Patent application number | Description | Published |
20100147488 | HEAT EXCHANGER FOR TEMPERATURE CONTROL OF VEHICLE BATTERIES - The invention relates to a heat exchanger for temperature controlling and fastening of battery units of the battery of a vehicle. The heat exchanger includes flat tubes that are passable by a heat carrier and a collecting tube and distributing tube for conducting the heat carrier. The flat tubes are established as multi-channel flat tubes. The collecting tube and the distributing tube are connected to each other over the flat tubes so that a holding frame is established that provides a structure forming spaces. The spaces are provided as chambers for accommodating the battery units. | 06-17-2010 |
20120125032 | REFRIGERATION PLANT WITH REFRIGERANT EVAPORATOR ARRANGEMENT AND PROCESS FOR PARALLEL AIR AND BATTERY CONTACT COOLING - A refrigeration plant with refrigerant evaporator arrangement and process for parallel air and battery contact cooling. The refrigeration plant includes a refrigerant evaporator arrangement for parallel air and battery contact cooling, having with a refrigerant compressor and a condenser An evaporator with an assigned controllable expansion member for air cooling and an evaporator as a battery contact cooler with an assigned controllable expansion member for battery cooling are provided. A throttling member is located between the evaporator and the tap of the assigned controllable expansion member. | 05-24-2012 |
20130014923 | BATTERY COOLERAANM Girmscheid; FelixAACI KolnAACO DEAAGP Girmscheid; Felix Koln DEAANM Talmon; JensAACI KolnAACO DEAAGP Talmon; Jens Koln DE - A battery cooler includes at least one support plate and at least one structure plate coupled to the at least one support plate. The at least one structure plate includes a flow channel for receiving a fluid therein. A cross-section of the flow channel has a width greater than a height thereof. The flow channel includes a plurality of webs, wherein one of the webs is disposed adjacent another one of the webs in respect of a direction of flow of the fluid, and the webs decrease the cross-section of the flow channel. | 01-17-2013 |
20130071707 | BATTERY COOLING SYSTEM - A battery cooling system includes a battery and a plurality of battery cooler pipes disposed adjacent the battery. Each of the battery cooler pipes is spaced apart and substantially parallel to an adjacent one of the battery cooler pipes. A clamping element is disposed adjacent at least one of the battery cooler pipes. The clamping element configured to urge the battery cooler pipes against at least a portion of the battery. The clamping element includes a plurality of clamping wings extending outwardly from a center portion of the clamping element. Each of the clamping wings of the clamping element is disposed adjacent at least one of the battery cooler pipes. The battery cooling system may further include a carrier disposed adjacent the center portion of the clamping element to absorb spring forces of the clamping wings. | 03-21-2013 |
20140075974 | HEAT EXCHANGER ARRANGEMENT FOR HEAT UPTAKE AND AIR CONDITIONING SYSTEM OF A MOTOR VEHICLE - The invention concerns an air conditioning system for conditioning the air of a passenger compartment of a motor vehicle including a housing with a first flow channel and a second flow channel for conducting air and a refrigerant circuit with an evaporator and a condenser. The evaporator is arranged in the first flow channel and the condenser in the second flow channel. The air conditioning system is designed for cooling and heating the passenger compartment and for a reheat operation. The setting of the operating mode is done only via the controlling of air guidance mechanisms. One of the heat exchangers evaporator or condenser is arranged with a part of the heat transfer surface in both the first and the second flow channel. | 03-20-2014 |
20140331710 | COMPACT HVAC SYSTEM FOR A MOTOR VEHICLE - The invention relates to a compact vehicle HVAC system including an evaporator unit, a condenser unit, and a component unit, as well as a refrigerant circuit. The evaporator unit and the condenser unit each are provided with air-passed heat exchangers and a fan in a casing. Further circuit components are displaced within the component unit. The casings of the evaporator unit, the condenser unit, and the component unit advantageously establish a connected compact casing arrangement. The heat exchangers are displaced within the compact casing arrangement. The refrigerant circuit is established for a combined refrigeration plant and heat pump operation as well as an afterheating operation, whereby in the afterheating operational mode the heating power of the afterheater established as condenser/gas cooler and the cooling power of the evaporator are controllable independently of each other. | 11-13-2014 |
20150345844 | ACCUMULATOR FOR COMBINED COMPONENT WITH INTERNAL HEAT EXCHANGER ESPECIALLY FOR REFRIGERANT LOOPS WITH R774 AS WORKING FLUID - A coolant accumulator including an accumulation tank with a suction pipe assembly, wherein the suction pipe assembly includes an external suction pipe and an internal suction pipe which are positioned coaxially and at a distance from each other, and connected with each other by way of a connecting piece at the respective lower ends of the suction pipes to form a flow path, and wherein the connecting piece features a radially positioned oil balancing bore which connects an oil sump region of the accumulation tank with the flow path in the suction pipe assembly. | 12-03-2015 |