KR101641225B1 - Method for controlling temperature of refrigerator and the refrigerator using the same - Google Patents

Abstract

The present invention relates to a method of controlling a temperature of a refrigerator and a refrigerator using the same, the refrigerator including a refrigerator body and a freezer compartment; A cold air duct having a suction port and a discharge port communicating with the refrigerating chamber and the freezing chamber, respectively; A damper for opening and closing the refrigerating chamber side discharge port; An evaporator disposed inside the cool air duct for exchanging heat between the coolant and the coolant; A blower fan for blowing cold air to the discharge port side through the evaporator; A compressor for compressing the refrigerant; A condenser connected to the compressor; A three-way valve connected to the condenser; A first inflator coupled to two outlet sides of the three-way valve and a second inflator having an opening greater than the first inflator; And a controller for controlling the open / close state of the three-way valve according to the temperature of the freezer compartment and the refrigerator compartment.

Refrigerator, blower fan, inflator

Description

TECHNICAL FIELD [0001] The present invention relates to a method of controlling a temperature of a refrigerator, and a refrigerator using the same. BACKGROUND OF THE INVENTION [0002]

The present invention relates to a method of controlling a temperature of a refrigerator and a refrigerator using the same. More particularly, the present invention relates to a method for controlling the temperature in a freezer compartment and a refrigerating compartment of a refrigerator using a single blowing fan, and a refrigerator using the same.

The refrigerator is a device for storing foods and the like for a long period of time while keeping the inside of the refrigerator at a low temperature by using latent heat generated by compressing, condensing, expanding and evaporating the refrigerant. The respective compressing, condensing, expanding and evaporating processes are performed by a compressor, , An inflator and an evaporator.

On the other hand, the refrigerator as described above may have various forms according to the use thereof, but typically includes a refrigerating chamber and a freezing chamber maintained at a lower temperature than the refrigerating chamber. In addition, the refrigerator compartment and the freezer compartment must be maintained at a predetermined temperature. For this purpose, a separate evaporator or the like may be provided or a plurality of blowing fans may be provided to independently control the temperatures of the freezer compartment and the refrigerating compartment.

However, if such a plurality of evaporators or blowing fans are provided, the effective volume in the refrigerator compartment is reduced, resulting in an increase in manufacturing cost. On the contrary, if the number of the evaporator or the blowing fan is reduced, the effective volume is increased and the manufacturing cost is reduced, but precise temperature control is difficult.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is a technical object of the present invention to provide a temperature control method of a refrigerator which can efficiently control the temperature in a refrigerator while having a simple structure.

Another object of the present invention is to provide a refrigerator using the above temperature control method.

According to an aspect of the present invention, there is provided a refrigerator comprising: a refrigerator body including a refrigerating chamber and a freezing chamber; A cold air duct having a suction port and a discharge port communicating with the refrigerating chamber and the freezing chamber, respectively; A damper for opening and closing the refrigerating chamber side discharge port; An evaporator disposed inside the cool air duct for exchanging heat between the coolant and the coolant; A blower fan for blowing cold air to the discharge port side through the evaporator; A compressor for compressing the refrigerant; A condenser connected to the compressor; A three-way valve connected to the condenser; A first inflator coupled to two outlet sides of the three-way valve and a second inflator having an opening greater than the first inflator; And a controller for controlling the open / close state of the three-way valve according to the temperature of the freezer compartment and the refrigerator compartment.

Since the temperature of the lateral side freezing room side of the present invention is lower than that of the refrigerating room side, it is recognized that the temperature of the freezing room side is relatively close to the set temperature first. Thus, the damper is used to discharge the refrigerating room side, The temperature of the freezing chamber and the temperature of the refrigerating chamber can be efficiently controlled by only one damper. In addition, the first and second inflators having different opening degrees are provided, and their operation is controlled through the three-way valve in accordance with the temperatures of the refrigerating chamber and the freezing chamber to increase the operation efficiency.

Here, the control unit may open / close the refrigerating chamber side discharge port in accordance with the refrigerating chamber side temperature.

Further, in controlling the opening and closing of the three-way valve, it is possible to control the opening and closing of the three-way valve in consideration of both the temperatures of the freezing chamber and the refrigerating chamber, or considering only one of the temperatures. That is, when only one of the freezing compartment and the refrigerating compartment exceeds the set temperature, the three-way valve is opened in consideration of the temperature on the excess side. If both of the freezing compartment and the refrigerating compartment exceeds the set temperature, It is possible to control the open / close state of the three-way valve in accordance with the difference between the control temperature and the set temperature.

Meanwhile, the control unit may control to close both of the two outlets of the three-way valve when the operation of the compressor is stopped. This makes it possible to prevent the high temperature refrigerant remaining in the compressor from flowing into the evaporator and raising the temperature of the evaporator.

Here, the freezing compartment and the refrigerating compartment may be arranged in any form. For example, the freezing compartment and the refrigerating compartment may be arranged vertically, and the evaporator may be disposed between the freezing compartment and the refrigerating compartment. In addition, an example is also possible in which the freezing compartment and the refrigerating compartment are arranged to the left and right, and the evaporator is disposed between the freezing compartment and the refrigerating compartment. Of course, the evaporator may be disposed on the rear side of the main body.

Here, the cool air duct may be located on the rear side of the refrigerator body, and the blower fan may be disposed between the cool air duct and the evaporator. At this time, the blowing fan may be a turbo fan.

According to another aspect of the present invention, there is provided a refrigerator comprising: a refrigerator body including a refrigerating chamber and a freezing chamber; A cold air duct having a suction port and a discharge port communicating with the refrigerating chamber and the freezing chamber, respectively; An evaporator disposed inside the cool air duct for exchanging heat between the coolant and the coolant; A blower fan for blowing cold air to the discharge port side through the evaporator; A damper for opening and closing the refrigerating chamber side discharge port; A compressor for compressing the refrigerant; A condenser connected to the compressor; A three-way valve connected to the condenser; And a second inflator connected to two outlet sides of the three-way valve, respectively, and a second inflator having an opening greater than that of the first inflator, the method comprising the steps of: measuring a temperature of the freezing compartment and the refrigerating compartment ; Setting one of the freezing measurement temperature and the refrigerating measurement temperature as a control temperature; Controlling the opening and closing of the two outlets of the three-way valve according to the difference between the control temperature and the set temperature at the corresponding side; Operating the compressor and the blower fan to supply cool air to the cool air duct; And controlling the damper according to a measured temperature of the refrigerating chamber to open and close the discharge port.

The above aspect of the present invention is directed to a refrigerator having a plurality of inflators having different opening degrees and capable of providing cooling ability that varies depending on the opening degree of the inflator, It is possible to control the opening degree so as to efficiently control the temperature and increase the operation efficiency.

Meanwhile, it is possible to further prevent the high-temperature refrigerant remaining in the compressor from flowing into the evaporator by additionally closing the two outlets of the three-way valve at the time of stopping the compressor.

On the other hand, the control temperature means a temperature that is a reference for adjusting the opening degree of the inflator by measuring a difference from the set temperature, and can be set as a temperature higher than the set temperature among the freezing room and the refrigerating room. If the temperatures of the freezer compartment and the refrigerating compartment are both equal to or higher than the set temperature, the temperature of the side having a large difference from the set temperature or the average value of the temperature of both sides may be set as the control temperature.

On the other hand, in the step of opening and closing the outlet of the three-way valve, the control temperature is set to a first temperature range higher than the set temperature, a second temperature range higher than the first temperature range, Determining whether or not any one of the first and second information is included; And a controller for controlling the first and second inflator sides to open both the first inflator side and the second inflator side when the control temperature is included in the first temperature range, Three-way valve may be additionally included.

According to aspects of the present invention having the above-described structure, the temperature of the freezer compartment and the freezer compartment can be controlled by only one evaporator, one blower fan, and one damper, thereby simplifying the structure of the refrigerator.

In addition, it is possible to provide an optimal cooling capacity by adjusting the opening degree of the inflator according to the measured temperature, and to prevent the high temperature refrigerant from flowing into the evaporator by shutting off the three-way valve when the compressor is stopped, do.

Hereinafter, embodiments of a refrigerator and its temperature control method according to the present invention will be described with reference to the accompanying drawings.

1 is a schematic view illustrating a refrigeration system of an embodiment of a refrigerator according to the present invention. 1, the embodiment includes a compressor 10 for compressing a refrigerant, a condenser 20 connected to a discharge port side of the compressor 10, a three-way valve 20 connected to an outlet side of the condenser 20, (30). A first inflator 40a and a second inflator 40b are connected to the two outlets of the three-way valve 30 respectively. The second inflator 40b has a larger opening degree than the first inflator 40a. .

An evaporator (50) is located at the outlet side of the first and second inflators. In addition, a blower fan 60 is positioned adjacent to the evaporator 50. Cooling air is generated by heat exchange with the refrigerant while air flows on the surface of the evaporator 50 by the blower fan 60. Here, since the opening degrees of the first and second inflator are set to be different from each other, three flow paths may be formed depending on the open / closed state of the three-way valve (30). That is, when the refrigerant flows into the first inflator 40a only, the refrigerant flows into the second inflator 40b only, or the refrigerant flows into both of the second inflator 40b and the second inflator 40b.

From the viewpoint of the cooling capacity, the refrigerant is the largest in both cases, and the case where the refrigerant flows only to the first inflator side is the smallest. In terms of the required power, the refrigerant is the largest in both cases and flows only into the first expansion device side. Therefore, when the temperature in the refrigerator is higher than the set temperature, both of them are opened for rapid cooling. In the case where the difference from the set temperature is not large, the refrigerant is introduced only into the first inflator side in order to reduce power consumption, This is possible.

If the temperature in the refrigerator is within the normal range, the compressor is stopped. Assuming that the compressor is stopped, the refrigerant remains in the compressor at a relatively high temperature and pressure relative to other portions. Accordingly, the high-pressure refrigerant flows into the evaporator through the condenser and the expander. As a result, the temperature inside the evaporator rises, and this temperature increase may cause an increase in power consumption since it requires additional cooling as the temperature rises in the subsequent operation. Therefore, at the time of stopping the operation of the compressor (10), the two outlets of the three-way valve (30) are closed to prevent the refrigerant of high temperature and high pressure from flowing into the evaporator.

Here, in addition to the three-way valve, an additional valve for blocking the inflow of refrigerant may be added between the compressor and the condenser.

FIG. 2 is a cross-sectional view showing an embodiment of a refrigerator to which the refrigeration system shown in FIG. 1 is applied. 2, the embodiment 100 includes a refrigerator body 102 having a refrigerating chamber 110 and a freezing chamber 120. The refrigerating chamber 110 is disposed at an upper portion of the freezing chamber 120, .

On the other hand, a refrigerant duct 130 having a refrigerating chamber side discharge port 112 and a freezing chamber side discharge port 122 is positioned on both sides of the rear surface of the refrigerator body 102, and the refrigerating chamber 110 and the freezing chamber 120 There is provided a partition 104 separating the two. The evaporator 50 is installed inside the partition 104 and one end of the partition 104 communicates with the cool air duct 130. Cooling air inlets 114 and 124 communicating with the refrigerating chamber and the freezing chamber are formed on the upper and lower surfaces of the other end of the partition 104, respectively.

The above-described blowing fan 60 is installed at a position where the partition wall 104 and the cool air duct 130 are connected. The air blowing fan 60 has a shape of a turbo fan for radially discharging the air introduced in the axial direction, thereby minimizing a space occupied by the blowing fan. A damper 140 is installed in the refrigerating chamber side discharge port 112. The damper 140 is configured to be opened and closed by an actuator such as a motor (not shown).

Now, the operation of the above embodiment will be described.

Referring to FIG. 3, the refrigerating compartment temperature T _R and the freezing compartment temperature T _F are measured at step S01. If the refrigerating compartment temperature T _R is greater than the refrigerating room setting temperature T _RS after comparing the refrigerating compartment temperature T _R measured in step S02 with the refrigerating room setting temperature T _RS , (Step S03). Otherwise, the discharge port 140 is closed (step S04).

The freezing compartment temperature T _F is larger than the freezing compartment set temperature T _FS after comparing the freezing compartment temperature T _F with the freezing compartment actual set temperature T _FS in the state that the discharge port 140 is opened In step S09, the flow advances to step S10. If not, the difference between the freezing chamber temperature and the set temperature is compared in step S09.

On the other hand, in the discharge port 140 is closed, freezing temperature (T _F) with the freezing chamber side set temperature (T _FS) and then compared (S06 step), the freezing chamber temperature (T _F), freezing chamber side set temperature (T _FS ), the operation goes to step S11, which will be described later. Otherwise, since both the freezing room and the refrigerating room are below the set temperature, the operation of the compressor and the blowing fan is stopped (S07) (S08).

In steps S10 and S11, the three-way valve is opened according to the difference between the measured temperature and the set temperature. As described above, since the opening degree of the inflator can be adjusted in three cases, the temperature range exceeding the set temperature is divided into the first to third temperature sections, and then the three-way valve Lt; / RTI > That is, when the control temperature is included in the first temperature interval close to the set temperature, the three-way valve is opened so that the refrigerant flows only to the first inflator side, and when the control temperature is included in the second temperature range, And if the refrigerant is included in the third temperature range that is the farthest from the set temperature, the three-way valve is opened so that the refrigerant passes through both of the first and second inflators.

At this time, the reference temperature, that is, the control temperature, becomes the control temperature when only one of the refrigerator compartment and the freezer compartment exceeds the set temperature, and when both sides exceed the set temperature, The control temperature becomes larger.

When the three-way valve is opened, the compressor and the blowing fan are operated in step S12 so that the refrigeration system is operated to cool the refrigerating system. Then, the system goes to step S01 and repeats the above process continuously or at predetermined time intervals.

FIG. 1 is a schematic view showing a configuration of a refrigeration system included in an embodiment of a refrigerator according to the present invention.

2 is a cross-sectional view schematically showing the internal structure of the embodiment.

FIG. 3 is a flowchart illustrating the operation of the embodiment.

Claims (11)

A refrigerator body having a refrigerator compartment and a freezer compartment; A cold air duct having a suction port and a discharge port communicating with the refrigerating chamber and the freezing chamber, respectively; A damper for opening and closing the refrigerating chamber side discharge port; An evaporator disposed inside the cool air duct for exchanging heat between the coolant and the coolant; A blower fan for blowing cold air to the discharge port side through the evaporator; A compressor for compressing the refrigerant; A condenser connected to the compressor; A three-way valve connected to the condenser; A first inflator coupled to two outlet sides of the three-way valve and a second inflator having an opening greater than the first inflator; A refrigerant inflow blocking valve disposed between the compressor and the condenser, for isolating the inflow of the refrigerant into the first and second inflators, separately from the three-way valve; And And a control unit for controlling the open / close state of the three-way valve in accordance with the temperature of the freezing chamber and the refrigerating chamber, Wherein, Compares the temperature of the refrigerating chamber with the set temperature of the refrigerating chamber, controls the open / close state of the discharge port based on the comparison result, Wherein when the temperatures of the freezing chamber and the refrigerating chamber are both equal to or lower than the predetermined temperature, Wherein when the temperature of the freezer compartment and the temperature of the refrigerating compartment is equal to or higher than the preset temperature, And comparing the difference between the set temperature of the refrigerating chamber and the set temperature of the refrigerating chamber when the temperatures of the freezing chamber and the refrigerating chamber are both equal to or higher than the predetermined temperature, Is set to the control temperature, Determining whether the set control temperature is included in the first to third temperature intervals, Controls the three-way valve so that the refrigerant flows only to the first inflator side if the set control temperature is included in the first temperature interval, Controls the three-way valve so that the refrigerant flows only to the second inflator side if the set control temperature is included in the second temperature range, Controls the three-way valve so that the refrigerant passes through both the first and second expanders when the set control temperature is included in the third temperature range, And controls the operation of the compressor and the blower fan according to whether the three-way valve is opened or closed. The method according to claim 1, Wherein the control unit opens / closes the refrigerating chamber side discharge port in accordance with the refrigerating chamber side temperature. delete The method according to claim 1, Wherein the controller closes both of the two outlets of the three-way valve when the operation of the compressor is stopped. The method according to claim 1, Wherein the freezing compartment and the refrigerating compartment are vertically disposed, Wherein the evaporator is disposed between the freezer compartment and the refrigerating compartment. 6. The method of claim 5, Wherein the cool air duct is located on the back side of the refrigerator body, Wherein the blower fan is disposed between the cool air duct and the evaporator. The method according to claim 6, Wherein the blower fan is a turbo fan. A refrigerator body including a refrigerator compartment and a freezer compartment; A cold air duct having a suction port and a discharge port communicating with the refrigerating chamber and the freezing chamber, respectively; An evaporator disposed inside the cool air duct for exchanging heat between the coolant and the coolant; A blower fan for blowing cold air to the discharge port side through the evaporator; A damper for opening and closing the refrigerating chamber side discharge port; A compressor for compressing the refrigerant; A condenser connected to the compressor; A three-way valve connected to the condenser; And a second inflator having a larger opening than the first inflator and a second inflator disposed between the compressor and the condenser, separately from the three-way valve, the first inflator being connected to the two outlets of the three- 1. A method of controlling a temperature of a refrigerator including a refrigerant inflow-blocking valve for blocking inflow of the refrigerant into a first inflator and a second inflator, Measuring the temperature of the freezing compartment and the refrigerating compartment; Comparing the refrigerator-side temperature and the refrigerating-side set-point temperature, and controlling an opening / closing state of the discharge port based on a comparison result; Closing the three-way valve when the measured temperatures of the freezer compartment and the refrigerating compartment are both lower than a set temperature; Setting the measured temperature on the side of the set temperature or more to the control temperature when any one of the measured temperatures of the freezing chamber and the refrigerating chamber is equal to or higher than the preset temperature; And comparing the difference between the measured temperature of the refrigerating chamber and the set temperature of the refrigerating chamber and the set temperature of the refrigerating chamber when the measured temperatures of the freezing chamber and the refrigerating chamber are all equal to or higher than the predetermined temperature, To a control temperature; Controlling the opening and closing of the two outlets of the three-way valve according to the difference between the control temperature and the set temperature at the corresponding side; Operating the compressor and the blower fan to supply cool air to the cool air duct; And And controlling the damper according to a measured temperature of the refrigerating chamber to open and close the discharge port, Wherein controlling the opening and closing of the two outlets of the three- Determining whether the set control temperature is included in the first to third temperature intervals, Controlling the three-way valve so that the refrigerant flows only to the first inflator side if the set control temperature is included in the first temperature interval, Controlling the three-way valve so that the refrigerant flows only to the second inflator side when the set control temperature is included in the second temperature range; Controlling the three-way valve so that the refrigerant passes through both of the first and second inflator when the set control temperature is included in the third temperature range, and And controlling operation of the compressor and the blower fan according to whether the three-way valve is opened or closed. 9. The method of claim 8, Further comprising closing both of the two outlets of the three-way valve at the time of stopping the compressor. delete delete

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