| 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 | 气体燃烧器的改进 | CN89101599.X | 1989-03-21 | CN1036822A | 1989-11-01 | 莱·梅尔 |
| 气体燃烧器有多个喷嘴,火焰由在空气中燃烧压力燃气形成,包括空气箱(1),其一个壁(3)上有许多密封的孔(5),与压力燃气源连接的燃气供给箱(7),其上有许多中空的针把箱内部和孔壁(3)上的孔的内部相连;以确定火焰产生区(12)。空气箱与压力空气源相连,孔是圆柱形的,在其出口中央有机械式障碍物(16),以使离开针的燃气产生偏转并与周围的空气流混合。 | ||||||
| 2 | 表面燃烧的气体燃烧器 | CN201380037360.2 | 2013-07-03 | CN104541103A | 2015-04-22 | J.勒默 |
| 本发明涉及一种表面气体燃烧器,其包括燃烧网格,该燃烧网格由穿透有一系列槽(2)的金属片组成。该燃烧器的特征在于所述金属片包括一系列导流板(3),所述导流板与所述金属片制成一件,并且从所述金属片的外表面(12)突出,每个导流板(3)在槽(2)的整个表面上纵向地和侧向地延伸,并且特征在于所述导流板(3)包括用于引导气流的引导部分和连结至金属片(1)的连结部分,所述引导部分从所述金属片隔开,使得以提供其至少一个侧向气体喷射端口(40、40'),所述导流板成对设置,使得同一对的所述侧向气体喷射端口彼此面对。 | ||||||
| 3 | 环形空心燃气灶头 | CN201410677062.6 | 2014-11-24 | CN104501152A | 2015-04-08 | 刘鹭 |
| 本发明涉及一种环形空心燃气灶头,包括:环形结构的分火器以及连通所述分火器的燃气管,所述分火器的内腔是由内圈环、外圈环、上环盖和下环盖共同组成的封闭空间,所述燃气管连通到所述内腔,所述分火器上设有若干个火孔,所述火孔环绕的排布在所述分火器上形成与所述分火器同心的圆形,所述内圈环内侧环绕的形成贯穿所述分火器的通孔。本发明利用环形灶头中心的通孔结构,容易的将底部带有凸起卡栓限制在通孔内,这样旋转锅能够随意的被旋转,杜绝了被掀翻烫伤操作者的风险;同时因为环形的内腔结构,燃气管里的混合有空气的燃气进入到环形灶头内腔里的能够做更好的混合保证燃烧更加充分。 | ||||||
| 4 | 具有测温系统的预混气体燃烧器 | CN201280022011.9 | 2012-04-24 | CN103502732A | 2014-01-08 | T·凯珀斯 |
| 本发明涉及预混气体燃烧器。该预混气体燃烧器包括燃烧器座板(10),燃烧器座板本身包括纤维基基底(14)和支撑纤维基基底(14)的穿孔板(12)或丝网。该预混气体燃烧器还包括构成热电偶的至少两根接触丝(18)。接触丝(18)直接或间接固定到燃烧器座板(10),用以测量在预混气体燃烧器工作时燃烧器座板的温度。在热电偶的接触丝(18)直接或间接固定到燃烧器座板(10)的区域,纤维基基底的局部至少部分地直接或间接连接到穿孔板(12)或丝网。 | ||||||
| 5 | 火焰燃烧器和用于对金属表面进行火焰清理的方法 | CN200780020438.4 | 2007-05-18 | CN101460780A | 2009-06-17 | E·埃弗兹; R·埃弗兹; S·埃弗兹 |
| 本发明涉及一种火焰燃烧器,其具有一个设置在头部中的喷嘴(10),该喷嘴除了环形设置的气体输入通道(11)之外还具有一个中央的气体输入孔(12),其具有拉瓦尔喷嘴式的区域和沿流动方向紧接着的直径保持相同的稳定化区域。为了对金属表面进行火焰清理,通过火焰燃烧器(10)的中央的喷嘴引导的氧气气体被激振,使得形成具有音速或超音速的离开喷嘴出口的脉冲的氧气气流。 | ||||||
| 6 | 表面燃烧的气体燃烧器 | CN201380037360.2 | 2013-07-03 | CN104541103B | 2017-06-23 | J.勒默 |
| 本发明涉及一种表面气体燃烧器,其包括燃烧网格,该燃烧网格由穿透有一系列槽(2)的金属片组成。该燃烧器的特征在于所述金属片包括一系列导流板(3),所述导流板与所述金属片制成一件,并且从所述金属片的外表面(12)突出,每个导流板(3)在槽(2)的整个表面上纵向地和侧向地延伸,并且特征在于所述导流板(3)包括用于引导气流的引导部分和连结至金属片(1)的连结部分,所述引导部分从所述金属片隔开,使得以提供其至少一个侧向气体喷射端口(40、40'),所述导流板成对设置,使得同一对的所述侧向气体喷射端口彼此面对。 | ||||||
| 7 | 具有测温系统的预混气体燃烧器 | CN201280022011.9 | 2012-04-24 | CN103502732B | 2016-05-18 | T·凯珀斯 |
| 本发明涉及预混气体燃烧器。该预混气体燃烧器包括燃烧器座板(10),燃烧器座板本身包括纤维基基底(14)和支撑纤维基基底(14)的穿孔板(12)或丝网。该预混气体燃烧器还包括构成热电偶的至少两根接触丝(18)。接触丝(18)直接或间接固定到燃烧器座板(10),用以测量在预混气体燃烧器工作时燃烧器座板的温度。在热电偶的接触丝(18)直接或间接固定到燃烧器座板(10)的区域,纤维基基底的局部至少部分地直接或间接连接到穿孔板(12)或丝网。 | ||||||
| 8 | 低污染排放的平焰炉顶燃烧器 | CN200780003582.7 | 2007-01-25 | CN101375100B | 2012-09-26 | M·达内里; V·拉维奥萨; M·塞纳雷加; M·凡图奇; U·扎努索; E·马尔法 |
| 本发明涉及一种平焰炉顶燃烧器(10),其适于安装在界定了钢质加热炉的燃烧室(20)的炉顶(21)中,所述燃烧器(10)包括金属的中空圆柱形的主体(12)、与所述主体(12)同心的用于输送燃料气体的单个管道(13)以及用于喷射燃料气体的中央内部喷嘴(14)。所述燃烧器还包括位于所述主体(12)外部的至少两个喷嘴(17),所述至少两个喷嘴(17)用于将燃料喷入所述燃烧室(20)。 | ||||||
| 9 | 低污染排放的平焰炉顶燃烧器 | CN200780003582.7 | 2007-01-25 | CN101375100A | 2009-02-25 | M·达内里; V·拉维奥萨; M·塞纳雷加; M·凡图奇; U·扎努索; E·马尔法 |
| 本发明涉及一种平焰炉顶燃烧器(10),其适于安装在界定了钢质加热炉的燃烧室(20)的炉顶(21)中,所述燃烧器(10)包括金属的中空圆柱形的主体(12)、与所述主体(12)同心的用于输送燃料气体的单个管道(13)以及用于喷射燃料气体的中央内部喷嘴(14)。所述燃烧器还包括位于所述主体(12)外部的至少两个喷嘴(17),所述至少两个喷嘴(17)用于将燃料喷入所述燃烧室(20)。 | ||||||
| 10 | Combustion plate | US14561382 | 2014-12-05 | US09777921B2 | 2017-10-03 | Masaru Takeuchi |
| A plate body 11 of a combustion plate 10 is provided with no-burner port portion 13 where no burner ports 12 exist, and a burner port group 14 made up of a plurality of burner ports 12 is arranged in each region 15 of the plate body 11 surrounded by the no-burner port portion 13. A port diameter D of the burner ports 12 differs between the burner port groups 14, but the respective burner port groups 14 are made up of the burner ports 12 of the same port diameter D, and are arranged so that the greater the port diameter D of the burner ports 12 making up each burner port group 14, the greater the interval T between the burner ports 12 in the burner port group 14 becomes. | ||||||
| 11 | Premix gas burner with temperature measurement | US14114800 | 2012-04-24 | US09528699B2 | 2016-12-27 | Toby Kuipers |
| A premix gas burner comprises a burner deck which comprises a fiber based substrate and a perforated plate or a screen supporting the fiber based burner substrate. The premix gas burner further comprises at least two contact wires that are forming a thermocouple. The contact wires are directly or indirectly fixed to the burner deck to measure a temperature of the burner deck when the premix gas burner is in operation. The fiber based substrate is locally at least partly connected directly or indirectly to the perforated plate or the screen in the region where the contact wires of the thermocouple are directly or indirectly fixed to the burner deck. | ||||||
| 12 | COMBUSTION PLATE | US14561382 | 2014-12-05 | US20160161113A1 | 2016-06-09 | Masaru Takeuchi |
| A plate body 11 of a combustion plate 10 is provided with no-burner port portion 13 where no burner ports 12 exist, and a burner port group 14 made up of a plurality of burner ports 12 is arranged in each region 15 of the plate body 11 surrounded by the no-burner port portion 13. A port diameter D of the burner ports 12 differs between the burner port groups 14, but the respective burner port groups 14 are made up of the burner ports 12 of the same port diameter D, and are arranged so that the greater the port diameter D of the burner ports 12 making up each burner port group 14, the greater the interval T between the burner ports 12 in the burner port group 14 becomes. | ||||||
| 13 | Gas burner for a cooktop | US12676661 | 2008-07-22 | US08763600B2 | 2014-07-01 | Cedric Catalogne; Lorenzo Gattei; Marco Starnini |
| The present invention refers to a gas burner (16), in particular a gas burner for a cooktop, comprising a plurality of burning portions (40, 42, 44). A gas burner according to the present invention comprises a plurality of burning portions (40, 42, 44) adapted to receive a gas flow from gas supply means (20, 30, 36) that comprise injector means (20) adapted to eject a gas flow diverging along the flow direction (10) to define a spreading angle Y. The gas burner is characterized in that gas-flow adjusting means (24, 25) are provided for modifying said spreading angle Y such that said gas flow is enabled to supply one or more of said plurality of burning portions (40,42, 44) depending on the adjustment of said spreading angle Y. | ||||||
| 14 | Flat-flame vault burner with low polluting emissions | US12161803 | 2007-01-25 | US08480394B2 | 2013-07-09 | Marco Daneri; Vittorio Laviosa; Maurizio Senarega; Massimiliano Fantuzzi; Umberto Zanusso; Enrico Malfa |
| The invention relates to a flat-flame vault burner (10) suitable for being installed in a vault (21) which delimits the combustion chamber (20) of a steel heating furnace, the burner (10) comprising a main metallic hollow cylindrical body (12), a single duct (13) for the conveyance of fuel gas concentric to the main body (12), and a central internal nozzle (14) for the injection of a fuel gas. Said burner also comprises at least two nozzles (17) outside said main body (12) for the injection of fuel into the combustion chamber (20). | ||||||
| 15 | Method for processing a preform for optical fiber, burner system useful for carrying out the method and apparatus comprising the burner system | US10743383 | 2003-12-23 | US20040172976A1 | 2004-09-09 | Yoshiaki Shimizu |
| A method for processing a preform supported with a stationary chuck and a movable chuck of a glass-working lathe comprises providing a burner of a type which is able to create flame-controlled conditions by controlling flow rates of a flammable gas and a supporting gas wherein the supporting gas is discharged from at least one group of discharge pipes co-axially classified into plural groups that are, respectively, controllable with respect to a gas flow rate. The preform is processed under the flame-controlled conditions. A burner system and a preform processing apparatus comprising the burner system, both suited for realizing the method, are also described. | ||||||
| 16 | Combustion apparatus for mixing fuel and air in divided portions | US3685950D | 1970-06-19 | US3685950A | 1972-08-22 | NOMAGUCHI TAMOTSU; TOBATA NORIKAZU; ITO TOSHIO |
| Apparatus for feeding fuel gas and air portionally into a combustion chamber for obtaining improved fuel-air mixing efficiency in which at least one of the fuel gas and air is forcibly injected into the combustion chamber and including a heat catalyst in the combustion chamber to produce steady and gentle combustion of a high load factor.
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| 17 | Furnace for cracking hydrocarbons having a flame-adjustable burner | US24144362 | 1962-11-30 | US3203769A | 1965-08-31 | TORU SOGAWA; HIROSHI AKINO; TOSHIO KANAI; TAKURO WATANABE; YUTAKA IZUMI; HIROSHI SONOHATA; KAZUYUKI SHIGA |
| 18 | 광섬유용 모재의 가공 방법 및 이에 사용되는 장치 | KR1020030095991 | 2003-12-24 | KR1020040057995A | 2004-07-02 | 시미즈,요시아끼 |
| PURPOSE: Provided is a method for processing an optical fiber preform, wherein each of the processing steps including elongation, fire polishing and end portion tightening is carried out in the same apparatus using one burner. CONSTITUTION: The method for processing an optical fiber preform using a glass lathe comprises disposing tubes through which gas flows at a plurality of zones in portions. In the method, used is a burner having such a structure as to permit a change of the gas flow supplied to the tubes in each zone. Particularly, the tube is formed of an outer tube(9) through which a flammable gas flows, and multiple inner tubes(10) disposed in the outer tube, through which a flame-retardant gas flows. The zones are divided concentrically and the number of zones is at least 3. | ||||||
| 19 | Surface combustion gas burner | US14412277 | 2013-07-03 | US09885476B2 | 2018-02-06 | Joseph Le Mer |
| The invention concerns a surface-combustion gas burner comprising a combustion grate consisting of a metal sheet pierced with a series of slots. This burner is remarkable in that said metal sheet comprises a series of deflectors made in one piece with said metal sheet and protruding on the outer face of same, each deflector extending longitudinally and laterally above the entire surface of a slot, and in that each deflector comprises a guide portion for guiding the gas flow and a junction portion joining to the metal sheet, said guide portion being spaced from the metal sheet in such a way as to provide therewith at least one lateral gas ejection port, said deflectors being disposed in pairs in such a way that the lateral gas ejection ports of same face each other. | ||||||
| 20 | Bundled multi-tube nozzle for a turbomachine | US12358805 | 2009-01-23 | US09140454B2 | 2015-09-22 | Benjamin Paul Lacy; Willy Steve Ziminsky; Thomas Edward Johnson; Baifang Zuo; William David York; Jong Ho Uhm |
| A turbomachine includes a compressor, a combustor operatively connected to the compressor, an end cover mounted to the combustor, and an injection nozzle assembly operatively connected to the combustor. The injection nozzle assembly includes a cap member having a first surface that extends to a second surface. The cap member further includes a plurality of openings. A plurality of bundled mini-tube assemblies are detachably mounted in the plurality of openings in the cap member. Each of the plurality of bundled mini-tube assemblies includes a main body section having a first end section and a second end section. A fluid plenum is arranged within the main body section. A plurality of tubes extend between the first and second end sections. Each of the plurality of tubes is fluidly connected to the fluid plenum. | ||||||
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