| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 165144000 | LINE CONNECTED CONDUIT ASSEMBLIES | 12 |
| 20130087314 | HEAT EXCHANGER UNIT - A heat exchanger unit includes at least two heat exchangers of the plate fin type that are substantially identical cuboids offset from each other. The heat exchangers are linked to at least one single distribution conduit and at least one single collection conduit. At least one first heat exchanger is situated on one side relative to the axis of the single distribution conduit and at least one second heat exchanger is situated on the other side relative to the axis of the single distribution conduit. A first face of the first heat exchanger is parallel to the nearest face of the second heat exchanger, but offset in the direction of the axis of the single distribution conduit. Each heat exchanger is fluidly connected to the face proximate to the distribution conduit, the offset being such that the each fluid connection does not contact one another. | 04-11-2013 |
| 20090095452 | Thermal-dissipating device - A thermal-dissipating device is made by connecting a plurality of thermal-dissipating sheets with each other. The thermal-dissipating sheets include a plurality of connecting portions and a plurality of thermal-dissipating fins. The connecting portions are connected with each other. The thermal-dissipating fins are connected with the connecting portions, respectively. At least one set of the thermal-dissipating fins are connected with each other. | 04-16-2009 |
| 20100012302 | DUAL ROW HEAT EXCHANGER AND AUTOMOBILE BUMPER INCORPORATING THE SAME - A heat exchanger has a cross-current/counter-current structure, so that air which is directed across the heat exchanger is heated in the two successive rows. This design takes advantage of the temperature glide of a refrigerant blend. In this design, the hottest refrigerant blend is in contact with the hottest air, and the coldest refrigerant blend is in contact with the coldest air, leading to a lower difference between the average refrigerant blend temperature and the average air temperature compared to a pure refrigerant in a one-row heat exchanger. | 01-21-2010 |
| 20110073291 | COOLING MODULE FOR A VEHICLE - A cooling module for a vehicle includes a combo cooler associated with a vehicle. A heat rejecter includes tubes arranged in a planar configuration. A low temperature radiator is associated with the heat rejecter and includes low temperature radiator tubes arranged in a planar configuration. Manifolds are independently configured to supply a refrigerant to the heat rejecter and a coolant to the low temperature radiator. A high temperature radiator is disposed adjacent and parallel to the combo cooler, and downstream of the combo cooler relative to an air stream flowing through the combo cooler and the high temperature radiator. The high temperature radiator is associated with a high temperature cooling loop of the vehicle, and cools an other coolant flowing therethrough. An operating temperature of refrigerant in the heat rejecter and an operating temperature of coolant in the low temperature radiator are lower than an operating temperature of the other coolant in the high temperature radiator. | 03-31-2011 |
| 20090025914 | Multi-Slab Multichannel Heat Exchanger - Heating, ventilation, air conditioning, and refrigeration (HVAC&R) systems and multi-slab heat exchangers are provided that include fluid connections for transmitting fluid between groups of tubes. The fluid connections may include generally tubular members fluidly connected to manifold sections. The fluid connections also may include partitioned manifolds containing tubes of different heights. Multichannel tubes are also provided that include a bent section configured to locate a flow path near a leading edge of a tube within one section and near a trailing edge of the tube within another section. | 01-29-2009 |
| 20110127021 | SPIRAL RECUPERATIVE HEAT EXCHANGING SYSTEM - A heat exchanging system is provided. The heat exchanging system includes multiple plates wound spirally around a reaction chamber. The multiple plates also form multiple channels that operate as a counter flow recuperator terminating within the reaction chamber. | 06-02-2011 |
| 20100326639 | SPACER, FIXING STRUCTURE AND HEAT EXCHANGER - A spacer includes a plane portion and at least one positioning portion. The plane portion is interposed between two pipe arrays stacked one another. Each of the two pipe arrays is formed by arranging at least one pipe along a plane which crosses a stacking direction of the two pipe arrays. The at least one positioning portion positions the at least one pipe in at least one of the two pipe arrays on the plane portion. | 12-30-2010 |
| 20120279689 | HEAT EXCHANGE DEVICE - A heat-exchange device comprises a first heat exchanger defining an upper end and a lower end. A second heat exchanger defines an upper end connected to the upper end of the first heat exchanger and a lower end spaced apart from the lower end of the first heat exchanger in a substantially longitudinal direction such that a predetermined angle between the first heat exchanger and second heat exchanger is between about 0 and 180°. A wind-guide member is disposed between the first heat exchanger and second heat exchanger for guiding wind toward the first heat exchanger and second heat exchanger. | 11-08-2012 |
| 20130126136 | HEAT EXCHANGER AND METHOD OF MANUFACTURING THE SAME - A heat exchange system and a method of manufacturing the same are provided. The heat exchange system may include a first heat exchanger, a second heat exchanger spaced apart from the first heat exchanger, a connection device provided between the first and second heat exchangers to guide refrigerant into the first and second heat exchangers, and one or more connection pipes that couple the connection device to the first and second heat exchangers, the connection pipes including at least one bent portion. | 05-23-2013 |
| 165145000 | In common casing | 3 |
| 20100089556 | Heat absorbing or dissipating device with multi-pipe reversely transported temperature difference fluids - The present invention relates to the thermal conductive fluids in temperature difference reversely transported by the first fluid piping and second fluid piping in parallel or quasi-parallel arrangement on the same end side to produce heat absorbing or dissipating function onto the passively heat dissipation or absorption receiving article or space thereby forming a more uniform temperature distribution status on the heat absorbing or dissipating body ( | 04-15-2010 |
| 20090090493 | TWIST VANE COUNTER-PARALLEL FLOW HEAT EXCHANGER APPARATUS AND METHOD - A heat exchanger and method that includes the use of at least one manifold having a plurality of vanes for circulating a fluid requiring cooling. The vanes define a pair of adjacent flow channels that each has a changing cross sectional shape that varies the aspect ratio of the adjacent flow channels defined by each vane. Each vane also has a twisting or spiral shape that serves to change the orientation of each of its adjacent flow channels to even more effectively enable transfer of heat from a first fluid flowing within one of the flow channels to a second fluid flowing in the other adjacent flow channel. In various embodiments both counter-direction flow and same-direction flows are employed in the manifold. | 04-09-2009 |
| 20080223560 | HEAT EXCHANGER - A heat exchanger of the single circuit type, to be coupled to a fluid circulation circuit and comprising: an upper tubular head element and a lower tubular head element horizontally arranged and which are each provided with a nozzle and through slots provided in an inner longitudinal wall portion; and a plurality of vertically disposed fluid conduction tubes, each internally defining a plurality of longitudinal microchannels. The opposite ends of the fluid conduction tubes are affixed to the inner longitudinal wall portion of the upper tubular head element and lower tubular head element, respectively, so as to communicate the ends of the microchannels of each tube with a through slot of the respective tubular head element and, thus, the fluid conduction tubes with the interior of the upper tubular head element and lower tubular head element. | 09-18-2008 |
