JPH1047659A - Controller for vaporizing type oil combustor - Google Patents
Controller for vaporizing type oil combustorInfo
- Publication number
- JPH1047659A JPH1047659A JP21514996A JP21514996A JPH1047659A JP H1047659 A JPH1047659 A JP H1047659A JP 21514996 A JP21514996 A JP 21514996A JP 21514996 A JP21514996 A JP 21514996A JP H1047659 A JPH1047659 A JP H1047659A
- Authority
- JP
- Japan
- Prior art keywords
- mixing chamber
- heater
- combustion
- vaporizer
- temperature sensor
- 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
Links
Landscapes
- Control Of Combustion (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】この発明は給湯機等の燃焼部を構
成する気化ヒ−タを備えた気化式石油燃焼器の制御装置
に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for a gasification type oil combustor provided with a gasification heater constituting a combustion section of a water heater or the like.
【0002】[0002]
【従来の技術】従来よりこの種のものに於いては、例え
ば特願平7−294917号公報に開示されている如
く、気化器は勿論のこと該気化器に連通した混合室にも
加熱用のヒ−タを備え、折角気化した燃油を液化させる
ことなく、しかも燃焼空気も高温状態に保持して予混合
し、良好な燃焼が得られるようにしたものである。2. Description of the Related Art Conventionally, in this type of apparatus, as disclosed in Japanese Patent Application No. 7-294917, not only a vaporizer but also a mixing chamber connected to the vaporizer is used for heating. The fuel is not pre-mixed while keeping the combustion air at a high temperature, so that good combustion can be obtained.
【0003】[0003]
【発明が解決しようとする課題】ところでこの従来のも
のでは、混合室ヒ−タは予熱時の一定時間のみしか通電
されない為、燃焼開始後も燃焼空気温度が極端に低い場
合や、ヒ−トバックが十分に取れず混合室まで加熱出来
ないような場合には、やはり気化ガスの液化が発生し、
異常燃焼や失火の原因となるものであった。By the way, in this conventional apparatus, the mixing chamber heater is energized only for a certain period of time during preheating, so that the combustion air temperature is extremely low even after the start of combustion, When the mixing chamber cannot be heated due to insufficient removal, liquefaction of vaporized gas also occurs,
It caused abnormal combustion and misfire.
【0004】又これを防止する為に常時混合室ヒ−タに
通電することが考えられるが、今度は逆に不必要な時に
も混合室の加熱が行われ、電力消費が大きく不経済であ
り、最適な混合室ヒ−タの制御が求められるものであっ
た。To prevent this, it is conceivable to energize the heater of the mixing chamber at all times. However, this time, the mixing chamber is heated even when it is not necessary, and power consumption is large and uneconomical. Therefore, optimum control of the mixing chamber heater was required.
【0005】[0005]
【問題点を解決するための手段】この発明はこの点に着
目し上記欠点を解決する為、特にその構成を、気化ヒ−
タ及び気化温度センサを備え燃油を気化する気化器と、
該気化器に連通し気化ガスと燃焼空気とを予混合してバ
−ナ部に供給する混合室とを備え、更に混合室には該混
合室を加熱する混合室ヒ−タを備えたものに於いて、前
記混合室ヒ−タの通電を制御する補助制御手段を備え、
該補助制御手段は空気温度センサが検知する燃焼空気温
度によって混合室ヒ−タを制御するものである。又混合
室ヒ−タの通電を、バ−ナ部の燃焼量に応じて制御する
ようにしたものである。The present invention focuses on this point, and solves the above-mentioned drawbacks.
A vaporizer for vaporizing fuel oil, comprising a fuel gas and a vaporization temperature sensor,
A mixing chamber that communicates with the vaporizer and premixes the vaporized gas and the combustion air and supplies the premixed gas to a burner; and the mixing chamber further includes a mixing chamber heater for heating the mixing chamber. An auxiliary control means for controlling the energization of the mixing chamber heater,
The auxiliary control means controls the mixing chamber heater based on the combustion air temperature detected by the air temperature sensor. Also, the energization of the mixing chamber heater is controlled in accordance with the combustion amount of the burner.
【0006】[0006]
【作用】気化ヒ−タ5に通電し気化器7を設定温度まで
加熱すると共に、混合室ヒ−タ9に通電し混合室10を
加熱した後、電磁ポンプ14及び燃焼ファン16等を駆
動すれば、気化器7内に燃油と燃焼用の一次空気とが供
給され燃油は気化して予混合ガスが形成され、この混合
ガスは底部の流出口8から混合室10内に流入するが、
該混合室10は混合室ヒ−タ9によって加熱されてお
り、ここで液化することなく良好な予混合を行いバ−ナ
部3で完全燃焼が得られるものである。After energizing the vaporizing heater 5 to heat the vaporizer 7 to the set temperature and energizing the mixing chamber heater 9 to heat the mixing chamber 10, the electromagnetic pump 14 and the combustion fan 16 are driven. For example, fuel oil and primary air for combustion are supplied into the carburetor 7, and the fuel oil is vaporized to form a premixed gas. The mixed gas flows into the mixing chamber 10 from the outlet 8 at the bottom.
The mixing chamber 10 is heated by a mixing chamber heater 9, where good premixing is performed without liquefaction and complete combustion is obtained in the burner section 3.
【0007】更に混合室ヒ−タ9は燃焼ファン16の吸
込口20に備えた空気温度センサ21によって制御され
るものであり、即ち燃焼開始後空気温度センサ21が燃
焼空気温度を検知し、この温度が20℃以上を15秒間
継続することで補助制御手段29からの出力で、混合室
ヒ−タ9の通電がOFFされ、気化ヒ−タ5のみが通電
されるものである。Further, the mixing chamber heater 9 is controlled by an air temperature sensor 21 provided at the suction port 20 of the combustion fan 16, that is, the air temperature sensor 21 detects the temperature of the combustion air after the start of combustion. When the temperature is kept at 20 ° C. or more for 15 seconds, the power of the mixing chamber heater 9 is turned off and only the vaporization heater 5 is powered by the output from the auxiliary control means 29.
【0008】従って、燃焼空気温度が高く混合室10が
加熱されなくとも気化ガスの液化の心配がない時には、
混合室ヒ−タ9の通電をOFFして省電力化を計りなが
ら、常に良好な燃焼を得られるようにしているものであ
る。Therefore, when the temperature of the combustion air is high and there is no concern about liquefaction of the vaporized gas even if the mixing chamber 10 is not heated,
While the power supply to the mixing chamber heater 9 is turned off to save power, good combustion can always be obtained.
【0009】一方上記補助制御手段29に空気温度セン
サ21からの検知温度の変わりに、駆動回路30からの
燃焼量信号を入力させ、20000kcal/h以下の燃焼量
信号が1分間継続することで、混合室ヒ−タ9をOFF
させるようにすれば、ヒ−トバックが多量に取れる小火
力燃焼時には、不必要な混合室ヒ−タ9の通電を停止さ
せて省電力化を計りながら、良好な燃焼を得ることが出
来るものである。On the other hand, a combustion amount signal from the drive circuit 30 is input to the auxiliary control means 29 instead of the detected temperature from the air temperature sensor 21, and the combustion amount signal of 20000 kcal / h or less is continued for one minute. Turn off mixing chamber heater 9
In such a case, in the case of small thermal power combustion in which a large amount of heat back can be obtained, it is possible to obtain good combustion while stopping power supply to the unnecessary mixing chamber heater 9 to save power. is there.
【0010】[0010]
【実施例】次にこの発明に係る気化式石油燃焼器の制御
装置を、図面に示す如く給湯機に適用した一実施例で、
先ず図1・2で説明する。1は給湯路2途中に備えられ
た熱交換器で、下方に位置するバ−ナ部3の燃焼で加熱
され、給湯路2先端に備えられた給湯栓4の開栓で適宜
給湯を行うものである。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment in which a control device for a gasification type oil combustor according to the present invention is applied to a water heater as shown in the drawings.
First, a description will be given with reference to FIGS. Reference numeral 1 denotes a heat exchanger provided in the middle of the hot water supply passage 2, which is heated by the combustion of a burner portion 3 located below, and appropriately supplies hot water by opening a hot water tap 4 provided at the end of the hot water supply passage 2. It is.
【0011】前記バ−ナ部3は気化ヒ−タ5及び気化温
度センサ6を備えた横椀状の気化器7と、該気化器7下
端の流出口8と連通しこの流出口8と対向する位置に混
合室ヒ−タ9を備えた混合室10とに連通し、気化器7
で気化した気化ガスを混合室10で一次空気と予混合し
た後、バ−ナ部3で二次空気の供給を受けながら気化燃
焼させるものである。The burner section 3 communicates with a vaporizer 7 in the form of a horizontal bowl provided with a vaporization heater 5 and a vaporization temperature sensor 6, and an outlet 8 at the lower end of the vaporizer 7, and is opposed to the outlet 8. To a mixing chamber 10 having a mixing chamber heater 9 at a position
After the vaporized gas vaporized in step (1) is premixed with the primary air in the mixing chamber 10, it is vaporized and burned while receiving the supply of the secondary air in the burner section 3.
【0012】11は気化器7背面でバ−ナ部3上に突出
された複数個の吸熱フィンで、燃焼熱を気化器7にヒ−
トバックして、気化ヒ−タ5及び混合室ヒ−タ9の通電
量を極力小さく抑えるものである。Numeral 11 denotes a plurality of heat absorbing fins protruding above the burner section 3 on the back of the vaporizer 7, and heats the combustion heat to the vaporizer 7.
The amount of electricity supplied to the vaporization heater 5 and the mixing chamber heater 9 is reduced as much as possible.
【0013】12は気化器7に燃油を噴霧するノズル
で、送油管13を介して電磁ポンプ14と連結され、気
化器7の噴出口15に位置している。Numeral 12 denotes a nozzle for spraying fuel oil to the vaporizer 7, which is connected to an electromagnetic pump 14 through an oil feed pipe 13 and is located at an outlet 15 of the vaporizer 7.
【0014】16は燃焼ファンで、送風路17を介して
噴出口15及びバ−ナ部3とカバ−枠18との間の空気
室19とに連通し、吸込口20より吸引した燃焼空気を
噴出口15には予混合用の一次空気として供給し、空気
室19には気化器7側方を通り混合室10下方からバ−
ナ部3で燃焼される二次空気として供給するものであ
る。Numeral 16 denotes a combustion fan, which communicates with the air outlet 19 and the air chamber 19 between the burner section 3 and the cover frame 18 via the air passage 17, and burns the combustion air sucked from the suction port 20. The air is supplied to the jet port 15 as primary air for premixing, and the air chamber 19 is passed from the vaporizer 7 to the side from below the mixing chamber 10.
The air is supplied as secondary air to be burned in the corner portion 3.
【0015】21は上記吸込口20に備えられた空気温
度センサで、器具本体22側方下部に形成された流入口
23から流入し、バ−ナ部3及び気化器7に供給される
燃焼空気温度を検知し、燃焼空気量の補正及び予熱時の
逆風を検知するものである。Reference numeral 21 denotes an air temperature sensor provided at the suction port 20. Combustion air which flows from an inflow port 23 formed at a lower portion of the side of the appliance body 22 and is supplied to the burner section 3 and the carburetor 7. The temperature is detected, the amount of combustion air is corrected, and a headwind at the time of preheating is detected.
【0016】24は器具本体22上部に開口された排気
口で、排気路25に連通し熱交換器1加熱後の排気ガス
を排出するものである。Reference numeral 24 denotes an exhaust port opened in the upper part of the apparatus main body 22, which communicates with an exhaust path 25 and exhausts exhaust gas after heating the heat exchanger 1.
【0017】26は給湯路2の入水側に備えられ水の流
れを検知する水流センサで、給湯栓4の開栓による水流
で給湯必要とする熱要求有りと判断して、信号を送り燃
焼等を開始させるものである。Reference numeral 26 denotes a water flow sensor provided on the water inlet side of the hot water supply passage 2 for detecting the flow of water. Is to start.
【0018】27は熱交換器1後の給湯路2に備えられ
た湯温センサで、給湯温度を検知するものである。Reference numeral 27 denotes a hot water temperature sensor provided in the hot water supply passage 2 after the heat exchanger 1, and detects a hot water supply temperature.
【0019】次に電気回路を図3のブロック図で説明す
る。28はヒ−タ制御回路で、気化器7の温度を検知す
る気化温度センサ6からの検知温度に応じて、気化ヒ−
タ5の通電を制御し、気化器7を気化可能温度に保持す
るものである。Next, the electric circuit will be described with reference to the block diagram of FIG. Numeral 28 denotes a heater control circuit, which operates in accordance with the temperature detected by the vaporization temperature sensor 6 for detecting the temperature of the vaporizer 7.
This controls the energization of the heater 5 to maintain the vaporizer 7 at a vaporizable temperature.
【0020】29は空気温度センサ21からの検知温度
信号を受け混合室ヒ−タ9を燃焼空気温度に応じて制御
する補助制御手段で、空気温度センサ21が20℃以上
を15秒間継続検知することで混合室ヒ−タ9をOFF
し、18℃未満を15秒間継続検知することで再びON
させるものであり、混合室ヒ−タ9のON状態ではヒ−
タ制御回路28によって該混合室ヒ−タ9は制御される
ようにしているものである。Reference numeral 29 denotes auxiliary control means for receiving the detected temperature signal from the air temperature sensor 21 and controlling the mixing chamber heater 9 in accordance with the combustion air temperature. The air temperature sensor 21 continuously detects 20 ° C. or higher for 15 seconds. Turns off mixing chamber heater 9
ON again by detecting continuously below 18 ° C for 15 seconds
When the mixing chamber heater 9 is in the ON state, the heating is performed.
The mixing chamber heater 9 is controlled by a heater control circuit 28.
【0021】30は駆動回路で湯温設定器31で設定さ
れた希望湯温と、湯温センサ27で検知された実際の出
湯温度とを比較し、設定湯温が得られるように必要燃焼
量を演算して、燃焼量信号を電磁ポンプ14及び燃焼フ
ァン16に出力しバ−ナ部3の燃焼を制御するものであ
り、流水センサ26からの流水検知信号による熱要求有
りを受けて点火器(図示せず)等を制御して燃焼開始制
御も行うものである。Reference numeral 30 denotes a drive circuit which compares the desired hot water temperature set by the hot water temperature setting device 31 with the actual hot water temperature detected by the hot water temperature sensor 27, and calculates the required amount of combustion so as to obtain the set hot water temperature. , And outputs a combustion amount signal to the electromagnetic pump 14 and the combustion fan 16 to control the combustion of the burner unit 3. In response to a request for heat from the flowing water detection signal from the flowing water sensor 26, the igniter (Not shown) and the like to control combustion start.
【0022】32は上記ヒ−タ制御回路28及び補助制
御手段29及び駆動回路30を含む燃焼制御回路で、比
較・演算・タイマ等の各種機能を有したマイコン出それ
ぞれ構成され、或いは燃焼制御回路32を1つのマイコ
ンで構成するようにしても良いものであり、給湯スイッ
チ33のON信号を受けてヒ−タ制御回路28に、気化
器7及び混合室10を予め加熱しておく予熱動作を行わ
せるものである。Reference numeral 32 denotes a combustion control circuit including the heater control circuit 28, the auxiliary control means 29, and the drive circuit 30. The combustion control circuit 32 includes microcomputers having various functions such as comparison, calculation, and timer. 32 may be constituted by one microcomputer, and upon receiving an ON signal of the hot water supply switch 33, the heater control circuit 28 performs a preheating operation of preheating the vaporizer 7 and the mixing chamber 10. It is what is done.
【0023】次にこの一実施例の作動を図4に示すフロ
−チャ−トに従って説明する。今給湯スイッチ33をO
Nすることで、気化器7及び混合室10が予熱され、給
湯開始を指示する熱要求を待つスタンバイモ−ド状態の
ステップ34となり、次にステップ35に進み熱要求を
判断し、給湯栓4開による熱要求有りでYESとなり、
ステップ36でヒ−タ制御回路28によって予熱中でO
N状態であっても、気化ヒ−タ5及び混合室ヒ−タ9を
強制的に10秒間ONさせて着火性を良くしているもの
である。Next, the operation of this embodiment will be described with reference to the flowchart shown in FIG. Now turn on the hot water supply switch 33
N, the vaporizer 7 and the mixing chamber 10 are preheated, and the process proceeds to step 34 in a standby mode state of waiting for a heat request for instructing the start of hot water supply. YES when there is a heat request by opening,
During preheating by the heater control circuit 28 in step 36, O
Even in the N state, the ignitability is improved by forcibly turning on the vaporizing heater 5 and the mixing chamber heater 9 for 10 seconds.
【0024】そしてステップ37に進んで駆動回路30
で設定温度と湯温との比較で必要燃焼量が演算され、こ
れに応じて電磁ポンプ14と燃焼ファン16が駆動し
て、バ−ナ部3の燃焼を必要燃焼量に維持し、良好な給
湯を行うものである。Then, the process proceeds to a step 37, wherein the driving circuit 30
The required amount of combustion is calculated by comparing the set temperature and the hot water temperature, and the electromagnetic pump 14 and the combustion fan 16 are driven in accordance with the calculated value to maintain the required amount of combustion in the burner section 3 and maintain good combustion. It supplies hot water.
【0025】更にこの燃焼中ステップ38に進み空気温
度センサ21による燃焼空気温度検知で、空気温度が2
0℃以上を15秒間継続して検知したかを判断し、YE
Sでステップ39に進んで補助制御手段29によってヒ
−タ制御回路28からの混合室ヒ−タ9制御を遮断し、
該混合室ヒ−タ9をOFF状態とし、ステップ40で気
化ヒ−タ5のみがヒ−タ制御回路28によって継続制御
される。Further, during the combustion, the routine proceeds to step 38, where the air temperature sensor 21 detects the combustion air temperature, and
It is determined whether 0 ° C or more has been detected continuously for 15 seconds.
In S, the process proceeds to step 39, where the auxiliary control means 29 interrupts the control of the mixing chamber heater 9 from the heater control circuit 28,
The mixing chamber heater 9 is turned off, and only the vaporization heater 5 is continuously controlled by the heater control circuit 28 in step 40.
【0026】そして次にステップ41に進み熱要求を判
断して、継続して熱要求がある時にはYESでステップ
38に戻るものであり、逆に給湯栓4が閉栓された時に
はNOでステップ42に進んでバ−ナ部3の燃焼を停止
させ、ステップ35に戻ってスタンバイ状態で次の熱要
求有りを待つものである。Then, the program proceeds to step 41, where a heat request is judged. If there is a continuous heat request, the process returns to step 38 with YES, and conversely, if the hot water tap 4 is closed, the process returns to step 42 with NO. Then, the combustion of the burner section 3 is stopped, and the routine returns to step 35 to wait for the next heat request in the standby state.
【0027】又ステップ38でNOの場合、即ち燃焼空
気温度が20℃以上でなかったり或いは15秒間継続し
なかった時には、ステップ43に進み空気温度が18℃
未満を15秒間継続したかを判断し、YESでステップ
44に進んでヒ−タ制御回路28による気化ヒ−タ5と
混合室ヒ−タ9の連動制御を継続させて、混合室ヒ−タ
9による混合室10の加熱を継続させ気化ガスの液化を
防止するものであり、そしてステップ43でNOの時も
同じく次のステップ41に戻るものであって、スタンバ
イモ−ドが終了する1時間の間は順次この各ステップを
繰り返すものである。If NO in step 38, that is, if the combustion air temperature is not higher than 20 ° C. or does not continue for 15 seconds, the process proceeds to step 43, where the air temperature is set to 18 ° C.
It is determined whether or not the time is less than 15 seconds. If YES, the process proceeds to step 44, where the interlocking control of the vaporization heater 5 and the mixing chamber heater 9 by the heater control circuit 28 is continued, and the mixing chamber heater is controlled. The heating of the mixing chamber 10 by 9 is continued to prevent liquefaction of the vaporized gas, and when NO in step 43, the process also returns to the next step 41, and one hour when the standby mode ends. During this period, these steps are sequentially repeated.
【0028】従って、燃焼空気温度が高く混合室10が
加熱されていなくとも気化ガスが液化しない時には、的
確に混合室ヒ−タ9をOFFして余分な電力消費を防止
出来るものであり、しかもOFFの条件を空気温度セン
サ21が所定温度以上を一定時間継続検知することとし
たので、瞬間的な温度上昇ではOFFせず誤動作の心配
がなく確実な制御が行えるものであり、勿論空気温度が
所定温度以下となった時には、再び混合室ヒ−タ9は通
電され、気化ガスの液化を常に阻止するものである。Therefore, when the temperature of the combustion air is high and the vaporized gas does not liquefy even if the mixing chamber 10 is not heated, the mixing chamber heater 9 can be accurately turned off to prevent unnecessary power consumption. The OFF condition is that the air temperature sensor 21 continuously detects a predetermined temperature or more at a predetermined temperature for a certain period of time. Therefore, the instantaneous temperature rise does not turn OFF, so that there is no fear of malfunction and reliable control can be performed. When the temperature becomes lower than the predetermined temperature, the mixing chamber heater 9 is again energized to always prevent liquefaction of the vaporized gas.
【0029】次に燃焼空気温度でなくバ−ナ部3の燃焼
量で混合室ヒ−タ9を制御する請求項3・4の実施例
を、上記した請求項1・2の実施例とは相違する点のみ
図5・6に従って説明するが、同一部分は同一符号とす
る。Next, the third and fourth embodiments in which the mixing chamber heater 9 is controlled not by the combustion air temperature but by the combustion amount of the burner section 3 are different from the above-mentioned first and second embodiments. Only the different points will be described with reference to FIGS. 5 and 6, but the same parts are denoted by the same reference numerals.
【0030】図5の電気回路のブロック図では、空気温
度センサ21の変わりに駆動回路30からの燃焼量信号
が補助制御手段29に入力し、この燃焼量信号が最大燃
焼量40000kcal/hの場合、中間の20000kcal/h
未満の燃焼量指示を1分間継続させと時に、ヒ−タ制御
回路28からの制御を遮断して混合室ヒ−タ9をOFF
するものであり、逆に20000kcal/h以上の時には、
ヒ−タ制御回路28による制御を継続させるものであ
る。In the block diagram of the electric circuit shown in FIG. 5, when the combustion amount signal from the drive circuit 30 is input to the auxiliary control means 29 instead of the air temperature sensor 21, and the combustion amount signal is the maximum combustion amount 40000 kcal / h. , Medium 20,000kcal / h
When the instruction of the combustion amount less than 1 minute is continued for 1 minute, the control from the heater control circuit 28 is cut off and the mixing chamber heater 9 is turned off.
On the contrary, when it is 20,000 kcal / h or more,
The control by the heater control circuit 28 is continued.
【0031】次に図6のフロ−チャ−トで説明すれば、
ステップ37でバ−ナ部3を燃焼させた後、ステップ4
5で駆動回路30からの燃焼量信号が20000kcal/h
未満かどうかを補助制御手段29が判断し、そして20
000kcal/h未満が1分間継続するとYESでステップ
39に進み混合室ヒ−タ9をOFFとするものであり、
又20000kcal/h以上ではNOでステップ44に進み
ヒ−タ制御回路28による混合室ヒ−タ9の制御を継続
するものである。Next, with reference to the flowchart of FIG.
After burning the burner section 3 in step 37, step 4
5, the combustion amount signal from the drive circuit 30 is 20,000 kcal / h
The auxiliary control means 29 determines whether the value is less than
If the pressure is less than 000 kcal / h for one minute, the process proceeds to step 39 with YES, and the mixing chamber heater 9 is turned off.
If the pressure is 20,000 kcal / h or more, the process proceeds to step 44 with NO, and the control of the mixing chamber heater 9 by the heater control circuit 28 is continued.
【0032】従って、バ−ナ部3の燃焼量が小さい時に
は、火炎がバ−ナ部3近傍に形成され且つ吸熱フィン1
1からのヒ−トバックも良好で、更に燃油の気化に利用
される熱も少なくて済むので、混合室ヒ−タ9をOFF
させても混合室10は十分に加熱されこの温度を維持出
来、気化ガスの液化の恐れはなく、省電力化を計ること
が出来るものである。Therefore, when the amount of combustion in the burner section 3 is small, a flame is formed near the burner section 3 and the heat absorbing fins 1
Since the heat-back from 1 is good and the heat used for vaporizing fuel oil is small, the mixing chamber heater 9 is turned off.
Even if this is done, the mixing chamber 10 can be heated sufficiently to maintain this temperature, there is no danger of liquefaction of the vaporized gas, and power saving can be achieved.
【0033】更に混合室ヒ−タ9のOFFは所定燃焼量
を一定時間継続した時に初めて行われるので、設定温度
と湯温とで刻々と燃焼量が変化したとしても該設定燃焼
量が安定したことを確認した後にOFFとすることが出
来るので、すぐに燃焼量が大きくなってONされてチャ
タリングを発生する心配がなく、安心して使用出来るも
のである。Further, since the mixing chamber heater 9 is turned off only when a predetermined amount of combustion is continued for a predetermined period of time, the set amount of combustion becomes stable even if the amount of combustion changes every time between the set temperature and the hot water temperature. Since it can be turned OFF after confirming that, there is no fear that the combustion amount will be immediately turned on due to an increase in the amount of chattering, and the device can be used with confidence.
【0034】又燃焼空気温度に比べて直接混合室10温
度に関係する燃焼量で制御するので、確実に気化ガスの
液化を防止出来、しかもどちらの制御にしても混合室9
の温度検知用の専用の温度センサが不要で安価で済むと
言う利点を有する。Further, since the combustion amount is directly controlled by the amount of combustion related to the temperature of the mixing chamber 10 as compared with the temperature of the combustion air, the liquefaction of the vaporized gas can be reliably prevented.
There is an advantage that a dedicated temperature sensor for detecting the temperature is unnecessary and the cost can be reduced.
【0035】[0035]
【発明の効果】要するにこの発明は、気化ヒ−タ及び気
化温度センサを備え燃油を気化する気化器と、該気化器
に連通し気化ガスと燃焼空気とを予混合してバ−ナ部に
供給する混合室とを備え、更に混合室には該混合室を加
熱する混合室ヒ−タを備えたものに於いて、前記混合室
ヒ−タの通電を制御する補助制御手段を備え、該補助制
御手段は空気温度センサが検知する燃焼空気温度によっ
て混合室ヒ−タを制御するものであるから、気化ガスの
液化を確実に防止しながら、効率良く混合室ヒ−タをO
FFして省電力化を計ることが出来、極めて使用勝手が
良く、しかも専用の温度センサ等を設けることなく構成
簡単で安価に提供出来るものである。In summary, the present invention relates to a vaporizer having a vaporization heater and a vaporization temperature sensor for vaporizing fuel oil, and communicating with the vaporizer for premixing vaporized gas and combustion air to a burner section. A mixing chamber for heating the mixing chamber, the mixing chamber having a heater for heating the mixing chamber, and an auxiliary control means for controlling the energization of the mixing chamber heater. Since the auxiliary control means controls the mixing chamber heater based on the combustion air temperature detected by the air temperature sensor, the mixing chamber heater is efficiently turned on while reliably preventing liquefied vaporized gas.
The FF can be used to save power, is extremely easy to use, and can be provided simply and at low cost without providing a dedicated temperature sensor or the like.
【0036】又混合室ヒ−タのOFFを燃焼量に応じて
制御するようにすれば、実際の混合室温度により近い温
度で制御することが出来、より確実に気化ガスの液化防
止と省電力化を計ることが出来るものである。Further, if the OFF of the mixing chamber heater is controlled in accordance with the amount of combustion, the temperature can be controlled at a temperature closer to the actual temperature of the mixing chamber, and the liquefaction of the vaporized gas can be prevented more reliably and the power can be saved. Can be measured.
【図1】この発明一実施例の燃焼器の制御装置を備えた
石油給湯機の概略構成図。FIG. 1 is a schematic configuration diagram of an oil water heater including a combustor control device according to an embodiment of the present invention.
【図2】同燃焼部分の詳細断面図。FIG. 2 is a detailed sectional view of the combustion portion.
【図3】同電気回路のブロック図。FIG. 3 is a block diagram of the electric circuit.
【図4】同要部のフロ−チャ−ト。FIG. 4 is a flowchart of the main part.
【図5】他の実施例の電気回路のブロック図。FIG. 5 is a block diagram of an electric circuit according to another embodiment.
【図6】図5の要部フロ−チャ−ト。FIG. 6 is a main part flowchart of FIG. 5;
3 バ−ナ部 5 気化ヒ−タ 6 気化温度センサ 7 気化器 9 混合室ヒ−タ 10 混合室 21 空気温度センサ 28 ヒ−タ制御回路 29 補助制御手段 30 駆動回路 Reference Signs List 3 burner part 5 vaporization heater 6 vaporization temperature sensor 7 vaporizer 9 mixing chamber heater 10 mixing chamber 21 air temperature sensor 28 heater control circuit 29 auxiliary control means 30 drive circuit
───────────────────────────────────────────────────── フロントページの続き (72)発明者 佐藤 政一 新潟県三条市東新保7番7号 株式会社コ ロナ内 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Seiichi Sato 7-7 Higashi Shinbo, Sanjo City, Niigata Pref.
Claims (4)
油を気化する気化器と、該気化器に連通し気化ガスと燃
焼空気とを予混合してバ−ナ部に供給する混合室とを備
え、更に混合室には該混合室を加熱する混合室ヒ−タを
備えたものに於いて、前記混合室ヒ−タの通電を制御す
る補助制御手段を備え、該補助制御手段は空気温度セン
サが検知する燃焼空気温度によって混合室ヒ−タを制御
する事を特徴とする気化式石油燃焼器の制御装置。A vaporizer having a vaporization heater and a vaporization temperature sensor for vaporizing fuel oil; a mixing chamber communicating with the vaporizer for premixing vaporized gas and combustion air and supplying the mixture to a burner section. The mixing chamber further includes a mixing chamber heater for heating the mixing chamber, and further includes auxiliary control means for controlling energization of the mixing chamber heater, and the auxiliary control means includes air. A control device for a vaporized petroleum combustor, characterized in that a mixing chamber heater is controlled by a combustion air temperature detected by a temperature sensor.
所定温度以上を一定時間継続して検知することでOFF
される事を特徴とする請求項1記載の気化式石油燃焼器
の制御装置。2. The mixing chamber heater is turned off when an air temperature sensor continuously detects a predetermined temperature or higher for a predetermined time.
The control device for a vaporized petroleum combustor according to claim 1, wherein the control is performed.
油を気化する気化器と、該気化器に連通し気化ガスと燃
焼空気とを予混合してバ−ナ部に供給する混合室とを備
え、更に混合室には該混合室を加熱する混合室ヒ−タを
備えたものに於いて、前記混合室ヒ−タの通電を制御す
る補助制御手段を備え、該補助制御手段はバ−ナ部の燃
焼量に応じて混合室ヒ−タを制御する事を特徴とする気
化式石油燃焼器の制御装置。3. A vaporizer provided with a vaporization heater and a vaporization temperature sensor for vaporizing fuel oil, and a mixing chamber which communicates with the vaporizer and premixes vaporized gas and combustion air and supplies them to a burner section. The mixing chamber further includes a mixing chamber heater for heating the mixing chamber, and further includes auxiliary control means for controlling the energization of the mixing chamber heater. -A control device for a gasification type oil combustor, wherein a mixing chamber heater is controlled in accordance with a combustion amount of a corner portion.
指示されるバ−ナ部の燃焼量が所定燃焼量未満を一定時
間継続指示した時OFFされる事を特徴とする請求項3
記載の気化式石油燃焼器の制御装置。4. The mixing chamber heater is turned off when the combustion amount of the burner section indicated by the drive circuit is instructed to be less than a predetermined combustion amount for a certain period of time.
A control device for a vaporized petroleum combustor as described.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21514996A JP3322800B2 (en) | 1996-07-26 | 1996-07-26 | Control device for vaporized oil combustor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21514996A JP3322800B2 (en) | 1996-07-26 | 1996-07-26 | Control device for vaporized oil combustor |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH1047659A true JPH1047659A (en) | 1998-02-20 |
JP3322800B2 JP3322800B2 (en) | 2002-09-09 |
Family
ID=16667491
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP21514996A Expired - Fee Related JP3322800B2 (en) | 1996-07-26 | 1996-07-26 | Control device for vaporized oil combustor |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3322800B2 (en) |
-
1996
- 1996-07-26 JP JP21514996A patent/JP3322800B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JP3322800B2 (en) | 2002-09-09 |
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