KR20040032435A - A defrosting heater of a refrigerator and the method for controlling the defrosting heater - Google Patents

Abstract

PURPOSE: A defrosting heater of a refrigerator and a control method thereof are provided to re-operate a defrosting heater after superheating, since the defrosting heater is operational even when a fuse is removed. CONSTITUTION: A defrosting heater of a refrigerator includes a defrosting heater(54), and a sensing part(30) mounted in a cavity of a refrigerator for measuring a defrosting temperature. The sensing part includes a frosting temperature sensor(33) and a superheating sensing sensors(34). A control part(40) has a superheating sensing temperature and a fire-preventing temperature in advance. The control part is electrically connected to the defrosting temperature sensor and the defrosting heater. The control part determines abnormality of the defrosting temperature sensor according to the existence of electric signals input from the defrosting temperature sensor. When the defrosting temperature sensor has abnormality, the defrosting heater is kept operating until the sensed cavity temperature reaches the fire-preventing temperature. In the other case, the operation of the defrosting heater is continued until at least one of the temperature sensed by the defrosting temperature sensor or the superheating sensing sensor reaches a defrosting-finished temperature or the fire-preventing temperature.

Description

A DEFROSTING HEATER OF A REFRIGERATOR AND THE METHOD FOR CONTROLLING THE DEFROSTING HEATER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator defrost heater and a control method thereof. The present invention relates to a defrost heater and a method of controlling the refrigerator having a plurality of defrost temperature sensors to prevent overheating of the defrost heater.

In general, a refrigerator maintains a low temperature by compressing, condensing, expanding, and evaporating a refrigerant, a compressor, a condenser, an expansion valve, and an evaporator, which are connected to each other by a refrigerant pipe sequentially.

1 shows a schematic configuration of a conventional refrigerator. The refrigerator includes a detector 1 for measuring a temperature in a refrigerator, a controller 2 for arithmetic processing an output signal output from the detector, and And, the operating unit 3 is operated by the output signal calculated by the control unit, and the power supply unit 4 for supplying power for driving the operation unit is configured to maintain a constant temperature inside the refrigerator.

At this time, the detection unit 1 is a freezer compartment temperature sensor 5 for measuring the temperature of the freezer compartment, a refrigerating compartment temperature sensor 6 for measuring the temperature of the refrigerating compartment, and a defrost temperature sensor for sensing the temperature of the defrost heater ( 7) and converts each temperature state into an electrical signal and transmits it to the control unit 2. In addition, the control unit 2 compares the temperature sensed by these sensors with the set temperature, that is, the set temperature of the freezer compartment, the refrigerating chamber, the defrost heater, and the refrigerating fan 9 and the refrigerating fan 10 on the operating unit 3 side. ), The defrost heater 11 is turned on / off.

At this time, the defrost heater 11 melts the frost frozen on the surface of the evaporator installed in the freezer compartment, and the fuse 12 is installed between the power supply unit 4 so that the defrost heater is not overheated and a fire does not occur. In addition, the fuse is installed around the evaporator in the refrigerator so that the fuse is disconnected by the temperature of the defrost heater when the temperature of the defrost heater 11 is higher than the set temperature.

2 is a flowchart illustrating a control method of a conventional defrost heater. The control of the defrosting heater may include determining whether the defrost temperature sensor is abnormal (S101), and when the defrost temperature sensor is not abnormal, driving the heater according to the defrost temperature detected by the defrost temperature sensor (S102) and the detection. Determining whether the defrosted temperature exceeds the set temperature (S103), and if the defrost temperature is less than or equal to the set temperature, executing the step (S103) again and stopping the heater (S106) if the set temperature exceeds the set temperature; When there is an error in the defrost temperature sensor, the heater is operated to store the operating time to measure the elapsed time, and the step of operating the heater (S104) and determining whether the operating time of the heater exceeds the set time ( S105), and if the operating time is less than or equal to the set time, the step (S105) is executed again. If the set time is exceeded, the heater is stopped through the step (S106). The case does not work in the defrost heater is subjected to a defrosting operation is performed for a set time.

However, the fuse installed for fire prevention is provided to be thinned to blow at a relatively low temperature of approximately 77 ℃, there was a problem that is easily broken by an external shock during transportation or installation of the refrigerator. In addition, when the defrost heater is overheated and the fuse is blown, there is a problem that the defrost heater does not operate until the fuse is replaced.

Accordingly, an object of the present invention is to provide a control method of a defrost heater that is operable in a state in which a defrost heater is removed and is reoperable even after overheating.

1 is a block diagram schematically illustrating each component conventionally installed in a refrigerator.

2 is a flowchart illustrating a process of operating a conventional defrost heater.

3 shows each component of the refrigerator and its corresponding parts in accordance with the invention;

4 is a flowchart illustrating an operation process of a defrost heater of a refrigerator according to the present invention;

* Description of the symbols for the main parts of the drawings *

30: sensing unit 33: defrost temperature sensor

34: overheat detection sensor 40: control unit

41: control unit 50: operating part

54: defrost heater 60: power supply

In order to achieve the above object, the present invention provides a method for operating a defrost heater, a step of determining whether a defrost temperature sensor installed in a refrigerator cabinet to measure a defrost temperature, and an abnormality in the defrost temperature sensor. The temperature detected by the defrost temperature sensor and the temperature detected by the overheat sensor when there is no abnormality in the defrost temperature sensor until the temperature measured by the overheat sensor installed in the refrigerator reaches a fire protection temperature. The defrost heater is operated until at least one of the fire protection temperatures and the defrosting completion temperature has been set, and the temperature detected by the defrost temperature sensor and the overheat detection sensor reaches each of the set temperatures. The control method of the refrigerator defroster comprising a step of stopping the operation of the defrost heater when The.

In another embodiment according to the present invention, the refrigerator defrosting apparatus includes a heating unit with a heating wire, a defrost temperature sensor and an overheating sensor installed inside the refrigerator for measuring the defrost temperature when frost is defrosted by the heating of the heating unit. A plurality of sensors, an overheat detection temperature and a fire prevention temperature are input in advance, and whether the defrost temperature sensor is abnormal according to the presence or absence of an electrical signal input from the defrost temperature sensor and the defrost measured from the defrost temperature sensor And a controller electrically connected to the defrost temperature sensor to receive a temperature, electrically connected to the overheat detection sensor to receive a defrost temperature measured by the overheat sensor, and electrically connected to the heat generator to control the heat generator. The heating unit detects overheating when there is an error in the defrost temperature sensor. If the defrost temperature sensor is intact until the internal temperature detected by the temperature reaches the fire protection temperature, at least one of the detected temperatures measured by the defrost temperature sensor and the overheating sensor is completed for each defrost. Run until temperature and fire protection temperature are reached.

Hereinafter, the configuration as described above will be described in more detail with reference to the drawings.

3 schematically shows a configuration of a refrigerator according to the present invention.

The refrigerator includes a detector 30 for measuring a temperature in the refrigerator compartment, a controller 40 for arithmetic processing the output signal output from the detector, and an operation unit controlled by the output signal computed by the controller. 50 and a power supply unit 60 for supplying power to the operation unit.

The freezer compartment temperature sensor 31 is installed to measure the temperature of the freezer compartment and measures the temperature of the freezer compartment and transmits it to the control unit 41 of the controller as an electrical signal. In addition, the control unit 41 calculates and processes the input electric signal to drive or stop the electrically connected cooling device 51 and the freezing fan 52 or to increase or decrease the rotational speed so that the temperature of the freezer compartment is input by the user. Maintain the set temperature. The cooling device is installed to perform a cooling operation of the refrigerator, and typically includes a compressor, a condenser, an expansion valve, and an evaporator. The refrigerating compartment temperature sensor 32 is electrically connected to the control unit 41 and the refrigerating fan 53 so as to operate in the same manner as the freezer compartment temperature sensor 31.

In addition, the sensing unit 30 includes a defrost temperature sensor 33 and an overheat sensor 34. The defrost temperature sensor 33 is installed inside the refrigerator to measure the defrost temperature of the defrost heater 54, and the overheat sensor 34 is overheated to prevent the inside of the refrigerator from being overheated by the defrost heater during the defrosting operation. It is installed inside the high place to detect the defrost temperature. In addition, the sensors 33 and 34 are connected to a control unit 41 electrically connected to the defrost heater 54.

Therefore, when the defrost heater is operated for defrosting by the above configuration, the defrost temperature sensor 33 and the overheat detection sensor 34 installed on the inside of the refrigerator, preferably in proximity to the defrost heater, are defrosted. The internal temperature, that is, the defrost temperature is sensed and the output signal is transmitted to the control unit 41. At this time, the internal temperature measured by the respective sensors transmitted to the control unit 41 is the defrost completion temperature previously input to the control unit 41, and the refrigerator is overheated by the defrost heater, but the fire is Each is compared with the fire protection temperature entered as a safety limit to prevent it from occurring. Therefore, when the defrosting temperature reaches the defrosting completion temperature, the defrosting heater is stopped, but when the defrosting temperature sensor malfunctions and detects the defrosting temperature lower than the actual temperature, the temperature detected by the overheating sensor is set to the fire prevention temperature. When it reaches, the defrost heater is stopped.

Furthermore, when the defrost temperature sensor does not operate, the overheat detection sensor 34 installed in proximity to the defrost heater to prevent overheating of the defrost heater measures the defrost temperature and transmits the signal to the control unit 41, and the control unit The operation 41 compares the transmitted defrost temperature with the defrost completion temperature previously input to the control unit, and stops the operation of the defrost heater when the defrost temperature reaches the defrost completion temperature.

4 is a flowchart illustrating an operation process of a refrigerator defrost heater according to the present invention.

The control of the defrost heater includes the step of operating the defrost heater (S401), the step of determining whether the defrost temperature sensor installed in the inside of the refrigerator so as to measure the temperature inside the refrigerator (S402), and the case of the defrost temperature sensor The heater is operated until the internal temperature measured by the overheat detection sensor installed in the refrigerator compartment reaches a fire prevention temperature pre-inputted in the control unit (S403), and when the temperature reaches the temperature, the operation is stopped (S406). If there is no abnormality in the defrost temperature sensor in the step of determining whether the defrost temperature sensor is abnormal, the fire prevention temperature is determined by determining whether the internal temperature detected by the overheat detection sensor installed inside the high temperature reaches the fire prevention temperature. When reaching the heater is stopped (S404, S406), if the fire prevention temperature has not reached the temperature inside the high temperature detected by the defrost temperature sensor If the if the determination has reached the defrost completion temperature reaches the defrost completion temperature of the heater is stopped. (S405, S406) At this time, has not reached the defrost completion temperature is executing the step (S404, S405) repeatedly.

At this time, the set temperatures pre-input to the control unit corresponding to the defrost temperature sensor and the overheat detection sensor, that is, the defrost completion temperature and the fire prevention temperature, may be overheated at least twice while the defrost temperature sensor is normally operated. For example, the defrost completion temperature is set to 9 ° C. and the fire protection temperature is 77 ° C. differently. Further, when the defrost temperature sensor is not operated, the set temperature input to the control unit is set by the overheat detection sensor. It is preferable that the defrost temperature in the furnace is measured and determined between the defrost completion temperature and the fire prevention temperature, for example, at a temperature of 35 ° C. so that defrost is performed.

Therefore, the defrost heater according to the present invention can be controlled within a set temperature even if only at least one of the defrost temperature sensor is normally operated, and can be restarted without replacement of parts after the heat is cooled even in an overheated state.

In addition, according to the method of controlling the defrost heater according to the present invention, the defrost heater is driven by the control temperature sensor and the overheat sensor so that the defrost heater is not overheated.

Claims (2)

In the defrost heater control method of the refrigerator for defrosting the frost frozen in the evaporator, The defrost heater is operated, Determining whether the defrost temperature sensor installed in the refrigerator chamber is abnormal in order to measure the defrost temperature; If there is an error in the defrost temperature sensor until the temperature measured by the overheat detection sensor installed in the refrigerator reaches a fire prevention temperature, if the defrost temperature sensor is not abnormal and the temperature detected by the defrost temperature sensor Operating a defrost heater until at least one of the temperatures sensed by the overheat detection sensor reaches a fire protection temperature and a defrost completion temperature set in each of the at least one temperature; And controlling the operation of the defrost heater when the temperature sensed by the defrost temperature sensor and the overheat detection sensor reaches a predetermined temperature through the above steps. In the defrosting device of the refrigerator for removing frost frozen in the evaporator of the refrigerator, A heating unit with a heating wire; A plurality of sensors including a defrost temperature sensor and an overheat detection sensor installed inside the refrigerator to measure defrost temperature when frost is defrosted by heat generation of the heat generating unit; The overheat detection temperature and the fire prevention temperature are input in advance, and determine whether there is an abnormality of the defrost temperature sensor according to the presence or absence of an electrical signal input from the defrost temperature sensor, and the defrost temperature to receive the defrost temperature measured by the defrost temperature sensor. A controller electrically connected to a sensor, electrically connected to an overheat detection sensor to receive a defrost temperature measured by the overheat sensor, and a controller electrically connected to the heat generator to control the heat generator, The heat generating part may be operated by the defrost temperature sensor and the overheat detection sensor until the internal temperature detected by the overheat detection sensor reaches a fire prevention temperature when the defrost temperature sensor has an abnormality. And at least one of the measured sensing temperatures is operated until the corresponding defrost completion temperature and fire prevention temperature are reached.