The present disclosure provides an ice making evaporator that combines the cubic shape of pan and partition evaporators with the central ice making of a pin evaporator to achieve an ice shape that is mostly cubic. Separation of the cooling ability of these two evaporator portions allows cube shaping during ice making cycle based on time, temperature, pressure, or other variables.

A system for manufacturing clear ice products is provided. The system includes a freezing module, a demolding module, and a converting station. The freezing module includes a frame comprising a plurality of levels, a plate freezer provided at each level, and at least one mold provided for placement on each plate freezer and suitable for receiving water. A control frame is provided associated with each plate freezer and is movable from an elevated position to fill position. In the fill position, the control frame is at least partially disposed within the mold. One or more circulation pumps are associated with each control frame for circulating water in the mold to release air bubbles as the water freezes. The demolding module removes the mold from the freezing module and removes formed ice from the mold. The converting station converts the formed ice into a clear ice product.

An ice maker includes a water system that delivers water from a water reservoir to an ice formation device. A mount can hold one or both of a fitting of a water level sensor and a water pump in relation to the water reservoir. For example, the mount can include integral features that lock with the fitting to mount the fitting on the ice maker at a sensing position. The mount can include integral features that form a bayonet connection with a portion of the pump. A vertical support wall can included integrated features for supporting the mount in relation to the water reservoir.

An icemaker employs a thermoformed ice tray that may have preprinted conductors providing for heating elements in capacitive sensing. Capacitive sensing may be used to control a water fill level and/or to detect complete freezing of the ice cubes and/or to detect complete ejection of the ice cubes.

Provided are an ice maker, a refrigerator, and a method for controlling the same, which can accurately detect whether ice-making water in accommodated in an ice-making groove is full.

To this end, an ice maker according to the present disclosure includes: a control box having a control unit disposed therein, an ice tray disposed on one side surface of the control box, and formed with an ice-making groove in which ice-making water is accommodated, a water supply unit configured to supply the ice-making water to the ice-making groove, and a detecting unit configured to detect the water level of the ice-making water accommodated in the ice-making groove, in which the detecting unit includes: a sensor housing formed of a non-conductor spaced apart from the ice tray and installed on one side surface of the control box, and having a water level measuring hole into which the ice-making water in the ice-making groove flows formed in one side surface thereof, a sensor formed of a conductor being in contact with the ice-making water flowing into the sensor housing through the water level measuring hole to detect the water level of the ice-making water, and a connector wire having one end connected to the sensor, and the other end connected to the control unit.

An apparatus for melting ice comprising an ice bin structure containing ice. The ice bin structure comprising a housing with four walls, a floor, and optionally four supporting legs, a nozzle assembly structure comprising a pipe as well as a head structure, wherein the head structure is oriented at a downward angle; a drainage means situated at the floor of the housing structure; and a removable cover oriented to comprehensively fit the open top of the housing.

A system for manufacturing clear ice products is provided. The system includes a freezing module, a demolding module, and a converting station. The freezing module includes a frame comprising a plurality of levels, a plate freezer provided at each level, and at least one mold provided for placement on each plate freezer and suitable for receiving water. A control frame is provided associated with each plate freezer and is movable from an elevated position to fill position. In the fill position, the control frame is at least partially disposed within the mold. One or more circulation pumps are associated with each control frame for circulating water in the mold to release air bubbles as the water freezes. The demolding module removes the mold from the freezing module and removes formed ice from the mold. The converting station converts the formed ice into a clear ice product.

The present disclosure provides an ice machine including a cabinet, a tray disposed inside the cabinet, wherein ice is formed on the tray, a nozzle disposed below the tray and spraying water toward the tray, a storage tank for storing the water to be supplied to the nozzle therein, a water-level sensor disposed in the storage tank, a pump connected to the nozzle by a guide pipe and supplying the water stored in the storage tank to the nozzle, a supply pipe for supplying water to the tray, a water supply valve disposed on the supply pipe, and a controller that opens and closes a flow path of the water supply valve based on a water-level measured by the water-level sensor.

A system for manufacturing clear ice products is provided. The system includes a freezing module, a demolding module, and a converting station. The freezing module includes a frame comprising a plurality of levels, a plate freezer provided at each level, and at least one mold provided for placement on each plate freezer and suitable for receiving water. A control frame is provided associated with each plate freezer and is movable from an elevated position to fill position. In the fill position, the control frame is at least partially disposed within the mold. One or more circulation pumps are associated with each control frame for circulating water in the mold to release air bubbles as the water freezes. The demolding module removes the mold from the freezing module and removes formed ice from the mold. The converting station converts the formed ice into a clear ice product.

A household refrigeration apparatus includes an interior container with a first wall and with a second wall angled relative to the first wall. The interior container bounds a first receiving space of the household refrigeration apparatus for food. An ice maker includes a housing formed by a wall area of the first wall of the interior container and a wall area of the second wall of the interior container in certain areas. The housing bounds a receiving space of the ice maker. The household refrigeration apparatus has a depth direction. The interior container includes a rear wall with a base plate. A drain gutter for condensation water, which forms in the ice maker, is integrated in the rear wall and the drain gutter is disposed offset rearwardly relative to the base plate of the rear wall in the depth direction.