JPS6120416Y2

JPS6120416Y2 -

Info

Publication number: JPS6120416Y2
Application number: JP3852781U
Authority: JP
Priority date: 1981-03-19
Filing date: 1981-03-19
Publication date: 1986-06-19
Also published as: JPS57152509U

Description

【考案の詳細な説明】〔従来の技術〕従来公知の技術としては燃焼室１の前面に耐熱
ガラスを設けたものはあるが、後面を反射板とし
たものはなく、燃焼室の外方に反射板を設けるも
のが公知であつた。[Detailed explanation of the invention] [Prior art] Although there are conventionally known technologies in which a heat-resistant glass is provided on the front side of the combustion chamber 1, there is no one that uses a reflector on the rear surface, A device equipped with a reflector was known.

[Purpose of invention]

この考案は燃焼炎をかこむ燃焼室１の前面を耐
熱ガラス板、後面を反射板で構成することによ
り、器具をコンパクトにすることと、反射板の耐
久性を増すことを目的とするものである。 This idea aims to make the device more compact and increase the durability of the reflector by constructing the front side of the combustion chamber 1 that encloses the combustion flame with a heat-resistant glass plate and the rear side with a reflector plate. .

[Structure of the idea]

実施例である図に示す如く、燃焼炎をかこむ燃
焼室１の前面を耐熱ガラス板４、後面を反射板３
にて構成し、且反射板３の内側に間〓を介して多
孔板２を設け、多孔板２の内外両側に気流の上昇
路ａ・ｂを形成してなるものである。尚図中２′
は多孔板２の透孔、５は燃料タンク、６は下端を
燃料タンク５に浸漬して燃料を補給する芯、７は
芯の両側に空気を整流して送る整流板である。 As shown in the figure which is an example, a heat-resistant glass plate 4 is placed on the front side of a combustion chamber 1 that encloses a combustion flame, and a reflector plate 3 is placed on the rear side.
A perforated plate 2 is provided inside a reflecting plate 3 with a gap in between, and airflow upward paths a and b are formed on both the inside and outside of the perforated plate 2. In addition, 2' in the figure
5 is a through hole in the perforated plate 2, 5 is a fuel tank, 6 is a wick whose lower end is immersed in the fuel tank 5 to supply fuel, and 7 is a rectifier plate that rectifies and sends air to both sides of the wick.

[Effect of invention]

燃焼室１内にのぞませた芯６先端に点火すれ
ば、芯６の両側から空気整流板７にて整流された
空気の供給を受けて白黄炎にて燃焼する。 When the tip of the wick 6 looking into the combustion chamber 1 is ignited, air is supplied from both sides of the wick 6, which is rectified by the air rectifying plate 7, and the wick 6 burns with a white-yellow flame.

燃焼室１から発する熱の一部は対流熱として上
昇し室内へ放出し、一部は反射板３に反射して耐
熱ガラス板４から外方へ放射熱として放射するも
のである。 A part of the heat emitted from the combustion chamber 1 rises as convective heat and is emitted into the room, and a part is reflected by the reflector plate 3 and radiates outward from the heat-resistant glass plate 4 as radiant heat.

[Effect of idea]

燃焼室１の内部で発生する熱を燃焼室１の一部
として構成する後面の反射板３で反射して前面の
耐熱ガラス板４を透過して暖房に供することがで
きたので独立の反射板を設ける必要がないし、機
器のコンパクト化に寄与するものである。 The heat generated inside the combustion chamber 1 can be reflected by the rear reflector 3, which is a part of the combustion chamber 1, and transmitted through the front heat-resistant glass plate 4 for heating purposes, making it an independent reflector. There is no need to provide a

又反射板３が燃焼室１の一部を構成するという
ことは反射板３が常に燃焼ガスに触れるので変色
したり腐蝕する心配があるが、反射板３の内側に
間〓を介して多孔板２を設け、多孔板２の内外両
側に気流の上昇路ａ・ｂを作つたので燃焼ガスが
反射板３に直接触れることがなく、従つて腐蝕す
る心配がない。又燃焼熱を多孔板２が吸収するの
で反射板３が高温にさらされるのを防いだので変
色する心配も除かれる。 Also, since the reflector plate 3 constitutes a part of the combustion chamber 1, there is a risk that the reflector plate 3 will discolor or corrode as it is always in contact with the combustion gas. 2, and airflow upward paths a and b are created on both the inner and outer sides of the perforated plate 2, so combustion gas does not come into direct contact with the reflecting plate 3, so there is no fear of corrosion. Furthermore, since the perforated plate 2 absorbs the combustion heat, the reflector plate 3 is prevented from being exposed to high temperatures, thereby eliminating the risk of discoloration.

また多孔板２の内外面に発生した上昇気流は反
射板３を冷却する働きが生まれるから反射板３の
温度を低く保つことができた。 In addition, the rising air currents generated on the inner and outer surfaces of the perforated plate 2 have a function of cooling the reflecting plate 3, so that the temperature of the reflecting plate 3 can be kept low.

以上のようにこの考案では多孔板と反射板の相
乗効果によつて反射板の温度を低く保ち、かつ燃
焼ガスが反射板に触れないから反射板はくもつて
しまうようなことなく優れた耐久性を得ることが
できた。 As described above, this design uses the synergistic effect of the perforated plate and the reflector to keep the temperature of the reflector low, and since the combustion gas does not touch the reflector, the reflector does not fog up and has excellent durability. I was able to get sex.

また燃焼室壁を構成する多孔板は内・外両面に
上昇気流が発生できる程高温度になればよく透孔
２′は大径のものでも充分実用となるものであ
る。この為、多孔板による輻射熱の遮断はごく一
部であり、反射効果に重大な影響をおよぼす恐れ
はなく、耐熱ガラスを透過して多量の輻射熱を放
射する暖房器がコンパクトに製造できたものであ
る。 Further, the perforated plate constituting the wall of the combustion chamber only needs to be heated to a temperature high enough to generate upward air currents on both the inside and outside surfaces, and the through holes 2' may have a large diameter for practical use. For this reason, the perforated plate only blocks a small portion of the radiant heat, and there is no risk of it having a serious effect on the reflection effect, making it possible to manufacture a compact heater that radiates a large amount of radiant heat through the heat-resistant glass. be.

[Brief explanation of the drawing]

図面はこの考案品の断面図である。１……燃焼室、２……多孔板、２′……透孔、
３……反射板、４……耐熱ガラス、ａ・ｂ……気
流の上昇路。 The drawing is a cross-sectional view of this device. 1... Combustion chamber, 2... Perforated plate, 2'... Through hole,
3...Reflector, 4...Heat-resistant glass, a/b...Air flow ascending path.

Claims

[Scope of utility model registration request]

The front side of the combustion chamber 1 that encloses the combustion flame is made up of a heat-resistant glass plate 4, and the rear side is made up of a reflector plate 3, and a perforated plate 2 is provided inside the reflector plate 3 with a gap in between. A heater formed by forming airflow ascending paths a and b.