Ice making machine, method and evaporator assemblies
First Claim
1. An ice making machine comprising:
- a water supply, a cooling system, an electrical energy source, and an evaporator assembly, wherein said evaporator assembly comprises at least one thermally conductive surface disposed in thermal transfer with an electrically conductive and thermally conductive layer, and wherein said layer is connected in circuit with said electrical energy source; and
a controller that during a freeze mode operates said water supply and said cooling system to form ice on said electrically conductive and thermally conductive layer and during a harvest mode operates said electrical energy source to apply electrical pulse energy to said electrically conductive and thermally conductive layer to melt an interfacial layer of said ice such that it is freed from said layer, wherein said electrically conductive and thermally conductive layer is part of an array of thermally conductive surfaces, wherein said evaporator assembly further comprises a base portion that includes said array of thermally conductive surfaces, and wherein said thermally conductive surfaces are separated from one another by spaces over which ice is not formed during said freeze mode.
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Accused Products
Abstract
Ice making machine that uses PETD harvest technology, evaporators, ice molds and cooling system. One evaporator makes thin layers of ice that are laminated to form a larger ice piece. Other evaporators include an ice forming surface on a material that has good thermal conductivity for forming ice in a freeze mode and good electrical conductivity to serve as a resistive heater during a harvest mode. One evaporator has a plate and an array of freezing sites that extend above a surface thereof. Another evaporator has a plate that is divided into strips of good and poor thermal conductivity by. Another evaporator has a refrigerant tube that is sandwiched between a pair of corrugated sheets that have ice forming surfaces. Another evaporator has a waffle style pan that is constructed of a dielectric layer sandwiched between a pair of copper layers. Another evaporator forms an ice slab on an inclined flat surface, which after harvest is diced into cubes with a wire grid. A cooling system uses an evaporator to provide a cooling air to an ice mold to form ice and uses PETD energy to harvest the ice and defrost the evaporator.
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Citations
21 Claims
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1. An ice making machine comprising:
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a water supply, a cooling system, an electrical energy source, and an evaporator assembly, wherein said evaporator assembly comprises at least one thermally conductive surface disposed in thermal transfer with an electrically conductive and thermally conductive layer, and wherein said layer is connected in circuit with said electrical energy source; and a controller that during a freeze mode operates said water supply and said cooling system to form ice on said electrically conductive and thermally conductive layer and during a harvest mode operates said electrical energy source to apply electrical pulse energy to said electrically conductive and thermally conductive layer to melt an interfacial layer of said ice such that it is freed from said layer, wherein said electrically conductive and thermally conductive layer is part of an array of thermally conductive surfaces, wherein said evaporator assembly further comprises a base portion that includes said array of thermally conductive surfaces, and wherein said thermally conductive surfaces are separated from one another by spaces over which ice is not formed during said freeze mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. An ice making system comprising:
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a water supply, a cooling system, an electrical energy source, and a vertical ice forming assembly, wherein said vertical ice forming assembly comprises at least one thermally conductive surface disposed in thermal transfer with an electrically conductive and thermally conductive layer, and wherein said layer is connected in circuit with said electrical energy source; and a controller that during a freeze mode operates said water supply and said cooling system to form ice on said electrically conductive and thermally conductive layer and during a harvest mode operates said electrical energy source to apply electrical pulse energy to said electrically conductive and thermally conductive layer to melt and interfacial layer of said ice such that it is freed from said layer, wherein said cooling system comprises a blower, a refrigerant supply and an evaporator; and
wherein the controller during the freeze mode operates said blower to provide an air stream that flows to said evaporator assembly and operates said refrigerant supply and said vertical ice forming to cool said air stream to a temperature that causes said ice to form on side electrically conductive and thermally conductive layer.
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16. A method of melting ice with an ice making machine that comprises an evaporator assembly that includes at least one thermally conductive surface in thermal transfer with an electrically conductive and thermally conductive layer, a water supply, a cooling system and an electrical energy source, comprising:
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during a freeze mode operating said water supply and said cooling system to form ice on said electrically conductive and thermally conductive layer; and during a harvest mode operating said electrical energy source to apply electrical pulse energy to said electrically conductive and thermally conductive layer to melt an interfacial layer of said ice such that it is free from said electrically conductive and thermally conductive layer, wherein said electrically conductive and thermally conductive layer is part of an array of thermally conductive surfaces, wherein said evaporator assembly further comprises a base portion that includes said array of thermally conductive surfaces, and wherein said thermally conductive surfaces are separated from one another by spaces over which ice is not formed during said freeze mode. - View Dependent Claims (17, 18, 19, 20, 21)
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Specification