KR19980014124U - Refrigerator door open detection device using human body sensor - Google Patents

Abstract

The present invention relates to a door switch that will control the refrigerator by detecting the door opening of the refrigerator, and in particular, a door open detection device using a pyro sensor that can generate an accurate and stable door opening monitoring signal in place of a mechanical door switch. Suggest. A feature of the present invention is to install a pyroelectric sensor (37) for detecting the body temperature of the human body on the trimming plate (35) that partitions the freezer compartment and the refrigerating compartment of the refrigerator, the body temperature of the human body by the pyroelectric sensor (37) The door open determination pyroelectric signal recognized through the detection is connected to the door detection signal input terminal of the microcomputer 40 through the signal amplifier 45 and the noise filter 46, and whether or not the door detection signal is inputted. Accordingly, the first and second relay driving circuits 47 and 52 and the third relay driving circuit 56 are connected to the first and second output terminals and the third output terminal of the microcomputer 40 that are outputted by switching the logic level values. When the refrigerator door is opened, the cooling fans 51 and the compressor 55 are turned off by the respective contacts of the relays 48 and 53 and the relays 57 which are turned off by the first to third relay driving circuits. The internal lamp 59 is configured to be connected on.

Therefore, the present invention can obtain the effect of improving the efficiency of the door switch installation work, the stable operation and semi-permanent life is ensured, and can reduce the size of the refrigerator (height) by reducing the gap between the upper and lower doors of the refrigerator.

Description

Refrigerator door open detection device using human body sensor

The present invention relates to a refrigerator door switch technology for controlling a cooling lamp, a compressor, and the like of a refrigerator, and in particular, it is possible to determine whether the refrigerator is in use by detecting heat of a human body away from the conventional mechanical door switch method. It relates to a refrigerator door open detection device using a human body sensor.

As is widely known, a pair of door switches of a refrigerator for determining whether the refrigerator is in use is provided on one side of a trimming plate on the front of the interior of the refrigerator compartment and the refrigerator compartment.

This door switch generates a respective switch contact by moving each operating knob according to the opening and closing of the freezer door and the opening and closing of the refrigerating compartment door.

Switch contacts generated by the operation of the door switch are used for the control of lighting in refrigerators and freezers, and control of cooling fans and compressors.

Figure 1 shows a representative structure of a conventional refrigerator door switch device that has been used until now.

As referred to herein, the structure of the door switch device is provided with a guide wall 19 in the switch body 18, the operation knob 11 is provided to move horizontally along the guide wall 19 in the drawing. .

One side of the operating knob 11 is provided with a movement limiting unit 12 to prevent the operating knob 11 from being separated from the switch body 18.

A spring holder is provided on the movement limiting part 12 so that one side of the spring 20 is inserted and fixed thereto, and the other side of the spring 20 is inserted and fixed to the spring holder 22 provided on the support 21. The operating knob is configured to maintain the operating standby state with a spring elasticity of a certain size.

In addition, on the movement limiting part 12, the operation bar 13 is extended and installed in a direction perpendicular to the moving direction of the operation knob 11, and the operation bar 13 is provided with an operation protrusion 14 to operate the operation. The fixed piece 15 and the movable piece 16 are connected so that the curved part 17 formed on the movable piece 16 may be pushed by the protrusion 14.

For reference, Figure 1 shows a state in which the operation is applied to the operating knob from the outside.

Looking at the operation relationship of the conventional refrigerator door switch having such a structure as follows.

In the state where the door of the refrigerator is closed, the force is applied to the operating knob 11 by the wall surface of the refrigerator, so that the operating knob 11 is in a condition that the spring 20 is moved to the side b, overcoming the elasticity of the spring 20. .

Therefore, the movable piece 16 has its own elasticity and is in an original state, that is, a state in which it moves away from the stationary piece 15.

When the refrigerator door is opened in such a state, the operation knob 11 is pushed along the guide wall 19 of the switch body 18 by the elasticity of the spring 20 and is formed in the movement limiting part 12. Since the actuating protrusion 14 of (13) pushes in the curved part 17 of the movable piece 16, the fixed piece 15 and the movable piece 16 are connected.

This contact signal is input to the microcomputer for controlling the refrigerator to turn on the lighting lamp in the refrigerator, and when the cooling fan and the compressor are in operation, the cooling fan and the compressor are turned off to prevent the cooling efficiency from falling.

However, in the structure of the refrigerator door switch device that operates as described above, because the spring elasticity is used to generate the door switch contact signal, the refrigerator is changed over time due to the deterioration of the elastic force due to the natural elasticity degradation or corrosion of the spring. The door switch contact signal appears unstable.

As a result, operation instability of the refrigerator door switch device causes instability of the high-light control and cooling control, resulting in product defects.

An object of the present invention is to provide a refrigerator door open detection device using a human body sensor that can solve the operation instability caused by the change of the door switch over time and obtain the workability improvement effect by simplifying the installation structure.

A feature of the present invention is to install a pair of infrared pyroelectric elements as a mold on the front of the trimming plate that separates the freezer compartment and the refrigerating compartment of the refrigerator. By being covered or exposed by the refrigerating compartment door, the interior light, cooling fan, compressor, etc. of the refrigerator are controlled based on the sensing output of the pyroelectric element obtained here.

1 is a cross-sectional view of a door switch device for detecting whether a conventional refrigerator door is opened.

2 is an explanatory view of the installation position of the refrigerator door open sensor according to the present invention.

Figure 3 is an enlarged cross-sectional view of the main portion of the trimming plate is installed pyroelectric sensor according to the present invention.

4 is a circuit diagram of the device of the present invention.

＊* Explanation of symbols for main parts of drawing *＊

30: refrigerator body 32: freezer door

34: refrigerator door 35: trimming plate

36: sensor holder (sensor block) 37: pyroelectric sensor

38: plate 39: sensing window

40: micom 45: signal amplifier

46: noise filter 47, 52, 56: relay drive circuit

48, 53, 57: relay 51: cooling fan

55: Compressor 59: Interior lamp

Referring to the present invention based on the accompanying drawings as follows.

2 is a view for explaining the installation of the human body sensor according to the present invention, the sensor block 36 is an internal partition partitioning the cold chamber 31 and the refrigerating chamber 33 forming the refrigerator body 30, that is, It shows that the sensing window is installed in the front toward the door 32, 34 side on the trimming plate 35. As shown in FIG.

3 is an enlarged cross-sectional view of the pyroelectric sensor installation site clearly showing the structure of the present invention, the sensor block (holder) 36 embedded in the trimming plate 35 is molded in a resin material and a pair of pyroelectric elements inside the holder. It has a structure in which the sensor 37 is mounted.

A diaphragm 38 is provided on the front side of the sensor holder 36 to distinguish a pair of pyroelectric sensors for recognizing the opening of the freezer compartment and the refrigerating compartment door, and a sensing window 39 is provided on the diaphragm 38 front. have.

4 is a configuration diagram of a microcomputer control circuit for controlling a high light and a compressor by receiving a door open detection signal from the pyroelectric door sensor of the present invention.

As shown here, the human body detection signal detected by the pyroelectric sensor 37, that is, the door open signal, passes through the signal amplifier 45 and the noise filter 46, and detects the door detection signal input terminal of the microcomputer 40 ( 41) to be applied.

The first cooling fan control signal output from the first output terminal 42 of the microcomputer 40 is connected to the first relay driving circuit 47 so as to be on / off controlled by the relay driving circuit 47. The contact 49 of the relay 48 connects the operating voltage of the commercial voltage source 50 to the cooling fan 51.

In addition, a compressor control signal output from the second output terminal 43 of the microcomputer 40 is connected to the second relay driving circuit 52 so that the second is controlled on / off by the relay driving circuit 52. By the contact 54 of the relay 53, the operating voltage of the commercial voltage source 50 is connected to switch the compressor 55.

In addition, a third internal high light control signal output from the third output terminal 42 of the microcomputer 40 is connected to the third relay driving circuit 56 to be applied to the third on / off controlled by the relay driving circuit 56 By the contact 58 of the relay 57, the operating voltage of the commercial voltage source 50 is connected to be switched on the lamp 59.

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

2 and 3, when the refrigerator door is closed, the pyroelectric sensor on the pyroelectric sensor block 36 installed on the trimmer plate 35 so that the sensing window 39 is exposed to the front side thereof. 37) is covered by the door so that no signal is generated.

Specifically, the pyroelectric sensor 37 has a first sensor for detecting the opening of the freezer compartment door and a second sensor for detecting the opening of the refrigerating compartment door, which are distinguished by the front plate 38 of the holder 36.

For example, when the refrigerator user opens the freezer door 32, the user is exposed to the first sensor of the pyroelectric sensor 37 installed on the trimming plate 35.

At this time, the first sensor senses the body heat radiated from the human body, and in turn turns the signal amplifier 45 and the noise filter 46 on the door detection signal input terminal 41 side of the refrigerator control microcomputer 40. The microcomputer 40 determines whether the freezer door is open based on the input of the door detection signal, and turns on the interior light 59, and stops the control signals of the cooling fan 51 and the compressor 55, respectively. Will be output to the drive control circuit.

In addition, when a human body detection signal is generated from the second sensor of the pyroelectric sensor 37 according to the opening of the refrigerating compartment door 34, the microcomputer 40 controls the on / off control of the inside of a freezer compartment, a compressor, a cooling fan, and the like as described above. will be.

In detail, when the door open detection signal from the pyroelectric sensor 37 enters the door detection signal input terminal 41 of the microcomputer 40, the microcomputer 40 has its first and second output terminals ( 42 and 43 output high-level logic values, and the third output terminal 44 outputs low-level logic values.

The high level logic signal is inverted by the internal inverter circuits of the first and second relay driving circuits 47 and 52 to turn off the power transistors to control the on / off driving of each relay.

Accordingly, the first and second relays 48 and 53 are turned off from the driving states, and their respective contacts 49 and 54 are turned off, thereby preventing the cooling fan 51 and the compressor 55 from operating inefficiently. Done.

At the same time, the low-level logic signal output from the third output terminal 44 of the microcomputer 40 is inverted by the internal inverter circuit of the third relay driving circuit 56 to turn on the power transistor that controls the relay on / off. Let's go.

As a result, the third relay 57 is turned off and the contact 58 thereof is turned on so that the interior lamp 59 for illuminating the interior is lit.

The present invention as described above brings many advantages over the conventional mechanical door switch.

First, a fast switching contact signal can be obtained at opening and closing of the refrigerator door, thereby promoting sexual power in the control of the refrigerator.

Secondly, in the refrigerator having a mechanical door switch installation structure, the gap between the freezer door and the refrigerating compartment door has to be largely set to ensure stable and accurate operation of the door switch.

By using the present invention, it is possible to take the adjacent space between the freezer door and the refrigerating compartment door to a minimum, thereby allowing the height and size of the refrigerator to be reduced.

Third, when closing an incomplete door due to user's carelessness, conventionally, it was determined that the refrigerator is being used continuously and the cooling fan and the compressor were stopped for a long time.

In the present invention, even when the refrigerator door is in the half-opened condition, cooling for the normal food preservation is performed, thereby preventing food damage in the food compartment.

Fourth, since the door sensor of the present invention has a semi-permanent life and very unlikely in operation, it is possible to avoid the refrigerator control error due to contact failure and corrosion caused by the existing mechanical door switch.

Claims (2)

In the door open and close discrimination monitoring device for the interior lighting and system control of the refrigerator, the pyroelectric sensor (37) for detecting the body temperature of the human body is exposed when the door of the refrigerator is opened, and the pyroelectric sensor (37) The pyroelectric signal for door open determination, which is recognized through the detection of body temperature, is connected to the door detection signal input terminal of the microcomputer 40 through the signal amplifier 45 and the noise filter 46, and the input of the door detection signal. The first and second relay driving circuits 47 and 52 and the third relay driving circuit 56 are connected to the first and second output terminals and the third output terminal of the microcomputer 40 which are switched and output based on the logic level value. In addition, the cooling fan 51 and the compressor 55 are connected to each of the relays 48, 53, and the relays 57 that are turned off by the first-three relay driving circuits when the refrigerator door is opened. Off and the high light (59) is turned on Refrigerator door open detection device using a human body sensor, characterized in that the configuration. According to claim 1, The pyroelectric sensor 37 is a sensor partitioned into its part is installed in the central front of the trimming plate 35 to detect whether the refrigerator compartment and the freezer door open / closed. Refrigerated door open detection device using a human body sensor.