An ice making assembly includes an ice mold and a pump assembly for urging an ice-building spray into the ice mold to form an ice billet. A controller operates the pump assembly to provide the ice-building spray at a first flow rate until the ice billet reaches a predetermined thickness and then operates the pump assembly to provide the ice-building spray at a second flow rate that is less than the first flow rate.

An ice maker includes an evaporator configured to freeze water into ice as it flows vertically down a freeze plate. A distributor distributes the water along the top of the freeze plate to form ice across the width of the freeze plate as the water flows downward along the freeze plate. The distributor can be integrated into the evaporator. For example, the distributor and evaporator can have a part in common. The distributor can be formed from two pieces that come together to form the freeze plate. The distributor can have various features that aid in providing a desirable distribution of water along the width of the freeze plate. The freeze plate can be mounted in an ice maker enclosure in thermal communication with the evaporator and to slant forward.

An ice maker includes an evaporator configured to freeze water into ice as it flows vertically down a freeze plate. A distributor distributes the water along the top of the freeze plate to form ice across the width of the freeze plate as the water flows downward along the freeze plate. The distributor can be integrated into the evaporator. For example, the distributor and evaporator can have a part in common. The distributor can be formed from two pieces that come together to form the freeze plate. The distributor can have various features that aid in providing a desirable distribution of water along the width of the freeze plate. The freeze plate can be mounted in an ice maker enclosure in thermal communication with the evaporator and to slant forward.

A drawer includes a drawer base mounted to a housing, a drawer, and a bottom tray. The drawer slides relative to the drawer base and includes a front wall and a receptacle that includes a bottom wall with a front edge and a back edge. The front edge is mounted to the front wall. The bottom wall forms a first funnel that slopes downward from the front edge to the back edge. The bottom tray is mounted to the drawer base below the receptacle not to slide relative to the drawer base. The bottom tray includes a tray wall and a drain aperture wall. The tray wall includes a front edge and a back edge and forms a second funnel that slopes downward from the front edge to the back edge. The drain aperture wall is mounted to the tray wall at a lowest elevation of the second funnel.

Apparatus and methods for constructing ice structures are provided. An apparatus for construction of a structure from ice may include multiple tubes. Each of the tubes may be disposed in an upright position. Each of the tubes may have a constant inner diameter and/or a closed bottom. The tubes may be disposed within a frame for transport of the tubes.

Apparatus and methods for constructing ice structures are provided. An apparatus for construction of a structure from ice may include multiple tubes. Each of the tubes may be disposed in an upright position. Each of the tubes may have a constant inner diameter and/or a closed bottom. The tubes may be disposed within a frame for transport of the tubes.

A refrigerator appliance may include a cabinet, a liner, a thermodynamic assembly, an air conduit, a heat pipe, a conductive ice mold, and a water dispenser. The liner may define an icebox (IB) compartment. air conduit may be disposed within the IB compartment. The air conduit may define a conduit path between a conduit inlet and a conduit outlet downstream from the conduit inlet. The heat pipe may be mounted to the air conduit and extend therefrom outside of the conduit path. The conductive ice mold may be mounted to the heat pipe within the IB compartment. The conductive ice mold may define a mold cavity outside of the air conduit. The water dispenser may be positioned below the conductive ice mold to direct an ice-building spray of water to the mold cavity.

An ice maker has a bottom wall with a sensor opening. A time-of-flight sensor is supported in relation to the bottom wall such that the time-of-flight sensor can an optical pulse signal through the sensor opening toward the ice bin and subsequently detect a photon of the optical pulse signal that returns to the time-of-flight sensor through the sensor opening after reflecting off of one of a floor of the ice bin and ice in the ice bin. The time of flight sensor is configured to determine a duration between the emission of the optical pulse and the detection of the reflected photon(s). Based on the determined duration, the time-of-flight sensor or another processor can determine an amount of ice in the ice bin. The ice maker can be configured so that the time-of-flight sensor is removable, allowing a window pane of the time-of-flight sensor to be periodically cleaned.

An ice maker has a bottom wall with a sensor opening. A time-of-flight sensor is supported in relation to the bottom wall such that the time-of-flight sensor can an optical pulse signal through the sensor opening toward the ice bin and subsequently detect a photon of the optical pulse signal that returns to the time-of-flight sensor through the sensor opening after reflecting off of one of a floor of the ice bin and ice in the ice bin. The time of flight sensor is configured to determine a duration between the emission of the optical pulse and the detection of the reflected photon(s). Based on the determined duration, the time-of-flight sensor or another processor can determine an amount of ice in the ice bin. The ice maker can be configured so that the time-of-flight sensor is removable, allowing a window pane of the time-of-flight sensor to be periodically cleaned.

An ice maker includes an upper assembly having an upper tray that defines upper portions of a plurality of ice making chambers. The ice maker also includes a lower assembly that is located vertically below the upper assembly and configured rotate relative to the upper assembly. The lower assembly includes a lower tray that defines lower portions of the plurality of ice making chambers, and a lower support that is configured to receive the lower tray and restrict an outward expansion of the lower portions of the plurality of ice making chambers. The lower tray includes a lower tray body configured to hold a first volume of water, and a circumferential wall that extends upward from the lower tray body and is configured to hold a second volume of water above the first volume of water.