JPH0783434A - Gas burning appliance - Google Patents

Gas burning appliance

Info

Publication number
JPH0783434A
JPH0783434A JP23057093A JP23057093A JPH0783434A JP H0783434 A JPH0783434 A JP H0783434A JP 23057093 A JP23057093 A JP 23057093A JP 23057093 A JP23057093 A JP 23057093A JP H0783434 A JPH0783434 A JP H0783434A
Authority
JP
Japan
Prior art keywords
opening
fuel gas
gas
air
cylinder
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
JP23057093A
Other languages
Japanese (ja)
Other versions
JPH086925B2 (en
Inventor
Takaaki Segawa
川 隆 昭 瀬
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.)
SAROME CO Ltd
Sarome KK
Original Assignee
SAROME CO Ltd
Sarome KK
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 SAROME CO Ltd, Sarome KK filed Critical SAROME CO Ltd
Priority to JP23057093A priority Critical patent/JPH086925B2/en
Publication of JPH0783434A publication Critical patent/JPH0783434A/en
Publication of JPH086925B2 publication Critical patent/JPH086925B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Lighters Containing Fuel (AREA)

Abstract

PURPOSE:To decrease the ignition failure of fuel gas producing natural flames with red color, which facilitate visual sensibility, to prevent a wind-resisting ceramic cylinder from being overheated, and to prevent a coil around a nozzle from being partially burned in the flames, which coil aids the ignition of the fuel gas forming the natural flames. CONSTITUTION:In a cigarette lighter having a hollow member 7 whereby either a gas-passage for forming natural flames, i.e., flames outside a cylinder 3, or a gas-passage for forming transparent flames of complete combustion, i.e., flames inside the cylinder 3, is selected, and transferring members 10, 24 for driving the hollow member 7 at the position where either the natural flames or the transparent flames are selected, an air-passing opening 8c, through which a small amount of the air is supplied to fuel gas in a tube member 8 even while the flames outside the cylinder is being formed, is provided.) A clearance for the flow of cooling air is formed between the periphery of the cylinder 3 and an intermediate body C2. A sub-flow opening 7s is formed on a nozzle 7d, a clearance 7t is formed between the nozzle 7d and a coil 7e, and the upper end of the coil is made lower than that of the nozzle.

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、例えばガスライタ−な
ど、燃料槽,バ−ナ−,燃料点火のための発火装置等を
蓋付ケ−シング内に収納したガス燃焼装置に関し、特
に、これに限る意図ではないが、実公平3−45017
号公報に開示された如きの、耐風用の円筒体内でガス/
空気混合気が燃焼する耐風燃焼装置の改良に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas combustion apparatus in which a fuel tank such as a gas lighter, a burner, an ignition device for igniting fuel, etc. are housed in a casing with a lid. It is not intended to be limited to
Gas in a wind-proof cylinder as disclosed in
The present invention relates to improvement of a wind resistant combustion device in which an air-fuel mixture burns.

【0002】[0002]

【従来の技術】実公平3−45017号公報に開示され
たガスライタは、中空の焼燃筒(3)の内部空間に、燃料
ガスに空気を混合した混合気を供給し、該筒内でこれを
燃焼させる。筒内でガスが燃焼し筒(3)が外部の風が燃
焼ガスを吹き飛ばすのを妨げるので、風に対して失火し
にくい。すなわち耐風効果がある。
2. Description of the Related Art A gas writer disclosed in Japanese Utility Model Publication No. 3-45017 supplies a mixture of air and a fuel gas to an internal space of a hollow burner cylinder (3), and the mixture is supplied in the cylinder. To burn. Since the gas burns in the cylinder and the cylinder (3) prevents the external wind from blowing off the combustion gas, it is difficult for the wind to misfire. That is, there is a windproof effect.

【0003】下端に燃料ガス受口を、燃焼筒(3)内に突
出する上端にガス噴出開口を、また、ガス受口とガス噴
出開口との間の外側面に吸気口を有するガス混合管(5)
より、燃料ガスと空気の混合気が燃焼筒(3)内に供給さ
れるが、ガス流により吸気口より高速で空気が吸入さ
れ、これによりガス混合管(5)は比較的に高速の混合気
を燃焼筒(3)に供給する。したがって燃焼筒(3)からは高
速で燃焼ガスが出る。ところが、燃料ガスと空気とが十
分に混合しているので、燃焼筒(3)内,外にはいわゆる赤
い焔は現われず、燃焼ガスは透明もしくはやや青みがか
ったものであり、視認しにくい。触媒ワイヤ(7)を備え
る場合にはこれが赤熱するので、燃焼筒(3)の上方から
筒内をのぞくと着火していることを容易に確認しうる
が、側面からは、着火している(炎がある)か否かが簡単
には分からない。燃焼ガスが高速で吹き出すので、この
ように炎が見えないことはユ−ザに不安感をもたらす。
特に、触媒ワイヤ(7)を備えない場合にこの不安感が強
くなる。
A gas mixing tube having a fuel gas receiving port at the lower end, a gas ejection opening at the upper end protruding into the combustion cylinder (3), and an intake port on the outer surface between the gas receiving port and the gas ejection opening. (Five)
As a result, a mixture of fuel gas and air is supplied into the combustion cylinder (3), but the gas flow sucks air at a high speed through the intake port, which causes the gas mixing pipe (5) to mix at a relatively high speed. Supply air to the combustion tube (3). Therefore, the combustion gas is discharged from the combustion cylinder (3) at a high speed. However, since the fuel gas and the air are sufficiently mixed, so-called red flames do not appear inside or outside the combustion tube (3), and the combustion gas is transparent or bluish and is difficult to visually recognize. When the catalyst wire (7) is provided, it glows red, so it can be easily confirmed that the ignition is carried out by looking inside the combustion tube (3) from above, but from the side, it is ignited ( It is not easy to tell if there is a flame) or not. Since the combustion gas blows out at a high speed, this invisible flame brings anxiety to the user.
This anxiety becomes particularly strong when the catalyst wire (7) is not provided.

【0004】シガレットライタ−は、風がある屋外での
みならず、室内のおだやかな環境で使用することも多
い。屋外で風が無い場合や室内での使用では、むしろ従
来一般の、ロ−ソクの火のように赤い炎が、おちついた
情感があるので、望まれることも多く、1つのライタ−
で、耐風効果が高い炎(混合気の燃焼ガス)と、耐風効
果は低いが視感が良い赤い炎を選択しうるのが好まし
い。
Cigarette lighters are often used not only outdoors in the wind, but also in indoor calm environments. When there is no wind outdoors or when it is used indoors, a red flame like a candle, which is generally used in the past, has a feeling of chilling, so it is often desired, and one writer
It is preferable to select a flame having a high wind resistance effect (combustion gas of air-fuel mixture) and a red flame having a low wind resistance effect but a good visual feeling.

【0005】本発明者は、このような選択をしうるガス
燃焼装置を、特願平4-190417号,特願平4-190418号,特願
平4-325834号および特願平5-205号で提供した。
The inventor of the present invention has proposed a gas combustor capable of making such selections in Japanese Patent Application Nos. 4-190417, 4-904418, 4-325834 and 5-205. Issued in No.

【0006】これらのガス燃焼装置は、上端開口(3a)を
有する筒部材(3,30);該筒部材(3,30)の内空間に燃料ガ
スを放出するための開口(8a),該開口(8a)より下方の燃
料ガス受け開口(8c)、および、これらの開口(8a,8c)の
間で側面に開いた空気吸入口(8b)を含み、前記筒部材
(3,30)の内部に下方から突出する管部材(8);前記燃料
ガス受け開口(8c)に燃料ガスを供給するためのガス供給
弁(27)を有する燃料槽(FT);前記ガス供給弁(27)を開駆
動するためのガス放出レバ−(14);前記筒部材(3,30)の
内空間の燃料ガスを着火するための発火手段(26,16);
および、上開口とそれを開閉するための蓋部材(C3)を含
むケ−シング(C1,C2,C3);を備えるガス燃焼装置におい
て、すなわち、いわゆる耐風用の円筒体内でガス/空気
混合気が燃焼する耐風燃焼装置において、前記筒部材
(3,30)に、前記上端開口(3a)より下方の空気取入口(30
a)を備え、前記筒部材(3,30)の空気取入口(30a)を開閉
するための開閉部材(7g)、および、この開閉部材(7g)が
空気取入口(30a)を閉じる位置にあるときには前記空気
吸入口(8b)を開き、空気取入口(30a)を開く位置にある
ときには前記空気吸入口(8b)を閉じる筒幹部(7h)、を有
する中空体(7)に、前記管部材(8)を結合したことを特徴
とする。
These gas combustion devices have a cylindrical member (3, 30) having an upper end opening (3a); an opening (8a) for discharging fuel gas into the inner space of the cylindrical member (3, 30), The tubular member includes a fuel gas receiving opening (8c) below the opening (8a) and an air inlet (8b) opened on a side surface between these openings (8a, 8c).
A pipe member (8) projecting from below into the inside of (3, 30); a fuel tank (FT) having a gas supply valve (27) for supplying fuel gas to the fuel gas receiving opening (8c); A gas release lever (14) for driving the supply valve (27) to open; an ignition means (26, 16) for igniting the fuel gas in the inner space of the tubular member (3, 30);
And a gas combustor including a casing (C1, C2, C3) including an upper opening and a lid member (C3) for opening and closing the upper opening, that is, a gas / air mixture in a so-called wind-proof cylinder. In the wind-resistant combustion device that burns, the tubular member
(3, 30), the air intake (30
a), an opening / closing member (7g) for opening and closing the air inlet (30a) of the tubular member (3, 30), and this opening and closing member (7g) is in a position to close the air inlet (30a). In a hollow body (7) having a cylinder trunk (7h) that opens the air intake port (8b) at one time and closes the air intake port (8b) at a position where the air intake port (30a) is open, It is characterized in that the member (8) is connected.

【0007】これによれば、中空体(7)の開閉部材(7g)
が空気取入口(30a)を閉じ、中空体(7)の筒幹部(7h)が空
気吸入口(8b)を開いた状態では、管部材(8)の下端の開
口(8c)に供給される燃料ガスは、管部材(8)から筒部材
(3,30)の内空間に出るが、この燃料ガス流により、空気
吸入口(8b)より燃料ガス流の流れに沿って空気が吸入さ
れ、管部材(8)の内部を上昇する燃料ガス流は空気が混
合して燃料ガス/空気混合気となって筒部材(3,30)の内
空間に出る。筒部材(3,30)内で混合気が燃焼して燃焼ガ
スとなって筒部材(3,30)の上端開口(3a)から上方に出
る。筒部材(3,30)内で混合気が燃焼し筒部材(3,30)が外
部の風が燃焼ガスを吹き飛ばすのを妨げるので、風に対
して失火しにくい。すなわち耐風効果がある。
According to this, the opening / closing member (7g) of the hollow body (7)
Is supplied to the opening (8c) at the lower end of the pipe member (8) when the air inlet (30a) is closed and the tube trunk (7h) of the hollow body (7) opens the air intake (8b). Fuel gas flows from the pipe member (8) to the tubular member.
The fuel gas flows into the inner space of (3, 30), but due to this fuel gas flow, air is sucked along the flow of the fuel gas flow from the air suction port (8b) and rises inside the pipe member (8). The flow mixes air to form a fuel gas / air mixture, and exits into the inner space of the cylindrical member (3, 30). The air-fuel mixture burns in the tubular member (3, 30) to form combustion gas, which exits upward from the upper end opening (3a) of the tubular member (3, 30). Since the air-fuel mixture burns in the tubular members (3, 30) and the tubular members (3, 30) prevent the external wind from blowing off the combustion gas, misfire is less likely to occur in the wind. That is, there is a windproof effect.

【0008】中空体(7)の開閉部材(7g)が空気取入口(30
a)を開いた位置にあり、中空体(7)の筒幹部(7h)は空気
吸入口(8b)を閉じている状態では、管部材(8)の下端の
開口(8c)に供給される燃料ガスは、管部材(8)から筒部
材(3,30)の内空間に出るが、空気吸入口(8b)が閉じられ
ているので、管部材(8)から筒部材(3,30)に出るまで燃
料ガスには空気が実質上混入しない。一方、筒部材(3,3
0)の空気取入口(30a)が開いているので、それを通して
空気が筒部材(3,30)に入り、管部材(8)から筒部材(3,3
0)に出た燃料ガスと混合するが、管部材(8)に近い位置
であるほど燃料ガス濃度が高く空気濃度が低い。管部材
(8)から離れるほど燃料ガス濃度が低く空気濃度が高
い。炎が筒部材(3,30)より立登るが、管部材(8)に近い
ほど空気濃度が低いので、炎は、ロ−ソクやマッチの炎
のように、赤い外炎を呈するものである。このように
炎、いわゆる一般の赤い炎、が見えるので、ユ−ザは着
火を容易に視認することができる。屋外で風が無い場合
や室内では、この赤い炎がユ−ザにおちついた情感を与
える。
The opening / closing member (7 g) of the hollow body (7) is connected to the air intake (30
When the a) is in the open position, and the tube trunk (7h) of the hollow body (7) closes the air inlet (8b), it is supplied to the opening (8c) at the lower end of the pipe member (8). The fuel gas exits from the pipe member (8) into the inner space of the tubular member (3, 30), but since the air inlet (8b) is closed, the tubular member (3, 30) passes through the pipe member (8). There is virtually no air in the fuel gas until it exits. On the other hand, the tubular member (3,3
Since the air inlet (30a) of (0) is open, the air enters the tubular member (3, 30) through it, and the tubular member (8) causes the tubular member (3, 3).
Although it is mixed with the fuel gas discharged in 0), the fuel gas concentration is higher and the air concentration is lower at a position closer to the pipe member (8). Pipe member
The farther from (8), the lower the fuel gas concentration and the higher the air concentration. The flame rises from the tubular member (3, 30), but the air concentration is lower as it is closer to the pipe member (8), so the flame presents a red external flame like a candle or a match flame. . In this way, the flame, so-called ordinary red flame, can be seen, so that the user can easily recognize the ignition. When there is no wind outdoors or indoors, this red flame gives the user a feeling of tranquility.

【0009】[0009]

【発明が解決しようとする課題】この種の、中空体(7)
の位置により透明もしくは青みがかった燃焼炎(以下筒
内炎と称す)と、赤い外炎を呈する燃焼炎(以下筒外炎
と称す)を選択するガス燃焼装置では、燃焼炎の大きさ
(ガス流量)は同じとして装置形状を小さくするため筒
部材(3,30)を小さくすると、筒外炎を生成する時に着火
ミスを生じ易くなること、ならびに、筒部材(3,30)が筒
内炎で過熱するという問題があることが分かった。
[Problems to be solved by the invention] This type of hollow body (7)
Depending on the position, the combustion flame that is transparent or bluish (hereinafter referred to as "in-cylinder flame") and the combustion flame that exhibits a red outer flame (hereinafter referred to as "cylinder outer flame") is selected. ) Is the same, and if the tubular member (3, 30) is made smaller in order to reduce the device shape, it is easy to cause an ignition error when an external flame is generated, and the tubular member (3, 30) causes internal flame. It turns out that there is a problem of overheating.

【0010】本発明は、着火ミスの確率を低減すること
を第1の目的とし、筒部材の過熱を防止することを第2
の目的とする。
The first object of the present invention is to reduce the probability of ignition mistake, and the second object is to prevent overheating of the tubular member.
The purpose of.

【0011】[0011]

【課題を解決するための手段】本発明は上述の、発生炎
を筒外炎とするか筒内炎とするかを定める中空体(7)を
備えるガス燃焼装置において、ガス供給弁(27)から、筒
内炎を生成するために筒部材(3,30)に供給する燃料ガス
に多量の空気を供給する前記空気吸入口(8b)に至る、燃
料ガス流路に、前記開閉部材(7g)が空気取入口(30a)を
閉じる位置にあるときにも、燃料ガスを完全燃焼するに
は不十分な少量の空気を供給するための通気路(8c)、を
備えることを特徴とする。
DISCLOSURE OF THE INVENTION The present invention provides a gas supply valve (27) for a gas combustion apparatus having a hollow body (7) for determining whether a generated flame is an in-cylinder flame or an in-cylinder flame as described above. From the air suction port (8b) for supplying a large amount of air to the fuel gas supplied to the cylinder member (3, 30) to generate the in-cylinder flame, the fuel gas flow path, the opening / closing member (7g Is located at a position where the air inlet (30a) is closed, a vent passage (8c) is provided for supplying a small amount of air that is insufficient to completely burn the fuel gas.

【0012】[0012]

【作用】筒内炎を形成するときには、筒部材(3,30)に供
給する燃料ガスに、空気吸入口(8b)から吸入される多量
の空気が混合し、筒部材(3,30)に出るとき燃料ガスに十
分に空気が混合しているので、発火手段(26,16)による
燃料ガスの着火は確実である。
[Operation] When forming an in-cylinder flame, a large amount of air sucked from the air suction port (8b) is mixed with the fuel gas supplied to the cylinder member (3, 30), and the cylinder member (3, 30) is Since the fuel gas is sufficiently mixed with air when it exits, the ignition of the fuel gas by the ignition means (26, 16) is sure.

【0013】筒内炎を形成するときには、中空体(7)が
空気吸入口(8b)を実質上閉じるが、通気路(8c)を通し
て、燃料ガスを完全燃焼するには不十分な少量ではある
が、空気が、ガス供給弁(27)から空気吸入口(8b)に至る
燃料ガス流路に供給される。これにより、筒部材(3,30)
に出る燃料ガスにすでに少量の空気が混合しており、こ
れが発火手段(26,16)による燃料ガスの着火を助け、筒
外炎を生成する時の着火ミスが低減し、特に、燃料ガス
流量は所定長の筒外炎を得るように実質上変更せずに筒
部材(3,30)の形状を小さくする場合に着火ミスを低減す
る効果が大きい。筒部材(3,30)に出るとき燃料ガスに空
気が混合しているが、それが少量であるので発生する炎
は、実質上ロ−ソクやマッチの炎のように、赤い外炎を
呈する。なお、通気路(8c)を大きくするに従がい、燃料
ガスに混入する空気量が増大し、炎はロ−ソクやマッチ
の炎のように大半が赤色の炎から、次第に下方から透明
もしくは青色部が長くなって赤部が短くなる。燃料ガス
に、完全燃焼に十分な多量の空気が混入するように通気
路(8c)を大きくすると、筒部材(3,30)で燃料ガスが燃焼
し、空気吸入口(8b)を開いたときに発生する筒内炎と同
じ炎(透明又はやや青みがかった炎)となって視認しにく
くなるので、上述のように、通気路(8c)は、燃料ガスを
完全燃焼するには不十分な少量の空気を供給するものと
する。
When the in-cylinder flame is formed, the hollow body (7) substantially closes the air intake port (8b), but the amount is insufficient to completely burn the fuel gas through the air passage (8c). However, air is supplied to the fuel gas flow path from the gas supply valve (27) to the air intake port (8b). This allows the tubular member (3,30)
A small amount of air is already mixed with the fuel gas discharged to the fuel cell, which assists the ignition of the fuel gas by the ignition means (26, 16) and reduces ignition mistakes when generating an external flame. Has a great effect of reducing ignition mistakes when the shape of the cylindrical member (3, 30) is reduced without substantially changing it so as to obtain an external flame of a predetermined length. Air is mixed with the fuel gas when it comes out to the tubular member (3, 30), but because it is a small amount, the generated flame presents a red external flame substantially like a candle or a match flame. . As the air passage (8c) is enlarged, the amount of air mixed in the fuel gas increases, and the flame is mostly red, like candles and match flames, and gradually becomes transparent or blue from below. The part becomes longer and the red part becomes shorter. When the air passage (8c) is enlarged so that a large amount of air sufficient for complete combustion is mixed in the fuel gas, when the fuel gas burns in the tubular member (3, 30) and the air intake port (8b) is opened. The same as the in-cylinder flame (clear or slightly bluish flame) that becomes difficult to see, so as mentioned above, the ventilation passage (8c) is a small amount that is insufficient to completely burn the fuel gas. Shall be supplied with air.

【0014】筒部材(3,30)を小形にすると、筒内炎によ
る筒部材(3,30)の加熱が強くなって温度上昇が大きくな
る。そこで本発明の好ましい実施例では、筒部材(3,30)
の外周面と前記ケ−シング(C1,C2,C3)の間に、前記筒部
材(3,30)の下側から上側に該外周面に沿って空気が通流
する比較的に広い隙間(C2s,6b,6a)を形成する。これに
よれば、筒内炎を形成したとき該隙間(C2s,6b,6a)の空
気が筒部材(3,30)の熱で加熱されて上昇して上方に抜け
これに伴って該隙間(C2s,6b,6a)に冷い空気が進入し
て、該隙間(C2s,6b,6a)には下方から上方に抜ける空気
流が生じこれが筒部材(3,30)を冷却するので、筒部材
(3,30)の過熱が回避される。
If the tubular member (3, 30) is made small, the heating of the tubular member (3, 30) by the in-cylinder flame becomes strong and the temperature rise becomes large. Therefore, in the preferred embodiment of the present invention, the tubular member (3, 30)
Between the outer peripheral surface of the casing and the casings (C1, C2, C3), a relatively wide gap (through which air flows along the outer peripheral surface from the lower side to the upper side of the tubular member (3, 30) ( C2s, 6b, 6a). According to this, when the in-cylinder flame is formed, the air in the gap (C2s, 6b, 6a) is heated by the heat of the tubular member (3, 30) and rises to flow upward, which is accompanied by the gap ( C2s, 6b, 6a) cold air enters the gap (C2s, 6b, 6a) to create an air flow that escapes from below to above, which cools the tubular member (3, 30).
Overheating at (3,30) is avoided.

【0015】筒部材(3,30)を小形にするとまた、筒内炎
による、筒外炎を形成するときの燃料ガス着火を確実に
するための燃料ガス放出ノズル(7d)に装着するコイル(7
e)の加熱が強くなる。そこで本発明の好ましい実施例で
は、管部材(8)の開口(8a)に対向する、先端部の外径が
細径となりそこに副流開口(7s)を有するノズル部材(7d)
と、該ノズル部材(7d)に装着するコイル(7e)との間に、
空隙(7t)を形成し、かつコイル(7e)の上端をノズル部材
(7d)の上端より低くする。これによれば、筒内炎を形成
したとき、多量の空気が混合した燃料ガスが副流開口(7
s)を通して一部は該空隙(7t)を通って上昇しこれがコイ
ル(7e)の内周側を冷却し、他の一部はコイル(7e)のワイ
ヤ間隙を通ってコイル側周面の外方に出て、ワイヤ間隙
を通るときにコイルを冷却する。加えて、コイル(7e)の
上端がノズル部材(7d)の上端より低いので、筒内炎によ
るコイル(7e)の上端の加熱が少くなり、結果としてコイ
ル(7e)の過熱が回避され、コイル(7e)の寿命(焼損に至
る時間)が長くなる。筒外炎を形成するときには熱い炎
は筒部材(3,30)の上方に形成され、筒部材(3,30),ノズ
ル部材(7d)およびコイル(7e)のいずれも過熱されない。
筒外炎を形成するとき、少量の空気が混入した燃料ガス
が一部は空隙(7t)を通って上昇し、他の一部はコイル(7
e)のワイヤ間隙を通ってコイル側周面の外方に出て、こ
れらの燃料ガスが外部の空気と混わる所で発火手段(26,
16)で燃料着火が行なわれ、筒外炎を形成するときの着
火ミスの確率は低い。
When the tubular member (3, 30) is made small, a coil (7d) mounted on the fuel gas discharge nozzle (7d) for ensuring ignition of the fuel gas when forming an external flame due to the internal flame 7
The heating of e) becomes stronger. Therefore, in a preferred embodiment of the present invention, the nozzle member (7d) facing the opening (8a) of the pipe member (8), the outer diameter of the tip portion is a small diameter, and has a secondary flow opening (7s) therein.
And between the coil (7e) attached to the nozzle member (7d),
A nozzle member that forms a void (7t) and the upper end of the coil (7e)
Lower than the top of (7d). According to this, when the in-cylinder flame is formed, the fuel gas mixed with a large amount of air causes the side flow opening (7
s) partly rises through the air gap (7t), which cools the inner circumference side of the coil (7e), and the other part goes through the wire gap of the coil (7e) and outside the coil side circumference surface. And then cool the coil as it passes through the wire gap. In addition, since the upper end of the coil (7e) is lower than the upper end of the nozzle member (7d), heating of the upper end of the coil (7e) due to the in-cylinder flame is reduced, and as a result, overheating of the coil (7e) is avoided, and The life of (7e) (time to burnout) is extended. When forming an external cylinder flame, the hot flame is formed above the cylindrical member (3, 30), and none of the cylindrical member (3, 30), the nozzle member (7d) and the coil (7e) is overheated.
When forming an external flame, a part of the fuel gas mixed with a small amount of air rises through the air gap (7t), and the other part rises in the coil (7t).
It goes out through the wire gap of e) to the outside of the coil side peripheral surface, and at the place where these fuel gases mix with the outside air, the ignition means (26,
Since the fuel is ignited in 16), the probability of misfiring when forming an external flame is low.

【0016】本発明の他の目的および特徴は、図面を参
照した以下の実施例の説明より明らかになろう。
Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the drawings.

【0017】[0017]

【実施例】図1に本発明の一実施例であるポケットガス
ライタ−を示し、図2には図1に示すライタ−の、筒外
炎を形成するときの筒部材(3,30)周りの部材の設定状態
を示し、図3には筒内炎を形成するときの筒部材(3,30)
周りの部材の設定状態を示す。なお、図1は、ライタ−
蓋体C3を閉じた非使用状態(筒外炎を形成する設定と
同じ)を示す。
FIG. 1 shows a pocket gas lighter which is an embodiment of the present invention, and FIG. 2 shows the lighter shown in FIG. 1 around a tubular member (3, 30) when an external flame is formed. The setting state of the members of Fig. 3 is shown in Fig. 3.
The setting state of surrounding members is shown. In addition, FIG. 1 shows a writer.
The non-use state (same as the setting which forms an external cylinder flame) which closed the cover C3 is shown.

【0018】まず図1および図2を参照する。ケ−シン
グは、本体C1,中間体C2および蓋体C3を含む。中
間体C2には、雌ねじを切った筒体収納穴が開けられて
おり、該穴の下端部にリング30が挿入され、このリン
グ30の上にセラミック筒3が挿入され、筒3の上端面
に、発光用放射リング4を固着した支持リング5が載せ
られ、リング状のナット6を中間体C2の筒体収納穴の
雌ねじにねじ込むことにより、ナット6がリング5を押
えている。これにより、リング30,セラミック筒3,
支持リング5および押えナット6が中間体C2に一体に
なっている。発光用放射リング4は、薄鉄板より、リン
グからその中心に向けて放射状に延び半径より短い8個
のワイヤ状突起を有するものを打抜いたものである。
First, referring to FIG. 1 and FIG. The casing includes a main body C1, an intermediate body C2 and a lid body C3. The intermediate body C2 is provided with a female body threaded cylindrical housing hole, the ring 30 is inserted into the lower end of the hole, the ceramic cylinder 3 is inserted onto the ring 30, and the upper end surface of the cylinder 3 is inserted. The support ring 5 to which the emission ring 4 for light emission is fixed is placed on, and the nut 6 holds the ring 5 by screwing the ring-shaped nut 6 into the female screw of the cylindrical body housing hole of the intermediate body C2. As a result, the ring 30, the ceramic cylinder 3,
The support ring 5 and the press nut 6 are integrated with the intermediate body C2. The emission ring 4 for light emission is obtained by punching out a thin iron plate having eight wire-shaped projections extending radially from the ring toward the center thereof and having a shorter radius.

【0019】図2を参照すると、リング30は中間体C
2の2個の相対向して半径方向に内側に突出した突起で
支えられており、これら一対の突起とリング30の外周
面の間に円弧状のスリット(下開口)C2sが開けら
れ、リング30の下方の空気はこれらのスリットC2s
を通して、中間体C2の内壁面とセラミック筒3の外周
面の間の空間に入ることができる。リング状のナット6
の筒脚部とセラミック筒3の側周面の間にもかなりのギ
ャップがあり、ナット6の筒脚部の側周壁に、全周に渡
って所定ピッチで大きな開口6aが開けられており、仮
にリング30,セラミック筒3,リング5あるいはナッ
ト6が加熱されると、それらの外周面に接する空気が加
熱されて、開口6aを通って更にナット6/中間体C2
の間のギャップを通って上方に抜ける。この空気通流を
図3に点線矢印で示す。
Referring to FIG. 2, ring 30 is an intermediate C
It is supported by two projections that are opposed to each other and project inward in the radial direction. An arc-shaped slit (lower opening) C2s is formed between the pair of projections and the outer peripheral surface of the ring 30, and the ring is formed. The air below 30 has these slits C2s
Can enter the space between the inner wall surface of the intermediate C2 and the outer peripheral surface of the ceramic cylinder 3. Ring nut 6
There is also a considerable gap between the cylindrical leg part of the ceramic cylinder 3 and the side peripheral surface of the ceramic cylinder 3, and a large opening 6a is formed on the side peripheral wall of the cylindrical leg part of the nut 6 at a predetermined pitch over the entire circumference. If the ring 30, the ceramic cylinder 3, the ring 5, or the nut 6 is heated, the air in contact with their outer peripheral surfaces is heated, and the nut 6 / intermediate C2 is passed through the opening 6a.
Exit upward through the gap between. This air flow is shown by the dotted arrow in FIG.

【0020】リング30およびセラミック筒3の内部
に、炎切換筒7の先端に固着されたノズル7dおよびコ
イル7eが進入している。炎切換筒7は、その内部の混
合管8に対して上下にスライドできるものであり、圧縮
コイルスプリング9が上方に押す力を与えているが、こ
の力に抗して炎切換レバ−10のア−ム10cが、炎切
換筒7の外フランジ7fを下方に押している。炎切換筒
7の上端開口にはノズル7dが圧入されている。ノズル
7dの外径は下半分で太径で上半分で小径であり、太径
から小径に切換わった位置に副流開口7sが開けられて
いる。コイル7eの下方にノズル7dの太径部が圧入さ
れてコイル7eがノズル7dに固着されている。コイル
7eの上端はノズル7dの上端よりわずかに低い位置に
ある。
A nozzle 7d and a coil 7e fixed to the tip of the flame switching cylinder 7 enter the inside of the ring 30 and the ceramic cylinder 3. The flame switching cylinder 7 is capable of sliding up and down with respect to the mixing tube 8 inside thereof, and the compression coil spring 9 gives a pushing force to the upward direction, but against this force, the flame switching lever 10 The arm 10c pushes the outer flange 7f of the flame switching cylinder 7 downward. A nozzle 7d is press-fitted into the upper end opening of the flame switching cylinder 7. The outer diameter of the nozzle 7d is large in the lower half and large in the upper half, and the auxiliary flow opening 7s is formed at a position where the diameter is switched from the large diameter to the small diameter. The large diameter portion of the nozzle 7d is press-fitted below the coil 7e so that the coil 7e is fixed to the nozzle 7d. The upper end of the coil 7e is located slightly lower than the upper end of the nozzle 7d.

【0021】炎切換筒7には燃料ガス/空気混合気を放
出するための開口7bがありその下方に、ストッパリン
グ7iと、リング30の下開口30aを閉じるための開
閉板7gが装着されている。炎切換筒7の内空間は、混
合管8がピッタリとはまり込んだ円筒空間となってい
る。
The flame switching cylinder 7 has an opening 7b for discharging the fuel gas / air mixture, and a stopper ring 7i and an opening / closing plate 7g for closing the lower opening 30a of the ring 30 are mounted below the opening 7b. There is. The inner space of the flame switching cylinder 7 is a cylindrical space in which the mixing tube 8 fits perfectly.

【0022】混合管8には、上方から、上端開口8a,
空気吸入口8b,および下開口8cがある。下開口8c
にはノズルプレ−トおよびチュ−ブ連結筒31があり、
この連結筒31に、伸縮性が高い合成樹脂チュ−ブ12
の上端が連結されている。混合管8は袋ナット32を貫
通し、混合管8の下端に連結筒31がねじ込まれ、リン
グナット33が袋ナット32の下端にねじ込まれてい
る。チュ−ブ12の下端は、燃料槽FTの燃料ガス開閉
機構27(図1)の一部をなす燃料ノズル13の先端に
連結されている。燃料ノズル13には、ガス放出レバ−
14(図1)が結合されており、このガス放出レバ−1
4が図1で時計方向に回転駆動されることにより、燃料
ノズル13が上方に引き上げられて、燃料ノズル13よ
りガス流が、合成樹脂チュ−ブ12を通って混合管8に
流れる。
The upper end opening 8a,
There is an air intake port 8b and a lower opening 8c. Lower opening 8c
Has a nozzle plate and a tube connecting tube 31,
A synthetic resin tube 12 having high elasticity is attached to the connecting cylinder 31.
The upper ends of are connected. The mixing pipe 8 penetrates the cap nut 32, the connecting cylinder 31 is screwed into the lower end of the mixing pipe 8, and the ring nut 33 is screwed into the lower end of the cap nut 32. The lower end of the tube 12 is connected to the tip of the fuel nozzle 13 that forms a part of the fuel gas opening / closing mechanism 27 (FIG. 1) of the fuel tank FT. The fuel nozzle 13 has a gas release lever.
No. 14 (FIG. 1) is connected to this gas release lever-1.
When 4 is rotationally driven in the clockwise direction in FIG. 1, the fuel nozzle 13 is pulled upward, and the gas flow from the fuel nozzle 13 flows through the synthetic resin tube 12 to the mixing tube 8.

【0023】セラミック筒3には、ピエゾ(圧電素子)
発火装置26の高圧リ−ド16の先端が固着されてい
る。該発火装置26のア−ス極は、ピン26c,蓋支持
レバ−20,ピン23,コイルばね24,袋ナット3
2,混合管8および炎切換筒7を介して、ノズル7dお
よびワイヤコイル7eに電気的に接続されている。これ
は機械的な接触による電気接続であり、接触不良の場所
があっても、高圧放電に関しては、実質上電流ル−プが
形成される。すなわち、ピエゾ発火装置26が高圧を発
生すると、それが炎切換筒7のノズル7dおよびコイル
7eとリ−ド16の先端に加わって、両者間に電気スパ
−クが発生し、その周りの燃料を着火する。中間体C2
にはセラミック筒3に加えて袋ナット32が支持され
て、混合管8がセラミック筒3の中心に位置する。蓋C
3の下面には、傘付ピン19の圧入により板ばね21お
よび蓋支持レバ−20が固着されている。また蓋C3の
上面から下面に傘付ピン状の選択釦22の脚が貫通し
て、蓋C3の下面下で該脚が板ばね21に係合してい
る。板ばね21は図1に示すように選択釦22を押し上
げている。図1に示すようにセラミック筒3等を装着し
袋ナット32等を装着した中間体C2を、燃料ノズル1
3および燃料槽FTにガス放出レバ−14を図1に示す
ように係合してから、ピン25を燃料槽FTおよび中間
体C2の下脚端のピン穴に挿入して中間体C2を燃料槽
FTと連結し、燃料槽FTにピエゾ発火装置26の中ケ
−ス下端の金属台26bを燃料槽FTの受け穴に挿入し
て発火装置26の高圧リ−ド16をセラミック筒3のリ
−ド支持穴に通し、中間体C2の上開口からその内部
に、蓋C3に固着された支持レバ−20を挿入して、レ
バ−20のピン係合脚20bを発火装置26のピン26
cに係合させて、中間体C3の脚のピン穴,炎切換レバ
−10の下端のピン穴およびやや圧縮したコイルばね2
4の中心を合せて、それらにピン24を通して、図1に
示すように、燃料槽FT,中間体C2,炎切換レバ−1
0,コイルばね24および蓋C3を一体に連結すること
により、コイルばね24の一端が袋ナット32の側フラ
ンジに当り(図1)、他端が炎切換レバ−10の係合突
起10bに当って、コイルばね23が炎切換レバ−10
を反時計方向に駆動しこれにより炎切換レバ−10のア
−ム10cが炎切換筒7の外フランジ7fの上面を下方
に押し、これにより炎切換筒7が図1に示すように下が
って、圧縮コイルスプリング9が圧縮される。
The ceramic cylinder 3 is provided with a piezo (piezoelectric element).
The tip of the high pressure lead 16 of the ignition device 26 is fixed. The ground pole of the ignition device 26 includes a pin 26c, a lid supporting lever 20, a pin 23, a coil spring 24, and a cap nut 3.
2, It is electrically connected to the nozzle 7d and the wire coil 7e via the mixing pipe 8 and the flame switching cylinder 7. This is an electrical connection due to mechanical contact, and even if there is a place of poor contact, a substantial current loop is formed regarding high-voltage discharge. That is, when the piezo ignition device 26 generates a high pressure, it adds to the nozzle 7d and the coil 7e of the flame switching cylinder 7 and the tip of the lead 16 to generate an electric spark between the two, and the fuel around it. Light up. Intermediate C2
In addition to the ceramic tube 3, a cap nut 32 is supported in the tube so that the mixing tube 8 is located at the center of the ceramic tube 3. Lid C
A leaf spring 21 and a lid supporting lever 20 are fixed to the lower surface of 3 by press-fitting a pin 19 with an umbrella. Further, the leg of the pin-shaped selection button 22 with an umbrella penetrates from the upper surface to the lower surface of the lid C3, and the leg engages with the leaf spring 21 under the lower surface of the lid C3. The leaf spring 21 pushes up the selection button 22 as shown in FIG. As shown in FIG. 1, the intermediate member C2 having the ceramic tube 3 and the like and the cap nut 32 and the like attached thereto is attached to the fuel nozzle 1
3 and the fuel tank FT are engaged with the gas release lever 14 as shown in FIG. 1, and then the pin 25 is inserted into the pin hole at the lower leg end of the fuel tank FT and the intermediate body C2 to insert the intermediate body C2 into the fuel tank. The metal base 26b at the lower end of the middle case of the piezo ignition device 26 connected to the FT is inserted into the receiving hole of the fuel tank FT, and the high pressure lead 16 of the ignition device 26 is connected to the fuel tank FT. The support lever 20 fixed to the lid C3 is inserted through the upper opening of the intermediate body C2 into the inside of the support hole, and the pin engaging leg 20b of the lever 20 is inserted into the pin 26 of the ignition device 26.
C, and the pin hole of the leg of the intermediate body C3, the pin hole of the lower end of the flame switching lever 10, and the coil spring 2 slightly compressed.
4 and through the pins 24 through them, as shown in FIG. 1, the fuel tank FT, the intermediate C2, the flame switching lever-1.
0, the coil spring 24 and the lid C3 are integrally connected, so that one end of the coil spring 24 contacts the side flange of the cap nut 32 (FIG. 1) and the other end contacts the engaging projection 10b of the flame switching lever 10. And the coil spring 23 makes the flame switching lever-10.
Is driven counterclockwise, whereby the arm 10c of the flame switching lever 10 pushes the upper surface of the outer flange 7f of the flame switching cylinder 7 downward, whereby the flame switching cylinder 7 is lowered as shown in FIG. The compression coil spring 9 is compressed.

【0024】上述のように中間体C2および蓋C3を連
結した燃料槽FTをケ−シング本体C1の上開口に挿入
して、本体C1の底の穴にねじ29を通してこのねじ2
9を燃料槽FTの下底のねじ穴にねじ込むことにより、
図1に示すライタ−が組立てられる。このように組立て
た状態(図1;筒外炎を形成する設定)では、図2に示
すように、炎切換筒7の幹部7hが空気吸入開口8bを
実質上閉じているが、混合管8の、空気吸入開口8bが
形成された場所およびそれに連なる下部の側周面は、空
気吸入開口8bが実質上閉(筒外炎を形成する設定)の
ときに、少量の空気を混合管8内に供給するために、0.
1mm程度削られて、これにより0.1mm程度の隙間8g(図
2)が形成されている。なおこの実施例では、混合管8
の、空気吸入開口8bより上方の太径部の直径は3mm
である。
The fuel tank FT in which the intermediate body C2 and the lid C3 are connected as described above is inserted into the upper opening of the casing main body C1, and the screw 29 is passed through the hole at the bottom of the main body C1.
By screwing 9 into the screw hole at the bottom of the fuel tank FT,
The writer shown in FIG. 1 is assembled. In the assembled state (FIG. 1; setting for forming an external flame), the trunk portion 7h of the flame switching cylinder 7 substantially closes the air intake opening 8b as shown in FIG. In the place where the air intake opening 8b is formed and the lower side peripheral surface that is continuous with the place, a small amount of air is mixed in the mixing pipe 8 when the air intake opening 8b is substantially closed (setting that forms an external flame). To supply 0.
It is cut by about 1 mm, so that a gap 8 g (FIG. 2) of about 0.1 mm is formed. In this embodiment, the mixing tube 8
The diameter of the large diameter portion above the air intake opening 8b is 3 mm.
Is.

【0025】開閉板7gはリング30の下面より下方に
ありこれにより下開口30aが開いており、混合管8が
炎切換筒7の混合気放出口7bを実質上閉じているの
で、仮に燃料ノズル13から燃料ガスが出ると、それは
ノズル7dおよびワイヤコイル7eを通ってセラミック
筒3の内空間に出る。セラミック筒3の内空間に出るま
でに、燃料ガスには、隙間8gおよび空気吸入口8bを
通して少量の空気が吸引されて少量の空気が混入してい
る。炎切換レバ−10はピン24を中心に回転自在であ
るが、コイルばねの反発力により反時計方向に回転付勢
されて、図1に示すように、炎切換筒7を下方に押し下
げており、圧縮コイルスプリング9が圧縮されている。
選択釦22が図1に示すように上方に突出しているとき
にはその下端は、ピン24を中心とするレバ−10の係
合突起10dの回転円の外側にあり、蓋C3をピン24
を中心に時計方向に回転駆動しても、選択釦22はレバ
−10の係合突起10dに当らず、レバ−10は図1に
示す位置に留まる(図1参照;筒外炎形成モ−ド)。
Since the opening / closing plate 7g is below the lower surface of the ring 30, the lower opening 30a is open, and the mixing pipe 8 substantially closes the mixture discharge port 7b of the flame switching cylinder 7. When fuel gas exits from 13, it exits into the inner space of the ceramic cylinder 3 through the nozzle 7d and the wire coil 7e. By the time it comes out to the inner space of the ceramic cylinder 3, a small amount of air is sucked into the fuel gas through the gap 8g and the air suction port 8b, and a small amount of air is mixed. The flame switching lever 10 is rotatable about the pin 24, but is urged to rotate counterclockwise by the repulsive force of the coil spring, and pushes down the flame switching cylinder 7 as shown in FIG. The compression coil spring 9 is compressed.
When the selection button 22 is projected upward as shown in FIG. 1, its lower end is outside the rotation circle of the engaging projection 10d of the lever 10 about the pin 24, and the lid C3 is attached to the pin 24.
Even if the selection button 22 is driven to rotate in the clockwise direction about, the lever 10 does not contact the engagement protrusion 10d of the lever 10, and the lever 10 remains at the position shown in FIG. 1 (see FIG. 1; external flame forming mode). De).

【0026】ところが、まず選択釦22の下脚がピン2
4を中心とするレバ−10の係合突起10dの回転円の
内側に降下して選択釦22の下脚が炎切換レバ−10の
係合突起10dに当って、炎切換レバ−10がコイルば
ね23の反発力に抗して時計方向に回転駆動され、これ
によりレバ−10のア−ム10cが上方に移動して、圧
縮コイルスプリング9の反発力で炎切換筒7が押し上げ
られて、図3に示すように、ストッパリング7iがリン
グ30に当った位置で炎切換筒7の上昇が止められる
が、この状態で炎切換筒7の幹部7hが空気吸入開口8
bより上方に移動して空気吸入開口8bが開く。開閉板
7gはリング30の下面に当接しこれにより下開口30
aが閉じられ、炎切換筒7の混合気放出口7bが混合管
8の上端より上方に移動して開くので、仮に燃料ノズル
13から燃料ガスが出ると、燃料ガス流による負圧によ
り開口8bから混合管8内に多量の空気が吸入され、燃
料ガス/空気混合気が放出口7bとノズル7dおよびワ
イヤコイル7eを通ってセラミック筒3の内空間に出
る。セラミック筒3の内空間に出るとき、燃料ガスには
すでに多量の空気が混入している(筒内炎形成モ−
ド)。次に、上述の構造のシガレットガスライタ−の使
用態様と動作を説明する。
However, first, the lower leg of the selection button 22 is pin 2
4, the lower leg of the selection button 22 comes into contact with the engaging projection 10d of the flame switching lever 10 so that the flame switching lever 10 is a coil spring. The armature 10c of the lever 10 is moved upward by the clockwise rotation against the repulsive force of the compression lever 23, and the repulsive force of the compression coil spring 9 pushes the flame switching cylinder 7 upward. As shown in FIG. 3, when the stopper ring 7i contacts the ring 30, the rise of the flame switching cylinder 7 is stopped, but in this state, the trunk portion 7h of the flame switching cylinder 7 has the air intake opening 8
The air intake opening 8b is opened by moving above b. The opening / closing plate 7g comes into contact with the lower surface of the ring 30 and thereby the lower opening 30
Since a is closed and the air-fuel mixture discharge port 7b of the flame switching cylinder 7 moves upward from the upper end of the mixing pipe 8 and opens, if fuel gas exits from the fuel nozzle 13, a negative pressure due to the fuel gas flow causes the opening 8b. A large amount of air is sucked into the mixing pipe 8 from the above, and the fuel gas / air mixture is discharged into the inner space of the ceramic cylinder 3 through the discharge port 7b, the nozzle 7d and the wire coil 7e. A large amount of air is already mixed in the fuel gas when it exits the inner space of the ceramic cylinder 3 (in-cylinder flame formation mode).
De). Next, the usage mode and operation of the cigarette gas lighter having the above structure will be described.

【0027】1.筒外炎形成モ−ド(図1から図2へ) 使用者が、右手の人指し指,中指等でケ−シングの本体
C1および中間体C2を握って右手の親指で、選択釦2
2には触れないで蓋C3を時計方向に回転させると、支
持レバ−20の時計方向の回転によりピエゾ発火装置2
6の外ケ−ス26aに立てられたピン26cを介して外
ケ−ス26aが押し下げられ、装置26内においては図
示しない戻しばねが圧縮されかつ図示しない、ハンマプ
ランジャで支持された高圧衝撃用のコイルばねが圧縮さ
れる。この過程でまず外ケ−ス26aのピン26dがガ
ス放出レバ−14に当りレバ−14が時計方向に回転駆
動されて燃料ノズル13が引き上げられて混合管8内に
燃料ガスが流出する。選択釦22は炎切換レバ−10の
係合突起10dに当らないので、炎切換レバ−10は図
1に示す位置に留まり、混合管8および炎切換筒7は図
1および図3に示す位置に留まり、燃料ノズル13から
出た燃料ガスはノズル7dおよびワイヤコイル7eを通
ってセラミック筒3の内空間に出る。この燃料ガス流に
より、空気吸入開口8bおよび隙間8g(図2)を通し
て少量の空気が混合管8に吸入され燃料ガスと混合して
セラミック筒3の内空間に出る。
1. External-cylinder flame formation mode (from FIG. 1 to FIG. 2) The user holds the main body C1 and the intermediate body C2 of the casing with the index finger and middle finger of the right hand, and presses the selection button 2 with the thumb of the right hand.
When the lid C3 is rotated clockwise without touching the piezo 2, the piezo ignition device 2 is rotated by the clockwise rotation of the support lever 20.
6, the outer case 26a is pushed down via a pin 26c which is erected on the outer case 26a, and a return spring (not shown) is compressed in the device 26 and is supported by a hammer plunger (not shown) for high-pressure impact. The coil spring of is compressed. In this process, first, the pin 26d of the outer case 26a hits the gas release lever 14, the lever 14 is rotationally driven in the clockwise direction, the fuel nozzle 13 is pulled up, and the fuel gas flows out into the mixing pipe 8. Since the selection button 22 does not contact the engaging projection 10d of the flame switching lever 10, the flame switching lever 10 remains at the position shown in FIG. 1, and the mixing pipe 8 and the flame switching cylinder 7 are at the positions shown in FIGS. 1 and 3. The fuel gas remaining from the fuel nozzle 13 passes through the nozzle 7d and the wire coil 7e into the inner space of the ceramic cylinder 3. Due to this fuel gas flow, a small amount of air is sucked into the mixing pipe 8 through the air suction opening 8b and the gap 8g (FIG. 2), mixed with the fuel gas, and discharged into the inner space of the ceramic cylinder 3.

【0028】完全燃焼するには不十分な少量の空気が混
合した燃料ガスは、ノズル7の上端から上方に噴出する
と共に、一部は副流開口7sから管の半径方向に出て、
ギャップ7tを通って上昇しあるいはギャップ7tから
ワイヤコイル7eのワイヤ間の隙間を通ってコイル7e
の外側面に出る。このような副流にリング30の下開口
30aから入る筒3内に入る空気が混合する。下開口3
0aから筒3内に入る空気がノズル7から出る低空気量
の燃料ガスを下から覆い包むように上方に流れるので、
セラミック筒3内空間においては、その中心軸に近いほ
ど燃料ガス濃度が高く空気濃度は低い。逆に、高圧リ−
ド16の先端面に近いほど燃料ガス濃度が低く空気濃度
は高い。
The fuel gas mixed with a small amount of air, which is insufficient for complete combustion, is jetted upward from the upper end of the nozzle 7, and part of it is discharged from the sidestream opening 7s in the radial direction of the pipe.
The coil 7e rises up through the gap 7t or passes through the gap between the wires of the wire coil 7e from the gap 7t to the coil 7e.
On the outer surface of. The air that enters the cylinder 3 that enters from the lower opening 30a of the ring 30 mixes with such a substream. Lower opening 3
Since the air entering the cylinder 3 from 0a flows upward so as to cover the low-air amount fuel gas discharged from the nozzle 7 from below,
In the inner space of the ceramic cylinder 3, the fuel gas concentration is higher and the air concentration is lower as it is closer to the central axis. Conversely, high pressure
The fuel gas concentration is lower and the air concentration is higher as it is closer to the tip surface of the door 16.

【0029】蓋C3が完全に開き終る少し前に発火装置
26において、図示しないテ−パカム機構によりハンマ
プランジャの係止が解除されて高圧衝撃用のコイルの反
発力によりハンマプランジャが一気に圧電素子を打撃
し、これにより高圧リ−ド16とワイヤコイル7eの間
に電気スパ−クが発生し、この電気スパ−クの経路上又
はそのまわりの、燃料ガス/空気混合気の、混合比が発
火に適したところで混合気が着火する。
Shortly before the lid C3 is completely opened, in the ignition device 26, the hammer plunger is unlocked by a taper cam mechanism (not shown), and the hammer plunger suddenly moves the piezoelectric element by the repulsive force of the coil for high-pressure impact. An electric spark is generated between the high voltage lead 16 and the wire coil 7e due to impact, and the mixture ratio of the fuel gas / air mixture on or around the path of this electric spark is ignited. The air-fuel mixture ignites in a suitable place.

【0030】このようにしてセラミック筒3より炎が立
上るが、ロ−ソクやマッチの炎と同様に、その中心部で
燃料ガス濃度が高いので中心部は酸欠(内炎)であり、
酸素濃度が高い外周部および上部が赤い外炎となる。す
なわち下内部が青白い内炎でその外が赤い外炎の自然炎
が、セラミック筒3の上方に立登る。この炎に紙巻きタ
バコの先端を近づけるとそこに火が付く。発光用放射リ
ング4の放射状の8個のクサビ状突起を通る位置では燃
料ガスは燃焼していないので、これらのクサビ状突起は
色変化を生じない。
In this way, the flame rises from the ceramic cylinder 3, but like the flames of candles and matches, the fuel gas concentration is high at the center, so the center is oxygen deficient (internal flame),
The outer and upper parts where oxygen concentration is high become red external flames. That is, a natural flame with a pale inner flame inside and a red flame outside the bottom rises above the ceramic cylinder 3. When the tip of the cigarette is brought close to this flame, it catches fire. Since the fuel gas is not combusted at the position passing through the eight radial wedge-shaped protrusions of the emission ring 4, the wedge-shaped protrusions do not change color.

【0031】セラミック筒3の上方に生じた炎は周知の
通り、風により簡単に消されるが、ユ−ザは着火を容易
に視認することができる。屋外で風が無い場合や室内で
は、この赤い炎がユ−ザにおちついた情感を与える。
As is well known, the flame generated above the ceramic tube 3 is easily extinguished by the wind, but the user can easily see the ignition. When there is no wind outdoors or indoors, this red flame gives the user a feeling of tranquility.

【0032】2.筒内炎形成モ−ド(図1から図3へ) 使用者が、右手の人指し指,中指等でケ−シングの本体
C1および中間体C2を握って右手の親指で、選択釦2
2を押えて蓋C3(図1)を時計方向に回転させると、
上記筒外炎形成モ−ドの場合と同様に燃料ノズル13か
ら燃料ガスが放出され電極16/コイル7e間に電気ス
パ−クが発生するが、電気スパ−クが発生するまでに、
上述のように、選択釦22の下脚が炎切換レバ−10の
係合突起10dに当って、炎切換レバ−10がコイルば
ね23の反発力に抗して時計方向に回転駆動され(図
3)、これにより燃料ガス/空気混合気が放出口7bと
ノズル7dを通ってセラミック筒3の内空間に出る。セ
ラミック筒3の内空間に出るとき、燃料ガスにはすでに
多量の空気が混入している。
2. Cylinder flame formation mode (from FIG. 1 to FIG. 3) The user holds the main body C1 and the intermediate body C2 of the casing with the index finger and middle finger of the right hand and presses the selection button 2 with the thumb of the right hand.
When pressing 2 and rotating the lid C3 (Fig. 1) clockwise,
As in the case of the external flame forming mode, the fuel gas is discharged from the fuel nozzle 13 to generate the electric spark between the electrode 16 and the coil 7e, but by the time the electric spark occurs,
As described above, the lower leg of the selection button 22 hits the engaging projection 10d of the flame switching lever 10, and the flame switching lever 10 is rotationally driven clockwise against the repulsive force of the coil spring 23 (see FIG. 3). ), Whereby the fuel gas / air mixture exits into the inner space of the ceramic cylinder 3 through the discharge port 7b and the nozzle 7d. When exiting into the inner space of the ceramic cylinder 3, a large amount of air is already mixed in the fuel gas.

【0033】したがって電気スパ−クが発生すると、こ
のスパ−クの経路上又はそのまわりの、混合気の混合比
が発火に適したところで混合気が着火する。この着火に
よりセラミック筒3の内空間は燃焼ガスとなりこれが発
光用放射リング4を赤熱し押えリング6の開口(上端開
口)から高速で出る。燃焼ガスは透明もしくはやや青み
がかっているが、この炎により、発光用放射リング4の
放射状の8個のワイヤ状突起の内先端が赤熱し、赤色と
なり、セラミック筒3内で燃焼が起っていることが分か
る。押えナット6の開口の上方に紙巻きタバコの先端を
近づけるとそこに火が付く。押えナット6,セラミック
筒3およびリング30が、外部の風が燃焼ガスを吹き飛
ばすのを妨げるので、風に対して燃焼ガスが失火しにく
い。すなわち耐風効果がある。
Therefore, when an electric spark is generated, the air-fuel mixture is ignited on or around the path of the spark, where the mixture ratio of the air-fuel mixture is suitable for ignition. Due to this ignition, the inner space of the ceramic cylinder 3 becomes combustion gas, which glows the emission ring 4 for light emission and exits from the opening (upper end opening) of the holding ring 6 at high speed. The combustion gas is transparent or bluish, but due to this flame, the inner ends of the eight radial wire-shaped projections of the emission ring 4 become red and become red, and combustion is occurring in the ceramic tube 3. I understand. When the tip of the cigarette is brought close to above the opening of the holding nut 6, there is a fire. Since the holding nut 6, the ceramic cylinder 3 and the ring 30 prevent the outside wind from blowing off the combustion gas, the combustion gas is unlikely to misfire with respect to the wind. That is, there is a windproof effect.

【0034】この筒内炎形成モ−ドでは、セラミック筒
3内でも燃料ガスが燃焼するので、セラミック筒3,リ
ング5およびナット6が筒内炎で加熱される。したがっ
てセラミック筒3等の温度が上昇するが、中間体C2の
スリットC2s,ギャップ6bおよび開口6aを通る、
リング30の下方からセラミック筒3の外周面に沿って
中間体C2の上方に抜ける空気流(図3に点線矢印で示
す)が、セラミック筒3等の熱を奪うので、セラミック
筒3等の温度上昇がある程度抑えられ、中間体C2の温
度上昇が抑制される。
In this in-cylinder flame forming mode, since the fuel gas burns in the ceramic cylinder 3, the ceramic cylinder 3, the ring 5 and the nut 6 are heated by the in-cylinder flame. Therefore, although the temperature of the ceramic cylinder 3 and the like rises, it passes through the slit C2s, the gap 6b, and the opening 6a of the intermediate body C2,
Since the air flow (shown by the dotted arrow in FIG. 3) passing from below the ring 30 to above the intermediate body C2 along the outer peripheral surface of the ceramic cylinder 3 robs the heat of the ceramic cylinder 3, etc., the temperature of the ceramic cylinder 3, etc. The increase is suppressed to some extent, and the temperature increase of the intermediate C2 is suppressed.

【0035】なお、上述の実施例では、筒内炎の存在を
分かり易くするために発光用放射リング4をセラミック
筒3の上端開口に備えているが、これを省略してもタバ
コに火を付けるには不便を生じない。また、耐風効果を
更に高めるために、発光用放射リング4を触媒ワイヤに
かえてもよい。触媒ワイヤにかえると、筒内炎を形成し
ているときに、セラミック筒3の上開口から強い風が筒
3内に吹込んで筒内炎が一時的に消えても、熱い触媒ワ
イヤの作用により燃焼ガスが自動的に再発火するので、
耐風効果が更に高い。
In the embodiment described above, the emission ring 4 for light emission is provided at the upper end opening of the ceramic tube 3 in order to make it easy to see the existence of the in-cylinder flame. No inconvenience to attach. Further, in order to further enhance the wind resistance effect, the emission ring 4 for light emission may be replaced with a catalyst wire. If the in-cylinder flame is formed, if a strong wind blows into the cylinder 3 from the upper opening of the ceramic cylinder 3 and the in-cylinder flame is extinguished temporarily when the in-cylinder flame is formed, due to the action of the hot catalyst wire. Because the combustion gas automatically reignites,
Higher wind resistance.

【0036】[0036]

【発明の効果】以上のように、筒外炎を形成するとき、
通気口(8c)を通して管部材(8)の燃料ガスに完全燃焼に
は不十分な少量の空気が供給されるので、中空体(7)を
通って筒部材(3,30)に出る燃料ガスには少量の空気が混
合しており、これにより着火手段(26,16)による燃料ガ
スの着火ミスが低減する。特に、筒部材(3,30)を小形と
する場合に着火ミス低減効果が高い。
As described above, when the external flame is formed,
Since a small amount of air, which is insufficient for complete combustion, is supplied to the fuel gas of the pipe member (8) through the ventilation port (8c), the fuel gas that flows through the hollow body (7) to the tubular member (3, 30). A small amount of air is mixed therewith, which reduces ignition mistakes of the fuel gas by the ignition means (26, 16). In particular, when the tubular members (3, 30) are made small, the effect of reducing ignition mistakes is high.

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

【図1】 本発明の一実施例を示す縦断面図である。FIG. 1 is a vertical sectional view showing an embodiment of the present invention.

【図2】 図1に示すセラミック筒3周りの拡大断面図
であり、筒外炎を形成する設定状態を示す。
FIG. 2 is an enlarged cross-sectional view around the ceramic cylinder 3 shown in FIG. 1, showing a setting state in which an external flame is formed.

【図3】 図1に示すセラミック筒3周りの拡大断面図
であり、筒内炎を形成する設定状態を示す。
FIG. 3 is an enlarged cross-sectional view around the ceramic cylinder 3 shown in FIG. 1, showing a setting state for forming an in-cylinder flame.

【符号の説明】 3:セラミック筒 4:発光用放射
リング 5:支持リング 6:押えナット 7:炎切換筒 7b:混合気放
出口 7d:ノズル 7e:ワイヤコ
イル 7f:外フランジ 7g:開閉板 7h:幹部 7i:ストッパ
リング 8:混合管 8a:上端開口 8b:空気吸入口 8c:下開口 9:圧縮コイルスプリング 10:炎切換レ
バ− 12:合成樹脂チュ−ブ 13:燃料ノズ
ル 14:ガス放出レバ− 16:高圧リ−
[Explanation of symbols] 3: Ceramic tube 4: Radiation ring for light emission 5: Support ring 6: Holding nut 7: Flame switching tube 7b: Mixture discharge port 7d: Nozzle 7e: Wire coil 7f: Outer flange 7g: Open / close plate 7h : Trunk 7i: Stopper ring 8: Mixing tube 8a: Upper opening 8b: Air inlet 8c: Lower opening 9: Compression coil spring 10: Flame switching lever 12: Synthetic resin tube 13: Fuel nozzle 14: Gas release lever -16: High pressure release
Do

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】上端開口を有する筒部材(3,30);該筒部材
(3,30)の内空間に燃料ガスを放出するための開口(8a),
該開口(8a)より下方の燃料ガス受け開口(8c)、および、
これらの開口(8a/8c)の間で側面に開いた空気吸入口(8
b)を含み、前記筒部材(3,30)の内部に燃料を供給するた
めの管部材(8);前記燃料ガス受け開口(8c)に燃料ガス
を供給するためのガス供給弁(27)を有する燃料槽(FT);
前記ガス供給弁(27)を開駆動するためのガス放出レバ−
(14);前記筒部材(3,30)の内空間の燃料ガスを着火する
ための発火手段(26,16);および、上開口とそれを開閉
するための蓋部材(C3)を含むケ−シング(C1,C2,C3);を
備えるガス燃焼装置において、 前記筒部材(3,30)に設けられた、前記上端開口より下方
の空気取入口(30a);前記筒部材(3,30)の空気取入口(30
a)を開閉するための開閉部材(7g)およびこの開閉部材(7
g)が空気取入口(30a)を閉じる位置にあるときには前記
空気吸入口(8b)を開き、空気取入口(30a)を開く位置に
あるときには前記空気吸入口(8b)を閉じる筒幹部(7h)を
有する、前記管部材(8)に結合した中空体(7);および、 前記ガス供給弁(27)から前記空気吸入口(8b)に至る燃料
ガス流路に、前記開閉部材(7g)が空気取入口(30a)を閉
じる位置にあるときにも、燃料ガスを完全燃焼するには
不十分な少量の空気を供給するための通気路(8c);を備
えることを特徴とするガス燃焼装置。
1. A tubular member (3, 30) having an upper end opening;
An opening (8a) for releasing fuel gas into the inner space of (3,30),
A fuel gas receiving opening (8c) below the opening (8a), and
The air inlet (8) that opens to the side between these openings (8a / 8c)
a pipe member (8) including b) for supplying fuel to the inside of the tubular member (3, 30); a gas supply valve (27) for supplying fuel gas to the fuel gas receiving opening (8c) A fuel tank (FT) having
A gas release lever for driving the gas supply valve (27) to open.
(14); an ignition means (26, 16) for igniting the fuel gas in the inner space of the tubular member (3, 30); and a casing including an upper opening and a lid member (C3) for opening and closing the upper opening. -A gas combustion device comprising a single (C1, C2, C3); an air inlet (30a) provided in the tubular member (3, 30) below the upper end opening; the tubular member (3, 30) ) Air intake (30
The opening / closing member (7g) for opening / closing a) and this opening / closing member (7g)
When the g) is in a position to close the air intake port (30a), the air intake port (8b) is opened, and when the air intake port (30a) is in the open position, the air intake port (8b) is closed. A hollow body (7) coupled to the pipe member (8); and a fuel gas flow path from the gas supply valve (27) to the air intake port (8b), the opening / closing member (7g) Is in a position to close the air intake (30a), gas combustion characterized by having a vent passage (8c) for supplying a small amount of air insufficient to completely burn the fuel gas apparatus.
【請求項2】前記通気路(8c)は、前記中空体(7)と前記
管部材(8)の間の隙間である、前記請求項1記載のガス
燃焼装置。
2. The gas combustion device according to claim 1, wherein the ventilation passage (8c) is a gap between the hollow body (7) and the pipe member (8).
【請求項3】前記筒部材(3,30)の外周面と前記ケ−シン
グ(C1,C2,C3)の間に、前記筒部材(3,30)の下側から上側
に該外周面に沿って空気が通流する比較的に広い隙間(C
2s,6b,6a)を形成した、請求項1又は請求項2記載のガ
ス燃焼装置。
3. Between the outer peripheral surface of the tubular member (3, 30) and the casing (C1, C2, C3), the outer peripheral surface of the tubular member (3, 30) extends from the lower side to the upper side. A relatively wide gap (C
2s, 6b, 6a) is formed, The gas combustion apparatus of Claim 1 or Claim 2.
【請求項4】前記中空体(7)は、前記管部材(8)の筒部材
(3,30)の内空間に燃料ガスを放出するための前記開口(8
a)に対向する、先端部の外径が細径となりそこに副流開
口(7s)を有するノズル部材(7d)、および、該ノズル部材
(7d)に装着され該先端部の外周との間に空隙(7t)を有
し、上端が該ノズル部材(7d)の上端より下方に位置する
コイル(7e)、を含む請求項1,請求項2又は請求項3記
載のガス燃焼装置。
4. The hollow body (7) is a tubular member of the pipe member (8).
The opening (8) for discharging the fuel gas into the inner space of (3, 30)
Nozzle member (7d) facing the a) and having a small outer diameter at the tip and having a sidestream opening (7s), and the nozzle member
A coil (7e), which is attached to (7d), has a gap (7t) between it and the outer circumference of the tip, and the upper end is located below the upper end of the nozzle member (7d). The gas combustion device according to claim 2 or 3.
JP23057093A 1993-09-16 1993-09-16 Gas combustion device Expired - Lifetime JPH086925B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP23057093A JPH086925B2 (en) 1993-09-16 1993-09-16 Gas combustion device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP23057093A JPH086925B2 (en) 1993-09-16 1993-09-16 Gas combustion device

Publications (2)

Publication Number Publication Date
JPH0783434A true JPH0783434A (en) 1995-03-28
JPH086925B2 JPH086925B2 (en) 1996-01-29

Family

ID=16909828

Family Applications (1)

Application Number Title Priority Date Filing Date
JP23057093A Expired - Lifetime JPH086925B2 (en) 1993-09-16 1993-09-16 Gas combustion device

Country Status (1)

Country Link
JP (1) JPH086925B2 (en)

Also Published As

Publication number Publication date
JPH086925B2 (en) 1996-01-29

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