公开(公告)号：US08883070B2

公开(公告)日：2014-11-11

申请号：US12928354

申请日：2010-12-08

Applicant: Eric W. Reeves ,  Jason D. Hymas ,  John Steven Tingey

Inventor： Eric W. Reeves ,  Jason D. Hymas ,  John Steven Tingey

IPC: C21B7/04 ,  C21B7/16 ,  C21B7/14 ,  B22D11/103 ,  F27D3/14 ,  C21C5/52 ,  B22D35/04

CPC classification number: C21B7/14 ,  B22D11/103 ,  B22D35/04 ,  C21C5/5294 ,  F27D3/14 ,  Y02P10/216

Abstract: Exemplary embodiments of the invention provide a molten metal containment structure including a refractory molten metal containment vessel having an external surface, and a metal casing for the vessel having an internal surface at least partially surrounding the external surface of the vessel at a distance therefrom forming a spacing between the vessel and the casing. The spacing includes an unobstructed upwardly extending gap that is vented to the exterior of the structure by upper and lower openings in the casing. A layer of insulating material is preferably positioned in the spacing between the internal surface of the casing and the external surface of the vessel, with the layer of insulating material being narrower than the spacing at least at upwardly extending sides of the casing, thereby forming the unobstructed gap. The vessel may be a metal conveying trough, a housing for a metal filter, a container for a metal degasser unit, a crucible, or the like.

Abstract translation: 本发明的示例性实施例提供了一种熔融金属容纳结构，其包括具有外表面的难熔熔融金属容纳容器和用于该容器的金属外壳，其具有至少部分围绕该容器的外表面的内表面，该内表面距离形成一个 容器和套管之间的间距。 该间隔包括通畅的向上延伸的间隙，其通过壳体中的上部开口和下部开口排放到结构的外部。 绝缘材料层优选地定位在壳体的内表面和容器的外表面之间的间隔中，绝缘材料层至少在壳体的至少在向上延伸的侧面处的间隔窄，从而形成 畅通无阻 容器可以是金属输送槽，用于金属过滤器的壳体，用于金属脱气装置的容器，坩埚等。

公开(公告)号：US08312915B2

公开(公告)日：2012-11-20

申请号：US12807739

申请日：2010-09-13

Applicant: Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

Inventor： Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

IPC: B22D11/00

CPC classification number: B22D11/103 ,  B22D11/007 ,  Y10T428/12222 ,  Y10T428/12451 ,  Y10T428/12472 ,  Y10T428/12493 ,  Y10T428/12736 ,  Y10T428/12764 ,  Y10T428/26 ,  Y10T428/264

Abstract: An apparatus is described for the casting of a composite metal ingot having two or more separately formed layers of one or more alloys. An open ended annular mould is provided having a divider wall dividing a feed end of the mould into at least two separate feed chambers. For each pair of adjacent feed chambers, a first alloy stream is fed through one of the pair of feed chambers into the mould and a second alloy stream is fed through another of the feed chambers. A self-supporting surface is generated on the surface of the first alloy stream and the second alloy stream is contacted with the first stream. By carefully selecting conditions and positions where the alloy streams meet, a composite metal ingot is formed in which the alloy layers are mutually attached with a substantially continuous metallurgical bond.

Abstract translation: 描述了一种用于铸造具有两个或多个单独形成的一种或多种合金层的复合金属锭的装置。 提供了一种开口的环形模具，其具有将模具的进给端分成至少两个分开的进料室的分隔壁。 对于每对相邻的进料室，第一合金流通过一对进料室中的一个进料到模具中，并且第二合金流通过另一个进料室进料。 在第一合金流的表面上产生自支撑表面，并且第二合金流与第一流接触。 通过仔细选择合金流相遇的条件和位置，形成复合金属锭，其中合金层以基本上连续的冶金结合相互连接。

公开(公告)号：US20110005704A1

公开(公告)日：2011-01-13

申请号：US12807739

申请日：2010-09-13

Applicant: Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

Inventor： Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

IPC: B22D9/00

CPC classification number: B22D11/103 ,  B22D11/007 ,  Y10T428/12222 ,  Y10T428/12451 ,  Y10T428/12472 ,  Y10T428/12493 ,  Y10T428/12736 ,  Y10T428/12764 ,  Y10T428/26 ,  Y10T428/264

Abstract: A method and apparatus are described for the casting of a composite metal ingot having two or more separately formed layers of one or more alloys. An open ended annular mould is provided having a divider wall dividing a feed end of the mould into at least two separate feed chambers. For each pair of adjacent feed chambers, a first alloy stream is fed through one of the pair of feed chambers into the mould and a second alloy stream is fed through another of the feed chambers. A self-supporting surface is generated on the surface of the first alloy stream and the second alloy stream is contacted with the first stream. By carefully selecting conditions and positions where the alloy streams meet, a composite metal ingot is formed in which the alloy layers are mutually attached with a substantially continuous metallurgical bond.

公开(公告)号：US5070550A

公开(公告)日：1991-12-10

申请号：US465368

申请日：1990-01-16

Applicant: Eric W. Reeves

Inventor： Eric W. Reeves

IPC: A47K3/30

CPC classification number: A47K3/30

Abstract: An improved closure for use in a space at the upper portion of a stall area for a bath, shower, spa or the like, to provide an humidity and heat barrier. A foldable thin sheet of material is supported by a framework mounted in the upper portion of the stall area. The framework is designed to be supported in the upper portion of the stall by urging against or securing to two opposing walls. A highly flexible material, such as a thin vinyl sheet or a fabric sheet, is chosen for the foldable sheet. The flexible sheet is supported by the framework in an inverted V-shaped arrangement.

Abstract translation: 用于浴缸，淋浴器，温泉等的停放区域的上部的空间中的改进的闭合件，以提供湿气和隔热屏障。 可折叠的薄片材料由安装在失速区域的上部的框架支撑。 该框架设计为通过推动或固定在两个相对的墙壁上而在摊位的上部支撑。 为可折叠片选择高度柔性的材料，例如薄的乙烯基片或织物片。 柔性片由框架以倒V形布置支撑。

公开(公告)号：US08945465B2

公开(公告)日：2015-02-03

申请号：US12928355

申请日：2010-12-08

Applicant: Eric W. Reeves ,  James E. Boorman ,  Jason D. Hymas ,  Robert Bruce Wagstaff ,  Randy Womack

Inventor： Eric W. Reeves ,  James E. Boorman ,  Jason D. Hymas ,  Robert Bruce Wagstaff ,  Randy Womack

IPC: C21B3/00 ,  B22D41/00 ,  F27D1/00 ,  F27D1/14 ,  C21B7/14

CPC classification number: B22D41/00 ,  C21B7/14 ,  F27D1/0023 ,  F27D1/0026 ,  F27D1/145 ,  Y10T74/2142

Abstract: Exemplary embodiments of the invention relate to a compressive rod assembly for applying force to a refractory vessel positioned within an outer metal casing. The assembly includes a rigid elongated rod having first and second opposed ends, a threaded bolt adjacent to the first opposed end of the elongated rod, and a compressive structure positioned operationally between the elongated rod and the bolt. Compressive force applied by the bolt to the elongated rod passes through the compressive structure which allows limited longitudinal movements of the elongated rod to be accommodated by the compressive structure without requiring corresponding longitudinal movements of the bolt. Exemplary embodiments also relate to rod structure forming a component of the assembly, and to a metal containment structure having a vessel supported and compressed by at least one such assembly.

Abstract translation: 本发明的示例性实施例涉及一种用于向位于外部金属外壳内的耐火容器施加力的压缩杆组件。 组件包括具有第一和第二相对端的刚性细长杆，与细长杆的第一相对端相邻的螺栓，以及可操作地定位在细长杆和螺栓之间的压缩结构。 通过螺栓施加到细长杆的压缩力通过压缩结构，其允许细长杆的有限纵向运动由压缩结构容纳，而不需要螺栓的相应纵向运动。 示例性实施例还涉及形成组件的部件的杆结构以及具有由至少一个这种组件支撑和压缩的容器的金属容纳结构。

公开(公告)号：US08415025B2

公开(公告)日：2013-04-09

申请号：US12807740

申请日：2010-09-13

Applicant: Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

Inventor： Mark Douglas Anderson ,  Kenneth Takeo Kubo ,  Todd F. Bischoff ,  Wayne J. Fenton ,  Eric W. Reeves ,  Brent Spendlove ,  Robert Bruce Wagstaff

IPC: B32B15/01 ,  B32B15/04 ,  B32B15/20

CPC classification number: B22D11/103 ,  B22D11/007 ,  Y10T428/12222 ,  Y10T428/12451 ,  Y10T428/12472 ,  Y10T428/12493 ,  Y10T428/12736 ,  Y10T428/12764 ,  Y10T428/26 ,  Y10T428/264

Abstract: A composite metal ingot having two or more lengthwise alloy layers including adjacent first and second layers respectively formed of an aluminum-manganese alloy and an aluminum alloy of a different composition wherein the interface between the first and second layers is in the form of a substantially continuous metallurgical bond characterized by the presence of particles of one or more intermetallic compositions containing manganese from the first layer dispersed within a region of the second layer adjacent the interface, the first and second layers having been formed by applying the alloy for the second layer to a self-supporting surface of the first layer while the self-supporting surface is at a temperature between the solidus and liquidus temperatures of the first layer alloy.

Abstract translation: 一种具有两个或更多个长度合金层的复合金属锭，包括分别由铝 - 锰合金和不同组成的铝合金形成的相邻的第一和第二层，其中第一和第二层之间的界面呈基本连续的形式 冶金结合的特征在于，含有一种或多种含有锰的颗粒的颗粒从第一层分散在邻近界面的第二层的区域内，第一层和第二层通过将第二层的合金施加到 第一层的自支撑表面，而自支撑表面处于第一层合金的固相和液相线温度之间的温度。

公开(公告)号：US08096344B2

公开(公告)日：2012-01-17

申请号：US12462224

申请日：2009-07-30

Applicant: Robert Bruce Wagstaff ,  Eric W. Reeves ,  Wayne J. Fenton ,  Jim Boorman

Inventor： Robert Bruce Wagstaff ,  Eric W. Reeves ,  Wayne J. Fenton ,  Jim Boorman

IPC: B22D11/00 ,  B22D11/049 ,  B22D11/124

CPC classification number: B22D11/007 ,  B22D7/02 ,  B22D9/003

Abstract: A method and apparatus are disclosed for sequentially direct chill casting a composite ingot made of metals having similar freezing ranges. Poor adhesion between the layers and low reliability of casting are addressed by adjusting the position of secondary cooling (created by applying water streams to the emerging ingot) relative to the upper surfaces of the molten metal pools compared to the conventional positions of first application of the secondary cooling. This can be achieved by moving one or more walls of the mold (when the secondary cooling emanates from the bottom of such walls), or adjusting the height of the molten metal pools within the mold and moving cooled divider walls between the pools. The relative temperatures and conditions of the metals at positions where they meet at the metal interface may therefore be optimized.

Abstract translation: 公开了一种方法和装置，用于顺序地直接冷却铸造由具有相似冷冻范围的金属制成的复合锭。 通过调节相对于熔融金属池的上表面的二次冷却（通过施加水流到出现的铸锭产生的）的位置，与第一次施加 二次冷却。 这可以通过移动模具的一个或多个壁（当二次冷却从这种壁的底部发出时）移动，或者调整模具内的熔融金属池的高度并且在池之间移动冷却的分隔壁。 因此，可以优化金属在金属界面处相遇的位置的相对温度和条件。

公开(公告)号：US20110140318A1

公开(公告)日：2011-06-16

申请号：US12928354

申请日：2010-12-08

Applicant: Eric W. Reeves ,  Jason D. Hymas ,  John Steven Tingey

Inventor： Eric W. Reeves ,  Jason D. Hymas ,  John Steven Tingey

IPC: C21B7/04 ,  C21B7/16

CPC classification number: C21B7/14 ,  B22D11/103 ,  B22D35/04 ,  C21C5/5294 ,  F27D3/14 ,  Y02P10/216

Abstract: Exemplary embodiments of the invention provide a molten metal containment structure including a refractory molten metal containment vessel having an external surface, and a metal casing for the vessel having an internal surface at least partially surrounding the external surface of the vessel at a distance therefrom forming a spacing between the vessel and the casing. The spacing includes an unobstructed upwardly extending gap that is vented to the exterior of the structure by upper and lower openings in the casing. A layer of insulating material is preferably positioned in the spacing between the internal surface of the casing and the external surface of the vessel, with the layer of insulating material being narrower than the spacing at least at upwardly extending sides of the casing, thereby forming the unobstructed gap. The vessel may be a metal conveying trough, a housing for a metal filter, a container for a metal degasser unit, a crucible, or the like.

Abstract translation: 本发明的示例性实施例提供了一种熔融金属容纳结构，其包括具有外表面的难熔熔融金属容纳容器和用于该容器的金属外壳，其具有至少部分围绕该容器的外表面的内表面，该内表面距离形成一个 容器和套管之间的间距。 该间隔包括通畅的向上延伸的间隙，其通过壳体中的上部开口和下部开口排放到结构的外部。 绝缘材料层优选地定位在壳体的内表面和容器的外表面之间的间隔中，绝缘材料层至少在壳体的至少在向上延伸的侧面处的间隔窄，从而形成 畅通无阻 容器可以是金属输送槽，用于金属过滤器的壳体，用于金属脱气装置的容器，坩埚等。

公开(公告)号：US20110139797A1

公开(公告)日：2011-06-16

申请号：US12928356

申请日：2010-12-08

Applicant: Eric W. Reeves ,  James E. Boorman ,  Richard Scott Bruski

Inventor： Eric W. Reeves ,  James E. Boorman ,  Richard Scott Bruski

IPC: B65D8/04 ,  C04B28/24

CPC classification number: F27D3/14 ,  B22D11/103 ,  B22D35/04 ,  B28B1/08 ,  B28B1/14 ,  B28B23/02 ,  C04B35/117 ,  C04B35/18 ,  C04B35/565 ,  C04B35/62218 ,  C04B35/62625 ,  C04B35/6316 ,  C04B35/76 ,  C04B2235/3873 ,  C04B2235/5216 ,  C04B2235/5252 ,  C04B2235/5256 ,  C04B2235/5264 ,  C04B2235/6027 ,  C04B2235/616 ,  C04B2235/9676 ,  C21B7/14 ,  C21C5/5247 ,  Y02P10/216

Abstract: Exemplary embodiments of the invention provide a vessel for containing or conveying molten metal therein. At least part of the outer surface of the vessel incorporates a web of metal wires embedded in the surface, the wires being mutually overlaid with openings formed therebetween. The refractory material penetrates into the openings. The web may comprise woven metal wires or non-woven wires or both. The web imparts resistance to cracking (or containment of cracks, once formed) and/or resistance to molten metal leakage if cracks develop. The invention also provides metal containment structures containing such vessels, and methods of producing the same.

Abstract translation: 本发明的示例性实施例提供了用于在其中容纳或输送熔融金属的容器。 容器的外表面的至少一部分包括嵌入在表面中的金属丝网，电线被相互覆盖，其间形成有开口。 耐火材料渗入开口。 网可以包括编织金属线或无纺布线或两者。 网络赋予开裂抗裂性（或一旦形成时容纳裂纹）和/或如果裂纹发展则抵抗熔融金属泄漏。 本发明还提供了含有这种容器的金属容纳结构及其制造方法。

公开(公告)号：US09375784B2

公开(公告)日：2016-06-28

申请号：US12928353

申请日：2010-12-08

Applicant: James E. Boorman ,  Eric W. Reeves ,  Robert Bruce Wagstaff ,  Randy Womack

Inventor： James E. Boorman ,  Eric W. Reeves ,  Robert Bruce Wagstaff ,  Randy Womack

IPC: B22D35/04 ,  B22D11/103 ,  C21B7/06 ,  C21C5/44 ,  F27D3/14 ,  F27D99/00

CPC classification number: B22D41/502 ,  B22D11/103 ,  B22D35/00 ,  B22D35/04 ,  C21B7/06 ,  C21C5/44 ,  F27D3/14 ,  F27D99/0073 ,  Y10T156/1089

Abstract: An exemplary embodiment of the invention provides a method of preparing a reinforced refractory joint between refractory sections of a vessel used for containing or conveying molten metal, e.g. a metal-contacting trough. The method involves introducing a mesh body made of metal wires into a gap between metal-contacting surfaces of adjacent refractory sections of a vessel so that the mesh body is positioned beneath the metal conveying surfaces, and covering the mesh body with a layer of moldable refractory material to seal the gap between the metal-contacting surfaces. Other embodiments relate to a vessel formed by the method and a vessel section with a pre-positioned mesh body suitable for preparing a sealed joint with other such sections.

Abstract translation: 本发明的一个示例性实施例提供了一种在用于容纳或输送熔融金属的容器的耐火部分之间制备增强的耐火接头的方法，例如， 金属接触槽。 该方法包括将由金属线制成的网状体引入到容器的相邻耐火部分的金属接触表面之间的间隙中，使得网状体位于金属输送表面下方，并用一层可模制耐火材料覆盖网状体 材料以密封金属接触表面之间的间隙。 其他实施方案涉及通过该方法形成的容器和容器部分，其具有预定位的网状体，其适于制备与其它这样的部分的密封接头。