KR100202610B1 - Controlling system for refrigerator of micro computer - Google Patents

Abstract

The present invention relates to a refrigerator control system incorporating a microcomputer. In the related art, the temperature control of the refrigerating compartment is dependent on the refrigerating damper, even if the load is actually put in the refrigerating compartment and the refrigerating damper is opened. Since the refrigeration fan is turned off, the cold air is not circulated and the temperature of the refrigerating chamber is increased, and since the refrigerating chamber is controlled by a single sensor of the upper compartment, the middle and lower compartments have substantially a problem of being supercooled or weakly cooled.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, by using a microcomputer to freeze the initial power input, the rapid rapid cooling of the refrigerating compartment, the additional operation of the refrigeration fan when the load of the refrigerating compartment to improve the load response speed and There is an effect of improving the ice making speed by the additional operation when the temperature uniformity, freezer compartment ice load.

Description

Refrigerator control system with built-in microcomputer

The present invention relates to a refrigerator control system incorporating a microcomputer.

1 is a configuration diagram of a conventional refrigerator system, as shown in the compressor (COMP, 10) responsible for cooling of refrigeration and refrigerating, and a refrigerator damper (Damper) that can control the temperature of the refrigerating compartment by supplying and blocking cold air in the refrigerating compartment. And a refrigeration fan motor 12 for driving a refrigeration fan Fan for forced cooling of the cold air generated in the evaporator by acting as a cold air circulation; A refrigerator compartment sensor 13 for sensing a refrigerator compartment temperature; A freezer compartment sensor 14 for sensing a temperature of the freezer compartment; It is composed of a refrigerating compartment multi-duct (15) for uniformly supplying cold air to each compartment of the refrigerating compartment, the operation of the conventional system configured as described above will be described.

2 is an operation flowchart of a system of a conventional refrigerator. As shown in the drawing, the freezer compartment has a freezer compartment temperature of +2 when the compressor 10 is turned off. If it is higher, the compressor 10 and the cooling fan 12 are driven and cooled. When the compressor 10 is ON, the freezer compartment temperature is set to -2. When the temperature is lower than the compressor and the freezing fan 12, the freezer compartment is controlled to control the temperature of the freezer compartment. When the refrigerator damper 11 is opened like the freezer compartment, the refrigerator compartment temperature is set to -0.5. If it is lower, the refrigerator damper 11 is closed, and the refrigerator compartment temperature is set to +0.5 when the refrigerator damper 11 is closed. If it is higher, the refrigerator damper 11 is opened to maintain the refrigerator compartment temperature at the set temperature.

In the conventional apparatus as described above, the temperature control of the refrigerating compartment depends on the refrigerating damper, even though the load is actually put in the refrigerating compartment and the refrigerating damper is opened. This does not lead to a temperature rise of the refrigerating chamber, and also because the freezer compartment is controlled by a single sensor of the upper compartment, there is a problem that the middle and lower compartments are substantially cold or weak cooling.

Accordingly, the present invention has been made to solve the above problems, using a microcomputer to provide a rapid rapid cooling when the initial power-on, the load response speed improvement when the refrigerating chamber load input, the ice making speed of the freezer compartment ice load The purpose is to provide.

1 is a block diagram of a system of a conventional refrigerator.

2 is an operation flowchart of a conventional refrigerator system.

3 is a block diagram of a refrigerator control system incorporating the present invention microcomputer.

4 is a configuration diagram of the function display and selection unit of the refrigerator control system incorporating the present invention microcomputer.

5 is a configuration of a refrigerator compartment twin damper of a refrigerator control system incorporating the present invention microcomputer.

6 is a block diagram showing the configuration of a micro drive unit of a refrigerator control system incorporating the present invention microcomputer.

7 is an operation of the refrigerator compartment twin damper baffle of the refrigerator control system incorporating the present invention microcomputer.

8 is a control operation table of the refrigerator control system incorporating the present invention microcomputer

* Explanation of symbols for main parts of the drawings

10 Compressor (COMP) 11: Refrigerator Chamber Damper

12: refrigeration fan motor 13: cold storage sensor

14: freezer compartment sensor 15: refrigerator compartment multi duct

30: refrigeration fan (2-stage RPM) S1, S2, S3: temperature sensor

34: cold room twin damper 35: function display and selection

36: micro drive unit 40: freezer compartment temperature control button

41: quick freezing button 42: quick freezing button

43: refrigerator compartment temperature control button 44: freezer compartment temperature control display

45: rapid freezing display unit 46: rapid freezing display unit

47: refrigerator temperature control display unit 48: concentrated cooling display unit

50: baffle drive motor 51: reed switch for position detection

60: input unit 61: button input circuit

62: sensor temperature sensing circuit 63: reed switch input circuit

64: output section 65: load driving circuit

66: function display circuit 67: processing unit

3 is a configuration diagram of a refrigerator control system incorporating the microcomputer of the present invention for achieving the above object, and a compressor (COMP) 10 for cooling a refrigerator system, as shown therein; A freezing fan motor 30 for supplying cold air to the freezing compartment and the refrigerating compartment; Temperature sensing sensors S1, S2 and S3 for sensing the temperature of the upper and lower spaces of the shelves installed in the refrigerating chamber; A refrigerator compartment multi duct 15 having a flow path formed to separately supply cold air to the lower space on the shelf; A cold room twin damper 34 capable of controlling cold air supply and shut-off in the lower space on the shelf; A function display and selection unit 35 for function display and function selection of the refrigerator; It is composed of a micro drive unit 36 for controlling all the load of the refrigerator control system, in particular Figure 4 is a functional display and selection unit configuration diagram of a refrigerator control system incorporating the microcomputer of the present invention, as shown in the freezer compartment temperature A freezer compartment temperature control display unit 44 displaying the freezer temperature control of the freezer compartment in several steps according to the operation of the control button 40; A quick freezing display unit 45 for displaying a quick freezing temperature control of the freezing compartment in several steps according to the operation of the quick freezing button 41; A quick refrigeration display unit 46 for controlling rapid refrigeration temperature control of the refrigerating compartment in several steps according to the operation of the quick refrigeration button 42; A refrigerator compartment temperature control display unit 47 displaying the refrigerator temperature control of the refrigerator compartment in several steps according to the operation of the refrigerator compartment temperature control button 43; The temperature in the fridge is + 1 ~ 5 When the above rises, it consists of the intensive cooling display part 46 which displays the load corresponding cooling which cools regardless of the temperature of a freezer compartment, and FIG. 5 is a block diagram of the refrigerator compartment twin damper of this invention, As shown in FIG. Jungle baffles for cold air supply or shut-off Wow, Hakan Baffle Wow; A baffle drive motor 50 for supplying power to open and close the baffle; Of the above, it consists of a position detection reed switch 51 for detecting the position of the hakan baffle, Figure 6 is a block diagram of the configuration of the micro drive unit of the present invention, as shown in the micro drive unit 36 is a functional display And a button input circuit 61 for detecting a button input signal from the selector 35; A sensor temperature sensing circuit 62 for sensing a temperature through an ice making and a refrigeration sensor; An input unit 60 including a reed switch input circuit 63 for detecting a baffle position of the refrigerating chamber twin damper 34 through a position detecting reed switch 51; A load driving circuit 65 for supplying driving power to a load (compressor, refrigeration fan motor, refrigerating chamber twin damper), and a function display circuit 66 for displaying the state of the function pressed by the function display and selection section 35; An output unit 64; It consists of a processing unit 67 to process the information sent from the input unit 60 to the output unit 64, which will be described in detail with reference to the accompanying drawings.

FIG. 7 is an operation diagram of a twin damper baffle in a refrigerator compartment of a refrigerator control system incorporating the microcomputer of the present invention. As shown in the drawing, when the baffle driving motor 50 is turned on, the baffle operates in the order of ①, ②, ③, and ④. The position detection reed switch 51 determines the position of the microcomputer drive unit 36 to control the open / close of the hakan baffles in the refrigerator compartment.

8 is a control operation table of the microcomputer refrigerator control system according to the present invention. As shown in FIG. 8, there are two cases of special operation and normal operation. 10), the refrigeration fan (low _ rpm, 30) is turned on and off, and the refrigerating compartment opens the middle compartment and the hakan respectively by the cold compartment twin damper 34 according to the middle compartment and the hakan sensors 32 and 33 that sense the temperature of each compartment. (open) / close (close) control, as a response to the refrigeration and refrigeration load, there are five functions during special operation, the initial automatic rapid cooling function when the initial power is turned on the compressor 10 and the refrigeration fan ( High_rpm, 30) continuous operation , Hakan Baffle When both open and frozen and refrigerated are satisfied, the operation is switched to normal operation, and the load response operation function is a specific temperature + 1 ~ 5 which is determined to be load input by the hakan sensors 32 and 33 in the refrigerating chamber. If the temperature rises above, regardless of the fridge temperature, the refrigeration fan (low _rpm, 30) is driven to cool the fridge quickly, and the specific temperature determined by the fridge sensors 32 and 33 to be stable temperature is -0.5. When the temperature drops below the normal operation, and the speed is improved, the de-icing speed improvement function is determined by the ice-making sensor 31 in the freezer compartment to determine whether the ice-making load is input, the compressor for 2 hours, the refrigeration fan (low_ rpm, 30) is returned to normal operation after 3 hours of operation, and the rapid freezing function operates the compressor 10 and the freezing fan (high _rpm, 30) for 3 hours continuously when the quick freezing button 41 is selected. Returning to normal operation, the rapid refrigerating function continuously operates the compressor 10 and the freezing fan (high rpm, 30) when the quick refrigerating button 42 is selected. , Open all of them and concentrate the cold paper into the fridge. When the fridge cools down below a certain temperature in Hakan, it will return to normal operation.

As described above, the refrigerator control system incorporating the microcomputer according to the present invention improves load response speed and temperature uniformity and freezer compartment ice loading by initial operation of refrigeration, rapid rapid cooling of a refrigerating compartment, and additional operation of a refrigeration fan when refrigerating a compartment. It has the effect of improving ice making speed by additional operation.

Claims (5)

A compressor (COMP) for cooling the refrigerator system; A freezing fan motor for supplying cold air to the freezing compartment and the refrigerating compartment; A temperature sensor for sensing the temperature of the upper and lower spaces of the shelves installed in the refrigerating chamber; A refrigerating compartment multiduct having a flow path formed to separately supply cold air to the lower space on the shelf; A cold room twin damper capable of controlling cold air supply and interruption to the lower space on the shelf; A function display and selection unit for function display and function selection of the refrigerator; A refrigerator control system with a built-in microcomputer, characterized by comprising a micro drive unit for controlling all loads of the refrigerator control system. According to claim 1, The function display and the selection unit Freezer compartment temperature control display for displaying the control of the freezer temperature of the freezer compartment in several steps in accordance with the operation of the freezer compartment temperature control button; A quick freezing display unit for displaying a quick freezing temperature control of the freezing compartment in several steps according to the operation of the quick freezing button; A quick refrigeration display unit displaying quick refrigeration temperature control of the fridge in several steps according to the operation of the quick refrigeration button; A refrigerator compartment temperature control display unit displaying the refrigerator compartment temperature control in several steps according to the operation of the refrigerator compartment temperature control button; The temperature in the fridge is + 1 ~ 5 If the above rises, the refrigerator control system with a built-in microcomputer, characterized by comprising a concentrated cooling display unit for displaying the load-specific cooling to cool regardless of the temperature of the freezer compartment. The microcomputer as set forth in claim 1, wherein the microcomputer is configured as a two-stage RPM refrigeration fan motor to perform high-speed rotation for a predetermined time at initial power-on or function selection, and to perform low-speed rotation after a predetermined time. Refrigerator control system with built-in computer. The refrigerator control system with a microcomputer according to claim 1, wherein an ice making sensor for detecting an ice making load is additionally configured in the freezer compartment. 5. The apparatus of claim 1 or 4, wherein the micro driver comprises: a button input circuit for detecting a button input signal generated from the function display and the selector; A sensor temperature sensing circuit for sensing a temperature through an ice making and a refrigeration sensor; An input unit comprising a reed switch input circuit configured to detect a position of the baffle of the refrigerating chamber twin damper through a reed switch for position sensing; A load driving circuit for supplying driving power to a load (compressor, refrigeration fan motor, refrigerating chamber twin damper); An output section comprising a function display circuit for displaying a state of a function pressed by the function display and selection section; And a processing unit for processing the information sent from the input unit and sending the information to the output unit.