or bath.
【0022】制御手段20は、排出量調節手段19を制
御する。このような構成により水道供給圧を利用して燃
焼ガスを導入するので、従来のような搬送手段6や貯湯
室3が不要となるため、機器をコンパクトにすることが
出来る。また高圧である水道供給圧の下で直接燃焼ガス
を溶解するため、効率よく二酸化炭素を溶解することが
出来る。The control means 20 controls the discharge adjusting means 19. With such a configuration, the combustion gas is introduced using the water supply pressure, so that the conventional transporting means 6 and hot water storage chamber 3 are not required, so that the equipment can be made compact. Further, since the combustion gas is directly dissolved under a high water supply pressure, carbon dioxide can be efficiently dissolved.
【0023】また排出路18を通る残留燃焼ガスの流量
を排出量調節手段19によって調節するので、湯が排出
路18を逆流し排気路12を介して燃焼手段7内に侵入
することがなく、安定した燃焼および給湯が行えるとと
もに、給水給湯路13内に有害なCOやNOを含む残留
燃焼ガスが侵入し湯と共に供給されることもなく、使用
上の安全性が確保出来る。Further, since the flow rate of the residual combustion gas passing through the discharge passage 18 is adjusted by the discharge amount adjusting means 19, the hot water does not flow backward through the discharge passage 18 and enter the combustion means 7 through the exhaust passage 12, and Stable combustion and hot water supply can be performed, and harmful residual combustion gas containing CO and NO does not enter the water supply hot water supply passage 13 and is supplied together with hot water, so that safety in use can be ensured.
【0024】得られた炭酸ガスが溶解した湯は風呂やシ
ャワーに供給され、人体に対して血流増加作用によって
保温効果、疲労回復効果、血圧安定化効果、傷治癒効果
を発揮する。さらに燃焼ガスと湯が直接接触するため、
燃焼ガス中の水蒸気の潜熱をも回収し高効率にすること
が出来る。また燃焼ガス中の二酸化炭素が溶解するた
め、地球温暖化の原因である二酸化炭素の排出を抑制す
ることが出来る。The hot water in which the carbon dioxide gas is dissolved is supplied to a bath or shower, and exerts a heat retaining effect, a fatigue recovery effect, a blood pressure stabilizing effect, and a wound healing effect on the human body by a blood flow increasing effect. Furthermore, since the combustion gas and hot water come into direct contact,
The latent heat of water vapor in the combustion gas can also be recovered and the efficiency can be increased. Further, since carbon dioxide in the combustion gas is dissolved, the emission of carbon dioxide, which causes global warming, can be suppressed.
【0025】図3は本発明の炭酸泉製造装置の第2手段
を給湯機に応用した場合の一実施例を示すもので、上記
第1の手段の実施例と異なる点は、気液分離手段17に
水位検知手段26を設け、水位検知手段26からの情報
に基づいて制御手段20が排出量調節手段19を制御す
るようにしたことである。そしてこれ以外の構成は上記
第一の手段の実施例と同じである。また図4において同
実施例の気液分離手段17の一例を示す。27は残留燃
焼ガス出口で排出路18に連接している。また28は燃
焼ガス導入手段16に連通した湯水入口、29は湯水出
口である。26は水位検知手段であり、水位検知手段2
6のセンサ部30が気液分離手段17内に挿入されてい
る。センサ部30は、上部検知部31と中央検知部32
と下部検知部33とから構成されている。FIG. 3 shows an embodiment in which the second means of the carbonated spring manufacturing apparatus according to the present invention is applied to a water heater. The difference from the first embodiment is that the gas-liquid separating means 17 is used. Is provided with water level detecting means 26, and the control means 20 controls the discharge amount adjusting means 19 based on information from the water level detecting means 26. The other configuration is the same as that of the first embodiment. FIG. 4 shows an example of the gas-liquid separation means 17 of the embodiment. Reference numeral 27 denotes a residual combustion gas outlet which is connected to the discharge passage 18. Reference numeral 28 denotes a hot and cold water inlet communicating with the combustion gas introducing means 16, and 29 denotes a hot and cold water outlet. 26 is a water level detecting means, and the water level detecting means 2
The sixth sensor unit 30 is inserted into the gas-liquid separation unit 17. The sensor unit 30 includes an upper detection unit 31 and a center detection unit 32.
And a lower detection unit 33.
【0026】上記構成において、気液分離手段17内の
湯の水位が所定の位置より高くなった場合、即ち上部検
知部31よりも上方に水面がある場合には、上部検知部
31と中央検知部32の間に電流が流れることにより水
位が上部検知部31より上にあることを検知し、制御手
段20は排出路18を介して排気路12に戻る残留燃焼
ガスの流量が少なくなるように排出量調節手段19を制
御し、湯が排出路18を介して排気路12及び燃焼手段
7内に侵入するのを防ぐ。また逆に気液分離手段17内
の水位が所定の位置より低くなった場合には、中央検知
部32と下部検知部33の間が絶縁されることにより水
位が中央検知部32より下にあることを検知し、制御手
段20は排出路18内を介して排気路12に戻る残留燃
焼ガスの流量が多くなるように排出量調節手段19を制
御し、残留燃焼ガスが給水給湯路13内に侵入すること
を防ぐ。In the above configuration, when the water level of the hot water in the gas-liquid separation means 17 becomes higher than a predetermined position, that is, when there is a water surface above the upper detecting part 31, the upper detecting part 31 and the central detecting part The control means 20 detects that the water level is above the upper detecting section 31 by the flow of the electric current between the sections 32, and reduces the flow rate of the residual combustion gas returning to the exhaust path 12 via the discharge path 18. The discharge amount adjusting means 19 is controlled to prevent hot water from entering the exhaust path 12 and the combustion means 7 via the discharge path 18. Conversely, when the water level in the gas-liquid separation unit 17 becomes lower than a predetermined position, the water level is below the central detection unit 32 because the space between the central detection unit 32 and the lower detection unit 33 is insulated. The control means 20 controls the discharge amount adjusting means 19 so that the flow rate of the residual combustion gas returning to the exhaust path 12 via the discharge path 18 is increased, and the residual combustion gas enters the water supply hot water supply path 13. Prevent intrusion.
【0027】このような構成により、気液分離手段17
内に設けた水位検知手段26によって得られた情報に応
じて排出路18を通る残留燃焼ガスの流量を排出量調節
手段19によって調節するので、湯が排出路18を逆流
し排気路12を介して燃焼手段7内に侵入することがな
く、安定した燃焼および給湯が行えるとともに、給水給
湯路13内に有害なCOやNOを含む残留燃焼ガスが侵
入し、湯と共に供給されることもなく、使用上の安全性
が確保出来る。With such a configuration, the gas-liquid separation means 17
The flow rate of the residual combustion gas passing through the discharge path 18 is adjusted by the discharge amount adjusting means 19 according to the information obtained by the water level detecting means 26 provided in the inside, so that the hot water flows back through the discharge path 18 and passes through the exhaust path 12. And stable combustion and hot water supply can be performed without entering into the combustion means 7, and residual combustion gas containing harmful CO and NO enters the water supply hot water supply path 13 and is not supplied together with hot water. Safety in use can be ensured.
【0028】図5は本発明の炭酸泉製造装置の第3手段
を給湯機に応用した場合の一実施例を示すもので、上記
第1の手段の実施例と異なる点は、排出路18の途中
に、排出路18内に湯水が存在するか否かを検知する湯
水検知手段34を設け、湯水検知手段34からの情報に
基づいて制御手段20が排出量調節手段19を制御する
ようにしたことである。そしてこれ以外の構成は上記第
1の手段の実施例と同じである。FIG. 5 shows an embodiment in which the third means of the carbonated spring manufacturing apparatus according to the present invention is applied to a water heater. Hot water detecting means 34 for detecting whether hot water exists in the discharge passage 18, and the control means 20 controls the discharge amount adjusting means 19 based on information from the hot water detecting means 34. It is. The other structure is the same as that of the first embodiment.
【0029】上記構成において、排出路18内に湯水が
存在する場合には、制御手段20は排出路18を介して
排気路12に戻る残留燃焼ガスの流量が少なくなるよう
に排出量調節手段19を制御し、湯が排出路18を介し
て排気路12及び燃焼手段7内に侵入するのを防ぐ。ま
た逆に排出路18内に湯水が存在しない場合には、制御
手段20は排出路18内を介して排気路12に戻る残留
燃焼ガスの流量が多くなるように排出量調節手段19を
制御し、残留燃焼ガスが給水給湯路13内に侵入するこ
とを防ぐ。In the above arrangement, when hot water is present in the discharge path 18, the control means 20 controls the discharge amount adjusting means 19 so that the flow rate of the residual combustion gas returning to the exhaust path 12 via the discharge path 18 is reduced. To prevent hot water from entering the exhaust passage 12 and the combustion means 7 via the discharge passage 18. Conversely, when hot water does not exist in the discharge passage 18, the control means 20 controls the discharge amount adjusting means 19 so that the flow rate of the residual combustion gas returning to the exhaust passage 12 through the discharge passage 18 is increased. In addition, the residual combustion gas is prevented from entering the hot water supply channel 13.
【0030】このような構成により、排出路18途中に
設けた湯水検知手段34によって得られた情報に応じて
排出路18を通る残留燃焼ガスの流量を排出量調節手段
19によって調節するので、湯が排出路18を逆流し排
気路12を介して燃焼手段7内に侵入することがなく、
安定した燃焼および給湯が行えるとともに、給水給湯路
13内に有害なCOやNOを含む残留燃焼ガスが侵入
し、湯と共に供給されることもなく、使用上の安全性が
確保出来る。With such a configuration, the flow rate of the residual combustion gas passing through the discharge path 18 is adjusted by the discharge amount adjusting means 19 in accordance with the information obtained by the hot water detecting means 34 provided in the middle of the discharge path 18. Does not flow backward through the discharge path 18 and enter the combustion means 7 through the exhaust path 12,
Stable combustion and hot water supply can be performed, and residual combustion gas containing harmful CO and NO enters the hot water supply channel 13 and is not supplied together with hot water, so that safety in use can be ensured.
【0031】図6は本発明の炭酸泉製造装置の第4手段
を給湯機に応用した場合の一実施例を示すもので、上記
第1の手段の実施例と異なる点は、給水給湯路13の途
中に、給水給湯路13内を流れる湯水の流量を検知する
水量検知手段35を設け、水量検知手段35からの情報
に基づいて制御手段20が排出量調節手段19を制御す
るようにしたことである。そしてこれ以外の構成は上記
第1の手段の実施例と同じである。FIG. 6 shows an embodiment in which the fourth means of the carbonated spring manufacturing apparatus of the present invention is applied to a water heater. The difference from the first embodiment is that On the way, the water amount detecting means 35 for detecting the flow rate of hot water flowing in the water supply hot water supply passage 13 is provided, and the control means 20 controls the discharge amount adjusting means 19 based on information from the water amount detecting means 35. is there. The other structure is the same as that of the first embodiment.
【0032】上記構成において、給水給湯路13内を流
れる湯水の流量が所定の流量より多い場合には、制御手
段20は排出路18を介して排気路12に戻る残留燃焼
ガスの流量が少なくなるように排出量調節手段19を制
御し、湯が排出路18を介して排気路12及び燃焼手段
7内に侵入するのを防ぐ。また逆に給水給湯路13内を
流れる湯水の流量が所定の流量より少ない場合には、制
御手段20は排出路18内を介して排気路12に戻る残
留燃焼ガスの流量が多くなるように排出量調節手段19
を制御し、残留燃焼ガスが給水給湯路13内に侵入する
ことを防ぐ。In the above configuration, when the flow rate of hot water flowing in the hot water supply path 13 is higher than a predetermined flow rate, the control means 20 reduces the flow rate of the residual combustion gas returning to the exhaust path 12 via the discharge path 18. Thus, the discharge amount adjusting means 19 is controlled to prevent hot water from entering the exhaust path 12 and the combustion means 7 via the discharge path 18. Conversely, when the flow rate of hot water flowing in the water supply hot water supply path 13 is smaller than the predetermined flow rate, the control means 20 discharges the residual combustion gas returning to the exhaust path 12 via the discharge path 18 so as to increase the flow rate. Amount adjusting means 19
To prevent the residual combustion gas from entering the hot and cold water supply path 13.
【0033】このような構成により、給水給湯路13の
途中に設けた水量検知手段35によって得られた情報に
応じて排出路18を通る残留燃焼ガスの流量を排出量調
節手段19によって調節するので、湯が排出路18を逆
流し排気路12を介して燃焼手段7内に侵入することが
なく、安定した燃焼および給湯が行えるとともに、給水
給湯路13内に有害なCOやNOを含む残留燃焼ガスが
侵入し、湯と共に供給されることもなく、使用上の安全
性が確保出来る。With such a configuration, the flow rate of the residual combustion gas passing through the discharge path 18 is adjusted by the discharge amount adjusting means 19 according to the information obtained by the water amount detecting means 35 provided in the middle of the water supply hot water supply path 13. The hot water flows backward through the discharge path 18 and does not enter the combustion means 7 through the exhaust path 12, so that stable combustion and hot water supply can be performed, and residual combustion containing harmful CO and NO in the water supply hot water supply path 13. Gas does not enter and is not supplied together with hot water, so that safety in use can be ensured.
【0034】図7は本発明の炭酸泉製造装置の第5手段
を給湯機に応用した場合の一実施例を示すもので、上記
第1の手段の実施例と異なる点は、燃焼ガス導入路14
の途中に、燃焼ガス導入路14内を流れる燃焼ガスの流
量を検知する燃焼ガス流量検知手段36を設け、燃焼ガ
ス流量検知手段36からの情報に基づいて制御手段20
が排出量調節手段19を制御するようにしたことであ
る。そしてこれ以外の構成は上記第1の手段の実施例と
同じである。FIG. 7 shows an embodiment in which the fifth means of the carbonated spring manufacturing apparatus of the present invention is applied to a water heater. The difference from the first means is that the combustion gas introduction passage 14 is different from the first embodiment.
The combustion gas flow rate detecting means 36 for detecting the flow rate of the combustion gas flowing in the combustion gas introduction path 14 is provided in the middle of the control means 20 based on the information from the combustion gas flow rate detecting means 36.
Is to control the discharge amount adjusting means 19. The other structure is the same as that of the first embodiment.
【0035】上記構成において、燃焼ガス導入路14内
を流れる燃焼ガスの流量が所定の流量より少ない場合に
は、制御手段20は排出路18を介して排気路12に戻
る残留燃焼ガスの流量が少なくなるように排出量調節手
段19を制御し、湯が排出路18を介して排気路12及
び燃焼手段7内に侵入するのを防ぐ。また逆に燃焼ガス
導入路14内を流れる燃焼ガスの流量が所定の流量より
多い場合には、制御手段20は排出路18内を介して排
気路12に戻る残留燃焼ガスの流量が多くなるように排
出量調節手段19を制御し、残留燃焼ガスが給水給湯路
13内に侵入することを防ぐ。In the above configuration, when the flow rate of the combustion gas flowing in the combustion gas introduction path 14 is smaller than a predetermined flow rate, the control means 20 controls the flow rate of the residual combustion gas returning to the exhaust path 12 via the discharge path 18. The discharge amount adjusting means 19 is controlled so as to reduce the amount, thereby preventing hot water from entering the exhaust path 12 and the combustion means 7 via the discharge path 18. Conversely, when the flow rate of the combustion gas flowing in the combustion gas introduction passage 14 is larger than a predetermined flow rate, the control means 20 increases the flow rate of the residual combustion gas returning to the exhaust passage 12 via the discharge passage 18. The control means controls the discharge amount adjusting means 19 in order to prevent the residual combustion gas from entering the hot and cold water supply passage 13.
【0036】このような構成により、燃焼ガス導入路1
4の途中に設けた燃焼ガス流量検知手段36によって得
られた情報に応じて排出路18を通る残留燃焼ガスの流
量を排出量調節手段19によって調節するので、湯が排
出路18を逆流し排気路12を介して燃焼手段7内に侵
入することがなく、安定した燃焼および給湯が行えると
ともに、給水給湯路13内に有害なCOやNOを含む残
留燃焼ガスが侵入し、湯と共に供給されることもなく、
使用上の安全性が確保出来る。With such a configuration, the combustion gas introduction path 1
Since the flow rate of the residual combustion gas passing through the discharge path 18 is adjusted by the discharge amount adjusting means 19 according to the information obtained by the combustion gas flow rate detecting means 36 provided in the middle of the step 4, the hot water flows back through the discharge path 18 and exhausts. Stable combustion and hot water supply can be performed without entering the combustion means 7 through the passage 12, and residual combustion gas containing harmful CO and NO enters the water supply hot water supply passage 13 and is supplied together with the hot water. Without
Safety in use can be ensured.
【0037】なお、上記各実施例では湯中に二酸化炭素
を混合する場合について説明したが、水中に二酸化炭素
を混合する場合にも応用できるもので、この時は図1に
おけるバーナ7部分は熱交換器11を加熱しないような
構造にする必要がある。In each of the above embodiments, the case where carbon dioxide is mixed in hot water has been described. However, the present invention can also be applied to the case where carbon dioxide is mixed in water, in which case the burner 7 in FIG. The exchanger 11 needs to be structured so as not to be heated.
【0038】[0038]
【発明の効果】以上のように本発明の炭酸泉製造装置
は、次のような効果が得られる。 (1)給水給湯路を流れる湯中または水中に直接、燃焼
ガスを導入して二酸化炭素を溶解するため、従来の技術
で必要な貯湯室や搬送手段が不要となり、機器を非常に
コンパクトにすることが出来る。 (2)また湯水の供給圧を直接利用して湯水を搬送出来
るため搬送手段なしで二階等への搬送が出来る。 (3)さらに炭酸ガスを含む湯は風呂やシャワーに供給
され、湯を浴びることによって人体に対して保温効果、
疲労回復効果、血圧安定化効果、傷治癒効果を発揮す
る。燃焼ガス中の二酸化炭素が溶解するため、地球温暖
化の原因である二酸化炭素の排出を削減することが出来
る。湯または水と燃焼ガスが直接接触するため、燃焼ガ
ス中の水蒸気の潜熱をも回収することができ高効率にす
ることが出来る。 (4)さらにまた排出量調節手段とそれを制御する制御
手段を設け、排出路に設けた排出量調節手段を制御する
ことにより、湯が排出路から噴出することがなく、また
CO等の有害な気体を含む残留燃焼ガスが給水給湯路か
ら湯または水と共に供給されることがなく安定した湯ま
たは水の供給とともに使用上の安全性を確保出来る。As described above, the carbonated spring manufacturing apparatus of the present invention has the following effects. (1) Since the combustion gas is introduced directly into the hot water or water flowing through the hot water supply channel to dissolve the carbon dioxide, the hot water storage room and transport means required by the conventional technology become unnecessary, and the equipment is made very compact. I can do it. (2) Since hot water can be transported by directly using the supply pressure of hot water, the hot water can be transported to the second floor or the like without transport means. (3) Hot water containing carbon dioxide gas is also supplied to baths and showers.
It exerts a fatigue recovery effect, a blood pressure stabilizing effect, and a wound healing effect. Since the carbon dioxide in the combustion gas is dissolved, the emission of carbon dioxide, which causes global warming, can be reduced. Since the hot water or the water and the combustion gas are in direct contact with each other, the latent heat of water vapor in the combustion gas can also be recovered, and high efficiency can be achieved. (4) Further, by providing a discharge amount adjusting means and a control means for controlling the same, and controlling the discharge amount adjusting means provided in the discharge path, the hot water does not squirt from the discharge path, and harmful substances such as CO are generated. Since the residual combustion gas containing the noble gas is not supplied together with the hot water or the water from the water supply hot water supply channel, the stable use of the hot water or the water and the safety in use can be ensured.
【図1】本発明の炭酸泉製造装置を給湯機に応用した時
の一実施例の要部切断の概略構成図FIG. 1 is a schematic configuration diagram of a main part cut of an embodiment when a carbonated spring manufacturing apparatus of the present invention is applied to a water heater.
【図2】同実施例における燃焼ガス導入手段の断面図FIG. 2 is a cross-sectional view of a combustion gas introduction unit in the embodiment.
【図3】同装置の他の実施例において気液分離手段に水
位検知手段を設けた場合の要部切断の概略構成図FIG. 3 is a schematic configuration diagram of a main part cut when a water level detection unit is provided in a gas-liquid separation unit in another embodiment of the same device.
【図4】同装置の他実施例における気液分離手段の断面
図FIG. 4 is a sectional view of a gas-liquid separation unit in another embodiment of the apparatus.
【図5】同装置の他の実施例において排出路に湯水検知
手段を設けた場合の要部切断の概略構成図FIG. 5 is a schematic configuration diagram of a main part cut when hot water detection means is provided in a discharge path in another embodiment of the same device.
【図6】同装置の他の実施例において給水給湯路に水量
検知手段を設けた場合の要部切断の概略構成図FIG. 6 is a schematic configuration diagram of a main part cut when a water amount detection unit is provided in a water supply hot water supply channel in another embodiment of the same device.
【図7】同装置の他の実施例において燃焼ガス導入路に
燃焼ガス流量検知手段を設けた場合の要部切断の概略構
成図FIG. 7 is a schematic configuration diagram of a main part cut when a combustion gas flow detecting means is provided in a combustion gas introduction passage in another embodiment of the same device.
【図8】従来例における炭酸泉製造装置の要部切断の概
略構成図FIG. 8 is a schematic configuration diagram of a main part of a carbonated spring manufacturing apparatus according to a conventional example.
13 給水給湯路 14 燃焼ガス導入路 16 燃焼ガス導入手段 17 気液分離手段 18 排出路 19 排出量調節手段 20 制御手段 26 水位検知手段 34 湯水検知手段 35 水量検知手段 36 燃焼ガス流量検知手段 DESCRIPTION OF SYMBOLS 13 Water supply hot-water supply path 14 Combustion gas introduction path 16 Combustion gas introduction means 17 Gas-liquid separation means 18 Discharge path 19 Emission amount adjustment means 20 Control means 26 Water level detection means 34 Hot water detection means 35 Water quantity detection means 36 Combustion gas flow rate detection means
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭63−242258(JP,A) 特開 昭63−242257(JP,A) 特開 平2−194827(JP,A) 実開 昭60−102020(JP,U) 特公 昭43−19814(JP,B1) 実公 昭50−20018(JP,Y1) (58)調査した分野(Int.Cl.7,DB名) B01F 1/00,3/04 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-63-242258 (JP, A) JP-A-63-242257 (JP, A) JP-A-2-194827 (JP, A) 102020 (JP, U) JP-B-43-19814 (JP, B1) JP-B-50-20018 (JP, Y1) (58) Fields investigated (Int. Cl. 7 , DB name) B01F 1 / 00,3 / 04
Claims (5)
素を含む燃焼ガスが通る燃焼ガス導入路と、前記燃焼ガ
ス導入路から供給された燃焼ガスを前記給水給湯路内に
導入し燃焼ガス中の二酸化炭素を溶解する前記給水給湯
路に設けた燃焼ガス導入手段と、湯または水と湯または
水に溶解しなかった残留燃焼ガスを分離する前記燃焼ガ
ス導入手段の前記給水給湯路下流側に設けた気液分離手
段と、前記気液分離手段において分離した残留燃焼ガス
を前記気液分離手段から排出する排出路と、前記排出路
内を流れる残留燃焼ガスの流量を調節する前記排出路に
設けた排出量調節手段と、前記排出量調節手段を制御す
る制御手段からなる炭酸泉製造装置。A hot water supply passage through which hot water or water passes, a combustion gas introduction passage through which a combustion gas containing carbon dioxide passes, and a combustion gas supplied from the combustion gas introduction passage are introduced into the water supply hot water supply passage for combustion. Combustion gas introduction means provided in the water supply hot water supply path for dissolving carbon dioxide in gas; and hot water or water and downstream combustion combustion gas introduction means for separating residual combustion gas not dissolved in the hot water or water. Gas-liquid separating means provided on the side, a discharge path for discharging the residual combustion gas separated by the gas-liquid separating means from the gas-liquid separating means, and the discharge for adjusting a flow rate of the residual combustion gas flowing in the discharge path. An apparatus for manufacturing a carbonated spring, comprising: a discharge control means provided on a road; and control means for controlling the discharge control means.
する水位検知手段を設け、制御手段は前記水位検知手段
からの情報に応じて排出量調節手段を制御するようにし
た請求項1記載の炭酸泉製造装置。2. A water level detecting means for detecting the level of hot water or water in the gas-liquid separating means, and the control means controls the discharge amount adjusting means in accordance with information from the water level detecting means. 2. The carbonated spring manufacturing apparatus according to 1.
水検知手段を設け、制御手段は前記湯水検知手段からの
情報に応じて排出量調節手段を制御するようにした請求
項1記載の炭酸泉製造装置。3. The apparatus according to claim 1, further comprising hot water detecting means for detecting the presence or absence of hot water or water in the discharge path, and wherein the control means controls the discharge amount adjusting means in accordance with information from the hot water detecting means. Carbonated spring manufacturing equipment.
検知する水量検知手段を設け、制御手段は前記水量検知
手段からの情報に応じて排出量調節手段を制御するよう
にした請求項1記載の炭酸泉製造装置。4. A water amount detecting means for detecting a flow rate of hot water or water flowing in a water supply hot water supply passage, and a control means controls the discharge amount adjusting means in accordance with information from the water amount detecting means. 2. The carbonated spring manufacturing apparatus according to 1.
を検知する燃焼ガス流量検知手段を設け、制御手段は前
記燃焼ガス流量検知手段からの情報に応じて排出量調節
手段を制御するようにした請求項1記載の炭酸泉製造装
置。5. A combustion gas flow rate detecting means for detecting a flow rate of a combustion gas flowing in a combustion gas introduction path, and a control means controls an emission amount adjusting means in accordance with information from the combustion gas flow rate detecting means. The carbonated spring manufacturing apparatus according to claim 1, wherein
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP03308767A JP3084852B2 (en) | 1991-11-25 | 1991-11-25 | Carbonated spring production equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP03308767A JP3084852B2 (en) | 1991-11-25 | 1991-11-25 | Carbonated spring production equipment |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH05137985A JPH05137985A (en) | 1993-06-01 |
| JP3084852B2 true JP3084852B2 (en) | 2000-09-04 |
Family
ID=17985056
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP03308767A Expired - Fee Related JP3084852B2 (en) | 1991-11-25 | 1991-11-25 | Carbonated spring production equipment |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3084852B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE602005027537D1 (en) * | 2004-01-14 | 2011-06-01 | Mitsubishi Rayon Co | SYSTEM FOR PREPARING A CARBON ACID SOURCE |
-
1991
- 1991-11-25 JP JP03308767A patent/JP3084852B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH05137985A (en) | 1993-06-01 |
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