Patents Assigned to Cooltech Applications Societe par Actions Simplifiee
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Patent number: 9476616Abstract: A heat generator (10) which comprises magnetocaloric elements (2) that are arranged in a circle about a central axis. A magnetic arrangement (3) of alternating magnetized and non-magnetized zones (4, 5), that is located within the circle formed by the magnetocaloric elements (2), is rotatable around the central axis and co-operates with a field closing device (6) to loop magnetic flux generated by the magnetic arrangement (3) and alternately subject the magnetocaloric elements (2) to a magnetic field variation and create, alternately in each magnetocaloric element (2), heating and cooling cycles, in synchronization with the circulation of heat transfer fluid which flows through the magnetocaloric elements (2) during the heating and cooling cycles. The field closing device (6) comprises a heat insulation (9).Type: GrantFiled: October 13, 2009Date of Patent: October 25, 2016Assignee: Cooltech Applications Societe Par Actions SimplifieeInventors: Christian Muller, Jean-Claude Heitzler
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Patent number: 9134051Abstract: A magnetocaloric heat generator (1) in which a driving mechanism is (26) in fluidic connection with first and second ends (3 and 4) of a thermal module (2), via at least one heat exchange mechanism (7, 27), so that the heat transfer fluid circulates in a closed constant-volume fluidic circuit through the magnetocaloric heat generator (1).Type: GrantFiled: March 16, 2010Date of Patent: September 15, 2015Assignee: Cooltech Applications Societe Par Actions SimplifieeInventors: Jean-Claude Heitzler, Christian Muller
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Patent number: 9091465Abstract: A method for generating a heat flow from a magnetocaloric element (1) comprising at least one magnetocaloric material (2) comprising a hot end (3) associated with a hot chamber (4) and a cold end (5) associated with a cold chamber (6), the method comprises magnetically and alternately activating and de-activating the magnetocaloric element (1) and circulating a heat transfer fluid through the magnetocaloric element (1) alternately towards the hot chamber (4) and the cold chamber (5) in synchronisation with the magnetic activation and de-activation phases. This method is characterized in that the method comprises reversing the direction of circulation of the heat transfer fluid during the magnetic activation and de-activation phases and also relates to a magnetocaloric heat generator implementing the method.Type: GrantFiled: March 18, 2010Date of Patent: July 28, 2015Assignee: Cooltech Applications Societe par actions simplifieeInventors: Christian Muller, Jean-Claude Heitzler, Alain-Francois Douarre
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Patent number: 8904806Abstract: A method and an apparatus for increasing the temperature gradient of a magneto-calorific thermal generator comprising magneto-calorific elements subjected to a magnetic field variation. At least one of a pre-heating and pre-cooling of the magneto-calorific elements (60) is carried out to modify the initial temperature before and/or during the magnetic field variation before reaching the maximum and/or minimum field value. The method and apparatus may be employed in heating, tempering, air conditioning, refrigeration and other industrial or domestic applications.Type: GrantFiled: March 13, 2008Date of Patent: December 9, 2014Assignee: Cooltech Applications Societe Par Actions SimplifieeInventors: Nicolas Cramet, Jean-Louis Dupin, Jean-Claude Heitzler, Christian Muller
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Patent number: 8881537Abstract: A heat generator (1) comprises at least one thermal module (1?) which contains at least two adjacent magnetocaloric elements (2), and a common distribution chamber (3), associated with a heat transfer fluid circulation device (4), fluidly connects the adjacent magnetocaloric elements (2) with one another. Two end chambers (5, 6) are associated with a circulation means (7) and fluidly connected each with the two magnetocaloric elements (2) located at the hot end (9) and a cold (11) end of the thermal module (1). A magnetic arrangement of the heat generator (1) subjects each of the magnetocaloric element (2) to a variable magnetic field. The circulation mechanism (4), associated with the common distribution chamber (3), moves the heat transfer fluid simultaneously through the two adjacent magnetocaloric elements (2) in different circulation directions.Type: GrantFiled: October 20, 2009Date of Patent: November 11, 2014Assignee: Cooltech Applications Societe par actions simplifieeInventors: Christian Muller, Jean-Claude Heitzler
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Patent number: 8869541Abstract: A heat generator (1) having at least one thermal module (10) that has N adjacent magnetocaloric elements (2) arranged in a circle around a central axis (A) and is subjected to a varying magnetic field caused by magnetic devices (3). The magnetocaloric elements (2) are associated with N pistons (40) subjected to a reciprocating translation movement by an actuating cam (70) to circulate the heat transfer fluid, contained in the thermal module (10), in two opposite directions, at the same time, so that a first fraction of the heat transfer fluid circulates towards a hot exchange chamber (5), through the magnetocaloric elements (2) and is subjected to a heating cycle, and a second fraction of the heat transfer fluid circulates towards a cold exchange chamber (6), through the magnetocaloric elements (2), and is subjected to a cooling cycle, and inversely. The exchange chambers (5, 6) are coupled with external circuits that use calories and frigories for heating, air-conditioning, tempering systems, etc.Type: GrantFiled: October 17, 2008Date of Patent: October 28, 2014Assignee: Cooltech Applications Societe par actions simplifieeInventors: Jean-Claude Heitzler, Christian Muller
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Patent number: 8769966Abstract: A thermal generator (100) with at least one thermal module (110) comprising at least two magnetocaloric elements (111, 112). The thermal generator is characterized in that it comprises at least two magnetic assemblies (131, 132) in which one magnetic assembly (131, 132) subjects at least one magnetocaloric element (111, 112) of the thermal module (110) to alternate magnetic phases. The thermal generator is further characterized in that it comprises a thermally insulating body insulating the magnetic assemblies (131, 132) from each other and forming thermally insulated cells (141, 142) comprising one magnetic assembly (131, 132) and its corresponding magnetocaloric elements (111, 112).Type: GrantFiled: August 9, 2010Date of Patent: July 8, 2014Assignee: Cooltech Applications Societe par Actions SimplifieeInventors: Jean-Claude Heitzler, Christian Muller
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Patent number: 8701751Abstract: A heat exchanger for connecting thermal elements to one another and an external circuit in series, in parallel or according to a mixed configuration which limits the risk of leakage and the number of connections. The heat exchanger includes calorie-emitting and negative calorie-emitting thermal elements, and a conduit which passes through each of the thermal elements and has inlet and outlet orifices that are connected to one another and to at least one thermal fluid circuit by an interface plate. The interface plate includes two supply orifices and two discharge orifices for connecting the interface circuits to external hot and cold circuits for using the calories and the negative calories recovered from the thermal fluid.Type: GrantFiled: December 22, 2004Date of Patent: April 22, 2014Assignee: Cooltech Applications Société par actions simplifiéeInventors: Christian Muller, Jean-Louis Dupin, Jean-Claude Heitzler
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Patent number: 8683815Abstract: A magnetocaloric element (1) made by an alignment of at least two adjacent sets (MC1-10) of magnetocaloric materials having different Curie temperatures. The magnetocaloric materials within a same set (MC1-10) have the same Curie temperature. The sets (MC1-10) are arranged according to an increasing Curie temperature, and the magnetocaloric element (1) comprises elements (MA1-2) for initiating a temperature gradient between a hot end (6) and an opposed cold end (7) of the magnetocaloric element (1).Type: GrantFiled: September 23, 2009Date of Patent: April 1, 2014Assignee: Cooltech Applications Societe par actions simplifieeInventors: Christian Muller, Jean-Claude Heitzler, Jean-Luc Hamm
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Patent number: 8656725Abstract: A thermal generator (1) comprises at least one thermal flow generation unit (2) that is provided with at least one thermal module (3) each containing a magnetocaloric member (4) through which a coolant flows. A magnetic arrangement (9) is actuated for alternatively subjecting each magnetocaloric member (4) to a variation in magnetic field, the alternating movement of the coolant is synchronized with the magnetic field variation, the magnetocaloric member (4) is integrated into a closed flow circuit (6) that connects the two opposite ends (7) of the magnetocaloric member (4), and the closed circuit includes a single element (5) for moving the coolant through the magnetocaloric member (4).Type: GrantFiled: September 23, 2009Date of Patent: February 25, 2014Assignee: Cooltech Applications Société par actions simplifiéeInventors: Christian Muller, Jean-Claude Heitzler
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Patent number: 8596077Abstract: The thermal generator (1) which comprises at least one thermal module (10) constituted from many thermal elements (40), stacked and arranged in order to delimit channels therebetween for circulation of heat transfer fluid. These channels are divided into hot channels, in which the heat transfer fluid of the hot circuit flows, and cold channels, in which the heat transfer fluid of the cold circuit flows. The hot and cold channels are alternated between the thermal elements (40) and the thermal elements have fluid inlet and outlet orifices which communicate with one another so as to distribute the flow of heat transfer fluid of each hot and cold collector circuit, respectively, in the corresponding hot and cold channels.Type: GrantFiled: July 9, 2007Date of Patent: December 3, 2013Assignee: Cooltech Applications Societe par Actions SimplifieeInventors: Christian Muller, Jean-Louis Dupin, Jean-Claude Heitzler, Georges Nikly