An icemaking compartment is provided in the refrigerator compartment of a bottom mount refrigerator. An icemaker is within the icemaking compartment. A cold air duct supplies cold air from the freezer compartment to the icemaker. The cold air duct is formed in the rear wall of the refrigerator. A fan controls the flow of air through the cold air duct. A return air duct is provided to direct a portion of the air from the icemaker back to the freezer compartment. An air vent in the icemaker directs another portion of air into the refrigerator compartment.
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
F25B 21/02 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet PeltierMachines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet Nernst-Ettinghausen
2.
Refrigerator including food product management system
A refrigerator includes at least one refrigerated compartment and a food product management system. The food product management system includes a container for storing foodstuffs in the at least one refrigerated compartment. The container includes a storage zone and a lid. A tag is arranged on the container to provide a consumer with an indication of whether a food item stored in the container is or is not spoiled. The tag can include a timer having a display, an indicator that changes state upon the passage of a predetermined time period and a computer that notifies a consumer, such as through an email, about a parameter associated with the food item in the container. The tag is affixed to the container with adhesive, snaps, clips, hooks and the like or, alternatively, simply integrally formed with the container.
A handle assembly for mounting to a door of an appliance includes a main body member having first and second end portions separated by an intermediate portion. Each of the first and second end portions includes a cavity adapted to receive an end insert formed of soft material. Each of the end inserts includes an attaching member. The handle is mounted to a front face of the door through interengagment of the attachment members and base members provided on the door without scratching the surface of the door.
A device for sensing a level of ice stored in a bin of an automatic ice maker includes a bail arm and an actuator mechanism. The actuator mechanism is constituted by a shape memory alloy that, upon application of a voltage, contracts to move the bail arm to a raised position prior to initiation of an ice harvest cycle. After completion of the ice harvest cycle, the voltage is discontinued, allowing the shape memory alloy to relax, causing the bail arm to return to a lowered position. The bail arm includes a sensing member that extends into the bin and, depending upon the level of ice, prevents the bail arm from contacting a sensing switch, temporarily halting ice production.
A kitchen appliance includes a door having an outer panel portion and an inner panel portion, with a plurality of mounting members being spaced about the outer panel portion of the door. A glass panel assembly, including a glass panel and a plurality of mounting elements, is detachably mounted to the door through the interengagement of the plurality of mounting elements with the plurality of mounting members. The mounting elements are adhesively secured to the glass panel. Neither the plurality of mounting members nor the plurality of mounting elements are readily visible normally when viewing the kitchen appliance such that the glass panel appears to float relative to the door.
A refrigerator includes a fresh food compartment, a freezer compartment and a refrigeration system. A duct, exposed to the freezer compartment, leads into the fresh food compartment. A damper is arranged within the duct to selectively allow the passage of cooling air into the fresh food compartment. The refrigerator also includes an air mixing fan arranged in the fresh food compartment, a freezer mounted ice maker, a user interface having a plurality of control elements and a controller operatively associated with the user interface. The controller includes a memory having stored therein a plurality of operating parameters for controlling various aspects or features of the refrigerator, including a temperature control mode, a super cool mode, a food saver mode and a quick ice mode, which can be synergistically combined to efficiently operate the refrigerator.
F25D 17/04 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
F25D 11/02 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p. ex. réfrigérateurs ménagers avec compartiments de refroidissement à des températures différentes
7.
Control system for a refrigerator ice/water dispenser
A control system for a refrigerator ice/water dispenser includes an actuation switch, at least one drive unit for releasing either ice or water, a motor activation relay that controls operation of the drive unit, and a power system having multiple power supplies for operating the control system, motor activation relay and drive unit(s). Preferably, the dispenser includes multiple actuation switches, e.g. a water activation switch and a water/ice activation switch, each having an associated activation relay for independently controlling the release of water and/or ice respectively. Current for initiating the drive unit activation relays must pass through a corresponding actuation switch in order to prevent unintended release of water and/or ice. Multiple processor circuits are preferably employed, with one processor circuit relaying to another processor circuit to enable drive unit activation. Preferably, the actuation switches constitute membrane switches so as to maintain minimum voltage levels at the dispenser.
A door mounted dispenser for a refrigerator includes rear and opposing side walls that collectively define a cavity, a release mechanism for dispensing ice and/or water and a light for illuminating the cavity. The cavity light can be operated in one of three distinct modes, i.e., in a first mode wherein the cavity light is continuously illuminated, in a second mode wherein the cavity light is illuminated only through activation of the release mechanism, and in a third mode wherein the cavity light is illuminated based upon a sensed level of ambient light present at or near the refrigerator. In the third mode, the cavity light is illuminated at a first level based upon ambient light and a second, higher level when the release mechanism is operated. The level of ambient light necessary to activate the cavity light can be set by a consumer through control panel inputs.
A refrigerator includes a refrigerator cabinet, a fresh food compartment disposed within the cabinet, a freezer compartment disposed within the cabinet, an ice compartment disposed within the cabinet, and an electronic control system associated with the refrigerator and adapted to monitor and control the fresh food compartment, the freezer compartment and the ice compartment. The control system provides for energy efficient control and operation through various means, including by monitoring state of an ice maker associated with the ice compartment and controlling temperature within compartments of the refrigerator based on the ice maker state. A damper controls air flow between the fresh food and freezer compartments. The control system can direct heat to the damper if the damper becomes frozen.
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
10.
Insulated ice compartment for bottom mount refrigerator with temperature control system
A refrigerator includes a refrigerator cabinet, a fresh food compartment disposed within the cabinet, a freezer compartment disposed within the cabinet, an ice compartment disposed within the cabinet, and an electronic control system associated with the refrigerator and adapted to monitor and control the fresh food compartment, the freezer compartment and the ice compartment. The control system provides for energy efficient control and operation through various means, including adjusting cut-in and cut-out temperatures of the cooling system to control.
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée en utilisant des conduits
An improved refrigerator door is provided with a metal outer panel and upper and lower plastic end caps installed on top and bottom edges of the door. The caps include grooves to receive flanges on the edges of the panel, thereby mounting the caps to the panel. The caps include ratcheting members to provide a mating fit with the panel. A bushing is snap fit into the upper cap without the use of hardware fasteners. Electric wires and a water line extend downwardly through the bushing to an ice and water dispenser in the door.
E04C 2/54 - Éléments translucides en forme de dalles
E04C 2/38 - Éléments de construction de relativement faible épaisseur pour la construction de parties de bâtiments, p. ex. matériaux en feuilles, dalles ou panneaux caractérisés par la forme ou la structure avec nervures, rebords ou similaires fixés dessus, p. ex. panneaux structurés
An improved icemaker is provided for a refrigerator. The improvements include tilting the ice mold to assure that the ice cavity nearest the thermostat is filled with water; controlling air flow to the mold to promote rapid freezing of water in the mold cavities; raising the perimeter walls of the mold to minimize water spillage; and providing hooks on the mold for routing electrical wires.
A refrigerator includes a refrigerator cabinet, a fresh food compartment disposed within the cabinet, a freezer compartment disposed within the cabinet, an ice compartment disposed within the cabinet, and an electronic control system associated with the refrigerator and adapted to monitor and control the fresh food compartment, the freezer compartment and the ice compartment. The control system provides for energy efficient control and operation through various means, including by monitoring state of an ice maker associated with the ice compartment and controlling temperature within compartments of the refrigerator based on the ice maker state. A heater is controlled by the control system to increase energy efficiency of the refrigerator.
An improved refrigerator is provided with a freeze tolerant valve for the water tank assembly in the refrigerator. The valve includes a body with an internal plastic spool which minimizes the volume of water within the valve, and which provides a space in the valve to accommodate freezing water in the valve. The valve will not crack or fail in the event of a temperature control problem in the refrigerator which results in frozen water within the valve.
F25D 23/12 - Aménagements des compartiments annexes aux compartiments de refroidissementRéfrigérateurs combinés avec un autre appareil, p. ex. une cuisinière
A refrigerator is provided with a fresh food compartment and a door for the fresh food compartment having an organizer with a plurality of openings formed in the door for holding individual food and beverage containers. The openings include a cradle for supporting a sidewall of each container so as to hold the container in an inclined orientation. The openings are vertically aligned adjacent the ice dispenser chute of the door.
An insulated icemaking compartment is provided in the fresh food compartment of a bottom mount refrigerator. The icemaking compartment may be integrally formed with the liner of the fresh food compartment, or alternatively, may be modular for installation anywhere in the fresh food compartment. A removable bin assembly with a front cover normally seals the icemaking compartment to maintain the temperature in the compartment. A cold air duct formed in the rear wall of the refrigerator supplies cold air from the freezer compartment to the icemaking compartment. A return air duct directs a portion of the air from the icemaking compartment back to the freezer compartment. An air vent with a damper in the icemaking compartment directs another portion of air into the fresh food compartment. A control system provides for controlling refrigerator functions in a manner that promotes energy efficiency, including movement of the damper between open and closed positions.
An insulated ice making compartment is provided in the fresh food compartment of a bottom mount refrigerator. The ice making compartment may be integrally formed with the liner of the fresh food compartment, or alternatively, may be modular for installation anywhere in the fresh food compartment. A removable bin assembly with a front cover normally seals the ice making compartment to maintain the temperature in the compartment. A cold air duct formed in the rear wall of the refrigerator supplies cold air from the freezer compartment to the ice making compartment. A return air duct directs a portion of the air from the ice making compartment back to the freezer compartment. An air vent in the ice making compartment directs another portion of air into the fresh food compartment. A control system provides for controlling refrigerator functions in a manner that promotes energy efficiency. The refrigerator has an improved water fill tube for the ice maker.
A cooking appliance includes an oven cavity, a trim element and a door designed to pivot about a substantially vertical axis. The door is mounted for pivotal movement relative to the oven cavity about a substantially vertical axis. The door includes a main body portion having a front surface, a rear surface and a peripheral edge portion. The peripheral edge portion includes top, bottom and opposing side edge sections, with each of the opposing side edge sections leading to an extended region that overlaps, at least in part, the trim element. The extended region includes a generally rounded portion directly adjacent to the trim element. The generally rounded portion provides clearance necessary to enable the door to shift between open and closed positions, while simultaneously allowing the use of an extremely thin or low profile door.
The present invention is a refrigerator having an ice and water dispenser with a lighted dispenser target ring. The dispenser has a lighted target ring to facilitate positioning of a container for receipt of ice and water. An additional benefit is that the lighted target ring reduces ice and water spray outside of the container being filled.
A refrigerator having an ice and water dispenser. The dispenser includes an ice chute door actuated by an electric motor for reducing energy consumption over traditional solenoid activated doors.
A drawer-type dishwasher includes a frame assembly, a wash tub, a plurality of wash system components and a sump. The sump is either integrally formed with or separately formed and mounted to a bottom wall portion of the tub, while being provided with a plurality of fluid conduits that extend from a central intake ring to a respective plurality of attachment flanges. A wash pump and a drain pump are supported by respective ones of the plurality of attachment flanges so as to direct a flow of wash fluid into and out of the wash tub. The sump also includes structure for mounting a heater and a filter housing, as well as other wash and safety system components.
A dishwasher includes a drain pump assembly having a chopper assembly coupled to an impeller and driven by a synchronous motor. The chopper assembly includes an impeller housing that includes a central hub portion for pivotally supporting a plurality of rotatable chopper blades. An apertured plate is secured to the impeller housing and maintained in a spaced relationship from the chopper blades. The chopper assembly is coupled to the impeller through an axially sliding drive mechanism that facilitates assembly of the chopper assembly into the impeller housing. The synchronous motor drives the chopper blade in a first direction until encountering a hard soil particle whereupon the chopper blades can pivot so that the chopper assembly can continue to operate or, if the chopper blade becomes jammed, the synchronous motor can oscillate to hammer the hard soil particle until it becomes small enough to pass through the apertured plate.
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