In external unit 19, three-way valve 25 provided downstream of CPR 23 enables a switching connection between CPR 23 and branch line 21A of first bypass line 21 with respect to liquid line 18 A. In internal unit 20 , second bypass line 27 connects inlet side of receiver 13 and inlet side of evaporat
In external unit 19, three-way valve 25 provided downstream of CPR 23 enables a switching connection between CPR 23 and branch line 21A of first bypass line 21 with respect to liquid line 18 A. In internal unit 20 , second bypass line 27 connects inlet side of receiver 13 and inlet side of evaporator 16, and open/close valve 28 is provided along second bypass line 27. At de-icing, three-way valve 25 switches to first bypass line 21 side and open/close valve 28 opens. There upon, hot gas from compressor 11 circulates from first bypass line 21 to liquid line 18A to enter evaporator 16 through second bypass line 27 while squeezing out liquid refrigerant. Evaporator 16 is heated by manifest heat of introduced hot gas, and when the internal pressure of vaporator 16 rises to a condensation temperature over 0° C., de-icing is performed efficiently by manifest heat plus latent heat.
대표청구항▼
What is claimed is: 1. An ice making machine comprising: (A) a water supply system including an ice-forming mold; and (B) a cooling system including: a compressor that compresses a refrigerant; a condenser that cools the refrigerant that was compressed by the compressor; a condensing pressure regul
What is claimed is: 1. An ice making machine comprising: (A) a water supply system including an ice-forming mold; and (B) a cooling system including: a compressor that compresses a refrigerant; a condenser that cools the refrigerant that was compressed by the compressor; a condensing pressure regulating valve comprising two inlets and one outlet, wherein one of the inlets is connected to an outlet side of the condenser; a first bypass line connecting the other inlet of the condensing pressure regulating valve and an outlet side of the compressor; a first valve device comprising two inlets and one outlet, wherein one of the inlets is connected with the outlet side of the condensing pressure regulating valve, and the other inlet is connected to the outlet side of the compressor; a receiver that connects to an outlet side of the first valve device via a refrigerant supply line; an expansion valve that connects to a liquid outlet side of the receiver; an evaporator that connects to an outlet side of the expansion valve and cools the ice-forming mold; a second bypass line comprising a second valve device, wherein the second bypass line connects between the refrigerant supply line and an inlet side of the evaporator by bypassing the expansion valve; a refrigerant return line that connects an outlet side of the evaporator and an inlet side of the compressor; and a valve controller that controls the first valve device and the second valve device and comprises: a ice making function wherein during an ice making operation, the first valve device connects the outlet side of the condensing pressure regulating valve with the inlet side of the receiver and the second valve device is closed, and a first function wherein when the ice making machine switches from the ice making function to a de-icing operation, the first valve device connects the compressor outlet side with the refrigerant supply line at substantially the same time as the second valve device is opened. 2. The ice making machine according to claim 1, wherein an inlet side of the second bypass line is provided in a condition in which the inlet side of the second bypass line branches from the refrigerant supply line. 3. The ice making machine according to claim 2, wherein the compressor and the condenser are disposed at a distance from the evaporator, and the receiver is disposed close to the evaporator. 4. The ice making machine according to claim 3, wherein the valve controller further controls the first valve device and the second valve device and further comprises: a second function wherein at a predetermined delay time prior to the ice making machine switching from the ice-making function to the de-icing operation, the first valve device connects the compressor outlet side with the refrigerant supply line, the second valve device is opened at the start of the de-icing operation. 5. The ice making machine according to claim 3, further provided with a temperature sensor that directly or indirectly detects a temperature corresponding to the refrigerant in a liquid state inside the refrigerant supply line proceeding from the outlet side of the condensing pressure regulating valve towards the inlet side of the receiver, wherein the valve controller further comprises: wherein when the temperature detected by the temperature sensor is equal to or greater than a predetermined temperature, the valve controller executes the first function, and wherein when the temperature detected by the temperature sensor is lower than the predetermined temperature, the valve controller executes the second function. 6. The ice making machine according to claim 5 wherein the first valve device comprises two two-way valve devices. 7. An ice making machine comprising: (A) a water supply system including an ice-forming mold; and (B) a cooling system including: a compressor that compresses a refrigerant; a condenser that cools the refrigerant that was compressed by the compressor; a condensing pressure regulating valve comprising two inlets and one outlet, wherein one of the inlets connects to an outlet side of the condenser; a first bypass line connecting the other inlet of the condensing pressure regulating valve and an outlet side of the compressor; a first valve device comprising two inlets and one outlet, wherein one of the inlets is connected with the outlet of the condensing pressure regulating valve, and the other inlet is connected to the outlet side of the compressor; a receiver that is connected to the outlet of the first valve device via a refrigerant supply line; an expansion valve that is connected to a liquid outlet side of the receiver; an evaporator that is connected to an outlet side of the expansion valve and cools the ice-forming mold; a second valve device having one inlet and two outlets and which is capable of switching at least between a state in which the second valve device shuts the inlet with respect to both of the outlets and a state in which the second valve device allows the inlet to communicate with one of the two outlets, wherein the inlet of the second valve device is connected to the refrigerant supply line via a first portion of a second bypass line and wherein one of the outlets bypasses the expansion valve to connect to an inlet side of the evaporator via a second portion of the second bypass line; a refrigerant return line that is connected to an outlet side of the evaporator; an accumulator that is connected to the refrigerant return line and is provided between the refrigerant return line and the inlet side of the compressor; an auxiliary line that connects the other outlet of the second valve device to the refrigerant return line; a valve controller that controls the first valve device and the second valve device and comprises: an ice making function wherein the first valve device connects the condensing pressure regulating valve side with the inlet side of the receiver and the second valve device is closed, and a second function wherein at the time of a de-icing operation, the first valve device connects the outlet side of the compressor with the refrigerant supply line, the second valve device initially connects the refrigerant supply line to the refrigerant return line via the first portion of the second bypass line and the auxiliary line, and following a lapse of a predetermined delay time, the second valve device connects the refrigerant supply line to inlet side of the evaporator via the first portion of the second bypass line and the second portion of the second bypass line. 8. The ice making machine according to claim 7, wherein the inlet side of the second valve device branches from the refrigerant supply line via the first portion of the second bypass line. 9. The ice making machine according to claim 8, wherein the compressor and the condenser are disposed at a distance from the evaporator, and the receiver is disposed close to the evaporator. 10. The ice making machine according to claim 9, further provided with a temperature sensor that directly or indirectly detects a temperature corresponding to the refrigerant in a liquid state inside the refrigerant supply line proceeding from the condensing pressure regulating valve towards the receiver side, wherein the valve controller further comprises: a first function wherein when the ice making machine is switching from the ice making function to the de-icing operation the second valve device connects the refrigerant supply line with the inlet of the evaporator via the first portion of the second bypass line and the second portion of the second bypass line at substantially the same time as the first valve device connects the outlet side of the compressor to the refrigerant supply line, and wherein when a temperature detected by the temperature sensor is equal to or greater than a predetermined temperature, the valve controller executes the first function, and wherein when the temperature detected by the temperature sensor is lower than the predetermined temperature the valve controller executes the second function. 11. The ice making machine according to claim 10, wherein the second valve device comprises two two-way valve devices. 12. The ice making machine according to claim 11, wherein the first valve device comprises two two-way valve devices. 13. The ice making machine according to claim 10, wherein the first valve device comprises two two-way valve devices. 14. An ice making machine comprising: (A) a water supply system including an ice-forming mold; and (B) a cooling system including: a compressor that compresses a refrigerant; a condenser that cools the refrigerant that was compressed by the compressor; a condensing pressure regulating valve comprising two inlets and one outlet, wherein one of the inlets is connected to an outlet side of the condenser; a first bypass line connecting between the other inlet of the condensing pressure regulating valve and the outlet side of the compressor; a first valve device having three ports comprising a first port, a second port, and a third port, wherein the first valve device is capable of switching selectively between a state in which the first port and the second port are allowed to communicate and a state in which the second and the third port are allowed to communicate, wherein the first port is connected to the outlet of the condensing pressure regulating valve; a receiver that connects to the second port of the first valve device via a refrigerant supply line; an expansion valve that connects to a liquid outlet side of the receiver; an evaporator that connects to an outlet of the expansion valve and cools the ice-forming mold; a second valve device that is capable of opening and closing, wherein the second valve device connects between the refrigerant supply line and an inlet side of the evaporator by bypassing the expansion valve via a second bypass line; a refrigerant return line that is connected to an outlet side of the evaporator; an accumulator that is connected to the refrigerant return line and is provided between the refrigerant return line and an inlet side of the compressor; an auxiliary line connecting the third port of the first valve device to the accumulator; a valve controller that controls the first valve device and the second valve device and comprises: an ice making function wherein the first valve device connects the first port with the second port so as to connect the condensing pressure regulating valve outlet side to an inlet side of the receiver, and the second valve device is closed, and a de-icing function wherein at a predetermined delay time prior to the ice-making machine switching from the ice making function to a de-icing operation, the first valve device connects the second port with the third port, and at a start of the de-icing operation, the first valve device connects the first port with the second port, and the second valve device is opened. 15. The ice making machine according to claim 14, wherein an inlet of the second bypass line connects to the refrigerant supply line. 16. The ice making machine according to claim 15, wherein the compressor and the condenser are disposed at a distance from the evaporator, and the receiver is disposed close to the evaporator. 17. The ice making machine according to claim 16, wherein the first valve device comprises two two-way valve devices.
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이 특허에 인용된 특허 (9)
Black William J. ; Allison Matthew W. ; Baker Melvin A. ; Van Riper Gary L., Apparatus and method for head pressure control valve disabling for an icemaker.
Schlosser, Charles E.; Pierskalla, Cary J.; Shedivy, Scott J.; Lois, Michael R.; Miller, Richard T.; Ebelt, Brian A., Compact ice making machine with cool vapor defrost.
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