A heat pump is provided that uses multiple stages of MCMs to cause heat transfer between a heat receiving end and a heat transmitting end. Thermal blocks are placed along the direction of heat transfer at locations in the heat pump that preclude the transfer of heat in a direction from the heat tran
A heat pump is provided that uses multiple stages of MCMs to cause heat transfer between a heat receiving end and a heat transmitting end. Thermal blocks are placed along the direction of heat transfer at locations in the heat pump that preclude the transfer of heat in a direction from the heat transmitting end towards the heat receiving end. The heat pump can be, for example, part of a refrigeration loop or can be connected directly with the object for which heating or cooling is desired. An appliance incorporating such a heat pump is also provided.
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1. A heat pump, comprising: a plurality of stages arranged sequentially along a direction of heat transfer between a heat receiving end and a heat transmitting end, the plurality of stages alternating between a stage comprising a normal magneto caloric material and a stage comprising an inverse magn
1. A heat pump, comprising: a plurality of stages arranged sequentially along a direction of heat transfer between a heat receiving end and a heat transmitting end, the plurality of stages alternating between a stage comprising a normal magneto caloric material and a stage comprising an inverse magneto caloric material;a plurality of thermal blocks, wherein at least one thermal block is positioned at the heat receiving end, at least one thermal block is positioned at the heat transmitting end, and at least one thermal block is positioned between each of the stages, wherein each thermal block is configured to preclude the transfer of heat in a direction from the heat transmitting end towards the heat receiving end; anda magnetic element configured to cycle a changing field of magnetic flux along the plurality of stages. 2. A heat pump as in claim 1, wherein each thermal block comprises a thermal diode. 3. A heat pump as in claim 1, wherein each thermal block comprises a thermal switch. 4. A heat pump as in claim 1, wherein one or more of the stages has a Curie temperature range that is greater than a Curie temperature range for an adjacent stage along the direction of heat transfer. 5. A heat pump as in claim 1, wherein each stage comprises a planar sheet. 6. A heat pump as in claim 1, wherein each stage comprises a plurality of particles. 7. A heat pump as in claim 1, wherein the magnetic element comprises a magnet. 8. A heat pump as in claim 1, wherein the magnetic element comprises: an electromagnet; anda power source operatively connected with the electromagnet to create the changing field of magnetic flux. 9. A heat pump as in claim 1, wherein the at least one thermal block comprises a plurality of thermal blocks, each thermal block positioned between at least two of the plurality of stages. 10. A refrigerator appliance comprising the heat pump of claim 1. 11. A refrigerator appliance, comprising: a compartment for the storage of food items;a heat pump comprising a heat receiving portion in thermal communication with the compartment so as to receive heat from the compartment;a heat transmitting portion for releasing heat;a plurality of stages positioned adjacent to each other along a direction of heat transfer between the heat receiving portion and the heat transmitting portion; the plurality of stages alternating between one or more stages comprising a normal magneto caloric material and one or more stages comprising an inverse magneto caloric material;a plurality of thermal blocks, at least one block positioned between each pair of adjacent stages of the plurality of stages, at least one thermal block positioned downstream of the heat receiving portion, at least one thermal block positioned upstream of the heat transmitting portion, the plurality of thermal blocks configured to substantially block the transfer of heat in a direction from the heat transmitting portion towards the heat receiving portion; anda magnetic element configured to subject the plurality of stages to field of changing magnetic flux. 12. A refrigerator appliance as in claim 11, wherein each thermal block comprises a thermal diode. 13. A refrigerator appliance as in claim 12, wherein the thermal block comprises a thermal switch. 14. A refrigerator appliance as in claim 11, wherein one or more of the stages has a Curie temperature range that is greater than a Curie temperature range for an adjacent stage along the direction of heat transfer. 15. A refrigerator appliance as in claim 11, wherein each stage comprises a planar sheet. 16. A refrigerator appliance as in claim 11, wherein each stage comprises a plurality of particles. 17. A refrigerator appliance as in claim 11, wherein the magnetic element comprises a magnet. 18. A heat pump, comprising: a plurality of stages arranged sequentially along a direction of heat transfer between a heat receiving end and a heat transmitting end, the plurality of stages alternating between a stage comprising a magneto caloric material and a stage comprising a thermally conductive metal;a plurality of thermal blocks, wherein at least one thermal block is positioned at the heat receiving end, at least one thermal block is positioned at the heat transmitting end, and at least one thermal block is positioned between each of the stages, wherein each thermal block is configured to preclude the transfer of heat in a direction from the heat transmitting end towards the heat receiving end; anda magnetic element configured to cycle a changing field of magnetic flux along the plurality of stages. 19. A heat pump as in claim 18, wherein the magneto caloric material comprises a normal magneto caloric material.
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이 특허에 인용된 특허 (15)
Ghoshal, Uttam Shyamalindu, Apparatus and methods for performing switching in magnetic refrigeration systems using inductively coupled thermoelectric switches.
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