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公开(公告)号:US09759380B2
公开(公告)日:2017-09-12
申请号:US14623472
申请日:2015-02-16
Applicant: Curtis Goad
Inventor: Curtis Goad
IPC: F17C3/12 , B65D90/04 , B29C65/72 , B29C65/56 , B29C65/42 , B29C65/48 , B29C65/54 , B29C65/00 , B29C63/30 , B65D90/08 , B29C65/52 , B29C63/48 , B29C63/02 , B29L31/00 , B29C47/00
CPC classification number: F17C3/12 , B29C47/0002 , B29C63/30 , B29C63/486 , B29C65/42 , B29C65/425 , B29C65/4815 , B29C65/525 , B29C65/54 , B29C65/562 , B29C65/72 , B29C66/1162 , B29C66/30341 , B29C66/4326 , B29C66/43421 , B29C66/43441 , B29C66/61 , B29C66/71 , B29C66/836 , B29C66/861 , B29C2063/021 , B29L2031/7126 , B65D90/04 , B65D90/042 , B65D90/08 , F17C2203/012 , F17C2203/0604 , Y10T29/49947 , Y10T29/4997 , B29K2027/06 , B29K2023/06 , B29K2023/12 , B29K2027/16
Abstract: Exemplary embodiments are disclosed of liners, linings, and liquid containment vessels including the same. Also disclosed are exemplary method of providing liners and linings for liquid containment vessels, such as process tanks, immersion tanks, containment pits, gravity feed conduits for transferring or conveying liquid, etc. In an exemplary embodiment, a liner or lining is anchored to at least one structural component by at least one extrusion weld and at least one mechanical fastener. The mechanical fastener is coupled to the structural component. The extrusion weld is coupled to the mechanical fastener. The liner or lining may be anchored to a wide range of structural components, such as a frame, a framework, a frame member, a tank, a wall, a support member, a reinforcing member, an outer shell, a substrate (e.g., concrete, etc.) or sidewalls defining a pit or a gravity feed conduit, combinations thereof, other structures or components, etc.
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公开(公告)号:US20170197346A1
公开(公告)日:2017-07-13
申请号:US15470304
申请日:2017-03-27
Applicant: The Boeing Company
Inventor: Weidong Song , Jeffrey H. Olberg , Jamie J. Langabeer
CPC classification number: B29C47/02 , B29C47/0002 , B29C47/0014 , B29C47/0016 , B29C47/0064 , B29C47/0083 , B29C47/026 , B29C47/0866 , B29C47/1045 , B29C47/366 , B29C47/767 , B29C47/786 , B29C47/822 , B29C47/92 , B29C65/02 , B29C66/112 , B29C66/1122 , B29C66/131 , B29C66/43441 , B29C66/474 , B29C66/496 , B29C66/524 , B29C66/5326 , B29C66/54 , B29C66/636 , B29C66/721 , B29C66/73754 , B29C70/00 , B29C2791/006 , B29C2947/92076 , B29C2947/92104 , B29C2947/92114 , B29C2947/92209 , B29C2947/92514 , B29C2947/92571 , B29C2947/926 , B29C2947/92609 , B29C2947/92704 , B29D99/0003 , B29K2105/106 , B29K2105/12 , B29K2105/16 , B29K2105/165 , B29L2031/3076 , B29L2031/3082 , B29L2031/3085 , B64C1/064 , B64C2001/0072 , Y02T50/43
Abstract: A thermoplastic composite structure is produced by extruding a bead of composite material to a desired cross sectional shape. An extruder extrudes the polymer bead containing reinforcing fibers, using a low compression first extruder stage where the polymer is mixed and de-gassed, and a high compression second stage where the polymer is consolidated and extruded. The cross sectional profile of the polymer bead may be altered using a variable extruder gate.
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公开(公告)号:US20170086388A1
公开(公告)日:2017-03-30
申请号:US15155640
申请日:2016-05-16
Applicant: Tommy M. Hess
Inventor: Tommy M. Hess
CPC classification number: A01G9/12 , B29C33/3857 , B29C33/405 , B29C65/562 , B29C65/564 , B29C66/1142 , B29C66/4344 , B29C66/43441 , B29C66/71 , B29C66/73921 , B29K2023/06 , B29K2821/00 , B29L2031/7004 , B29L2031/772
Abstract: A foldable trellis device in accordance with the present invention includes a predetermined trellis configuration having first and second symmetrical portions with substantially similar dimensions and design features. The foldable trellis device further includes pivoting connecting elements to pivotally connect the two portions to allow the two portions to “close” such that front surfaces of respective first and second portions become engaged, or to allow the first and second portions to manually positioned to vertically resist gusting winds. To increase the stability of the foldable trellis device when wind gusts are relatively strong and from varying directions, a stabilizing member is pivotally connected to the first and second portions to form a wind resistant configuration when taking a top elevation view of the foldable trellis device.
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公开(公告)号:US20170028606A1
公开(公告)日:2017-02-02
申请号:US14812223
申请日:2015-07-29
Applicant: The Boeing Company
Inventor: Weidong Song , Daniel J. Perron , Stephen G. Moore , Jamie J. Langabeer , Jonathan D. Robbins , Jeffrey Olberg
CPC classification number: B29C47/92 , B29C47/0002 , B29C47/0014 , B29C47/0016 , B29C47/0064 , B29C47/0083 , B29C47/026 , B29C47/0866 , B29C47/1045 , B29C47/366 , B29C47/767 , B29C47/786 , B29C47/822 , B29C65/02 , B29C66/112 , B29C66/1122 , B29C66/131 , B29C66/43441 , B29C66/474 , B29C66/496 , B29C66/524 , B29C66/5326 , B29C66/54 , B29C66/636 , B29C66/721 , B29C66/73754 , B29C2791/006 , B29C2947/92076 , B29C2947/92104 , B29C2947/92114 , B29C2947/92209 , B29C2947/92514 , B29C2947/92571 , B29C2947/926 , B29C2947/92609 , B29C2947/92704 , B29C2947/92904 , B29D99/0003 , B29K2105/12 , B29K2105/16 , B29K2105/165 , B29L2031/3076 , B29L2031/3082 , B29L2031/3085 , B64C1/064 , B64C2001/0072 , Y02T50/43
Abstract: A system for depositing a composite filler material into a channel of a composite structure includes an end-effector configured to extrude a bead of the filler material into the channel. The filler material can comprise a first group of relatively long fibers, a second group of relatively short fibers and a resin. A drive system is configured to move the end-effector relative to the channel, and a position sensor is configured to detect the position of the bead relative to the channel. A controller is configured to operate the drive system in response to the detected position and to operate the end-effector to heat and compress the filler material so as to orient the longer fibers in a substantially longitudinal direction relative to the channel and the shorter fibers in substantially random directions relative to the channel when the bead is extruded into the channel.
Abstract translation: 用于将复合填料材料沉积到复合结构的通道中的系统包括构造成将填料材料的珠挤出到通道中的末端执行器。 填充材料可以包括第一组相对长的纤维,第二组相对短的纤维和树脂。 驱动系统被配置为相对于通道移动末端执行器,并且位置传感器被配置为检测胎圈相对于通道的位置。 控制器被配置为响应于检测到的位置来操作驱动系统,并且操作末端执行器以加热和压缩填充材料,以便使长纤维在相对于通道和较短纤维的基本纵向方向上定向 当胎圈被挤压到通道中时相对于通道的基本随机的方向。
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5.发明申请公开(公告)号:US20160346995A1
公开(公告)日:2016-12-01
申请号:US14723355
申请日:2015-05-27
Applicant: The Boeing Company
Inventor: Geoffrey A. Butler , Robert Courdji
CPC classification number: B29C66/43441 , B29C65/483 , B29C65/5057 , B29C66/112 , B29C66/131 , B29C66/1312 , B29C66/342 , B29C66/343 , B29C66/496 , B29C66/524 , B29C66/532 , B29C66/61 , B29C66/71 , B29C66/721 , B29C66/7212 , B29C66/72141 , B29C66/73751 , B29C66/73752 , B29C66/73755 , B29C66/73941 , B29C66/81455 , B29C70/342 , B29K2063/00 , B29K2105/0872 , B29L2031/3082 , B29L2031/3085 , B29K2307/04 , B29K2309/08
Abstract: A method of reducing residual stress in a composite assembly may include assembling a first composite part to a second composite part to form a detail assembly. The first and second composite part may each have a flange and a web connected by a bend radius. The webs may be arranged back-to-back. The detail assembly may be cured on a compensated cure tool compensated for cure shrinkage spring-in predicted to occur in the first and second composite part. The method may include allowing the first and second composite part to spring in from cure shrinkage, and assembling the detail assembly to an uncured third composite. The method may also include co-bonding the detail assembly to the third composite part on an assembly cure tool to form a composite assembly having reduced cure shrinkage residual stress in the bend radii of the first and second composite part.
Abstract translation: 减少复合组件中的残余应力的方法可包括将第一复合部件组装到第二复合部件以形成细节组件。 第一和第二复合部件可以各自具有通过弯曲半径连接的凸缘和腹板。 腹板可以背对背地布置。 细节组件可以在补偿的固化收缩弹簧补偿的固化工具上固化,预测将发生在第一和第二复合部件中。 该方法可以包括允许第一和第二复合部件从固化收缩弹出,以及将细节组件组装到未固化的第三复合材料。 该方法还可以包括在组装固化工具上将细节组件共同粘合到第三复合部件,以形成具有减小的第一和第二复合部件的弯曲半径中的固化收缩残余应力的复合组件。
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Patent Agency Ranking
公开(公告)号:US09114568B2
公开(公告)日:2015-08-25
申请号:US13524792
申请日:2012-06-15
Applicant: Travis J. Sherwood , Brian G. Robins , Darrell D. Jones , Joseph D. Brennan , Michael R. Anderson
Inventor: Travis J. Sherwood , Brian G. Robins , Darrell D. Jones , Joseph D. Brennan , Michael R. Anderson
IPC: D01D5/16 , B29C47/88 , B29C45/14 , B29C65/00 , B05C17/01 , B29C47/00 , B29C47/54 , B29C65/78 , B29D99/00 , B64C1/06 , B64C1/12 , B64F5/00 , B29C65/52 , B29C47/92 , B05C17/00 , B05C17/005 , B29C35/02 , B29C47/82 , B29K105/06 , B29L31/30 , B29L31/00 , B64C1/00 , B29C65/48
CPC classification number: B29C66/43441 , B05C17/002 , B05C17/00513 , B05C17/00516 , B05C17/0052 , B05C17/00523 , B05C17/0103 , B29C35/02 , B29C47/0014 , B29C47/0016 , B29C47/54 , B29C47/786 , B29C47/82 , B29C47/822 , B29C47/884 , B29C47/92 , B29C65/483 , B29C65/524 , B29C65/525 , B29C65/7841 , B29C66/112 , B29C66/131 , B29C66/474 , B29C66/721 , B29C66/843 , B29C2947/92076 , B29C2947/92095 , B29C2947/92142 , B29C2947/92161 , B29C2947/922 , B29C2947/92409 , B29C2947/9258 , B29C2947/92695 , B29C2947/92704 , B29C2947/92952 , B29D99/0014 , B29K2105/06 , B29L2031/3082 , B29L2031/766 , B64C1/064 , B64C1/12 , B64C2001/0072 , B64F5/10 , Y02T50/43
Abstract: A structural filler is installed in a gap between at least first and second composite members by extruding a flowable filler material, placing the extruded filler on one of the composite structural members, and assembling the composite members.
Abstract translation: 通过挤出可流动的填充材料,将挤出的填料放置在复合结构构件之一上,并组装复合构件,将结构填料安装在至少第一和第二复合构件之间的间隙中。
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公开(公告)号:US20150159809A1
公开(公告)日:2015-06-11
申请号:US14623472
申请日:2015-02-16
Applicant: Curtis Goad
Inventor: Curtis Goad
CPC classification number: F17C3/12 , B29C47/0002 , B29C63/30 , B29C63/486 , B29C65/42 , B29C65/425 , B29C65/4815 , B29C65/525 , B29C65/54 , B29C65/562 , B29C65/72 , B29C66/1162 , B29C66/30341 , B29C66/4326 , B29C66/43421 , B29C66/43441 , B29C66/61 , B29C66/71 , B29C66/836 , B29C66/861 , B29C2063/021 , B29L2031/7126 , B65D90/04 , B65D90/042 , B65D90/08 , F17C2203/012 , F17C2203/0604 , Y10T29/49947 , Y10T29/4997 , B29K2027/06 , B29K2023/06 , B29K2023/12 , B29K2027/16
Abstract: Exemplary embodiments are disclosed of liners, linings, and liquid containment vessels including the same. Also disclosed are exemplary method of providing liners and linings for liquid containment vessels, such as process tanks, immersion tanks, containment pits, gravity feed conduits for transferring or conveying liquid, etc. In an exemplary embodiment, a liner or lining is anchored to at least one structural component by at least one extrusion weld and at least one mechanical fastener. The mechanical fastener is coupled to the structural component. The extrusion weld is coupled to the mechanical fastener. The liner or lining may be anchored to a wide range of structural components, such as a frame, a framework, a frame member, a tank, a wall, a support member, a reinforcing member, an outer shell, a substrate (e.g., concrete, etc.) or sidewalls defining a pit or a gravity feed conduit, combinations thereof, other structures or components, etc.
Abstract translation: 公开了包括其的衬垫,衬里和液体容纳容器的示例性实施例。 还公开了为液体容纳容器(例如处理罐,浸没池,容纳凹坑,用于输送或输送液体的重力进料管道)等提供衬里和衬里的示例性方法。在示例性实施例中,将衬垫或衬里锚固到 至少一个结构部件通过至少一个挤压焊缝和至少一个机械紧固件。 机械紧固件联接到结构部件。 挤压焊接件连接到机械紧固件。 衬里或衬里可以锚固到各种结构部件,例如框架,框架,框架构件,罐,壁,支撑构件,加强构件,外壳,衬底(例如, 混凝土等)或限定凹坑或重力进料导管的侧壁,其组合,其它结构或部件等
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公开(公告)号:US08985515B2
公开(公告)日:2015-03-24
申请号:US13641369
申请日:2010-12-28
Applicant: John R. McCullough , David Gordon Carlson , James Donn Hethcock , Paul K. Oldroyd , Carl A. May
Inventor: John R. McCullough , David Gordon Carlson , James Donn Hethcock , Paul K. Oldroyd , Carl A. May
IPC: B64C1/06 , B64C1/12 , B29C65/50 , B29D99/00 , F16B5/01 , B29C65/56 , B29C65/00 , B29L31/30 , B64C1/00
CPC classification number: B64C1/12 , B29C65/4835 , B29C65/5021 , B29C65/5057 , B29C65/5078 , B29C65/5085 , B29C65/562 , B29C66/1122 , B29C66/1142 , B29C66/1162 , B29C66/1282 , B29C66/12881 , B29C66/43441 , B29C66/721 , B29C66/72525 , B29C66/8416 , B29D99/001 , B29L2031/3076 , B64C1/06 , B64C2001/0072 , F16B5/01 , F16B5/12 , F16B17/00 , Y02T50/43 , Y10T29/49622 , Y10T403/70
Abstract: A structural joint includes a first member having a first base portion and a first leg portion. The structural joint further includes a second member having a second base portion and a second base portion. The first base portion and the second base portion are coupled together at an overlapping portion. The first leg portion and the second leg portion form a cavity for structurally coupling to a structural member.
Abstract translation: 结构接头包括具有第一基部和第一腿部的第一构件。 结构接头还包括具有第二基部和第二基部的第二构件。 第一基部和第二基部在重叠部分处连接在一起。 第一腿部分和第二腿部部分形成用于结构上结合到结构构件的空腔。
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公开(公告)号:US08844457B2
公开(公告)日:2014-09-30
申请号:US13386395
申请日:2010-06-28
Applicant: Fabio Buzzi
Inventor: Fabio Buzzi
IPC: B63B3/56 , B29C65/00 , B63B5/24 , B29C65/56 , B63B9/06 , B29C65/54 , F16B11/00 , B63B29/02 , E04B1/61 , B63B3/58 , B29C65/76 , B29L31/30
CPC classification number: B29C65/542 , B29C65/562 , B29C65/76 , B29C66/12441 , B29C66/43 , B29C66/43421 , B29C66/43441 , B29C66/52291 , B29C66/52297 , B29C66/5241 , B29C66/52431 , B29C66/52441 , B29C66/721 , B29C66/7212 , B29C66/723 , B29L2031/3067 , B63B3/58 , B63B5/24 , B63B9/06 , B63B29/02 , B63B2221/00 , B63B2221/10 , E04B1/6108 , F16B11/006 , B29K2309/08
Abstract: Method for building boats comprising a plurality of panels (11, 12) attached at the bottom and at the side to a hull (13) and at the top to a deck (14) suitable for defining a plurality of watertight compartments in the underdeck area, the method comprising the steps of attaching together the panels (11, 12) according to predetermined angles through fitting elements (20, 20′, 20″) of the type provided with at least two pathways for receiving the panels (11, 12), mutually arranged according to predetermined angles, and a pathway for receiving adhesive from outside and for distributing it in the pathways for receiving the panels (11, 12), anchoring the panels (11, 12) to the deck (14) and to the sides (13′) of the hull (13).
Abstract translation: 一种用于建造船的方法,包括在底部和侧面附接到船体(13)并且在顶部附接到甲板(14)的多个板(11,12),适于在底板区域中限定多个水密隔室 该方法包括以下步骤:通过具有用于接收面板(11,12)的至少两个路径的类型的装配元件(20,20',20“)将预定角度的面板(11,12)连接在一起, ,并且用于从外部接收粘合剂并用于将其分配在用于接收面板(11,12)的路径中,将面板(11,12)锚定到甲板(14)上并且与其相连的路径 船体(13)的侧面(13')。
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公开(公告)号:US08790486B2
公开(公告)日:2014-07-29
申请号:US12319601
申请日:2009-01-09
Applicant: Meng Hou , Andrew Beehag , Qiang Yuan
Inventor: Meng Hou , Andrew Beehag , Qiang Yuan
CPC classification number: C08J5/12 , B29C65/006 , B29C65/02 , B29C65/18 , B29C65/4815 , B29C65/5057 , B29C66/0342 , B29C66/112 , B29C66/1122 , B29C66/131 , B29C66/341 , B29C66/43441 , B29C66/474 , B29C66/524 , B29C66/71 , B29C66/712 , B29C66/721 , B29C66/7212 , B29C66/72141 , B29C66/7254 , B29C66/73115 , B29C66/73117 , B29C66/73751 , B29C66/73771 , B29C66/73773 , B29C66/73775 , B29C66/73793 , B29C66/7392 , B29C66/7394 , B29C66/73941 , B29C66/91933 , B29C66/91945 , Y10T428/24 , Y10T428/31909 , B29K2307/04 , B29K2309/08 , B29K2063/00 , B29K2027/16
Abstract: A process for bonding a semi-crystalline or crystalline thermoplastic polymer to a thermosetting polymer component, the process including selecting compatible semi-crystalline thermoplastic polymer and uncured thermosetting polymer components wherein the curing temperature of the uncured thermosetting polymer components is above the melting temperature of the semi-crystalline thermoplastic polymer. The process includes locating the thermoplastic polymer in contact with the uncured thermosetting polymer component and heating the thermoplastic polymer and uncured thermosetting polymer or thermosetting polymer composite component to the curing temperature of the thermosetting polymer components and the thermoplastic polymer are able to at least partly interpenetrate before the thermosetting polymer cures. The thermoplastic polymer and cured thermosetting polymer component are then cooled such that the thermoplastic polymer is very strongly bonded to the cured thermosetting polymer component.
Abstract translation: 一种将半结晶或结晶热塑性聚合物结合到热固性聚合物组分的方法,该方法包括选择相容的半结晶热塑性聚合物和未固化的热固性聚合物组分,其中未固化的热固性聚合物组分的固化温度高于 半结晶热塑性聚合物。 该方法包括将热塑性聚合物定位为与未固化的热固性聚合物组分接触并将热塑性聚合物和未固化的热固性聚合物或热固性聚合物复合组分加热至热固性聚合物组分的固化温度,并且热塑性聚合物能够在 热固性聚合物固化。 然后将热塑性聚合物和固化的热固性聚合物组分冷却,使得热塑性聚合物非常牢固地结合到固化的热固性聚合物组分上。
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