Class / Patent application number | Description | Number of patent applications / Date published |
165174000 | With internal flow director | 41 |
20080202738 | Heat exchanger system - A heat exchanger system is described and which includes a metal tubular heat exchanger; a fluid distributor conduit fabricated from a metal dissimilar to that of the heat exchanger, and wherein the fluid distributor conduit is connected in fluid flowing relation relative to the metal tubular heat exchanger; and a fluid distributor made of a metal that is similar to that of the fluid distributor conduit, and which is connected in fluid flowing relation relative to the fluid distributor. | 08-28-2008 |
20080223565 | Flow distributor for heat transfer device - A heat transfer device includes a receptacle having a number of partitions disposed for forming a number of fluid flowing passages within the receptacle, an inlet and a path formed in one side and communicating with the inlet and the fluid flowing passages of the receptacle, and a distributor having a tubular member engaged into the inlet and the path of the receptacle and having a number of orifices formed along the tubular member and aligned with the fluid flowing passages of the receptacle for guiding the fluid to evenly flow through the fluid flowing passages of the receptacle respectively. The distributor may include a manifold attached to the tubular member for bypassing the fluid. | 09-18-2008 |
20090095458 | STRUCTURE OF HEADER-TANK FOR A HEAT EXCHANGER - The structure of header-tank for a heat exchanger comprises a plurality of tubes which are arranged in a row along an air-blowing direction to be spaced apart from each other at a certain intervals; fins which are interposed between the tubes so as to increase a heat exchange surface area with respect to air flowing between the tubes; and a pair of header-tanks which comprises a header having a tube insertion hole and a tank coupled with the header and in which heat exchange medium is flowed, wherein the header is bent at a surface, in which the tube insertion hole is formed, so as to form a bending portion in a height direction, and the bending portion is formed with a plurality of taps | 04-16-2009 |
20090120626 | HEAT EXCHANGER FOR VEHICLES AND PROCESS FOR PRODUCING THE SAME - A heat exchanger element has a row of multiple channel flat pipes ( | 05-14-2009 |
20090120627 | HEAT EXCHANGER ASSEMBLY - A heat exchanger assembly includes a first single-piece manifold and a second single-piece manifold spaced from and parallel to the first single-piece manifold. Each of the first and second single-piece manifolds has a tubular wall defining a flow path. A plurality of flow tubes extend in parallel between the first and second single-piece manifolds and are in fluid communication with the flow paths. An insert having a distribution surface is slidably disposed in the flow path of the first single-piece manifold to establish a distribution chamber within the first single-piece manifold. A series of orifices defined in the distribution surface of the insert are in fluid communication with the flow path and the distribution chamber for uniformly distributing a heat exchange fluid between the flow path and the flow tubes. | 05-14-2009 |
20090145591 | Keel cooler with fluid flow diverter - A fluid flow diverter is provided in a standard rectangular header of a keel cooler for optimizing the coolant flow towards both the interior tubes and also towards the exterior tubes of the keel cooler. The improvement enhances the internal coolant flow and subsequent heat transfer efficiency similar to what has been realized with a non-rectangular header, for example, a header with a beveled wall. | 06-11-2009 |
20090205813 | DEVICE FOR INFLUENCING THE FLOW IN THE REGION OF A TUBE SUPPORT PLATE OF A TUBE BUNDLE HEAT EXCHANGER - The present invention is related to a device for influencing the flow in the region of a tube support plate ( | 08-20-2009 |
20090218083 | TURBULATED IMMERSION HEAT-EXCHANGE APPARATUS - A submersible heat-exchanging apparatus comprises a cylindrical heat-exchange component configured with one end for sealingly engaging a terminal plug and the other end for sealingly engaging and communicating with a coupling manifold having opposed inflow and outflow ports. A flow-directing elongate insert is provided with one end configured to engage the coupling manifold interposed the inflow and outflow ports, and the other end provided with an aperture and configured for abutting the terminal plug. The flow-directing elongate insert is configured to slidingly contact and cooperate with the inner walls of the heat-conductive conduit thereby partitioning the heat-conductive conduit into two opposed fluid transmission channels wherein one channel communicates with the inlet port and the other channel communicates with the outlet port. The coupling manifold is configured to sealingly engage an aperature provided therefore in a fluid-containing receptacle whereby the heat-exchange component extends into the receptacle. | 09-03-2009 |
20090314480 | FLAT PLATE HEAT AND MOISTURE EXCHANGER - This invention relates in general to air exchange systems and, in particular, to an improved energy recovery ventilator, a cross flow plate core associated therewith and a method of conditioning air for a building. In one aspect, the invention provides a cross flow plate core comprising: a left hand wafer comprising a left hand spacer with a first of a plurality of membranes bonded thereto, the left hand spacer comprising a plurality of parallel curvilinear rails which form channels for receiving a first stream of air; and a right hand wafer comprising a right hand spacer with a second of the plurality of membranes bonded thereto, the right hand spacer comprising a plurality of parallel curvilinear rails which form channels for receiving a second stream of air, wherein the left hand spacer of the left hand wafer is bonded to the top of the membrane of the right hand wafer. | 12-24-2009 |
20100025028 | HEAT EXCHANGER WITH RECEIVER TANK - In a heat exchanger with a receiver tank, a coupling member and an adapter member constitute a connecting member that connects the receiver tank and the heat exchanger, where the connecting member has header connecting portions respectively connected with a concentrating part and a supercooling part of one of headers and the adapter member is connected with the connecting member and the receiver tank and is detachably attached to the receiver tank. The coupling member is assembled with a first divided member and a second divided member, where the first divided member is formed with header connecting portions to be connected with the second divided member. | 02-04-2010 |
20100044022 | Air-to-air cooling assembly - An air-to-air cooling assembly is disclosed. The air-to-air cooling assembly includes an inlet tank having an inlet configured to receive an air flow, and a wall forming a space within the inlet tank. The air-to-air cooling assembly also includes a perforated plate disposed adjacent the inlet of the tank and arranged substantially perpendicular to the air flow. The air-to-air cooling assembly further includes a plurality of pressure balancing openings at predetermined locations on the wall and configured to direct air into and out of the space. | 02-25-2010 |
20100089559 | METHOD AND APPARATUS FOR IMPROVING DISTRIBUTION OF FLUID IN A HEAT EXCHANGER - A mini-channel heat exchanger or a micro-channel heat exchanger includes an insert ( | 04-15-2010 |
20100218924 | PARALLEL FLOW EVAPORATOR WITH SPIRAL INLET MANIFOLD - In a parallel flow heat exchanger having an inlet manifold connected to an outlet manifold by a plurality of parallel channels, a spirally shaped insert is disposed within the refrigerant flow path in the inlet manifold such that a swirling motion is imparted to the refrigerant flow in the manifold so as to cause a more uniform distribution of refrigerant to the individual channels. Various embodiments of the spirally shaped inserts are provided, including inserts designed for the internal flow of refrigerant therethrough and/or the external flow of refrigerant thereover. | 09-02-2010 |
20100252243 | REFRIGERANT DISTRIBUTOR FOR HEAT EXCHANGER AND HEAT EXCHANGER - A refrigerant distributor for a heat exchanger is disclosed. The refrigerant distributor comprises: a pipe for distributing a refrigerant, the pipe having a channel therein in which the refrigerant flows. The channel has at least one portion having reduced cross-section area. With the above configuration, the distributor relieves the layering of refrigerant flowing in a distributing pipe and mixes the vapor-liquid refrigerant relatively uniformly. | 10-07-2010 |
20100314090 | HEAT EXCHANGER - A heat exchanger ( | 12-16-2010 |
20110017438 | MULTI-CHANNEL HEAT EXCHANGER WITH IMPROVED UNIFORMITY OF REFRIGERANT FLUID DISTRIBUTION - A micro-channel heat exchanger includes an inlet manifold fluidly connected with an outlet manifold by a plurality of generally parallel tubes, further defining a plurality of generally parallel micro-channels therethrough. Refrigerant is introduced to the heat exchanger through a distributor tube disposed within the inlet manifold. The distributor tube includes a plurality of non-circular openings disposed along the length thereof which act as an outlet for refrigerant flow into the inlet manifold and eventually into and through the tubes and micro-channels. The openings are preferably slots arranged along the length of the distributor tube at an angle relative to the longitudinal direction of the distributor tube and oriented within the inlet manifold for a general direction of refrigerant flow at an angle relative to the general direction of refrigerant flow through the tubes. Alternative shapes for the openings are also considered. | 01-27-2011 |
20110042049 | PARALLEL FLOW EVAPORATOR WITH SPIRAL INLET MANIFOLD - In a parallel flow heat exchanger having an inlet manifold connected to an outlet manifold by a plurality of parallel channels, a spirally shaped insert is disposed within the refrigerant flow path in the inlet manifold such that a swirling motion is imparted to the refrigerant flow in the manifold so as to cause a more uniform distribution of refrigerant to the individual channels. Various embodiments of the spirally shaped inserts are provided, including inserts designed for the internal flow of refrigerant therethrough and/or the external flow of refrigerant thereover. | 02-24-2011 |
20110056668 | MODULAR HEAT EXCHANGER - A modular multi-channel tube heat exchanger includes a plurality of aluminum heat exchanger modules selectively connected in fluid communication by interconnecting tubing. Each heat exchanger module includes an aluminum inlet header, an aluminum outlet header and a plurality of aluminum heat exchange tubes extending longitudinally therebetween. Each of the plurality of heat exchange tubes may have a plurality of flow paths extending longitudinally in parallel relationship from an inlet end thereof in fluid communication with the inlet header to an outlet end thereof in fluid communication with the outlet header. | 03-10-2011 |
20110174472 | HEAT EXCHANGER WITH EXTRUDED MULTI-CHAMBER MANIFOLD WITH MACHINED BYPASS - The present invention heat exchanger with extruded multi-chamber manifolds includes at least two panels, with each panel having a row of at least one channel which communicates fluid. The heat exchanger includes a first manifold and a second manifold, the first manifold and the second manifold each having at least two manifold chambers. Each panel is attached to a manifold chamber of the first manifold and a manifold chamber of the second manifold, with each chamber having an inner wall and outer wall. The outer wall has a surface exposed outside the manifold chambers. There is also an opening through the outer wall including a bypass slot. The bypass slot allows fluid communication between the chambers. | 07-21-2011 |
20110284195 | FABRICATED TUBE FOR AN EVAPORATOR - An evaporator assembly having a first header, a second header, at least two banks of evaporator tubes extending therebetween and in hydraulic communication with the first and second headers. At least one of the evaporator tube may be folded from a unitary strip clad aluminum folded having a thickness (t). The evaporator tube includes a height (h) which is measured from the bottom exterior surface to the top exterior surface, and a corner radius (r | 11-24-2011 |
20120012292 | EVAPORATIVE HEAT EXCHANGE APPARATUS WITH FINNED ELLIPTICAL TUBE COIL ASSEMBLY - An improved finned coil tube assembly enhances evaporative heat exchanger performance, and includes tubes, preferably serpentine tubes, in the coil assembly. The tubes have a generally elliptical cross-section with external fins formed on an outer surface of the tubes. The fins are spaced substantially 1.5 to substantially 3.5 fins per inch (2.54 cm) along the longitudinal axis of the tubes, extend substantially 23.8% to substantially 36% of the nominal tube outside diameter in height from the tubes outer surface and have a thickness of substantially 0.007 inch (0.018 cm) to substantially 0.020 inch (0.051 cm). The tubes have a center-to-center spacing generally horizontally and normal to the longitudinal axis of the tubes of substantially 109% to substantially 125% of the nominal tube outside diameter, and a generally vertical center-to-center spacing of substantially 100% to about 131% of the nominal tube outside diameter. | 01-19-2012 |
20120267086 | MULTICHANNEL HEAT EXCHANGER WITH DISSIMILAR FLOW - Heating, ventilation, air conditioning, and refrigeration (HVAC&R) systems and heat exchangers are provided that include multichannel tube configurations designed to promote flow of refrigerant within the multichannel tubes near the edges of the tubes that are contacted first by an external fluid. The tube configurations include flow paths of varying cross-sections, spacings, and sizes. Flow control mechanisms, such as inserts, blocking plates, sleeves, crimped sections, and crushed sections, may be employed with the flow paths to favor flow near the edges of the tubes that are contacted first by an external fluid. | 10-25-2012 |
20130140012 | HEADER FOR AIR COOLED HEAT EXCHANGER - A header for an air cooled heat exchanger is provided. The header includes a housing having top and bottom walls and side walls and an inlet and an outlet, one of said side walls being a tube wall for connection to a plurality of heat exchanger tubes. The header includes a partition wall between the top and bottom walls defining upper and lower regions, the partition being a sheet having a higher central area which extends downward to corners of the upper region. Each corner has a drain aperture for fluid in the upper region to drain by gravity out of the upper region. | 06-06-2013 |
20130168070 | Heat Exchanger Assembly Having a Distributor Tube Retainer Tab - A heat exchanger assembly having an insertable distributor tube retainer tab configured to position and retain a distributor tube disposed within a first manifold extending along an axis A | 07-04-2013 |
20130192808 | REFRIGERANT GUIDING PIPE AND HEAT EXCHANGER HAVING REFRIGERANT GUIDING PIPE - A refrigerant guiding pipe having a pipe wall in which an inner chamber is formed, an opening formed in the pipe wall, and a refrigerant guiding portion. At least a part of the refrigerant guiding portion is disposed to be substantially inclined with respect to an axial direction of the refrigerant guiding pipe to guide refrigerant passing through the opening. The refrigerant guiding pipe can distribute and guide refrigerant well to help avoid non-uniform distribution of refrigerant due to layering of gaseous refrigerant and liquid refrigerant. | 08-01-2013 |
20140096944 | HEAT EXCHANGER - A heat exchanger having an improved distribution structure in which one inlet pipe is connected to a header which is partitioned into a first sub-chamber in which a refrigerant flows through the inlet pipe and a second sub-chamber in which tubes communicate with each other, and a distribution pipe is installed at the header and causes the first sub-chamber and the second sub-chamber to communicate so that the refrigerant in the first sub-chamber can be distributed to the tubes. The distribution pipe can pass through and can be combined with a partitioning baffle that is combined with the header to partition a chamber of the header into the first sub-chamber and the second sub-chamber. | 04-10-2014 |
20140182826 | HEAT EXCHANGER MANIFOLD WITH A FLUID FLOW DISTRIBUTION FEATURE - A heat exchanger configured to condition a flow of fluid therein. The heat exchanger includes a first manifold, a second manifold, and a conditioning assembly having a plurality of tubular elements extending between the first manifold and the second manifold. The first manifold includes a first end having an inlet formed therein and a second end formed opposite the first end. The first manifold is formed by at least one wall having at least one fluid flow distribution feature integrally formed therein. The at least one fluid flow distribution feature includes a channel extending substantially parallel to a general direction of flow of the fluid through the first manifold. | 07-03-2014 |
20140290923 | COOLING SYSTEM - A cooling system is provided. The cooling system includes a first heat exchanger and a second heat exchanger. The first heat exchanger has a first chamber and a second chamber. A plurality of tubes is provided in the first heat exchanger such that the tubes are in fluid communication with the first chamber and the second chamber. The tubes are arranged in a plurality of rows. A baffle is located in the second chamber. The baffle divides the second chamber into a first region and a second region. The first region of the second chamber is in fluid communication with at least one row of tubes. Further, an outlet is provided in fluid communication with the first region. The second heat exchanger includes an inlet in communication with the outlet of the first region. | 10-02-2014 |
20150053385 | HEAT EXCHANGER FLOW BALANCING SYSTEM - The heat exchanger flow balancing system serves to substantially equalize fluid flow through essentially identical diameter heat exchanger tubes in a heat exchanger having a single inlet plenum, a single outlet plenum, and a series of equal diameter heat exchanger tubes extending therebetween. In one embodiment, a series of different diameter orifices are provided at the inlet end of each of the tubes, with those tubes farther from the single larger diameter inlet pipe to the plenum generally having smaller orifices. In another embodiment, each of the tubes is provided with a conical nozzle at its inlet end, with those tubes farther from the single inlet pipe to the plenum generally having smaller diameter nozzles. The effect is to substantially equalize fluid flow through all of the heat exchanger tubes, thus increasing the efficiency of the heat exchanger. | 02-26-2015 |
20150122470 | HEAT PUMP HEAT EXCHANGER HAVING A LOW PRESSURE DROP DISTRIBUTION TUBE - A heat pump heat exchanger includes a first manifold, a second manifold spaced from the first manifold, a plurality of refrigerant tubes hydraulically connecting the manifolds, and a distribution tube disposed in the first manifold. The distribution tube includes an inlet end, a distal end opposite the inlet end, a plurality of orifices between the inlet end and the distal end. The distribution tube also includes a terminal aperture immediately adjacent the distal end, wherein the terminal aperture includes an open aperture area greater than any one of the open orifice area. The open aperture area is large enough to provide a uniform refrigerant collection with acceptable minimal pressure drop in evaporative mode, but small enough to prevent vapor overflow to an area of the manifold adjacent to the distal end in condenser mode. The length of the distribution tube is less than 3/4 the length of the first manifold. | 05-07-2015 |
20160061496 | HEAT EXCHANGER WITH REDUCED LENGTH DISTRIBUTOR TUBE - A heat exchanger includes a header, a plurality of tubes, and a distributor. The header is configured to contain refrigerant and define an opening proximate to a termination end of the header. The plurality of tubes extends away from and is fluidicly coupled to the header. The plurality of tubes includes a first group of adjacent tubes characterized as located further away from the opening than a second group of adjacent tubes. The distributor is located within the header and spaced apart from the opening such that a first portion of the refrigerant in the first group of tubes does flow through the distributor, and a second portion of the refrigerant in the first group of tubes does not flow through the distributor. | 03-03-2016 |
20160076822 | HEAT EXCHANGER DISTRIBUTOR WITH INTERSECTING STREAMS - A heat exchanger includes a header, a plurality of tubes, and a distributor. The header is configured to define an inlet for the heat exchanger. The tubes extend away from and are fluidicly coupled to the header. The distributor is located within the header and is configured to distribute refrigerant flowing along a longitudinal axis from the inlet to the tubes via a plurality of openings defined by the distributor through a wall of the distributor. The openings include a first opening configured to direct refrigerant in a first direction, and a second opening configured to direct refrigerant in a second direction. The first direction and the second direction are selected such that refrigerant emitted from the first opening and the second opening substantially intersect each other. | 03-17-2016 |
20160076823 | STACKING-TYPE HEADER, HEAT EXCHANGER, AND AIR-CONDITIONING APPARATUS - A stacking-type header according to the present invention includes: a first plate-shaped unit; and a second plate-shaped unit, in which the first plate-shaped unit or the second plate-shaped unit comprises at least one plate-shaped member having formed therein: a flow passage formed in the first plate-shaped member through which the refrigerant passes to flow into the plurality of first inlet flow passages; and a flow passage formed in the second plate-shaped member through which the refrigerant passes to flow into the second inlet flow passage, and in which the at least one plate-shaped member has a through portion or a concave portion formed in at least a part of a region between the flow passage through which the refrigerant passes to flow into the plurality of first inlet flow passages and the flow passage through which the refrigerant passes to flow into the second inlet flow passage. | 03-17-2016 |
20160076824 | STACKING-TYPE HEADER, HEAT EXCHANGER, AND AIR-CONDITIONING APPARATUS - A stacking-type header according to the present invention includes: a first plate-shaped unit having a plurality of first outlet flow passages formed therein; and a second plate-shaped unit stacked on the first plate-shaped unit, the second plate-shaped unit having a distribution flow passage formed therein, the distribution flow passage being configured to distribute refrigerant, which passes through a first inlet flow passage to flow into the second plate-shaped unit, to the plurality of first outlet flow passages to cause the refrigerant to flow out from the second plate-shaped unit, in which the distribution flow passage includes a branching flow passage including a straight-line part perpendicular to a gravity direction, and in which the refrigerant flows into the branching flow passage through a part between both ends of the straight-line part, passes through both the ends, and flows out from the branching flow passage through a plurality of end portions. | 03-17-2016 |
20160116231 | STACKING-TYPE HEADER, HEAT EXCHANGER, AND AIR-CONDITIONING APPARATUS - A stacking-type header according to the present invention includes: a first plate-shaped unit; and a second plate-shaped unit ( | 04-28-2016 |
20160131430 | HEAT EXCHANGER FOR VEHICLE - A heat exchanger comprises a first header, a second header, a plurality of tubes, and a flow reducer. The first header is connected to a hot fluid inlet and to a cold fluid outlet, so that the first header comprises a hot region and a cold region, separated by a wall. Each of the plurality of tubes provides fluid communication between the first and second headers, including one tube located next to the wall in the hot region of the first header, being called “hot end tube” , and one tube located next to the wall in the cold region of the first header, being called “cold end tube” . The flow reducer reduces the fluid flow in the hot end tube compared to the fluid flow in other tubes located in the hot region. | 05-12-2016 |
20160161190 | COLLECTOR PIPE FOR A HEAT EXCHANGER DEVICE, A HEAT EXCHANGER DEVICE AND A METHOD FOR EMPTYING A HEAT EXCHANGER DEVICE - A collection tube for a heat exchanger apparatus includes an outflow opening, an inflow opening, a plurality of deflection openings, and a separation element. The separation element is configured and arranged in the collection tube to divide the collection tube into an outflow region in which the outflow opening is arranged, an inflow region in which the inflow opening is arranged, and a first deflection region in which the deflection openings are arranged, the separation element being arranged with respect to a collection tube axis such that the separation element encloses an angle with the collection tube axis, the collection tube axis extending in an axial longitudinal direction of the collection tube. | 06-09-2016 |
20160195335 | LAMINATED HEADER, HEAT EXCHANGER, AIR-CONDITIONING APPARATUS, AND METHOD OF JOINING A PLATE-LIKE UNIT OF A LAMINATED HEADER AND A PIPE TO EACH OTHER | 07-07-2016 |
20160201990 | HEAT EXCHANGER | 07-14-2016 |
20160377347 | HEAT EXCHANGER - Provided is a heat exchanger. The heat exchanger includes a plurality of refrigerant tubes through which a refrigerant flows, a header including a tube connection part coupled to the plurality of refrigerant tubes and a refrigerant inflow part, a first pipe provided in the header to define a first flow space for the refrigerant, a second pipe surrounding the outside of the first pipe to define a second flow space for the refrigerant, and a communication hole defined in the first or second pipe to allow the refrigerant to pass therethrough. | 12-29-2016 |
20180023897 | FEED EFFLUENT HEAT EXCHANGER | 01-25-2018 |