KR20060098622A - Method for compensating the air temperature of kimchi refrigerator - Google Patents

Abstract

The present invention relates to a stepless control method of the outside air temperature of a kimchi storage, which can be provided with the linearity of the control temperature to compensate for the intrusion calorie difference caused by the low outside temperature, the linearity of the upper limit of the control temperature is y _up = -0.0371x It is defined according to + 0.4047, and the linearity of the control temperature lower limit is defined according to the following equation y _down = -0.1038x-0.4069. According to the present invention configured as described above, by ensuring the linearity of the control temperature to compensate for the intrusion calorie difference due to the high outside temperature, it is possible to solve the instability of the system that can occur in the boundary section for each temperature band, the control The memory to store temperature values can be greatly reduced.

Kimchi storage, outside temperature, linearity, internal temperature

Description

Method for compensating outside air of Kimchi storage {Method for compensating the air temperature of kimchi refrigerator}

1 is a block diagram of a typical kimchi storage.

Figure 2 is a graph showing a non-linear trend according to the conventional kimchi storage air compensation control method.

Figure 3 is a graph showing a linear trend according to the kimchi storage air compensation control method of the present invention.

Figure 4 is a graph showing the linear trend of the upper and lower limits of the outside temperature according to the kimchi storage air compensation control method of the present invention.

<Explanation of symbols for the main parts of the drawings>

10 compressor 11 condenser

12: dryer 13: pressure reducing device

14 evaporator 15 control unit

16: selection key input unit 17: display unit

18: internal temperature sensor 20: storage

21: outside temperature sensor

The present invention relates to a method for compensating the outside air of a kimchi reservoir, and more particularly, to a stepless control method of the outside temperature of a kimchi reservoir to ensure the linearity of the control temperature in order to compensate for the intrusion calorie difference due to the high and low outside temperature. will be.

In the case of general refrigerators, the internal temperature of the refrigerator changes drastically in the process of frequently opening and closing the door, and the preservation period of the kimchi is shortened by contact with the outside air while taking out the kimchi container from the refrigerator to put the kimchi into the bowl. It is very difficult to maintain proper maturation. In order to solve this problem, kimchi storage has been developed that can ripen kimchi according to the change of season and user's preference, and then maintain the proper temperature for a long time.

In general, kimchi storage is matured and stored according to the user's preference, such as by applying heat to kimchi and fermenting it appropriately or by cooling it to a low temperature and storing it for a long time in the form of fresh kimchi as the first time. It is equipped with a cooling device and a heating device. Initially, the heating device is used to ripen kimchi stored in the inner case as quickly as desired, and then the cooling device is used to maintain the temperature of the inner case at an appropriate level. By doing so, it becomes possible to preserve the taste and freshness of kimchi for a long time.

1 is a block diagram of a general kimchi storage, and FIG. 2 is a graph showing a non-molding trend according to a conventional kimchi storage air compensation control method.

As shown in FIG. 1, a general kimchi storage chamber includes a compressor 10 for compressing a refrigerant at high temperature and high pressure, a condenser 11 for releasing and liquefying heat contained in the refrigerant compressed by the compressor 10, and a condenser. The pressure reducing device (13) and the pressure reducing device (13), which make the refrigerant passing through the dryer (11) filter out the moisture or foreign matter contained in the refrigerant (12) and the refrigerant passing through the dryer (12) into a low pressure state that is easy to evaporate. The evaporator 14 is installed in the reservoir 20 to absorb and cool the surrounding heat while the refrigerant changed into the state is evaporated.

In addition, the selection key input unit 16 for setting the type of kimchi, the maturation period, the aging temperature, etc., the internal temperature sensor 18 for measuring the temperature in the reservoir 20, the temperature of the outside air of the reservoir 20 Display unit for displaying the state of the control unit 15, the control unit 15 for controlling the operation of the condenser 10 receives the values of the outside temperature sensor 21, the selection key input unit 16 and the internal temperature sensor 18 ( 17) and a heater 19 installed in the reservoir 20 under the control of the controller 15 to heat the kimchi in the reservoir 20.

The general kimchi storage configured as described above compensates the outside temperature measured by the outside temperature sensor 21 and maintains the inside temperature, which is used to compensate for deviations in the internal temperature caused by the change in the amount of heat infiltration according to the outside temperature. The internal temperature is kept constant by changing the internal control temperature for each band.

As shown in FIG. 2, the outside air temperature is divided into six bands to set different control temperatures for individual temperature bands.

As such, by dividing the outside air temperature into six bands and controlling the internal temperature of the storage 20 nonlinearly, the control temperature set value is continuously changed by the fluctuation of the outside temperature in the boundary section for each outside temperature band, so that the system of the Kimchi storage system There was a problem of instability.

For example, in the case of low temperature conditions (12.1 ~ 21.0 ° C), excessive correction must be made in case of 21 ° C, while control temperature correction that is too small in case of 12.1 ° C is required.

In other words, the conventional air compensation function is likely to be inappropriate air compensation at the temperate band boundary.

The present invention has been made to solve the above problems, to provide a method for controlling the outside air temperature of the kimchi storage to ensure the linearity of the control temperature in order to compensate for the intrusion calorie difference caused by the low outside temperature. There is a purpose.

The configuration of the present invention devised to achieve the above object is as follows. The present invention is a storage control temperature compensation method according to the outside temperature of the kimchi storage to compensate for the occurrence of the temperature deviation in the storage room according to the change of the heat infiltration according to the outside temperature, the upper limit of the control temperature according to the outside air temperature and It is characterized by the lower limit having linearity.

Here, the linearity of the control temperature upper limit is defined according to the following equation y _up = -0.0371x + 0.4047, wherein y _up is the upper limit temperature of the control temperature, x is the outside temperature, and the control temperature lower limit is The linearity of is defined according to the following equation y _down = -0.1038x-0.4069, wherein y _down is the lower limit temperature of the control temperature, x is the outside temperature.

On the other hand, the linearity of the control temperature upper limit value and the lower limit value is made within the range of 0 ° C. to 40 ° C. of the outside air temperature. At the outside temperature 0 ° C. or less, the control temperature upper limit value and the lower limit value at the outside temperature 0 ° C. are maintained, and the outside temperature Above 40 ° C, the upper and lower limit values of the control temperature at the outside air temperature of 40 ° C are maintained.

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

3 is a graph showing a linear trend according to the Kimchi storage outside air compensation control method of the present invention, Figure 4 is a graph showing a linear trend outside the upper and lower limits of the outside temperature according to the Kimchi storage outside air compensation control method of the present invention.

Kimchi storage outside air compensation control method according to the present invention is divided into six bands, unlike the conventional outside air compensation control method that set a different control temperature for each temperature zone, as shown in Figure 3, the control temperature for each temperature range As the linearization, the upper and lower limit values of the control temperature for each temperate zone were linearized by Equations 1 and 2 to solve the system instability caused by the discontinuity of the upper limit and the lower limit at the temperature band boundary.

In the above Equations 1 and 2, the upper limit and the lower limit of the control temperature respectively form linearity. First, the upper limit of the control temperature is represented by Equation 1,

y _up = -0.0371x + 0.4047,

Where y _up is the upper limit temperature of the control temperature and x is the outside temperature.

On the other hand, the lower limit temperature of the control temperature is presented in equation (2),

y _down = -0.1038x-0.4069

Here, y _down is a lower limit temperature of control temperature, and x is an outside temperature.

That is, through the above equations (1) and (2), the upper and lower limit values of the control temperature according to the outside temperature have their linearity through the above equations (1) and (2) using the outside temperature (x) as a variable.

This is explained through Table 1.

Ambient temperature (℃) 25.0 21.1 21   Control temperature upper limit Conventional -0.6 -0.6 -0.1  Upper limit value according to the invention y _up = -0.0371x + 0.4047  -0.5  -0.4 -0.38986 (≒ -0.4)   Control temperature lower limit Conventional -2.8 -2.8 -2.2  Lower limit value according to the invention y _down = -0.1038x-0.4.69  -3.0  -2.6 -2.5867 (≒ -2.6)

Referring to Table 1 and FIG. 3, the upper and lower limit values of the control temperature at 25 ° C., 21.1 ° C., and 21 ° C. are as follows.

First, the upper limit of the control temperature is the same as the control temperature upper limit value of -0.6 ℃, since the conventional control temperature is divided into a band at the outside temperature 25 ℃ and 21.1 ℃, according to the present invention, the control temperature upper limit value by the above equation (1) These become -0.5 degreeC and -0.4 degreeC, respectively. In addition, at 21 ° C., the upper limit value of the conventional control temperature is increased by applying the upper limit value of a band having a low outside temperature so that the control temperature upper limit value is set to −0.1 ° C. without a linearity. In contrast, the present invention maintains linearity and is set to -0.4 ° C., which is almost equal to 21.1 ° C., which is an approximation, and is actually -0.38986 ° C., which is slightly higher than the above -0.4 ° C.

On the other hand, the lower limit of the control temperature is the same as the conventional control temperature is divided into the band at the outside temperature of 25 ℃ and 21.1 ℃, the control temperature lower limit value is also the same as -2.8 ℃, according to the present invention, the control temperature lower limit value is It becomes -3.0 degreeC and -2.6 degreeC, respectively. In addition, since the lower limit value of the band having a low outside temperature is applied to the conventional control temperature lower limit value at 21 ° C., the control temperature lower limit value is set to −2.2 ° C. and thus increases significantly without linearity. In contrast, the present invention maintains linearity and is set to -2.6 ° C., which is almost equal to 21.1 ° C., which is an approximation, and is actually -2.5867 ° C., which is slightly higher than -2.6 ° C. described above.

Therefore, according to the present invention, it is possible to solve the system instability caused by the large fluctuation of the control temperature upper limit value and the lower limit value in the boundary section of the conventional outside air temperature band.

On the other hand, when the outside temperature is detected as -30 ℃, the lower limit of the control temperature becomes 2.7 ℃ and the upper limit becomes 1.5 ℃, which makes it impossible to control, so if the outside temperature is below 0 ℃, the upper and lower limits of the control temperature are 0 ℃ The control temperature is maintained at the upper and lower limits of the control temperature, and is maintained at the upper and lower control temperature limits of 40 ° C when the ambient temperature is 40 ° C or higher.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

According to the present invention configured as described above, by ensuring the linearity of the control temperature to compensate for the intrusion calorie difference due to the high outside temperature, it is possible to solve the instability of the system that can occur in the boundary section for each temperature band, the control The memory to store temperature values can be greatly reduced.

Claims (6)

In the method of compensating the storage control temperature according to the outside temperature of the Kimchi storage to compensate for the deviation of the temperature in the storage room according to the change of the heat infiltration amount according to the outside temperature, The upper limit value and the lower limit value of the control temperature according to the outside air temperature has a linearity compensation control method characterized in that the kimchi storage. The linearity of the upper limit of the control temperature is expressed by the following equation. defined by y _up = -0.0371x + 0.4047 Here, y _up is the upper limit temperature of the control temperature, x is the outside air compensation control method of the kimchi storage, characterized in that the outside temperature. The linearity of the control temperature lower limit is expressed by the following equation. y _down = -0.1038x-0.4069, Here, y _down is the lower limit temperature of the control temperature, x is the outside air compensation control method of the kimchi storage, characterized in that the outside temperature. The method of claim 1, wherein the linearity of the control temperature upper limit value and the lower limit value is within a range of 0 ° C to 40 ° C of the outside temperature. The method of claim 4, wherein the upper and lower limit values of the control temperature at the outside temperature of 0 ° C are maintained at or below the outside temperature of 0 ° C. The method of claim 4, wherein the control temperature upper limit value and the lower limit value at the ambient temperature of 40 ° C are maintained at or above the ambient temperature of 40 ° C.

Images