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JPH0313701A - Burning apparatus - Google Patents

Burning apparatus

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Publication number
JPH0313701A
JPH0313701A JP1148967A JP14896789A JPH0313701A JP H0313701 A JPH0313701 A JP H0313701A JP 1148967 A JP1148967 A JP 1148967A JP 14896789 A JP14896789 A JP 14896789A JP H0313701 A JPH0313701 A JP H0313701A
Authority
JP
Japan
Prior art keywords
exhaust gas
fan
exhaust
negative pressure
chamber
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP1148967A
Other languages
Japanese (ja)
Inventor
Fumitaka Kikutani
文孝 菊谷
Shiro Takeshita
竹下 志郎
Toshiya Watanabe
俊哉 渡邊
Junichi Ueda
植田 順一
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP1148967A priority Critical patent/JPH0313701A/en
Publication of JPH0313701A publication Critical patent/JPH0313701A/en
Pending legal-status Critical Current

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Abstract

PURPOSE:To reduce the nitrogen oxides without having an additional power source and achieve a stable burning by forming an exhaust gas recirculation system by adding a connecting pipe which is diverted from the exhaust gas line and has an open end near to the air intake of a fan, and providing a flow rate control means which, disposed in the way of the exhaust gas recirculation system, controls the exhaust gas recirculation rate. CONSTITUTION:When a fan 10 is operated, a negative pressure zone is created near the air intake. The exhaust gas intake 31 disposed in the casing 29 is included in this negative pressure zone, and so is the exhaust gas chamber 30. Therefore, the exhaust gas in the circulation chamber 25 is drawn into the exhaust gas chamber 30 through a connecting pipe 28 on account of the negative pressure. Such exhaust gas is introduced from the intake 31 to the fan 10, and is uniformly mixed with the fresh combustion air in the casing 29 to be supplied to the burner 11. This way, the burning becomes slow due to the inert gas and water vapor which are contained in large quantity in the exhaust gas. And, since the thermal capacity of the exhaust gas is increased, the flame temperature becomes lower, reducing the forming of the nitrogen oxides.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、給湯機や暖房機等の主として家庭用燃焼装置
の燃焼系で、特に窒素酸化物の生成を抑制する燃焼装置
に関するものである。
DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to the combustion system of mainly domestic combustion devices such as water heaters and space heaters, and particularly to a combustion device that suppresses the production of nitrogen oxides.

従来の技術 従来この種の燃焼装置として第5図に示すような工業用
の大型ボイラに応用されたものがあった。
2. Description of the Related Art Conventionally, this type of combustion apparatus has been applied to a large industrial boiler as shown in FIG.

即ち排気通路lの途中から再循環通路2が分岐されて設
けられ途中に中継ファン3と、流1m節用のダンパ4が
設置されていた。再循環排気ガスは送風ファン5から供
給される新鮮な燃焼用空気と混合し、燃料供給管6から
供給される燃料とともにバーナ7へ送り込まれ、燃焼室
8内で燃焼し熱交換器9を通過した後、排気ガスとなっ
て排気通路1を通り大気に放出されていた。ここでダン
パ4により、ボイラの種々の運転条件に対応して安定燃
焼を維持しつつ窒素酸化物の生成が最小になるように再
循環排気ガス流量制御が制御されていた。
That is, a recirculation passage 2 was branched from the middle of the exhaust passage 1, and a relay fan 3 and a damper 4 for a flow of 1 m were installed in the middle. The recirculated exhaust gas is mixed with fresh combustion air supplied from a blower fan 5 and sent to a burner 7 together with fuel supplied from a fuel supply pipe 6, where it is combusted in a combustion chamber 8 and passed through a heat exchanger 9. After that, it becomes exhaust gas and is released into the atmosphere through the exhaust passage 1. Here, the damper 4 controls the recirculated exhaust gas flow rate so as to maintain stable combustion and minimize the production of nitrogen oxides in response to various operating conditions of the boiler.

発明が解決しようとする課題 しかしこのような構成の燃焼装置ではファン3.5が複
数個必要である。また再循環排気ガス流量を調節するた
めにダンパ4を駆動するモータが必要になる。従って燃
焼装置が大型化すること、騒音が大きくなること、さら
にコストが大幅に上昇することにより、このままでは家
庭用燃焼装置としては利用することができなかった。
Problems to be Solved by the Invention However, a combustion device having such a configuration requires a plurality of fans 3.5. Furthermore, a motor is required to drive the damper 4 in order to adjust the flow rate of the recirculated exhaust gas. Therefore, the combustion apparatus becomes larger, the noise becomes louder, and the cost increases significantly, so that it cannot be used as a household combustion apparatus as it is.

そこで本発明は排気ガス再循環系を簡略化して燃焼装置
を小型化し、騒音の上昇も防止して、さらにコストを下
げることを目的とする。
Therefore, the present invention aims to simplify the exhaust gas recirculation system, downsize the combustion device, prevent noise increase, and further reduce costs.

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発明はファンと、ファンの
下流側に設けたバーナと、バーナの下流側に燃焼室と、
熱交換器と、排気通路を順次互いに密接して設け、排気
通路の途中から分岐してファンの吸気口近傍に開口を持
つ連結管を設けて排気再循環系を構成するとともに、排
気再循環系の途中に再循環排気量を制御する流量制御手
段を設けたものである。
Means for Solving the Problems In order to achieve the above objects, the present invention includes a fan, a burner provided downstream of the fan, a combustion chamber downstream of the burner,
A heat exchanger and an exhaust passage are provided in close contact with each other, and a connecting pipe is provided that branches off from the middle of the exhaust passage and has an opening near the fan intake port to constitute an exhaust gas recirculation system. A flow control means for controlling the amount of recirculated exhaust gas is provided in the middle of the flow.

作用 上記構成により、ファンが動作すると吸気口に負圧域が
発生する。連結管の開口は吸気口の近傍に設けられてい
るから、この負圧域が発生すると連結管の内部の気体は
ファンの方に引き込まれてい(ことになる、連結管の一
端は排気通路に接続されているから、排気通路を流れる
燃焼排気ガスの一部は連通管を通ってファンに導かれ新
たな駆動力を設けないでも排気再循環系が形成されるこ
とになる。また排気再循環系の途中に設けられた流量制
御手段により、燃料種や給排気抵抗に対応した最適燃焼
条件を確保するように、再循環する排気ガス流量を調節
することが可能となる。
Effect: With the above configuration, when the fan operates, a negative pressure region is generated at the intake port. Since the opening of the connecting pipe is located near the intake port, when this negative pressure region occurs, the gas inside the connecting pipe is drawn toward the fan (this means that one end of the connecting pipe is connected to the exhaust passage). Because they are connected, part of the combustion exhaust gas flowing through the exhaust passage is guided to the fan through the communication pipe, forming an exhaust recirculation system without providing any additional driving force. The flow rate control means provided in the middle of the system makes it possible to adjust the flow rate of the recirculated exhaust gas so as to ensure optimal combustion conditions corresponding to the fuel type and supply/exhaust resistance.

実施例 以下、本発明の一実施例を給湯機に応用した場合につい
て、添付図面に基づいて説明する。
Embodiment Hereinafter, a case where an embodiment of the present invention is applied to a water heater will be described based on the accompanying drawings.

第1図〜第3図において、ファン10の下流側にはバー
ナ11、水管12を巻いたドラム式の燃焼室13、フィ
ンパイプ式の熱交換器14、排気を集合する排気フード
15、排気出口を構成する排気トップ16が順次互いに
気密を保って接続されている。バーナ11にはガス燃料
の流量を調節する機能を有したガスブロック17が接続
されている。水管12の上流側である入水口には入水量
を調節する機能を有した水ブロック18が接続されてい
る。また熱交換器14の出口には出湯パイプ19が接続
され、さらにこれら給湯機本体の側方には制御ブロック
20が収納されている。
1 to 3, on the downstream side of the fan 10, there is a burner 11, a drum-type combustion chamber 13 wrapped around a water pipe 12, a fin-pipe heat exchanger 14, an exhaust hood 15 for collecting exhaust gas, and an exhaust outlet. The exhaust tops 16 constituting the exhaust tops 16 are successively connected to each other in an airtight manner. A gas block 17 having a function of adjusting the flow rate of gas fuel is connected to the burner 11. A water block 18 having a function of adjusting the amount of water entering is connected to a water inlet on the upstream side of the water pipe 12. Further, a hot water outlet pipe 19 is connected to the outlet of the heat exchanger 14, and a control block 20 is housed on the side of the main body of the water heater.

ここで排気フード15の側方には連通口21が開口して
おり、I[22を有した排気再循環用の排気カバー23
で覆われている。排気カバー23内の空間は、連通口2
1を有する小排気室24と循環室25がダンパー26に
よって仕切られている。ダンパー26には小口27が複
数個設けられている。循環室25の底面はロート状に構
成されており、連結管28が接続されている。
Here, a communication port 21 is opened on the side of the exhaust hood 15, and an exhaust cover 23 for exhaust gas recirculation having an I[22]
covered with. The space inside the exhaust cover 23 is the communication port 2.
A small exhaust chamber 24 and a circulation chamber 25 having the same size as each other are separated by a damper 26. The damper 26 is provided with a plurality of small openings 27. The bottom surface of the circulation chamber 25 is configured in the shape of a funnel, and a connecting pipe 28 is connected thereto.

一方フアン10のケーシング29の給気口近傍には排ガ
ス室30が設けられ、連結管28が接続されている。ま
た、ケーシング29の給気口近傍の負圧域を発生する位
置に排ガス吸入口31が設けられ、排ガス室30と連通
している。
On the other hand, an exhaust gas chamber 30 is provided near the air supply port of the casing 29 of the fan 10, and a connecting pipe 28 is connected thereto. Further, an exhaust gas inlet 31 is provided in the casing 29 at a position near the air supply opening where a negative pressure region is generated, and communicates with the exhaust gas chamber 30 .

次にこの一実施例の構成における作用を説明する。Next, the operation of the configuration of this embodiment will be explained.

給湯栓が開かれ給湯機本体の中を水が流れ始めると、水
ブロック18内で水流が検知され、制御ブロック20の
指令によりファン10が動作して燃焼用空気がバーナ1
1に供給される。一方燃料はガスブロック17で、制御
ブロック20により給湯負荷に応じて決定された流量が
バーナ11に供給される。供給された空気と燃料は、バ
ーナ11により燃焼室13内で燃焼し高温の燃焼排気ガ
スとなって熱交換器14にいたる、ここで水ブロック1
8、水管12を通った水は、熱交換器14内で高温排気
ガスにより加熱され湯となって出湯パイプ19を通り、
給湯に供される。一方熱を奪われた低温の排気ガスは大
部分が排気フード15に集められ、排気トップ16から
大気に放出される。
When the hot water tap is opened and water begins to flow inside the water heater body, water flow is detected within the water block 18, and the fan 10 is operated in response to a command from the control block 20 to blow combustion air to the burner 1.
1. On the other hand, fuel is supplied to the burner 11 through a gas block 17 at a flow rate determined by a control block 20 according to the hot water supply load. The supplied air and fuel are combusted in the combustion chamber 13 by the burner 11 and become high-temperature combustion exhaust gas, which reaches the heat exchanger 14, where the water block 1
8. The water that has passed through the water pipe 12 is heated by high-temperature exhaust gas in the heat exchanger 14, becomes hot water, and passes through the hot water pipe 19.
Provided for hot water supply. On the other hand, most of the low-temperature exhaust gas from which heat has been removed is collected in the exhaust hood 15 and released into the atmosphere from the exhaust top 16.

ここで排気フード15内の排気ガスの一部は連通口21
を通って小排気室24に入る。排気ガスはダンパー26
に設けられた小口27で流量を調整された後、循環室2
5に流入する。ここで排気カバー23の122を取り外
せば、ダンパー26を取り替えることができる。従って
様々な燃料種や給湯機のいろいろな設置形態に対応して
、窒素酸化物の発生を抑制し、かつ安定燃焼を確保する
ための最適な排気量を、ダンパー26を取り替えること
により容易に実現できる。
Here, a part of the exhaust gas inside the exhaust hood 15 is transferred to the communication port 21.
It passes through and enters the small exhaust chamber 24. Exhaust gas is damper 26
After the flow rate is adjusted by the small opening 27 provided in the circulation chamber 2
5. If 122 of the exhaust cover 23 is removed here, the damper 26 can be replaced. Therefore, by replacing the damper 26, the optimum displacement can be easily achieved to suppress the generation of nitrogen oxides and ensure stable combustion in response to various fuel types and various installation configurations of water heaters. can.

一方フアン10が作動すると給気口近傍には負圧域が発
生する。ケーシング29に設けられた排気ガス吸入口3
0も負圧域に含まれ、排ガス室30も負圧室となる。従
ってこの負圧により、連結管28を通じて循環室25内
の排気ガスが排ガス室30へ吸引される。この排気ガス
は排ガス吸引口31からファンlOへ入り、ケーシング
29内で新鮮な燃焼用空気と均一に混合され、再びバー
ナ11へ供給される。排気ガス中に多量に含まれる不活
性ガスと水蒸気により、緩慢燃焼となること、燃焼ガス
の熱容量が増加することにより、火炎温度が低下して窒
素酸化物の生成が抑制される。第4図は排気ガス再循環
をした場合としなかった場合の排気ガス特性を示したも
のである。ダンパー26と空気過剰率を適切に設定する
ことにより、COの発生特性はやや悪化するが、窒素酸
化物の生成は大幅に低減され、騒音の上昇も同時に抑制
することができる。
On the other hand, when the fan 10 operates, a negative pressure region is generated near the air supply port. Exhaust gas inlet 3 provided in the casing 29
0 is also included in the negative pressure region, and the exhaust gas chamber 30 also becomes a negative pressure chamber. Therefore, due to this negative pressure, the exhaust gas in the circulation chamber 25 is sucked into the exhaust gas chamber 30 through the connecting pipe 28. This exhaust gas enters the fan lO through the exhaust gas suction port 31, is uniformly mixed with fresh combustion air in the casing 29, and is supplied to the burner 11 again. The large amounts of inert gas and water vapor contained in the exhaust gas cause slow combustion and increase the heat capacity of the combustion gas, which lowers the flame temperature and suppresses the production of nitrogen oxides. FIG. 4 shows the exhaust gas characteristics with and without exhaust gas recirculation. By appropriately setting the damper 26 and the excess air ratio, the CO generation characteristics are slightly deteriorated, but the generation of nitrogen oxides can be significantly reduced, and the increase in noise can be suppressed at the same time.

発明の効果 以上の説明から明らかなように、本発明の燃焼装置によ
れば以下の効果が得られる。
Effects of the Invention As is clear from the above explanation, the combustion apparatus of the present invention provides the following effects.

(1)排気通路の途中から分岐してファンの吸気口近傍
に連結管を設けて排気再循環系を構成するため、新たな
動力源を必要とせず、騒音を抑制しつつ窒素酸化物の低
減を実現できる。
(1) An exhaust recirculation system is constructed by branching from the middle of the exhaust passage and installing a connecting pipe near the fan intake port, eliminating the need for a new power source and reducing nitrogen oxides while suppressing noise. can be realized.

(2)排気再循環系の途中に再循環排気量を制御する手
段を設けるため、物性の異なった種々の燃料や、燃焼装
置のいろいろな設置形態でもこれらの条件に対応して、
窒素酸化物を低減し安定燃焼を確保できる最適条件を実
現することが出来る。
(2) In order to provide a means to control the amount of recirculated exhaust gas in the middle of the exhaust gas recirculation system, it can be used with various fuels with different physical properties and with various installation configurations of combustion equipment.
It is possible to realize optimal conditions that reduce nitrogen oxides and ensure stable combustion.

(3)排気経路の途中から分岐した連結管を新たに設け
て排気再循環系を構成するという手段であるため、既存
の燃焼装置にも簡単に適用でき、また製造工程も簡単な
改良ですむため安価に実現できる。
(3) Since the method involves constructing an exhaust recirculation system by installing a new connecting pipe branching from the middle of the exhaust route, it can be easily applied to existing combustion equipment, and the manufacturing process can be easily modified. Therefore, it can be realized at low cost.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は本発明燃焼装置の一実施例を給湯機に応用した
場合の一部断面の全体斜視図、第2図は第1図の排気通
路の要部を示す部分断面斜視図、第3図はファン吸気口
近傍の排気再循環系の要部を示す部分断面斜視図、第4
図は排気再循環の有無による燃焼性能を示した比較説明
図、第5図は従来例の全体構成図である。 lO・・・・・・ファン、ll・・・・・・バーナ、1
3・・・・・・燃焼室、14・・・・・・熱交換器、1
5・・・・・・排気フード、21・・・・・・連通口、
22・・・・・・蓋、23・・・・・・排気カバー、2
6・・・・・・ダンパ、28・・・・・・連結管、30
・・・・・・排ガス室、31・・・・・・排ガス吸引口
。 代理の大氏名 弁理士 粟野重孝 ほか1名第1図 第 2 図 第 図 空気弼p1食 πし 弔 図 包i 図
FIG. 1 is a partial cross-sectional overall perspective view of an embodiment of the combustion apparatus of the present invention applied to a water heater, FIG. 2 is a partial cross-sectional perspective view showing the main part of the exhaust passage in FIG. 1, and FIG. The figure is a partial cross-sectional perspective view showing the main parts of the exhaust gas recirculation system near the fan intake port.
The figure is a comparative explanatory diagram showing combustion performance with and without exhaust gas recirculation, and FIG. 5 is an overall configuration diagram of a conventional example. lO...fan, ll...burner, 1
3... Combustion chamber, 14... Heat exchanger, 1
5...Exhaust hood, 21...Communication port,
22...Lid, 23...Exhaust cover, 2
6... Damper, 28... Connecting pipe, 30
...Exhaust gas chamber, 31...Exhaust gas suction port. Name of representative: Patent attorney Shigetaka Awano and one other figure

Claims (1)

【特許請求の範囲】[Claims] ファンと、前記ファンの下流側に設けたバーナと、前記
バーナの下流側に燃焼室と、熱交換器と、排気通路を順
次互いに密接して設け、前記排気通路の途中から分岐し
て前記ファンの給気口近傍に開口を持つ連結管を設けて
排気再循環系を構成するとともに、前記排気再循環系の
途中に再循環排気量を制御する流量制御手段を設けた燃
焼装置。
A fan, a burner provided downstream of the fan, a combustion chamber downstream of the burner, a heat exchanger, and an exhaust passage are successively provided in close contact with each other, and branched from the middle of the exhaust passage to the fan. An exhaust gas recirculation system is constructed by providing a connecting pipe having an opening near an air supply port, and a flow rate control means for controlling the amount of recirculated exhaust gas is provided in the middle of the exhaust gas recirculation system.
JP1148967A 1989-06-12 1989-06-12 Burning apparatus Pending JPH0313701A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1148967A JPH0313701A (en) 1989-06-12 1989-06-12 Burning apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1148967A JPH0313701A (en) 1989-06-12 1989-06-12 Burning apparatus

Publications (1)

Publication Number Publication Date
JPH0313701A true JPH0313701A (en) 1991-01-22

Family

ID=15464672

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1148967A Pending JPH0313701A (en) 1989-06-12 1989-06-12 Burning apparatus

Country Status (1)

Country Link
JP (1) JPH0313701A (en)

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