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JPH08135962A - Combustion device equipped with co detecting sensor and treatment method for heat up of the co detecting sensor - Google Patents

Combustion device equipped with co detecting sensor and treatment method for heat up of the co detecting sensor

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Publication number
JPH08135962A
JPH08135962A JP29783594A JP29783594A JPH08135962A JP H08135962 A JPH08135962 A JP H08135962A JP 29783594 A JP29783594 A JP 29783594A JP 29783594 A JP29783594 A JP 29783594A JP H08135962 A JPH08135962 A JP H08135962A
Authority
JP
Japan
Prior art keywords
combustion
sensor
detection
detection element
heat
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.)
Granted
Application number
JP29783594A
Other languages
Japanese (ja)
Other versions
JP3453441B2 (en
Inventor
Masanori Enomoto
正徳 榎本
Shingo Kimura
新悟 木村
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.)
Gastar Co Ltd
Original Assignee
Gastar 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 Gastar Co Ltd filed Critical Gastar Co Ltd
Priority to JP29783594A priority Critical patent/JP3453441B2/en
Publication of JPH08135962A publication Critical patent/JPH08135962A/en
Application granted granted Critical
Publication of JP3453441B2 publication Critical patent/JP3453441B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Regulation And Control Of Combustion (AREA)
  • Control Of Combustion (AREA)

Abstract

PURPOSE: To conduct proper burning operation and safety operation of CO of a combustion device for a long period of time by effecting the heat cleaning of a CO detecting sensor surely. CONSTITUTION: In a combustion device equipped with a CO sensor 20 detecting the concentration of CO in exhaust gas by the reaction of contact of a CO detecting sensor with CO gas, a combustion stopping detecting means 24, detecting the stopping signal of burning operation, is provided to detect the stopping signal. When the stopping signal is detected, the amount of current, carried by the CO detecting element of the CO sensor 20 and the like, is increased by a sensor current-carrying amount limiting means 25 to increase the temperature of the CO detecting element or the like to the temperature of heat cleaning and the heat cleaning of the CO detecting element and the like is effected immediately after the finishing of the burning operation of the combustion device.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、一酸化炭素ガス(CO
ガス)の濃度を検出するCO検出センサが設置されてい
るCO検出センサ付燃焼装置およびそのCO検出センサ
のヒートアップ処理方法に関するものである。
The present invention relates to carbon monoxide gas (CO
The present invention relates to a combustion device with a CO detection sensor in which a CO detection sensor for detecting the concentration of (gas) is installed, and a heat-up processing method for the CO detection sensor.

【0002】[0002]

【従来の技術】図3には、燃焼装置として一般的な給湯
器のシステム構成が示されている。同図において、熱交
換器2の入口側には給水管3が接続されており、この給
水管3には入水温を検出する入水サーミスタ10と、入水
量を検出する流量検出手段の流量センサ9とが設けられ
ている。熱交換器2の出口側には給湯管4が接続され、
この給湯管4の出口側には給湯栓1が設けられている。
さらに、給湯管4にはギヤモータによって開弁量が制御
される流量制御手段としての水量制御弁16と、出湯温を
検出する出湯サーミスタ11とが設けられている。
2. Description of the Related Art FIG. 3 shows a system configuration of a general water heater as a combustion device. In the figure, a water supply pipe 3 is connected to the inlet side of the heat exchanger 2, and the water supply pipe 3 has a water inflow thermistor 10 for detecting the water inflow temperature and a flow rate sensor 9 for detecting a water inflow rate. And are provided. The hot water supply pipe 4 is connected to the outlet side of the heat exchanger 2,
A hot water supply tap 1 is provided on the outlet side of the hot water supply pipe 4.
Further, the hot water supply pipe 4 is provided with a water amount control valve 16 as a flow rate control means whose valve opening amount is controlled by a gear motor, and a hot water thermistor 11 for detecting the hot water temperature.

【0003】熱交換器2の下方には燃焼加熱手段として
のバーナ7、バーナ7の点火を行うイグナイタ電極18、
着火を検知するフレームロッド電極19、および給排気を
行う燃焼ファン5が配設されており、バーナ7のガス導
入口にはガスノズル6が対向配置され、このガスノズル
6に通じるガス管8にはガス供給量を開弁量によって制
御するガス比例弁13と、管路の開閉を行うガス電磁弁12
とが介設されている。
Below the heat exchanger 2, a burner 7 as a combustion heating means, an igniter electrode 18 for igniting the burner 7,
A flame rod electrode 19 for detecting ignition and a combustion fan 5 for supplying / exhausting air are arranged, a gas nozzle 6 is arranged opposite to a gas inlet of the burner 7, and a gas pipe 8 leading to the gas nozzle 6 is provided with a gas. Gas proportional valve 13 that controls the supply amount by the valve opening amount, and gas solenoid valve 12 that opens and closes the pipeline.
And are installed.

【0004】この種の給湯器には制御装置14が備えられ
ており、この制御装置14にはリモコン15が接続され、こ
のリモコン15には給湯運転を指令するボタンや給湯温度
を設定するボタンや給湯設定温度の表示部等が設けられ
ている。また、排気トップ側の壁面には排気ガス中のC
O濃度(一酸化炭素ガス濃度)を検出するCO検出セン
サとしてのCOセンサ(一酸化炭素ガスセンサ)20が設
けられており、このCOセンサ20のCO検出信号は制御
装置14に加えられている。
This type of water heater is provided with a control device 14, and a remote controller 15 is connected to the control device 14. The remote controller 15 has buttons for instructing hot water supply operation and buttons for setting hot water temperature. A display unit or the like for the hot water supply set temperature is provided. Also, on the wall surface on the exhaust top side, C in the exhaust gas
A CO sensor (carbon monoxide gas sensor) 20 as a CO detection sensor for detecting the O concentration (carbon monoxide gas concentration) is provided, and the CO detection signal of this CO sensor 20 is applied to the control device 14.

【0005】制御装置14は給湯燃焼運転を制御する回路
と、CO安全動作を行う回路とを備えており、給湯燃焼
運転の制御回路は、給湯器の給湯動作を次のように制御
する。給湯栓1が開けられると流量センサ9が入水量を
検出して、その入水量がある一定以上(最低作動流量以
上)になったときに流量センサ9からの信号を受けて、
制御装置14は燃焼ファン5を回転させる。そして、燃焼
ファン5の回転が所定の回転領域に入ったときにガス電
磁弁12およびガス比例弁13を開けてバーナ7へガスの供
給を行い、イグナイタ電極18による点火動作を行う。フ
レームロッド電極19がガスの着火を検出すると、制御装
置14は出湯温度を設定温度にするようフィードフォワー
ド制御を行い、ガス比例弁13の開弁量を可変し、熱交換
器2から出る湯温を設定温度になるように燃焼制御を行
い、湯温の安定後は、フィードフォワード制御とフィー
ドバック制御の併用制御により燃焼制御が行われる。
The control device 14 is provided with a circuit for controlling the hot water supply combustion operation and a circuit for performing a CO safety operation. The control circuit for the hot water supply combustion operation controls the hot water supply operation of the water heater as follows. When the hot water tap 1 is opened, the flow rate sensor 9 detects the amount of water entering, and when the amount of water entering exceeds a certain level (more than the minimum operating flow rate), a signal from the flow rate sensor 9 is received,
The control device 14 rotates the combustion fan 5. Then, when the rotation of the combustion fan 5 enters a predetermined rotation region, the gas solenoid valve 12 and the gas proportional valve 13 are opened to supply the gas to the burner 7, and the ignition operation by the igniter electrode 18 is performed. When the flame rod electrode 19 detects the ignition of the gas, the control device 14 performs the feedforward control so that the hot water outlet temperature becomes the set temperature, the opening amount of the gas proportional valve 13 is changed, and the hot water temperature coming out of the heat exchanger 2 is changed. The combustion control is performed so that the temperature becomes a set temperature, and after the hot water temperature is stabilized, the combustion control is performed by the combined control of the feedforward control and the feedback control.

【0006】この燃焼制御に際し、制御装置14は、CO
センサ20の検出信号に基づいて制御を行うようになって
おり、COセンサ20から得られるCO検出値(CO検出
濃度)が予め与えられる基準値を下回るときには、入水
温度を設定温度に高めるために必要な要求熱量に応じて
ガス比例弁13の開弁制御によりガス供給量を制御し、こ
れに合わせて、そのガス量に見合う空気量が得られるよ
うに燃焼ファン5の回転制御を行う。一方、COセンサ
20で検出されるCO検出値が前記基準値を越えたときに
は、不完全燃焼状態を完全燃焼方向に燃焼改善するため
に、燃焼ファン5の回転数を所定量高めて燃焼の空気量
をアップし、排気ガス中のCOガス濃度を低下する方向
に燃焼制御を行う。なお、燃焼ファン5の回転数を高め
る代わりに、ガス比例弁13の開弁量を絞り、バーナ7へ
のガス供給量を低減してCO発生濃度の低減を図ること
もある。
In this combustion control, the control device 14 controls the CO
Control is performed based on the detection signal of the sensor 20, and when the CO detection value (CO detection concentration) obtained from the CO sensor 20 falls below a predetermined reference value, in order to raise the incoming water temperature to the set temperature The gas supply amount is controlled by the valve opening control of the gas proportional valve 13 according to the required heat amount required, and in accordance with this, the rotation control of the combustion fan 5 is performed so that the air amount corresponding to the gas amount is obtained. On the other hand, CO sensor
When the CO detection value detected at 20 exceeds the reference value, in order to improve the combustion in the incomplete combustion state in the complete combustion direction, the rotation speed of the combustion fan 5 is increased by a predetermined amount to increase the combustion air amount. Combustion control is performed so as to reduce the CO gas concentration in the exhaust gas. Instead of increasing the rotation speed of the combustion fan 5, the opening amount of the gas proportional valve 13 may be reduced to reduce the gas supply amount to the burner 7 to reduce the CO generation concentration.

【0007】前記制御装置14のCO安全動作の回路は、
COセンサ20で検出されるCO検出濃度が、予め与えら
れる危険濃度に達したときに燃焼停止を行ったり、ある
いは、所定のサンプリング時間毎にCOセンサ20のCO
検出信号をサンプリングし、そのサンプリング時毎にC
O検出値を積算していき、その積算値が予め与えられる
危険判断設定値に達したときに、燃焼停止を行うという
如く、様々な信号処理態様で、CO安全動作が行われ
る。
The circuit for CO safe operation of the control unit 14 is
When the detected CO concentration detected by the CO sensor 20 reaches a predetermined dangerous concentration, combustion is stopped, or the CO sensor 20 detects the CO at a predetermined sampling time.
The detection signal is sampled, and C is sampled at each sampling time.
The CO safety operation is performed in various signal processing modes such that combustion is stopped when the O detection value is accumulated and the accumulated value reaches a preset danger judgment set value.

【0008】ところで、上記のような燃焼装置に設けら
れているCOセンサ20の一例として、接触反応式のセン
サがあり、図4および図5には、接触反応式のCOセン
サの例が示されている。これらの図において、基台31の
上面には3対の端子ピン32が突設され、各対の端子ピン
間に、例えば直径数10μmの細い白金線を介して、CO
ガスに感応しない比較素子34と、COガスに感応するC
O検出素子35と、温度検出素子42が設けられ、比較素子
34とCO検出素子35は仕切り板36によって仕切られてい
る。
By the way, as an example of the CO sensor 20 provided in the above combustion apparatus, there is a contact reaction type sensor, and FIGS. 4 and 5 show examples of the contact reaction type CO sensor. ing. In these figures, three pairs of terminal pins 32 are projected on the upper surface of the base 31, and a CO wire is provided between each pair of terminal pins through a thin platinum wire having a diameter of, for example, 10 μm.
Comparison element 34 that is insensitive to gas and C that is sensitive to CO gas
An O detection element 35 and a temperature detection element 42 are provided, and a comparison element
34 and the CO detection element 35 are separated by a partition plate 36.

【0009】これら比較素子34とCO検出素子35の周り
は、上下両端側が開口された筒状のグラスウール37に覆
われ、さらに、その外側は、金属カバー29により覆われ
ている。この金属カバー29の周壁内面には羽根状の板30
が切り起こしにより形成されており、切り起こし開口41
から排気ガスが内部に入り込むように形成されている。
The circumference of the comparison element 34 and the CO detection element 35 is covered with a cylindrical glass wool 37 whose upper and lower ends are open, and the outer side thereof is covered with a metal cover 29. A blade-shaped plate 30 is formed on the inner surface of the peripheral wall of the metal cover 29.
Is formed by cutting and raising, and the raising and lowering opening 41
The exhaust gas is formed so as to enter the inside.

【0010】この種のCOセンサ20においては、比較素
子34およびCO検出素子35は通電により約200 ℃に加熱
されており、この状態でCO検出素子35にCOガスが接
触すると、CO検出素子35とCOガスとの接触反応(接
触燃焼反応)が生じ、この反応によりCO検出素子35の
温度が上昇して電気抵抗が大きくなり、この抵抗変化に
よりCOセンサ20から取り出される電流の変化が生じ、
その変化に基づいてCOガス濃度が検出される。なお、
このとき、温度検出素子42により検出される温度情報に
基づいて、COセンサ出力の温度補償が行われる。
In this type of CO sensor 20, the comparison element 34 and the CO detection element 35 are heated to about 200 ° C. by energization, and when CO gas comes into contact with the CO detection element 35 in this state, the CO detection element 35 A contact reaction (contact combustion reaction) between CO and CO gas occurs, the temperature of the CO detection element 35 rises due to this reaction, and the electric resistance increases. Due to this resistance change, a change in the current drawn from the CO sensor 20 occurs,
The CO gas concentration is detected based on the change. In addition,
At this time, temperature compensation of the CO sensor output is performed based on the temperature information detected by the temperature detection element 42.

【0011】ところで、この種のCOセンサ20は、上記
のようにCO検出素子35に接触するCOガスによる接触
燃焼反応に基づいてCOガス濃度を検出するために、C
O検出素子35および比較素子34の表面は、常にきれいな
状態にしておく必要がある。しかしながら、燃焼装置の
燃焼運転時に排気される排気ガス中には、COガスの他
に、二酸化炭素やハイドロカーボン、カルボン酸等の物
質が含まれているために、これらの物質がCO検出素子
35や比較素子34の表面に付着してしまい、そうすると、
素子表面をきれいな状態にしておくことができず、CO
検出動作が的確に行われなくなってしまう。
By the way, the CO sensor 20 of this type is designed to detect the CO gas concentration based on the catalytic combustion reaction by the CO gas contacting the CO detection element 35 as described above.
The surfaces of the O detection element 35 and the comparison element 34 need to be kept clean at all times. However, since the exhaust gas exhausted during the combustion operation of the combustion apparatus contains substances such as carbon dioxide, hydrocarbon, and carboxylic acid in addition to CO gas, these substances are used as the CO detection element.
35 and the surface of the comparison element 34, and then,
The element surface cannot be kept clean and CO
The detection operation will not be performed accurately.

【0012】そこで、従来は、図6の(b)に示すよう
に、燃焼運転開始時に、CO検出素子35と比較素子34へ
の通電量を燃焼運転中の通電量VS よりも多くして、ヒ
ートアップ通電量VUPとし、同図の(c)に示すよう
に、素子の温度を例えば500 ℃といった高温に上昇させ
ることにより、素子にヒートクリーニングを施し、素子
表面に付着した前記ハイドロカーボン等の付着物質を熱
分解して剥離させ、ハイドロカーボン等の除去を行って
いた。
Therefore, conventionally, as shown in FIG. 6 (b), at the start of the combustion operation, the energization amount to the CO detection element 35 and the comparison element 34 is made larger than the energization quantity V S during the combustion operation. , The heat-up energization amount V UP, and as shown in (c) of the figure, the element is heated to a high temperature such as 500 ° C. to heat-clean the element, and the hydrocarbon adhered to the element surface. The adhered substances such as are thermally decomposed and peeled off to remove hydrocarbons and the like.

【0013】なお、上記ヒートクリーニングの間は、C
Oセンサ20によるCOガス濃度の検出は行われないよう
になっているために、ヒートクリーニングのためのヒー
トアップ処理時間Tは、例えば、20秒といった短い時間
に予め設定されており、この短い時間内で迅速にヒート
アップ処理が行われ、ヒートアップ処理終了後に、直ち
にCOセンサ20によるCOガス濃度の検出を行うように
することで、前記制御装置14による燃焼制御動作やCO
安全動作が支障なく行えるようにしている。
During the heat cleaning, C
Since the CO gas concentration is not detected by the O sensor 20, the heat-up processing time T for heat cleaning is preset to a short time such as 20 seconds. The heat-up process is quickly performed in the interior, and the CO gas concentration is immediately detected by the CO sensor 20 after the heat-up process is completed.
It is designed so that safe operation can be performed without any problems.

【0014】[0014]

【発明が解決しようとする課題】しかしながら、燃焼運
転開始時にはCOセンサ20のCO検出素子35等の素子が
ほぼ室温程度に冷えており、また、その周りのグラスウ
ール37等も冷えているために、CO検出素子35と比較素
子34に通電を行っても、CO検出素子35等の温度が急激
に500 ℃といった高温に達するようにすることは難し
く、そのため、燃焼開始時の20秒といった短い時間のヒ
ートアップ処理時間では、図6の(c)に示したよう
に、素子温度が500 ℃に達してから500 ℃の温度に保た
れる時間(TR)が非常に短かった。
However, at the start of the combustion operation, the elements such as the CO detection element 35 of the CO sensor 20 are cooled to about room temperature, and the glass wool 37 and the like around them are also cooled. Even if the CO detection element 35 and the comparison element 34 are energized, it is difficult to make the temperature of the CO detection element 35 and the like rapidly reach a high temperature of 500 ° C. Therefore, it takes a short time such as 20 seconds at the start of combustion. a heat-up processing time, as indicated, the time element temperature is kept from reaching 500 ° C. to a temperature of 500 ℃ (T R) was very short (c) in FIG. 6.

【0015】しかも、燃焼装置の燃焼運転が停止してか
ら再び燃焼運転が開始するまでには、ある程度の時間が
経過しているために、前記ハイドロカーボン等の付着物
質がCO検出素子35等の素子表面に強固に付着し、中に
は一部反応してしまうものもあり、そのようにこびりつ
いてしまった付着物質を短時間で熱分解して除去するこ
とは難しかった。
Moreover, since a certain amount of time has passed from the stop of the combustion operation of the combustion apparatus to the start of the combustion operation again, the adhered substances such as the hydrocarbons may be accumulated in the CO detection element 35 or the like. Some of them adhere strongly to the surface of the device and some of them react with each other, and it was difficult to thermally decompose and remove the adhered substances that adhered in such a manner.

【0016】さらに、従来のヒートクリーニングは、燃
焼運転開始時に行われ、機器が燃焼している中で行われ
るために、機器から排気される排気ガスがCOセンサ20
の周りにあり、COセンサ20の周辺雰囲気にハイドロカ
ーボン等の物質が多く存在する中で行われることにな
り、そのため、ヒートクリーニングの効率が悪く、付着
物質の除去が十分に行われなかった。
Further, since the conventional heat cleaning is performed at the start of combustion operation and is performed while the equipment is burning, the exhaust gas discharged from the equipment is CO sensor 20.
However, the heat cleaning efficiency was poor and the adhering substances were not sufficiently removed because there was a large amount of substances such as hydrocarbons in the atmosphere around the CO sensor 20.

【0017】以上のように、従来の燃焼装置において
は、実際には、COセンサ20のCO検出素子35のヒート
クリーニングを的確に行うことができなかったために、
燃焼装置を使用しているうちに、COセンサ20のCOガ
ス検出感度が低下し、COセンサ20の検出信号に基づい
て行われる燃焼運転動作やCO安全動作に支障を来すと
いう問題を招いていた。
As described above, in the conventional combustion apparatus, since the CO detection element 35 of the CO sensor 20 could not be properly heat-cleaned in practice,
While using the combustion device, the CO gas detection sensitivity of the CO sensor 20 is lowered, which causes a problem that the combustion operation operation and the CO safety operation performed based on the detection signal of the CO sensor 20 are disturbed. It was

【0018】本発明は、上記従来の課題を解決するため
になされたものであり、その目的は、CO検出センサの
ヒートクリーニングを効率良く、確実に行うことが可能
であり、それにより、燃焼運転動作やCO安全動作を長
期に亙って的確に行うことができるCO検出センサ付燃
焼装置およびそのCO検出センサのヒートアップ処理方
法を提供することにある。
The present invention has been made in order to solve the above-mentioned conventional problems, and an object thereof is to enable efficient and reliable heat cleaning of a CO detection sensor, thereby enabling combustion operation. An object of the present invention is to provide a combustion device with a CO detection sensor and a heat-up processing method for the CO detection sensor, which can perform an operation and a CO safety operation accurately over a long period of time.

【0019】[0019]

【課題を解決するための手段】上記目的を達成するため
に、本発明は次のように構成されている。すなわち、本
発明のCO検出センサ付燃焼装置は、CO検出素子を有
し、燃焼運転時に該CO検出素子に通電してCO検出素
子とCOガスとを接触反応させて排気ガス中のCO濃度
を検出する接触反応式のCO検出センサを備えたCO検
出センサ付燃焼装置において、燃焼運転動作の停止信号
を検出する燃焼停止検出手段と、該燃焼停止検出手段に
より燃焼運転動作の停止信号を検出したときには前記C
O検出素子への通電量を多くしてCO検出素子の温度を
ヒートクリーニングの温度まで高めてヒートクリーニン
グを行うセンサ通電量制御手段とを設けたことを特徴と
して構成されている。
In order to achieve the above object, the present invention is constructed as follows. That is, the combustion apparatus with a CO detection sensor of the present invention has a CO detection element, and during combustion operation, the CO detection element is energized to cause a contact reaction between the CO detection element and the CO gas to determine the CO concentration in the exhaust gas. In a combustion apparatus with a CO detection sensor equipped with a contact reaction type CO detection sensor for detecting, a combustion stop detection means for detecting a stop signal of the combustion operation operation, and a stop signal for the combustion operation operation are detected by the combustion stop detection means. Sometimes C
A sensor energization amount control means for increasing the amount of electricity supplied to the O detection element to raise the temperature of the CO detection element to the temperature of heat cleaning to perform heat cleaning is provided.

【0020】また、本発明のCO検出センサ付燃焼装置
のCO検出センサのヒートアップ処理方法は、CO検出
素子を有し、燃焼運転時に該CO検出素子に通電してC
O検出素子とCOガスとを接触反応させて排気ガス中の
CO濃度を検出する接触反応式のCO検出センサを備え
たCO検出センサ付燃焼装置において、燃焼運転動作の
停止信号を検出し、該停止信号が検出されたときには、
前記CO検出素子への通電量を多くしてCO検出素子の
温度をヒートクリーニングの温度まで高めることにより
燃焼運転終了直後にCO検出素子のヒートクリーニング
を行うことを特徴として構成されている。
Further, the heat-up treatment method for the CO detection sensor of the combustion apparatus with a CO detection sensor of the present invention has a CO detection element, and the CO detection element is energized during combustion operation to generate C
In a combustion apparatus with a CO detection sensor, which comprises a contact reaction type CO detection sensor for contacting an O detection element and CO gas to detect a CO concentration in exhaust gas, a combustion operation stop signal is detected, When a stop signal is detected,
The CO detection element is heat-cleaned immediately after the end of the combustion operation by increasing the amount of electricity supplied to the CO detection element to raise the temperature of the CO detection element to the temperature of heat cleaning.

【0021】[0021]

【作用】上記構成の本発明において、燃焼停止検出手段
により、燃焼装置の燃焼運転動作の停止信号が検出さ
れ、この停止信号が検出されたときには、センサ通電量
制御手段により、CO検出素子への通電量を多くするこ
とによりCO検出素子の温度がヒートクリーニングの温
度まで高められ、それにより、燃焼運転終了直後にCO
検出素子のヒートクリーニングが行われる。
In the present invention having the above-mentioned structure, the combustion stop detecting means detects the stop signal of the combustion operation of the combustion apparatus, and when this stop signal is detected, the sensor energization amount control means sends the signal to the CO detecting element. The temperature of the CO detection element is raised to the temperature of heat cleaning by increasing the energization amount, so that the CO
Heat cleaning of the detection element is performed.

【0022】[0022]

【実施例】以下、本発明の実施例を図面に基づいて説明
する。なお、本実施例の説明において、従来例と同一名
称部分には同一符号を付し、その重複説明は省略する。
本実施例のCO検出センサ付燃焼装置は、従来例と同様
に、図3に示す給湯器を対象にしており、給湯器の排気
トップ側に排気ガス中のCO濃度を検出するCOセンサ
20が設けられており、また、制御装置14には、CO安全
動作を行う回路と、図1に示すように、燃焼運転の制御
を行う回路としての燃焼運転制御部21とが設けられてい
る。本実施例において特徴的なことは、COセンサ20の
ヒートクリーニングを効率的に行う手段として、図1に
示すように、燃焼停止検出手段24とセンサ通電量制御手
段25とを設けたことである。
Embodiments of the present invention will be described below with reference to the drawings. In the description of the present embodiment, the same reference numerals will be given to the same names as those in the conventional example, and the duplicated description will be omitted.
The combustion apparatus with a CO detection sensor of the present embodiment is intended for the water heater shown in FIG. 3 as in the conventional example, and the CO sensor for detecting the CO concentration in the exhaust gas is provided on the exhaust top side of the water heater.
20 is provided, and the control device 14 is provided with a circuit for performing a CO safe operation and, as shown in FIG. 1, a combustion operation control unit 21 as a circuit for controlling combustion operation. . A feature of this embodiment is that a combustion stop detection means 24 and a sensor energization amount control means 25 are provided as means for efficiently performing heat cleaning of the CO sensor 20, as shown in FIG. .

【0023】燃焼停止検出手段24には、燃焼運転制御部
21からの信号が加えられるようになっており、燃焼停止
検出手段24は、給湯器の燃焼運転動作が終了(停止)し
たときに、燃焼運転動作の停止信号を検出するものであ
り、燃焼運転動作の停止信号を検出したときには、燃焼
停止検出信号をセンサ通電量制御手段25に加える。
The combustion stop detection means 24 includes a combustion operation control unit.
The signal from 21 is added, and the combustion stop detecting means 24 detects the stop signal of the combustion operation when the combustion operation of the water heater ends (stops). When the operation stop signal is detected, the combustion stop detection signal is added to the sensor energization amount control means 25.

【0024】センサ通電量制御手段25は、給湯器の燃焼
運転が開始される前は、COセンサ20のCO検出素子35
と比較素子34への通電量をゼロとし、燃焼運転が行われ
ているときには、CO検出素子35等への通電量を予め与
えられている通電量VS としてCO検出素子35と比較素
子34の温度を200 ℃に保つ。
The sensor energization amount control means 25 controls the CO detection element 35 of the CO sensor 20 before the combustion operation of the water heater is started.
When the combustion operation is performed, the energization amount to the CO detection element 35 and the like is set to a predetermined energization quantity V S when the combustion amount is being supplied to the CO detection element 35 and the comparison element 34. Keep the temperature at 200 ° C.

【0025】また、センサ通電量制御手段25は、燃焼停
止検出手段24から前記燃焼停止検出信号が加えられたと
きには、CO検出素子35と比較素子34への通電量を多く
して、CO検出素子35等の温度をヒートクリーニングの
温度まで高めてヒートクリーニングを行うものであり、
燃焼停止検出手段24から燃焼停止検出信号が加えられた
ときには、CO検出素子35と比較素子34への通電量を燃
焼運転中の通常の通電量VS よりも多くして、ヒートア
ップ通電量VUPとし、CO検出素子35と比較素子34の温
度を、例えば、500 ℃といったヒートクリーニングの温
度まで高める。そして、CO検出素子35への通電量を、
予め与えられたヒートアップ処理時間Tの間だけヒート
アップ通電量VUPとし、給湯器の燃焼運転終了直後にC
O検出素子35と比較素子34のヒートクリーニングを行
う。
Further, the sensor energization amount control means 25 increases the energization amount to the CO detection element 35 and the comparison element 34 when the combustion stop detection signal is added from the combustion stop detection means 24 to increase the CO detection element. The temperature of 35 etc. is raised to the temperature of heat cleaning to perform heat cleaning.
When the combustion stop detection signal is applied from the combustion stop detecting means 24 is the amount of current supplied to the comparison device 34 with CO detection element 35 and more than a normal energization amount V S during combustion operation, heat-up power supply amount V and uP, the temperature of the comparison element 34 with the CO sensing element 35, for example, increased to a temperature of heat cleaning, such 500 ° C.. Then, the amount of electricity supplied to the CO detection element 35 is
The heat-up energization amount V UP is set only during the heat-up treatment time T given in advance, and C is set immediately after the end of the combustion operation of the water heater.
The O detection element 35 and the comparison element 34 are heat-cleaned.

【0026】本実施例は以上のように構成されており、
次にその動作について説明する。本実施例でも、従来の
給湯器と同様に、リモコン15の指示に従って制御装置14
により、給湯燃焼運転やCO安全動作が行われるが、本
実施例では、図2の(a)に示すように、燃焼運転が開
始され、燃焼運転制御部21から燃焼開始信号がセンサ通
電量制御手段25に加えられると、センサ通電量制御手段
25は、図2の(b)に示すように、COセンサ20のCO
検出素子35と比較素子34への通電量をVS まで高める。
そうすると、CO検出素子35と比較素子34の温度は、図
2の(c)に示すように、200 ℃まで高められる。ま
た、燃焼運転中はCO検出素子35等への通電量がVS
まま保たれ、それにより、CO検出素子35等の素子温度
も200 ℃に保たれる。
The present embodiment is configured as described above,
Next, the operation will be described. Also in this embodiment, as in the case of the conventional water heater, the control device 14 is operated according to the instruction from the remote controller 15.
Thereby, the hot water supply combustion operation and the CO safety operation are performed, but in the present embodiment, the combustion operation is started and the combustion start signal is sent from the combustion operation control unit 21 to the sensor energization amount control as shown in (a) of FIG. When added to the means 25, the sensor energization amount control means
25 is the CO of the CO sensor 20, as shown in FIG.
The amount of electricity supplied to the detection element 35 and the comparison element 34 is increased to V S.
Then, the temperatures of the CO detection element 35 and the comparison element 34 are raised to 200 ° C. as shown in FIG. Further, during the combustion operation, the amount of electricity supplied to the CO detection element 35 and the like is kept at V S , and the element temperature of the CO detection element 35 and the like is also kept at 200 ° C.

【0027】そして、給湯燃焼運転が終了すると、燃焼
停止検出手段24により、給湯器の燃焼運転動作の停止信
号が検出され、燃焼停止検出手段24からセンサ通電量制
御手段25へ燃焼停止検出信号が加えられる。そうする
と、センサ通電量制御手段25は、燃焼停止検出信号を受
けて、図2の(b)に示すように、CO検出素子35と比
較素子34への通電量を多くしてヒートアップ通電量VUP
まで増加させ、それにより、図2の(c)に示すよう
に、CO検出素子35と比較素子34の温度をヒートクリー
ニングの温度(500 ℃)まで高める。そして、CO検出
素子35等への通電量を、予め与えられたヒートアップ処
理時間Tの間だけヒートアップ通電量VUPのまま保ち、
それにより、図2の(c)に示すように、CO検出素子
35と比較素子34の温度が約500 ℃のまま一定時間保た
れ、CO検出素子35と比較素子34のヒートクリーニング
が行われる。
When the hot water supply combustion operation is completed, the combustion stop detection means 24 detects the stop signal of the combustion operation operation of the water heater, and the combustion stop detection means 24 sends the combustion stop detection signal to the sensor energization amount control means 25. Added. Then, the sensor energization amount control means 25 receives the combustion stop detection signal and increases the energization amount to the CO detection element 35 and the comparison element 34 as shown in FIG. UP
The temperature of the CO detection element 35 and the comparison element 34 is raised to the temperature of heat cleaning (500 ° C.) as shown in FIG. 2 (c). Then, the amount of electricity supplied to the CO detection element 35 and the like is maintained at the amount of heat-up electricity supply V UP for the heat-up processing time T given in advance,
Thereby, as shown in (c) of FIG.
The temperatures of 35 and the comparison element 34 are kept for about 500 ° C. for a certain time, and the CO detection element 35 and the comparison element 34 are heat-cleaned.

【0028】本実施例によれば、上記動作により、給湯
器の燃焼運転が停止したときに、CO検出素子35と比較
素子34のヒートアップ処理が行われるために、CO検出
素子35が200 ℃の状態から500 ℃までヒートアップすれ
ばよいことになり、また、CO検出素子35等の周りのグ
ラスウール37等も給湯器の燃焼運転中に暖められた状態
で給湯器の燃焼運転中に暖められた状態でCO検出素子
35等のヒートアップが行われるために、素子の温度を20
0 ℃から500 ℃まで上昇させるための時間は短くて済
み、そのため、たとえヒートアップ処理時間Tが従来の
ヒートアップ処理時間Tと同じであっても、CO検出素
子35等の素子温度を500 ℃(ヒートクリーニングの温
度)のまま長い時間(図のTR ′)保つことが可能とな
る。
According to this embodiment, when the combustion operation of the water heater is stopped by the above operation, the CO detection element 35 and the comparison element 34 are heated up, so that the CO detection element 35 is heated to 200 ° C. It is only necessary to heat up from the state of to 500 ℃, and the glass wool 37 etc. around the CO detection element 35 etc. is also warmed during the combustion operation of the water heater while it is warmed up during the combustion operation of the water heater. CO detection element
Since the temperature of 35 etc. is heated up, the temperature of the element is reduced to 20
Even if the heat-up processing time T is the same as the conventional heat-up processing time T, the element temperature of the CO detection element 35 and the like is 500 ℃ even if the heat-up processing time T is the same as the conventional heat-up processing time T. It becomes possible to maintain a long time (T R ′ in the figure) as it is (heat cleaning temperature).

【0029】また、本実施例によれば、上記のように、
CO検出素子35のヒートクリーニングは、燃焼運転停止
時に、即座に行われるために、前記ハイドロカーボン等
の付着物質がCO検出素子35の素子表面に強固に付着し
ていることはなく、付着物質を短時間で容易に除去する
ことが可能であり、しかも、ヒートクリーニングは、燃
焼運転終了後のクリーンな雰囲気で行われ、COセンサ
20の周辺雰囲気にハイドロカーボン等の物質が殆ど存在
しない中で行われるために、非常に効率良くヒートクリ
ーニングを行うことができる。
Further, according to this embodiment, as described above,
Since the heat cleaning of the CO detection element 35 is performed immediately when the combustion operation is stopped, the adhered substances such as the above-mentioned hydrocarbons are not firmly adhered to the element surface of the CO detection element 35, and the adhered substances are removed. It can be easily removed in a short time, and the heat cleaning is performed in a clean atmosphere after the combustion operation is completed.
Since it is carried out in the atmosphere of 20 where there is almost no substance such as hydrocarbon, heat cleaning can be carried out very efficiently.

【0030】しかも、本実施例では、給湯器の燃焼運転
終了後にCO検出センサ35等のヒートクリーニングが行
われるために、従来のように、燃焼運転開始時にヒート
クリーニングを行う場合と異なり、ヒートクリーニング
終了後に直ちにCOセンサ20によるCOガス濃度の検出
を行う必要はないために、ヒートアップ処理時間Tを従
来よりも長く設定することも可能となり、ヒートアップ
処理時間を長くして、ハイドロカーボン等の付着物質の
熱分解を十分に行うことが可能となり、そのようにすれ
ば、CO検出素子35等のヒートクリーニングをより確実
に行うことができる。
Further, in this embodiment, since the CO detection sensor 35 and the like are heat cleaned after the combustion operation of the water heater, unlike the conventional case where the heat cleaning is performed at the start of the combustion operation, the heat cleaning is performed. Since it is not necessary to immediately detect the CO gas concentration by the CO sensor 20 after the end, it is possible to set the heat-up processing time T longer than before, so that the heat-up processing time is lengthened and the heat-up processing time is increased. It becomes possible to sufficiently thermally decompose the attached substance, and by doing so, the heat cleaning of the CO detection element 35 and the like can be performed more reliably.

【0031】そして、以上のように、効率良く、十分に
ヒートクリーニングが行われて、CO検出素子35等の素
子表面が非常にきれいな状態となったまま、次の燃焼運
転開始時までその状態が維持され、次回の給湯燃焼運転
が開始されるために、給湯燃焼運転やCO安全動作を、
COセンサ20の検出信号に基づいて的確に行うことが可
能となる。
As described above, the heat cleaning is efficiently and sufficiently performed, and the state of the element such as the CO detection element 35 is kept very clean until the next combustion operation is started. In order to maintain and start the next hot water supply combustion operation, hot water supply combustion operation and CO safety operation,
It becomes possible to carry out accurately based on the detection signal of the CO sensor 20.

【0032】さらに、従来は、燃焼運転開始時に行われ
るCOセンサ20のヒートクリーニングの間は、COセン
サ20によるCOガス濃度の検出が行われなかったが、本
実施例では、給湯燃焼開始直後からCOセンサ20による
COガス濃度の検出動作が行われるために、たとえ給湯
燃焼開始直後にCOガス濃度が異常に高い状態となった
としても、その状態を、COセンサ20によるCOガス濃
度の検出信号に基づいて、即座に検知することが可能と
なり、そのような異常状態に対する対処も迅速に行うこ
とが可能となる。
Further, in the prior art, the CO gas concentration was not detected by the CO sensor 20 during the heat cleaning of the CO sensor 20 performed at the start of combustion operation, but in the present embodiment, immediately after the start of hot water supply combustion. Since the CO gas concentration detection operation is performed by the CO sensor 20, even if the CO gas concentration becomes abnormally high immediately after the start of hot water combustion, the CO gas concentration detection signal by the CO sensor 20 is used as the state. Based on the above, it is possible to immediately detect, and it is possible to promptly deal with such an abnormal state.

【0033】なお、本発明の上記実施例に限定されるこ
とはなく、様々な実施の態様を採り得る。例えば、上記
実施例では、燃焼停止検出手段24とセンサ通電量制御手
段25は、制御装置14内に設けたが、燃焼停止検出手段24
やセンサ通電量制御手段25は、リモコン15側に設けられ
ていても構わない。
It should be noted that the present invention is not limited to the above-mentioned embodiments, and various embodiments can be adopted. For example, in the above embodiment, the combustion stop detection means 24 and the sensor energization amount control means 25 are provided in the control device 14, but the combustion stop detection means 24
The sensor energization amount control means 25 may be provided on the remote controller 15 side.

【0034】また、上記実施例では、CO検出素子35等
のヒートクリーニングを行うときに、素子温度を500 ℃
としたが、ヒートクリーニングのときの素子温度は500
℃にするとは限らず、適宜設定されるものであり、ま
た、ヒートアップ処理時間も適宜設定されるものであ
る。
Further, in the above embodiment, when heat cleaning the CO detection element 35 and the like, the element temperature is set to 500 ° C.
However, the element temperature during heat cleaning is 500
The temperature is not necessarily set to 0 ° C., and is appropriately set, and the heat-up treatment time is also appropriately set.

【0035】さらに、上記実施例では、給湯器の燃焼運
転終了毎に、毎回、COセンサ20のCO検出素子35と比
較素子34への通電量を制御して、CO検出素子35等のヒ
ートクリーニングを行うようにしたが、例えば、燃焼運
転を2回行う毎に、1回ずつヒートクリーニングを行う
ようにしてもよい。
Further, in the above embodiment, the amount of electricity supplied to the CO detection element 35 and the comparison element 34 of the CO sensor 20 is controlled every time the hot water heater is burned to complete the heat cleaning of the CO detection element 35 and the like. However, for example, the heat cleaning may be performed once every two combustion operations.

【0036】さらに、上記実施例では燃焼装置として給
湯器を例にして説明したが、本発明のCO検出センサ付
燃焼装置は、風呂釜、空調機、暖房機、冷房機、冷暖房
機、ファンヒータ等、ガスや石油を燃料とする他の様々
な燃焼装置に適用されるものである。
Further, in the above embodiment, the hot water supply device was described as an example of the combustion device, but the combustion device with a CO detection sensor of the present invention is a bath heater, an air conditioner, a heater, an air conditioner, an air conditioner, a fan heater. Etc. are applied to various other combustion devices that use gas or oil as fuel.

【0037】[0037]

【発明の効果】本発明によれば、燃焼停止検出手段によ
り、燃焼装置の燃焼運転動作の停止信号を検出し、この
停止信号が検出されたときには、センサ通電量制御手段
により、CO検出素子への通電量を多くしてCO検出素
子の温度をヒートクリーニングの温度まで高めることに
より、燃焼運転終了直後にCO検出素子のヒートクリー
ニングを行うために、従来のように、燃焼運転開始時に
CO検出素子の温度ヒートクリーニングの温度まで高め
るよりも短い時間でCO検出素子の温度をヒートクリー
ニングの温度まで高めることが可能となり、たとえヒー
トクリーニングのためのヒートアップ処理時間が従来と
同様であったとしても、CO検出素子の温度をヒートク
リーニングの温度で長い時間維持することができる。
According to the present invention, the combustion stop detecting means detects the stop signal of the combustion operation of the combustion apparatus, and when the stop signal is detected, the sensor energization amount control means sends the CO detecting element. In order to perform heat cleaning of the CO detection element immediately after the combustion operation ends by increasing the amount of electricity supplied to the CO detection element to the heat cleaning temperature, as in the conventional case, the CO detection element is started at the start of the combustion operation. The temperature of the CO detection element can be raised to the temperature of heat cleaning in a shorter time than the temperature of heat cleaning. Even if the heat-up treatment time for heat cleaning is the same as the conventional one, The temperature of the CO detection element can be maintained at the heat cleaning temperature for a long time.

【0038】そのため、本発明によれば、CO検出素子
に付着することが問題となるハイドロカーボン等の付着
物質の熱分解を十分に行うことが可能となり、しかも、
前記ヒートクリーニングは、燃焼運転終了直後に行われ
るために、ハイドロカーボン等の付着物質がCO検出素
子に強固に付着していることはなく、付着物質の熱分解
による除去を容易に行うことが可能となる。また、ヒー
トクリーニングは、燃焼運転終了後のクリーンな雰囲気
の中で行われ、CO検出素子の周辺雰囲気にハイドロカ
ーボン等の物質が殆ど存在しない状態で行われるため
に、非常に効率的にヒートクリーニングを行うことが可
能であり、付着物質の除去を確実に行うことができる。
Therefore, according to the present invention, it becomes possible to sufficiently perform the thermal decomposition of the adhered substance such as hydrocarbon which becomes a problem to adhere to the CO detecting element, and
Since the heat cleaning is performed immediately after the combustion operation is completed, the adherent such as hydrocarbon is not firmly adhered to the CO detection element, and the adherent can be easily removed by thermal decomposition. Becomes In addition, the heat cleaning is performed in a clean atmosphere after the combustion operation is completed and is performed in a state in which a substance such as hydrocarbon is scarcely present in the atmosphere around the CO detection element, so that the heat cleaning is very efficiently performed. It is possible to carry out, and it is possible to surely remove the attached substances.

【0039】そして、本発明によれば、CO検出素子へ
の付着物質が完全に除去された状態のまま次回の燃焼運
転開始時まで保たれるために、次回の燃焼運転開始時か
ら、即座に、COセンサによるCOガス濃度の検出が正
確に行われ、従来のように燃焼運転開始時に、ヒートク
リーニングのためにCOガス濃度の検出動作が行われな
いといったロスタイムもなく、CO検出センサの正確な
COガス濃度検出動作に基づいて、燃焼装置の燃焼運転
動作やCO安全動作が的確に行われる。
Further, according to the present invention, since the substances adhering to the CO detection element are completely removed and kept until the next combustion operation is started, the next combustion operation is immediately started. , The CO gas concentration is accurately detected by the CO sensor, and there is no loss time such that the CO gas concentration detection operation is not performed due to heat cleaning at the start of the combustion operation as in the conventional case, and the CO detection sensor is accurate. Based on the CO gas concentration detection operation, the combustion operation operation and CO safety operation of the combustion device are accurately performed.

【0040】そして、以上のようなCO検出センサのヒ
ートアップ処理を行いながら燃焼装置を使用することに
より、本発明のCO検出センサ付燃焼装置は、CO検出
センサの検出信号に基づいて行われる燃焼運転動作やC
O安全動作を長期に亙って的確に行うことができる燃焼
装置とすることができる。
By using the combustion device while performing the heat-up process of the CO detection sensor as described above, the combustion device with the CO detection sensor of the present invention performs the combustion performed based on the detection signal of the CO detection sensor. Driving operation and C
O It is possible to provide a combustion device that can perform a safe operation accurately over a long period of time.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明に係わるCO検出センサ付燃焼装置の一
実施例を示す要部構成のブロック図である。
FIG. 1 is a block diagram of a main part configuration showing an embodiment of a combustion device with a CO detection sensor according to the present invention.

【図2】上記実施例によるCO検出センサのヒートアッ
プ処理動作の説明図である。
FIG. 2 is an explanatory diagram of a heat-up processing operation of the CO detection sensor according to the above embodiment.

【図3】燃焼装置として一般的な給湯器のシステム図で
ある。
FIG. 3 is a system diagram of a general water heater as a combustion device.

【図4】COセンサの一例を示す説明図である。FIG. 4 is an explanatory diagram showing an example of a CO sensor.

【図5】図4に示したCOセンサの分解説明図である。5 is an exploded view of the CO sensor shown in FIG.

【図6】従来のCO検出センサのヒートアップ処理動作
の説明図である。
FIG. 6 is an explanatory diagram of a heat-up processing operation of a conventional CO detection sensor.

【符号の説明】[Explanation of symbols]

14 制御装置 20 COセンサ 24 燃焼停止検出手段 25 センサ通電量制御手段 35 CO検出素子 14 Control device 20 CO sensor 24 Combustion stop detection means 25 Sensor energization amount control means 35 CO detection element

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 CO検出素子を有し、燃焼運転時に該C
O検出素子に通電してCO検出素子とCOガスとを接触
反応させて排気ガス中のCO濃度を検出する接触反応式
のCO検出センサを備えたCO検出センサ付燃焼装置に
おいて、燃焼運転動作の停止信号を検出する燃焼停止検
出手段と、該燃焼停止検出手段により燃焼運転動作の停
止信号を検出したときには前記CO検出素子への通電量
を多くしてCO検出素子の温度をヒートクリーニングの
温度まで高めてヒートクリーニングを行うセンサ通電量
制御手段とを設けたことを特徴とするCO検出センサ付
燃焼装置。
1. A CO detection element is provided, and the C
In a combustion device with a CO detection sensor, which is equipped with a contact reaction type CO detection sensor that detects the CO concentration in the exhaust gas by energizing the O detection element to cause a CO reaction between the CO detection element and CO gas, Combustion stop detection means for detecting a stop signal, and when the combustion stop operation means detects a stop signal for combustion operation, the amount of electricity to the CO detection element is increased to bring the temperature of the CO detection element to the temperature for heat cleaning. A combustion device with a CO detection sensor, characterized in that it is provided with a sensor energization amount control means for enhancing heat cleaning.
【請求項2】 CO検出素子を有し、燃焼運転時に該C
O検出素子に通電してCO検出素子とCOガスとを接触
反応させて排気ガス中のCO濃度を検出する接触反応式
のCO検出センサを備えたCO検出センサ付燃焼装置に
おいて、燃焼運転動作の停止信号を検出し、該停止信号
が検出されたときには、前記CO検出素子への通電量を
多くしてCO検出素子の温度をヒートクリーニングの温
度まで高めることにより燃焼運転終了直後にCO検出素
子のヒートクリーニングを行うことを特徴とするCO検
出センサ付燃焼装置のCO検出センサのヒートアップ処
理方法。
2. A CO detection element is provided, and the C
In a combustion device with a CO detection sensor, which is equipped with a contact reaction type CO detection sensor that detects the CO concentration in the exhaust gas by energizing the O detection element to cause a CO reaction between the CO detection element and CO gas, When the stop signal is detected, and when the stop signal is detected, the amount of electricity supplied to the CO detection element is increased to raise the temperature of the CO detection element to the temperature of heat cleaning, so that the CO detection element of the CO detection element immediately after the end of the combustion operation. A heat-up treatment method for a CO detection sensor of a combustion device with a CO detection sensor, characterized by performing heat cleaning.
JP29783594A 1994-11-07 1994-11-07 Combustion device with CO detection sensor and heat-up treatment method for the CO detection sensor Expired - Lifetime JP3453441B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP29783594A JP3453441B2 (en) 1994-11-07 1994-11-07 Combustion device with CO detection sensor and heat-up treatment method for the CO detection sensor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP29783594A JP3453441B2 (en) 1994-11-07 1994-11-07 Combustion device with CO detection sensor and heat-up treatment method for the CO detection sensor

Publications (2)

Publication Number Publication Date
JPH08135962A true JPH08135962A (en) 1996-05-31
JP3453441B2 JP3453441B2 (en) 2003-10-06

Family

ID=17851775

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
JP (1) JP3453441B2 (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007217222A (en) * 2006-02-16 2007-08-30 Matsushita Electric Ind Co Ltd Hydrogen generator and fuel cell system having the same
JP2013050259A (en) * 2011-08-30 2013-03-14 Noritz Corp Combustion apparatus
JP2015117865A (en) * 2013-12-17 2015-06-25 株式会社ノーリツ Combustion device and water heater
CN108278632A (en) * 2018-01-18 2018-07-13 芜湖美的厨卫电器制造有限公司 The control device and method and gas heater of the machine to be burnt with combustion gas

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007217222A (en) * 2006-02-16 2007-08-30 Matsushita Electric Ind Co Ltd Hydrogen generator and fuel cell system having the same
JP2013050259A (en) * 2011-08-30 2013-03-14 Noritz Corp Combustion apparatus
JP2015117865A (en) * 2013-12-17 2015-06-25 株式会社ノーリツ Combustion device and water heater
CN108278632A (en) * 2018-01-18 2018-07-13 芜湖美的厨卫电器制造有限公司 The control device and method and gas heater of the machine to be burnt with combustion gas

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