An auger-type ice maker includes an ice generator including an ice making tube, an auger installed coaxially within the ice making tube, and a refrigerant pipe wound spirally around and fixed to an outer surface of the ice making tube to be in close contact therewith, an ice compressor connected to an upper portion of the ice generator, the ice compressor configured to compress ice generated by the ice generator, and a fluid reservoir connected to a lower portion of the ice generator, the fluid reservoir configured to retain a fluid to be supplied to the ice generator. A portion of the fluid reservoir is disposed in a position the same as or higher than that of the ice compressor.
F25C 1/147 - Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes from the inner walls of cooled bodies by using augers
2.
METHOD FOR MANUFACTURING AUGER-TYPE ICE MAKER AND THE MANUFACTURED AUGER-TYPE ICE MAKER
According to an embodiment of the present disclosure, a method for manufacturing an auger-type ice maker including an ice-making tube, an auger, a refrigerant pipe, and a metal core material, includes heating and feeding the metal core material to the ice-making tube; winding the metal core material together with the refrigerant pipe around the ice-making tube; and heating a welding agent through an internal space of the ice-making tube to perform adhesion between the metal core material and both of the refrigerant pipe and the ice-making tube, wherein, in the winding the metal core material together with the refrigerant pipe on the ice-making tube, the heated metal core material is pressurized by pressure of winding the refrigerant pipe around the ice-making tube, to completely fill the spiral space with the heated metal core material, or to form a uniform interval in the spiral space.
F25C 1/147 - Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes from the inner walls of cooled bodies by using augers
B23K 31/02 - Processes relevant to this subclass, specially adapted for particular articles or purposes, but not covered by any single one of main groups relating to soldering or welding
3.
Method of controlling ice-detaching temperature of icemaker
Provided is a method of controlling an ice-detaching temperature of an icemaker, including a first step of performing an ice-making operation in an ice-making unit, and counting a required ice-making time period from a starting point in time of the ice-making operation to an end point in time of the ice-making operation; a second step of acquiring the counted required ice-making time period, and acquiring an ambient temperature from an external temperature sensor; a third step of determining a variable ice-detaching time period, depending on the acquired ambient temperature and the acquired required ice-making time period; and a fourth step of using the determined ice-detaching time period to perform an ice-detaching operation. Ice of a cold plate is completely separated from the cold plate during an ice-detaching operation under conventional temperature conditions and even under harsh environments, preventing icemaker failure and increasing ice-making capacity.
A system and method for controlling ice-making and ice-separating of an ice maker is proposed. In the ice maker that is configured to change an ice-separating time so that ice is cleanly separated in accordance with a changed required icing when the required icing time is changed, the system and method count a consumed ice-making time when ice-making is performed, set a target ice-separating time longer than a predetermined reference ice-separating time when the consumed ice-making time is out of a reference time range, and control the ice maker to perform ice-separating for the set target ice-separating time by means of the controller.
A device for removing foreign matter in an ice maker is configured to prevent foreign matter from accumulating on the bottom of a float by changing the structure of the bottom of the float. The device includes a level sensor sensing a water level using a float moving up and down, depending on a height of water supplied in a water tank and a connection pipe forming a channel for water flow between the water pump and the level sensor by being connected to the level sensor, and having an inclined surface inclined downward toward an entrance of the channel under the float.
Disclosed is an evaporator for an ice maker including: a refrigerant pipe having a circular cross-section, with refrigerant flowing therethrough; and a pair of ice making plates disposed on opposite sides of the refrigerant pipe. The refrigerant pipe is disposed between inner side surfaces of the ice making plates facing each other, and rounded parts are provided by being formed outwards at a place where the refrigerant pipe is located such that the rounded parts cover both sides of the refrigerant pipe by being in close contact therewith.
F28D 1/047 - Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with the heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being bent, e.g. in a serpentine or zig-zag
Disclosed is a system of controlling an ice maker. The system includes: an ice making part producing ice; a water reservoir provided with a pump, and storing water supplied from outside and providing the water supplied from outside to the ice making part or draining the water outside; and a controller. In particular, when an accumulated number of ice making cycles of the ice making part reaches a predetermined number of ice making cycles, the controller drains the water stored in the water reservoir, and controls a drainage time during which the water is drained on the basis of the predetermined number of ice making cycles, such that the water stored in the water reservoir is drained.
Disclosed is a system of controlling an ice maker. The system includes: an ice making part producing ice; an ice reservoir storing the ice; a water reservoir storing water supplied from outside and providing the water to the ice making part or draining the water; and a controller, when a full state of the ice reservoir is sensed after an ice separation process of separating the ice produced in the ice making part is completed, stopping operation of the ice making part and allowing a first drainage of the water stored in the water reservoir to a predetermined water level and a second drainage of the stored water for a predetermined additional drainage time. In particular, the controller controls the additional drainage time desired for the second drainage by comparing an actual drainage time desired for the first drainage with a preset normal time.
G01F 23/00 - Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm
F25C 1/12 - Producing ice by freezing water on cooled surfaces, e.g. to form slabs
A system of controlling an ice maker. The system includes: an ice making part producing ice; a water reservoir to store water supplied from outside and provide the water to the ice making part or drain the water; and a controller to control the ice making part to perform an ice separation process, supply the water to the water reservoir during an ice separation time, and drain the water in the water reservoir when an accumulated number of ice making cycles of the ice making part reaches a predetermined number of ice making cycles. In particular, when the accumulated number of ice making cycles reaches the predetermined number of ice making cycles and the water in the water reservoir is drained, the controller increases the ice separation time, drains the water in the water reservoir for the increased ice separation time, and re-supplies the water to the water reservoir after draining the water.
A splash screen apparatus for an ice maker includes an ice making portion for making ice, a water/ice separating portion separating water and ice dropped from the ice making portion, and an ice storage unit connected with the water/ice separating portion through a chute. The ice storage unit stores ice separated by the water/ice separating portion. The apparatus further includes a screen disposed above the chute and ice separated by the water/ice separating portion is passed into the ice storage unit and water is stopped from being introduced into the ice storage unit.
There is provided a method for diagnosing an ice-making apparatus, wherein the ice-making apparatus includes a control unit and a display unit, wherein the method comprises: determining, by the control unit, whether a diagnosis-initiation condition for the ice-making apparatus is satisfied or not; upon determination that the diagnosis-initiation condition for the ice-making apparatus is satisfied, counting, by the control unit, an actual number of ice forming and removing cycles performed by the ice-making apparatus; and displaying the counted number on the display unit by the control unit.
An ice maker including piping for water drainage therein is provided. The ice maker includes a cabinet body, an ice storage portion provided in the cabinet body and separable from the cabinet body, a first coupling portion disposed on a lower surface of the ice storage portion and having a first coupling hole, a drain portion provided downwardly of the cabinet body within the cabinet body and including a drainage passage connected to an external drainage hole, and an overflow socket inserted into the first coupling hole and connected to the drainage passage to connect the ice storage portion to the drain portion, and configuring a path allowing water received by the ice storage portion to be discharged to the drainage passage, thereby providing an ice maker having easy separation and coupling.
A door hinge unit in a refrigerator which pivots a door on a refrigerator body, and holds the door to maintain an opened state or a maximum opened state at a predetermined position for preventing the door from hitting an external object and a hinge shaft from breaking, and minimizes a friction surface between a male member and a female member of the hinge for making movement of the hinge smooth and preventing the hinge from causing noise.
patents