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 |
|---|---|---|---|---|---|---|
| 341 | Integrally formed stiffener | EP14165204.0 | 2014-04-17 | EP2792436A3 | 2015-10-28 | Urban, Michael R. |
A method of integrally forming at least one stiffener onto a sheet metal component configured to carry a load is provided including generating a stereolithography file. The stereolithography file includes a surface geometry of the at least one stiffener extending from a surface of the sheet-metal component. The surface geometry of the stereolithography file is sliced into a plurality of thin strips. The plurality of thin strips is substantially parallel to the surface of the sheet metal component. Energy from an energy source is applied to a powdered material such that the powdered material fuses to form the plurality of thin strips. One of the plurality of thin strips is integrally formed with the surface of the sheet-metal component. Each of the plurality of thin strips is integrally formed with an adjacent thin strip to create at least one stiffener.
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| 342 | Integrally formed stiffener | EP14165204.0 | 2014-04-17 | EP2792436A2 | 2014-10-22 | Urban, Michael R. |
A method of integrally forming at least one stiffener onto a sheet metal component configured to carry a load is provided including generating a stereolithography file. The stereolithography file includes a surface geometry of the at least one stiffener extending from a surface of the sheet-metal component. The surface geometry of the stereolithography file is sliced into a plurality of thin strips. The plurality of thin strips is substantially parallel to the surface of the sheet metal component. Energy from an energy source is applied to a powdered material such that the powdered material fuses to form the plurality of thin strips. One of the plurality of thin strips is integrally formed with the surface of the sheet-metal component. Each of the plurality of thin strips is integrally formed with an adjacent thin strip to create at least one stiffener.
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| 343 | MONTAGEELEMENT | EP99952240.2 | 1999-07-31 | EP1046008A1 | 2000-10-25 | BENZ, Albrecht; WALTHER, Joerg; BUENNING, Torsten; RAHNFELD, Frank; KLEMD, Olaf |
| The invention relates to a mounting element (12, 12a, 12b) for fixing components, especially shaped rods, and to a cover (14, 14a, 14b) for covering said mounting element (12, 12a, 12b). Cavities (31, 39) are formed in the side segments (22, 36) of said mounting element (12, 12a, 12b) and/or cover (14, 14a, 14b), whereby it is possible to improve the ease of handling and/or to simplify alignment of said mounting element (12, 12a, 12b) and/or cover (14, 14a, 14b). | ||||||
| 344 | MULTIFUNKTIONALER KONSTRUKTIONSKÖRPER | EP95928932.0 | 1995-09-05 | EP0779961A1 | 1997-06-25 | Gachnang, Christoph |
| A multi-functional structural member defined in a bearing structure S as quantity Vj, in which a partial quantity Ajn of high-strength zones is linked to a deformable, load-transferring partial quantity Esj in such a way that the geometrical configuration quantity of the quantity Vj is clearly reversibly related to that of the surrounding structure (S-Vj), whereby this relationship can be influenced by a further partial quantity ELj also determining the configuration quantity of the partial quantity Esj. Thus for a given stress it is possible to minimise that component of the shape-altering energy caused by a relative distortion of partial structures of a structure S, whereby the reversibility of the selected links at the same time sets a precondition for also determining the deformation behaviour of a structure S. Functionalising the quantity Vj provides applications in building and general construction, air and space travel, control and regulation technology, micro-engineering, electronics, etc... for structures subject to high static and/or dynamic and/or deformation requirements. | ||||||
| 345 | Profilstab und dessen Verwendung | EP96101190.5 | 1996-01-29 | EP0724112A1 | 1996-07-31 | Köchli, Edgar |
Profilstab und dessen Verwendung. Die Profilwandungen bestehen aus Schenkeln (1,2,3,4,5,6), die eine polygonähnliche, im Minimum 360 grad umlaufende Spirale bilden. Der Profilstab (9) ist mit einem gleichen, um 180 grad um die Profillängsachse (A) gedrehten Profilstab (19) zusammensteckbar. Umläuft die Spirale 360 grad, entsteht ein Führungselement;umläuft sie mehr als 360 grad, entsteht ein Profilstab (9) mit parallelen, benachbarten Schenkeln (1,5;2,6,), zwischen welche im zusammengesteckten Zustand ein zu ihnen paralleler Schenkel (13;14) des weiteren Profilstabs (19) in der Art eines Schiebesitzes, was eine Führung ergibt, oder in der Art eines Pressitzes, was eine Verbindung ergibt, zu liegen kommt. Der Abstand benachbarter Schenkel ist im praktisch gleich der Wandstärke (s) der Schenkel, jedoch bei einem Schiebesitz etwas grösser als bei einem Presssitz. |
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| 346 | Montageelement | EP91110338.0 | 1991-06-22 | EP0469284A2 | 1992-02-05 | Ludwig, Peter; Berger, Johannes |
Es wird ein Montageelement mit mindestens einem an mindestens einer Fügefläche vorgesehenen Zentriermittel vorgeschlagen, bei dem das Zentriermittel ein aus der Fügefläche (10) herausragender Vorsprung (11) mit einer Sollbruchstelle (12) ist, wobei die Sollbruchstelle (12) in oder unterhalb der Ebene der Fügefläche (10) liegt. |
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| 347 | A BUILDING SYSTEM | PCT/GB8901233 | 1989-10-18 | WO9004688A3 | 1990-05-31 | SIHRA KIRPAL SINGH |
| A building system is disclosed where interlocking blocks (110, 120, 122) are used to produce a structure. A framework is constructed using elongate blocks (110) which interengage with one another. Lock pieces (120) are then put in place to lock the elongate blocks together, and then the remaining spaces in the framework either become wall openings such as windows or doors, or are filled in with filler (122) blocks which engage on the framework. Also is disclosed a building system where the end regions of two blocks placed in parallel define a slot, the axis of which lies parallel to the facing surfaces of the two blocks, and a groove closely adjacent to the slot and which extends across the facing surfaces of the two blocks, the system also comprising a connector piece and a lock piece, wherein the lock piece can be rotated, in the slot to allow placing and locking the connector piece in the groove. | ||||||
| 348 | FITTING FOR STRUT CHANNEL | PCT/US2015060623 | 2015-11-13 | WO2016077721A2 | 2016-05-19 | ZHANG ZHIHUI; LI QIANG |
| A fitting for connecting first and second pieces of strut to one another includes a coupling component. The coupling component has first and second coupling portions configured for reception in respective fitting grooves of the first and second pieces of strut when the coupling component is in a first orientation. Each of the coupling portions are rotatable within the respective fitting grooves from the first orientation to a second orientation to connect the first and second pieces of strut to one another. An anti-rotation plate is connected to the coupling component. The anti-rotation plate has an unlocked position relative to the coupling component to allow the first and second coupling portions to be received in the respective fitting grooves, and a locked position relative to the coupling component to inhibit rotation of each of the first and second coupling portions from the second orientation to the first orientation. | ||||||
| 349 | MOLDED ARTICLE WITH LOCATOR PIN HAVING LEDGE | US15958006 | 2018-04-20 | US20180306217A1 | 2018-10-25 | Steven F. Spaleny |
| An article includes a molded plastic body that is comprised of a main body portion and a locator pin that projects from the main body portion. The locator pin includes a base at the main body and a pin that extends from the base and has a tip end. The base and the pin are of different sizes so as to form a ledge that faces away from the main body portion. The pin includes a parallel-sided portion that is located within a zone that starts at the base and terminates short of the tip end. | ||||||
| 350 | Folded sheets of material for use as a structural member and assembly thereof | US14920347 | 2015-10-22 | US10024495B2 | 2018-07-17 | Mitchell E. Henke |
| Disclosed herein are folded sheets of material for use as a structural member and assembly thereof. According to an aspect, a sheet of material defines one or more tabs, slots, and a plurality of fold lines. The fold lines are spaced such that folding the sheet along the fold lines places the slots in substantial alignment for receiving the at least one tab such that a structural member having a web formed in an interior thereof is formed. | ||||||
| 351 | FRAME STRUCTURE, AND STRUCTURE | US15740138 | 2016-06-22 | US20180187826A1 | 2018-07-05 | Mario SHIMODAIRA |
| [Problem] To provide a foldable frame structure, unfoldable into a 2N-sided polygonal shape (N being an integer equal to or larger than 2), achieving a securely and rigidly supported unfolded state and a compact folded state.[Solving means] 2N upper rods (210), with an equal length, are coupled to each other to define a planer 2N-sided polygonal shape. First coupling means (220) coupling two adjacent upper rod (210) at a corresponding one of apices of the 2N-sided polygonal shape, and holding the two upper rod (210) in such a manner that the upper rod (210) are rotatable about an orthogonal axis orthogonal to axes of both of the two rods and rotation means (240) that enable each of the upper rods (210) to rotate about the axis (AX1) are provided. Folding to be a columnar shape as a whole can be achieved with the upper rods (210) pivoted about the orthogonal axis (AX2) to minimize an angle between two adjacent upper rods (210) while the upper rods (210) are rotated about the axis (AX1). | ||||||
| 352 | STRUCTURAL MODULAR BUILDING CONNECTOR | US15843533 | 2017-12-15 | US20180127967A1 | 2018-05-10 | Julian Bowron |
| A connector assembly, having an upper connector coupled to a lower connector and a gusset plate sandwiched between the upper and lower connectors. Also, disclosed is a hoistable connector assembly, a lifting frame assembly, a coupling system for modular frame units, a method for assembling a module unit using the connector assembly, and a modular frame unit and building having the connector assembly. | ||||||
| 353 | Integrated Structural Member | US15663118 | 2017-07-28 | US20180051457A1 | 2018-02-22 | Cole David Kazuyuki TURNER |
| An assembly for integrating an elongate structural member is provided. The elongate structural member includes a first end portion, a second end portion, and an elongate mid-portion that extends between the first and the second end portions. The first end portion is within a first plane and the second end portion within a second plane, and the first and the second planes are offset and parallel to each other. The elongate mid-portion is sloped between the first and the second planes. each of the first and the second end portions defining therein a polygonal hole. Multiple elongate structural members may be used to assemble a lattice structure. | ||||||
| 354 | UAV NAVIGATION AND SENSOR SYSTEM CONFIGURATION | US15547208 | 2016-01-29 | US20180024555A1 | 2018-01-25 | Curtis PARKS; Chris POLOWICK |
| Systems, methods and devices for use with unmanned aerial vehicles (UAV). A central controller is coupled to the autopilot system for a UAV. Navigation is implemented by using two GPS antennas and obtaining a difference between the locations from these two antenna to arrive at a high precision bearing or direction of travel. This single GPS derived bearing is used to trigger all the various subsystems on the UAV for imaging or mapping. Areas and locations to be mapped and imaged are determined by geolocation and mapping and imaging equipment are triggered based on the single GPS signal derived from the two GPS antennas. To reduce vibration effects on navigational and imaging or mapping equipment, these are positioned as close as possible to the vehicle's center of gravity and are deployed in a shielded box on vibration isolation mounts. | ||||||
| 355 | CELLULAR STRUCTURES WITH TWELVE-CORNERED CELLS | US15138466 | 2016-04-26 | US20170307138A1 | 2017-10-26 | Tau TYAN |
| A cellular structure may include a plurality of cells each having a twelve-cornered cross section. The twelve-cornered cross section may include twelve sides and twelve corners creating nine internal angles and three external angles. Each cell may include a plurality of longitudinal walls extending between a top and a bottom of the cell, the longitudinal walls intersecting to create corners of the cell. A structural component may include at least one wall surrounding a component interior space with a cellular structure having at least two cells positioned within the interior space. A sandwich structure may include first and second planar structures, and a cellular structure positioned between the first and second substantially planar structures. | ||||||
| 356 | Composite tube assemblies and methods | US14267720 | 2014-05-01 | US09726325B2 | 2017-08-08 | Rony Giovanni Ganis; Peter F. Giddings |
| Composite tubes comprising a compression sleeve coupled to an inner surface of a composite tube, a carbon extrusion member disposed within the composite tube, and an end fitting comprising a locking feature, wherein the end fitting is coupled to an inner surface of the compression sleeve and the locking feature is configured to engage the carbon extrusion member are disclosed. Methods comprising coupling a compression sleeve to an inner surface of a distal end of a composite tube, placing a carbon extrusion member inside the compression sleeve and the composite tube, and disposing an end fitting on the distal end of the composite tube, wherein the end fitting comprises a locking feature configured to interact with the carbon extrusion member are also disclosed. | ||||||
| 357 | Quick connecting device and shower room assembly | US15100562 | 2014-12-02 | US09717372B2 | 2017-08-01 | Wuxiang Wei |
| A quick connecting device and a shower room assembly are disclosed. The quick connecting device comprises an inserting member, a receiving member and a locking key. The shower room assembly comprises a track connected at a corner uses the above quick connecting device. | ||||||
| 358 | Reinforced structure of a motor vehicle | US14918894 | 2015-10-21 | US09592858B2 | 2017-03-14 | Thomas Kraushaar |
| A reinforced structure is disclosed which includes a structural component as well as a reinforcing part that is arranged in a cavity of the structural component. The reinforcing part can include a support part and a connection, the support part being arranged in the cavity such that a distance between the support part and the structural component at a position of the structural component with a higher probability of deforming under a force load from outside on the structural component is shorter than at a position of the structural component with a lower probability of deforming under a force load from the outside. | ||||||
| 359 | STRUCTURAL MODULAR BUILDING CONNECTOR | US15307723 | 2015-04-30 | US20170044753A1 | 2017-02-16 | Julian BOWRON |
| A connector assembly, having an upper connector coupled to a lower connector and a gusset plate sandwiched between the upper and lower connectors. Also, disclosed is a hoistable connector assembly, a lifting frame assembly, a coupling system for modular frame units, a method for assembling a module unit using the connector assembly, and a modular frame unit and building having the connector assembly. | ||||||
| 360 | Symmetrical Continuous Multidirectional Ultra-Light Ultra-Strong Structure | US14851595 | 2015-09-11 | US20160076699A1 | 2016-03-17 | Mindaugas Ramaska |
| A multidimensional structures that is formed of thirty six interconnecting members in such a manner as to form eight (8) tetrahedrons and six (6) octahedrons thereby providing a structure that is both light weight and strong, the interconnecting members variously intersecting at a central point in the middle of the multidimensional structure and at twelve (12) external connecting points. | ||||||
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