KR920007359Y1 - Refrigerator - Google Patents

Abstract

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Description

Refrigerator

1 is a configuration of a refrigeration cycle showing a first embodiment of the present invention.

2 is a control circuit diagram of an important part showing a first embodiment of the present invention.

3 is a partial longitudinal cross-sectional view of a refrigerator showing a second embodiment of the present invention.

4 is a configuration of a refrigeration cycle showing a second embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: compressor 9: manual switch

12: freezer abnormal high temperature detection circuit 13: freezer compartment high temperature detection sensor

21: freezer 23: refrigerator

The present invention relates to a refrigerator having a freezing compartment and a refrigerating compartment, and capable of performing a quick freezing operation of the freezing compartment.

In a conventional refrigerator, for example, when a freezer compartment refrigerator and a refrigerator compartment cooler are installed, and the freezer compartment temperature rises above a predetermined temperature, the compressor is operated to a first state in which the refrigerant is flowed to both the freezer compartment and the refrigerator compartment cooler. Accordingly, when the temperature in the refrigerating chamber is lowered to a predetermined temperature or less, the flow passage control device is configured to switch to the second state in which the refrigerant flows only to the freezing chamber cooler in the first state, thereby performing cooling of the freezing chamber only. In the case of rapid deicing in the freezer compartment, the compressor is operated by a manual switch to force the compressor, and the flow passage control device is switched to the second state as described above to perform the rapid freezing operation in which the refrigerant is supplied only to the freezer compartment cooler. It was organized to do so.

However, even if the temperature in the freezer is high, for example, when the freezer door is half open, or a large amount of food is stored in the freezer, the flow passage control device is a refrigerant in both the refrigerator and freezer coolers. Since the refrigerating chamber is cooled to a temperature below a predetermined temperature and the flow passage control device is switched to the second state, the refrigeration capacity of the compressor cannot be concentrated on the cooling of the freezing chamber. Thus, since the temperature rise of the freezer can not be suppressed at an early time, there is a concern that the freezing food will be adversely affected.

Therefore, an object of the present invention is a refrigerator that can automatically start a rapid freezing operation when the temperature in the freezer is raised, thereby prematurely suppressing the temperature rise of the freezer to adversely affect frozen foods. In providing.

The present invention operates the compressor according to the operation of the manual switch and supplies the refrigerant only to the freezer cooler to perform the rapid freezing operation, and when the temperature detected by the temperature sensor installed in the freezer is above a predetermined temperature, It is characterized by the fact that it is configured to automatically perform a quick freezing operation.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIG. 1 showing the configuration of a refrigeration cycle, (1) is a compressor, (2) a condenser, (3) a main capillary tube, and (4) a sub capillary tube. )to be. (5) is a freezer compartment cooler installed in the freezer compartment, (6) is a long compartment cooler installed in the refrigerating compartment, and these coolers are connected in series between the subcapillary tube 4 and the suction side of the compressor 1. Numeral 7 denotes a solenoid valve, and the solenoid valve 7 is connected in series with the bypass capillary tube 8 between the outlet side of the main capillary tube 3 and the inlet side of the freezer compartment cooler 5. In the refrigerating cycle as described above, when the solenoid valve 7 is disconnected and closed, the refrigerant flowing from the compressor 1 is supplied to the refrigerator compartment cooler and the freezer compartment cooler so that both the refrigerator compartment and the freezer compartment are simultaneously cooled. When the valve is in one state and the solenoid valve 7 is energized and opened, the refrigerant is supplied only to the freezer cooler due to the flow path resistance difference between the parent capillary 4 and the bypass capillary tube 8, and only the freezer compartment is cooled. To a second state.

The control method of the above-mentioned refrigeration cycle will be described below. First, the ON / OFF control of the compressor 1 is turned ON when the detection temperature of the freezer compartment temperature sensor disposed in the freezer compartment is higher than the predetermined temperature and OFF when the detection temperature is lower than the predetermined temperature. In addition, when the temperature sensor is installed in the refrigerating compartment and the detection temperature of the refrigerating compartment temperature sensor is higher than a predetermined temperature, the solenoid valve 7 is disconnected so that the refrigerant is supplied to both the refrigerating compartment cooler and the freezing compartment cooler 5, 6. When the refrigerating compartment is cooled in this manner and the detection temperature of the refrigerating type temperature sensor falls below a predetermined temperature, the refrigerant is supplied to the second state in which the refrigerant is supplied only to the freezer compartment cooler 5. In FIG. 2, the quick freezing switch 10 is a flip-flop, and the clock CK of the flip flop 10 is normally at a high level. When the quick freezing switch 9 is closed, The low level signal is applied to the clock, and the high level signal is output to the output terminal Q. Reference numeral 11 denotes a counter. When a high level signal is given to the reset terminal R thereof, for example, a high level signal is output to the output terminal Q of the counter 11 after 15 minutes. On the other hand, reference numeral 12 denotes a freezer compartment abnormal high temperature detection circuit, and the abnormal high temperature detection circuit 12 is output from the voltage divider circuit 14 and the reference voltage generator circuit 15 each having the freezer compartment high temperature detection sensor 13 installed in the freezer compartment. A comparator 16 for comparing the detected detection voltage and the reference voltage is provided, and the output terminal of the comparator 16 is connected to the control transistor 18 of the light emitting diode 17 through the base resistor 19. The freezer abnormality high temperature detection circuit 12 outputs a high level signal from the comparator 16 when the temperature in the freezer compartment becomes -15 ° C or higher, for example, so that the high level signal turns on the light emitting diode 17. Indicates that the freezer has become hot. Numeral 31 is a two-input or circuit and one input terminal of the oracle circuit 31 is connected to the output terminal Q of the flip-flop 10 while the other input terminal detects an abnormal high temperature of the freezer compartment. It is connected to the output terminal of the comparator 16 of the circuit 12, the output terminal of the flip-flop 10 is connected to the rapid freezing input terminal of the main control circuit (not shown) and a high level signal (quick cooling signal S) to the output terminal thereof. If the output is forced to operate the compressor (1) and at the same time open the solenoid valve (7) so that the refrigerant is supplied only to the freezer cooler (5) is configured to be capable of rapid freezing operation.

The operation of the above configuration will be described below. For example, when the rapid deicing is to be performed in the freezer compartment, the quick freezing switch 9 is closed. Accordingly, since the high level signal is output to the output terminal Q of the flip-flop 10, the rapid freezing signal S is given to the main control circuit not shown through the OR circuit 31, and thus the compressor 1 is operated. In addition, the solenoid valve 7 is energized so that the refrigerant is supplied only to the freezer cooler. As a result, all of the freezing capacity of the compressor 1 is used for cooling the freezer compartment, so that rapid freezing is performed as the rapid freezing operation is performed. Then, 15 minutes after the start of the quick freezing operation, the high level signal is output from the output terminal Q of the counter 11, so that the flip-flop 10 is reset so that the flip-flop Q switches to the low level. The rapid freezing signal S is cut off, and thus the quick freezing operation is terminated.

In addition, for example, when the door of the freezing chamber is opened halfway or accommodates a large amount of storage, the temperature of the freezing chamber is rapidly increased. In this case, when the temperature of the freezer compartment rises above -15 ° C, the high-level signal is output from the comparator 16 of the freezer abnormality high temperature detection circuit 12, so that the light emitting diode 17 is turned on to raise the temperature of the freezer compartment. And a quick freezing signal S is given to the main control circuit through the OR circuit 31 at the same time. Accordingly, even if the refrigerating compartment is above a predetermined temperature, a rapid freezing operation in which the refrigerant is supplied only to the freezing chamber cooler 5 is started, and thus all the refrigerating capacity of the compressor 1 is used for cooling the freezing compartment so that the temperature rise of the freezing compartment is suppressed within a short time. Thus, the frozen food inside can be maintained at a low temperature. At this time, since the solenoid valve 7 is switched to the second state and the refrigerant is supplied only to the freezer compartment cooler 5, even if the compressor 1 is continuously operated for a long time, the refrigerator compartment cooler 6 is excessively cooled and frost develops abnormally. Of course, concerns such as freezing of the storage in the refrigerating chamber are removed.

3 and 4 show a second embodiment according to the present invention. In FIG. 3, reference numeral 20 denotes a freezer compartment cooler installed in a freezer compartment 21 in a shelf shape, and reference numeral 22 denotes a freezer compartment 21. The indirect cooling cooler disposed in the heat insulating wall 24 between the refrigerator compartment 23 and the indirect cooling cooler 22 is located in the circulation passage 25 communicating with the freezing compartment 21 and the refrigerating compartment 23. A fan 26 and a damper device 27 on the side of the refrigerating chamber 23 are installed in the circulation path 25, and when the damper device 27 is opened to operate the fan 26, an indirect cooling cooler 22 is provided. The cold air generated by) is supplied to both the freezing chamber 21 and the refrigerating chamber 23 to be in a first state in which both the freezing chamber and the refrigerating chambers 21 and 23 are cooled. In addition, when it is detected by the refrigerator compartment temperature sensor (not shown) that the refrigerator compartment 23 is cooled down to a predetermined temperature or less, the damper device 27 is closed to enter a second state in which only the freezer compartment 21 is cooled. Reference numeral 28 denotes a freezer compartment high temperature detection sensor installed in contact with the freezer compartment cooler 20 in the freezer compartment 21. The freezer compartment high temperature detection sensor 28 is a freezer compartment abnormality high temperature detection circuit 12 as in the first embodiment. Part of the voltage dividing circuit 14 is configured, and the rapid freezing signal S is also outputted when the detection temperature by the freezer compartment high temperature detection sensor 28 becomes -15 ° C or higher, for example. On the other hand, the configuration of the refrigerating cycle is shown in FIG. 4, and in FIG. 4, the compressor 1 has a detection temperature of the freezer compartment high temperature detection sensor 28 installed to detect the air temperature of the freezer compartment in the freezer compartment. And when the metal freezing signal S is outputted, the motor is stopped when the detection temperature of the freezer compartment high temperature detection sensor 28 is equal to or less than the predetermined temperature. In addition, the solenoid valve 30 is in a state of supplying the coolant to the indirect cooling cooler 22 during normal cooling operation, and supplying the coolant only to the freezing chamber cooler 20 when the rapid freezing signal S is output. The state is switched to.

According to the above configuration, when the rapid freezing (manual) switch 9 is closed, the compressor 1 starts operation and the solenoid valve 30 supplies the refrigerant only to the freezer 20 cooler. Since all of the freezing capacity of 1) is used only for freezing chamber cooling, it is possible to rapidly lower the temperature in the freezing chamber 21. In addition, when the door 32 of the freezer compartment 21 is opened halfway or a large amount of food is stored in the freezer compartment 21 and the temperature in the freezer compartment 21 is raised, the freezer compartment high temperature detection sensor 28 detects this automatically. Quick freezing operation is started. Accordingly, the adverse effects on the frozen food in the freezing chamber 21 can be prevented in advance.

Furthermore, in each of the above embodiments, the metal freezing signal S is output in accordance with the temperature detected by the freezer compartment high temperature detection sensors 13 and 28 of the freezer compartment abnormality high temperature detection circuit 12, but the present invention is provided herein. The present invention is not limited, and a dedicated temperature sensor may be provided or a temperature sensor for operation control of the compressor 1 may be used.

As described above, the present invention controls the compressor on / off according to the operation of the manual switch and supplies the refrigerant only to the freezer cooler to start the rapid freezing operation, and is detected by the freezer high temperature detection sensor installed in the freezer compartment. It is characterized in that it is configured to automatically start the rapid freezing operation when the temperature is higher than a predetermined temperature, and even if the temperature increases due to the half-opening of the freezing compartment door or storing a large amount of food in the freezing compartment according to this configuration feature, Since the inside of the freezer compartment can be frozen rapidly because it is detected, an excellent effect can be prevented in advance that adverse effects on the frozen food in the freezer compartment are prevented.

Claims (2)

The compressor 1 is turned on / off based on the detection temperature of the freezer compartment temperature sensor disposed in the freezer compartment 21, and at the same time the compressor 1 is turned on based on the detection temperature of the refrigerator compartment temperature sensor disposed in the refrigerator compartment 23. The manual switch 9 arranged in the refrigerator main body is configured to be switched to a first cooling state for cooling both the freezing chamber 21 and the refrigerating chamber 23 and a second cooling state for cooling only the freezing chamber 21. ), The rapid freezing forcibly cooling the inside of the freezer compartment 21 so that the cooling state when the compressor (1) ON is switched to the second cooling state for a predetermined time regardless of the detection temperature of the freezer compartment temperature sensor and the refrigerating compartment temperature sensor. In a refrigerator having an operation function, a detection temperature of the high temperature detection sensor 13 installed in the freezer compartment 21 by the freezer compartment abnormal high temperature detection circuit 12 is provided and the freezer compartment abnormal high temperature detection circuit 12 is pressed. If it is detected that reaches a high temperature at least higher than a temperature to the ON period (1) The refrigerator being configured so that the cooling state regardless of the detection temperature of the fresh food compartment temperature sensor can be converted to the second cold state. The refrigerator according to claim 1, wherein the freezer compartment high temperature sensor (13) and the freezer compartment temperature sensor are used together.