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    • 1. 发明申请
    • METHOD AND APPARATUS FOR PRODUCING A CATALYTIC CONVERTER
    • 用于生产催化转化器的方法和装置
    • US20110171079A1
    • 2011-07-14
    • US12823311
    • 2010-06-25
    • RAFAEL GARCIA GOMEZ
    • RAFAEL GARCIA GOMEZ
    • B01D53/34B23Q17/00B21D26/00G01B5/08
    • F01N3/2842Y02A50/2322Y10T29/49345Y10T29/4978Y10T29/49879
    • A method is disclosed for producing a catalytic converter, which includes a monolith wrapped in a mat and is disposed in a housing, wherein an average diameter of the monolith and a thickness of the mat are determined and the monolith is wrapped in the mat. A housing blank is formed into a housing and the wrapped monolith is enclosed in the housing. The average diameter of the monolith is determined by introducing the monolith in a measurement space having an interior volume, filling a gap between the measurement space and the monolith with a fluid, measuring a quantity of fluid which corresponds to a volume difference between the monolith and the interior volume of the measurement space, and calculating the average diameter of the monolith from the volume difference.
    • 公开了一种用于生产催化转化器的方法,催化转化器包括整体包裹在垫中并设置在壳体中,其中确定整料的平均直径和垫的厚度,并将整料包裹在垫中。 壳体坯件形成为壳体,并且将包裹的整体封装在壳体中。 整料的平均直径是通过将整料置于具有内部容积的测量空间中,用流体填充测量空间和整料之间的间隙来测量的,所述流体的量相当于整料和 测量空间的内部体积,以及从体积差异计算整体的平均直径。
    • 3. 发明授权
    • Method and apparatus for producing a catalytic converter
    • 用于生产催化转化器的方法和装置
    • US08549747B2
    • 2013-10-08
    • US12823311
    • 2010-06-25
    • Rafael Garcia Gomez
    • Rafael Garcia Gomez
    • B01D50/00
    • F01N3/2842Y02A50/2322Y10T29/49345Y10T29/4978Y10T29/49879
    • A method for producing a tubular catalytic converter, which includes a monolith wrapped in a mat and is disposed in a housing, includes forming a stepped longitudinal fold on a longitudinal side of a housing blank, wherein the longitudinal side on both sides of the fold to be formed is clamped by electrodes of opposite polarity across the fold. Electrode pairs on one side of the fold to be formed are then offset with respect to electrodes on the other side of the fold and the electrodes of opposite polarity move closer together, while a current is flowing between the electrodes of opposite polarity, heating the material in the fold. Opposing longitudinal sides of the tubular housing are then materially joined along the stepped longitudinal fold with the overlap to produce the housing for the tubular catalytic converter.
    • 一种管状催化转化器的制造方法,其特征在于,包括整体包裹在垫中并设置在壳体中的整体,包括在壳体坯料的纵向侧上形成阶梯状的纵向折痕,其中折叠两侧的纵向侧面 形成的电极通过折叠的相反极性的电极夹紧。 然后,要形成的折叠的一侧上的电极对相对于折叠的另一侧上的电极偏移,并且相反极性的电极移动更靠近在一起,同时电流在相反极性的电极之间流动,加热材料 在折叠。 然后将管状壳体的相对的纵向侧面沿着具有重叠的阶梯式纵向折叠物质地接合以产生用于管状催化转化器的壳体。
    • 6. 发明申请
    • METHOD FOR HYDROFORMING HOLLOW PROFILE METAL WORKPIECES
    • 中压型材金属加工方法
    • US20100319428A1
    • 2010-12-23
    • US12819338
    • 2010-06-21
    • Rafael Garcia GomezJochem Grewe
    • Rafael Garcia GomezJochem Grewe
    • B21D26/02
    • B21D26/033B21D26/041B21D26/043
    • A method for hydroforming hollow metal workpieces includes submerging the same in a reservoir of hydraulic fluid. A press is provided having a hydroforming station located within the reservoir and includes a forming cavity configured to receive the fluid filled workpiece and create a fluid cushion spaced between the outside of the workpiece and the inside of the forming cavity. Sealing mandrels supply high-pressure hydraulic fluid to the interior of the workpiece which hydroform the same to the shape of the final part. The outward flow of fluid from the fluid cushion space is controlled, along with the associated pressure, to maintain the fluid cushion at least until such time as the mandrel pushing step concludes, thereby alleviating friction and adhesion between the formed part and the forming cavity.
    • 用于液压成型中空金属工件的方法包括将其浸没在液压流体的储存器中。 提供了一种压力机,其具有位于储存器内的液压成型站,并且包括成形腔,该成形腔构造成接收流体填充的工件并产生在工件的外部与成形腔的内部间隔开的流体垫。 密封心轴向工件内部提供高压液压流体,该液压流体与最终部件的形状相同。 控制来自流体缓冲空间的流体的向外流动以及相关的压力,以至少保持流体缓冲器直到心轴推动步骤结束为止,从而减轻形成部件与成形腔体之间的摩擦和粘合。
    • 7. 发明授权
    • Apparatus for testing a rupture strength of a pipe
    • 用于测试管道断裂强度的装置
    • US07647819B2
    • 2010-01-19
    • US11614530
    • 2006-12-21
    • Rafael Garcia Gomez
    • Rafael Garcia Gomez
    • G01M3/08
    • G01N3/12
    • A pipe testing apparatus includes a rupture device for testing a rupture strength of a pipe. The rupture device has two clamping heads respectively accepting associated ends of the pipe which extends between the clamping heads, and a pressure-application system having a feed channel for imposing a fluid upon the pipe. The rupture device includes a tie rod which connects the clamping heads and extends through the pipe in coaxial relationship thereto such that an annular space is formed between the tie rod and the pipe, with the feed channel feeding into the annular space.
    • 管道测试装置包括用于测试管道的破裂强度的破裂装置。 破裂装置具有分别容纳在夹紧头之间延伸的管的相关端部的两个夹紧头和具有用于在管上施加流体的进料通道的压力施加系统。 破裂装置包括一个拉杆,其连接夹紧头并且以同轴的关系延伸穿过管,使得在拉杆和管之间形成环形空间,馈送通道进入环形空间。
    • 10. 发明授权
    • High-pressure shaping system
    • 高压成型系统
    • US07313940B2
    • 2008-01-01
    • US11603919
    • 2006-11-22
    • Rafael Garcia Gomez
    • Rafael Garcia Gomez
    • B23P23/00B21B37/00
    • B21D26/039B21D26/035B21D26/041
    • A high-pressure system for hydroshaping a hollow workpiece has a lower die and an upper die vertically shiftable above the lower die and forming therewith a cavity shaped to hold the workpiece. An upper actuating element bears downward via a vertically compressible hydraulic operating cylinder on the upper die. A spring-loaded pressure-storing cylinder is connected by a hydraulic line to the operating cylinder and to the workpiece. Downward shifting of the actuating element first closes the dies together, then internally pressurizes the workpiece via the line from the operating cylinder such that the workpiece deforms and shapes itself to the cavity, and then fills the spring-loaded pressure-storing cylinder. Subsequent upward shifting of the actuating element at first allows the pressure-storing cylinder to empty, and then entrains the upper die upward off the workpiece by the actuating element.
    • 用于加氢成形中空工件的高压系统具有下模和可在下模上方垂直移位的上模,并且形成有用于保持工件的形状的空腔。 上致动元件通过上模上的可垂直压缩的液压操作缸向下支撑。 一个弹簧加压储存缸通过液压管路连接到工作缸和工件上。 致动元件的向下移动首先将模具封闭在一起,然后通过来自操作缸的管线对工件进行内部加压,使得工件变形并将其自身变形成空腔,然后填充弹簧加载的储存缸。 起动元件的随后的向上移动首先允许储存储存缸被排空,然后通过致动元件将上模向上离开工件。