KR100848917B1 - Refrigerator and control method for the same - Google Patents

Abstract

A refrigerator and a control method thereof are provided to independently control a refrigerator compartment and a storeroom by simply controlling a fan unit without using an additional device for controlling flow of cold air. A refrigerator comprises a body(1) and a cold air generating room(20). The body has a refrigerator compartment(10) and a storeroom(30) provided in the refrigerator compartment to form a cooling space. The cold air generating room has a freezer(21) for generating cold air and a main passage(130) for supplying the cold air to the refrigerator compartment. A bypass passage(140) communicates with the cold air generating room to allow the cold air to be supplied to the storeroom. A fan unit(200) selectively opens the main passage and the bypass passage to selectively supply the cold air to the refrigerator compartment and the storeroom. The fan unit includes a fan and an opening/closing unit.

Description

Refrigerator and its control method {REFRIGERATOR AND CONTROL METHOD FOR THE SAME}

1 is a side cross-sectional view of a refrigerator according to an embodiment of the present invention.

2 and 3 is a view showing the operation of the refrigerator according to an embodiment of the present invention.

4 and 5 are views showing the operation of the refrigerator according to another embodiment of the present invention.

<Description of Main Symbols Used in Drawings>

1: body 3: curved portion

10: cooling chamber 20: cold generating chamber

21: Cooler 30: Storage room

100: compartment 130: main euro part

140: bypass passage 141: cold air hole

142: bypass duct 200: fan unit

210: fan 211: first opening and closing part

212: second opening and shutting part

The present invention relates to a refrigerator and a control method thereof. More particularly, the present invention relates to a refrigerator, which is simple and simple in structure and control, for efficient cooling and storage operation.

In general, a refrigerator is a device for long-term preservation of food and the like at a low temperature state by supplying cold air generated by a refrigeration cycle device composed of a compressor and a heat exchanger to a cooling chamber such as a refrigerator compartment and a freezing compartment provided therein.

Such a refrigerator has a storage compartment such as a special selection chamber inside the cooling chamber so that the refrigerator can be controlled independently of the cooling chamber so that cooling of various temperature bands is possible according to the nature of the cooling target body. Ensure optimal cooling conditions to be maintained for as long as possible.

However, the independent operation of the cooling chamber and the storage compartment as described above requires a separate evaporator for independent operation of the storage compartment and a separate device for controlling cold air, which increases manufacturing costs and complicated control.

In addition, even if the independent control of the storage chamber to be performed as a cooler for the operation of the cooling chamber instead of a separate evaporator, a number of complicated devices are required, and thus the problem of increased manufacturing cost and complicated control remains.

The present invention is to solve the above problems, an object of the present invention is to provide a refrigerator and its control method which is advantageous in terms of simple structure, simple control and manufacturing cost while allowing the independent operation of the cooling chamber and the storage compartment. will be.

A refrigerator according to the present invention for achieving the above object, the main body is provided with a cooling chamber and a storage chamber provided in the cooling chamber to form a predetermined cooling space; A cold air generating chamber having a cooler partitioned from the cooling chamber to generate cold air and having a main flow path portion for supplying cold air to the cooling chamber; A bypass passage unit communicating with the cold air generating chamber to bypass the cold air to be supplied to the storage chamber; And a fan unit selectively opening the main flow passage portion and the bypass flow passage portion and selectively supplying cold air to the cooling chamber and the storage chamber.

The bypass flow path unit may include a cold air hole formed to a predetermined size so that the cold air generated by the cooler is bypassed, and a cold air duct guiding the cold air bypassed through the cold air hole to the storage compartment. do.

The fan unit may include a fan for flowing cold air generated by the cooler, a first opening and closing portion for opening and closing the main flow path portion, a second opening and closing portion for opening and closing the cold air hole, the first opening and closing portion, and the second opening and closing portion. It characterized in that it comprises a drive unit for driving the respective main flow path and the cold air hole to selectively open.

The fan unit may include a fan for flowing cold air generated by the cooler, a first opening / closing part fixed to one side of the fan by opening and closing the main flow path part, and fixed to the other side of the fan by opening and closing the cold air hole. A second opening and closing state and the fan in the state in which the second opening and closing portion closes the cold air hole in the first flow state in the fan, and in the second mode, the first opening and closing portion closes the main flow passage portion. The fan is characterized in that it comprises a drive unit for flowing cold air to the cold air duct.

The fan unit may include a fan for flowing cold air generated by the cooler, a first opening / closing part fixed to one side of the fan by opening and closing the main flow path part, and fixed to the other side of the fan by opening and closing the cold air hole. A state in which the fan opens the cold air to the main flow path in a state where the second opening and closing portion and the second opening and closing portion close the cold air hole in the first A mode, and the second opening and closing portion opens the cold air hole in the second A mode. The fan is characterized in that it comprises a drive unit for flowing cold air to the main flow path portion and the cold air duct.

The drive unit may include a rotation means for selectively switching the first mode and the second mode by rotating the fan.

The driving unit may include sliding moving means for selectively switching between the first A mode and the second A mode by sliding the fan.

In addition, it characterized in that it further comprises a control unit for controlling the fan unit by operating the drive unit.

On the other hand, the control method of the refrigerator according to the present invention, (A) determining the cooling mode; (B) starting the cooler and fan unit; And (C) switching the fan unit to a corresponding operation mode according to the cooling mode determined in step (A).

The cooling mode may include a first cooling mode for supplying cold air to the cooling chamber, and a second cooling mode for supplying cold air to the storage chamber or the cooling chamber and the storage chamber.

Further, in the first cooling mode, the fan unit may be switched to a first mode in which a bypass flow path to the storage chamber is cut off and cold air is supplied to the cooling chamber through a main flow path connected to the cooling chamber. And controlling the fan unit in a second mode in which the main flow path is blocked and the cold air is supplied to the storage chamber through the bypass flow path in the second cooling mode. .

Further, in the step (C), in the first cooling mode, the fan unit is switched to the first A mode in which the bypass flow path to the storage chamber is blocked and the cool air is supplied to the cooling chamber through the main flow path to the cooling chamber. Controlling the fan unit in a second A mode of supplying cold air to the cooling chamber and the storage chamber by opening the main flow passage part and the bypass flow passage part in the second cooling mode. It is characterized by.

Hereinafter, a preferred embodiment of a refrigerator and a control method thereof according to the present invention will be described with reference to the drawings.

First, a structure of a refrigerator according to the present invention will be described with reference to FIG. 1.

As shown in FIG. 1, a refrigerator according to an embodiment of the present invention has cold air supplying cold air to a main body 1, a cooling chamber 10 provided in the main body 1, and the cooling chamber 10. The generating chamber 20 is provided, and the partition plate 100 which partitions the said cooling chamber 10 and the cold air generation chamber 20 is provided.

The cooling chamber 10 is provided with a storage chamber 30 to be cooled independently, the storage chamber 30 is to be rapidly cooled or to maintain a constant temperature to be stored in the object to be stored for a long time It is prepared to be.

The cold air generating chamber 20 is provided with a cooler 21 for generating cold air, may be implemented as an evaporator connected to a predetermined device constituting a refrigeration cycle, it may be implemented as a thermoelectric element or the like.

The partition plate 100 partitions the cooling chamber 10 and the cold air generation chamber 20. The partition plate 100 includes cold air generated by the cooler 21 in the cooling chamber 10 and the storage chamber 30. A flow path portion of the cold air to be supplied to is provided.

The cool air generated by the cooler 21 is supplied to the cooling chamber 10 or the storage chamber 30 through at least one of a flow passage communicating with the cooling chamber 10 and a passage communicating with the storage chamber 30.

Here, the main passage 130 forms the flow passage communicating with the cooling chamber 10, and the bypass passage 140 forms the flow passage communicating with the storage chamber 30.

The cold air generation chamber 20 is provided with a fan unit 200 for selectively supplying the cool air generated in the cooler 21 to the main flow path unit 130 or the bypass flow path unit 140.

Details of the fan unit 200 will be described with reference to other drawings.

Meanwhile, a discharge port 120 is formed in the partition plate 100 to discharge cold air into the cooling chamber 10, and the suction port 110 so that the cold air discharged into the cooling chamber 10 is sucked back into the cold air generating chamber 20. ) Is formed.

The bypass flow path unit 140 includes a bypass duct 142 and a cold air hole 141. The partition plate 100 has a cold air hole 141 in communication with the bypass duct 142. Is formed to allow cold air to flow along the bypass duct (142).

The bypass duct 142 and the storage compartment 30 may be connected to each other so that the cold air flowing along the bypass duct 142 may be directly introduced into the storage compartment 30, and the storage compartment 30 and the bypass may be directly introduced into the storage compartment 30. The end portions of the duct 142 are spaced apart from each other, and a communication port (not shown) having a predetermined size is formed in the storage chamber 30 so that cold air supplied through the bypass duct 142 is stored through the communication hole (not shown). It is also possible to allow inflow to 30).

In addition, the cold air supplied through the bypass duct 142 may cool the container itself of the storage compartment 30 to indirectly cool the object to be cooled in the storage compartment 30.

On the other hand, with reference to Figures 2 and 3 will be described in more detail with respect to the refrigerator according to an embodiment of the present invention.

As shown in FIG. 2, the refrigerator according to the exemplary embodiment of the present invention is characterized in that the fan unit 200 is provided in the cold air generating chamber 20. The fan unit 200 includes a fan for blowing cold air ( 210, the first opening and closing portion 211 for selectively opening and closing the main flow passage 130, the second opening and closing portion 212 for selectively opening and closing the cold air hole 141 of the bypass flow passage 140, and the It includes a drive unit (not shown) for driving the fan 210, the first opening and closing portion 211 and the second opening and closing portion 212.

2 and 3, the driving unit (not shown) is represented as performing a function of rotating the fan 210, the first opening and closing portion 211, and the second opening and closing portion 212.

Herein, a case in which cold air is supplied to the cooling chamber 10 is called a first cooling mode, and a case in which cold air is supplied toward the storage chamber 30 is defined as a second cooling mode, and FIG. 2 is a first cooling mode. Denotes the second cooling mode, respectively.

As shown in FIG. 2, in the first cooling mode, the fan unit 200 blows cold air to the main flow path part 130 while the second opening / closing part 212 closes the cold air hole 141. Cold air flowing through the unit 130 is supplied to the cooling chamber 10 through the discharge port.

At this time, the fan unit 200 is operating in the first mode. In the first mode, the fan 210 blows cold air into the main flow path part 130, and the second opening / closing part 212 closes the cold air hole 141.

Meanwhile, as shown in FIG. 2, the fan 210 operates in a state in which the second opening / closing portion 212 blocks the cold air hole 141 to send the cool air to the main flow channel part 130, and then the operation mode is changed. When operating in the two-cooling mode, the fan 210, the first opening and closing portion 211 and the second opening and closing portion 212 is rotated as shown in FIG.

That is, the fan unit 200 rotates about 90 ° counterclockwise in the state shown in FIG. 2, and the fan unit 200 is in the state shown in FIG. 3, and the second opening / closing part 212 opens the cold air hole 141. The opening and closing part 211 is in the state which closed the main flow path part 130. The fan 210 blows cold air toward the inside of the bypass duct 142. This state is referred to as a second mode of the fan unit 200.

Therefore, the cold air is supplied to the storage compartment 30 along the bypass duct 142 by the fan unit 200.

In this case, the fan 210, the first opening and closing part 211, and the second opening and closing part 212 rotate so that the first opening and closing part 211 can be easily rotated so as to form the curved portion 3 at the rear side of the refrigerator. It is preferable to.

That is, the curved portion 3 provides a free space in which the first opening and closing portion 211 can be rotated in consideration of the rotation radius of the first opening and closing portion 211.

The bypass duct 142 has an end portion connected to the storage compartment 30 (or directly or indirectly in communication with the storage compartment 30), and thus cool air flowing through the bypass duct 142 may flow into the storage compartment 30. To be supplied.

On the other hand, with reference to Figures 4 and 5 will be described in detail with respect to the refrigerator according to another embodiment of the present invention.

As shown in FIG. 4, the refrigerator according to another embodiment of the present invention includes a cooling chamber 10, a storage chamber 30, a cold air generating chamber 20, a cooler 21, a main flow path unit 130, and a bypass. Since the flow path unit 140 and the like are substantially the same as those of the exemplary embodiment of the present invention shown in FIGS. 2 and 3, detailed description thereof will be omitted.

4 and 5, the fan unit 200 of the refrigerator according to the present invention includes a fan 210 for blowing cold air and an opening and closing unit for selectively opening and closing the cold air hole 141 of the bypass flow passage part 140. 213, and a driving unit (not shown) for driving the fan 210 and the opening / closing unit 213.

4 and 5, the refrigerator according to another embodiment of the present invention is characterized in that the driving unit (not shown) performs a function of sliding the fan 210 and the opening and closing unit 213.

Here, the first A cooling mode is defined as a case in which cold air is supplied to the cooling chamber 10, and the second A cooling mode is defined as a case in which cold air is supplied to the cooling chamber 10 and the storage chamber 30 simultaneously. 4 shows the first A cooling mode, and FIG. 5 shows the second A cooling mode.

As shown in FIG. 4, in the first A cooling mode, the fan unit 200 operates the fan 210 while the opening and closing portion 213 closes the cold air hole 141 to send the cool air to the main flow path 130. do. This state is when the fan unit 200 is operated in the first A mode. That is, in the first A mode, the fan unit 200 opens and closes the opening and closing portion 213 to block the cold air hole 141, and the fan 210 blows cold air to the main flow path part 130.

If the first A cooling mode is switched to the second A cooling mode as described above, as shown in FIG. 5, the driving unit (not shown) of the fan unit 200 maintains the fan 210 and the opening and closing unit 213. The opening and closing part 213 opens the cold air hole 141 while slidingly moving toward the flow path part 130. In this state, the cold air hole 141 is positioned between the fan unit 200 and the cooler 21. In this state, the fan unit 200 is operated in the second A mode. In the second A mode, the opening / closing unit 213 of the fan unit 200 opens the cold air hole 141 and cools the air toward the main channel 130. In case of blowing air.

In the state in which the opening / closing portion 213 opens the cold air hole 141, the fan 210 operates to send cold air to the main flow path part 130. In this case, the cold air flowing toward the fan unit 200 is cold air hole 141. Some are bypassed.

The cold air partially bypassed through the cold air hole 141 flows along the bypass duct 142 and is supplied toward the storage compartment 30. The cold air blown by the fan 210 flows along the main flow path 130 and is supplied to the cooling chamber 10 through the discharge port.

In other words, in the second A cooling mode, the fan unit 200 is switched to the second A mode and both the cooling chamber 10 and the storage chamber 30 are operated.

Meanwhile, a control method of the refrigerator according to the present invention will be described with reference to FIG. 6.

Although the control unit is not explicitly illustrated in the drawings, the refrigerator according to the present invention further includes a control unit for controlling the cooler and the fan unit.

As shown in FIG. 6, the controller first determines whether the cooling mode required by the user is the first cooling mode (or the first A cooling mode) or the second cooling mode (or the second A cooling mode) (S10, FIG. S20).

In the case of the first cooling mode (or the first A cooling mode), the controller operates the cooler (S11) and operates the fan unit (S12).

The fan unit is operated in the first mode (or the first A mode) (S13).

On the other hand, when it is determined that the controller is to be operated in the second cooling mode (or the second A cooling mode), the controller operates the cooler (S21), operates the fan unit (S22), and operates the fan unit in the second mode ( Or 2A mode) (S23).

If the first cooling mode (or the first A cooling mode) and the second cooling mode (or the second A cooling mode) are not both, it is determined that cooling is not necessary in the refrigerator at present, and the controller stops the cooler and the fan unit. (S30).

Descriptions of specific operations in the first cooling mode, the second cooling mode, and the first A cooling mode and the second A cooling mode have been described above and thus will be omitted.

The refrigerator according to the present invention having the above characteristics can independently control each of the cooling compartment and the storage compartment by simply controlling the fan unit without a separate device for cold air flow control such as a damper, so that the structure is simple and the control is simple. It also has a favorable effect in terms of manufacturing cost.

Claims (12)

A main body provided in the cooling chamber and the storage chamber to form a predetermined cooling space; A cold air generating chamber having a cooler partitioned from the cooling chamber to generate cold air and having a main flow path portion for supplying cold air to the cooling chamber; A bypass passage unit communicating with the cold air generating chamber to bypass the cold air to be supplied to the storage chamber; And And a fan unit selectively opening the main passage part and the bypass passage part and selectively supplying cold air to the cooling chamber and the storage chamber, wherein the fan unit is fixed to one side of the fan and a fan for flowing cold air. And a main opening portion and the bypass passage portion selectively include an opening and closing portion. The method of claim 1, wherein the bypass flow path unit, A cold air hole formed to a predetermined size to bypass the cold air generated by the cooler; And a cold air duct for guiding the cold air bypassed through the cold air hole to the storage compartment. The method of claim 2, wherein the opening and closing portion, A first opening and closing part for opening and closing the main flow path part; A second opening and closing part for opening and closing the cold air hole; And a driving unit configured to drive the first opening and closing portion and the second opening and closing portion, respectively, to selectively open the main flow passage portion and the cold air hole. The method of claim 2, wherein the opening and closing portion A first opening and closing part fixed to one side of the fan to open and close the main flow path part; A second opening and closing portion which opens and closes the cold air hole and is fixed to the other side of the fan; In the first mode, the fan flows cold air to the main flow path while the second opening and closing part closes the cold air hole, and in the second mode, the fan is operated when the first opening and closing part closes the main flow path. A refrigerator comprising a drive unit for flowing cold air into the cold air duct. The method of claim 2, wherein the opening and closing portion A first opening and closing part fixed to one side of the fan to open and close the main flow path part; A second opening and closing portion which opens and closes the cold air hole and is fixed to the other side of the fan; The fan flows cold air into the main flow path in a state in which the second opening and closing portion closes the cold air hole in a first A mode, and the fan in the state in which the second opening and closing part opens the cold air hole in a second A mode. And a driving unit for flowing cold air through the main flow path unit and the cold air duct. The method of claim 4, wherein the driving unit, And rotating means for selectively switching the first mode and the second mode by rotating the fan. The method of claim 5, wherein the driving unit, And sliding sliding means for selectively switching between the first A mode and the second A mode by sliding the fan. The method according to claim 3 or 4, And a control unit which controls the fan unit by operating the driving unit. (A) determining a cooling mode for selectively supplying cold air or simultaneously supplying cold air to the cooling chamber or the storage chamber; (B) operating the fan unit in which the cooler and the fan and the opening and closing unit are coupled; And (C) a control method of a refrigerator comprising moving the fan unit to open or close the main flow path part connected to the cooling chamber or the bypass flow path part connected to the storage chamber according to the cooling mode determined in step (A). . The method of claim 9, wherein the cooling mode, A first cooling mode for supplying cold air to the cooling chamber, And a second cooling mode for supplying cold air to the storage compartment or the cooling chamber and the storage compartment. The method of claim 10, wherein (C) step, In the first cooling mode, controlling the fan unit in a first mode of supplying cold air to the cooling chamber through a main flow passage leading to the storage chamber and blocking the bypass flow passage leading to the storage chamber; And controlling the fan unit in a second mode in which the main flow path is blocked and the cold air is supplied to the storage chamber through the bypass flow path in the second cooling mode. The method of claim 10, wherein (C) step, In the first cooling mode, controlling the fan unit in a first A mode in which a bypass flow path to the storage chamber is blocked and cold air is supplied to the cooling chamber through a main flow path to the cooling chamber; And in the second cooling mode, controlling the fan unit in a second A mode for supplying cold air to the cooling chamber and the storage chamber by opening the main passage portion and the bypass passage portion. Control method.

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