Patent application number | Description | Published |
20130014915 | ACCUMULATOR FOR A COOLING FLUID AND HEAT EXCHANGERAANM HIRSCH; StefanAACI StuttgartAACO DEAAGP HIRSCH; Stefan Stuttgart DEAANM NEFF; HeikoAACI AuenwaldAACO DEAAGP NEFF; Heiko Auenwald DEAANM WIEBELT; AchimAACI DeidesheimAACO DEAAGP WIEBELT; Achim Deidesheim DE - An accumulator for a cooling fluid is provided that includes a floor. The floor has an interface for connecting a chamber of the accumulator to at least one cooling tube. The floor also has an opening that extends at least over a partial area of the chamber. The accumulator furthermore has a lid that is embodied in such a way as to seal the opening of the floor in a fluid-tight manner. The lid is embodied as wire or extrusion profile. | 01-17-2013 |
20130333869 | HEAT EXCHANGER - The invention relates to a heat exchanger, in particular for controlling the temperature of batteries or electronics, having at least one header with a bottom and a top, with openings which are provided in the bottom for receiving tube ends of tubes which are in fluidic communication with the headers, the headers being formed from a U-shaped element with two parallel limbs and a bottom region which connects the limbs, the openings being provided in the bottom region and a wall region which is introduced between the limbs being provided as top. | 12-19-2013 |
20140013774 | THERMOELECTRIC TEMPERATURE CONTROL UNIT - The application relates to thermoelectric temperature control units, for example for controlling the temperature of an energy storage device in a motor vehicle. An exemplary embodiment comprises a Peltier element, having a first and a second surface, wherein the second surface is substantially adjacent or opposite to the first. The first surface is connected in a thermally conductive manner to a first and/or second flow duct, through which a fluid can flow. The second surface is connected in a thermally conductive manner to a heat-producing element, wherein the first flow duct is in fluid communication at one of the ends thereof with a first header, and the second flow duct is in fluid communication at one of the ends thereof with a second header, and the first flow duct and the second flow duct are in fluid communication at the respective second ends thereof with a common reversing header. | 01-16-2014 |
20140090803 | CONNECTING SYSTEM FOR A HEAT EXCHANGER - Connecting system for a heat exchanger, the housing of which is formed by a housing top part and a housing bottom part, wherein the connecting system has a first and a second connecting element, by means of which the housing bottom part is connected to the housing top part by a positive and/or material connection. | 04-03-2014 |
20140090810 | HEAT EXCHANGER - Heat exchanger having a housing, having a fluid inlet and having a fluid outlet, wherein the heat exchanger is in fluid communication via the fluid inlet and the fluid outlet with a fluid circuit, having a flow-guiding element in the interior of the housing, wherein the housing is formed from a substantially planar housing upper part and a substantially trough-like housing lower part, wherein the housing lower part has a base region and an encircling side wall, wherein the housing lower part is formed by a supporting structure and an encasement and the supporting structure is at least partially surrounded by the encasement, wherein the supporting structure is formed from a metallic material, and the encasement is formed substantially from a plastic, wherein the housing upper part is formed from a plastic and the housing lower part is connected to the housing upper part substantially by means of plastic-on-plastic contact. | 04-03-2014 |
20140090811 | HEAT EXCHANGER - Heat exchanger ( | 04-03-2014 |
20140090812 | HEAT EXCHANGER - Heat exchanger having a first collecting box and having a second collecting box, having at least one tube arranged between the two collecting boxes, wherein a fluid inlet and a fluid outlet are provided which are arranged individually on in each case one of the collecting boxes or on a single one of the collecting boxes, wherein the tube is received at the ends in an opening in in each case one of the collecting boxes and is in fluid communication with the collecting boxes, wherein the opening is surrounded by an opening edge whose contour corresponds to the outer contour of the tube, and in that the opening is designed such that the opening cross section narrows toward the interior of the collecting box and the tube can be inserted, under preload at the circumference, into the opening. | 04-03-2014 |
20140090813 | HEAT EXCHANGER - Heat exchanger having a housing, having a first fluid port and having a second fluid port, wherein the housing is in fluid communication with a fluid source via the fluid ports, wherein the housing can be traversed by a flow of a fluid, wherein the housing is of multi-part design and has a housing upper part and a housing lower part, wherein the housing upper part and/or the housing lower part has a base region and an at least partially encircling turned-up edge region, wherein housing the two parts are formed from a plastic or a fiber composite material. | 04-03-2014 |
20140090823 | HEAT EXCHANGER - The invention relates to a heat exchanger with a first and a second collecting tank, with at least one tube arranged between the two collecting tanks, each having a fluid inlet and a fluid outlet. At least one tube end is in fluid communication with a collecting tank and is connected to the collecting tank via a form-fitting and/or integrally bonded connection, wherein the opening is surrounded by an opening edge. | 04-03-2014 |
20140305622 | DEVICE FOR CONTROLLING THE TEMPERATURE OF AN ENERGY ACCUMULATOR, MORE PARTICULARLY FOR A VEHICLE, AND METHOD FOR PRODUCTION THEREOF - The present invention relates to a device for controlling the temperature of an energy accumulator, more particularly for a vehicle. The device has a first outer wall element and a second outer wall element. A main surface of the first outer wall element and a main surface of the second outer wall element are interconnected by means of a rib made of a hardened adhesive. The rib forms at least one fluid conduction channel for conducting a temperature control fluid between the first outer wall element and the second outer wall element. | 10-16-2014 |
20150034287 | HEAT EXCHANGER FOR COOLING A VEHICLE BATTERY, IN PARTICULAR FOR HYBRID OR ELECTRIC VEHICLES - A heat exchanger for cooling a vehicle battery, in particular for hybrid or electric vehicles, having at least one fluid collector made of plastic, which is connected to at least one cooling element. In a heat exchanger in which the energy efficiency of the motor vehicle is increased, the cooling element is designed as a plastic tube, in which a fluid is conducted from the first fluid collector to a second fluid collector. | 02-05-2015 |