会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Corona igniter having shaped insulator
    • 具有成形绝缘体的电晕点火器
    • US09041273B2
    • 2015-05-26
    • US13325362
    • 2011-12-14
    • John Antony BurrowsJames D. Lykowski
    • John Antony BurrowsJames D. Lykowski
    • H01T13/20H01T13/50
    • H01T13/50
    • A corona igniter (20) for emitting a radio frequency electric field and providing a corona discharge (24) includes a central electrode (22) at a positive voltage, a grounded metal shell (30), and an insulator (28) with an abruption (34) extending radially outward relative to the central electrode (22). The abruption (34) is typically an increase of at least 15% of a local thickness (t) of the insulator (28) over less than 25% of a nose length (el) of an insulator nose region (74). The abruption (34) is typically one flank (82) of a protrusion or a notch, and the flank (82) faces the shell (30). The abruption (34) reverses the electric field and voltage potential gradient along the insulator outer surface (32), repels charged ions away from the insulator (28), and thus prevents the formation of a conductive path between the central electrode (22) and the shell (22).
    • 一种用于发射射频电场并提供电晕放电(24)的电晕点火器(20)包括正电压的中心电极(22),接地的金属壳(30)和具有剥离的绝缘体(28) (34)相对于中心电极(22)径向向外延伸。 在绝缘体鼻部区域(74)的鼻长度(el)小于25%时,该剥离(34)通常是绝缘体(28)的局部厚度(t)的至少15%的增加。 突起(34)通常是突起或凹口的一个侧面(82),并且侧面(82)面向壳体(30)。 剥离(34)沿着绝缘体外表面(32)反转电场和电压梯度,将带电离子排斥离开绝缘体(28),从而防止在中心电极(22)和 外壳(22)。
    • 3. 发明授权
    • Non-thermal plasma ignition arc suppression
    • 非热等离子体点火电弧抑制
    • US08729782B2
    • 2014-05-20
    • US13283666
    • 2011-10-28
    • James D. LykowskiKeith HamptonWilliam J. Walker, Jr.
    • James D. LykowskiKeith HamptonWilliam J. Walker, Jr.
    • H01T13/20H01T13/22H01T19/00
    • H01T13/50F02P23/04H01T13/20H01T21/02
    • An igniter (20) of a corona ignition system emits a non-thermal plasma in the form of a corona (30) to ionize and ignite a fuel mixture. The igniter (20) includes an electrode (32) and a ceramic insulator (22) surrounding the electrode (32). The insulator (22) surrounds a firing end (38) of the electrode (32) and blocks the electrode (32) from exposure to the combustion chamber (28). The insulator (22) presents a firing surface (56) exposed to the combustion chamber (28) and emitting the non-thermal plasma. A plurality of electrically conducting elements (24) are disposed in a matrix (26) of the ceramic material and along the firing surface (56) of the insulator (22), such as metal particles embedded in the ceramic material or holes in the ceramic material. The electrically conducting elements (24) reduce arc discharge during operation of the igniter (20) and thus improve the quality of ignition.
    • 电晕点火系统的点火器(20)以电晕(30)的形式发射非热等离子体,以电离和点燃燃料混合物。 点火器(20)包括围绕电极(32)的电极(32)和陶瓷绝缘体(22)。 绝缘体(22)围绕电极(32)的点火端(38)并且阻挡电极(32)暴露于燃烧室(28)。 绝缘体(22)具有暴露于燃烧室(28)并发射非热等离子体的燃烧表面(56)。 多个导电元件(24)设置在陶瓷材料的矩阵(26)中并且沿着绝缘体(22)的焙烧表面(56),例如嵌入在陶瓷材料中的金属颗粒或陶瓷中的孔 材料。 导电元件(24)在点火器(20)的操作期间减少电弧放电,从而提高点火质量。
    • 4. 发明授权
    • Corona igniter including ignition coil with improved isolation
    • 电晕点火器,包括提高隔离度的点火线圈
    • US08638540B2
    • 2014-01-28
    • US13326897
    • 2011-12-15
    • John Antony BurrowsJames D. Lykowski
    • John Antony BurrowsJames D. Lykowski
    • F23Q3/00
    • H01T13/50F02P23/04H01F27/321H01F27/327H01F38/12H01F2038/122H01F2038/125H01T21/02
    • A corona igniter (20) includes an ignition coil (26) providing a high voltage energy to an electrode. The coil (26) is disposed in a housing (34) and electrically isolated by a coil filler (36) and a capacitance reducing component (38) which together improve energy efficiency of the system. The coil filler (36) includes an insulating resin permeating the coil (26). The capacitance reducing component (38) has a permittivity not greater than 6, for example ambient air, pressurized gas, insulating oil, or a low permittivity solid. The capacitance reducing compound (38) surrounds the coil (26) and other components and fills the remaining housing volume. The coil filler (36) has a filler volume and the capacitance reducing component (38) has a component volume greater than the filler volume.
    • 电晕点火器(20)包括向电极提供高电压能量的点火线圈(26)。 线圈(26)设置在壳体(34)中并且通过线圈填料(36)和电容减小部件(38)电隔离,这一起提高了系统的能量效率。 线圈填料(36)包括渗透线圈(26)的绝缘树脂。 电容减小部件(38)的介电常数不大于6,例如环境空气,加压气体,绝缘油或低介电常数固体。 电容减小化合物(38)围绕线圈(26)和其它部件并填充剩余的容积。 线圈填料(36)具有填料体积,并且电容减小组分(38)具有大于填料体积的组分体积。
    • 5. 发明授权
    • Metallic insulator coating for high capacity spark plug
    • 用于大容量火花塞的金属绝缘子涂层
    • US08278808B2
    • 2012-10-02
    • US11673815
    • 2007-02-12
    • James D. Lykowski
    • James D. Lykowski
    • H01T13/20
    • H01T13/20H01T13/36H01T13/38H01T13/40H01T21/02
    • A spark plug (24) is used in an ignition system (10) of the type for creating a precisely timed spark to ignite an air/fuel mixture in an internal combustion engine. The spark plug (24) is provided with an integrated capacitor feature to increase the intensity of its spark. The capacitor feature is formed by applying metallic film (62, 64) to the inner (30) and outer surfaces of a tubular insulator (26). The insulator (26), made from an alumina ceramic material, forms a dielectric and sustains an electrical charge when an electrical differential is established between the inner (64) and outer (62) metallic films. The stored electrical charge is discharged with the firing of a spark in the spark gap (54). The inner (64) and outer (62) metallic films can be applied as a paint or ink directly to the surfaces of the insulator (26), or can be mixed with a glazing compound to form conductive coatings simultaneous with the glazing operation. Ganged (62′) or serpentine (62″) micro-plates can be formed within either or both of the inner and outer metallic films to increase the charge-carrying surface area. The metallic film (62, 64) is specially selected from materials that will not migrate into the porous matrix of the ceramic insulator (26). The metallic film (62, 64) is preferably gold, platinum, copper, or a platinum group metal.
    • 在用于产生精确定时火花以点燃内燃机中的空气/燃料混合物的类型的点火系统(10)中使用火花塞(24)。 火花塞(24)设置有集成的电容器特征以增加其火花的强度。 通过将金属膜(62,64)施加到管状绝缘体(26)的内部(30)和外表面而形成电容器特征。 当由内部(64)和外部(62)金属膜之间建立电气差分时,由氧化铝陶瓷材料制成的绝缘体(26)形成电介质并维持电荷。 储存的电荷随火花间隙(54)中的火花点火而放电。 内(64)和外(62)金属膜可以作为油漆或油墨直接施加到绝缘体(26)的表面,或者可以与玻璃化合物混合以与玻璃操作同时形成导电涂层。 可以在内金属膜和外金属膜之一或两者内形成组合(62')或蛇形(62“)微板,以增加载电表面积。 金属膜(62,64)特别选自不会迁移到陶瓷绝缘体(26)的多孔基体中的材料。 金属膜(62,64)优选为金,铂,铜或铂族金属。
    • 6. 发明授权
    • Electrode material for a spark plug
    • 用于火花塞的电极材料
    • US08274203B2
    • 2012-09-25
    • US12954011
    • 2010-11-24
    • Shuwei MaJames D. Lykowski
    • Shuwei MaJames D. Lykowski
    • H01T13/20
    • H01T13/39
    • A spark plug electrode material that may be used in spark plugs and other ignition devices including industrial plugs, aviation igniters, glow plugs, or any other device that is used to ignite an air/fuel mixture in an engine. According to an exemplary embodiment, the electrode material includes a refractory metal (for example, tungsten (W), molybdenum (Mo), rhenium (Re), ruthenium (Ru) and/or chromium (Cr)) and a precious metal (for example, rhodium (Rh), platinum (Pt), palladium (Pd) and/or iridium (Ir)), where the refractory metal is present in an amount that is greater than that of the precious metal. This includes, but is certainly not limited to, electrode materials including tungsten-based alloys such as W—Rh and ruthenium-based alloys such as Ru—Rh. Other combinations and embodiments are also possible.
    • 火花塞电极材料可用于火花塞和其他点火装置,其中包括工业塞子,航空点火器,电热塞或用于点燃发动机中的空气/燃料混合物的任何其它装置。 根据示例性实施例,电极材料包括难熔金属(例如钨(W),钼(Mo),铼(Re),钌(Ru)和/或铬(Cr))和贵金属(用于 例如,铑(Rh),铂(Pt),钯(Pd)和/或铱(Ir)),其中难熔金属的存在量大于贵金属的量。 这包括但不限于包括钨基合金如W-Rh和钌基合金如Ru-Rh的电极材料。 其他组合和实施方式也是可能的。
    • 7. 发明申请
    • MULTI-EVENT CORONA DISCHARGE IGNITION ASSEMBLY AND METHOD OF CONTROL AND OPERATION
    • 多事件放电点火组件及其控制和运行方法
    • US20120145136A1
    • 2012-06-14
    • US13325375
    • 2011-12-14
    • John Antony BurrowsJames D. Lykowski
    • John Antony BurrowsJames D. Lykowski
    • F02P3/01F23Q3/00
    • F02P23/045F02P3/01F02P9/007F02P15/08
    • A corona discharge ignition system 20 includes an igniter 22 for receiving pulses of electrical energy each having a radio frequency. The igniter 22 emits pulses of electrical field ionizing a fuel-air mixture and providing pulses of corona discharge 24, rather than a continuous, un-pulsed corona discharge over the same period of time. The system 20 includes at least one power supply 48, 50 providing the electrical energy to a corona drive circuit 52 and ultimately to the igniter 22. The system 20 can include a variable high voltage power supply 50 and a local charge storage device 70 for providing pulses of the electrical energy to the corona drive circuit 52. The system 20 provides a robust ignition comparable to a single event corona discharge ignition system, with improved resistance to arc formation, while using a fraction of the energy.
    • 电晕放电点火系统20包括用于接收具有射频的电能的脉冲的点火器22。 点火器22发射电场脉冲电离燃料 - 空气混合物并提供电晕放电脉冲24,而不是在同一时间段内连续的非脉冲电晕放电。 系统20包括至少一个电源48,50,其将电能提供给电晕驱动电路52并最终提供给点火器22.系统20可包括可变高压电源50和本地电荷存储装置70,用于提供 电能的脉冲到电晕驱动电路52.系统20提供与单个事件电晕放电点火系统相当的强大点火,同时使用一部分能量,具有改进的电弧形成阻力。
    • 8. 发明授权
    • Electrode for an ignition device
    • 点火装置用电极
    • US07823556B2
    • 2010-11-02
    • US11764528
    • 2007-06-18
    • James D. LykowskiIryna Levina
    • James D. LykowskiIryna Levina
    • H01T13/39H01T13/20
    • H01T13/39C22C19/058
    • An electrode for an ignition device is made from a Ni-based nickel-chromium-iron alloy which has improved resistance to high temperature oxidation, sulfidation, corrosive wear, deformation and fracture includes, by weight of the alloy: 14.5-25% chromium; 7-22% iron; 0.2-0.5% manganese; 0.2-0.5% silicon; 0.1-2.5% aluminum; 0.05-0.15% titanium; 0.01-0.1% total of calcium and magnesium; 0.005-0.5% zirconium; 0.001-0.01% boron, and the balance substantially Ni. It may also include at least one rare earth element selected from the group consisting of: yttrium, hafnium, lanthanum, cerium and neodymium in amounts ranging from 0.01-0.15% by weight, and incidental impurities, including cobalt, niobium, molybdenum, copper, carbon, lead, phosphorus or sulfur. These total of these impurities will typically be controlled to limits of 0.1% cobalt, 0.05% niobium, 0.05% molybdenum, 0.01% copper, 0.01% carbon, 0.005% lead, 0.005% phosphorus and 0.005% sulfur. The ignition device may be a spark plug which includes a ceramic insulator, a conductive shell, a center electrode disposed in the ceramic insulator having a terminal end and a sparking end with a center electrode sparking surface, and a ground electrode operatively attached to said shell having a ground electrode sparking surface, the center electrode sparking surface and the ground electrode sparking surface defining a spark gap therebetween. At least one of the center electrode or the ground electrode includes the solution-strengthened Ni-based nickel-chromium-iron alloy. The Ni-based nickel-chromium-iron alloy electrodes of the invention may also include a core with thermal conductivity greater than that of the Ni-based nickel-chromium-iron alloy, such as copper or silver or their alloys.
    • 用于点火装置的电极由Ni基镍铬铁合金制成,其具有改进的耐高温氧化,硫化,腐蚀性磨损,变形和断裂的耐受性,包括合金的重量:14.5-25%的铬; 7-22%铁 0.2-0.5%锰; 0.2-0.5%硅; 0.1-2.5%铝; 0.05-0.15%钛; 钙和镁总量的0.01-0.1%; 0.005-0.5%锆; 0.001-0.01%的硼,余量基本上为Ni。 其还可以包括至少一种选自以下的稀土元素:钇,铪,镧,铈和钕,其量为0.01-0.15重量%,以及附带的杂质,包括钴,铌,钼,铜, 碳,铅,磷或硫。 这些杂质的总和通常控制在0.1%钴,0.05%铌,0.05%钼,0.01%铜,0.01%碳,0.005%铅,0.005%磷和0.005%硫的限度。 点火装置可以是火花塞,其包括陶瓷绝缘体,导电壳,设置在具有终端的陶瓷绝缘体中的中心电极和具有中心电极火花表面的火花端,以及可操作地附接到所述外壳的接地电极 具有接地电极火花表面,中心电极火花表面和接地电极火花表面在它们之间限定火花隙。 中心电极或接地电极中的至少一个包括溶液强化的Ni基镍铬铁合金。 本发明的镍基镍 - 铬 - 铁合金电极还可以包括导热率大于镍基镍 - 铬 - 铁合金(例如铜或银或其合金)的芯的芯。
    • 10. 发明授权
    • Spark plug with multi-layer firing tip
    • 火花塞与多层点火尖
    • US07521850B2
    • 2009-04-21
    • US11602146
    • 2006-11-20
    • James D. Lykowski
    • James D. Lykowski
    • H01T13/20
    • H01T13/39H01R13/03H01T13/20H01T21/02Y10T29/49002Y10T29/49117Y10T29/49147Y10T29/49169Y10T29/49204Y10T29/5195
    • A spark plug having a multilayer firing tip that minimizes the amount of precious metal used and a method of assembling a spark plug with a multilayer firing tip. The firing tip includes a discharge end and a weld end, with the weld end being connected to a center electrode, and more specifically to a base electrode on the center electrode. The weld end has a coefficient of thermal expansion, which is not between the values for the coefficients of thermal expansion for the discharge end and the base electrode. More specifically, the weld end has a coefficient of thermal expansion which is greater than the coefficients of thermal expansion for the discharge end and base electrode. The weld end is formed from Nickel and Chromium with a limited amount of additional elements. The spark plug is assembled by providing a first elongated material formed from the material used for the discharge end and a second elongated material formed from a material used for the weld end. The two materials are then joined to form a single joined material and are severed to create a firing tip. The firing tip is welded to the center electrode of the spark plug and more specifically, the base electrode.
    • 一种火花塞,其具有使所使用的贵金属的量最小化的多层烧制尖端以及具有多层烧制尖端的火花塞的组装方法。 点火头包括排出端和焊接端,焊接端连接到中心电极,更具体地说,连接到中心电极上的基极。 焊接端具有热膨胀系数,其不在用于放电端和基极的热膨胀系数的值之间。 更具体地,焊接端具有大于放电端和基极的热膨胀系数的热膨胀系数。 焊接端由镍和铬形成,其数量有限。 通过提供由用于排出端的材料形成的第一细长材料和由用于焊接端的材料形成的第二细长材料来组装火花塞。 然后将两种材料连接以形成单个连接的材料并被切断以产生点火尖端。 将点火焊头焊接在火花塞的中心电极上,更具体地说是焊接在基极上。