子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | 用于制造涡轮机或压缩机轮的方法和设备 | CN200680033293.7 | 2006-06-29 | CN101262966A | 2008-09-10 | 朱强; 安德鲁·菲利普·杰克森 |
| 一种用于由半固态材料形成涡轮机或压缩机轮的方法,采用具有内夹筒和外模的模具组件,所述内夹筒由多个段制成。所述半固态材料在压力和高温下被注入模具,以使得所述半固态材料流入被限定在夹筒的段之间的叶片腔。所述夹筒被从外模移除,然后,分离所述段以释放所述轮。 | ||||||
| 142 | 模铸模具以及制造模铸模具的方法和铸造方法 | CN200680029493.5 | 2006-07-31 | CN101242923A | 2008-08-13 | 吉井大; 佐藤公俊; 稻村隆义 |
| 设置了固定插入件(12)和固定模具主体(11),在固定插入件(12)上形成有凹陷腔体部分(16),固定模具主体(11)用于保持固定插入件(12)。固定插入件(12)包括第一插入件(31)和第二插入件(33)。第一插入件(31)由固定模具主体(11)保持。第二插入件(33)装配并保持在形成于第一插入件(31)上的凹部(33)内。第二插入件(33)的尺寸被最小化以围绕凹陷腔体部分(16)。 | ||||||
| 143 | 铸造机 | CN200580002907.0 | 2005-01-20 | CN100384567C | 2008-04-30 | 吉井大 |
| 本发明提供了一种铸造机,其包括基体(12)、下模(15)、第一滑动型芯(16)及第二滑动型芯(17)、以及上模。铸造机还包括缸(第三气缸(25))用于打开及关闭第一滑动型芯(16)及第二滑动型芯(17)。缸包括布置在基体(12)上并位于第一滑动型芯(16)的外侧的缸体(25b),且缸体被支撑以在平行于第一滑动型芯(16)的打开/关闭方向的方向上可移动。缸还包括连接至第一滑动型芯(16)的活塞杆(25a)。此外,铸造机包括用于可操作地将缸体(25b)连接至第二滑动型芯(17)的连接构件(第一及第二连接构件(26、28)以及系杆(27)),以及在完全打开位置在打开方向上限制第一滑动型芯(16)的运动的制动器(29)。 | ||||||
| 144 | 涡轮叶片的微回路冷却 | CN200610162428.1 | 2006-11-22 | CN1970998A | 2007-05-30 | F·J·昆哈; M·T·达赫梅 |
| 一种涡轮发动机部件具有一个带有负压侧的翼面部分。上述部件具有一条埋设在构成负压侧的壁构件内的微型冷却回路,该微型冷却回路具有至少一个设置在计量基准点之前面的气膜冷却排出孔,以便使冷却流体流遍布负压侧的通过上述计量基准点的外表面。上述的微型冷却回路采用耐熔金属芯工艺来形成,本文叙述了形成上述微型冷却回路的方法。 | ||||||
| 145 | 压铸件制造用的压铸成型装置 | CN200480020536.4 | 2004-03-05 | CN1822910A | 2006-08-23 | 大场正男 |
| 本发明的目的在于提供一种压铸成型装置,该压铸成型装置涉及形成框状的铸件的压铸件制造用的压铸成型装置,其可采用滑动模在角部也能够形成凹凸部。在该压铸成型装置中,通过液压缸(82),使隔壁形成用滑动模(80)沿图中的箭头(b)方向移动,其结果是,在这里形成空间,确保角部形成用滑动模(70)沿箭头(a)方向移动用的空间。另外,通过液压缸(72)使角部形成用滑动模(70)在该确保的空间中移动,此时,形成于角部形成用滑动模(70)中的突部和形成于框状制品上的凹凸部(50)的卡合脱开,活动模(30)可移动。 | ||||||
| 146 | 金属模装置、电子机器及电子机器壳体的制造方法 | CN99807728.3 | 1999-06-17 | CN1190281C | 2005-02-23 | 细井隆; 高木伸行; 小野保夫; 木内干夫 |
| 本发明的金属模装置(30),用于形成具有预定间距孔部(21)的、由金属材料构成的电子机器用壳体(20),具有从上模(31)或下模(32)突出的销部件(36),上述销部件(36)这样配置:连结相邻销部件(36)的中心线,不垂直于金属溶液往金属模装置(30)腔室(35)内导入的方向。 | ||||||
| 147 | 电子器械与电子器械的制造方法及金属模装置 | CN99807585.X | 1999-04-02 | CN1111457C | 2003-06-18 | 细井隆; 高木伸行; 小野保夫 |
| 在具备有着孔部(21)的电子器械用筐体(20)的手提式计算机(10)等电子器械上,于设置孔部(21)的位置形成突出部(22),在形成结合孔(27)的同时,有孔部分离体(24)装于突出部(22)上并构成孔部(21)。 | ||||||
| 148 | 金属模装置、电子机器及电子机器的制造方法 | CN99807728.3 | 1999-06-17 | CN1306465A | 2001-08-01 | 细井隆; 高木伸行; 小野保夫; 木内干夫 |
| 本发明的金属模装置(30),用于形成具有预定间距孔部(21)的、由金属材料构成的电子机器用壳体(20),具有从上模(31)或下模(32)突出的销部件(36),上述销部件(36)这样配置:连结相邻销部件(36)的中心线,不垂直于金属溶液往金属模装置(30)腔室(35)内导入的方向。 | ||||||
| 149 | 改变石墨模中铸件热梯度的装置 | CN92104658.8 | 1992-06-15 | CN1059137C | 2000-12-06 | 约翰·L·帕里克 |
| 在一铸模内,所充填的耐火材料部分设置在相邻冒口座之间以对熔融金属提供更均匀、更可控制的冷却、以减少在铸件内的显微疏松。 | ||||||
| 150 | METHOD FOR MANUFACTURING A PART OUT OF A METAL MATRIX COMPOSITE MATERIAL, AND RELATED DEVICE | PCT/EP2015062305 | 2015-06-02 | WO2015185578A8 | 2016-01-28 | SABAH MURIEL; MAISONNAVE NICOLAS |
| The invention relates to a method (S) for manufacturing a part (1) out of a metal matrix composite material, including the following steps: opening (S1) device (10) that includes a supporting portion (14) and a molding portion (14); placing (S2) a fibrous reinforcement into the device (10); sealably closing (S3) the device (10) by providing a space between the fibrous reinforcement (2) and the device portions; feeding (S4) the molten metal matrix (3) into the device (10) such as to fill the space between the fibrous reinforcement (2) and the device portions (13, 14); and applying (S5) a force onto the equipment (10) such as to impregnate the fibrous reinforcement (2) with the metal matrix (3). | ||||||
| 151 | HEAVY DUTY MATRIX BIT | PCT/IB2012001095 | 2012-05-21 | WO2012160444A3 | 2013-01-31 | CUILLIER DE MAINDREVILLE BRUNO; GOMEZ WILLIAMS |
| An apparatus and method for manufacturing a downhole tool that reduces failures occurring along a bondline between a cemented matrix coupled around a blank. The cemented matrix material is formed from a powder and a binder material. The blank includes an internal blank component and a coating coupled around at least a portion of the surface of the internal blank component. The internal blank component includes a top portion and a bottom portion. The internal blank component is substantially cylindrically shaped and defines a channel extending through the top portion and the bottom portion. The coating is a metal in some exemplary embodiments. The coating reduces the migration of the binder material into the blank thereby allowing the control of intermetallic compounds thickness within the bondline. | ||||||
| 152 | CASTING MOLD AND CAST ARTICLE PRODUCED USING THE SAME | PCT/IB2013001697 | 2013-08-02 | WO2014024021A8 | 2015-01-15 | KOYAMA TOMOHIRO; OZAKI MOTOAKI; FURUKAWA YUICHI; SOTOZAKI SHUJI; WAKAI HIROAKI |
| A casting mold includes a carbon film with which at least a surface of the casting mold which forms a cavity is covered, and mold oil with which a surface of the carbon film is coated. In the casting mold, aluminum powder is added to the mold oil. | ||||||
| 153 | CASTING MOLD AND CAST ARTICLE PRODUCED USING THE SAME | PCT/IB2013001697 | 2013-08-02 | WO2014024021A2 | 2014-02-13 | KOYAMA TOMOHIRO; OZAKI MOTOAKI; FURUKAWA YUCHI; SOTOZAKI SHUJI; WAKAI HIROAKI |
| A casting mold includes a carbon film with which at least a surface of the casting mold which forms a cavity is covered, and mold oil with which a surface of the carbon film is coated. In the casting mold, aluminum powder is added to the mold oil. | ||||||
| 154 | IMPROVED METHODS AND SYSTEMS FOR MANUFACTURE OF LAYERED THREE-DIMENSIONAL FORMS | PCT/IB2004002420 | 2004-06-14 | WO2004110719A3 | 2005-03-17 | EDERER INGO; HOECHSMANN RAINER |
| Improved Methods and Systems for the Manufacture of Layered Three-Dimensional Forms New methods and systems for manufacturing a three-dimensional form, comprising steps of providing a plurality of particulates; contacting the particulates with an activation agent; contacting particulates having the activation agent with a binder material that is activatable by the activation agent; at least partially hardening the binder for forming a layer of the three-dimensional form; and repeating these steps to form the remainder of the three-dimensional form. Following sequential application of all required layers and binder material to make the form, the unbound particles are appropriately removed (and optionally re-used), to result in the desired three-dimensional form. The invention also contemplates a novel method for preparing a form, where unbound particulates free of binder material are re-claimed. | ||||||
| 155 | CASTING MOLD SET | PCT/IB2012000848 | 2012-04-13 | WO2012140511A8 | 2013-08-15 | AOKI NORIMITSU |
| The mold set is constructed with a cope, a drag, cheeks, and a core. In a case where the mold set is closed before molten metal is fed, a first clearance between a first mold (cope) that is located above a casting shape forming part of the core and the casting shape forming part is smaller than a second clearance between an upper surface of a core print of the core and a second mold (cheek) that is opposed to the upper surface. | ||||||
| 156 | METHOD AND DEVICE FOR PRODUCING MOTOR VEHICLE CHASSIS PARTS | PCT/EP2011000291 | 2011-01-25 | WO2011098213A2 | 2011-08-18 | KOCH HUBERT; KLEINE ANDREAS; STARK ERHARD |
| The invention relates to a method and device for producing motor vehicle chassis parts which can be subjected to tensile stress, compressive stress and torsion and the mechanical strength of which can be adjusted over the respective cross-section, and which furthermore have high ductility and temperature stability and are made of an AlSiZnMg alloy by means of chill casting. | ||||||
| 157 | METHOD AND APPARATUS FOR MANUFACTURING TURBINE OR COMPRESSOR WHEELS | PCT/GB2006002378 | 2006-06-29 | WO2007010181A3 | 2007-08-16 | ZHU QIANG; JACKSON ANDREW PHILLIP |
| A method for forming a turbine or compressor wheel from a semi-solid material uses a die assembly that has an inner cartridge made up from a plurality of segments and an outer die. The semi-solid material is injected under pressure and high temperature into the die so that it flows into blade cavities defined between the segments of the cartridge. The cartridge is removed from the outer die and the segments are then separated to release the wheel. | ||||||
| 158 | 铸造用模具 | CN201020266790.5 | 2010-07-20 | CN201862760U | 2011-06-15 | 平野雅雄; 堀部喜学 |
| 本实用新型实现了流动性良好且分型性优异的铸造用模具。模具(10)在型腔面(11)具备无方向性地分散形成有形成为半球面状的多个第一凹痕的凹痕区域,并且第一凹痕(12)形成为:构成以由两个以上凹痕结合而成的结合凹痕(12b)的第一凹痕(12)的数量相对于第一凹痕(12)的总数的比例来定义的连通率为80%以上。由此,在凹痕区域(D)形成多个作为随机且无方向性的短流路发挥作用的结合凹痕(12b),提高了流动性。 | ||||||
| 159 | NOZZLE TIP | EP13858733.2 | 2013-11-14 | EP2934847B1 | 2018-07-11 | LOOIJE, Adrian, Peter; ARSAN, Sami, Samuel; PLUMPTON, James, Osborn |
| Disclosed herein, amongst other things, is a component of a molding system, and a related method for the manufacture thereof, that has a body with a support matrix defined in at least a portion thereof. | ||||||
| 160 | CASTING DEVICE AND CASTING METHOD | EP15883141 | 2015-02-24 | EP3263247A4 | 2018-05-16 | MINAMIGUCHI SATOSHI; OKAMURA GIICHIROU; TSUCHIYA SHINICHI; SEKIGUCHI HIROYUKI; SUGIYAMA YUUTA; SCHUBELER CARL |
| A casting device includes: a split mold for forming a cavity, including a lower mold, a middle mold that slides in a horizontal direction on the lower mold and an upper mold; a split case for forming a chamber, including a lower case to which the lower mold is attached and an upper case to which the upper mold is attached; a chamber suction device that reduces a pressure at least in the chamber through a chamber pipe that is connected to the chamber and extends to an outside of the chamber; and a cavity suction device that reduces a pressure in the cavity through a cavity pipe that is connected to the cavity and extends to the outside of the chamber. The cavity and the chamber are formed when the middle mold is closed on the lower mold and the split case is closed. | ||||||
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