KR960015384B1 - Control method of fast refrigeration for refrigerators - Google Patents

Abstract

The method of quick freezing of refrigerator equipped with two RPM controllable fan motors both in the freezer (hereafter called F) and fresh food compartment (hereafter called R) consists of ; a) setting F fan motor 'cold' and R fan motor 'economic'; b) checking the elapsed time of quick freezing; c) returning to the normal operation mode after elapse of the predetermined quick freezing time; d) sensing process of sensing the temperature of F if the time was not reached, e) setting F fan motor 'medium' if the sensed temperature is between the predetermined range; f) stopping the compressor and setting the F fan motor 'warm'.

Description

Rapid freezing control method of refrigerator

1 is a schematic configuration diagram of a refrigerator to which the present invention is applied;

2 is a circuit diagram to which the present invention is applied,

3 is a control diagram of the temperature curve of the freezer compartment and the driving unit according to the present invention,

4 is an operational flow chart according to the present invention.

The present invention relates to a control method for cooling the freezer compartment of a refrigerator at high speed, and particularly, to detect the temperature of the freezer compartment at the time of rapid cooling and to perform appropriate control according to the detected temperature, thereby reducing power consumption. The present invention relates to a method for controlling rapid freezing of a refrigerator to maximize cooling efficiency.

This invention is a control method in the refrigerator which especially controls the temperature control of a refrigerator compartment by the drive of the exclusive fan provided in the refrigerator compartment.

In the refrigerator as is well known, the conventional freezer compartment rapid cooling functions are generally a control method of rapidly cooling the temperature of the freezer compartment by forcibly driving a compressor for a predetermined time set by a program.

However, such a simple rapid cooling function has a high cooling effect even if the compressor is operated for a short time by continuously operating the compressor for a predetermined time (for example, 150 minutes) when the freezing chamber is already maintained at a low temperature. Nevertheless, unnecessary power consumption is added by unconditional operation of the compressor, and the cold air (temperature) of the refrigerating compartment is also forcedly circulated by the flow of cold air during the operation of the compressor, so that the cold air of the refrigerating compartment containing relatively humid air enters into the cooler. This resulted in an absolute drop in cooling efficiency.

The present invention has been made to solve the above problems, in the refrigerator having independent temperature control fan capable of RPM control in the freezer compartment and the refrigerating compartment, during the rapid cooling of the freezer compartment, the freezer control fan motor and the refrigerator compartment control fan motor RPM and It is an object of the present invention to provide a rapid freezing control method of a refrigerator focused on maximizing the minimum power consumption and cooling efficiency by effectively controlling the operation of the compressor according to the temperature of the freezer compartment.

In order to achieve the above object, the present invention includes a refrigerator motor fan motor capable of controlling RPM and a refrigerator motor fan motor, and in the fast freezing control method of a refrigerator for controlling respective temperatures, the fast freezing setting when a freezer fast freezing key is input. Setting the time to drive the compressor, driving the freezer compartment fan motor to "strong" operation and refrigerating fan motor to "sleep" operation, checking the elapsed time of the rapid freezing set time, and performing the rapid freezing. When the set time has elapsed, interrupting the operation command of the compressor and the freezer compartment fan motor and returning to normal control; and when the rapid freezing set time has not elapsed, detecting the temperature of the freezer compartment, and When the temperature of the freezer compartment is higher than the predetermined temperature (T ₂ ) as a result of the temperature detection, the aforementioned compressor drive, freezer fan motor `` strong '' drive, After the command control of the refrigerating fan motor "power saving" operation, the process of checking the elapsed time of the rapid freezing set time again, and if the temperature of the freezer compartment is included in another predetermined temperature (T ₁ ~ T ₂ ) band, the compressor drive, freezer compartment Command control of the fan motor "medium" operation, and then checking the elapsed time of the quick freezing set time, and controlling the compressor to stop when the freezer temperature is lower than the predetermined temperature (T _l ) and driving the freezer fan motor "weak". And again checking the progress of the rapid freezing set period.

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

1 shows a schematic configuration diagram of a refrigerator 1 to which the present invention is applied.

The present invention provides a control method in a refrigerator for controlling the inflow of cold air by providing a refrigerator motor exclusive fan motor 11 instead of using a conventional cold air control damper (DAMPER) in the refrigerator compartment 3 of the refrigerator 1. Thus, as shown in the drawing, a cooler 5 and a freezer compartment fan motor 4 are provided on one side of the freezer compartment 2, and the fan is rotated by the driving of the fan motor 4 so that the cold air of the cooler 5 is stored in the freezer compartment ( 2), and the injected cold air is circulated back to the cooler 5 through the cold air passage (8). In addition, the freezing chamber 2 is installed with a temperature sensor 7 detects the temperature of the freezing chamber (2).

Meanwhile, a refrigerating compartment fan motor 11 is also provided in the refrigerating compartment 3 so that cool air from the cooler 5 is introduced into the refrigerating compartment 3 through the cold passage 10 by the rotation of the fan. After cooling the food in the refrigerating compartment (3) it is circulated back to the cooler (5) through the cold passage (9).

In addition, the temperature sensor 13 is provided to sense the temperature of the refrigerating chamber (3), the temperature sensor 15 is also installed at the inlet of the cold passage (9) to sense the temperature there. 12 denotes a backflow prevention rubber plate, in which cold air flowing from the refrigerating chamber 3 to the cold air passage 9 is allowed to pass, but cold air flowing from the cold air passage 9 to the refrigerating chamber 3 is blocked, thereby preventing backflow of cold air. In addition, the defrost heater 6 is installed on the bottom of the cooler 5 and is energized at the time of defrosting. When the defrosting system of the refrigerator to which the present invention is applied is roughly described, first, the refrigerating chamber fan motor 11 By driving, a relatively normal temperature cold air existing in the refrigerating chamber 3 is transmitted to the cooler 5 through the cold air passage 9, and natural defrosting is attempted. At this time, when the temperature sensed by the temperature sensor 12 falls below the appropriate temperature required for defrosting, the heater 6 is driven to perform forced defrosting. If the temperature of the refrigerating chamber 3 (detected by the temperature sensor 13) rises to a predetermined temperature (possible natural defrosting temperature) in the aftermath of the forced defrost, the driving of the heater 6 is stopped and the above-described natural defrosting is attempted. When the defrosting completion temperature is detected through a temperature sensor (not shown) attached to the cooler 5, the defrosting operation is completed.

In addition, each drive unit and sensor unit are controlled by the control of the control circuit unit 20.

2 shows the control circuit unit 20 of the refrigerator 1 as described above, and the refrigerating chamber "steel" is provided in the input ports PI _{1 to} PI ₅ of the one-chip microcomputer 21 incorporating a predetermined program according to the present invention. Temperature setting switch (SW1), cold compartment "medium" temperature setting switch (SW ₂ ), cold compartment "weak" temperature setting switch (SW ₃ ), freezer fast freezing switch (SW ₄ ), freezer freezer freezing switch (SW ₅ ) and resistance The key input unit 22 including R ₁ to R ₁₀ is connected, and the microcomputer 21 performs control according to a predetermined key input signal according to the input of the switches SW _{1 to} SW ₅ .

According to the present invention, when the rapid freezing switch SW ₄ is keyed in, the microcomputer 21 performs an appropriate control output to each drive unit for rapid freezing of the freezing compartment.

In addition, a freezer compartment temperature sensing unit 23 including a temperature sensor 7, a resistor R ₁₁ , R ₁₂ , and a condenser C1 is connected to the input port PI ₆ of the microcomputer 21, thereby freezing the chamber 2. By sensing the temperature, it provides a basis for varying the drive of the fan motor 4 in accordance with the temperature of the freezer compartment 2 during rapid freezing.

In addition, the refrigerating compartment temperature sensing unit 24 including the temperature sensor 13, the resistors R ₁₃ , R ₁₄ , and the capacitor C ₂ is connected to the input port PI ₇ of the microcomputer 21 to connect the refrigerating compartment ( By controlling the temperature of 3), the driving of the refrigerating chamber fan motor 11 is controlled. The output port PO ₁ of the microcomputer 21 has an inverter I ₁ , a resistor R _l5 , and a solid state relay SSR. ₁ ) and a freezer compartment fan drive unit 25 composed of a freezer compartment fan motor 4 are connected to control the cold air input to the freezer compartment 2 by driving the freezer compartment fan moder 4.

In addition, the fan motor 4 may adjust the RPM under the control of the microcomputer 21. For example, the microcomputer 21 outputs a constant pulse signal to the output port PO ₁ . The turn-on time of the light emitting diode of the contactless relay SSR ₁ becomes longer according to the difference in the holding time (pulse width), which extends the turn-on time of the port die solution, and ultimately the power applied to the fan motor 4 ( It is possible to control the voltage of AC) and its RPM is controlled.

Therefore, in the present invention, the output of the microcomputer 21 to the output port PO ₁ is enabled in three stages so that the RPM of the fan motor 4 can be controlled to "strong", "medium", "weak".

In addition, the refrigerating compartment fan drive unit 26 including the inverter I2, the resistor R16, the solid state relay SSR2, and the refrigerating compartment fan motor 11 is connected to the output port PO2 of the microcomputer 21, and the aforementioned freezer compartment is described above. Like the fan motor 4 of the fan drive unit 25, the output pulse width control to the output port PO ₂ is controlled to control the RPM of the refrigerating compartment fan motor 11 to adjust the temperature of the refrigerating compartment 3 to a temperature set by the user. The control is the same.

The fan motors 4 and 44 have three steps of RPM control ("strong", "medium", "weak"), but the RPM control may be linear.

In addition, a compressor driving unit 27 including an inverter I ₃ , a diode Dl, a relay RY ₁ , and a compressor 14 is connected to the output port PO ₃ of the microcomputer 21 to connect the compressor 14. When the microcomputer 21 outputs a high level signal to drive the compressor 14, the output signal is inverted through the inverter I ₃ and the relay RY ₁ is energized at the same time. Is to drive.

Therefore, the cooler 5 is cooled by the drive of the compressor 14.

In addition, an LED (light emitting diode) driving unit 28 and an LED unit 29 are connected to the output port group PO _n of the microcomputer 21 to control the refrigerator selected through the key input unit 21 described above. The mode is displayed on the LED unit 29 by the indication of a certain code (CODE).

In addition, a cold air passage temperature sensing unit 30 including a temperature sensor 15, a resistor R ₁₈ (R ₁₇ ) and a capacitor C3 is connected to the input port PI ₈ of the microcomputer 21 when defrosting. The temperature of the cold passage is detected.

3 is a view showing a drive control state of the compressor 14 and the drive of the freezer compartment fan motor 4 according to the freezer compartment temperature during rapid freezing.

4 shows an operational flowchart according to the present invention.

Hereinafter, the operations and effects of the present invention will be described with reference to FIGS. 1 to 4.

When power is applied to the circuit of the refrigerator to which the present invention is applied, and the key input signal of the quick freezing switch SW4 is input through the key input unit 22, the microcomputer 21 sets a quick freezing setting time (for example, 150 minutes). (SET) and outputs a high level signal to the compressor drive unit 27 to drive the compressor 14, and performs a predetermined output to the freezer compartment fan drive unit 25, the freezer compartment 4 can drive at the maximum RPM. It outputs in the "strong" operation state so that a predetermined output may be performed to the refrigerator compartment fan drive part 26, and the "power saving" operation state is output so that the refrigerator compartment fan 11 may drive with minimum RPM. At this time, the microcomputer 21 outputs a predetermined code such that the constant code display according to the rapid freezing is displayed on the LED unit 29 by the LED driver 28.

Then, it is determined whether the set rapid freezing set time has elapsed.

As a result of the determination, if the rapid freezing set time has elapsed, the output to the compressor driving unit 27 and the freezing chamber fan driving unit 25 is interrupted and the driving of the compressor 14 and the freezing chamber fan motor 4 is stopped to complete the rapid freezing function and the refrigerator Proceed to normal control of.

However, if the rapid freezing set time has not elapsed, the freezer compartment 2 detects the temperature of the freezer compartment 2 through the freezer compartment temperature sensing unit 23 so that the temperature of the freezer compartment ₂ is higher than the predetermined temperature (-271 ° C) (T ₂ ). At this time, it is determined that the temperature of the freezer compartment 2 is relatively high, and the compressor 14 and the freezer compartment fan motor 4 are driven as described above, but the freezer compartment fan motor 4 is "strong" operated. Therefore, the temperature of the freezing chamber 2 is lowered. As a result, when the temperature of the freezing chamber ₂ is lowered below the predetermined temperature T ₂ , the compressor 14 continues to operate at the time t _{1 of} FIG. 3. The fan motor 4 performs a "medium" operation to relatively reduce the amount of cold air flowing into the freezing chamber 2, and the temperature of the freezing chamber 2 further lowers so that the temperature of the freezing chamber 2 is lower than a predetermined temperature (-30 ° C) (T ₁ ). falls, in the third degree of time (t _1), and that the power consumption is reduced by suppressing the input of forced cooling air by stopping the operation of the compressor (14) and switch the fan motor 4 in the "weak" operation, again freezing chamber (2) When the temperature rises and the temperature of the freezing chamber 2 reaches T ₁ at time t ₃ , the compressor 14 is turned on again, and the freezing chamber fan 4 is “middle” to drive the temperature of the freezing chamber 2. To control the temperature of the compressor 14 according to the temperature of the freezer compartment 2 until the rapid freezing set time. By controlling the RPM of 4, when the rapid freezing the set time has elapsed, to return and at the same time stopping the drive of the compressor 14 and fan motor 4 to the conventional control.

As described above, the present invention performs the rapid freezing function based on the current temperature of the freezer compartment, and the refrigeration chamber performs the power saving function during the rapid freezing function, thereby operating the refrigerator compartment fan to the minimum to block the air flow in the refrigerator compartment as much as possible. By reducing the amount of adhesion to the maximization of cooling efficiency as well as the minimization of the frost on the ease of defrosting, the defrosting time is shortened, there is an advantage that can prevent unnecessary waste of power.

Claims (1)

In the fast freezing control method of the refrigerator to control the respective temperatures having a freezer dedicated fan motor and a freezer dedicated fan motor capable of controlling the RPM, in the freezer quick freeze key input sets the fast freezing set time and drives the compressor, A process of driving control of the fan motor in "strong" operation and a refrigerating chamber fan motor in "power saving" operation, a process of checking the elapsed time of the rapid cooling set time, and, when the rapid freezing set time has elapsed, a compressor and A step of interrupting a driving command of a freezer compartment fan motor and returning to normal control; detecting the temperature of the freezer compartment when the rapid freezing set time has not elapsed; and detecting the temperature of the freezer compartment as a predetermined temperature Higher than (T ₂ ) after the compressor drive, freezer fan motor `` strong '' drive, refrigerating fan motor `` sleep '' drive after command control The process of checking the elapsed time of the rapid freezing set time again, and if the temperature of the freezer compartment is included in another predetermined temperature (T _{1 to} T ₂ ) band, the compressor drive, the freezer compartment fan motor "medium" drive after the command control A process of checking the elapsed time of the rapid freezing set time, commanding the stop of the compressor when the freezer temperature is lower than the predetermined temperature (T ₁ ), the freezer fan motor "weak" driving, and checking the elapsed time of the quick freeze set period again. Rapid freezing control method of the refrigerator characterized in that it comprises a process.