| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Composite structures having integrated stiffeners with smooth runouts and method of making the same | US14141433 | 2013-12-27 | US09440402B2 | 2016-09-13 | David A. Pook; Peter J. Lockett; Andrew K. Glynn |
| A unitized composite structure comprises a composite member having at least one integrally formed composite stiffener. At least one end of the stiffener includes a runout forming a substantially smooth transition between the stiffener and the composite structure. | ||||||
| 82 | METHOD FOR THE MANUFACTURE OF FIBROUS YARN | US15045286 | 2016-02-17 | US20160160399A1 | 2016-06-09 | Juha SALMELA; Harri KIISKINEN; Antti OKSANEN |
| Disclosed is a method for the manufacture of fibrous yarn including the steps, where an aqueous suspension including fibers and at least one rheology modifier is provided, followed by directing the suspension through at least one nozzle, to form at least one yarn, and then dewatering the yarn. | ||||||
| 83 | Bondline embedded current sensor | US14337095 | 2014-07-21 | US09267906B2 | 2016-02-23 | Carol E. Anway; Andrew M. Robb; Jeong-Beom Ihn |
| A system for monitoring electrical current passing through a cured bondline may include a current sensor network embedded in an adhesive layer of the cured bondline. The current sensor network may include a plurality of inductive coils and a plurality of current sensor nodes electrically interconnecting the inductive coils to form a plurality of current sensor loops generating induced current in response to a magnetic field associated with an electrical current passing through the adhesive layer. The current sensor nodes may generate current signals representative of the induced current. The current sensor network may include a digital data communications network located external to the cured bondline and receiving the current signals from the current sensor nodes and detecting and monitoring electrical current passing through the cured bondline based on the current signals. | ||||||
| 84 | Method of producing a composite structure via intermediate products, the related apparatus and a composite structure obtainable by the method | US12733449 | 2008-08-22 | US09221219B2 | 2015-12-29 | Henrik Frederiksen |
| A method of producing a composite structure comprising fiber reinforced material and having a longitudinal direction is described. The method comprises the following steps: a) manufacturing a first structure comprising a first cured composite part having a first thickness and a longitudinal direction with a first end, and a number of first fiber layers extending from the first end, b) manufacturing a second structure comprising a second cured composite part having a second thickness and a longitudinal direction with a second end, and a number of second fiber layers extending from the second end, and c) arranging the first structure and the second structure so that the first end faces towards the second end, and arranging the first fiber layers and the second fiber layers so that at least a part of the first fiber layers overlap at least a part of the second fiber layers in the longitudinal direction, d) supplying liquid resin in order to impregnate the first fiber layers and the second fiber layers, and e) curing the liquid resin in order to form the composite structure comprising the first cured composite part, the second cured composite part, and an intermediate composite part including the first fiber layers and the second fiber layers. | ||||||
| 85 | Container Lid with Plastic Ring and Method of Manufacture | US14457796 | 2014-08-12 | US20150048089A1 | 2015-02-19 | Ronald D. Robertson |
| A container lid is provided having a paperboard dome-shaped central cover portion, a generally flat and horizontal peripheral lid rim extending outwardly around at least part of the cover portion, and a plastic ring circumscribing at least part of the lid rim. The plastic ring includes a horizontal flange and a skirt depending downwardly therefrom. The plastic ring's flange may be semi-permanently attached to the lid rim and may be optionally secured thereto by an adhesive, a polymeric film or a heat seal coating. The plastic ring may be injection molded directly onto the lid rim. A bond formed between the plastic ring's flange and the lid rim may be adapted to be broken by a user such that the plastic ring can be separated from the lid rim upon disposal thereby allowing the paperboard portions of the lid to be discarded separately from the plastic ring. | ||||||
| 86 | MOLD, METHOD FOR MANUFACTURING MOLDED FOAM BODY, AND MOLDED FOAM BODY | US14378046 | 2013-02-06 | US20150001754A1 | 2015-01-01 | Hiroyuki Kuroki; Teruo Iwai; Taisuke Yonezawa |
| A mold that: makes it possible to manufacture a molded foam body wherein a reinforcing member extends to a portion of an outer face of the molded body main body that corresponds to a parting line in the inner face of the cavity of the mold; and prevents molding problems stemming from the reinforcing member getting into the aforementioned parting line. Also: a method for manufacturing a molded foam body using the aforementioned mold; and a molded foam body manufactured thereby. A recessed step portion (6) that faces the cavity (4) of the aforementioned mold (1) is provided in the mating face (3a) of at least one part (3) of said mold (1), at at least a portion of the parting line (P) (formed in the inner face of the cavity (4)) adjacent to which the reinforcing member (22) is disposed. Said recessed step portion (6) is designed such that if the reinforcing member (22) gets in between the mating faces (2a, 3a) at the parting line (P) when the mold is fastened, said reinforcing member (22) can escape into the recessed step portion (6). | ||||||
| 87 | Composite structures having integrated stiffeners with smooth runouts and method of making the same | US13012162 | 2011-01-24 | US08636252B2 | 2014-01-28 | David A. Pook; Peter J. Lockett; Andrew Glynn |
| A unitized composite structure comprises a composite member having at least one integrally formed composite stiffener. At least one end of the stiffener includes a runout forming a substantially smooth transition between the stiffener and the composite structure. The stiffener and runout may comprise a crown, side walls, and base cap. The transition in the runout may include a width of the crown increasing, a height of the side walls decreasing, and the base cap splaying outwardly. | ||||||
| 88 | APPARATUS FOR JOINING TIRE CONSTITUENT MEMBER AND METHOD FOR MANUFACTURING TIRE CONSTITUENT MEMBER | US13811831 | 2011-07-20 | US20130168008A1 | 2013-07-04 | Yuichiro Ogawa; Masaru Suzuki |
| When end portions of a tire constituent member are to be brought into contact with each other and joined together, the end portions to be joined together are prevented from being caught by a pair of joining rollers. The end portions of the tire constituent member are arranged opposite to each other. The pair of joining rollers is made to roll on the end portions of the tire constituent member and the end portions are brought into contact with each other and joined together by the joining rollers. An entanglement preventing member is moved together with the pair of joining rollers and the end portions of the tire constituent member in front of the joining rollers. The end portions of the tire constituent member are pressed by the entanglement preventing member, and entanglement of the end portions is prevented. | ||||||
| 89 | Connection between composites with non-compatible properties and method for preparation | US12397750 | 2009-03-04 | US08409396B2 | 2013-04-02 | Anton Bech; Frank A. Hoelgaard Hahn |
| A connection between composites with non-compatible properties and a method of preparing of such connections are provided. The composites comprise first and second type fibers, respectively, as well as resin. The connection comprises a transition zone between the composites having a layered structure. The transition zone may optionally comprise a transition member and the transition member may optionally be integrated with one or more of the composites. Examples of non-compatible properties where the present connection will be appreciated are great differences in stiffness, e.g. Young's modulus, or in coefficient of thermal expansion. | ||||||
| 90 | METHOD OF MAKING A SMOOTH ELASTIC NONWOVEN COMPOSITE | US13079412 | 2011-04-04 | US20120251771A1 | 2012-10-04 | Lenox Wilson; Marcus Amendola; Jeffrey Krueger; Matthew Lake; Ann McCormack |
| A method making an elastic nonwoven composite that contains an elastic film laminated to one or more nonwoven web materials is provided. The method includes forming an elastic film from a polymer composition and passing the film and a nonwoven web material, the nonwoven material having a basis weight from about 5 gsm to about 30 gsm, through a nip formed by at least one patterned roll. The patterned roll includes raised bonding elements repeating in the machine direction, the elements being spaced in the machine direction by less than about 760 micrometers. At the nip, the film and the nonwoven web material are concurrently melt fused while the film is under tension at a stretch ratio of about 1.5 or more in the machine direction. | ||||||
| 91 | METHOD OF PRODUCING A COMPOSITE STRUCTURE VIA INTERMEDIATE PRODUCTS, THE RELATED APPARATUS AND A COMPOSITE STRUCTURE OBTAINABLE BY THE METHOD | US12733449 | 2008-08-22 | US20100304170A1 | 2010-12-02 | Henrik Frederiksen |
| A method of producing a composite structure comprising fibre reinforced material and having a longitudinal direction is described. The method comprises the following steps: a) manufacturing a first structure comprising a first cured composite part having a first thickness and a longitudinal direction with a first end, and a number of first fibre layers extending from the first end, b) manufacturing a second structure comprising a second cured composite part having a second thickness and a longitudinal direction with a second end, and a number of second fibre layers extending from the second end, and c) arranging the first structure and the second structure so that the first end faces towards the second end, and arranging the first fibre layers and the second fibre layers so that at least a part of the first fibre layers overlap at least a part of the second fibre layers in the longitudinal direction, d) supplying liquid resin in order to impregnate the first fibre layers and the second fibre layers, and e) curing the liquid resin in order to form the composite structure comprising the first cured composite part, the second cured composite part, and an intermediate composite part including the first fibre layers and the second fibre layers. | ||||||
| 92 | Method for manufacturing pipe-lining material | US12657145 | 2010-01-14 | US20100175818A1 | 2010-07-15 | Takao Kamiyama; Koji Kaneta; Kenji Fujii; Masao Ueno |
| A method is proposed for manufacturing a pipe-lining material comprising a tubular resin absorbent material covered with a tube comprised of an airtight plastic film. The tubular resin absorbent material is inserted into the tube, expanded in a columnar shape, and brought into close contact with the internal peripheral surface of the tube. A heater is wound in close contact with the external peripheral surface of the tube thus expanded. The tube and the tubular resin absorbent material are heated by energizing the heater, and the tube is thereby heat-fused to the tubular resin absorbent material. With such a method, a mechanism for moving the tube and the tubular resin absorbent material is not required. In addition, since heat non-uniformities are not generated, the tube can be uniformly heat-fused to the tubular resin absorbent material, thereby enabling a high-quality pipe-lining material to be manufactured. | ||||||
| 93 | CONNECTION BETWEEN COMPOSITES WITH NON-COMPATIBLE PROPERTIES AND METHOD FOR PREPARATION | US12397750 | 2009-03-04 | US20090242119A1 | 2009-10-01 | Anton BECH; Frank A. Hoelgaard HAHN |
| A connection between composites with non-compatible properties and a method of preparing of such connections are provided. The composites comprise first and second type fibres, respectively, as well as resin. The connection comprises a transition zone between the composites having a layered structure. The transition zone may optionally comprise a transition member and the transition member may optionally be integrated with one or more of the composites. Examples of non-compatible properties where the present connection will be appreciated are great differences in stiffness, e.g. Young's modulus, or in coefficient of thermal expansion. | ||||||
| 94 | Plastic molded part and construction structure | US09269496 | 1999-03-29 | US06299246B1 | 2001-10-09 | Ivan Tomka |
| The plastic moulding and design structure has a load-bearing structure (3), which is wholly or partly surrounded by a polymer material (8) forming the moulding. The load-bearing structure (3) is formed from several interconnected, high strength, continuous fibre-reinforced structural elements (5). Thus, in a simple and inexpensive manner it is possible to produce structures with the most varied shapes such as containers, tanks, vehicle frames, etc. | ||||||
| 95 | VERFAHREN ZUR HERSTELLUNG EINES LAGERELEMENTS SOWIE LAGERELEMENT | EP16184077.2 | 2016-08-12 | EP3135463A2 | 2017-03-01 | Martin, Ulrich; Kehr, Andreas; Spatzig, Wolfgang |
Verfahren zur Herstellung eines Lagerelements (1) umfassend die Bereitstellung eines zumindest ein erstes Elastomermaterial umfassenden Hauptkörpers (3), Bereitstellung zumindest eines zumindest einen ersten Faserverbundwerkstoff aufweisenden ersten Beschichtungselements (7) und Aufbringen des ersten Beschichtungselements (7) auf zumindest einen Bereich einer ersten Oberfläche (5) des Hauptkörpers (3), wobei der erste Faserverbundwerkstoff des ersten Beschichtungselements (7) vor dem Aufbringen auf den Hauptkörper zumindest teilweise und/oder zumindest bereichsweise ausgehärtet wird und mittels zumindest eines zumindest ein erstes Adhäsionsmaterial umfassenden ersten Verbindungselements (9) zumindest bereichsweise mit dem Hauptkörper (3) verbunden wird.
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| 96 | APPARATUS FOR JOINING TIRE CONSTITUENT MEMBER AND METHOD FOR MANUFACTURING TIRE CONSTITUENT MEMBER | EP11814453.4 | 2011-07-20 | EP2602100B1 | 2017-01-04 | OGAWA, Yuichiro; SUZUKI, Masaru |
| 97 | TIRE AND TIRE MANUFACTURING METHOD | EP12742004 | 2012-02-02 | EP2671732A4 | 2016-12-28 | KOUNO YOSHIHIDE; KON SEIJI; HASEGAWA KEIICHI |
| Simple manufacture for a tire in which color does not come off during running. A tire case 17 that is a carcass member of a tire 10 is injection formed from a colored first thermoplastic material containing colorant. A tire in which color does not come off during running can be manufactured simply. | ||||||
| 98 | VORRICHTUNG UND VERFAHREN ZUM ÜBERLAPPSPLEISSEN VON CORDBAND | EP13174568.9 | 2013-07-01 | EP2695837B1 | 2016-09-07 | Hoffmann, Bernd; Klenner, Ralf; Gesslein, Dietmar; Flieger, Walter |
| 99 | METHOD FOR JOINING AND DEVICE FOR JOINING RUBBER MEMBERS | EP12849841 | 2012-11-15 | EP2781339A4 | 2015-12-09 | YAMAMOTO HITOSHI |
| When overlapping and joining together end portions of a rubber member, it becomes possible to join them at a joining area smaller than a conventional one by increasing the joining area. There is provided a joining device for overlapping end portions (71), (72) of a rubber member (tire constituent member) (70) with one upper end portion (71) placing on the other lower end portion (72) and joining the end portions of the rubber member (70), in which a pressing roll (disk-shaped roll) (45) rotating about an inclined shaft is rolled while being pressed against the overlapped upper end portion (71) of the rubber member (70), and the upper end portion (71) is extended by a shearing force generated at this time to increase a joining area between the both end portions (71), (72). | ||||||
| 100 | Verfahren und Form zur Herstellung von Dichtplatten im Spritzguss sowie entsprechend hergestellte Dichtplatten | EP14184439.9 | 2014-09-11 | EP2853369A1 | 2015-04-01 | Spiegl, Bernhard; Janko, Marian |
Zur Herstellung von aus mehreren, über Radialstege (2) verbundenen Dichtringen (3) bestehenden Dichtplatten (1) im Spritzguss sind im Bereich von durch das Aufeinandertreffen der Fronten von geteilten Kunststoff-Schmelzeströmen gebildeten Bindenähten (15) wandartige Führungselemente (5) schräg zur Fließrichtung im dadurch vorerst weitestgehend eingeengten Formkanal (6) angeordnet, welche während der weiteren Befüllung des Formkanals (6) aus diesem herausbewegt werden, womit die Festigkeit im Bereich der Bindenähte (15) entscheidend verbessert wird.
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