KR19990021016A - Cold air discharge apparatus and method of the refrigerator - Google Patents

Abstract

The present invention relates to a cold air discharge device and a method of the refrigerator, the present invention relates to an eccentric damper for selectively opening and closing the discharge port formed in the multi-stage inside the interior so that the cold air can be discharged into each storage space partitioned in multiple stages through the shelf In the cold air discharge device for intensively discharging the cold air to a specific portion in the interior, including a drive means for driving the eccentric damper, and a control means for controlling the operation of the drive means,

A weight sensing means is mounted on each shelf to allow the control means to intensively discharge cold air toward a relatively heavy shelf based on the information input from the weight sensing means.

In the present invention configured as described above, the weight sensing means mounted on each shelf detects the weight of the food stored on the shelf and inputs it to the control means, and the control means compares the information input from the respective weight sensing means to save the heavy shelf. The driving means is driven so that the cold air can be intensively discharged, and the driving means rotates the eccentric damper so as to open only the discharge port for intensively discharging the cold air and close other discharge ports.

Description

Cold air discharge apparatus and method of the refrigerator

The present invention relates to a cold air discharge device and method of the refrigerator, and more particularly to a cold air discharge device and method of the refrigerator such that the concentrated cooling method for optimization in the refrigerator is performed based on the weight of food stored in the refrigerator. .

In general, the refrigerator senses the temperature inside the refrigerator by a temperature sensor mounted at a predetermined position in the refrigerator, and the refrigerator is turned on when the detected temperature inside the refrigerator is higher than or equal to a predetermined temperature preset in the microcomputer. In accordance with the opening and closing of the damper, a method of discharging cold air through a predetermined number of discharge ports concentrated in the center of the furnace has been used.

However, in such a method, since the internal temperature cannot be maintained uniformly by discharging a certain amount of cold air in a certain direction irrespective of the temperature change of a specific part, the freshness of the food stored in the part where the cold air flows is not smooth. In addition, when a high temperature food is stored in a specific part, it takes a lot of time to maintain a constant inside temperature of the whole, there is a problem that the power consumption increases accordingly.

In order to solve this problem, in recent years, the time required to maintain the freshness of the food stored in the refrigerator and the maximum effect with the minimum power, that is, to discharge the cold air to a specific part and to maintain the temperature of the whole interior uniformly And it is possible to reduce the power consumption accordingly, there is provided a cold air discharge method, a so-called intensive cooling method that can reduce the temperature change rate in the high.

The refrigerator to which the centralized cooling method is applied will be described in more detail as follows.

As shown in FIGS. 1 to 3, a freezing compartment 2 and a refrigerating compartment 3 for storing and storing frozen and refrigerated foods are formed in the cabinet 1, and the freezing compartment 2 and the refrigerating compartment 3 are Opening and closing through each door (4), the evaporator 5 and the cold air circulation fan 6 is mounted in the interior of the furnace, respectively.

The refrigerating compartment 3 is provided with a plurality of shelves 7 for supporting foods which are partitioned and stored in multiple stages of the internal space.

In the lower part of the cabinet 1, a compressor 8 for compressing the refrigerant evaporated by the evaporator 5 is mounted, and the cold air generated by the evaporator 5 inside the freezer compartment 2 and the refrigerating compartment 3. A duct member 9 for guiding the cold air circulation fan 6 to be supplied to the freezing chamber 2 and the refrigerating chamber 3 is formed.

The duct member 9 is provided with a plurality of discharge ports 9a for discharging the cold air circulated by the cold air circulation fan 6 to the freezing chamber 2 and the refrigerating chamber 3.

Temperature sensing sensors 10 are respectively installed on the left and right sides of each storage space partitioned through the shelves 7.

An eccentric damper 20 is installed inside the discharge port 9a located in the refrigerating chamber 3 to selectively open and close the discharge port 9a according to the control of the control means based on the information input from the temperature sensor 10. .

The eccentric damper 20 opens and closes the discharge port 9a while rotating by the driving of the stepping motor 30.

Operation of the cold air discharge device for the conventional concentrated cooling configured as described above is as follows.

The temperature sensor 10 mounted on the upper, lower, left and right sides of the refrigerating chamber 3 detects the temperature of each storage space and inputs it to the control means.

The control means calculates the internal temperature difference on the basis of the information input from each temperature sensor 10, and compares the maximum temperature difference and the internal temperature difference preset in the control means.

When the difference in temperature in the refrigerator is not greater than the maximum temperature difference, the eccentric damper 20 is rotated at a constant speed so that cold air is discharged through each discharge port 9a.

On the other hand, when the high temperature difference is greater than the maximum temperature difference, since the temperature inside the high temperature of the specific portion is increased due to the storage of hot food at the specific portion in the refrigerating chamber 3, the evaporator 5 generates the guide of the duct member 9. The control means outputs a control signal to the stepping motor 30 so that the received cold air is discharged toward the high internal temperature.

Subsequently, the stepping motor 30 rotates the eccentric damper 20 so that cold air can be discharged toward the high temperature inside the refrigerator.

The eccentric damper 20 is rotated to close the discharge port located at the side where the internal temperature is relatively low and to open the discharge port located at the side where the internal temperature is high.

However, according to the conventional cold air discharging device for intensively cooling a specific part of the interior of the refrigerator, it detects the temperature of the storage space divided into several parts and intensively discharges the cold air to the relatively high temperature based on the detected temperature. The large food 40 is stored in one side of the storage space 3a on which the temperature sensor 10 is mounted, and at the same time, several small foods 41 are stored in the other storage space 3b. In this case, since the large food 40 blocks the cold air circulating in the storage space 3a, the temperature sensor 10 does not sense the overall temperature of the storage space 3a, and the large food ( Only the temperature of a portion of the storage space 3a blocked by 40 is sensed and input to the control means, and the control means concentrates and discharges cold air to the portion where the large food 40 is stored based on this information. Thereby rotating the locking eccentric damper 20.

That is, since the temperature sensor 10 is misjudged by the size of the food being stored, the food 40 stored in the storage space 3a in which cold air is concentrated is frozen, or at the same time, the other storage space 3b. There was a problem that the freshness of the food 41 accommodated in the drop is lowered, the reliability of the product is lowered.

The present invention has been created to solve the above problems, in the concentrated cooling method for intensively discharging the cold air to a specific portion in the interior in order to maintain the freshness of the food stored in the interior and to reduce the power consumption, cold air for intensive cooling By discharging the standard of the food stored in each shelf in the refrigerator, cold air is concentrated on the shelves with a relatively heavy weight, thereby preventing the misjudgment of the cold air discharging device for intensive cooling, thereby improving product reliability. It is an object of the present invention to provide a cold air discharge device and method of a refrigerator.

1 is a front view showing the inside of a conventional refrigerator to which an eccentric damper is applied for a concentrated cooling method.

2 is a cross-sectional view of a conventional refrigerator to which an eccentric damper is applied for a concentrated cooling method.

3 is a cross-sectional view taken along the line AA of FIG.

4 is a cross-sectional view of the refrigerator to which the weight sensor according to the present invention is applied.

5 is a block diagram showing a configuration according to the present invention.

<Description of the symbols used in the main parts of the drawing>

1: cabinet 2: freezer

3: cold storage room 4: door

5: evaporator 6: cold air circulation fan

7: lathe 8: compressor

9 duct member 20 eccentric damper

30: stepping motor 50: weight detection sensor

The cold air discharge device of the present invention for achieving the above object is an eccentric damper for selectively opening and closing the discharge port formed in multiple stages in the interior of the interior so that the cold air can be discharged into each storage space partitioned in multiple stages through the shelf, and the eccentric damper A cold air discharge apparatus for intensively discharging cold air to a specific portion in a store including a driving means for driving a drive and a control means for controlling the operation of the driving means.

A weight sensing means is mounted on each shelf to allow the control means to intensively discharge cold air toward a relatively heavy shelf based on the information input from the weight sensing means.

In addition, the present invention cold air discharge method for achieving the above object is a weight sensor mounted on each shelf to detect the weight of the food stored in the shelf and input to the control means, and inputted from the weight sensor Calculating the difference between the respective weights based on the information, and comparing the calculated weight difference with a predetermined maximum weight difference, and when the difference is greater than or equal to a predetermined value, the eccentric damper rotates so that cold air is concentrated to the heavy shelf. It characterized in that it comprises a step of opening and closing the discharge port.

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

As shown in FIGS. 3 to 5, an eccentric damper 20 is mounted inside the refrigerating compartment and selectively opens and closes a plurality of discharge ports 9a for discharging the cold air passing through the evaporator 5 to the refrigerating compartment 3. ), A stepping motor 30 for driving the eccentric damper 20, control means for controlling the on / off operation of the stepping motor 30 based on information input from a weight sensor described later, and each shelf ( And a weight sensor 50 mounted on the lower part of 6) to detect the weight of the shelf 6 and the weight of the food stored in the shelf 6 and input the detected information to the control means.

The eccentric dampers 20 are separately configured to individually open and close the storage spaces partitioned through the respective shelves 6, and each of the eccentric dampers 20 is rotated by the driving of the stepping motor 30 while the discharge port ( 9a) is opened and closed.

The control means calculates a weight difference by comparing the information input from each weight sensor 50, a comparison unit for comparing the calculated weight difference and the maximum weight difference for the predetermined concentrated cooling, and the information calculated through the comparison unit On the basis of this, it is comprised of the processing part which determines opening / closing of each discharge port 9a so that cold air may concentrate intensively toward a heavy shelf.

Referring to the operation of the embodiment according to the present invention configured as described above are as follows.

The weight sensor 50 mounted on each shelf 6 detects the weight of the food stored in the shelf 6 and inputs it to the control means.

The comparison unit of the control means calculates the difference of each weight based on the information input from each weight sensor, and compares the calculated information with the maximum weight difference.

In this case, when the calculated weight difference is smaller than the maximum weight difference, since it is not necessary to supply cold air intensively to a specific part, the eccentric damper 20 is uniformly distributed so that the cold air is evenly distributed to the storage space partitioned through each shelf 6. Rotate at speed

On the other hand, if the calculated weight difference is greater than the maximum weight difference, since a large amount of food is stored in a specific portion in the refrigerating chamber 3, the cold air generated in the evaporator 5 and guided by the duct member 9 is discharged ( The control means outputs a control signal to the stepping motor 30 so that a large amount of food is strongly discharged through 9a).

As the stepping motor 30 receives the control signal from the control means, the eccentric damper 20 is rotated so that the cold air can be intensively discharged toward a large amount of food.

The eccentric damper 20 opens the discharge port located in the direction for intensively discharging the cold air, and simultaneously closes the other discharge port.

Therefore, according to the present invention, since the cold air discharge device for intensively discharging cold air to a specific part in the refrigerator is operated by the weight of the food stored in each shelf, the food stored as conventionally is generated by blocking the circulation of cold air. No misjudgement of the temperature sensor occurs.

As described above, the present invention prevents malfunction due to misjudgement of the cold air discharging device for maintaining freshness and reducing power consumption of foods stored in the air by intensively discharging cold air to a specific part of the inside of the refrigerator. There is an effect that can be improved.

Claims (2)

An eccentric damper for selectively opening and closing a discharge port formed in multiple stages in the interior of the inside of the refrigerator so that cold air can be discharged into each storage space partitioned in multiple stages, driving means for driving the eccentric damper, and operation of the driving means. A cold air discharge device for intensively discharging cold air to a specific part in a refrigerator, including a control means for controlling the same. And a weight sensing means mounted on each shelf so that the control means intensively discharges cold air toward a relatively heavy shelf based on the information input from the weight sensing means. Detecting, by the weight sensor mounted on each shelf, the weight of the food stored in the shelf and inputting it to the control means, calculating a difference between the weights based on the information input from the weight sensor; When the difference is more than a predetermined value by comparing the calculated weight difference and the predetermined maximum weight difference, the cold air of the refrigerator comprising a step of opening and closing the discharge port while the eccentric damper is rotated so that cold air is intensively discharged toward the heavy shelf. Discharge method.