| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | METHOD FOR MANUFACTURING RIGID TUBULAR PIPES HAVING DOUBLE CASING, AND FACILITY DEDICATED TO MANUFACTURE OF SAID PIPES | US13383541 | 2010-07-08 | US20120138183A1 | 2012-06-07 | Philippe Espinasse; Jacques De Rumigny |
| A method and a facility for manufacturing rigid tubular pipes having a double casing for hydrocarbon transport. The pipes include an inner rigid tube (42, 242, 342, 442) that is inserted into an outer rigid tube (16, 216, 316, 416). The facility includes a supporting frame (12, 212, 312, 412) for an inlet end of the outer rigid tube and a movable apron (22, 222, 322, 422). The apron includes a catch (38, 238, 338, 438) for catching the rigid tube and inserting it in the outer rigid tube. The apron includes storage members (68, 268, 368, 468) for receiving stored heating cables (69, 269, 369, 469) and the driving force of the apron makes it possible to deploy a portion having the length of the stored heating cables (69, 269, 369, 469) so as to be able to apply the deployed portion, having the length of the heating cables, along the inner rigid tube (42, 242, 342, 442). | ||||||
| 122 | METHOD AND APPARTUS FOR MANUFACTURING FIBRE-REINFORCED HOSES | US12989687 | 2009-04-21 | US20110041985A1 | 2011-02-24 | Gyula Bétéri; Imre Füstös; Tamás Katona; Elemér Lantos; Tibor Nagy |
| The object of the invention is a method for building hoses reinforced with spirally laid fibres, where the hose under construction (3) undergoes both rotation and advancing motion relative to the laying head (12), and where the reinforcing fibres are unwound from drums (14). The drums (14) are rotated about two axes, the first axis being the principal axis of the drums (A) and the second axis (B) being nearly parallel with the direction in which the fibres are unwound, where the direction of rotation of the drums (14) about the second axis (B) is the same as the direction in which the hose under construction (3) is rotated. The apparatus for carrying out the method comprises a laying head (12) and a drum support platform (15), where the hose under construction (3) undergoes both rotation and advancing motion relative to the laying head (12), and where the reinforcing fibres (10) are unwound from drums (14) through a circular fibre guide (1) The further object of the invention is a method for building hoses reinforced with spirally laid fibres, wherein the reinforcing fibres (10) are laid on the hose surface through a rotating self-adjusting circular fibre guide (2) arranged substantially coaxially with the hose. The invention also relates to an apparatus for carrying out the above method. | ||||||
| 123 | Accessory wrapping machine | US12466196 | 2009-05-14 | US07780109B1 | 2010-08-24 | Gwang-Soo Park |
| Disclosed is an accessory wrapping machine for wrapping a string or a wire round a long band- or bar-shaped accessory member. With the present invention, it is possible to reduce a decoration time taken in wrapping an accessory with a string or a wire, make an outer appearance of a completed accessory beautiful, prevent a decorative string or wire drawn out of a reel from getting tangled when a motor pauses and restarts in a process of wrapping the decorative string or wire round an accessory member, and wrap the accessory member with the string or wire uniformly and at constant tension. | ||||||
| 124 | Coil winding machine | US10748800 | 2003-12-30 | US20050161549A1 | 2005-07-28 | Truman Hainline |
| Coil winding machine including, among other things, a spindle head assembly. The spindle head assembly includes a non-rotatable spindle nose, a rotatable flywheel, and an applicator head mounted to the flywheel. Core wire travels through the spindle nose and the applicator head wraps coil wire around the core wire. | ||||||
| 125 | Process allowing to increase the cracking corrosion resistance of a wire under stress | US09988414 | 2001-11-19 | US06684617B2 | 2004-02-03 | Xavier Longaygue; Christian Boudou |
| In order to increase the cracking corrosion resistance of a wire under stress compressive stresses are introduced through surface treatment by brushing, on the apparent surface of the wire. A system and method are notably applied for the manufacture of wire-reinforced flexible pipes. The reinforcing wires are subjected to a surface treatment by brushing after setting the wires on the flexible pipe. | ||||||
| 126 | Musical instrument string with auto wound cover wire | US09853963 | 2001-06-18 | US06465721B2 | 2002-10-15 | Jeffrey E. Landtroop; Donald A. Dykstra |
| The improved musical string includes a prior art core wire assembly including a core wire and a terminal end. The cover wire has an end portion that is bent around the terminal end portion of the core wire, and the cover wire is then wound the core wire to form the musical string. The improved cover wire winding machine includes a headstock with a rotatable spindle and a core wire terminal end mounting hook. A cover wire mounting sleeve is slidably and rotatably engaged to the spindle and functions to mechanically engage an end of the cover wire and to bend it into engagement with the core wire terminal end following engagement, the cover wire is wound around the core wire to produce the improved musical string. | ||||||
| 127 | Guitar string manufacturing auto start winding process | US09853963 | 2001-06-18 | US20010039722A1 | 2001-11-15 | Jeffrey E. Landtroop; Donald A. Dykstra |
| The improved musical string includes a prior art core wire assembly including a core wire and a terminal end. The cover wire has an end portion that is bent around the terminal end portion of the core wire, and the cover wire is then wound the core wire to form the musical string. The improved cover wire winding machine includes a headstock with a rotatable spindle and a core wire terminal end mounting hook. A cover wire mounting sleeve is slidably and rotatably engaged to the spindle and functions to mechanically engage an end of the cover wire and to bend it into engagement with the core wire terminal end following engagement, the cover wire is wound around the core wire to produce the improved musical string. | ||||||
| 128 | Method of producing a circular fibre-reinforced metal article, and apparatus for use in said method | US351703 | 1994-12-08 | US5562245A | 1996-10-08 | Jean-Claude Berthelemy; Gilles J. Bessenay; Gerard P. Gauthier; Daniel G. Girault; Ludovic E. C. Molliex |
| A method of producing a circular metal article reinforced by fibres in selected parts of its cross-section is described in which a metal blank of the article is formed and provided with at least one annular groove opening in the axial direction, preforms of reinforcing fibre and filler metal are placed in the groove which is then closed by a metal plug, and the assembly is isothermally forged to produce the article in a single forging step which serves to compress the preforms, weld the assembly together, and shape the article. Such articles may be used for machining high performance rotors for turbojet engines. Apparatus for use in the method is also described. | ||||||
| 129 | Assemby for preforming a plurality of wires during helical winding | US599251 | 1975-07-25 | US3983912A | 1976-10-05 | Vincent A. Iannucci |
| A wire preforming assembly is fixedly mounted on a circular turntable having thereon a predetermined plurality of bobbins dispersed in an array to provide a predetermined plurality of wires to the assembly equally spaced around its periphery. The assembly and the turntable are coaxially aligned with and relatively rotating about a longitudinally advancing, mandrelled hose. The wires are being directed to the hose by the preforming assembly so that the hose pulls the wires with uniform equal tension and causes them to be simultaneously wrapped thereon in side-by-side parallel helical convolutions. The wire is directed in a helical path around the surface of a preforming tube of the assembly and is bent toward the hose as it is being wound thereon. The bending imparts a characteristic to the wire which causes it to naturally retain the desired helical shape around the hose. A spacing tube is disposed within the preforming tube and around the hose to extend into the path of the wires so that each wire is received within one of a predetermined number of slots at the extended end of the spacing tube and evenly spaced thereabout to insure even spacing of the wires during winding. | ||||||
| 130 | Scaffold and winding apparatus | US30620172 | 1972-11-14 | US3853277A | 1974-12-10 | BUSH B |
| An apparatus for wrapping prestressing steel wire around the outer surface of a concrete tank is shown. The apparatus includes a plurality of vertical steel bracing beams which are attached to the inside surface of the concrete wall. A guide rail is attached to those bracing beams. A scaffold is mounted on a movable rubber wheel which is positioned to move along the upper surface of the concrete wall. The scaffold is movably braced by means of a trolley wheel or the like which is retained in the guide rail attached to the bracing beams. A second wheel is mounted in the scaffold to contact and roll around the upper side surfaces of the tank wall. The apparatus for winding prestressing wire around the exterior surface of the wall is supported on cables wound on a mounted winch on a platform on the scaffold. With the apparatus of the invention, the winding apparatus can be moved continuously around and up and down a concrete wall to be prestressed.
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| 131 | Method and apparatus for wrapping wire about a conduit | US24806172 | 1972-04-27 | US3851831A | 1974-12-03 | BOROUGH I; STEINER J; VOLK D |
| A wire wrapping apparatus for and method of wrapping high strength wire (anchored at its free end to a predetermined point on a conduit) under a predetermined tension and pitch about the conduit are disclosed. The apparatus has a spinning head disposed about the conduit in engagement with the conduit for relative rotating and longitudinal movement with respect to the conduit and for wrapping the wire on the conduit to the predetermined tension and pitch. Wire supply means are either disposed about the conduit in engagement with the conduit for relative rotating and longitudinal movement with respect to the conduit or are mounted on the spinning head, both for supplying the wire to the spinning head. Friction means are associated with the wire supply means to provide a friction drag on the wire supply means thereby preventing uncontrolled payoff of the wire from the wire supply means. Wire tensioning means are mounted on the spinning head and are adapted to receive the wire from the wire supply means at a low first tension to store a plurality of turns of the wire on the wire tensioning means, and to wrap the wire at a higher second tension on the conduit from the predetermined point thereon during the relative rotating and longitudinal movement of the spinning head with respect to the conduit. Drive means are connected to one member of the spinning head and the conduit for causing relative rotating and longitudinal movement of the one member with respect to the other member of the spinning head and conduit. The method includes the steps of: A. STORING A QUANTITY OF THE WIRE ON A WIRE SUPPLY MEANS; B. SUPPLYING THE WIRE TO A WIRE TENSIONING MEANS; C. PROVIDING A FRICTION DRAG ON THE WIRE SUPPLY MEANS TO PREVENT UNCONTROLLED PAYOFF OF THE WIRE FROM THE WIRE SUPPLY MEANS TO THE WIRE TENSIONING MEANS; D. RECEIVING THE WIRE FROM THE WIRE SUPPLY MEANS ON THE WIRE TENSIONING MEANS AT A LOW FIRST TENSION, STORING A PLURALITY OF TURNS OF THE WIRE ON THE WIRE TENSIONING MEANS, AND WRAPPING THE WIRE AT A HIGHER SECOND TENSION ON THE CONDUIT FROM THE PREDETERMINED POINT THEREON DURING THE RELATIVE ROTATING AND LONGITUDINAL MOVEMENT OF THE WIRE TENSIONING MEANS AND WIRE SUPPLY MEANS WITH RESPECT TO THE CONDUIT; AND E. CAUSING RELATIVE ROTATING AND LONGITUDINAL MOVEMENT OF ONE MEMBER OF SAID WIRE TENSIONING MEANS AND SAID CONDUIT WITH RESPECT TO THE OTHER MEMBER OF THE WIRE TENSIONING MEANS AND THE CONDUIT.
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| 132 | Winding machine | US3770219D | 1971-09-01 | US3770219A | 1973-11-06 | HICKMAN M |
| Apparatus for forming a prestressing winding on a concrete pipe. The pipe is supported and rotated and the wire is fed to it so that it is wound onto the pipe. Before passing onto the pipe the wire passes around a rotatable drum which is rotated such that tension is maintained in the wire being fed onto the pipe. A differential coupling connected between the rotatable drum and the means supporting the pipe for rotation. A variable braking means is comprised of an electromagnetic coupling and a motor which act upon a rotatable planet carrier of the differential coupling. The braking establishes a torque in the coupling that resists rotation of the drum. The resulting torque reaction between the drum and the gear train is transferred to the means that supports and rotates the pipe. Inasmuch as tension of the wire is caused, the resisting torque of the gear train a control of the resisting torque will insure constant tension on the wire regardless of the rate of wire take-off.
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| 133 | Strand material-griping headstock | US3608591D | 1969-01-08 | US3608591A | 1971-09-28 | OTSTOT JAMES L |
| The present machine is for forming convolutions of one of more strands of material around and along an extended tubular member supported and rotated by a quickly detachable selectively driven and automatically stopped mandrel on the machine and includes means for guiding said strand material to said tubular member in coordination with the rotation of said mandrel, feeds at least one of said strands at a predetermined rate while automatically compensating for any variations in the feeding speed of the strand as well as maintaining a constant tension on the strand being fed, feeds a tape around and over the strand and exposed areas of said tubular member at a proper angle and at controlled speeds to give a uniform spiral pitch and overlapping of the edges of said tape to form a wire-reinforced hose and includes a carriage driven in coordination with said mandrel carrying said strands and tape, means for feeding a liquid to the periphery of the tubular member prior to the tape thereon, means for providing a cast to one of said strands and means for preventing said cast strand from pulling out of said casting means.
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| 134 | Method of fabricating a reinforced material | US3608183D | 1969-03-27 | US3608183A | 1971-09-28 | LEMELSON JEROME H |
| A METHOD FOR PRODUCING A COMPOSITE MATERIAL AND THE IMPROVED MATERIAL STRUCTURE WHICH IS COMPOSED OF A MATRIX AND A PLURALITY OF REINFORCING ELEMENTS WHICH ARE COMBINED WITHIN SAID MATRIX TO FORM A UNITARY STRUCTURE THREWITH. THE REINFORCING ELEMENTS MAY COMPRISE METAL WIRES, FILAMENTS OR WHISKERS DISPOSED WITHIN A CERAMIC MATRIX OR SUBSTRATE WHEREIN THE FILAMENTS SERVE TO REINFORCE THE MATRIX MATERIAL. THE PROCESS INVOLVES CONTINUOUSLY FEEDING A PLURALITY OF FILAMENTS AND MATRIX MATERIAL TO A DIE AND THEREAFTER PREDETERMINANTLY FORMING A CONTINUOUS SHAPE THEREOF. IN ONE FORM, THE FILAMENTS OR WHISKERS ARE CONTINUOUSLY FORMED AS THEY ARE FED TO THE DIE OR MOLD EMPLOYED TO FORM THE COMPOSITE MATERIAL, THE FILAMENTS MAY ALSO BE FABRICATED OF GLASS, CERAMIC, POLYMERS OR CARBONIZED MATERIAL WHICH MAY BE RANDOMLY OR EVENLY DISPERSED WITHIN THE MATRIX MATERIAL.
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| 135 | Method for wire-wrapping pipe | US3481549D | 1966-11-07 | US3481549A | 1969-12-02 | CULLEN ROY H; ELLIOTT CHARLES H |
| 136 | Method and apparatus for forming helical springs and the like | US3478408D | 1965-10-21 | US3478408A | 1969-11-18 | BROWN KENARD DANIEL |
| 137 | Wire and cord winding machine | US3463412D | 1967-11-09 | US3463412A | 1969-08-26 | MCCAFFRAY EDMUND JR; KURSEVICH JOHN F |
| 138 | Filament wound element | US3442296D | 1965-02-23 | US3442296A | 1969-05-06 | SHORT ROBERT J |
| 139 | Method of making a filament wound sandwich core | US18836162 | 1962-04-18 | US3300354A | 1967-01-24 | DUFT BUDDY L |
| 140 | Winding machines used in the manufacture of strings for musical instruments | US36151064 | 1964-04-21 | US3262256A | 1966-07-26 | AMELIO VINCIGUERRA |
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