Abstract: A method of joining overlapping thermoplastic roofing membrane components in which a first thermoplastic roofing membrane component and a second roofing membrane component are positioned in overlapping relationship between a pair of complementary molding surfaces. Heat is generated in a metal substrate and transferred by thermal conduction from the metal substrate to overlapping portions of the first and second thermoplastic roofing membrane components to locally melt and coalesce a portion or more of the thermoplastic material of the first thermoplastic roofing membrane component and a portion or more of the thermoplastic material of the second thermoplastic roofing membrane component. The molten thermoplastic material of the first and second thermoplastic roofing membrane components forms a zone of coalesced thermoplastic material that, upon cooling, forms a solid weld joint.
Abstract: The axle welder can be easily configured and adjusted to accommodate axle assemblies of varying axle shaft lengths, hub styles (“straight” and “drop axle”) and lug bolt configurations. The axle welder uses a sliding carriage that slides along the support frame at one end of the welder to accommodate differing shaft lengths. The axle welder also includes a pair of pivoting hub lifts that accommodate both straight and drop axle style axle hubs using modular mounting plates. Modular mounting plates (“hub adaptors”) fitted to the hub lifts accommodate hub assemblies with differing lug bolt patterns. The axle welder is built on a rectangular frame that supports a pair of weld units and articulated electrode arms. The axle welder also includes a pair axle supports for carrying the axle shafts within the support frame. A shaft drive pivotally mounted to the support frame lowers to engage and rotate the axle shaft and hub assemblies in unison during the welding process.
Type:
Grant
Filed:
January 31, 2020
Date of Patent:
January 31, 2023
Inventors:
Stephen A. Johnson, Dean Sevenevy, Wendell J. Klota
Abstract: Disclosed therein are an apparatus for and a method of welding a flange to a guide thimble tube in a nuclear fuel assembly. The automatic welding apparatus includes a welding unit located on an axially conveying line of a tube for welding a surface of the tube inserted thereinto and a surface of a flange, a flange supplying unit for supplying the flange at a tube inlet of the welding unit onto the axially conveying line, and a conveying unit mounted on the axially conveying line in such a way as to move the tube and the flange on the axially conveying line, so that they are inserted into and drawn from the welding unit.
Type:
Grant
Filed:
October 31, 2013
Date of Patent:
April 28, 2015
Assignee:
Korea Nuclear Fuel Co., Ltd.
Inventors:
Ki-jun Kwon, Se-yong Shin, Sang-pil Kong, Hung-soon Chang, Jeong-ho Kim, Tae-hyung Na
Abstract: Disclosed therein are an apparatus for and a method of automatically welding a flange to a guide thimble tube in a nuclear fuel assembly. The automatic welding apparatus includes: a welding part located on an axially conveying line of a tube for welding a welded surface of the tube inserted thereinto and a welded surface of a flange; a flange supplying part for supplying the flange at a tube inlet of the welding part onto the axially conveying line; and a conveying part mounted on the axially conveying line in such a way as to move the tube and the flange on the axially conveying line, so that they are inserted into and drawn from the welding part.
Type:
Grant
Filed:
January 13, 2010
Date of Patent:
January 7, 2014
Assignee:
Korea Nuclear Fuel Co., Ltd.
Inventors:
Ki-jun Kwon, Se-yong Shin, Sang-pil Kong, Hung-soon Chang, Jeong-ho Kim, Tae-hyung Na
Abstract: An internal line-up clamp (20), for aligning two pipes to be welded together, includes a hi-lo measurement system, for example includes a laser source (24) and camera system (22), mounted on the internal line-up clamp (20) and arranged to make a hi-lo measurement (d), indicative of the degree of alignment of the pipes (10a, 10b). The measurement may be made when two pipes are clamped together by means the internal line-up clamp (20). The pipes may then be welded together, whilst the pipes remain clamped together in the same position, and whilst the hi-lo measurement system remains inside the pipes.
Type:
Application
Filed:
October 21, 2009
Publication date:
August 18, 2011
Applicant:
SAIPEM S.p.A.
Inventors:
Roberto Legori, Marco Novello, Eric Kerdilès, Rachid Yousfi, Andrea Provesi
Abstract: A wear resistant coating is applied on an elbow or S-bend by weld beads applied along a pipe. A rectangular support rod is attached inside the pipe by connectors so that wheels of the carriage are guided on the corners to maintain a fixed orientation relative to the support rod. A three axis robot arm carries an electric welding head so as to be able to dynamically adjust the head both angularly and radially. A welding wire is pulled to the head by a feeding system on the carriage. The weld parameters including a predetermined wire stick out and angle of wire attack are controlled. A drive motor carried by a drive carriage propels the drive carriage longitudinally along the support rod with a series of intermediate carriages.
Abstract: The tip end of a tubular body is oriented towards an inner bottom face of a recess for holding a heating body, then the outer peripheral surface is oriented towards the inner peripheral surface of a heating body, and said tubular body is inserted into the heating body from the open side of the recess in the axial direction. This allows a film to be shaped from the tip end around the outer peripheral surface of the tubular body. The film and the heating body are heated in an overlapping state, and the film is welded to the outer peripheral surface of the tubular body.
Abstract: A method for welding aluminum and copper tubes. The method comprises the steps of forming an annulated end on a copper tube. That is followed by a step of inserting the annulated end of the copper tube into an aluminum tube and then placing the aluminum tube with the annulated end of the copper tube disposed therein into a resistance welding machine. There is a step of inserting a core rod through the copper tube and pushing the core rod to a juncture of the annulated end of the copper tube and the aluminum tube for allowing a welded joint to be formed. There is a step of rotating the core rod and exerting pressure on the welding joint and applying an electric current to ensure that the aluminum tube and annulated end of the copper tube are welded followed by the step of removing the welded tubing from the welding machine.
Abstract: A welding material assembly is constructed and arranged to position a welding material in electrically conductive relation between exterior surface portions of first and second weldable members at a location where the first and second weldable members are to be joined. The welding material assembly includes at least one welding material member mounted on a flexible carrier sheet in a predetermined arrangement with each welding material member being constructed of an electrically conductive metallic welding material capable of melting when heated by application of an electrical current. Each welding material member is mounted on the sheet such that when the sheet is placed between the exterior surfaces of the first and second weldable members to be welded, each welding material member is electrically conductively disposed therebetween.
Type:
Grant
Filed:
January 11, 2002
Date of Patent:
September 16, 2003
Assignee:
Magna International Inc.
Inventors:
Gianfranco Gabbianelli, Richard D. Ashley, Ralph Miller
Abstract: A welding material in positioned in electrically conductive relation between exterior surface portions of first and second weldable members, such as hydroformed tubes, at a location where the first and second weldable members are to be joined. A welding device comprises first and second electrodes or conductive ends that extend along substantially the entire extent of first sides of the first and second weldable members, respectively. The first and second conductive ends include first and second concave recesses, which nest with the first and second weldable members, respectively. Electrical current is applied across the first and second weldable members by the nesting first and second conductive ends such that the applied current melts the welding material and thereby welds the exterior surface portions to one another. The welding device can be mounted on a robotic mechanism, which can move the welding device between first and second welding positions.
Type:
Grant
Filed:
January 5, 2001
Date of Patent:
May 20, 2003
Assignee:
Magna International Inc.
Inventors:
Gianfranco Gabbianelli, Victor J. Malczewski, Richard Ashley