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    • 1. 发明授权
    • Device for introducing separated fluids through independent flow paths
through bottom tuyeres in a rotating metallurgical converter
    • 用于通过独立的流动路径通过旋转冶金转换器中的底部风嘴引入分离的流体的装置
    • US4799651A
    • 1989-01-24
    • US813566
    • 1985-12-26
    • Arturo Lazcano-NavarroMiguel A. AlcantaraJose E. Hernandez-Ruiz
    • Arturo Lazcano-NavarroMiguel A. AlcantaraJose E. Hernandez-Ruiz
    • C21C5/34C21C5/48C21C5/50
    • C21C5/34C21C5/48
    • A mechanism and flow conduits for introducing and transporting a set of separated fluids and a stream of solid fines through passageway in a rotating metallurgical converter for introducing such fluids and solid fines into a liquid metal contained in the converter.Stationary conduits from flow sources connect to a non rotative sleeve which forms the external portion of a rotary joint able to introduce a set of separated fluids into the rotating converter passageways. Each separated stationary fluid conduit connects to port holes in the fixed sleeve to lead the flow to the interior of the sleeve, and connects a circumferential channel formed in rotating rings located between a rotating shaft affixed to the converter vessel trunnion pin and the static sleeve with a seal between each adjacent ring and corresponding channel. A port hole is located in each rotating channel ring for leading the fluid through internal flow paths inside and along the axis of the shaft body.The flows paths connect to a plurality of pipes contained inside the trunnion pin central bore, which, in turn, connect a set of port holes of a multi passageway elbow, which serves for leading the fluids and solid fines stream to the ring side end of the trunnion pin and changes the direction of the fluids and stream of solids by ninety degrees so as to direct such fluids to the botton pipe lines which finally end up in the converter bottom injection nozzles.
    • 一种机构和流动管道,用于通过旋转冶金转化器中的通道将一组分离的流体和固体细粒流引入和输送并输送,以将这种流体和固体细粒引入到转化器中所含的液态金属中。 来自流动源的固定管道连接到非旋转套筒,其形成能够将一组分离的流体引入旋转转换器通道的旋转接头的外部部分。 每个分离的静止流体导管连接到固定套筒中的孔口,以将流体引导到套筒内部,并且将形成在旋转环中的环形通道连接到位于转子容器耳轴销上的旋转轴与静态套筒之间, 每个相邻环之间的密封和相应的通道。 每个旋转通道环中都有一个孔口,用于引导流体通过轴体内部和沿着轴体的轴线的内部流动路径。 流动路径连接到容纳在耳轴销中心孔内的多个管道,其又连接多通道弯头的一组端口孔,其用于将流体和固体细粒流引导到 耳轴销并将流体和固体物流的方向改变九十度,以便将这种流体引导到最终终止于转换器底部喷嘴中的管道管线。
    • 2. 发明授权
    • Device for the selective injection of an oxidizing gas or a carrier gas
with or without carbonaceous material to a liquid metal bath
    • 用于将含有或不含碳质材料的氧化气体或载气选择性地注入到液态金属浴中的装置
    • US4693274A
    • 1987-09-15
    • US863001
    • 1986-05-14
    • Arturo Lazcano-NavarroMiguel A. AlcantaraJose E. Hernandez-Ruiz
    • Arturo Lazcano-NavarroMiguel A. AlcantaraJose E. Hernandez-Ruiz
    • C21C5/34C21C5/48F16K11/00
    • C21C5/48C21C5/34Y10T137/86815Y10T137/87692
    • This invention relates to a device used in the selection between two fluids that are to be injected into a liquid metal contained in a metallurgical converter: an oxidizing gas and another gas conveying powdered carbonaceous material; both fluids arrive through different conduits to a selecting valve located at the bottom of a metallurgical converter just before a single conduit tuyere for leading one of the fluids to the liquid metal by means of the selective mechanism in such valve. The valve design and operation avoids the possibility of mixing the oxidizing gas with the carbonaceous powder in any part of their path up to the metal bath by providing separate passages for each fluid and one inert gas purge passageway between said passages, and further including a safety mechanism which provides control means for the fluid to be correctly injected by avoiding the transport of the oxidizing gas or the carbonaceous material if the corresponding movable passage within the valve body is not correctly and precisely positioned.
    • 本发明涉及一种在两种流体之间的选择中使用的装置,其将被注入包含在冶金转化器中的液态金属中:氧化气体和另一种输送粉状碳质材料的气体; 两个流体通过不同的管道到达位于冶金转化器底部的选择阀,恰好在单个导管风口之前,通过这种阀中的选择性机构将一个流体引导到液体金属。 阀的设计和操作避免了通过为所述通道之间的每个流体和一个惰性气体吹扫通道提供分开的通道,将氧化气体与碳质粉末在其路径的任何部分混合到金属浴中的可能性,并且还包括安全性 机构,其通过避免在阀体内的相应的可动通道未正确且精确地定位的情况下避免氧化气体或碳质材料的输送而提供用于正确注入流体的控制装置。
    • 5. 发明授权
    • Rotary joint apparatus for introducing and transporting several
independent fluids and solid fines into a metallurgical converter
    • 用于将几种独立流体和固体细粒引入和输送到冶金转化器中的旋转接头装置
    • US4606531A
    • 1986-08-19
    • US642254
    • 1984-08-20
    • Arturo Lazcano-NavarroMiguel A. Alcantara
    • Arturo Lazcano-NavarroMiguel A. Alcantara
    • C21C5/48C21C7/00
    • C21C5/48
    • This invention relates to a rotary joint for introducing a plurality of different separated fluids from a first static system, to a second system that is rotating with respect to the first, namely for passing fluids and solid fines carried in fluids into a rotatable iron converter through rotary trunnion couplings. The separated different fluids are passed simultaneously through a stationary cylindrical sleeve surrounding a rotating core shaft coupled to the trunnion. Conduits housed in such stationary sleeve pass the fluids to separate circumferential channels axially located along the rotating shaft from which a set of independent lines transporting fluids axially through the trunnion which is rotating with respect to the receiving static sleeve. Between the separate channels in the rotating shaft there are seals that do not permit the passage of a fluid from a given channel conduit into any other. This makes the conduction of fluids in the lines and/or channels independent of each other.
    • 本发明涉及一种用于将多个不同分离的流体从第一静态系统引入到相对于第一静态系统旋转的第二系统的旋转接头,即用于将流体中携带的流体和固体细粒通过可转动的铁转换器通过 旋转式耳轴联轴器。 分离的不同流体同时通过围绕耦合到耳轴的旋转芯轴的固定圆柱形套筒。 容纳在这种静止套筒中的导管将流体传递到沿着旋转轴线轴向定位的分离的圆周通道,一组独立的线路轴向地传送通过相对于接收静态套筒旋转的耳轴。 在旋转轴中的分离通道之间存在不允许流体从给定通道导管通入任何其它通道的密封件。 这使得线路和/或通道中的流体彼此独立地传导。
    • 6. 发明授权
    • Method for obtaining high purity ductile iron
    • 获得高纯度球墨铸铁的方法
    • US4537629A
    • 1985-08-27
    • US642256
    • 1984-08-20
    • Arturo Lazcano-NavarroMiguel A. Alcantara
    • Arturo Lazcano-NavarroMiguel A. Alcantara
    • C21C1/10C21C5/35C22C33/08
    • C22C33/08C21C1/10C21C5/35
    • A method for making high quality liquid iron with substantially no residual chemical elements and a controlled content of carbon, manganese, phosphorous, sulfur and silicon in the final metal. Sponge iron, as raw material, is melted in a vessel or converter with a basic refractory lining. The energy required for melting the sponge iron is provided by the exothermic reaction of carbon from any coal or carbonaceous material and oxygen in solution within the metal bath and by the combustion of other hydro-carbon fluids, all injected to the bath through nozzles preferably located in the bottom of the converter. Further energy is obtained with the post-combustion of gases leaving the metal bath when ascending to the upper port of the converter. Alloy additions might be made by injection in order to obtain a liquid bath chemical composition which permits that the final liquid metal be used as starting material with excellent properties for the fabrication of high quality iron, particularly ductile iron, which has a very stringent condition for reaching desired properties. Specifically important is the chemical analysis of the metal bath before solidification of the final cast piece. Final liquid metal from the converter can be solidified in form of small ingots for easy further handling. These ingots are excellent as starting material for ductile iron fabrication.
    • 一种在最终金属中制造基本上没有残留化学元素和受控含量的碳,锰,磷,硫和硅的高质量液态铁的方法。 海绵铁作为原料,在具有基本耐火衬里的容器或转炉中熔化。 熔融海绵铁所需的能量是通过来自任何煤或碳质材料的碳的放热反应和在金属浴中的溶液中的氧以及其它氢碳流体的燃烧来提供的,所有其它氢碳 - 碳流体都通过优选位于 在转换器的底部。 当上升到转换器的上端口时,通过离开金属浴的气体的后燃烧获得进一步的能量。 可以通过注射来制备合金添加剂,以获得液体浴化学组成,其允许使用最终液态金属作为起始材料,其具有用于制造高品质铁,特别是球墨铸铁的优异性能,其具有非常严格的条件 达到所需的性能。 特别重要的是在最终铸件凝固之前金属浴的化学分析。 来自转炉的最终液态金属可以以小锭形式固化,便于进一步处理。 这些锭作为球墨铸铁的起始材料是非常好的。
    • 7. 发明授权
    • Cylinder liners for aluminum motor blocks and methods of production
    • 用于铝马达块的气缸套和生产方法
    • US6138630A
    • 2000-10-31
    • US428926
    • 1999-10-28
    • Arturo Lazcano-Navarro
    • Arturo Lazcano-Navarro
    • F02B3/06F02F1/16
    • F02F1/16F02B3/06Y10T29/49272
    • A generally hollow cylindrical piston liner for insertion in an internal combustion engine between a piston and an engine block has a cast aluminum piston liner body with cast iron engine block contact surface structure extending therefrom and securely thermally bonded thereto for exhibiting a roughened outer contact surface adapted to interface with an engine block, and its method of manfacture. The cast iron contact surface member roughened surface is generated by introducing in a first mold step a mold wash substance that generates a substantially uniform bubble pattern within a mold wash matrix layer into which the molten iron is poured to thereby produce a roughened iron interface surface. The aluminum piston liner is then bonded to the iron liner in a second molding step by pouring molten aluminum into a pre-heated mold to bond the cast iron engine block surface structure to the aluminum liner. During the solidification stages, the molds are centrifugally rotated about the piston liner cylinder axis to established the required manufacturing precision required for large diameter piston liners. The piston liners typically form a series of circumferal motor block contact ribs spaced proportionately along the liner length to extend from a cylindrical body for carrying the cast iron contact surface structure.
    • 用于插入活塞和发动机缸体之间的内燃机中的大体中空的圆柱形活塞衬套具有铸铝活塞衬套本体,其具有从其延伸的铸铁发动机缸体接触表面结构,并牢固地热粘合到其上,以展现出粗糙的外接触面 与发动机缸体接口及其制造方法。 通过在第一模具步骤中引入在模具洗涤基质层内产生基本上均匀的气泡图案的模具清洗物质来产生铸铁接触表面构件粗糙表面,在其中注入铁水,从而产生粗糙的铁界面表面。 然后通过将熔融铝浇注到预热模具中以将铸铁发动机块表面结构结合到铝衬套上,然后在第二成型步骤中将铝活塞衬套粘结到铁衬层上。 在固化阶段期间,模具围绕活塞衬套缸轴线离心旋转,以建立大直径活塞衬套所需的制造精度。 活塞衬垫通常形成沿着衬套长度成比例地间隔开的一系列圆周的电机块接触肋,以从用于承载铸铁接触表面结构的圆柱体延伸。
    • 8. 发明授权
    • Process to reduce dross in molten aluminum
    • 降低熔融铝渣的工艺
    • US5421856A
    • 1995-06-06
    • US218249
    • 1994-03-28
    • Arturo Lazcano-Navarro
    • Arturo Lazcano-Navarro
    • C22B21/00C22B21/06F27B3/22
    • C22B21/064C22B21/0084F27B3/22Y10S266/901
    • Dross formation in the aluminum melting and/or refining is avoided partially or totally by the method of this invention. The method is useful in unmodified open top furnaces. The elimination or reduction of dross formation is carried out throughout the body of molten aluminum by the installation of gas injection devices to extend through the refractory lining in the bottom of the furnace. For longer life without clogging metal cased refractories of the directional porosity type are used for gas injection. Mixtures of inert and hydrocarbon gases are used with respective proportions chosen to match the design parameters of different types of furnaces. In operation the dross is eliminated by reactions of the injected gases with the impurities of the molten aluminum batch at its hottest temperatures in the body of the aluminum mass to thereby reduce dross generally caused by oxidation of the molten aluminum within the molten mass. Furthermore the injected gases at a multiplicity of injection sites permeate the entire molten batch to eliminate dross formation accelerated by the high temperature of the molten aluminum. By continuous flow of the injected gases, the surface of the aluminum melt is dynamically kept free of oxygen that might form dross there without the necessity of using a closed top furnace with an atmosphere control system.
    • 通过本发明的方法部分或全部避免铝熔化和/或精炼中的浮渣形成。 该方法在未经修改的开顶炉中很有用。 消除或减少浮渣形成通过安装气体注入装置在整个熔融铝体内进行,以延伸穿过炉底的耐火衬里。 为了更长的寿命,没有堵塞,定向孔隙型的金属套管耐火材料用于气体注入。 使用惰性和烃类气体的混合物,其选择的各个比例与不同类型的炉的设计参数相匹配。 在操作中,通过注入的气体与铝质材料体中最热的温度下的熔融铝批料的杂质的反应来消除浮渣,从而减少通常由熔融铝中的熔融铝的氧化引起的浮渣。 此外,多个注入位置处的注入气体渗透整个熔融批料,以消除由熔融铝的高温加速的浮渣形成。 通过喷射气体的连续流动,铝熔体的表面被动态地保持没有氧气,这可能在那里形成浮渣,而不需要使用具有气氛控制系统的封闭式顶炉。
    • 10. 发明授权
    • Direct steelmaking process from 100% solid charge of multiple reducing
and oxidizing alternating periods
    • 直接炼钢过程由100%固体电荷的多个还原和氧化交替周期
    • US4957546A
    • 1990-09-18
    • US349650
    • 1989-05-10
    • Arturo Lazcano-Navarro
    • Arturo Lazcano-Navarro
    • C21B13/08C21C5/28C21C5/56
    • C21B13/08C21C5/285C21C5/567Y02P10/136Y02P10/212Y10S75/958
    • The present invention relates to a new steelmaking process and apparatus which operates on an intermittent basis where several cycles composed of reducing and oxidizing periods are performed to create sufficient energy for melting of solid metallic charge, i.e., sponge iron, scrap, iron ore. During the reducing period, oxygen and carbonaceous material are injected through the vessel bottom thus attaining both carburization of a steam of the melt and generation of CO+H.sub.2 rich gas, and when the dissolved carbon of the melt is in the range of 3%-4%, conditions are then changed to the oxidizing period where solid metallic charge is added initially while oxygen injection is maintained, and until the solid charge has been melted, thus generating a stream of CO+CO.sub.2 gas rich in CO. In addition, other fluids and solids participate in the process, i.e., nitrogen, hydrocarbons, fluxes, and are used according to the appropriate period of the process. After several cycles have been performed, molten metal, preferably raw steel, is transferred to a ladle for further processing and an ignition molten metal heel remains in the vessel for initiation of the next heat.
    • 本发明涉及一种新的炼钢工艺和装置,其间歇运行,其中执行由还原和氧化时段组成的几个循环以产生用于熔化固体金属装料即海绵铁,废料,铁矿石的足够能量。 在还原期间,氧气和碳质材料通过容器底部注入,从而获得熔体蒸汽的渗碳和产生富CO + H 2气体,当熔体的溶解碳在3% - 4%,然后将条件改变为初始加入固体金属电荷并保持注氧的氧化期,直到固体电荷熔化,从而产生富含CO的CO + CO 2气体流,此外,其他 流体和固体参与该过程,即氮气,碳氢化合物,助熔剂,并根据该过程的适当期间使用。 在进行了几个循环之后,将熔融金属(优选生钢)转移到钢包进行进一步加工,并且在容器中留下点燃的熔融金属鞋跟,用于开始下一次加热。