KR980010298A - Refrigerating door detection circuit - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a door open detection circuit for a refrigerator, and more particularly, to a door open detection circuit capable of detecting a door opening in a refrigerator without a door switch and controlling operation of the cold air circulation fan and the interior. The door opening detection circuit includes: an operating piece that rotates in conjunction with the opening and closing operation of the door; Wherein the operation member is inserted or removed in accordance with the opening and closing operation of the door, the operation member is inserted or removed in accordance with the insertion or removal operation of the operation member, and the door open detection Wealth; And a control unit for performing overall control of the refrigerator due to the on / off operation by the output signal of the door open detection unit.

Description

Refrigerating door detection circuit

FIG. 1 is a control circuit diagram of a refrigerator according to a related art; FIG.

FIG. 2 is a circuit diagram of a door open detection of a refrigerator according to an embodiment of the present invention; FIG.

FIG. 3 is a configuration diagram of a refrigerator for explaining the present invention. FIG.

Fig. 4 is a detailed view of Fig. 3, Fig.

DESCRIPTION OF THE REFERENCE NUMERALS

10, 100: Microcomputer

20, 25, 110, 115, 120, 125: Inverter

30, 35, 130, 135, 140, 145: Relays

40, 150: Cooling fan 45, 155: Compressor

50, 165: cool air circulation fan 55, 160: heater

170: High light 150: Door opening detection unit

195: Hinge PD: Light emitting diode

PQ: Light receiving transistor

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a door open detection circuit for a refrigerator, and more particularly, to a door open detection circuit capable of detecting a door opening in a refrigerator without a door switch and controlling the operation of the cold air circulation fan and the interior.

Generally, a medium or large refrigerator is equipped with a door switch to monitor whether the door of the refrigerator is opened or closed. The door opening monitoring of the refrigerator by the door switch stops the operation of the cold air circulating fan which is in operation when the door of the refrigerator is opened and turns on the inside of the refrigerator to brighten the inside of the refrigerator. However, since the miniaturized refrigerator can reduce the number of parts as much as possible, the refrigerator is constituted only to constitute the refrigerator which is an essential function of the refrigerator and to introduce the generated cold air into the refrigerator. Do not.

Therefore, in a refrigerator in which a door switch is not mounted, such as a small refrigerator, the compressor and the cold air circulation fan operate regardless of whether the door is opened or closed. Therefore, when the user opens the door of the refrigerator while the compressor and the cool air circulation fan are operating, the cool air circulation fan operates even in the opened state, so that the cool air to be introduced into the freezer compartment and the refrigerating compartment flows out to the outside.

Therefore, the operation time of the compressor becomes longer, which results in unnecessary power consumption.

Hereinafter, a conventional refrigerator control circuit according to the above description will be described in detail.

FIG. 1 is a control circuit diagram of a refrigerator according to the related art.

The microcomputer 10 that performs overall control of the refrigerator outputs a high signal to the first output terminal PA1 in order to generate cold air and circulate the generated cold air into the refrigerator.

The high signal output to the first output terminal PA1 of the microcomputer 10 is inverted by the inverter 20 and applies a low signal to one side of the coil C of the relay 30. [

At this time, a current transmission path is formed from the power supply voltage VDD through the coil C of the relay 30, and a switch SW (SW) which is turned on / Is turned ON. A current transmission path is formed in the compressor 45, the cooling fan 40 and the cool air circulation fan 50 by the ON operation of the switch SW so that the power supplied from the power source is supplied to the compressor, the cooling fan, .

When power is supplied from the power source unit to the compressor 45, the cooling fan 40, and the cool air circulation fan 50, the compressor starts operating, and the cool air circulation fan 50 ) In the refrigerator. The cooling fan is a means for preventing the compressor from being heated by releasing heat in the machine room during operation of the compressor.

When the operation of the compressor (45) and the circulation fan (50) is stopped, the microcomputer (10) outputs a low signal to the first output terminal (PA1). This low signal is inverted by the inverter 20 and applies a high signal to one side of the coil C of the relay 30 so that a current flow path from the supply voltage source VDD is formed through the coil C It does not.

That is, as the current does not flow through the coil C, the switch SW is turned off, so that the power supplied from the power source unit can not be supplied to the cooling fan, the compressor, and the circulating fan.

On the other hand, when the compressor is operated for a predetermined time and then defrost operation is performed to remove the property made in the refrigerator, the microcomputer 10 outputs a high signal to the second output terminal PA2.

The high signal output to the second output terminal of the microcomputer 10 is inverted by the inverter 25 to be applied to one side of the coil C 'of the second relay 35.

At this time, the second relay 35 is operated to turn on the switch SW ', and a current path is formed in the heater 55 by the second relay operation. Thus, the power supplied from the power supply unit activates the heater 55, and the property formed in the refrigerator is removed by the operation of the heater.

When the defrosting operation is to be terminated, the microcomputer 10 outputs a low signal to the second output terminal PA2, which is inverted by the inverter 25 into a high signal, 35) of the coil (c '). Therefore, no current flows through the coil, and the switch SW 'is turned off.

If the second relay 35 does not operate, the power supplied to the heater 55 is shut off, and the defrosting operation is terminated.

That is, in the conventional refrigerator, the cold circulation fan, the compressor, and the cool fan operate simultaneously by the output signal of the first output terminal PA1 of the microcomputer 10. [ Therefore, when the compressor is operating to adjust the internal temperature of the refrigerator, the cooler circulation fan is also operated. In this state, when the user opens the door of the refrigerator, the cold air in the compartment flows out to the outside by the operation of the cold air circulation fan.

That is, since the conventional refrigerator control circuit does not detect the door opening of the refrigerator because there is no door switch for detecting the opening of the refrigerator door, even if the door of the refrigerator is opened, the cold air circulating fan that is in operation continues to operate.

Therefore, even when the door of the refrigerator is open, the cold air circulation fan continues to operate, so that the cold air flows out to the outside, thereby making the cold air and the operation time of the compressor and the circulation fan circulating in the refrigerator become longer. Thereby causing unnecessary power consumption.

In addition, in the conventional small-sized refrigerator, since the door switch for detecting the door opening is not equipped, the interior light that operates in conjunction with the door switch has not been installed. Therefore, there is a problem that the user has to work in a dark environment in the refrigerator because there is no light.

Accordingly, it is an object of the present invention to provide a door open detection circuit for a refrigerator which can detect the door opening of a refrigerator without a door switch.

It is another object of the present invention to provide a door open detection circuit of a refrigerator which can control the operation of a cool air circulation fan and a door light when a door of the refrigerator is opened without a door switch.

In order to accomplish the above object, according to an embodiment of the present invention, there is provided a door open detection circuit for a refrigerator, comprising: an operation piece that rotates in conjunction with opening and closing operations of a door; A door open sensing part for inserting or detaching the operation piece according to the opening and closing operation of the door and outputting a door open detection signal according to insertion or removal of the operation piece; And a control unit for performing overall control of a built-in owing to a door on / off operation by an output signal of the door opening sensing unit.

According to another aspect of the present invention, there is provided a door open detection circuit for a refrigerator, including a cold air circulation fan for circulating cold air in a refrigerator, an interior light for brightening the interior of the refrigerator, ; A door open sensing part for inserting or detaching the operation piece according to the opening and closing operation of the door and outputting a door open detection signal according to insertion or removal of the operation piece; And a controller for controlling operation of the cool air circulation fan and the interior and exterior of the refrigerator according to an output signal of the door open sensing unit.

The door open detection circuit of the refrigerator according to the present invention is a device for detecting the opening of the door of a refrigerator, such as a refrigerator in which cold air is generated and elements for performing an auxiliary function other than the constitution for circulating cold air are installed, And detects the opening of the door without mounting the door.

Also, the door open detection circuit of the refrigerator according to the present invention detects the opening of the door without the door switch, and controls the operations of the cold air circulation fan and the indoor and outdoor devices according to whether the door is open or closed, thereby preventing unnecessary power consumption. In addition, when the door is opened, the effect of minimizing the inconvenience of use can be obtained by turning on the light.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a door open detection circuit of a refrigerator according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a circuit diagram of a door open detection of a refrigerator according to an embodiment of the present invention; FIG. And Figure 3 shows a schematic view of a refrigerator for the purpose of explaining the present invention, and Figure 4 shows a detail view of a third figure "a ".

3, the door opening detection unit 105 for opening or closing the door 190 of the refrigerator connects the door 190 and the refrigerator case 200, which is a part of the refrigerator. The hinge 195 is attached to the front surface 185 at the front.

When the door is closed, the protruding portion (b) of the hinge 195 is inserted into the "open" portion of the door open detection portion 105, And is released from the "rear portion " of the door opening detection unit 105 when it is opened.

Therefore, when the protruding portion B of the hinge 195 is inserted into the "open" portion of the door open sensing portion 105 when the door is closed, the light signal emitted from the light emitting diode PD is received by the light receiving transistor PQ ) Is reached.

However, when the projecting portion B of the hinge 105 is released from the "D" portion of the door open sensing portion 105 as the door 190 is opened, an optical signal emitted from the light emitting diode PD is transmitted to the light receiving transistor PQ And the light receiving transistor PQ is turned on so that a current path through which the power from the power supply voltage VDD is transmitted through the light receiving transistor PQ is formed.

Next, a refrigerator control circuit for controlling the operation of the cool air circulation fan and the interior light will be described with reference to FIG. 2, after the door opening detection is performed in the same manner as the third and fourth aspects.

The open detection unit 105 includes a light emitting diode PD for receiving a power supply from a power supply VDD and emitting an optical signal and a light receiving transistor PQ for receiving an optical signal emitted from the light emitting diode PD They are facing each other. At this time, a recessed portion C is formed between the light emitting diode PD and the light receiving transistor PQ so that the projecting portion B of the hinge 195 is inserted and then removed.

Therefore, when the lead-out portion of the hinge is inserted into the concave portion (B), the optical signal emitted from the light-receiving diode to the light-receiving transistor is cut off. When the protruding portion of the hinge is removed from the concave portion (B) An optical signal emitting light is detected by the light receiving transistor.

With the above arrangement, when an optical signal is detected in the light-receiving transistor PQ and the light-receiving transistor PQ is turned on, the current supplied from the power source flows to the base power source through the light-receiving transistor, The input terminal PB1 of the microcomputer 100 inputs a low signal.

On the contrary, when the light-receiving transistor PQ can not detect the optical signal and is in the turn-off state, the current supplied from the power source is blocked by the light-receiving transistor and can not flow to the base power source, Terminal. At this time, the microcomputer inputs a high signal.

The microcomputer 100 receives the door open detection signal of the door open detection unit and the microcomputer 100 in response to the door open detection signal inputted thereto, And controls the operation.

That is, when the output signal of the DOA detection unit 105 is converted from a high signal to a low signal, the microcomputer 100 recognizes the DOA opening.

The microcomputer 100 recognizing that the door is opened outputs a control signal for stopping the operation of the circulation fan 165 when the circulation fan 165 is in operation.

That is, the microcomputer 100 outputs a low signal to the third output terminal PA3 and the low signal is inverted to the high signal by the inverter 120 to be supplied to one side of the coil C3 of the third relay 140 .

When a high signal is applied to one side of the coil C3, a current from the power supply VDD can not flow through the coil C3, and therefore the switch SW3 of the third relay 140 is in an off state do.

Accordingly, the third relay 140 does not operate, and thus the current transmission path formed through the cooler circulation fan 165 and the third relay is cut off from the power supply unit 180, and thus the cool air circulation fan 165 The power supply is not supplied. Therefore, the cool air circulation fan 165 stops its operation.

On the contrary, in order to perform the operation of the circulation fan 165, a high signal is always outputted to the third output terminal PA3 of the microcomputer 100, and the signal is converted into a low signal through the inverter 120 And applied to the third relay. At this time, the third relay operates, and accordingly, power is supplied to the circulation fan 165, in which a current path is formed by on / off operation of the third relay, so that operation of the circulation fan is performed.

The microcomputer 100 recognizes that the door is opened, performs an operation to turn on the interior light 170, and outputs a high signal to the fourth output terminal PA4. The high signal is inverted to a low signal by the inverter 125 and is applied to one side of the coil C4. At this time, a current path from the supply power source to the base power source is formed through the coil C4, and when the current flows through the coil C4, the switch SW4 is turned on.

Therefore, a current path of the interior light 170 is formed through the switch, and a source supplied from the power supply unit 180 is supplied to the interior light 170. So that the interior light 170 is turned on.

When the door is closed, the microcomputer 100 outputs a low signal to the fourth output terminal PA4, and the signal is reversed to a high signal by the inverter 125 to turn off the fourth relay 145 . Accordingly, the interior light 170 in which the current path is formed during the on-operation of the fourth relay is turned off by blocking the current transmission path.

The operation control of the compressor 155 and the cooling fan 150 is controlled by the output signal of the first output terminal PA1 of the microcomputer 100 through the inverter 110 and the first relay 130. [

The operation of the heater 160 is controlled through the inverter 115 and the second relay 135 by the output signal of the second output terminal PA2 of the microcomputer 100. [

As described above, the door open detection circuit of the refrigerator according to the embodiment of the present invention is equipped with a door open sensing part on the front of the refrigerator case, and the hinge has a protruding structure, so that the output signal of the door open sensing part To detect the opening of the door.

The door open detection circuit according to the present invention is an extremely useful invention in practical use, for example, by controlling the operations of a cold circulation fan and a high-inside fan according to the opening detection of a door, thereby eliminating unnecessary power consumption and inconvenience in use.

Claims (7)

An operating piece that rotates in conjunction with the opening and closing operation of the door; A door open sensing part for inserting or detaching the operation piece according to the opening and closing operation of the door and outputting a door open detection signal according to insertion or removal of the operation piece; And a control unit for performing overall control of the refrigerator due to the on / off operation by the output signal of the door open detection unit. The method of claim 1, further comprising: Wherein the operating piece is formed integrally with a hinge connecting the refrigerator case and the door. 3. The apparatus of claim 1 or 2, wherein the door open detection unit comprises: A light receiving means for receiving an optical signal emitted from the light emitting means, and a concave portion formed between the light emitting means and the light receiving means so as to be capable of inserting or removing the operation piece, And a door open detection signal is outputted when the operating member is removed. A cold air circulation fan for circulating cold air in the refrigerator, an interior light for brightening the inside of the refrigerator, and an operating piece rotated in conjunction with the opening and closing operation of the door; A door open sensing part for inserting or detaching the operation piece according to the opening and closing operation of the door and outputting a door open detection signal according to insertion or removal of the operation piece; And a control unit for controlling operation of the cool air circulation fan and the interior and exterior of the refrigerator according to an output signal of the door open sensing unit. 5. The method of claim 4, Wherein the operating piece is formed integrally with a hinge connecting the refrigerator case and the door. The method according to claim 4 or 5, Wherein the DOA opening detection unit comprises: A light receiving means for receiving an optical signal emitted from the light emitting means, and a concave portion formed between the light emitting means and the light receiving means so as to allow insertion or removal of the operating piece, And outputs a door open detection signal when the door is removed. The method of claim 6, further comprising: Further comprising a switching unit for controlling the cool air circulation fan or the current passing path of the inside or the outside according to an output signal of the control unit. ※ Note: It is disclosed by the contents of the first application.