KR100517919B1 - Concentration colling apparatus and method for refrigerator - Google Patents

Abstract

The present invention relates to a centralized cooling apparatus and method of a refrigerator, and by scanning the temperature of every point of each shelf of the refrigerator compartment, by detecting the position of the high temperature load to supply the cold air to the point where the high temperature load is located to cool I would have to. To this end, the present invention is a refrigerator having an electronic damper for supplying cold air to each shelf in the refrigerating compartment, which is attached to the upper left or upper right of each shelf in the refrigerating compartment, and detects the temperature at each point of the shelf A plurality of infrared sensors; A microcomputer that compares the temperature of each point detected by the plurality of infrared sensors with a reference temperature, and outputs a concentrated cooling command signal for supplying cold air to the point when the temperature of the predetermined point is greater than the reference temperature as a result of the comparison; ; A concentrated cooling damper attached to an upper left or upper right side of each shelf in the refrigerating compartment and intensively supplying cold air to a predetermined point of the shelf by the concentrated cooling command signal; It comprises a display unit for selectively displaying the temperature and the concentrated cooling process for each point of the shelf detected by the plurality of infrared sensors.

Description

Condenser cooling apparatus and method of refrigerator {CONCENTRATION COLLING APPARATUS AND METHOD FOR REFRIGERATOR}

The present invention relates to a centralized cooling apparatus and method for a refrigerator, and in particular, by scanning the temperature of every point of each shelf of the refrigerator compartment, by detecting the position of the high temperature load and supplying cold air to the point where the hot load is located to cool It relates to a centralized cooling apparatus and a method of allowing a refrigerator.

1 is a view showing a configuration of a general refrigerator, as shown therein, a temperature sensor 12 for detecting a change in the overall temperature rise in the refrigerator; An electronic damper (10) operated by the temperature detection value of the temperature sensor (12); A cold air supply unit 11 for supplying cold air generated by the operation of the electronic damper 10 into the refrigerator; It consists of the shelf 13 which divides the compartment in a refrigerator.

FIG. 2 is a flowchart illustrating a method of cooling a conventional refrigerator. As shown in FIG. 2, it is determined whether the total temperature in the refrigerator detected by the temperature sensor 12 after storing new food is above a predetermined temperature (3 degrees). A first step; As a result of the determination of the first step, if the total temperature in the refrigerator is not higher than a predetermined temperature (3 degrees), the feedback is returned to the first stage, and if the total temperature in the refrigerator is higher than a predetermined temperature (3 degrees), the electronic damper 10 is operated. A second step of determining whether the entire temperature in the refrigerator reaches a predetermined temperature after supplying cold air; If the total temperature in the refrigerator does not reach a predetermined temperature as a result of the determination of the second step, the feedback is returned to the second step, and when the total temperature in the refrigerator reaches a predetermined temperature, the electronic damper 10 is turned off to stop supply of cold air. Performing in three steps, it will be described for the operation of the conventional cooling device of the refrigerator.

First, when food is newly introduced into the refrigerator, regardless of the food storage position of the same shelf 13 where the food is introduced, the temperature sensor 12 detects a change in the overall temperature rise in the refrigerator and outputs a detection signal according to the microcomputer (not shown). Output at the time).

Accordingly, the microcomputer (not shown) receives a detection signal from the temperature sensor 12 and applies a control signal according to the electronic damper 10 when the temperature is higher than a predetermined temperature.

Then, the electronic damper 10 operates by the control signal of the microcomputer (not shown) to generate cold air.

The cold air generated by the electronic damper 10 is supplied into the refrigerator through the cold air supply unit 11, wherein the supplied cold air is supplied to the whole on the shelf 13 and after a predetermined time passes, the temperature in the refrigerator reaches a predetermined temperature. When reaching, the electronic damper 10 stops the operation to stop the supply of cold air.

In the above-mentioned conventional technology, when food is newly introduced into the refrigerator, the temperature sensor attached to one wall of the refrigerator detects the entire temperature regardless of the food storage position in the same shelf and supplies the cold air to the shelf so that the food is not stored. There was a problem in that it supplies unnecessary cold air to the portion, and also supplies the cold air differently from the overall temperature in the shelf when storing food in close contact with the wall surface on which the temperature sensor is attached.

The present invention has been made to solve the above problems, by scanning the temperature of every point of each shelf of the refrigerating chamber, by detecting the position of the high temperature load and supplying cold air to the point where the high temperature load is located to cool It is an object of the present invention to provide a centralized cooling apparatus and method for a refrigerator.

The present invention for achieving the above object, in the refrigerator provided with an electronic damper for supplying the cold air to each shelf in the refrigerator compartment, each shelf in the refrigerator compartment is attached to the upper left or upper right, each of the shelves A plurality of infrared sensors for detecting temperatures at points; A microcomputer that compares the temperature of each point detected by the plurality of infrared sensors with a reference temperature, and outputs a concentrated cooling command signal for supplying cold air to the point when the temperature of the predetermined point is greater than the reference temperature as a result of the comparison; ; A concentrated cooling damper attached to an upper left or upper right side of each shelf in the refrigerating compartment and intensively supplying cool air to a predetermined point of the corresponding shelf by the concentrated cooling command signal; a shelf sensed by the plurality of infrared sensors Characterized in that it comprises a display unit for selectively displaying the temperature and intensive cooling process for each point of the.

The present invention for achieving the above object is, while performing a normal cold air supply operation, if the temperature scan mode, the first process of detecting the temperature for each point of the shelf using an infrared sensor; A second process of comparing the temperature detected at each point with a reference temperature; As a result of the comparison of the second process, if the detection temperature is higher than the reference temperature, cold air is intensively supplied to the corresponding point, and if the detection temperature is lower than the reference temperature, the third process is to end the temperature scan mode.

Hereinafter, with reference to the accompanying drawings the operation and effects of the centralized cooling apparatus and method of the refrigerator according to the present invention will be described in detail.

3 is a cross-sectional view showing the configuration of an embodiment of the centralized cooling apparatus of the present invention refrigerator, which is attached to the upper left corner of each shelf in the refrigerating chamber as shown in the drawing, and detects the temperature at each point of the shelf. Sensors IR1 to IR3; A microcomputer (not shown) for comparing the temperature of each point detected by the infrared sensors IR1 to IR3 with a reference temperature and outputting a concentrated cooling command signal accordingly; A concentrated cooling damper (CD1 to CD3) attached to the upper left side of each shelf in the refrigerating chamber and intensively supplying cold air to the corresponding point by the concentrated cooling command signal; The display unit DP selectively displays the temperature and the intensive cooling process for each point of the shelf detected by the infrared sensors IR1 to IR3.

4 is an operation flowchart of the intensive cooling method of the refrigerator according to the present invention. As shown in FIG. 4, when the cold air supply operation is performed normally, it is determined whether the temperature scan mode cycle is performed. A first process (SP1 to SP4) of detecting temperature at each point of the shelf by using an infrared sensor; A second step (SP5) of comparing the temperature detected at each point with a reference temperature; As a result of the comparison of the second process, if the detection temperature is lower than the reference temperature, the third step (SP5, SP6) to terminate the temperature scan mode to supply the cool air normally, and to switch to the concentrated cooling mode if the detection temperature is higher than the reference temperature (SP5, SP6) and; A fourth process (SP7, SP8) that displays the temperature and the concentrated cooling operation detected at each point of the shelf in real time while intensively supplying cold air to a predetermined point of the shelf, the operation of the present invention will be described. .

First, when a food that is recognized as a high temperature load enters the refrigerator, or when a cycle for switching to the temperature scan mode is reached, it switches to the temperature scan mode (SP1 to SP3).

That is, when the opening of the refrigerator door is detected, it automatically switches to the temperature scan mode.

Accordingly, as shown in FIG. 3, the infrared sensors IR1 to IR3 provided on the side of each shelf detect the temperature of each shelf point (three regions in the embodiment) and apply them to a microcomputer (not shown). (SP4).

Accordingly, the microcomputer (not shown) compares the respective temperatures detected by the infrared sensors IR1 to IR3 with the reference temperature. If the detected temperature is higher than the reference temperature, the microcomputer (not shown) ends the temperature scan mode and supplies the cool air normally.

If the detection temperature is lower than the reference temperature, the microcomputer (not shown) recognizes that the high temperature load is located at a predetermined point of the shelf where the detection temperature is detected, thereby changing the operation mode of the refrigerator into the concentrated cooling mode. (SP5, SP6).

Accordingly, the microcomputer (not shown) controls the opening direction of the discharge port of the concentrated cooling type dampers CD1 to CD3, so that the cold air is intensively supplied to the hot load point of the shelf (SP7).

At this time, the display unit DP displays the temperature and the concentrated cooling process in real time in order to inform the user of the temperature and the concentrated cooling operation process detected at each point of the shelf (SP8).

The specific embodiments or examples made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments and should not be construed in consultation. Various changes can be made within the scope of.

As described in detail above, the present invention scans the temperature of every point of each shelf of the refrigerating compartment, and when the position of the hot load is detected, supplying cold air to the point where the hot load is located, thereby improving the cooling efficiency of the refrigerator. It is effective to improve.

1 is a view showing the configuration of a typical refrigerator.

Figure 2 is a flow chart of the operation of the conventional refrigerator cooling method.

Figure 3 is a schematic diagram showing the configuration of the centralized cooling apparatus of the present invention refrigerator.

Figure 4 is a flow chart for the intensive cooling method of the present invention refrigerator.

***** Description of the symbols for the main parts of the drawings *****

IR1, IR2, IR3: Infrared sensor CD1, CD2, CD3: Intensive cooling damper

DP: display

Claims (5)

In the refrigerator provided with the electronic damper which supplies cold air to each shelf in a refrigerator compartment, A plurality of infrared sensors attached to the upper left or upper right corner of each shelf in the refrigerator compartment and detecting a temperature at each point of the shelf; A microcomputer that compares the temperature of each point detected by the plurality of infrared sensors with a reference temperature, and outputs a concentrated cooling command signal for supplying cold air to the point when the temperature of the predetermined point is greater than the reference temperature as a result of the comparison; ; A concentrated cooling damper attached to an upper left or upper right side of each shelf in the refrigerating compartment and intensively supplying cold air to a predetermined point of the shelf by the concentrated cooling command signal; And a display unit for selectively displaying a temperature and a concentrated cooling process for each point of the shelf detected by the plurality of infrared sensors. delete Performing a cold air supply operation normally, and detecting a temperature at each point of the shelf by using an infrared sensor in a temperature scan mode; A second process of comparing the temperature detected at each point with a reference temperature; As a result of the comparison of the second process, if the detection temperature is higher than the reference temperature, cold air is intensively supplied to the corresponding point, and if the detection temperature is lower than the reference temperature, the third step of terminating the temperature scan mode is performed. Intensive cooling method. The method of claim 3, further comprising displaying in real time the temperature detected at each point of the shelf and the concentrated cooling operation. The intensive cooling method of the refrigerator of claim 3, further comprising automatically switching to a temperature scan mode when an opening of the refrigerator door is detected.