JPH06281258A - Ff type gas hot-air heater - Google Patents

Ff type gas hot-air heater

Info

Publication number
JPH06281258A
JPH06281258A JP5067263A JP6726393A JPH06281258A JP H06281258 A JPH06281258 A JP H06281258A JP 5067263 A JP5067263 A JP 5067263A JP 6726393 A JP6726393 A JP 6726393A JP H06281258 A JPH06281258 A JP H06281258A
Authority
JP
Japan
Prior art keywords
combustion
gas
exhaust
fan
intake
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
JP5067263A
Other languages
Japanese (ja)
Other versions
JP2598213B2 (en
Inventor
Shigeaki Yasui
繁明 安井
Junichi Maeda
純一 前田
Akira Kanda
晃 神田
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.)
Rinnai Corp
Original Assignee
Rinnai Corp
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 Rinnai Corp filed Critical Rinnai Corp
Priority to JP5067263A priority Critical patent/JP2598213B2/en
Publication of JPH06281258A publication Critical patent/JPH06281258A/en
Application granted granted Critical
Publication of JP2598213B2 publication Critical patent/JP2598213B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Abstract

PURPOSE:To reduce the amount of drain generated in a suction/exhaust duct thereby preventing the drain from freezing by a method wherein, when combustion rate of a gas burner is below a predetermined value, a combustion controller increases quantity of gas for a short time or increases rotational speed of a combustion fan or decreases rotational speed of a convection fan. CONSTITUTION:A combustion controller 7 determines a combustion rate based on a set room temperature set by a room temperature set device and sensed room temperature sensed by a room temperature sensor 703 to control electric power fed to a gas proportional valve 6, combustion fan motor 52, and convection fan motor 22 so that degree of opening of the valve 6, rotational speed of the fan 52 and rotational speed of the convection fan are controlled so as to provide quantity of gas, utilization of combustion air, quantity of hot air 13 which fit the combustion rate. When a gas burner 4 exhibits a weak combustion, rotational speed of a combustion fan 5 is increased or quantity of gas is increased or rotational speed of convection fan is reduced. As a result, a large quantity of combustion exhaust gas 30 is discharged out of a room from an exhaust port 312 of a suction/exhaust duct 31.

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、FF式ガス温風暖房機
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an FF type gas warm air heater.

【0002】[0002]

【従来の技術】FF式ガス温風暖房機は、室内空気を吸
入する吸入口と温風を室内に吹き出す吹出口とを連通す
る温風通路内に対流ファンを設置している。この温風通
路内には、燃焼空気通路が配設され、空気通路出入口は
室外に延びる吸・排気ダクト(二重構造)に連絡してい
る。そして、燃焼空気通路にはガスバーナを内設した燃
焼室が形成され、該燃焼室の下流は排ガスの熱を放出す
る熱交換部となり、上流或いは下流には燃焼ファンが設
置されている。このFF式ガス温風暖房機は、室温セン
サで検出した検出室温と温度設定器で設定した設定温度
とに基づいて、燃焼制御器がガスバーナの燃焼量を決定
し、決定した燃焼量に対応して燃焼ファン及び対流ファ
ンの回転数が決められる。2. Description of the Related Art An FF type gas warm air heater has a convection fan installed in a warm air passage that connects an inlet for sucking indoor air and an outlet for blowing warm air into the room. A combustion air passage is arranged in the warm air passage, and an inlet / outlet of the air passage communicates with an intake / exhaust duct (double structure) extending to the outside of the room. A combustion chamber in which a gas burner is installed is formed in the combustion air passage, a heat exchanging section for radiating heat of exhaust gas is provided downstream of the combustion chamber, and a combustion fan is provided upstream or downstream. In this FF type gas warm air heater, the combustion controller determines the combustion amount of the gas burner based on the detected room temperature detected by the room temperature sensor and the set temperature set by the temperature setting device, and corresponds to the determined combustion amount. The combustion fan and convection fan speeds are determined.

【0003】[0003]

【発明が解決しようとする課題】上記従来のFF式ガス
温風暖房機において、暖房運転により室温が上昇し、例
えば、検出室温が設定温度以上になると、燃焼制御器は
ガスバーナの燃焼量を少なくし、燃焼ファン及び対流フ
ァンを低速回転にする。この様な場合、燃焼排ガスの温
度が低下するので、外気温が低い場合には、吸・排気ダ
クトの排気側にドレンが発生する。尚、室外が略無風状
態の場合、吸・排気ダクトの排気口から出た燃焼排ガス
が取込口に直接入るショートサーキット現象が発生する
虞があるが、この場合は、吸・排気ダクトの吸気側にも
ドレンが発生する。尚、外気温が著しく低いと排気口か
ら流出したドレンが吸・排気ダクトの外周部で凍結し、
時間経過とともに凍結部分が拡大して吸・排気ダクトの
取込口への吸気を阻害したり、吸・排気ダクトの吸気側
で発生したドレンが凍結し、取込口を閉塞したりする。
本発明の目的は、ガスバーナが弱燃焼している場合や燃
焼排ガスの温度が低い場合に吸・排気ダクトで生じるド
レンの発生量を大幅に低減できるとともに、ドレンの凍
結が防止できるFF式ガス温風暖房機の提供にある。In the above-mentioned conventional FF type gas warm air heater, when the room temperature rises due to the heating operation and, for example, the detected room temperature exceeds the set temperature, the combustion controller reduces the combustion amount of the gas burner. Then, the combustion fan and the convection fan are rotated at low speed. In such a case, the temperature of the combustion exhaust gas decreases, so that drainage occurs on the exhaust side of the intake / exhaust duct when the outside air temperature is low. If there is almost no air outdoors, a short circuit phenomenon may occur in which the combustion exhaust gas emitted from the exhaust port of the intake / exhaust duct directly enters the intake port. Drain also occurs on the side. When the outside air temperature is extremely low, the drainage flowing out from the exhaust port freezes around the intake / exhaust duct,
The frozen portion expands with the passage of time, obstructing the intake to the intake / exhaust duct inlet, or the drain generated on the intake side of the intake / exhaust duct freezes and blocks the inlet.
An object of the present invention is to significantly reduce the amount of drain generated in the intake / exhaust duct when the gas burner is weakly combusted or when the temperature of the combustion exhaust gas is low, and it is possible to prevent the drain from freezing. In the provision of a wind heater.

【0004】[0004]

【課題を解決するための手段】上記課題を解決する為、
本発明は、以下の構成を採用した。 (1)室内空気を吸入する吸入口、室内に温風を吹き出
す吹出口を有する温風通路と、該温風通路内に配され、
前記吸入口から吹出口へ向かう空気流を発生させる対流
ファンと、室外に延設される吸・排気ダクトに連通し、
該吸・排気ダクトの取込口から室外空気を取り込み、排
気口から燃焼排ガスを室外に排出するとともに、この燃
焼排ガスの熱を前記空気流中に放出する熱交換部を通路
中に形成した燃焼空気通路と、燃焼空気通路内に配さ
れ、燃焼量が増減可能なガスバーナと、前記燃焼空気通
路内に配され、室外空気を前記ガスバーナに供給する燃
焼ファンと、前記ガスバーナにガスを供給するガス管路
中に配されるガス量調整弁と、前記対流ファン、燃焼用
ファン、ガス量調整弁を制御する燃焼制御器とを具備す
るFF式温風暖房機において、前記燃焼制御器は、前記
ガスバーナの燃焼量が所定値以下の場合、一時的に、ガ
ス量を増加させる、前記燃焼ファンの回転数を増加させ
る、又は前記対流ファンの回転数を減少させる事の内、
少なくとも一つを実施する排気温制御手段を有する。[Means for Solving the Problems] In order to solve the above problems,
The present invention has the following configurations. (1) An inlet for sucking indoor air, a warm air passage having an outlet for blowing warm air into the room, and a warm air passage arranged in the warm air passage,
A convection fan that generates an air flow from the inlet to the outlet and communicates with an intake / exhaust duct that is extended outdoors.
Combustion in which outdoor air is taken in through the intake / exhaust duct, exhaust gas is exhausted through the exhaust port, and the heat of this exhaust gas is released into the air flow in the passage. An air passage, a gas burner which is arranged in the combustion air passage and whose combustion amount can be increased and decreased, a combustion fan which is arranged in the combustion air passage and supplies outdoor air to the gas burner, and a gas which supplies gas to the gas burner. In a FF type hot air heater comprising a gas amount adjusting valve arranged in a pipe line, a convection fan, a combustion fan, and a combustion controller controlling the gas amount adjusting valve, the combustion controller includes: If the combustion amount of the gas burner is less than or equal to a predetermined value, temporarily increasing the gas amount, increasing the rotation speed of the combustion fan, or decreasing the rotation speed of the convection fan,
It has an exhaust temperature control means for implementing at least one.

【0005】(2)室内空気を吸入する吸入口、室内に
温風を吹き出す吹出口を有する温風通路と、該温風通路
内に配され、前記吸入口から吹出口へ向かう空気流を発
生させる対流ファンと、室外に延設される吸・排気ダク
トに連通し、該吸・排気ダクトの取込口から室外空気を
取り込み、排気口から燃焼排ガスを室外に排出するとと
もに、この燃焼排ガスの熱を前記空気流中に放出する熱
交換部を通路中に形成した燃焼空気通路と、前記熱交換
部より上流位置の燃焼空気通路内に配され、燃焼量が増
減可能なガスバーナと、前記燃焼空気通路内に配され、
室外空気を前記ガスバーナに供給する燃焼ファンと、前
記ガスバーナにガスを供給するガス管路中に配されるガ
ス量調整弁と、前記対流ファン、燃焼用ファン、ガス量
調整弁を制御する燃焼制御器とを具備するFF式温風暖
房機において、前記吸・排気ダクトの排気口付近に排気
温センサを設け、検出排気温が所定温度以下の場合、前
記燃焼制御器は、一時的に、ガス量を増加させる、前記
燃焼ファンの回転数を増加させる、又は前記対流ファン
の回転数を減少させる事の内、少なくとも一つを実施す
る排気温制御手段を有する。(2) A hot air passage having an inlet for sucking indoor air, a blow outlet for blowing warm air into the room, and an air flow arranged in the hot air passage to flow from the inlet toward the outlet. The convection fan to be communicated with the intake / exhaust duct extended to the outside of the room, the outdoor air is taken in from the intake port of the intake / exhaust duct, and the combustion exhaust gas is discharged to the outside from the exhaust port. A combustion air passage having a heat exchange portion for releasing heat into the air flow formed in the passage; a gas burner arranged in the combustion air passage at a position upstream of the heat exchange portion and capable of increasing or decreasing a combustion amount; Placed in the air passage,
A combustion fan that supplies outdoor air to the gas burner, a gas amount adjustment valve that is arranged in a gas pipeline that supplies gas to the gas burner, and a combustion control that controls the convection fan, a combustion fan, and a gas amount adjustment valve. In the FF type hot air heater including an air conditioner, an exhaust temperature sensor is provided near the exhaust port of the intake / exhaust duct, and when the detected exhaust temperature is equal to or lower than a predetermined temperature, the combustion controller temporarily The exhaust temperature control means is provided for performing at least one of increasing the amount, increasing the rotation speed of the combustion fan, or decreasing the rotation speed of the convection fan.

【0006】[0006]

【作用】[Action]

〔請求項1について〕燃焼用ファンの回転により、室外
空気は、取込口から吸・排気ダクト内に取り込まれ、燃
焼空気通路を通って燃焼用空気としてガスバーナに供給
される。ガスバーナはガス管路からガスが供給されて燃
焼し、燃焼により生じた燃焼排ガスは、燃焼空気通路の
熱交換部を通過して排気口から室外に排出される。対流
ファンの回転により、室内空気は吸入口から温風通路内
に入って吹出口方向へ向かうが、熱交換部を通過する
際、燃焼排ガスの熱を受熱して昇温し、温風となって吹
出口から室内に吹き出される。燃焼制御器の排気温制御
手段は、ガスバーナの燃焼量が所定値以下の場合には、
一時的に、ガス量を増加させる、燃焼ファンの回転数を
増加させる、又は対流ファンの回転数を減少させる事の
内、少なくとも一つを実施して、実施期間中、吸・排気
ダクトの排気口から外部に排出される燃焼排ガスの温度
の低下を防止する。[Claim 1] By the rotation of the combustion fan, the outdoor air is taken into the intake / exhaust duct through the intake port and is supplied to the gas burner as combustion air through the combustion air passage. The gas burner is supplied with gas from the gas pipe and burns, and the combustion exhaust gas generated by the combustion passes through the heat exchange portion of the combustion air passage and is discharged from the exhaust port to the outside of the room. Due to the rotation of the convection fan, the indoor air enters the hot air passage from the inlet toward the outlet, but when passing through the heat exchange section, it receives the heat of the combustion exhaust gas and rises in temperature to become warm air. Is blown out into the room from the outlet. Exhaust temperature control means of the combustion controller, when the combustion amount of the gas burner is less than a predetermined value,
Temporarily increase at least one of increasing the amount of gas, increasing the rotation speed of the combustion fan, or decreasing the rotation speed of the convection fan, and exhaust the exhaust air from the intake and exhaust ducts during the implementation period. Prevents the temperature of combustion exhaust gas discharged from the mouth from decreasing.

【0007】〔請求項2について〕燃焼ファンの回転に
より、室外空気は、取込口から吸・排気ダクト内に取り
込まれ、燃焼空気通路を通って燃焼用空気としてガスバ
ーナに供給される。ガスバーナはガス管路からガスが供
給されて燃焼し、燃焼により生じた燃焼排ガスは、燃焼
空気通路の熱交換部を通過して排気口から室外に排出さ
れる。対流ファンの回転により、室内空気は吸入口から
温風通路内に入って吹出口方向へ向かうが、熱交換部を
通過する際、燃焼排ガスの熱を受熱して昇温し、温風と
なって吹出口から室内に吹き出される。燃焼制御器の排
気温制御手段は、吸・排気ダクトの排気口付近の燃焼排
ガス温度が所定温度以下の場合には、一時的に、ガス量
を増加させる、燃焼ファンの回転数を増加させる、又は
対流ファンの回転数を減少させる事の内、少なくとも一
つを実施して、実施期間中、吸・排気ダクトの排気口か
ら外部に排出される燃焼排ガスの温度の低下を防止す
る。[Claim 2] By the rotation of the combustion fan, the outdoor air is taken into the intake / exhaust duct from the intake port and is supplied to the gas burner as combustion air through the combustion air passage. The gas burner is supplied with gas from the gas pipe and burns, and the combustion exhaust gas generated by the combustion passes through the heat exchange portion of the combustion air passage and is discharged from the exhaust port to the outside of the room. Due to the rotation of the convection fan, the indoor air enters the hot air passage from the inlet toward the outlet, but when passing through the heat exchange section, it receives the heat of the combustion exhaust gas and rises in temperature to become warm air. Is blown out into the room from the outlet. The exhaust gas temperature control means of the combustion controller temporarily increases the gas amount and increases the rotation speed of the combustion fan when the temperature of the combustion exhaust gas near the exhaust port of the intake / exhaust duct is equal to or lower than a predetermined temperature. Alternatively, at least one of reducing the rotation speed of the convection fan is performed to prevent the temperature of the combustion exhaust gas discharged from the exhaust port of the intake / exhaust duct from decreasing during the implementation period.

【0008】[0008]

【発明の効果】【The invention's effect】

〔請求項1について〕燃焼制御器の排気温制御手段は、
ガスバーナの燃焼量が所定値以下の場合には、一時的
に、ガス量を増加させる、燃焼ファンの回転数を増加さ
せる、又は対流ファンの回転数を減少させる事の内、少
なくとも一つを実施して、実施期間中、吸・排気ダクト
の排気口から室外に排出される燃焼排ガスの温度の低下
を防止するので吸・排気ダクトの排気口付近にドレンが
発生し難く、吸・排気ダクトの外周部の凍結を防止する
事ができる。したがって、外気温が著しく低くても、ド
レンの凍結により吸・排気ダクトへの吸気が阻害される
様な不具合は生じない。又、吸・排気ダクトの排気口か
ら出た燃焼排ガスが取込口に直接入るショートサーキッ
ト現象が発生しても、燃焼排ガスの温度が高い為、吸気
側で発生したドレンが凍結して取込口が閉塞する様な不
具合も生じない。[Claim 1] The exhaust temperature control means of the combustion controller is:
If the combustion amount of the gas burner is less than a predetermined value, at least one of temporarily increasing the gas amount, increasing the rotation speed of the combustion fan, or decreasing the rotation speed of the convection fan is performed. The temperature of the combustion exhaust gas discharged from the exhaust port of the intake / exhaust duct to the outside of the room is prevented during the implementation period, so it is difficult for drain to occur near the exhaust port of the intake / exhaust duct. It is possible to prevent freezing of the outer peripheral portion. Therefore, even if the outside air temperature is extremely low, the problem that the intake air is sucked into the intake / exhaust duct due to the freezing of the drain does not occur. Even if the combustion exhaust gas from the exhaust port of the intake / exhaust duct directly enters the intake port, the temperature of the combustion exhaust gas is high, so the drain generated on the intake side freezes and is taken in. There is no problem such as mouth closure.

【0009】〔請求項2について〕燃焼制御器の排気温
制御手段は、吸・排気ダクトの排気口付近の燃焼排ガス
温度が所定温度以下の場合には、一時的に、ガス量を増
加させる、燃焼ファンの回転数を増加させる、又は対流
ファンの回転数を減少させる事の内、少なくとも一つを
実施して、実施期間中、吸・排気ダクトの排気口から室
外に排出される燃焼排ガスの温度の低下を防止するので
吸・排気ダクトの排気口付近にドレンが発生し難く、吸
・排気ダクトの外周部の凍結を防止する事ができる。し
たがって、外気温が著しく低くても、ドレンの凍結によ
り吸・排気ダクトへの吸気を阻害する様な不具合は生じ
ない。又、ショートサーキット現象が発生しても、燃焼
排ガスの温度が高い為、吸気側で発生したドレンが凍結
して取込口が閉塞する様な不具合も生じない。[Claim 2] The exhaust gas temperature control means of the combustion controller temporarily increases the gas amount when the temperature of the combustion exhaust gas near the exhaust port of the intake / exhaust duct is below a predetermined temperature. At least one of increasing the rotation speed of the combustion fan or decreasing the rotation speed of the convection fan is performed, and the combustion exhaust gas discharged from the exhaust port of the intake / exhaust duct to the outside of the room during the implementation period. Since the temperature is prevented from decreasing, drainage is unlikely to occur near the exhaust port of the intake / exhaust duct, and it is possible to prevent freezing of the outer peripheral portion of the intake / exhaust duct. Therefore, even if the outside air temperature is extremely low, there is no problem that the intake air is sucked into the intake / exhaust duct due to freezing of the drain. Further, even if the short circuit phenomenon occurs, the temperature of the combustion exhaust gas is high, so that the problem that the drain generated on the intake side is frozen and the intake port is blocked does not occur.

【0010】[0010]

【実施例】本発明の第1実施例(請求項1に対応)を、
図1〜図3、及び図5に基づいて説明する。図に示す、
FF式ガス温風暖房機Aは、温風通路1と、温風通路1
内に配される対流ファン2と、吸・排気ダクト31を延
設した燃焼空気通路3と、燃焼空気通路内3に配される
ガスバーナ4と、室外空気50をガスバーナ4に供給す
る燃焼ファン5と、ガスバーナ4にガスgを供給するガ
ス管路40中に配されるガス比例弁6と、対流ファン
2、燃焼ファン5、ガス比例弁6を制御する燃焼制御器
7とを具備する。The first embodiment of the present invention (corresponding to claim 1) is as follows.
A description will be given based on FIGS. 1 to 3 and 5. As shown in the figure
The FF type gas warm air heater A has a warm air passage 1 and a warm air passage 1
A convection fan 2 arranged inside, a combustion air passage 3 extending an intake / exhaust duct 31, a gas burner 4 arranged inside the combustion air passage 3, and a combustion fan 5 supplying outdoor air 50 to the gas burner 4. And a gas proportional valve 6 arranged in the gas pipe 40 for supplying the gas g to the gas burner 4, a convection fan 2, a combustion fan 5, and a combustion controller 7 for controlling the gas proportional valve 6.

【0011】温風通路1は、暖房機ハウジング11の背
面上部に開口して室内空気10を吸入する吸入口12
と、暖房機ハウジング11の前面下部に開口して室内に
温風13を吹き出す吹出口14との連通路である。又、
吸入口12には室内の粉塵を除去する為のフィルタ12
1が着脱自在に配され、又吹出口14には温風13の吹
出方向を変える為のガイド板141が組み付けられてい
る。The hot air passage 1 is opened at an upper portion of the rear surface of the heater housing 11 to suck in the indoor air 10.
And a blower port 14 that opens at the lower front portion of the heater housing 11 and blows the warm air 13 into the room. or,
The suction port 12 has a filter 12 for removing dust in the room.
1 is detachably arranged, and a guide plate 141 for changing the blowing direction of the warm air 13 is attached to the outlet 14.

【0012】対流ファン2は、吸入口12付近の温風通
路1内に枢着された羽根車21と、羽根車21を駆動す
る対流ファンモータ22とで構成され、吸入口12から
吹出口14へ向かう空気流20を発生させる。The convection fan 2 is composed of an impeller 21 pivotally mounted in the hot air passage 1 near the suction port 12 and a convection fan motor 22 for driving the impeller 21. Generate an air flow 20 towards.

【0013】燃焼空気通路3は、上流端側及び下流端側
が、図5に示す様に、室外に延設される二重構造の吸・
排気ダクト31の取込口311、排気口312に連絡す
る通路であり、ガスバーナ4を内設する燃焼室32、及
び燃焼により発生した燃焼排ガス30の熱を空気流20
中に放出する熱交換部33を通路中に形成している。
尚、燃焼室32及び熱交換部33は温風通路1内に位置
している。As shown in FIG. 5, the combustion air passage 3 has a double-structured intake / exhaust structure in which the upstream end side and the downstream end side are extended to the outside of the room.
The heat of the combustion exhaust gas 30 which is a passage communicating with the intake port 311 of the exhaust duct 31 and the exhaust port 312 and in which the gas burner 4 is installed, and the combustion exhaust gas 30 generated by the combustion is transferred to the air flow 20.
The heat exchange part 33 which radiates in is formed in the passage.
The combustion chamber 32 and the heat exchange section 33 are located inside the hot air passage 1.

【0014】ガスバーナ4は、混合気を吐出する炎口4
11を先端に形成し、一次空気とガスとを吸入する混合
気吸入口412を基端に形成した通路41、41…と、
該通路41の混合気吸入口412にノズル421、42
1…を臨ませたガス管42とを有し、該ガス管42に
は、電磁弁43、44、ガス比例弁6を順次、連設した
ガス管路40によりガスgが供給される。尚、401は
ガスバーナ4に点火する為のスパーカ、402はガスバ
ーナ4の燃焼状態を検出する為のサーモカップルであ
る。The gas burner 4 is a flame port 4 for discharging an air-fuel mixture.
11 is formed at the tip and a mixture gas intake port 412 for sucking primary air and gas is formed at the base end.
Nozzles 421, 42 are provided in the air-fuel mixture suction port 412 of the passage 41.
The gas g is supplied to the gas pipe 42 by a gas pipe line 40 in which electromagnetic valves 43, 44 and a gas proportional valve 6 are sequentially connected. Incidentally, 401 is a sparker for igniting the gas burner 4, and 402 is a thermocouple for detecting the combustion state of the gas burner 4.

【0015】燃焼ファン5は、ガスバーナ4より上流側
で燃焼空気通路3内に枢着される羽根車51と、該羽根
車51を駆動する燃焼ファンモータ52とで構成され、
取り込んだ室外空気50をガスバーナ4に供給する。The combustion fan 5 comprises an impeller 51 pivotally mounted in the combustion air passage 3 upstream of the gas burner 4, and a combustion fan motor 52 for driving the impeller 51.
The taken-in outdoor air 50 is supplied to the gas burner 4.

【0016】ガス量調整弁であるガス比例弁6は、通電
量に応じて開度が増大する弁であり、通電量を増大させ
るとガスバーナ4へのガス供給量が増加する。The gas proportional valve 6 which is a gas amount adjusting valve is a valve whose opening degree increases in accordance with the amount of energization, and when the amount of energization is increased, the amount of gas supplied to the gas burner 4 increases.

【0017】燃焼制御器7は、図2に示す様に、ガス比
例弁6を駆動する比例弁駆動回路71、電磁弁43、4
4の閉開弁を行なう電磁弁駆動回路72、対流ファンモ
ータ22を駆動する対流ファンモータ駆動回路73、燃
焼ファンモータ52を駆動する燃焼ファンモータ駆動回
路74、スパーカ401を駆動するスパーカ駆動回路7
5、及び運転スイッチ701、室温設定器702、室温
センサ703が送出する各電気信号に基づいて、上記各
駆動回路を制御するマイクロコンピュータ76とを有す
る。As shown in FIG. 2, the combustion controller 7 has a proportional valve drive circuit 71 for driving the gas proportional valve 6, solenoid valves 43, 4 and 4.
4, a solenoid valve drive circuit 72 for closing and opening the valve 4, a convection fan motor drive circuit 73 for driving the convection fan motor 22, a combustion fan motor drive circuit 74 for driving the combustion fan motor 52, and a sparker drive circuit 7 for driving the sparker 401.
5 and the operation switch 701, the room temperature setting device 702, and the microcomputer 76 that controls each of the drive circuits based on each electric signal sent from the room temperature sensor 703.

【0018】つぎに、燃焼制御器7による、ガス比例弁
6、対流ファン2、及び燃焼ファン5の制御を図3のフ
ローチャートとともに説明する。尚、初期条件の“燃焼
中”時点は、点火動作、及び初期強制燃焼期間が終了し
ている。ステップs1で、室温センサ703が送出する
電気信号に基づいて室温を検知する。ステップs2で、
室温設定器702で設定した設定室温と室温センサ70
3が検出する検出室温とに基づいて燃焼速数(1速〜8
速)を決定する。ステップs3で、決定した燃焼速数に
適した、ガス量、燃焼用空気量、温風13の風量が得ら
れる、比例弁開度、燃焼ファン回転数、対流ファン回転
数になる様に、ガス比例弁6、燃焼ファンモータ52、
対流ファンモータ22への通電量を制御する。ステップ
s4で、燃焼速数が1速又は2速であるか、否(3速〜
8速)かを判定し、1速又は2速である場合(YE
S)、ステップs5に進み、3速〜8速の場合(N
O)、ステップs1に戻る。ステップs5で、1分タイ
マT1 が計時中であるか否かを判定し、計時中でない場
合(NO)はステップs6に進み、計時中である場合
(YES)はステップs7に進む。ステップs6で、1
分タイマT1 をスタートさせ、ステップs7に進む。ス
テップs7で、1分タイマT1 がタイムアップしている
か否かを判定し、タイムアップしていない場合(N
O)、ステップs1に戻り、タイムアップしている(Y
ES)場合、ステップs8に進む。ステップs8で、燃
焼ファン5の回転数が4速の燃焼速数における燃焼ファ
ン回転数となる様に燃焼ファンモータ52への通電電流
を増大させる。ステップs9で、10秒タイマT2 をス
タートさせる。ステップs10で、10秒タイマT2
タイムアップすると(YES)、ステップs11に進
む。ステップs11で、燃焼ファン5の回転数を、燃焼
速数(1速又は2速)に対応した回転数に戻し、ステッ
プs1に戻る。Next, the control of the gas proportional valve 6, the convection fan 2 and the combustion fan 5 by the combustion controller 7 will be described with reference to the flowchart of FIG. It should be noted that the ignition operation and the initial forced combustion period have ended at the time of "during combustion" of the initial condition. In step s1, the room temperature is detected based on the electric signal sent by the room temperature sensor 703. In step s2,
Room temperature set by room temperature setting device 702 and room temperature sensor 70
The combustion speed number (1st to 8th) based on the detected room temperature detected by 3
Speed). In step s3, the amount of gas, the amount of combustion air, and the amount of warm air 13 suitable for the determined combustion speed are obtained so that the proportional valve opening, the combustion fan rotation speed, and the convection fan rotation speed are obtained. Proportional valve 6, combustion fan motor 52,
The amount of electricity supplied to the convection fan motor 22 is controlled. In step s4, whether the combustion speed is the first speed or the second speed, whether the combustion speed is the third speed-
It is determined whether it is the 8th speed or not, and it is the 1st speed or the 2nd speed (YE
S), the process proceeds to step s5, and if the third speed to the eighth speed (N
O), and returns to step s1. In step s5, it is determined whether or not the 1-minute timer T 1 is counting time. If not counting (NO), the process proceeds to step s6, and if it is measuring (YES), the process proceeds to step s7. In step s6, 1
The minute timer T 1 is started, and the process proceeds to step s7. In step s7, it is determined whether or not the 1-minute timer T 1 has timed out, and if it has not timed out (N
O), the process returns to step s1 and the time is up (Y
ES), the process proceeds to step s8. In step s8, the energization current to the combustion fan motor 52 is increased so that the rotation speed of the combustion fan 5 becomes the combustion fan rotation speed at the combustion speed of the fourth speed. In step s9, the 10-second timer T 2 is started. In step s10, if the 10-second timer T 2 times out (YES), the process proceeds to step s11. In step s11, the rotation speed of the combustion fan 5 is returned to the rotation speed corresponding to the combustion speed (first speed or second speed), and the process returns to step s1.

【0019】以下、本実施例の利点を述べる。 (ア)燃焼制御器7は、ガスバーナ4が弱燃焼(燃焼速
数2速以下)の場合には、ステップs4〜ステップs1
1(排気温制御手段に相当)に示す様に、1分毎に10
秒間、燃焼ファン5の回転数を4速の回転数に増大させ
ている。この為、多量の燃焼排ガス30が吸・排気ダク
ト31の排気口312から室外に排出される。又、排出
される燃焼排ガス30の温度が上がるので吸・排気ダク
ト31の排気口312付近にドレンが発生し難い。した
がって、外気温がマイナス数十度と著しく低い場合で
も、吸・排気ダクト31の外周部にドレンが凍結する事
は無く、吸・排気ダクト31の取込口311への吸気を
阻害する様な不具合は生じない。又、吸・排気ダクト3
1の排気口312から出た燃焼排ガス30が取込口31
1に直接入るショートサーキット現象が発生しても、燃
焼排ガスの温度が高い為、吸気側で発生したドレンが凍
結して取込口311が閉塞する様な不具合も生じない。The advantages of this embodiment will be described below. (A) The combustion controller 7 performs steps s4 to s1 when the gas burner 4 is in the weak combustion mode (combustion speed 2 speed or lower).
As shown in No. 1 (corresponding to exhaust temperature control means), every 10 minutes, 10
The number of rotations of the combustion fan 5 is increased to the number of rotations of the fourth speed for a second. Therefore, a large amount of the combustion exhaust gas 30 is discharged to the outside from the exhaust port 312 of the intake / exhaust duct 31. Further, since the temperature of the exhaust gas 30 that is discharged rises, it is difficult for drain to occur near the exhaust port 312 of the intake / exhaust duct 31. Therefore, even when the outside air temperature is as low as a few tens of degrees, the drain does not freeze on the outer peripheral portion of the intake / exhaust duct 31, and the intake to the intake port 311 of the intake / exhaust duct 31 is blocked. No trouble will occur. Also, intake / exhaust duct 3
The combustion exhaust gas 30 emitted from the exhaust port 312 of No. 1 is the intake port 31.
Even if the short circuit phenomenon that directly enters 1 occurs, since the temperature of the combustion exhaust gas is high, the problem that the drain generated on the intake side is frozen and the intake port 311 is blocked does not occur.

【0020】(イ)ガスバーナ4の燃焼量が所定値以下
の場合、燃焼ファン5の回転数を4速の回転数に増大さ
せるのは、1分毎に10秒間だけである。この為、燃焼
ファン5の回転数増大に起因する温風13の温度上昇は
僅かであり、使用者に不快感を与えない。(B) When the combustion amount of the gas burner 4 is equal to or less than a predetermined value, the rotation speed of the combustion fan 5 is increased to the rotation speed of the fourth speed only for 10 seconds every one minute. Therefore, the temperature rise of the warm air 13 due to the increase in the number of revolutions of the combustion fan 5 is slight, and the user does not feel uncomfortable.

【0021】(ウ)ガスバーナ4の燃焼量が所定値以下
の場合、1分毎に10秒間、燃焼ファン5の回転数を4
速の回転数に増大させるだけであるので、ハードの追加
や改造を行なう必要が無く、製造コストの上昇を招かな
い。(C) When the combustion amount of the gas burner 4 is less than or equal to a predetermined value, the rotation speed of the combustion fan 5 is set to 4 for 10 seconds every 1 minute.
Since the speed is increased to a high speed, there is no need to add or modify hardware, and the manufacturing cost does not increase.

【0022】つぎに、本発明の第2実施例(請求項2に
対応)を、図1、図2、図4、及び図5に基づいて説明
する。本実施例のFF式ガス温風暖房機Bの構成はFF
式ガス温風暖房機Aと略同様であるが、吸・排気ダクト
31の排気口312の開口に排気温センサ8を配設し、
その出力を燃焼制御器7のマイクロコンピュータ76に
入力している。Next, a second embodiment of the present invention (corresponding to claim 2) will be described with reference to FIGS. 1, 2, 4, and 5. The configuration of the FF type gas warm air heater B of this embodiment is FF.
The exhaust gas temperature sensor 8 is installed at the opening of the exhaust port 312 of the intake / exhaust duct 31 in a manner similar to that of the gas warm air heater A,
The output is input to the microcomputer 76 of the combustion controller 7.

【0023】つぎに、燃焼制御器7による、ガス比例弁
6、対流ファン2、及び燃焼ファン5の制御を図4のフ
ローチャートとともに説明する。尚、本実施例でも、初
期条件の“燃焼中”時点は、点火動作、及び初期強制燃
焼期間が終了している。ステップS1で、室温センサ7
03が送出する電気信号に基づいて室温を検知する。ス
テップS2で、室温設定器702で設定した設定室温と
室温センサ703が検出する検出室温とに基づいて燃焼
速数(1速〜8速)を決定する。ステップS3で、決定
した燃焼速数に適した、ガス量、燃焼用空気量、温風1
3の風量が得られる、比例弁開度、燃焼ファン回転数、
対流ファン回転数になる様に、ガス比例弁6、燃焼ファ
ンモータ52、対流ファンモータ22への通電量を制御
する。ステップS4で、排気温センサ8の出力に基づい
て排気温度を検出する。ステップS5で、検出した排気
温度が10℃以下であるか、否かを判定し、10℃以下
である場合(YES)、ステップS6に進み、10℃を
越える場合、ステップS1に戻る。ステップS6で、1
分タイマT1 が計時中であるか否かを判定し、計時中で
ない場合(NO)はステップS7に進み、計時中である
場合(YES)はステップS8に進む。ステップS7
で、1分タイマT1 をスタートさせ、ステップS8に進
む。ステップS8で、1分タイマT1 がタイムアップし
ているか否かを判定し、タイムアップしていない場合
(NO)、ステップS1に戻り、タイムアップしている
(YES)場合、ステップS9に進む。ステップS9
で、対流ファン2の回転数が20%ダウンする様に対流
ファンモータ22への通電電流を減少させる。ステップ
S10で、10秒タイマT2 をスタートさせる。ステッ
プS11で、10秒タイマT2 がタイムアップすると
(YES)、ステップs12に進む。ステップS12
で、対流ファン2の回転数を、燃焼速数に対応した回転
数に戻し、ステップS1に戻る。Next, the control of the gas proportional valve 6, the convection fan 2 and the combustion fan 5 by the combustion controller 7 will be described with reference to the flowchart of FIG. In the present embodiment as well, the ignition operation and the initial forced combustion period are completed at the time of "during combustion" of the initial condition. In step S1, the room temperature sensor 7
The room temperature is detected based on the electric signal sent by 03. In step S2, the combustion speed number (1st speed to 8th speed) is determined based on the set room temperature set by the room temperature setter 702 and the detected room temperature detected by the room temperature sensor 703. In step S3, the gas amount, the combustion air amount, and the warm air 1 suitable for the determined combustion speed number
Proportional valve opening, combustion fan speed,
The energization amount to the gas proportional valve 6, the combustion fan motor 52, and the convection fan motor 22 is controlled so that the convection fan rotation speed is reached. In step S4, the exhaust temperature is detected based on the output of the exhaust temperature sensor 8. In step S5, it is determined whether or not the detected exhaust temperature is 10 ° C. or lower. If it is 10 ° C. or lower (YES), the process proceeds to step S6, and if it exceeds 10 ° C., the process returns to step S1. In step S6, 1
It is determined whether or not the minute timer T 1 is measuring the time. If it is not measuring the time (NO), the process proceeds to step S7. If it is measuring the time (YES), the process proceeds to step S8. Step S7
Then, the one-minute timer T 1 is started, and the process proceeds to step S8. In step S8, it is determined whether or not the one-minute timer T 1 has timed out. If the time has not expired (NO), the process returns to step S1. If the time has expired (YES), the process proceeds to step S9. . Step S9
Then, the energization current to the convection fan motor 22 is reduced so that the rotation speed of the convection fan 2 is reduced by 20%. In step S10, to start the 10 second timer T 2. In step S11, if the 10-second timer T 2 times out (YES), the process proceeds to step s12. Step S12
Then, the rotation speed of the convection fan 2 is returned to the rotation speed corresponding to the combustion speed, and the process returns to step S1.

【0024】以下、本実施例の利点を述べる。 (エ)燃焼制御器7は、吸・排気ダクト31の排気口3
12から排出される燃焼排ガス温度が10℃以下の場合
には、ステップS4〜ステップS12(排気温制御手段
に相当)に示す様に、1分毎に10秒間、対流ファン2
の回転数を20%ダウンさせている。この為、熱交換部
33を通過する空気流20の流量が減少し、燃焼排ガス
30の熱の放出量が減少し、吸・排気ダクト31の排気
口312から戸外に排出される燃焼排ガス30の温度が
上がるので吸・排気ダクト31の排気口312付近にド
レンが発生し難い。したがって、外気温がマイナス数十
度と著しく低い場合でも、吸・排気ダクト31の外周部
にドレンが凍結する事は無く、吸・排気ダクト31の取
込口311への吸気を阻害する様な不具合は生じない。
又、吸・排気ダクト31の排気口312から出た燃焼排
ガス30が取込口311に直接入るショートサーキット
現象が発生しても、燃焼排ガスの温度が高い為、吸気側
で発生したドレンが凍結して取込口311が閉塞する様
な不具合も生じない。The advantages of this embodiment will be described below. (D) The combustion controller 7 is the exhaust port 3 of the intake / exhaust duct 31.
When the temperature of the combustion exhaust gas discharged from 12 is 10 ° C. or lower, as shown in steps S4 to S12 (corresponding to the exhaust temperature control means), the convection fan 2 for 10 seconds every 1 minute.
The number of rotations is reduced by 20%. Therefore, the flow rate of the air flow 20 passing through the heat exchange section 33 is reduced, the amount of heat released from the combustion exhaust gas 30 is reduced, and the combustion exhaust gas 30 discharged to the outside from the exhaust port 312 of the intake / exhaust duct 31 is exhausted. Since the temperature rises, it is difficult for drain to occur near the exhaust port 312 of the intake / exhaust duct 31. Therefore, even when the outside air temperature is as low as a few tens of degrees, the drain does not freeze on the outer peripheral portion of the intake / exhaust duct 31, and the intake to the intake port 311 of the intake / exhaust duct 31 is blocked. No trouble will occur.
Further, even if a short circuit phenomenon occurs in which the combustion exhaust gas 30 emitted from the exhaust port 312 of the intake / exhaust duct 31 directly enters the intake port 311, the temperature of the combustion exhaust gas is high, so the drain generated on the intake side freezes. As a result, the problem that the intake port 311 is closed does not occur.

【0025】(オ)燃焼排ガス温度が10℃以下の場合
に、対流ファン2の回転数を20%ダウンさせるのは、
1分毎に10秒間だけである。この為、対流ファン2の
回転数減少に起因する温風13の温度上昇は僅かであ
り、使用者に不快感を与えない。(E) When the combustion exhaust gas temperature is 10 ° C. or lower, the number of revolutions of the convection fan 2 is reduced by 20%.
Only 10 seconds per minute. Therefore, the temperature rise of the warm air 13 due to the decrease in the rotation speed of the convection fan 2 is slight, and the user is not uncomfortable.

【0026】(カ)燃焼排ガス温度が10℃以下の場合
に、1分毎に10秒間、対流ファン2の回転数を20%
ダウンさせるだけであるので、ハードの追加や改造を行
なう必要が無く、製造コストの上昇を招かない。(F) When the combustion exhaust gas temperature is 10 ° C. or lower, the rotation speed of the convection fan 2 is 20% for 10 seconds every 1 minute.
Since it is simply brought down, there is no need to add or modify hardware, and the manufacturing cost does not rise.

【0027】本発明は、上記実施例以外に、つぎの実施
態様を含む。 a.上記第1実施例では、図3のステップs8及びステ
ップs11で、燃焼ファン5の回転数が4速の燃焼速数
における燃焼ファン回転数となる様に燃焼ファンモータ
52への通電電流を増大させ(ステップs8)、燃焼速
数に対応した回転数に燃焼ファン5の回転数に戻してい
る(ステップs11)が、以下の様にしても良い。 ステップs8でガス比例弁6の開度が中燃焼速数(例
えば4速)となる様に比例弁電流を流し、ステップs1
1でガス比例弁6の開度を戻す。 ステップs8で対流ファン2の回転数を所定割合(例
えば20%ダウン)減少させ、ステップs11で対流フ
ァン2の回転数を戻す。 ステップs8でガス比例弁6の開度が中燃焼速数(例
えば3速)となる様に比例弁電流を流し、且つ燃焼ファ
ン5の回転数が中燃焼速数(例えば3速)の燃焼速数に
おける燃焼ファン回転数となる様に燃焼ファンモータ5
2への通電電流を増大させ、且つ対流ファン2の回転数
を所定割合(例えば30%ダウン)減少させる。そし
て、ステップs11でガス比例弁6の開度を戻し、且つ
燃焼ファン5の回転数を戻し、且つ対流ファン2の回転
数を戻す。The present invention includes the following embodiments in addition to the above embodiments. a. In the first embodiment described above, in step s8 and step s11 of FIG. 3, the energizing current to the combustion fan motor 52 is increased so that the rotation speed of the combustion fan 5 becomes the combustion fan rotation speed at the combustion speed of the fourth speed. (Step s8), the rotation speed of the combustion fan 5 is returned to the rotation speed corresponding to the combustion speed (step s11), but the following may be adopted. In step s8, a proportional valve current is caused to flow so that the opening of the gas proportional valve 6 becomes a medium combustion speed number (for example, 4th speed), and step s1
At 1, the opening of the gas proportional valve 6 is returned. In step s8, the rotation speed of the convection fan 2 is reduced by a predetermined ratio (for example, 20% down), and in step s11, the rotation speed of the convection fan 2 is returned. In step s8, a proportional valve current is flown so that the opening of the gas proportional valve 6 becomes a medium combustion speed number (for example, 3rd speed), and the rotation speed of the combustion fan 5 is a medium combustion speed number (for example, 3rd speed). Combustion fan motor 5 so that the combustion fan speed in
2 is increased, and the rotation speed of the convection fan 2 is decreased by a predetermined ratio (for example, 30% down). Then, in step s11, the opening of the gas proportional valve 6 is returned, the rotation speed of the combustion fan 5 is returned, and the rotation speed of the convection fan 2 is returned.

【0028】b.第2実施例では、図4のステップS9
及びステップS12で、対流ファン2の回転数を20%
ダウンさせ(ステップS9)、対流ファン2の回転数を
戻している(ステップS12)が、以下の事を実施して
も良い。 (1) ステップS9で燃焼ファン5の回転数が中燃焼速数
(例えば4速)の燃焼速数における燃焼ファン回転数と
なる様に燃焼ファンモータ52への通電電流を増大さ
せ、ステップS12で燃焼速数に対応した回転数に燃焼
ファン5の回転数に戻す。 (2) ステップS9でガス比例弁6の開度が中燃焼速数
(例えば4速)となる様に比例弁電流を流し、ステップ
S12でガス比例弁6の開度を戻す。 (3) ステップS9でガス比例弁6の開度が中燃焼速数
(例えば3速)となる様に比例弁電流を流し、且つ燃焼
ファン5の回転数が中燃焼速数(例えば3速)の燃焼速
数における燃焼ファン回転数となる様に燃焼ファンモー
タ52への通電電流を増大させ、且つ対流ファン2の回
転数を所定割合(例えば30%ダウン)減少させる。そ
して、ステップS12でガス比例弁6の開度を戻し、且
つ燃焼ファン5の回転数を戻し、且つ対流ファン2の回
転数を戻す。B. In the second embodiment, step S9 in FIG.
And, in step S12, the rotation speed of the convection fan 2 is 20%.
Although the rotation speed of the convection fan 2 is returned (step S12) by lowering it (step S9), the following may be performed. (1) In step S9, the energization current to the combustion fan motor 52 is increased so that the rotation speed of the combustion fan 5 becomes the combustion fan rotation speed at the combustion speed number of medium combustion speed (for example, 4th speed), and in step S12. The rotation speed of the combustion fan 5 is returned to the rotation speed corresponding to the combustion speed. (2) In step S9, a proportional valve current is passed so that the opening of the gas proportional valve 6 becomes a medium combustion speed (for example, 4th speed), and the opening of the gas proportional valve 6 is returned in step S12. (3) In step S9, a proportional valve current is supplied so that the opening of the gas proportional valve 6 becomes a medium combustion speed number (for example, 3rd speed), and the rotation speed of the combustion fan 5 is a medium combustion speed number (for example, 3rd speed). The energizing current to the combustion fan motor 52 is increased so that the combustion fan rotation speed is the same as the combustion speed of 1, and the rotation speed of the convection fan 2 is reduced by a predetermined ratio (for example, 30% down). Then, in step S12, the opening of the gas proportional valve 6 is returned, the rotation speed of the combustion fan 5 is returned, and the rotation speed of the convection fan 2 is returned.

【0029】c.上記各実施例において、所定時間は1
分(1分タイマT1 )であり、その継続時間は10秒
(10秒タイマT2 )であるが、何方も適宜、決めれば
良い。C. In each of the above embodiments, the predetermined time is 1
It is a minute (1 minute timer T 1 ), and its duration is 10 seconds (10 second timer T 2 ), but any one may be appropriately determined.

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

【図1】本発明の第1、第2実施例に係るFF式ガス温
風暖房機の構造説明図である。FIG. 1 is a structural explanatory view of an FF type gas warm air heater according to first and second embodiments of the present invention.

【図2】本発明の第1、第2実施例に係るFF式ガス温
風暖房機のブロック図である。FIG. 2 is a block diagram of an FF type gas warm air heater according to first and second embodiments of the present invention.

【図3】本発明の第1実施例に係るFF式ガス温風暖房
機の作動を説明するフローチャートである。FIG. 3 is a flow chart for explaining the operation of the FF type gas warm air heater according to the first embodiment of the present invention.

【図4】本発明の第2実施例に係るFF式ガス温風暖房
機の作動を説明するフローチャートである。FIG. 4 is a flow chart for explaining the operation of the FF type gas warm air heater according to the second embodiment of the present invention.

【図5】本発明の第1、第2実施例に係るFF式ガス温
風暖房機の設置状態を示す説明図である。FIG. 5 is an explanatory view showing an installed state of the FF type gas warm air heater according to the first and second embodiments of the present invention.

【符号の説明】[Explanation of symbols]

1 温風通路 2 対流ファン 3 燃焼空気通路 4 ガスバーナ 5 燃焼ファン 6 ガス比例弁(ガス量調整弁) 7 燃焼制御器 8 排気温センサ 10 室内空気 12 吸入口 13 温風 14 吹出口 20 空気流 30 燃焼排ガス 31 吸・排気ダクト 33 熱交換部 42 ガス管(ガス管路) 311 取込口 312 排気口 A、B FF式温風暖房機 1 Warm Air Passage 2 Convection Fan 3 Combustion Air Passage 4 Gas Burner 5 Combustion Fan 6 Gas Proportional Valve (Gas Volume Adjustment Valve) 7 Combustion Controller 8 Exhaust Temperature Sensor 10 Indoor Air 12 Inlet 13 Hot Air 14 Outlet 20 Air Flow 30 Combustion exhaust gas 31 Intake / exhaust duct 33 Heat exchange part 42 Gas pipe (gas pipe line) 311 Intake port 312 Exhaust port A, B FF type warm air heater

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 室内空気を吸入する吸入口、室内に温風
を吹き出す吹出口を有する温風通路と、 該温風通路内に配され、前記吸入口から吹出口へ向かう
空気流を発生させる対流ファンと、 室外に延設される吸・排気ダクトに連通し、該吸・排気
ダクトの取込口から室外空気を取り込み、排気口から燃
焼排ガスを室外に排出するとともに、この燃焼排ガスの
熱を前記空気流中に放出する熱交換部を通路中に形成し
た燃焼空気通路と、 燃焼空気通路内に配され、燃焼量が増減可能なガスバー
ナと、 前記燃焼空気通路内に配され、室外空気を前記ガスバー
ナに供給する燃焼ファンと、 前記ガスバーナにガスを供給するガス管路中に配される
ガス量調整弁と、 前記対流ファン、燃焼用ファン、ガス量調整弁を制御す
る燃焼制御器とを具備するFF式温風暖房機において、 前記燃焼制御器は、前記ガスバーナの燃焼量が所定値以
下の場合、一時的に、ガス量を増加させる、前記燃焼フ
ァンの回転数を増加させる、又は前記対流ファンの回転
数を減少させる事の内、少なくとも一つを実施する排気
温制御手段を有する事を特徴とするFF式ガス温風暖房
機。1. A warm air passage having an inlet for sucking indoor air, an outlet for blowing warm air into the room, and an air flow disposed in the warm air passage and flowing from the inlet toward the outlet. It communicates with a convection fan and an intake / exhaust duct that extends outside the room, takes in outdoor air from the intake port of the intake / exhaust duct, discharges the combustion exhaust gas to the outside from the exhaust port, and heats the combustion exhaust gas. A combustion air passage having a heat exchange portion formed in the passage for discharging heat into the air flow; a gas burner arranged in the combustion air passage for increasing or decreasing the combustion amount; and an outdoor air arranged in the combustion air passage. A combustion fan for supplying to the gas burner, a gas amount adjusting valve arranged in a gas pipeline for supplying gas to the gas burner, a convection fan, a combustion fan, and a combustion controller for controlling the gas amount adjusting valve. FF type equipped with In the warm air heater, the combustion controller temporarily increases the gas amount, increases the rotation speed of the combustion fan, or rotates the convection fan when the combustion amount of the gas burner is equal to or less than a predetermined value. An FF type gas warm air heater characterized by having an exhaust temperature control means for performing at least one of reducing the number. 【請求項2】 室内空気を吸入する吸入口、室内に温風
を吹き出す吹出口を有する温風通路と、 該温風通路内に配され、前記吸入口から吹出口へ向かう
空気流を発生させる対流ファンと、 室外に延設される吸・排気ダクトに連通し、該吸・排気
ダクトの取込口から室外空気を取り込み、排気口から燃
焼排ガスを室外に排出するとともに、この燃焼排ガスの
熱を前記空気流中に放出する熱交換部を通路中に形成し
た燃焼空気通路と、 前記熱交換部より上流位置の燃焼空気通路内に配され、
燃焼量が増減可能なガスバーナと、 前記燃焼空気通路内に配され、室外空気を前記ガスバー
ナに供給する燃焼ファンと、 前記ガスバーナにガスを供給するガス管路中に配される
ガス量調整弁と、 前記対流ファン、燃焼用ファン、ガス量調整弁を制御す
る燃焼制御器とを具備するFF式温風暖房機において、 前記吸・排気ダクトの排気口付近に排気温センサを設
け、 検出排気温が所定温度以下の場合、前記燃焼制御器は、
一時的に、ガス量を増加させる、前記燃焼ファンの回転
数を増加させる、又は前記対流ファンの回転数を減少さ
せる事の内、少なくとも一つを実施する排気温制御手段
を有する事を特徴とするFF式ガス温風暖房機。2. A hot air passage having an inlet for sucking indoor air, a blower outlet for blowing warm air into the room, and an air flow arranged in the hot air passage to flow from the inlet toward the blower outlet. It communicates with a convection fan and an intake / exhaust duct that extends outside the room, takes in outdoor air from the intake port of the intake / exhaust duct, discharges the combustion exhaust gas to the outside from the exhaust port, and heats the combustion exhaust gas. A combustion air passage having a heat exchange portion formed in the passage for releasing the heat exchange portion into the air flow; and a combustion air passage disposed upstream of the heat exchange portion,
A gas burner capable of increasing / decreasing a combustion amount, a combustion fan arranged in the combustion air passage for supplying outdoor air to the gas burner, and a gas amount adjusting valve arranged in a gas pipeline for supplying gas to the gas burner. In an FF type hot air heater including the convection fan, a combustion fan, and a combustion controller that controls a gas amount adjusting valve, an exhaust temperature sensor is provided near an exhaust port of the intake / exhaust duct to detect a detected exhaust temperature. Is below a predetermined temperature, the combustion controller,
It is characterized by having an exhaust temperature control means for performing at least one of temporarily increasing the gas amount, increasing the rotation speed of the combustion fan, or decreasing the rotation speed of the convection fan. FF type gas warm air heater.
JP5067263A 1993-03-26 1993-03-26 FF type gas hot air heater Expired - Fee Related JP2598213B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5067263A JP2598213B2 (en) 1993-03-26 1993-03-26 FF type gas hot air heater

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5067263A JP2598213B2 (en) 1993-03-26 1993-03-26 FF type gas hot air heater

Publications (2)

Publication Number Publication Date
JPH06281258A true JPH06281258A (en) 1994-10-07
JP2598213B2 JP2598213B2 (en) 1997-04-09

Family

ID=13339903

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5067263A Expired - Fee Related JP2598213B2 (en) 1993-03-26 1993-03-26 FF type gas hot air heater

Country Status (1)

Country Link
JP (1) JP2598213B2 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6089221A (en) * 1998-07-06 2000-07-18 Rinnai Kabushiki Kaisha Space heater
JP2010507065A (en) * 2006-10-17 2010-03-04 キョントン ナビエン カンパニー リミテッド Methods for preventing condensation in boiler exhaust pipes

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63282420A (en) * 1987-05-12 1988-11-18 Matsushita Electric Ind Co Ltd Burner
JPH03225156A (en) * 1990-01-31 1991-10-04 Rinnai Corp Hot air heater
JPH04100562A (en) * 1990-08-20 1992-04-02 Konica Corp Device for successive coating of plate-like body

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63282420A (en) * 1987-05-12 1988-11-18 Matsushita Electric Ind Co Ltd Burner
JPH03225156A (en) * 1990-01-31 1991-10-04 Rinnai Corp Hot air heater
JPH04100562A (en) * 1990-08-20 1992-04-02 Konica Corp Device for successive coating of plate-like body

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6089221A (en) * 1998-07-06 2000-07-18 Rinnai Kabushiki Kaisha Space heater
JP2010507065A (en) * 2006-10-17 2010-03-04 キョントン ナビエン カンパニー リミテッド Methods for preventing condensation in boiler exhaust pipes

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Publication number Publication date
JP2598213B2 (en) 1997-04-09

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