| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Launching system, especially for continuous-beam bridges made up of prefabricated segments | EP85830281 | 1985-11-13 | EP0182753A3 | 1987-05-20 | Macchi, Romualdo |
The launching apparatus, including a stayed metallic beam, is provided with two poles (12, 14), one of which (12) rests on the plank in correspondence of the last pier (3) of the already formed bridge (7) and the other (14) rests on a cantilever end (7A) of said bridge length, bracket-like projecting beyond said pier; between the two poles (12, 14) connection stays (50) are provided parallel to each other, either horizontal or inclined, whereas inclined stays (46, 48) are anchored at each of the two poles (12, 14) and at the corresponding length of the metallic beam which is external to the pair of poles. |
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| 42 | Procédé pour obturer des fissures affectant des ouvrages de maçonnerie | EP84810499.8 | 1984-10-11 | EP0142468B1 | 1987-01-21 | Lazare, François; Marshall, Herbert |
| 43 | A method for forming a composite structural member | EP84201618 | 1984-11-07 | EP0141478A3 | 1987-01-14 | Kishida, Hiroo; Takenaka, Hirofumi |
A method for forming a composite structural member (1) wherein a prestressed floor board (7) having compressive stress acting along pc steel wires (8) buried therein is fixedly mounted on a steel beam (4), and the compressive stress is thereafter released from the prestressed concrete floor board (7) by loosening a turnbuckle (9) or the like provided in the prestressed concrete floor board (7) so as to produce in the steel beam (4) tensile force acting in the same direction of the compressive stress acting in the prestressed concrete floor board (7) and bending moment. |
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| 44 | EP0185071A4 - | EP85903097 | 1985-05-22 | EP0185071A4 | 1986-10-02 | ’ |
| 45 | Procédé et dispositif pour la mise en place d'un ouvrage tel que pont préfabriqué | EP85402490.8 | 1985-12-13 | EP0192004A1 | 1986-08-27 | Miomandre, Jean-Pierre |
Le pont (1) est préfabriqué sur un site voisin de son emplacement définitif et amené à l'aplomb de sa position définitive, puis foncé dans le sol par terrassement inférieur, les pieds droits (3,3') recevant, en fin de positionnement, des semelles (32) formant fondations coulées sur place et les opérations de soulèvement du pont, pour son déplacement horizontal et son positionnement final, sont obtenues par des vérins (10,10') noyés dans la masse des pieds droits et débouchant au sommet de niches (7), les cylindres des vérins (10) servant, après enlèvement des pistons (11), à l'injection de béton dans les niches pour la coulée des semelles (32). Application à la mise en place d'un pont pour passage inférieur. |
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| 46 | Dispositif lanceur de poutre entre piles de pont | EP83401715.4 | 1983-08-29 | EP0102900A2 | 1984-03-14 | Melkonian, Minas |
L'invention concerne l'industrie du matériel de travaux publics et plus particulièrement des dispositifs lanceurs de poutre entre piles de pont. Dispositif comprenant deux charpentes parallèles horizontales associées sur lesquelles circulent à cheval des chariots autonomes porteurs de poutre, et qui circulent elles-mêmes sur des rouleaux portés par les piles, caractérisé en ce qu'il comporte des moyens de translation d'une pile à l'autre et d'immobilisation comprenant, à la base de chaque charpente (1), une chaîne sans fin (3) entraînée en rotation par des moyens moteurs (4, 5) synchronisés, reversibles et blocables à volonté, portés par la charpente (1), et au sommet de chaque pile (6, 7, 8) des éléments de crémaillère fixes parallèles engrenant successivement chacun respectivement avec un brin (3) d'une des chaînes au passage du dispositif. Application aux matériels de construction de ponts. |
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| 47 | Application de mélanges autodestructibles à base de résines et de charges oxydantes à la réalisation de liaisons temporaires d'éléments de construction | EP81400132.7 | 1981-01-29 | EP0034515B1 | 1984-01-04 | Vincent, Jean; Godfrin, Jean-Philippe; Tourneur, Christian |
| 48 | Procédé pour conforter des arches ou des constructions analogues | EP83400387.3 | 1983-02-25 | EP0089861A1 | 1983-09-28 | Thibonnet, Jean-Louis Fernand |
L'invention concerne un procédé pour conforter une arche. Une voûte mince, (2), par exemple en béton armé, est supportée par des organes (3, 3a ou 3b), en dessous de l'arche à conforter, (1), de façon à maintenir entre elles un intervalle annulaire étroit, (5), qui est comblé avec un remplissage, temporaire ou définitif, choisi pour assurer la transmission d'efforts sans empêcher les déplacements relatifs de 1 et 2. L'invention est applicable au confortement d'arches, d'arcades, de voûtes diverses. |
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| 49 | Moyens de déplacement, à terre et/ou sur une plage immergée ou non, de lourdes charges | EP78400164.6 | 1978-11-08 | EP0002146B1 | 1981-09-02 | Jourdan, Louis Jules |
| 50 | Application de mélanges autodestructibles à base de résines et de charges oxydantes à la réalisation de liaisons temporaires d'éléments de construction | EP81400132.7 | 1981-01-29 | EP0034515A1 | 1981-08-26 | Vincent, Jean; Godfrin, Jean-Philippe; Tourneur, Christian |
Application de mélanges autodestructibles à base de résines et de charges oxydantes à la réalisation de liaisons temporaires d'éléments de construction. La présente invention concerne des liaisons temporaires facilement et complètement destructibles pour des éléments de construction. Les liaisons temporaires selon l'invention sont réalisées à partir de mélanges constitués par une résine durcissable à froid rendue combustible par adjonction d'une charge minérale oxydante, la quantité pondérale de résine étant comprise entre 20 et 40% du mélange total, ledit mélange étant durci et présentant préférentiellement une température d'inflammation égale ou supérieure à 500°C. En disposant au contact de ladite liaison temporaire un dispositif d'allumage, on peut provoquer, au moment voulu, la combustion complète de la liaison combustible qui se trouvera totalement détruite. Les liaisons temporaires selon l'invention trouvent des applications intéressantes dans divers secteurs du bâtiment et des travaux publics, comme par exemple dans celui du scellement des tirants d'ancrage. Les tirants 11 sont scellés dans une résine combustible 14 selon l'invention. Une pâte d'amorçage 15 et un allumeur 16 commandé depuis un poste 17 permettent l'allumage de la résine 14. Après combustion totale de cette dernière, il est aisé de retirer complètement les tirants 11. |
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| 51 | Moyens de déplacement, à terre et/ou sur une plage immergée ou non, de lourdes charges | EP78400164.6 | 1978-11-08 | EP0002146A1 | 1979-05-30 | Jourdan, Louis Jules |
Les moyens comprennent des jeux de béquilles verticales qui peuvent descendre ou monter dans des puits pratiqués dans la charge à déplacer. Chaque béquille porte un patin pouvant glisser sur une semelle associée, au moyen de vérins. Pour le déplacement, on descend les béquilles, ce qui soulève la charge, puis on fait glisser les patins sur leurs semelles, ce qui déplace l'ensemble, puis on remonte les béquilles pour reposer la charge et, enfin, on déplace. dans l'autre sens, les semelles par rapport aux patins. Les béquilles (2) sont amovibles et comportent, en haut, des moyens de verrouillage (14) pour les verrouiller dans une gorge (26, fig. 4) de chaque puits (1). Les moyens de verrouillage (14) se verouillent automatiquement quand on enfile une béquille (2) dans un puits (1) et qu'ils atteignent la gorge. On peut les déverrouiller pour sortir chaque béquille (2) de son puits (1) ouvert aux deux bouts. Chaque patin (3) est amovible. La liaison entre un patin (3) et une béquille (2) est assurée par une clavette (62, fig. 8). Entre le patin (3) et sa semelle (4), on injecte de l'eau sous pression. Ces moyens sont notamment utilisables pour réaliser des pontons d'usines amphibies. Les béquilles amovibles ne sont pas immobilisées inutilement pendant le stationnement du ponton. |
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| 52 | FABRICATED RAPID CONSTRUCTION PLATFORM FOR BRIDGE AND CONTROL METHOD THEREFOR | US18038045 | 2021-10-09 | US20240003104A1 | 2024-01-04 | Hua WANG; Longlin WANG; Xirui WANG; Tianzhi HAO; Gangrong WEI; Litao LI; Bo QIU; Jizhi LUO; Yuhou YANG; Shijian LIU; Mengsheng YU; Xiaoli ZHUO; Kainan HUANG; Jianheng CHEN; Zengke LI; Jipeng CHEN |
| A fabricated rapid construction platform for a bridge, wherein the construction platform comprises a fixing frame, an upper-layer tubular pile position control structure (6), a lower-layer tubular pile position control structure (7), and a console; the fixing frame comprises a bottom rail platform (1), supporting posts (3), a top operation platform (2), and several supporting legs (4); the upper-layer tubular pile position control structure (6) and the lower-layer tubular pile position control structure (7) are provided between the bottom rail platform (1) and the top operation platform (2); the upper-layer tubular pile position control structure (6) comprises two sub-structures arranged symmetrically about the central axis of a second through hole, and each sub-structure comprises a braking device (61), a vertical control arm (63), and a horizontal control arm (62). The lower-layer tubular pile position control structure (7) comprises an annular frame (71), a revolution driving device, and four lower control arms (73). On the basis of the construction platform, a corresponding control method is also provided for safe construction, thereby solving the problems that the traditional hoisting manners have excessively large local stress, use a large number of apparatuses for hoisting, consume long time for hoisting, and have difficulty in controlling accurate connection of joints in the pile connection process. | ||||||
| 53 | Prefabricated concrete pier top form | US17069592 | 2020-10-13 | US11795709B2 | 2023-10-24 | Chad William Cerwin |
| A single-use or multi-use prefabricated pier top form for topping a concrete pier comprises a hollow mold with an upper portion in the desired shape of the finished pier top, a stepped-down tapered mid portion, and a lower mating portion for mating with the pier form so that concrete can be continuously poured to fill both the pier form and the pier top form at one time. Use of the prefabricated pier top form results in substantial time and material savings because the top of the pier residing above ground can be formed at the same time as the footer and pier are formed replacing the need to form a separate pier top after the pier and footer have been filled with concrete. | ||||||
| 54 | COMPOSITE DECK STRUCTURE FOR BRIDGE AND BRIDGE STRUCTURE AND CONSTRUCTION METHOD THEREOF | US18319713 | 2023-05-18 | US20230287640A1 | 2023-09-14 | Xudong SHAO; Xuan SUN; Junhui CAO; Deqiang ZOU; Weidong LI |
| Disclosed are a composite deck structure for a bridge, and a bridge structure and a construction method thereof. The composite deck structure includes a top plate (1), longitudinal ribs (2), and transverse ribs (3), where the longitudinal ribs (2) are fixedly connected to the transverse ribs (3), and are connected to the diaphragms (4) by means of the transverse ribs (3), and the transverse ribs (3) are not provided with cutouts for accommodating the longitudinal ribs (2). According to the composite deck structure, no cutout is provided on the diaphragms (4), and stress generated by the cutouts is reduced; hot-rolled section steel is used for longitudinal ribs (2) and transverse ribs (3) instead of welded steel plates, such that welding seams are reduced and fatigue resistance of the composite deck structure is improved. | ||||||
| 55 | Method for removal of temporary support system for road bridge pre-fabricated small box girder-type concealed bent cap, and equipment therefor | US17630902 | 2020-12-18 | US11634877B2 | 2023-04-25 | Shengliang Xu; Jufeng Chen |
| A method for removal of a temporary support system for a road bridge pre-fabricated small box girder-type concealed bent cap, and equipment therefor. The removal method comprises the following steps: removing cantilever beams; removing lateral pier support systems and loading same onto a truck; removing outer-side main beam sections connected to lateral pier support systems and loading same onto a truck; removing, horizontally displacing, and lowering a main beam middle section connected to the main pier support system; hoisting, lowering, and laying flat a main truss system, and loading same onto a truck; and removing a main pier vertical support system and a pad beam. | ||||||
| 56 | Temporary support system for road bridge pre-fabricated small box girder-type concealed bent cap, and method of constructing same | US17630513 | 2020-12-18 | US11578465B2 | 2023-02-14 | Shengliang Xu; Jufeng Chen |
| A temporary support system for a road bridge pre-fabricated small box girder-type concealed bent cap, and a method of constructing same. The support system comprises a main beam, a main pier support system, and a lateral pier support system; the main beam is arranged on the transverse side of road bridge piers; the main pier support system is disposed on the transverse side of a main pier area and is located under the main beam; the lower end of the main pier support system is fixed to a main pier bearing platform, whereas the upper end is fixed to the main beam; the lateral pier support system is disposed on the transverse side of a lateral pier area and is located below the main beam; and the lower end of the lateral pier support system is fixed to a lateral pier bearing platform, whereas the upper end is fixed to the main beam. | ||||||
| 57 | Joint sealing profile, construction joint bridging device and method of manufacturing a joint sealing profile | US16765965 | 2018-11-21 | US11384490B2 | 2022-07-12 | Daniel Rill |
| A construction joint bridging device with a joint sealing profile and a joint sealing profile as such, as well as a method for producing a joint sealing profile and a method for producing and disassembling a construction joint bridging device. The joint sealing profile consisting at least partially of an elastic material and having a holding portion for fastening to the construction joint bridging device, wherein the holding portion has at least in sections a material composition which can be activated in a targeted manner by chemical, thermal and physical exposure so that the volume of the holding portion changes. | ||||||
| 58 | FORMWORK SYSTEM AND METHOD | US16988555 | 2020-08-07 | US20220042259A1 | 2022-02-10 | Julian Huber; Andrew Read; Florian Sturm; Ken Harris; Justin Lunday; Dan Straub |
| A formwork system, including a plurality of side formwork elements configured to confront a concrete structure, a horizontal formwork panel configured to support the concrete structure, and at least one working platform, wherein the system is configured to be split in a longitudinal direction and stricken or cycled from the concrete structure in two discrete parts. | ||||||
| 59 | Method For Installing Steel Tube Arches | US17168177 | 2021-02-05 | US20210164176A1 | 2021-06-03 | YUGEN Zhang; Chenghong LIU; Liang MA; Yubo CHEN; Changyong JI; Yingmei WANG; Boxuan ZHANG; Guoying SONG; Tengfei Dong |
| The disclosure relates to the technical field of bridge construction, in particular to a method for installing steel tube arches, which comprises the following steps: step S1, erecting steel tube arch assembling brackets; step S2, assembling a steel tube arch of longitudinally moving segment; step S3, installing temporary tie rods; step S4, dismantling the assembling brackets; step S5, longitudinally moving the steel tube arch of longitudinally moving segment; step S6, erecting an arch springing bracket and assembling small mileage arch springing segments; step S7, closing the steel tube arch; S8, arch falling and temporary auxiliary facilities dismantling; step S9, construction of concrete and suspenders in arch. The method for installing steel tube arches provided by the disclosure is safe, standardized and reliable, and the construction standard is prone to control. | ||||||
| 60 | System and method for changing a surface characteristic of a concrete bridge surface | US16228209 | 2018-12-20 | US10961669B2 | 2021-03-30 | Javier Valencia; Thomas Walter Spisak |
| An automated concrete bridge paver with an ability to provide effective control of a concrete paver by a remotely locatable concrete bridge paver operator 202, which includes a fixed operator control station and a mobile wireless remote operator control station 210 which can be used when the remotely locatable concrete bridge paver operator 202 leaves the operator control station 204. Mobile wireless remote operator control station 210 includes a video screen which can display live video images from a plurality of remote wireless camera and sensor pods 212, which can be fixed on the paver or moved about the paver on an articulated arm, with or without a human basket. | ||||||
