KR20150058744A - Refrigerator and method for controlling the same - Google Patents

Abstract

The present invention relates to a refrigerator and a method to control the same having a function to control cool air in accordance with an amount of an object load of the refrigerator. The refrigerator comprises: storage chambers having shelves to contain an object; doors opening and closing the storage chambers; and cool air feeders making cool air and supplying to the storage chambers.

Description

REFRIGERATOR AND REFRIGERATOR AND METHOD OF CONTROLLING THE SAME METHOD FOR CONTROLLING THE SAME}

The present invention relates to a refrigerator and a method of controlling the refrigerator, and more particularly, to a smart refrigerator having a function of controlling cold air according to the amount of goods carried by the refrigerator and a method of controlling the same.

Refrigerators are one of the most important products in household appliances. Each household has one or more refrigerators. Various kinds of food such as newly purchased food or leftover food are stored in the refrigerator.

Generally, in the case of a refrigerator, a temperature sensor or the like is installed to maintain the freshness of foods stored in the refrigerator, and the refrigerator is configured to generate cold so as to maintain the temperature set in accordance with the temperature information. However, when the temperature sensor installed in a specific portion of the refrigerating chamber senses the temperature of the new food stored in the refrigerating chamber and intensively supplies cool air to the new load, If the temperature is higher than the predetermined temperature, cool air is supplied to the refrigerator to cool the internal temperature of the refrigerator to a predetermined temperature. When the temperature inside the refrigerator is sensed by the temperature sensor to supply the cold air, the compressor can be driven irrespective of the food storage amount (load amount) like frequent opening and closing of the door.

Conventionally, a refrigerator using an optical sensor for adjusting the internal temperature according to the amount of food stored in the refrigerator is known. However, in such a refrigerator, if a large amount of food is housed in the vicinity of the optical sensor, the optical sensor can not accurately detect the light due to the surrounding food, thereby failing to properly control the temperature inside the refrigerator.

Korean Patent Publication No. 1999-011313

SUMMARY OF THE INVENTION It is an object of the present invention to provide a refrigerator which can automatically regulate the cooling power of a refrigerator according to the quantity of stored food stored in the refrigerator when the refrigerator is opened and closed, and a method of controlling the refrigerator.

The refrigerator according to the present invention includes a storage room in which a shelf is installed to store objects, a door that opens and closes the storage room, and a cooler that supplies cool air to the storage room, A signal generator; A sensing unit installed on the shelf for sensing an object; And a control unit for determining the load amount of the object with the information sensed by the sensing unit and controlling the cold air supply amount of the cold air supply unit in proportion to the determined load amount when the signal of the signal generation unit confirms whether the door is opened or closed .

Here, it is preferable that a plurality of sensing units are arranged at predetermined intervals on the shelf, and the control unit determines the amount of goods to be carried on the shelf in proportion to the sensing amount of the sensing unit.

The sensing unit may be a touch sensor.

Alternatively, the sensing unit may further include a gravity sensor or a vibration sensor capable of sensing the weight of the object placed on the shelf. At this time, it is preferable that the control unit increases the cold air supply amount of the cold air supply unit in proportion to the weight of the object.

According to another aspect of the present invention, there is provided a method of controlling a refrigerator including a storage chamber in which a shelf is installed to store an object, a door for opening and closing the storage chamber, and a cool air supply unit for supplying cool air to the storage chamber, A signal generating step of generating a signal; A sensing step of sensing objects on the shelf; And a control step of determining whether the door is opened or closed by a signal of the signal generating step, determining the amount of the object to be loaded based on information sensed in the sensing step, and controlling the cold air supply amount of the cold air supplier in proportion to the determined amount .

Here, it is preferable that the controlling step determines the amount of goods carried on the shelf in proportion to the sensing amount of the sensing step.

Alternatively, the control method may further include a weight sensing step of sensing the weight of the object placed on the shelf. At this time, it is preferable that the control step controls the cold air supply amount of the cold air supply unit in proportion to the weight of the object.

The refrigerator according to the present invention has the effect of controlling the cooling power inside the refrigerator in proportion to the amount of the stored food stored in the refrigerator.

Further, since the refrigerator according to the present invention lowers the cooling power by itself when there is no object inside, the electric power is reduced by reducing the power consumption.

1 is a side sectional view showing an example of a refrigerator according to the present invention.
2 is a schematic view showing a refrigerator according to the present invention.
3 (a) and 3 (b) are views showing an arrangement of sensing units applied to a shelf of a refrigerator according to the present invention.
4 is a flowchart illustrating a method of controlling a refrigerator according to an exemplary embodiment of the present invention.

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

1 is a side sectional view showing an example of a refrigerator according to the present invention.

1, a refrigerator 1 according to the present invention includes a storage compartment 10 in which a shelf 30 is installed to store various items, a door 20 for opening and closing the storage compartment 10, And a cool air supplier (40) for supplying the cool air to the storage room (10).

In the storage room 10, a freezer compartment is formed at an upper portion with a partition wall therebetween, and a lower portion is formed as a refrigerating compartment. Each of the freezing compartment and the refrigerating compartment efficiently stores and stores food according to the type of food The inside of the shelf 30 is partitioned into a plurality of spaces.

The storage room 10 is opened at one side, and the door 20 opens and closes the storage room.

The cool air supplier 40 includes a compressor, an evaporator, a blower fan, and the like on the rear surface. Cool air is generated by cooling the ambient air by taking heat from the surroundings in accordance with the phase change in the process of compressing and condensing the coolant . The functions and functions of the refrigerator for preserving the contents of the refrigerator can be applied to the refrigerator of the present invention. Hereinafter, detailed configurations and functions of the refrigerator will be omitted.

On the other hand, the function and configuration of the refrigerator of the present invention will be described with reference to Fig. 2 to Fig.

FIG. 2 is a view schematically showing a refrigerator according to the present invention, and FIGS. 3 (a) and 3 (b) are views showing an arrangement of sensing parts applied to a shelf of a refrigerator according to the present invention.

2, the refrigerator 1 according to the present invention includes a signal generating unit 300 for generating a signal when the door 20 is opened and closed, a sensing unit 200 for sensing a product installed on the shelf 30, The control unit 200 determines whether the door 20 is opened or closed by a signal from the signal generating unit 300. The control unit 200 determines the amount of the object to be loaded based on the information detected by the sensing unit 200, And a control unit (100) for controlling the display unit.

The signal generator 300 is provided at one side of the door 20 of the refrigerator 1 shown in FIG. 1 to inform the controller 100 of a signal when the door 20 is opened or closed, Any method can be used as long as it can detect the opening and closing of the door 20. For example, the signal generating unit 300 may be installed in a push button manner at a portion where the door 20 is closed when the door 20 is closed, and may generate a signal by being pressed by a door when the door 20 is opened or closed.

The sensing unit 200 may be disposed in the shelf 20 of the storage room 10 to sense the object when the object is loaded and transmit a sensing signal to the controller 100. The sensing unit 200 may be constructed using various kinds of sensors currently used, but it is preferable to use a touch sensor that senses the object when the object is touched or touched with a loaded or loaded object on the shelf 30 have. A detailed description of such a touch sensor will be omitted.

When the control unit 100 confirms whether the door 20 is open or closed by a signal of the signal generation unit 300, the control unit 100 determines the amount of the object to be loaded based on the information sensed by the sensing unit 200, And controls the amount of cold air supplied by the feeder 40. For example, when the controller 100 receives the door open / close signal of the signal generator 300, the controller 100 operates the sensing unit 200 to receive the sensing signal. Based on the sensing signal, Thereby controlling the cold air supply device 40 in such a manner that the cold air is increased when the load amount of the object is increased and the cold air is lowered when the load amount is decreased. At this time, the control ratio of the cold air can be calculated by the experimental value according to the load amount of the object.

3 (a) and 3 (b), the sensing unit 200 is preferably arranged at a plurality of intervals on the shelf 30. As shown in FIG. That is, the sensing unit 200 may be arranged in a horizontal or vertical direction on each shelf installed in the storage room, preferably in an array like a matrix. The sensing unit 200 may be mounted at each position forming the matrix and may transmit to the controller 100 whether the contents are located at the corresponding positions. In this case, the controller 100 determines the amount of the object F loaded on the shelf 30 in proportion to the sensing amount (for example, the sensitivity or the number of sensed signals generated) of the sensing unit 200, So that the temperature of the storage compartment 10 of the refrigerator 1 can be adjusted in accordance with the amount of goods to be loaded. Hereinafter, for convenience of explanation of the present invention, a shelf of a refrigerator room among a plurality of shelves 30 installed in a refrigerator will be described as an example, but the present invention is not limited thereto.

In addition, the sensing unit 200 may further include a gravity sensor or a vibration sensor capable of sensing the weight of the object placed on the shelf. In this case, the control unit 100 outputs a control signal for increasing the cold air supply amount of the cold air supply unit 40 in proportion to the weight of the object, thereby increasing the temperature of the storage room 10 of the refrigerator 1 in proportion to the weight of the object Can be adjusted. For example, when a gravity sensor is installed in the sensing unit, the controller 100 increases the weight of the chiller by two to maintain the freshness of the object, . At this time, it is assumed that the weighting ratio of the cold air can be calculated by the experimental value according to each weight.

Hereinafter, an operation and a control method of a refrigerator according to an example of the present invention will be described in detail with reference to FIG.

4 is a flowchart illustrating a method of controlling a refrigerator according to an exemplary embodiment of the present invention. Hereinafter, although the present invention has been described with reference to the case where the sensing unit 200 is configured as a touch sensor, the present invention may be applied to a case where the sensing unit 200 includes a gravity sensor or a vibration sensor.

First, when the door 20 of the refrigerator 1 is opened by the user and the object is placed on or removed from the shelf 30, the operation is started. At this time, an opening and closing signal for notifying the opening and closing of the door is generated (S10). In this case, the signal generator 300 installed in the door generates a corresponding signal to notify the controller 100 whether the door 20 is open or closed. For example, the signal generated by the signal generator 300 when the door is opened or closed may be a start signal or a notification signal. This is based on the point that the movement of the object occurs when the door is opened and closed. By operating the sensing unit 200 only when the door is opened or closed, it is possible to prevent the sensing unit from unnecessarily operating normally.

Next, the control unit 100 operates the sensing unit 200 to detect objects arranged on the shelf 30 (S20). That is, when the signal generating unit 300 receives the door open / close signal, the control unit 100 activates the touch sensing function of the sensing unit 200 to receive the touch signals of the respective sensors arranged on the shelf, To measure the load of the object located at. For example, the controller 100 senses that many objects are loaded on the shelf 30 as the touch sensors 200 on the shelf 30 detect a lot.

Here, the method of sensing the objects loaded on the shelf 30 can be variously performed. For example, when the volume (quantity) of the object F stored in the refrigerator 1 is small as shown in FIG. 3A, the sensing unit 200 senses the volume of the object F (For example, one to three touch signals). In this case, the control unit 100 can determine that the loading amount of the object F is small. 3 (b), when the volume (quantity) of the object F in which the contents are stored on the refrigerator is large, the sensing unit 200 senses the touch signal by the volume of the object F (For example, 4 to 6 touch signals). In this case, the control unit 100 can determine that the amount of carried objects is large.

At this time, the control unit 100 determines the load amount of the object based on the detection signal of the sensing unit 200 and increases (S40), decreases (S50), and maintains the cold air supply amount of the cold supply unit 40 S60). ≪ / RTI > That is, the controller 100 controls the amount of cool air supplied from the cooler feeder 40 to increase the coolant power of the refrigerator 1 even if the user does not perform any setting operation. The control unit 100 controls the amount of cold air supplied from the cold air supply unit 40 so that the cooling power is lowered even if the user does not perform any additional setting operation, when it is determined that the amount of goods carried by the shelf 30 is small. For example, if there is no change in the amount of goods carried by the shelf 30, the control unit 100 controls the amount of cold air supplied by the cold supply unit 40 to maintain the cooling power of the refrigerator 1 as before. In this way, the control unit 100 determines the load amount based on the sensing signal received by the sensing unit 200, increases the cool air when the amount of the object is increased, and decreases the cool air supply amount of the cold air supplier . Of course, as described above, the control ratio of the cold air can be calculated from the experimental value according to the load amount of the object.

The control unit 100 outputs a control signal for increasing the cold air supply amount of the cold air supply unit 40 in proportion to the weight of the object do. For example, when an object having a weight twice as large is detected by the sensed weight signal, the controller 100 controls the controller 100 to increase the weight of the cold air by a factor of two so as to maintain the freshness of the object, The supply amount is controlled. In addition, when an object having a weight 0.5 times smaller is detected by the sensed weight signal, the controller 100 controls the cold air supply amount of the cold air supply unit so as to reduce the weight of the cold air by 0.5 times in order to reduce unnecessary electricity do. Of course, as described above, the weighting ratio of the cold air can be calculated from the experimental value according to each weight.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1: Refrigerator
10: Storage room
20: Door
30: Shelf
40: cold air supply
100:
200:
300: Signal generator

Claims (7)

1. A refrigerator comprising: a storage compartment in which a shelf is installed to store articles; a door that opens and closes the storage compartment; and a cooler feeder that supplies cool air to the storage compartment,
A signal generator for generating a signal when the door is opened and closed;
A sensing unit installed on the shelf for sensing an object; And
A control unit for determining the amount of the object to be loaded on the basis of the information sensed by the sensing unit and controlling the amount of cold air supplied to the cold air supply unit in proportion to the determined amount of the object,
Wherein the refrigerator is a refrigerator. The method according to claim 1,
Wherein the plurality of sensing units are arranged on the shelf at predetermined intervals,
Wherein the control unit determines a carrying amount of the shelf in proportion to a sensing amount of the sensing unit. 3. The method according to claim 1 or 2,
Wherein the sensing unit is a touch sensor. The method of claim 3,
The sensing unit may further include a gravity sensor or a vibration sensor capable of sensing the weight of the object placed on the shelf,
Wherein the control unit increases the cold air supply amount of the cold air supply unit in proportion to the weight of the object. 1. A method for controlling a refrigerator comprising a storage room in which a shelf is installed to store an object, a door for opening and closing the storage room, and a cooler for supplying cool air to the storage room,
A signal generating step of generating a signal when the door is opened and closed;
A sensing step of sensing a thing on the shelf; And
A control step of determining whether the door is opened or closed with a signal of the signal generation step, determining the amount of the object to be loaded with the information sensed in the sensing step, and controlling the cold air supply amount of the cold air supply unit in proportion to the determined amount of the object
And a controller for controlling the refrigerator. 6. The method of claim 5,
Wherein the controlling step determines a load amount of the shelf in proportion to a sensing amount of the sensing step. The method according to claim 6,
And a weight sensing step of sensing the weight of the object placed on the shelf,
Wherein the controlling step controls the cold air supply amount of the cold air supplying device in proportion to the weight of the object.

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