KR100615785B1 - Refrigerator - Google Patents

Abstract

The refrigerator according to the present invention includes a freezing chamber and a refrigerating chamber having a communication hole formed in a partition wall so that cold air can circulate with each other, and a refrigeration cycle including a compressor, a condenser, an expansion unit, and an evaporator installed at one side of the freezing chamber and a refrigerating chamber, and circulating refrigerant; A cold air circulation path formed on the inner wall of the freezer compartment and the refrigerating compartment so as to communicate with an evaporator installed on the inner wall of the freezing compartment or the refrigerating compartment and guiding the cold air around the evaporator to the freezer compartment or the refrigerating compartment; It is configured to blow the cold air around the evaporator to the freezer compartment or the refrigerating chamber so that the freezer compartment temperature and the refrigerating compartment temperature can reach the preset freezing temperature and the set refrigeration temperature at the same time by adjusting the air volume or the refrigerator compartment air volume.

Refrigerator, freezer, refrigerator, bulkhead, communication hall, blower, blower fan, motor, compressor

Description

Refrigerator {REFRIGERATOR}             

1 and 2 are a front perspective view and a cross-sectional view schematically showing a side-by-side refrigerator according to the prior art,

3 is a graph showing the operating state of the compressor applied to the side-by-side refrigerator according to the prior art,

4 and 5 are a front perspective view and a plan sectional view schematically showing a first embodiment of a side-by-side refrigerator according to the present invention;

6 and 7 are a front perspective view and a plan sectional view schematically showing a second embodiment of a side-by-side refrigerator according to the present invention;

8 is a graph illustrating an operating state of a compressor applied to a side by side refrigerator according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: refrigerator body 54: bulkhead

54h: communication hole 68: evaporator

72: freezer fan 74: refrigerator compartment fan

The present invention relates to a refrigerator capable of storing food and the like in a low temperature state by blowing cold air into a freezer compartment and a refrigerating compartment, and more particularly, to a refrigerator capable of reducing power consumption by quickly removing a load by adjusting a quantity of cold air.

In general, refrigerators are divided into a top mount type in which the freezer and the refrigerating compartment are located on the upper and lower sides, and a side by side type in which the freezer and the refrigerating compartment are located at the sides of the refrigerator. It is developed a lot.

1 and 2 are a front perspective view and a plan view showing a side by side refrigerator according to the prior art, Figure 3 is a graph showing the operating state of the compressor applied to the side by side refrigerator according to the prior art.

The conventional side-by-side refrigerator is located side by side such that the freezer compartment F and the refrigerating compartment R are partitioned by the partition wall 4 inside the refrigerator body 2 as shown in FIGS. 1 and 2. The communication hole (4h) is formed in 4) and the damper (6) is installed to open and close the communication hole (4h), a refrigeration cycle is installed on the inner wall of the refrigerator body (2) to generate cold air, A blowing fan 22 and a motor (not shown) are installed to blow cool air generated around the evaporator 18 in the refrigerating cycle toward the freezing compartment F and the refrigerating chamber R.

Here, the refrigeration cycle is composed of a compressor (not shown), a condenser (not shown), a capillary tube or an electronic expansion valve (not shown), the evaporator 18, the compressor is variable in compression capacity so as to quickly respond to the load Capacitively variable compressors, such as inverter compressors or linear compressors, are adapted, and descriptions of other components are omitted.

At this time, the inside of the freezer compartment (F) is the evaporator 18 is built, a cold air flow passage (not shown) is formed to communicate with the installation space of the evaporator 18 and the freezer compartment and the refrigerating chamber, the cold air circulation passage A blower fan 22 and a motor are installed in the cooling fan, and as the blower fan 22 is operated, cool air around the evaporator 18 is circulated along the freezing compartment F and the refrigerating compartment R, and then again the evaporator. A cold air circulation structure circulated to (18) is achieved.

Thus, as the blower fan 22 is operated, cold air around the evaporator 18 is blown into the freezing compartment F and the refrigerating compartment R, and most of the cold air is blown into the freezing compartment F, and the remaining part is blown. Only it is blown into the refrigerating chamber (R) to maintain the freezer compartment (F) and the refrigerating chamber (R) at a low temperature of -18 ℃ and 3 ℃, respectively.

In particular, while controlling the operation of the compressor and the damper 6 according to the load, the compressor is operated so that the compression capacity is variable, the damper 6 is operated to open and close the communication hole (4h) to quickly load Make it possible to resolve.

At this time, the compression capacity and the damper 6 of the compressor so that the freezing compartment temperature (Tf) and the refrigerating compartment temperature (Tr) to reach the set freezing temperature (Tf ₀ ) and the set refrigerating temperature (Tr ₀ ) according to the load, respectively. 3), but as shown in Figure 3 until the freezer compartment temperature (Tf) and the refrigerator compartment temperature (Tr) reaches the set freezing temperature (Tf ₀ ) and the set refrigerator temperature (Tr ₀ ), respectively. Increasing the input voltage to maintain a large compression capacity of the compressor, the larger the compression capacity is generated, the colder the colder is generated, most of the cold air is supplied to the freezer compartment (F) side, a portion of the cold air is stored in the refrigerator compartment ( R) is supplied to the side.

At the same time, the damper 6 is opened to allow the freezer compartment F side cold air to flow into the refrigerating compartment R so that the load of the freezer compartment F and the refrigerating compartment R is quickly eliminated.

At this time, since the set refrigerating temperature (Tr ₀ ) is higher than the set freezing temperature (Tf ₀ ), as the cold air is simultaneously supplied to the freezing compartment (F) and the refrigerating chamber (R), the refrigerating compartment temperature (Tr) is set to the refrigerating temperature ( there is more quickly reached Tr _0), to be smaller than a voltage input to the compressor in order to ensure quick reach the freezing temperature (Tf) is also set freezing temperature (Tf ₀₎ to as small as the compression capacity of the compressor At the same time, the damper 6 is closed so that low temperature cold air is circulated only in the freezing chamber (F).

Of course, even when the freezer compartment temperature Tf reaches the set freezer temperature Tf ₀ first and the refrigerator compartment temperature Tr does not reach the set refrigerator temperature Tr ₀ , the compression capacity of the compressor is kept small. At the same time, the damper 6 is opened so that low temperature cold air circulates through the freezing compartment F, and then circulates into the refrigerating compartment R.

However, the refrigerator configured as described above has a large power loss due to the variable operating load of the compressor because the capacity of the compressor is variable as the load is varied and the operation of the damper 6 is quickly eliminated. There is a problem.

The present invention has been made to solve the above problems of the prior art, it is possible to reduce the power loss of the compressor at the same time to quickly solve the load by adjusting the amount of air flow while maintaining the same operating conditions of the compressor even if the load is variable. The purpose is to provide a refrigerator.

To this end, the present invention is a refrigerator body and the refrigerator compartment is divided into a partition wall and the refrigerator body formed therein, and installed in the freezer compartment body to supply cold air to the freezer compartment and the refrigerating compartment, a refrigeration cycle having an evaporator, and communicating with the evaporator, A cold air circulation passage guiding the cold air to the freezer compartment and the refrigerating compartment, and the freezer compartment air temperature and the refrigerating compartment air temperature by adjusting the freezer compartment air flow and the refrigerating compartment air temperature even if the load is variable and installed on the cold air circulation passage, A blower that blows cold air into the freezer compartment and the refrigerating compartment to reach a temperature, the blower being installed on a cold air circulation passage communicating with the freezer compartment and controlling a freezer compartment air flow volume, and installed on a cold air circulation passage communicating with the refrigerating compartment. It is configured to include a refrigerator compartment fan to adjust the refrigerator compartment air flow rate It provides a refrigerator.
In another aspect, the present invention provides a refrigerator, characterized in that the compressor capacity is adjusted so that the compression capacity is constant, the communication hole formed in the partition wall is always open so that the cold air of the freezer compartment and the refrigerating compartment can be circulated with each other.

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

4 and 5 are a front perspective view and a cross-sectional view schematically showing a first embodiment of a side-by-side refrigerator according to the present invention.

In the first embodiment of the side-by-side refrigerator according to the present invention, as shown in FIGS. 4 and 5, the freezer compartment F and the refrigerating compartment R are arranged on the partition wall 54 in the refrigerator body 52 having the front surface open. Located side by side to be partitioned by, the freezer compartment (F) inner wall is provided with an evaporator (68) for generating cold air, so as to communicate with each other between the installation space of the evaporator (68) and the freezer compartment (F) and the refrigerator compartment (R). A cold air circulation passage (not shown) is formed, and on the cold air circulation passage, cold air is installed in a freezer compartment fan 72, a motor (not shown), a refrigerating compartment fan 74, and a motor (not shown), respectively. And the air volume of the cold air blown into the refrigerating chamber (R).

Here, the evaporator 68 is connected to a compressor (not shown), a condenser (not shown), a capillary tube or an electronic expansion valve (not shown), etc. to constitute a refrigeration cycle to allow a refrigerant to be circulated and to perform a freezing operation.

In this case, the compressor may be applied to both a variable capacity compressor capable of varying the refrigerant compression capacity according to the load or a constant speed compressor having a constant refrigerant compression capacity, even if the load is variable, to a control unit (not shown) that controls the operation of the entire refrigerator. Controlled by

The evaporator 68 is configured to be partitioned into a freezer compartment side region 68a and a refrigerator compartment side region 68b by the partition wall 70, and the freezer compartment side region 68a is larger than the refrigerating compartment side region 68b. It is desirable to form larger so that more cold air can be supplied to the freezing compartment (F).

Next, the cold air circulation passage is formed to communicate with the freezing compartment F and the refrigerating compartment R separately from the installation space of the evaporator 68, and the installation space of the evaporator 68 is divided into the partition wall 70. Can be formed.

Of course, the evaporator 68 may be configured to form an independent circulation passage formed of one region and communicating with the freezing compartment F and the refrigerating compartment R only with the cold air circulation passage.

In addition, the freezer compartment fan 72 and the motor are installed on the flow passage communicating with the freezing compartment F of the cold air circulation passage, and the refrigerating compartment fan 74 on the passage communicating with the refrigerating compartment R of the cold circulation passage. And a motor is installed, the communication hole in the partition wall 54 so that the cold air can be circulated with each other between the freezer compartment (F) and the refrigerating compartment (R) as the freezer compartment fan (72) and the refrigerating compartment fan (74) is operated. 54h) is preferably formed.

In this case, the freezer fan 72 is configured to be larger than the refrigerating compartment fan 74 so that the air volume of the cold air blown into the freezer compartment F is greater than the airflow volume of the cold air blown into the refrigerator compartment R. Preferably, the freezer compartment fan (F) and the refrigerating compartment fan (R) may be an axial flow fan, but it is more preferred that a relatively high airflow sirocco fan is applied, and the motor is also applied to a high efficiency BLDC motor More preferably.

In this case, the freezing compartment fan 72 and the refrigerating compartment fan 74 are controlled by respective motors, and each motor is also controlled by the control unit. Specifically, various kinds of the freezing compartment fan 72 and the refrigerating compartment R are installed in the freezing compartment F and the refrigerating compartment R. When a temperature sensor (not shown) detects the freezer compartment temperature Tf and the refrigerating compartment temperature Tr, and the temperature signal of the temperature sensor is input to the controller, the controller controls the temperature signal and a preset freezing temperature ( Tf ₀ ) and the set refrigerating temperature Tr ₀ , and the operation of the freezer compartment fan 72 and the refrigerating compartment fan 74 is adjusted according to the comparison result.

Specifically, even if the freezer compartment load and the refrigerating compartment load, in which the freezer compartment temperature Tf and the refrigerating compartment temperature Tr are respectively calculated as an error between the set freezer temperature Tf ₀ and the set refrigerating temperature Tr ₀ , are provided with the control unit, While maintaining the same compression capacity of the compressor while controlling the operation of the freezer compartment fan 72 and the refrigerating compartment fan 74, for example, while maintaining a constant rotational speed of the freezer compartment fan 72 and the refrigerating compartment fan 74 The freezing compartment load and the refrigerating compartment load at the same time while varying the rotation speed.

At this time, when the freezer compartment load is greater than the refrigerator compartment load, the controller rotates the refrigerator compartment fan 74 more slowly than the freezer compartment 72 to increase the air volume of the freezer compartment F than the air volume of the refrigerator compartment R. When the refrigerating compartment load is greater than the freezer compartment load, the control unit rotates the refrigerating compartment fan 74 faster than the freezer compartment 72 to increase the air volume of the refrigerating compartment R than the air volume of the freezing compartment F, The rotational speed of the freezing chamber fan 72 and the refrigerating chamber fan 74 is adjusted in consideration of the amount of blowing.

Of course, since the communication hole 54h is in an open state, cold air of the freezing chamber F is supplied to the refrigerating chamber R, or cold air of the refrigerating chamber R is supplied to the freezing chamber F.

6 and 7 are a front perspective view and a cross-sectional view schematically showing a second embodiment of a side-by-side refrigerator according to the present invention.

The second embodiment of the side-by-side refrigerator according to the present invention is configured in the same manner as the first embodiment, and as shown in FIGS. 6 and 7, the evaporator 68 includes an inner wall of the freezer compartment F and a refrigerating compartment ( R) installed so as to span the inner wall, and partitioned into the freezing compartment side region 68a and the refrigerating compartment side region 68b by the partition wall 54, and the freezing compartment fan 72 and the refrigerating compartment fan 74 on the cold air circulation passage. These are respectively installed so that the air volume of the freezer compartment and the air volume of the refrigerating compartment can be adjusted separately.

In this case, the evaporator 68 is preferably such that the freezer compartment side region 68a is made larger than the refrigerator compartment side region 68b so that more cold air can be supplied to the freezer compartment F.

Therefore, in the second embodiment as described above, the control unit maintains the compression capacity of the compressor at the same time and adjusts the operation of the freezer compartment fan 72 and the refrigerating compartment fan 74 in consideration of the freezer compartment load and the refrigerating compartment load. By controlling the air volume of the freezer compartment and the air volume of the refrigerating compartment it can be eliminated at the same time the load of the freezer compartment and the refrigerator compartment.

Of course, since the communication hole 54h is formed in the partition 54, cold air circulates between the freezing chamber F and the refrigerating chamber R.

8 is a graph illustrating an operating state of a compressor applied to a side by side refrigerator according to the present invention.

As shown in FIG. 8, the side-by-side refrigerator configured as described above has a freezer compartment temperature Tf and a refrigerator compartment temperature Tr set as the freezer compartment F load and the refrigerator compartment R load as set in the freezer temperature Tf ₀ . And controlling the operation of the freezer compartment fan 72 and the refrigerating compartment fan 74 at the same time as operating the compressor to have a predetermined compression capacity so as to reach the set refrigerating temperature Tr ₀ . The amount of cold air and the amount of cold air blown into the refrigerating chamber (R) are different from each other, thereby simultaneously eliminating the freezer load and the refrigerating chamber load.

At this time, the control unit maintains a constant voltage input to the compressor, so that the compressor is operated under the same operating conditions, so that the compressor capacity of the freezer compartment 72 or the refrigerating compartment fan 74 is simply changed without changing the compression capacity of the compressor. Only adjust operation.

In general, the refrigerator is largely dependent on the efficiency of the compressor, the conventional refrigerator, as shown in Figure 3 the power consumption of the W1 is changed as the operating conditions of the compressor as shown in Figure 3, the refrigerator of the present invention As shown in Figure 8 it can be seen that the refrigerator efficiency of the present invention is more excellent than the conventional refrigerator efficiency by consuming a power of W2 less than W1 because the operating conditions of the compressor is constant.

In the above, the present invention has been described in detail by taking an example of a side-by-side refrigerator in which the freezer compartment and the refrigerating compartment are positioned side by side on both sides and independently cool the freezer compartment and the refrigerating compartment based on the embodiments of the present invention and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

Refrigerator according to the present invention is configured as described above is provided with a blower to blow the cold air around the evaporator to the freezer compartment and the refrigerating compartment separately, even if the freezer compartment load and refrigerator compartment load is variable while maintaining the operating conditions of the freezer compartment and By controlling the air volume of the cold air blown into the refrigerating compartment, it is possible not only to solve the freezer load and the refrigerating compartment load at the same time, but also to increase the efficiency of the entire refrigerator by reducing the power loss of the compressor.

Claims (3)

A refrigerator body formed in the freezer compartment and a refrigerating compartment divided into partition walls, A refrigerating cycle installed in the freezer compartment main body to supply refrigerant to the freezer compartment and the refrigerating compartment, the refrigerator comprising: an evaporator and a compressor; A cold air circulation passage communicating with the evaporator and guiding cold air to the freezing compartment and the refrigerating compartment, It is installed on the cold air circulation passage to control the freezer air volume and the freezer compartment air volume even if the load is variable to blow the cold air to the freezer compartment and the refrigerating compartment so that the freezer compartment temperature and the refrigerating compartment temperature can reach the preset freezing temperature and the set refrigeration temperature An air blower, comprising: a freezer compartment fan installed on a cold air circulation passage communicating with the freezer compartment to adjust a freezer compartment air flow rate, and a refrigerating compartment fan installed on a cold air circulation passage communicated with the refrigerating compartment to adjust a refrigerator compartment air flow rate. Refrigerator. The method of claim 1, The compressor is adjusted so that the compression capacity is constant even if the load is variable, the refrigerator characterized in that the communication hole formed in the partition wall is always open so that the cold air of the freezer compartment and the refrigerating compartment can be circulated with each other. delete

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