KR100213927B1 - Method for controlling temperature of refrigertor - Google Patents

Abstract

The present invention relates to a method of controlling a temperature of a refrigerator to achieve constant temperature control and uniform control of a refrigerator temperature by controlling a refrigerator load such as a compressor and a fan by combining a temperature of a cold air outlet, a temperature of a cold air inlet, and a temperature inside a refrigerator.

The present invention for this purpose, in the temperature control method of the refrigerator comprising a temperature sensor for detecting the temperature in the refrigerator, the cold air outlet temperature sensor for detecting the temperature of the cold air outlet and the cold air inlet temperature sensor for sensing the temperature of the cold air inlet, A first step of determining whether the compressor and the fan of the refrigerator are on; When the compressor and the fan are on, the discharge temperature value detected by the discharge port temperature sensor and the suction temperature value detected by the suction port temperature sensor are recognized, and predetermined weights are given to these discharge temperature values and the suction temperature values. Calculating a mean value of; The average value calculated in the second step is compared with the temperature value detected by the temperature sensor in the refrigerator, and if the difference is within a predetermined temperature range, the compressor and the fan are turned off; otherwise, the compressor and the fan are continuously turned on. And a third step.

Description

How to control temperature of refrigerator

The present invention relates to a temperature control method of a refrigerator, and more particularly, a constant temperature control and uniform control of a refrigerator temperature by controlling a refrigerator load such as a compressor and a fan by calculating a combination of a temperature of a cold air outlet, a temperature of a cold air inlet, and a temperature inside a refrigerator. It relates to a temperature control method of the refrigerator to achieve.

In general, the refrigerator controls the internal temperature of the refrigerator by driving the compressor and the fan on / off. In the on / off operation of the compressor and the fan, the high temperature detected by the high temperature sensor is compared with the set temperature set by the user, and when the high temperature is higher than the set temperature, the compressor and the fan are turned on to turn the high temperature into the set temperature. If the high temperature is below the set temperature, the compressor and the fan are turned off to adjust the high temperature to the set temperature. As described above, the internal temperature sensor for detecting the internal temperature is usually installed in a refrigerator refrigerator as shown in FIG. 1, and these sensors are fixed at a predetermined position, for example, 1 / 3H inside the refrigerator, as shown. In Fig. 1, reference numeral 1 denotes a freezer compartment, 2 a refrigerator compartment, 3 a freezer compartment temperature sensor, 4 an outside temperature sensor, 5 a freezer compartment defrost sensor, 6 and 7 a refrigerator compartment temperature sensor, and 8 a refrigerator compartment defrost sensor.

The temperature sensors installed as described above are connected to the control device 10 of the refrigerator shown in block in FIG. 2 and input the respective temperature sensing signals to the microcomputer 15 of the control device 10 to control the device 10. The microcomputer 15 of the refrigerator to control the refrigerator loads, that is, the compressor 21, the freezer fan 22, the refrigerator compartment fan 23, the freezer compartment defrost heater 24 and the refrigerator compartment defrost heater 25 Control the temperature. Here, the internal temperature of the refrigerator is preferably controlled by driving the compressor 21 and the fans 22 and 23, and the defrost of the refrigerator is preferably removed by driving the defrost heaters 24 and 25. .

However, the internal temperature sensor is installed at a fixed position of the refrigerator and inputs the sensed temperature itself to the microcomputer of the controller, and the microcomputer of the controller is based on the input temperature value of the refrigerator, that is, the compressor. There was a problem that the temperature control of the refrigerator is not made accurately because it drives the fan with. That is, the microcomputer of the conventional control device has a problem in that it is not possible to accurately determine the temperature state of the cold air present in the refrigerator because it reads the input temperature value itself.

The present invention was created in order to solve the above problems, in addition to the conventional high temperature sensor inside the cold air outlet temperature sensor and the cold air inlet temperature sensor is additionally installed and the temperature of the cold air outlet and the temperature of the cold air inlet detected by these sensors It is an object of the present invention to provide a temperature control method of a refrigerator in which constant temperature control and uniformity control of the refrigerator temperature can be achieved by controlling the refrigerator load such as a compressor and a fan by giving a weight to each of them and combining them.

1 is a conceptual diagram showing a position of a temperature sensor attached to a typical refrigerator;

FIG. 2 is a block diagram schematically illustrating a relationship between temperature sensors, a control device, and driving loads of a general refrigerator;

Figure 3a, b is a schematic block diagram showing the configuration of the temperature control method of the refrigerator according to the present invention and a conceptual diagram with a temperature sensor,

4 is a flowchart of a temperature control method of a refrigerator according to the present invention;

Explanation of symbols for main parts of the drawings

10 control device 15 microcomputer 21 compressor

31: Temperature sensor in the air 32: Outlet temperature sensor 33: Inlet temperature sensor

34: fan

Temperature control method of the refrigerator according to the present invention to achieve the above object,

In the temperature control method of the refrigerator comprising an internal temperature sensor for sensing the temperature in the refrigerator, a cold air outlet temperature sensor for sensing the temperature of the cold air outlet and a cold air inlet temperature sensor for sensing the temperature of the cold air inlet,

A first step of determining whether the compressor and the fan of the refrigerator are on;

When the compressor and the fan are on, the discharge temperature value detected by the discharge port temperature sensor and the suction temperature value detected by the suction port temperature sensor are recognized, and predetermined weights are given to these discharge temperature values and the suction temperature values. Calculating a mean value of;

The average value calculated in the second step is compared with the temperature value detected by the temperature sensor in the refrigerator, and if the difference is within a predetermined temperature range, the compressor and the fan are turned off; otherwise, the compressor and the fan are continuously turned on. The third step; it is characterized in that it includes.

In a preferred embodiment of the present invention, if the compressor and the fan are off in the first step, performing the second step and driving the compressor and the fan using the average value calculated in the second step. Comparing with a predetermined set temperature, and turning on the compressor and fan if the average value is above the set temperature, and continuously turning off the compressor and fan.

In a preferred embodiment of the present invention, the temperature sensor inside the refrigerator is assumed to be in the (1/3) H position of the refrigerator.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the temperature control method of the refrigerator according to the present invention. For the sake of convenience, the same reference numerals are used for constituent members that have the same function as those used in the prior art. Figure 3 shows only the components required in the present invention for the sake of simplicity of the drawings.

The temperature control method of the refrigerator according to the present invention is to achieve a constant temperature control and uniform control of the refrigerator temperature by controlling a refrigerator load such as a compressor and a fan by combining the temperature of the cold air outlet, the temperature of the cold air inlet, and the internal temperature of the refrigerator. 4 is a flowchart algorithm as shown in FIG. 4, which is programmed to be stored and used in the microcomputer 15 of the control device 10 of FIG. 3. And, the temperature control method of the refrigerator according to the present invention is installed in the (1/3) H position of the inside of the refrigerator as shown in FIG. 3 installed in the temperature sensor 31 and the cold air outlet for detecting the temperature in the cold air It is implemented in a refrigerator including a cold air outlet temperature sensor 32 for sensing the temperature of the discharge port and a cold air inlet temperature sensor 33 installed in the cold air inlet to sense the temperature of the cold air inlet.

Referring to FIG. 4, the method may include determining whether the refrigerator compressor 21 and the fan 34 are on (S10); When the compressor 21 and the fan 34 are on, after the discharge temperature value detected by the discharge port temperature sensor 32 and the suction temperature value detected by the inlet temperature sensor 33 are recognized (S11), these discharge temperatures are detected. The weight and the suction temperature value are weighted, for example, by the ratio of the discharge temperature value: the suction temperature value = 8: 2 (or 7: 3) (S12), and then the weighted discharge temperature value and the suction temperature value. Calculating an average value of S13; The average value calculated in step S13 is compared with the temperature value detected by the internal temperature sensor 31, and if the difference value (substantially an absolute difference value) is within a predetermined temperature range, for example, 0.5 ° C-1 ° C, the compressor And turning off the 21 and the fan 34, otherwise continuing to turn on the compressor 21 and the fan 34 (S14 and S15). Here, the fan indicated by reference numeral 34 collectively refers to a freezer compartment fan and a refrigerating compartment fan.

In addition, in the method of the present invention, if the compressor 21 and the fan 34 are turned off in step S10, performing the same steps S21, S22, and S23 as in steps S11, S12, and S13, and S23; Comparing the average value calculated in the step with a predetermined set temperature for driving the compressor 21 and the fan 34 which are the loads of the refrigerator, for example, 6 ° C (S24), and if the average value is 6 ° C or more A step S25 of turning on the compressor 21 and the fan 34 and continuing to turn off the compressor 21 and the fan 34.

The operation of the temperature control method of the present invention refrigerator configured as described above will be described with reference to FIGS. 3 and 4.

First, the microcomputer 15 of the control device 10 determines whether the compressor 21 and the fan 34 are on (S10). If the compressor 21 and the fan 34 are on, the microcomputer 15 receives the discharge temperature value and the suction temperature value of the cold air detected by the discharge port temperature sensor 32 and the suction port temperature sensor 33 (S11). ). When the discharge temperature value and the suction temperature value of the cold air are input, the microcomputer 15 weights the discharge temperature value at a ratio of 8 (or 7) and the suction temperature value at a ratio of 2 (or 3) (S12). For example, if the discharge temperature value is 5 ° C. and the suction temperature value is 9 ° C., the weighted discharge temperature value is 4 ° C. (= 5 * 0.8), and the weighted suction temperature value is 1.8 ° C. (= 9 * 0.2).

When the weighted discharge temperature value and suction temperature value are obtained as described above, the microcomputer 15 calculates an average value of the weighted discharge temperature value and the suction temperature value. When the weighted discharge temperature value and the suction temperature value are 4 ° C. and 1.8 ° C., respectively, the average value becomes 2.9 ° C. (S13). Once the weighted average value of 2.9 ° C has been calculated, the microcomputer 15 compares the average value of 2.9 ° C with the internal temperature value detected by the internal temperature sensor 31 and the absolute difference value is within the range of 0.5 ° C-1 ° C. If present, the compressor 21 and the fan 34 are turned off because the inside of the refrigerator is sufficiently cooled. Otherwise, the compressor 21 and the fan 34 are continuously turned on (S14). That is, when the internal temperature value detected by the internal temperature sensor 31 is 3 degreeC, since the absolute difference value is 0.1 degreeC, the compressor 21 and the fan 34 are turned off, and the internal temperature value is 5 degreeC. In this case, since the absolute difference value is 2.1 占 폚, the compressor 21 and the fan 34 are turned off.

If it is determined that the compressor 21 and the fan 34 are off in step S10, the microcomputer 15 performs the same step (S21..S23) as in steps S11 to S13 described above to which weight is assigned. The average temperature value, that is, 2.9 ° C. is obtained (S21..S23). As a result, steps S21 and S11, steps S22 and S12, steps S23 and S13 are the same.

When the average value 2.9 ° C. is calculated in step S23, the microcomputer 15 compares 2.9 ° C. with the load driving set temperature set by the user, and turns on the compressor 21 and the fan 34 when 2.9 ° C. is higher than the set temperature. To lower the internal temperature, otherwise the compressor 21 and the fan 34 are turned off (S24).

Thus, the present invention is to uniformly and accurately control the internal temperature of the refrigerator through the temperature average value of the weighted refrigerator.

As described above, the temperature control method of the refrigerator of the present invention further includes a cold air outlet temperature sensor and a cold air inlet temperature sensor in addition to the conventional internal temperature sensor, and the temperature of the cold air outlet and the temperature of the cold air inlet detected by these sensors. The respective weights of the temperatures and their combined operations provide the advantage that constant temperature control and uniform control of the refrigerator temperature can be achieved by controlling refrigerator loads such as compressors and fans.

On the other hand, the temperature control method of the present invention as described above is not limited to the above embodiment can be carried out by adding a number of manufacturing modifications without departing from the spirit and scope of the present invention.

Claims (5)

In the temperature control method of the refrigerator comprising an internal temperature sensor for sensing the temperature in the refrigerator, a cold air outlet temperature sensor for sensing the temperature of the cold air outlet and a cold air inlet temperature sensor for sensing the temperature of the cold air inlet, A first step of determining whether the compressor and the fan of the refrigerator are on; When the compressor and the fan are on, the discharge temperature value detected by the discharge port temperature sensor and the suction temperature value detected by the suction port temperature sensor are recognized, and predetermined weights are given to these discharge temperature values and the suction temperature values. Calculating a mean value of; The average value calculated in the second step is compared with the temperature value detected by the temperature sensor in the refrigerator, and if the difference is within a predetermined temperature range, the compressor and the fan are turned off; otherwise, the compressor and the fan are continuously turned on. The third step; temperature control method of the refrigerator characterized in that it comprises a. 2. The method of claim 1, wherein if the compressor and the fan are off in the first step, performing the second step, and setting the average value calculated in the second step to drive the compressor and the fan. And comparing the temperature with the temperature, and turning on the compressor and the fan if the average value is equal to or higher than the set temperature, and continuously turning off the compressor and the fan. The method of claim 1 or 2, wherein the weight is a ratio of 8: 2. The method of claim 1 or 2, wherein the weight is a ratio of 7: 3. The temperature control method of the refrigerator according to claim 1 or 2, wherein the temperature sensor in the refrigerator is installed at a position (1/3) H of the refrigerator.

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