A method and device for reducing ice and frost on a surface comprising a wettable pattern on a surface. The pattern is wetted with water which is frozen into ice to create overlapping hygroscopic that cover the surface.

A method and device for reducing ice and frost on a surface comprising a wettable pattern on a surface. The pattern is wetted with water which is frozen into ice to create overlapping hygroscopic that cover the surface.

A method of producing ice cubes in a mold and pan in cool ambient air wherein the steps of removing the mold from the pan and removing the ice cubes from the mold are carried out without any heating or thawing to obtain individual ice cubes with a substantially dry outer surface. A method of producing a block of ice cubes in cool ambient air is also provided wherein the steps above are repeated so that the ice cubes drop row above row to produce a block of ice cubes. A method of packaging ice cubes is also provided comprising obtaining a plurality of ice cubes with a substantially dry outer surface and of a stackable shape. The ice cubes are arranged adjacently into a block, and the block is encapsulated in a suitable packaging material.

A method of producing ice cubes in a mold and pan in cool ambient air wherein the steps of removing the mold from the pan and removing the ice cubes from the mold are carried out without any heating or thawing to obtain individual ice cubes with a substantially dry outer surface. A method of producing a block of ice cubes in cool ambient air is also provided wherein the steps above are repeated so that the ice cubes drop row above row to produce a block of ice cubes. A method of packaging ice cubes is also provided comprising obtaining a plurality of ice cubes with a substantially dry outer surface and of a stackable shape. The ice cubes are arranged adjacently into a block, and the block is encapsulated in a suitable packaging material.

An ice luge mould (1), the mould (1) comprising a first part (2) and a complementary second part (3), the first part (2) and the second part (3) being configured to form an internal cavity therebetween when assembled, the mould (1) further comprising a water inlet (20) and a fluid-tight seal (21, 31) provided around the periphery of the first part (2) and second part (3) and a channel-former (32) configured to form a channel in the ice luge.

An ice luge mould (1), the mould (1) comprising a first part (2) and a complementary second part (3), the first part (2) and the second part (3) being configured to form an internal cavity therebetween when assembled, the mould (1) further comprising a water inlet (20) and a fluid-tight seal (21, 31) provided around the periphery of the first part (2) and second part (3) and a channel-former (32) configured to form a channel in the ice luge.

An apparatus covering an evaporator on all four sides. a first inlet to allow refrigerant into the casing. A side chamber, a top chamber, a center chamber, and a bottom chamber to receive refrigerant and act as a heat exchange allowing the refrigerant received to undergo heat transfer and reduction in temperature due to thermal exchange with a plurality of side of the evaporator. A first outlet to allowing the refrigerant to exit the casing. A second inlet to allow the refrigerant to enter the evaporator after exiting the casing and distribute the refrigerant within the evaporator. A second outlet allowing the refrigerant to exit the evaporator and cycle through a refrigeration system. The first inlet and the second outlet are dual-piped to allow for heat exchange. The evaporator, comprising a plurality of tubes, optionally, space reducers, and optionally, a center space reducer.

A machine for making extruded ice obtained by passing a mass of ice in granules through an extrusion die (20) arranged at the end of a main cooled drum (4). The latter at one end has a flange (10) upon which a ring (14) clamping the die is fastened. Thus, screws for fastening the die to the main drum are not required, so that operations for the machine maintenance and for replacing the die are considerably facilitated.

A hail producing machine includes at least one diffuser for mixing water and carbon dioxide. At least one heat exchanger is in flow communication with the diffuser for receiving the mixture. A refrigeration unit freezes the mixture to form an ice rod in the heat exchanger. The ice rod is ejected from the heat exchanger and is converted into hail stones by a molding station downstream from the heat exchanger.

An apparatus covering an evaporator on all four sides. a first inlet to allow refrigerant into the casing. A side chamber, a top chamber, a center chamber, and a bottom chamber to receive refrigerant and act as a heat exchange allowing the refrigerant received to undergo heat transfer and reduction in temperature due to thermal exchange with a plurality of side of the evaporator. A first outlet to allowing the refrigerant to exit the casing. A second inlet to allow the refrigerant to enter the evaporator after exiting the casing and distribute the refrigerant within the evaporator. A second outlet allowing the refrigerant to exit the evaporator and cycle through a refrigeration system. The first inlet and the second outlet are dual-piped to allow for heat exchange. The evaporator, comprising a plurality of tubes, optionally, space reducers, and optionally, a center space reducer.