| 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 | 具有改进的燃料供给部件的用于加热器的燃烧器 | CN200580046707.5 | 2005-11-16 | CN101103226A | 2008-01-09 | M·珀纳; F·维德曼; S·韦伯; J·斯蒂芬斯 |
| 本发明涉及一种用于尤其是机动车辆所用的加热装置的燃烧器,包括:用于导入和雾化燃料的燃烧器喷嘴(12),其具有用于将燃料供给到燃烧器(10)的燃料针(14)和将燃烧空气供给到燃烧器的燃烧空气入口(16);以及起动区(18),燃料在所述起动区中引燃以起动燃烧器。根据本发明,燃料的流出速度通过选择燃料针(14)的内径确定,使得在燃烧器(10)的起动阶段燃料以基本上未雾化的形式进入起动区(18)。 | ||||||
| 2 | 炉灶 | CN200680056400.8 | 2006-11-17 | CN101677717A | 2010-03-24 | 本特·埃比森; 汉斯-奥罗夫·安德森 |
| 本发明涉及一种炉灶,其包括至少一个用于由燃料产生火焰的燃烧器,该燃烧器具有用于将炊具以一定间距保持在该燃烧器上方的炊具架。根据本发明的炉灶的特点是,燃烧器和炊具之间的间距是如此大小的,即,当炉灶效率为大约40%-65%时,废气中的平均一氧化碳浓度为30ppm-60ppm,优选为40ppm-50ppm。借此获得总体上明显改善的废气值,因而本发明炉灶的应用领域得以扩展。炉灶的燃烧器最好是用于无压地产生火焰的燃烧器。 | ||||||
| 3 | 一种醇基燃料锅炉内部用气化燃烧装置 | CN201710278446.4 | 2017-04-25 | CN106895399A | 2017-06-27 | 武建斌; 赵亚民; 杨典恩 |
| 本发明涉及一种醇基燃料锅炉内部用气化燃烧装置,属于锅炉技术领域。本发明主要解决现有醇基燃料锅炉存在的燃烧不充分、易腐蚀锅炉设备、易发生闪爆或爆炸的技术问题。本发明的技术方案是:一种醇基燃料锅炉内部用气化燃烧装置,其包括初燃筒、燃烧筒、挡火板和挡水环,所述初燃筒一端与挡火板中心设置的孔连接,所述燃烧筒套在初燃筒的外部且通过若干连接板与初燃筒外壁的后部连接,所述挡水环的一端与挡火板的外边缘连接,所述挡水环的另一端位于燃烧筒敞开式出火口处的周边。 | ||||||
| 4 | 包括用于催化燃烧的反应器的燃烧器 | CN201280043797.2 | 2012-09-10 | CN103958966A | 2014-07-30 | B.林德斯特雷姆; D.哈格斯特雷姆; P.贝内托萨托雷斯; S.M.雷格德伯格 |
| 本发明涉及一种燃烧器,其包括大体上圆柱形的反应器腔室(1),反应器腔室(1)包括外壳(1'),外壳(1')具有近端(1p)和远端(1d)。在反应器腔室(1)的远端设置催化剂(4)。燃料入口(7)设置于反应器腔室的近端中。还有多个空气入口(22,23;24)布置于反应器壁中近端处。入口被配置成提供喷射到反应器腔室内的旋转空气流动。还设有均流器(8;30),其在反应器腔室的截面上在燃料入口(7)与催化剂(4)之间的位置延伸。 | ||||||
| 5 | 炉灶 | CN200680056400.8 | 2006-11-17 | CN101677717B | 2012-11-14 | 本特·埃比森; 汉斯-奥罗夫·安德森 |
| 本发明涉及一种炉灶,其包括至少一个用于由燃料产生火焰的燃烧器,该燃烧器具有用于将炊具以一定间距保持在该燃烧器上方的炊具架。根据本发明的炉灶的特点是,燃烧器和炊具之间的间距是如此大小的,即,当炉灶效率为大约40%-65%时,废气中的平均一氧化碳浓度为30ppm-60ppm,优选为40ppm-50ppm。借此获得总体上明显改善的废气值,因而本发明炉灶的应用领域得以扩展。炉灶的燃烧器最好是用于无压地产生火焰的燃烧器。 | ||||||
| 6 | 具有改进的挡板的用于加热器的燃烧器 | CN200580046705.6 | 2005-11-16 | CN101103228A | 2008-01-09 | M·珀纳; F·维德曼; S·韦伯; J·斯蒂芬斯 |
| 本发明涉及一种用于尤其是机动车辆所用的加热装置的燃烧器(10),包括:大致轴对称的燃烧室(22)和布置在所述燃烧室中的挡板(36)。根据本发明,挡板(36)在轴向上为圆顶形状,所述圆顶部设在燃尽区(32)的方向上。 | ||||||
| 7 | 具有改进的隔热罩的用于加热器的燃烧器 | CN200580046679.7 | 2005-11-16 | CN101103227A | 2008-01-09 | M·珀纳; F·维德曼; S·韦伯; J·斯蒂芬斯 |
| 本发明涉及一种用于尤其是机动车辆所用的加热装置的燃烧器(10),包括用于导入燃料和初级空气的燃烧器喷嘴(12)、燃烧室(22)、以及位于所述燃烧器喷嘴和所述燃烧室之间的隔热罩(24),其中,所述隔热罩包括用于将次级空气导入所述燃烧室的开口(26)。根据本发明,所述开口设有空气引导元件(28,30)。 | ||||||
| 8 | 具有改进的燃料供给部件、改进的隔热罩和改进的挡板的用于加热器的燃烧器 | CN200580043326.1 | 2005-11-16 | CN101080595A | 2007-11-28 | M·珀纳; F·维德曼; S·韦伯; J·斯蒂芬斯 |
| 本发明涉及一种用于尤其机动车辆所用的加热装置的燃烧器,包括:大致轴对称的燃烧室(22);用于导入和雾化燃料的燃烧器喷嘴(12),其具有用于将燃料导入到燃烧室(22)的燃料针(14)和用于将燃烧空气导入到燃烧室的燃烧空气入口(16);起动区(18),燃料在所述起动区中引燃以起动燃烧器(10);位于燃烧器喷嘴(12)和燃烧室(22)之间的隔热罩(24),所述隔热罩包括用于将次级空气引导到燃烧室的开口(28,30);以及布置在燃烧室中的碰撞盘(36)。根据本发明,燃料的流出速度通过选择燃料针(14)的内径确定,使得在燃烧器(10)的起动阶段燃料以基本上未雾化的形式到达起动区(18),且开口设有空气引导元件(28,30),碰撞盘(36)在轴向上具有给定的圆顶部。 | ||||||
| 9 | 触媒燃焼用のリアクタを備えるバーナ | JP2014529642 | 2012-09-10 | JP6058674B2 | 2017-01-11 | リンドストレーム,バルト; ハグストレーム,ダニエル; ベニート・サトレス,ポーラ; レグドバーグ,サラ・マリー |
| 10 | Burner for heating apparatus | JP2003131055 | 2003-05-09 | JP2003336815A | 2003-11-28 | WEBER STEFFEN; MIESTERFELDT EDGAR |
| PROBLEM TO BE SOLVED: To provide a burner with a baffle plate manufacturable at low cost. SOLUTION: The burner has a primary combustion air feed portion 16 leading to a combustion chamber 14, and the baffle plate 18 for blocking heat of the combustion chamber 14 is disposed within a range of flame from the combustion chamber 14. A cooling air supply portion 22 is provided in addition to the primary combustion air feed portion 16 for directing air to the baffle plate 18 to cool the baffle plate 18. COPYRIGHT: (C)2004,JPO | ||||||
| 11 | JPS49133932A - | JP11601273 | 1973-10-17 | JPS49133932A | 1974-12-23 | |
| 12 | Gas fired radiant emitter | US15100143 | 2015-01-12 | US10072839B2 | 2018-09-11 | Nicolas Even; Didier Alais |
| Gas fired radiant emitter having a premixing chamber for preparing a premix of gas and air; a perforated ceramic plate acting as burner deck; and a pilot burner having a premix gas supply flow tube and two electrodes. The premix gas supply flow tube of the pilot burner extends from the side of the perforated ceramic plate where the premixing chamber is located, into a through hole in the perforated ceramic plate. The premix gas supply flow tube has a gas exit in the through hole in the perforated ceramic plate or at the combustion side of the perforated ceramic plate. The gas fired radiant emitter has features so that in an area of the perforated ceramic plate around where the premix gas supply flow tube extends into a through hole in the perforated ceramic plate, no premix gas flows through the perforated ceramic plate. | ||||||
| 13 | COMBUSTION BURNER AND BOILER | US15549510 | 2016-03-17 | US20180031232A1 | 2018-02-01 | Keigo MATSUMOTO; Atsushi YUASA; Yukihiro TOMINAGA; Akimasa TAKAYAMA; Kazuhiro DOMOTO; Keita TSUKAHARA |
| In this combustion burner and boiler, interference of ignition in a flame stabilizer is suppressed and flame stabilizing performance is improved by providing: a fuel nozzle which ejects a fuel gas that is a mixture of pulverized coal and air; a combustion air nozzle which ejects a fuel gas combustion air from outside of the fuel nozzle; a secondary air nozzle which ejects secondary air from the outside of the combustion air nozzle; and a flame stabilizer which comprises a first flame stabilizer main body which is arranged at the leading end of the fuel nozzle and separated by a prescribed space from the inner wall surface of the fuel nozzle and which forms a ring shape having as the center an axial line along the ejection direction of the fuel gas. | ||||||
| 14 | FUEL INJECTOR | US15179495 | 2016-06-10 | US20170009991A1 | 2017-01-12 | Jonathan F. CARROTTE; Stephen C. HARDING; Ashley G. BARKER |
| A fuel injection system for a gas turbine engine (10) comprises; a pilot fuel injector section (22, 23) and a main airblast fuel injector section (25, 26, 27, 28, 29), the main airblast fuel injector section having an aft end (29) facing a combustion chamber (30). A surface of the injection system exposed to air flow through an injection system is non-axisymmetric or non-planar in a reference circumferential plane and/or is configured to generate controlled and varying acoustic impedance at or adjacent the aft end where, in use, the air flow collides with an oncoming acoustic wave. | ||||||
| 15 | BURNER FOR EXHAUST GAS PURIFICATION DEVICES | US14381685 | 2013-08-07 | US20150292376A1 | 2015-10-15 | Ichiro Tsumagari; Ryo Shibuya; Atsushi Koide |
| A burner for exhaust gas purification devices, comprising a base, a first pipe section, and a second pipe section. The first pipe section has a base end section, a tip section, a combustion chamber wherein combustion air and fuel are combusted, and a discharge port from which combusted gas is discharged. The base end section is fixed to the base. An air flowpath through which combustion air passes is provided between the first pipe section and the second pipe section. The burner for exhaust gas purification devices also comprises a compressable blocking section fixed to the first pipe section or the second pipe section, and interposed between the tip section of the first pipe section and the second pipe section. The entire perimeter of the tip section of the first pipe section is supported so as to be slidable relative to the second pipe section, via the blocking section. | ||||||
| 16 | BURNER COMPRISING A REACTOR FOR CATALYTIC BURNING | US14343929 | 2012-09-10 | US20140220501A1 | 2014-08-07 | Bard Lindstrom; Daniel Hagstrom; Paula Beneyto Satorres; Sara Marie Logdberg |
| A burner includes a generally cylindrical reactor chamber (1) including a housing (1′) having a proximal end (1p) and a distal end (1d). In the distal end of the reactor chamber (1) there is provided a catalyst (4). A fuel inlet (7) is provided in the proximal end of the reactor chamber. There are also a plurality of air inlets (22, 23; 24) arranged in the reactor wall at the proximal end. The inlets are configured to provide a rotating flow of the air injected into the reactor chamber. There is also provided a flow homogenizer (8; 30) extending over the cross-section of the reactor chamber at a position between the fuel inlet (7) and the catalyst (4). | ||||||
| 17 | RICH-LEAN BURNER | US13855984 | 2013-04-03 | US20130312700A1 | 2013-11-28 | Hiroshi ODA |
| A rich-lean burner includes an inner cylinder to which lean gas, which is a mixture of gas and combustion air, is supplied, and an outer cylinder that is coaxially disposed around the inner cylinder such that rich gas, which is a mixture of gas and combustion air, is supplied between the inner cylinder and the outer cylinder. A burner head, which has small holes and whose diameter decreases toward the leading end, is provided on an opening of the inner cylinder. The burner head is obtained by forming a perforated metal, in which the small holes are arranged in a zigzag manner, into a conical shape. An interval between each of the small holes is two to three times the diameter of the small holes. The total area of the small holes is larger than the area of an upper end opening of an upper inner cylinder. | ||||||
| 18 | Device for intensifying a flame | US12662686 | 2010-04-28 | US08277214B2 | 2012-10-02 | Mika Koljonen |
| A device for intensifying a flame, comprising an object intended to be placed in front of the burner head, at a distance from said burner head, so that it is placed at least partly inside a flame extending from the burner head, and furthermore, said object being arranged to glow, heated by said flame. An apparatus for applying the device, for heating a liquid or air, comprising a burner and a combustion chamber, wherein the apparatus comprises an object in the combustion chamber. In the method, the device is installed in front of the burner head, or in an apparatus for heating a liquid or air, comprising an opening for the burner head, and a combustion chamber. | ||||||
| 19 | Boiler | US11920925 | 2006-06-30 | US07775182B2 | 2010-08-17 | Takashi Shindo; Kenichi Shinomori |
| Provided is a boiler equipped with a burner capable of realizing a reduction in emission of harmful substances using a liquid fuel such as kerosene or A-type heavy oil. A burner (20) is equipped with a nozzle part (22) spraying a liquid fuel into a combustion chamber (16) in a boiler body (10) formed by using a plurality of water tubes; provided around the nozzle part (22) is an air jetting part (27) constructed to control flow of air jetted from the air jetting part (27) so as to avoid short-passing of a gas produced by the burner (20) through a gas discharge port provided in the boiler body (10). | ||||||
| 20 | Multi-flame fuel burner for liquid and gaseous fuels | US726795 | 1976-09-27 | US4134719A | 1979-01-16 | Wallace W. Velie |
| A multi-flame fuel burner comprises a plurality of air-atomizing fuel nozzles and sources of pressurized gas and liquid and gaseous fuels associated with each nozzle. A flame spreader is employed in combination with each air-atomizing nozzle to stabilize and shape the flame. The number of nozzles and associated flame spreaders are set to provide the desired burn rate. | ||||||
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