Patent application number | Description | Published |
20120222845 | Coaxial Gas-Liquid Heat Exchanger With Thermal Expansion Connector - A co-axial gas-liquid heat exchanger such as a charge air cooler comprises at least three concentric tubes forming at least two annular flow passageways. One end of the inner tube is rigidly attached to the middle tube by a thermal expansion connector including an inner connecting portion secured to the first end of the inner tube, an outer connecting portion secured to an inner surface of the middle tube; and one or more webs connecting the inner connecting portion to the outer connecting portion. The webs extend across the annular gas flow passageway but permit the hot gas to flow therethrough. The other end of the inner tube is free to expand in the longitudinal direction, relative to the middle and outer tubes. In some embodiments, the inner connecting portion forms part of a central plug portion which blocks an end of the inner tube. | 09-06-2012 |
20120255709 | Heat Exchanger With Resiliently Mounted Bracket - A heat exchanger comprises an end mounting arrangement including a mounting bracket having a first portion for attachment to a support structure and a second portion attached to the heat exchanger. A projection rigidly attached to the end of the heat exchanger is resiliently received in an aperture in the second portion of the mounting bracket. The projection may comprise a pin extending from a plate pair of the heat exchanger, and one end of the pin may be secured between the plates of the plate pair. The mounting bracket may be metal with a resilient element such as a rubber grommet provided in each aperture, or the bracket may comprise plastic in which case a grommet may not be required. | 10-11-2012 |
20130061584 | Exhaust Gas Heat Recovery Device - A device for recovering heat from a hot gas stream comprises a gas diverter valve and a gas/liquid heat exchanger. The diverter valve comprises a valve body; a valve element movable between a bypass position and a heat exchange position; and a gas inlet and a gas outlet formed in the valve body. The heat exchanger comprises a heat exchanger core comprised of a stack of core plates arranged parallel to the exhaust gas flow path, and the heat exchanger is located outside the exhaust gas flow path and may be spaced therefrom so as to avoid unwanted heat transfer with the valve in bypass mode. The heat exchanger may include a bottom-most gas flow path adjacent to the bottom plate, and may include a mounting plate which is mechanically secured to the valve body, with a thermally insulating gasket provided between the mounting plate and the valve body. | 03-14-2013 |
20130160972 | Heat Exchanger With Integrated Thermal Bypass Valve - A heat exchanger apparatus containing a heat exchanger and a thermally actuated bypass valve. The heat exchanger having plurality of plates defining a first, a second and a bypass channels. A first fluid inlet manifold in fluid communication with the first and the bypass channels. The bypass valve positioned in the first fluid inlet manifold, and containing a sleeve having a first slot and a second slot, that permit fluid flow from a first fluid inlet to the bypass channel and to the first fluid inlet manifold, respectively. A drum positioned within the sleeve and movable from a first position to a second position. The drum having an aperture permitting first fluid flow to the first slot in the first position and to the second slot in the second position. An actuator engaging the drum and actuating it to move from the first position to the second position. | 06-27-2013 |
20140262170 | Heat Transfer Surface With Nested Tabs - A heat transfer surface and a heat exchanger comprising the heat transfer surface are disclosed, the heat transfer surface comprising a corrugated member having parallel spaced apart ridges and planar fin surfaces extending therebetween. The planar fins surfaces comprise tabs formed in the surface thereof for forming counter-rotating vortices in the fluid flowing over the heat transfer surface, the tabs being lifted out of the surface of the planar fin surface and extending into or nesting within the openings formed by the corresponding tabs in the adjacent planar fin surface so as to achieve high fin density. | 09-18-2014 |
20140318751 | Fin Support Structures for Charge Air Coolers - A heat exchanger has a core comprising flat tubes with corrugated fins provided in spaces between tubes. An end mounting arrangement includes a mounting bracket for attachment to a housing. A fin support structure comprises a plurality of support walls and a plurality of axial walls, wherein each of the support walls is integrally joined to at least one of the axial walls, each of the support walls is in contact with the endmost corrugation of one of the fins, and each of the axial walls is in contact with one of the plate pairs. The fin support structure may have a corrugated structure, and is mounted at the end of the core at which the mounting bracket is provided, so as to support and minimize damage to the corrugated fins caused by bypass air flowing between the mounting bracket and the core. | 10-30-2014 |
20150323266 | Heat Exchanger With Slide-On Mounting Bracket - An elongate heat exchanger for cooling hot gas includes an arrangement for reducing thermal stresses when mounted in a housing. A pair of planar extensions project from opposite sides of the core. A mounting bracket has a central portion adapted to extend across the top of the core, and a pair of edge portions projecting outwardly from the central portion. The edge portions are substantially parallel to the planar extensions, and each has a top layer at least partially covering one of the planar extensions, wherein each of the edge portions is adapted to be secured to the housing, for example by a bolt. Each planar extension may be slidably received in a slot between the top and bottom layers of the edge portion, or may be slidably received between the top layer and the housing, to permit longitudinal thermal expansion of the core. | 11-12-2015 |