| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种酒精炉 | CN201310448890.8 | 2013-09-28 | CN104515161A | 2015-04-15 | 毛华军 |
| 本发明涉及一种酒精炉,包括炉体和酒精罩,所述酒精罩的内壁为通孔,所述炉体的上部设置有环形台阶,所述酒精罩置于环形台阶上,所述酒精罩的高度大于环形台阶的高度。采用这种结构的酒精炉,能有效的防止使用环境中风的影响,并且酒精罩能起到支撑的作用。圆柱形的酒精罩固定在炉体上,结构简单,外表美观。 | ||||||
| 2 | 一种厨房炒菜炉 | CN201710410391.8 | 2017-06-03 | CN107270333A | 2017-10-20 | 孙锡江 |
| 本发明公开一种厨房炒菜炉,包括煤油贮罐,所述煤油贮罐上安装有充压器,所述煤油贮罐通过抽油管道和空气管盘管加热管道相连,所述空气管盘管加热管道通过油管加热盘管道和充压器相连,所述空气管盘管加热管道上安装有支撑架,所述支撑架上安装有阻火喷嘴,所述阻火喷嘴和空气管盘管加热管道相连,所述支撑架上开设有空气口,所述阻火喷嘴和吸油器相连,所述抽油管道上安装有抽油管道止回阀,所述油管加热盘管道上安装有手压式充压止回阀。本发明所述的一种厨房炒菜炉,利用自身产生的底部、侧部辐射热量加热盘管,有效的利用热能,使用受热产生的高压,使空气吸入并混合并充分燃烧。 | ||||||
| 3 | 一种节能炉 | CN201710612125.3 | 2017-07-25 | CN107228386A | 2017-10-03 | 魏霁烁; 柏雅惠 |
| 本发明公开了一种节能炉,包括炉体,所述炉体底部螺旋连接有隔热底座,所述炉体的壳体中心处开设有圆形进气孔,所述炉体壳体上位于进气孔的上方两侧对称通过隔热垫螺旋连接有把手,所述炉体顶端通过定位销嵌入连接有锅垫,且锅垫上表面焊接有防滑凸条,所述炉体内部中心处焊接有酒精仓底座,且酒精仓底座与炉体表壁形成凹槽,所述炉体壳体上焊接有注水口,且注水口通过水管与凹槽连通。本发明中,首先通过设有定位销可以对锅垫进行固定,从而防止锅垫移动导致锅体倾倒,导致使用人员意外烫伤,提高了该节能炉的安全性,其次,相比与传统的炉体,该炉体为密封接口,可以减少热量散失,提高了工作的效率,节约能源。 | ||||||
| 4 | 滚筒炒炉 | CN201610286134.3 | 2016-05-04 | CN105805803A | 2016-07-27 | 张泽华 |
| 本发明公开了滚筒炒炉,包括操作台,操作台上设置有若干个独立设置的炒锅,各个炒锅倾斜设置并可在动力驱动装置的驱动下绕自身轴线转动,操作台上位于每个炒锅底部相对应的位置分别设置有炉头。本发明通过滚筒炒炉和控制装置能够满足同时炒制多种食品,一人可同时操作多台炒炉,节省人力成本,节省时间,可以同时炒制多种食品,定时器能够保证翻炒质量,节约能源,满足顾客正常用餐,通过导电性吸热装置和太阳能集热装置及能够满足油烟排除,又能够满足能量充分利用,具有使用方便、维护清洗方便、效率高、节约资源、能量利用率高、可靠性好等特点。 | ||||||
| 5 | Forced convection rotary heater | JP6446991 | 1991-08-14 | JPH0743977U | 1995-10-09 | トー−ホァン カン、 |
| (57)【要約】 【目的】 ヒ−タ本体とバーナ部との間に冷たい空気膜を形成し、輻射熱を除く伝導熱の遮断効果を生じせしめて、完全燃焼させると共に、空気膜の一部空気を2次空気として供給し、未燃焼ガスを完全燃焼させて暖房効率を向上させる。 【構成】 ヒ−タ本体と放熱板との間に、インペラーにより吸入された空気を噴出させて空気膜を形成するように、外部バーナ壁のベース部上に配設された空気案内部材と、前記放熱板の上部側周囲に配設され、前記空気案内部材から噴射される空気を対流させる遮蔽板と、内部バーナ壁と外部バーナ壁との間に間隔Lを一定に保持するように配設された支持板と、内部バーナ壁にその中央部に向けて略半円球状に突出形成された複数個の炎孔と、前記内部バ−ナ壁上の炎孔の位置に設けられた前記炎孔と略同形状に形成された複数の内部網とを有している。 | ||||||
| 6 | Burner | JP20042581 | 1981-12-11 | JPS58102011A | 1983-06-17 | NAKAO YOSHIHIRO; YOSHIDA MITSUTOMO |
| PURPOSE:To achieve a higher reliability and a lower cost by separating an upper outer cylinder from a lower outer cylinder while they are connected detachably at a slight space. CONSTITUTION:As a lower outer cylinder 7b provided with an operating section 13 grows hot receiving radient heat from combustion chambers 2 and 3, it is formed separately from an upper outer cylinder 7a while a slight space 9 is provided therebetween. This almost eliminates heat transferred from the upper outer cylinder 7a to lower the temperature near the operating section thereby getting rid of uneasiness about handling the operating section and elevating the reliability. | ||||||
| 7 | Forced convection rotary heater | JP6446991 | 1991-08-14 | JPH087213Y2 | 1996-03-04 | トー−ホァン カン、 |
| 8 | Oil stove | JP19405081 | 1981-12-02 | JPS5896911A | 1983-06-09 | ISHIBASHI NOBORU; SASADA KATSUMI; INOUE SHIYOUJIROU |
| PURPOSE:To prevent boil over broth etc. from being entered an oil stove and to make a better handling of it by a method wherein the upper end part of the central air passage in a burner is projected out at the upper surface of a burner cap, the air passage is formed in the upper end of the burner cap to cover thereof. CONSTITUTION:A burner head 2 is arranged in the main body 1 of an oil stove, the burner head 2 is provided with spaces forming a central air passage 3 at its inner circumference and flame holes 4 at its outer circumference. A burner cap 5 is removably mounted on the space. The burner cap 5 is integrally formed with a secondary air cylinder 6, a lower end of the secondary air cylinder 6 is connected to the central air passage 3 and a top can 8 having an air passage 7 is removably arranged at the upper end of the secondary air cylinder. In this case, the upper end of the secondary air cylinder 6 is projected out from the upper surface of the burner cap 5. With this arrangement, the cooking broth etc. boiled over a pan 16 heated is dripped on the burner cap 2 or the top cap 8, thereafter flowed through a catch plate 13 and accumulated in the receiving pan 12 to enable an accomplishment of the desired object. | ||||||
| 9 | Combustor | JP12500881 | 1981-08-10 | JPS5826912A | 1983-02-17 | NEGISHI YOSHIMASA; SEKIGUCHI TAKASHI |
| PURPOSE: To contrive reduction of NOx, by providing a combustion plate which performs combustion on its surface and is made of a porous sintered body on an opening part of a mixing chamber. CONSTITUTION: Heated and evaporated liquid fuel is gathered to a throttle nozzle 8A of a throttle plate 8 while mixing with surrounding combustion air, unification of density of mixture gas is contrived and the mixture gas is injected through the throttle nozzle 8A of the throttle plate 8. The mixture gas of the liquid fuel and the combustion air reaches the external surface of the combustion plate 9 through very small labyrinthine ventilating holes, which burns at a red heat on the whole surface of the combustion plate 9 so that the whole surface is enclosed, as the combustion plate 9 is formed of a porous sintered body, such as ceramic body like a hardened sponge, and very small and complicated libyrinthine ventilating holes are provided as a flame opening from the surface of a mixing chamber side to the external surface. COPYRIGHT: (C)1983,JPO&Japio | ||||||
| 10 | Reflective oil burning appliance | JP2003188765 | 2003-06-30 | JP2004125384A | 2004-04-22 | KAWAMURA MASANORI |
| PROBLEM TO BE SOLVED: To provide a reflective oil burning appliance capable of maintaining a frame top board at low temperature and increasing a radiation efficiency. SOLUTION: A combustion tube 3 and a reflector 4 are installed in a frame 1. The lower side heat shield plate 5b of a plurality of heat shield plates 5 installed between the reflector 4 and the top board 1a is installed aslant so that the opening part 2 side thereof is positioned higher. Hot air generated from the combustion tube 3 is reflected on the tilted lower heat shield plate 5b and further reflected from the opening part 2 forward of the frame 1. A screen-shaped heat accumulating plate 6 obstructing the flow of the hot air generated from the combustion tube 3 is fitted to the lower side heat shield plate 5b. Radiation heat from the heated lower side heat shield plate 5b is radiated from the opening part 2 forward of the frame 1. On the other hand, cool air sucked from suction holes 1b at the rear of the frame 1 is guided forward of the frame 1 from a clearance between an upper side heat shield plate 5a and the lower side heat shield plate 5b. The hot air diffused and lowered in temperature when riding over the heat accumulating plate 6 is discharged forward from the tip of the lower side heat shield plate 5b along the cool air. COPYRIGHT: (C)2004,JPO | ||||||
| 11 | Kerosene burner | JP5471984 | 1984-03-21 | JPS60200026A | 1985-10-09 | SHIMIZU EIJI; YAMADA TADASHI; MORIMOTO SHIGEO |
| PURPOSE:To prevent a foul odor at the time of fire extinction, by so constituting the titled burner that an aromatic agent is dissipated at the time of the extinction of the burner, in a kerosene stove. CONSTITUTION:The titled burner is so constituted that an aromatic agent container 5 is contained into a container holder 7 fixed to a mounting base and a spray button 5a is pressed down through operation of a lever 8 operating an extinguishing device 10. With this construction, when the lever 8 is pressed down for fire extinction, the spray button 5a is pressed down and the burner is extinguished along with dissipation of an aromatic agent from the container 5. Then a foul odor which is ascribable to the fire extinction can be prevented. | ||||||
| 12 | Fixing structure of heat exchanger to stove | JP902684 | 1984-01-20 | JPS60152829A | 1985-08-12 | IWATA HIDEO; KITAGAWA YOSHIAKI; KOSHIJIMA JIROU; TACHIBANA TETSUYA |
| PURPOSE:To obtain a heat exchanger which is freely fittable to various kinds of stoves on the market and usable for a floor heater panel, by providing metal fittings whose height and length are adjustable. CONSTITUTION:A connecting piece 3 is made to protrude rearward at the lower side of the front end of a piping cover 1, the tip part of the protrusion of which is provided with a fitting piece 4 of a heat exchanger in an extended state. An abutting plate 6 is provided perpendicularly in a lower direction on the lower side of the rear end part of a rear adjusting tool 5 and a fixture 7 of a circulating pump is provided on the rear end part of the abutting plate 6. The rear part of the piping cover 1 and the front part of the rear adjusting tool 5 are made to connect with each other by overlapping them before and behind in an adjustable state of an overlapping width, which is provided on a top plate 12, the connecting piece 3 of the piping cover 1 is made to weld with pressure underneath the fringe of the front end of the top plate 12 by tightening force of an adjusting screw 13 screwed into the piping cover 1 from the upper part of the same and the abutting plate 6 of the rear adjusting tool 5 is made to abutt against a back plate 19 of a stove 11. A heat exchanger 16 provided underneath the top plate 12 is secured to the fitting piece 4 of the heat exchanger. Piping 17 led out from the heat exchanger 16 is pierced through the inside of the piping cover 1 of the upper part of the top plate 12 and connected with a circulating pump 18 fitted to the fixture 7 of the circulating pump. | ||||||
| 13 | Firewood combustion furnace simulated | JP21206982 | 1982-12-02 | JPS58219307A | 1983-12-20 | REO II FUOTSUKUSU |
| 14 | REFLECTION TYPE OIL BURNING APPLIANCE | EP03788029.1 | 2003-08-01 | EP1548370B1 | 2018-05-02 | KAWAMURA, Masanori |
| The present invention provides a reflection-type oil burner in which a temperature of an upper wall of a frame body can be kept low and radiation efficiency is improved. A combustion-cylinder structure 3 and a reflection plate 4 are provided in a frame body 1. A lower heat-shielding plate 5b is provided between the reflection plate 4 and the upper wall 1E in such a manner that the distance between the lower heat-shielding plate 5b and a partition wall 8 at a side of an opening portion 2 is longer than that at a side of reflection plate 4. Heat ray emitted from the combustion-cylinder structure 3 is reflected by an inclined lower heat-shielding plate 5b and radiates in a forward direction from the frame body 1 through the opening portion 2. Radiation heat radiated by the lower heat-shielding plate 5b, which is to be at high temperature, radiates through the opening portion 2 in a forward direction of the frame body 1. A combustion-gas collision member 6 for blocking a flow of combustion gas running out of the combustion-cylinder structure 3 is provided at the lower heat-shielding plated 5b. Cool air entering through an inlet 1b at a rear wall 1B of the frame body 1 is guided between the upper heat-shield plate 5a and the lower heat-shield plate 5b in a forward direction from the frame body 1. The combustion gas diffuses when flowing over the combustion-gas collision member 6 and lowers its temperature. The combustion gas runs out in a forward direction of the frame body 1 at the end of the lower heat-shielding plate 5b along air running out of the outlet 1a. |
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| 15 | Military cooker | EP09251259.9 | 2009-05-06 | EP2144005A2 | 2010-01-13 | Palmer, Michael Frank; Duffy, Sean Paul |
A cooker for use by troops on deployment comprises a container 10 for cooking fat sitting upon a heating chamber 12. The heating chamber 12 has a back wall 14 formed with an aperture 16 to receive a burner and a front wall 18 formed with an exhaust port 20 communicating with a chimney 22. The heating chamber has side walls extending between its front and back walls 18 and 14. The container has a hinged lid 28 which folds to present a rack 30 for food frying baskets (not shown). The cooker is configured and arranged so that flame from the burner does not contact the container 10 and heat is diffused over the container 10, whereby cooking fat therein is not locally overheated.
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| 16 | Alkoholbefeuerter Kamin | EP08013387.9 | 2008-07-25 | EP2026008A1 | 2009-02-18 | Mehlhorn, Jörg; Girlich, Dieter, Dr. |
Die Erfindung betrifft einen Kamin, der mit Bioalkohol oder anderen flüssigen Kohlenwasserstoffen befeuert wird. Die beim Befeuern entstehende Wärme wird im Kamin gespeichert und nach Beenden des Befeuerns im Verlauf eines Zeitraums von mehreren Stunden abgegeben. Bei dem erfindungsgemäßen Kamin besteht mindestens eine der Wände (4, 5, 9) und/oder die Decke (6) des Kamins bzw. der Feuerkammer des Kamins ganz oder teilweise aus einem plattenförmig ausgeformten Verbundwerkstoff, der sich aus mindestens einer keramischen und/oder mineralischen Komponente mit hoher spezifischer Wärmekapazität und aus mindestens einer metallischen Komponente mit hoher thermischer Leitfähigkeit zusammensetzt. Die metallische Komponente bildet die Matrix des Verbundwerkstoffes. Die keramische/mineralische Komponente liegt in Form von Teilchen vor, die überall im Werkstoff vollständig von der metallischen Komponente umgeben sind. Bevorzugt bestehen Verbundwerkstoffplatten aus den Materialien Aluminium und Serpentin.
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| 17 | OFENSYSTEM ZUM VERBRENNEN VON FLÜSSIGEM BRENNSTOFF, INSBESONDERE ETHANOL | EP10728670.0 | 2010-07-02 | EP2588816A1 | 2013-05-08 | SCHWOERER, Roman; SCHWOERER, Johannes |
| A combustion furnace system (10) serves to burn liquid fuel, in particular ethanol. A combustion chamber (14) is partially surrounded by a wall (16, 18, 20, 22, 24) and has a burner (26) on the floor. The invention proposes providing a self-contained panel (32), the interior (33) of this panel being at a negative pressure and forming a heat-exchanging connection with the hot combustion gases, wherein an adsorbent is accommodated in the interior (33) of the panel (32), said adsorbent absorbing steam and again discharging steam at the temperatures of the combustion gases, wherein the panel (32) is connected to a water condensate container (40). | ||||||
| 18 | Heater | EP11173803.5 | 2011-07-13 | EP2511621A2 | 2012-10-17 | Yen, Wen-Chang |
A heater (2) includes a base (31) formed with a receiving space (311) for receiving a fuel material (200) that is to be combusted, and a heating unit (4). The heating unit (4) includes: a flow guide component (41) disposed on the top side (312) of the base (31) and having a through hole (413) axially aligned and in communication with the opening (32), and at least one air passage (414) communicated with the through hole (413) and permitting air externally of the flow guide component (41) to flow therethrough into the receiving space (311) via the through hole (413) and the opening (32); and a heat-radiating pipe (42) disposed to extend upwardly from the flow guide component (41) and disposed to surround the through hole (413) and permitting flow of flue gas resulting from combustion of the fuel material (200) in the receiving space (311) therethrough.
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| 19 | Simulated log burning fireplace | EP82110391 | 1982-11-11 | EP0096111A3 | 1984-05-09 | Fox, Leo E. |
As thin, elongated box-like burner (10) for holding liquid fuel has slotted openings (11) along its top for the flame and platforms (12) attached at the top and bottom for supporting imitation, noncombustible logs above and in front of the burner with a fuel storage chamber (17) behind the burner and a conduit (18) for conveying the fuel from the storage chamber (17) to the burner (10) with the storage chamber (17) being tilted to cause the fluid to flow to the burner (10). Wicks (22) are provided in the burner (10) to assist in igniting the fuel and enhancing the burning characteristics. |
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| 20 | Simulated log burning fireplace | EP82110391.8 | 1982-11-11 | EP0096111A2 | 1983-12-21 | Fox, Leo E. |
As thin, elongated box-like burner (10) for holding liquid fuel has slotted openings (11) along its top for the flame and platforms (12) attached at the top and bottom for supporting imitation, noncombustible logs above and in front of the burner with a fuel storage chamber (17) behind the burner and a conduit (18) for conveying the fuel from the storage chamber (17) to the burner (10) with the storage chamber (17) being tilted to cause the fluid to flow to the burner (10). Wicks (22) are provided in the burner (10) to assist in igniting the fuel and enhancing the burning characteristics. |
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