A method of operating an auger ice-making machine having a refrigeration casing, an auger screw rotatably disposed inside the casing and feeding, while scraping, the ice frozen on an inner wall surface of the casing, a stocker for storing/retaining the ice fed, the stocker being formed with an ice d
A method of operating an auger ice-making machine having a refrigeration casing, an auger screw rotatably disposed inside the casing and feeding, while scraping, the ice frozen on an inner wall surface of the casing, a stocker for storing/retaining the ice fed, the stocker being formed with an ice discharge port of the stocker in order to discharge the ice to an exterior of the machine by being opened, and a stored-ice detector for detecting a high level, and a low level, of a quantity of ice stored within the stocker, wherein: when the stored-ice detector detects the high level, a controller is activated to stop ice-making operation, and when the quantity of ice stored decreases below the low level by a required quantity, the controller restarts the ice-making operation; and when the controller judges, during a stopped state of the ice-making operation, that a block of ice has occurred in the stocker, the controller restarts the ice-making operation, provided that the stored-ice detector has detected the low level.
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What is claimed is: 1. A method of operating an auger ice-making machine having: a refrigeration casing for freezing ice on an inner wall surface of the casing; an auger screw, rotatably disposed inside the casing, for feeding, while scraping, the ice frozen on the casing inner wall surface; a stoc
What is claimed is: 1. A method of operating an auger ice-making machine having: a refrigeration casing for freezing ice on an inner wall surface of the casing; an auger screw, rotatably disposed inside the casing, for feeding, while scraping, the ice frozen on the casing inner wall surface; a stocker for storing/retaining the ice fed by the auger screw, the stocker being formed with an ice discharge port for discharging the ice to an exterior of the machine by being opened; and stored-ice detection means for detecting a high level, and a low level, of a quantity of ice stored within the stocker, wherein when the stored-ice detection means detects the high level, control means is activated to stop ice-making operation and a measuring timer starts counting; the control means calculates a unit quantity of molten ice per unit time, from a reference storage quantity of ice stored during a time from detection of the low level by the stored-ice detection means to detection of the high level thereby, and from a reference time count by the measuring timer from the stop of the ice-making operation to the detection of the low level by the stored-ice detection means; the control means calculates a total quantity of ice discharge, from a unit quantity of ice discharge per unit time from the ice discharge port, and from an accumulative open-state time of the ice discharge port; and the control means restarts the ice-making operation, provided that an actual ice decrement that is a sum of, a total quantity of molten ice calculated from a current actual time count of the measuring timer and from said unit quantity of molten ice, and said total quantity of ice discharge, has exceeded a previously set initial operating quantity of ice. 2. The method of operating an auger ice-making machine according to claim 1, wherein when said unit quantity of molten ice is to be calculated, if the ice is discharged during a time from the stop of the ice-making operation to the detection of the low level by the stored-ice detection means, a new reference quantity of ice storage obtained by subtracting the discharge quantity of ice from a reference quantity of ice storage is used to calculate said unit quantity of molten ice. 3. The method of operating an auger ice-making machine according to claim 1, wherein when said unit quantity of molten ice is to be calculated, provided that if the ice is discharged during a time from the stop of the ice-making operation to the detection of the low level by the stored-ice detection means, the discharge quantity of ice is in excess of said reference quantity of ice storage, said unit quantity of molten ice is taken as a previously set maximum value. 4. The method of operating an auger ice-making machine according to claim 1, wherein when said unit quantity of molten ice is to be calculated, provided that if the ice is discharged during a time from the stop of the ice-making operation to the detection of the low level by the stored-ice detection means, the discharge quantity of ice is in excess of said reference quantity of ice storage, said unit quantity of molten ice is taken as the same value as that of the previous unit quantity of molten ice. 5. The method of operating an auger ice-making machine according to claim 1, wherein before said actual ice decrement exceeds a previously set initial operating quantity of ice, if an actual time count by the measuring timer reaches a previously set maximum time, the control means starts the ice-making operation. 6. The method of operating an auger ice-making machine according to claim 1, wherein until an actual time count by the measuring timer has reached a previously set minimum time, the control means maintains the stopped state of the ice-making operation. 7. The method of operating an auger ice-making machine according to claim 1, wherein an abnormality is notified if, in spite of said total quantity of ice discharge having exceeded said initial operating quantity of ice, the stored-ice detection means does not detect the low level. 8. A method of operating an auger ice-making machine having: a refrigeration casing for freezing ice on an inner wall surface of the casing; an auger screw, rotatably disposed inside the casing, for feeding, while scraping, the ice frozen on the casing inner wall surface; a stocker for storing/retaining the ice fed by the auger screw, the stocker being formed with an ice discharge port for discharging the ice to an exterior of the machine by being opened; and stored-ice detection means for detecting a high level, and a low level, of a quantity of ice stored within the stocker: said method of operations being characterized in that: control means for monitoring a quantity of discharge from the ice discharge port and a quantity of molten ice within the stocker, is activated to stop ice-making operation when the stored-ice detection means detects the high level; and the control means calculates a unit quantity of molten ice per unit time, from a temperature detected by a temperature sensor for detecting an ambient temperature, and from a constant; and the control means restarts the ice-making operation, provided that an actual ice decrement that is a sum of, the total quantity of molten ice within the stocker, calculated on the basis of said unit quantity of molten ice, and a total quantity of ice discharge from the ice discharge port, has exceeded a previously set initial operating quantity of ice.
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이 특허에 인용된 특허 (5)
Tsukiyama Yasumitsu (Toyoake JPX) Kito Yoshikazu (Oobu JPX) Hida Junichi (Chiryu JPX) Tatematsu Susumu (Nagoya JPX), Control circuit for an auger type ice maker.
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