KR0125748B1 - Apparatus and method protecting drop of outlet-door of an airconditioner - Google Patents

Abstract

The apparatus comprises a microcomputer, an inlet temperature sensor, an outlet temperature sensor, a fan motor drive, a door motor drive and a opening/closing sensor. The inlet temperature sensor senses the room temperature and outputs to the microcomputer. The outlet temperature sensor senses the internal temperature of the air conditioner. When a compressor is off state, the fan motor drives the fan motor to be operated according to a control signal from the microcomputer, so that dewing at the auto-shutter is prevented. The door motor drives a door motor according to a control signal from the microcomputer, so that the outlet is opened or closed. The opening/closing sensor senses the state of the door of outlet. Thereby, the dewing can be effectively prevented so that the performance of the air conditioner can be improved.

Description

Dew condensation prevention device of discharge door of air conditioner and method

Figure 1a is a perspective view showing an air conditioner in a state in which the discharge port is closed according to an embodiment of the present invention,

1b is a perspective view showing an air conditioner in a state where an ejection opening is opened according to an embodiment of the present invention;

2 is a schematic side cross-sectional view of an air conditioner according to an embodiment of the present invention;

3 is a control block diagram of a dew condensation preventing device of the discharge port door of the air conditioner according to an embodiment of the present invention;

4A and 4B are flowcharts showing an operation procedure of preventing dew formation of the discharge port door of the air conditioner according to the embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: operation selection means 20: microcomputer

30: suction port temperature detection means 40: discharge port temperature detection means

50: humidity detection means 60: compressor driving means

70: outdoor fan motor driving means 80: indoor fan motor driving means

90: door motor driving means 100: door opening and closing detection means

The present invention provides an air conditioner that prevents dew condensation due to an internal temperature difference between a room and an air conditioner in a discharge door (Auto-Shutter) that opens and closes a discharge port to prevent dust or foreign matter from entering the room during operation of the air conditioner. An apparatus for preventing dew formation of a discharge port door of a machine and a method thereof are provided.

In general, the air conditioner according to the related art is equipped with a discharge port door for discharging the heat exchanged air from the evaporator to prevent the inflow of dust or foreign substances in the air during operation of the air conditioner during cooling operation or cooling operation of the air conditioner. When the stop signal is input later, the compressor and the indoor fan motor are turned off and the discharge port door is driven upward to close the discharge port.

However, in such a method, dew is formed in the discharge door by the difference between the internal temperature of the air conditioner cooled in the evaporator and the temperature of the indoor air, and the life of the device is not only shortened due to the large amount of moisture. Even though the driving function was deteriorated, there was a problem that the user could not satisfy various needs.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to use a microcomputer and a discharge port temperature sensing means, and the difference between the internal temperature of the air conditioner and the room temperature even when the compressor is turned off. By operating the indoor fan motor until reaching the inside, it is possible to prevent condensation on the discharge door, which can extend the life of the device and improve the driving function. An object of the present invention is to provide an apparatus and a method for preventing dew formation of a discharge door of an air conditioner capable of satisfying various needs.

In order to achieve the above object, an apparatus for preventing dew condensation of an outlet port of an air conditioner according to the present invention includes a microcomputer, a suction temperature sensing means for sensing an indoor temperature and outputting the room temperature to the microcomputer; Discharge port temperature sensing means for sensing an internal temperature of the conditioner, an indoor fan motor driving means for driving an indoor fan motor to prevent dew condensation of the discharge port door when the compressor is turned off under the control signal of the microcomputer; The door motor driving means for driving the door motor to open and close the discharge port in response to a control signal of the computer, and the door opening and closing detection means for detecting the opening and closing state of the discharge port door operated by the door motor driving means.

In addition, the dew condensation prevention method of the discharge door door of the air conditioner according to the present invention is to detect the indoor temperature by detecting the opening and closing state of the discharge port door when the operation signal is input by the user, and the indoor temperature detection step A drive step of controlling the compressor and the fan in a drive according to a result of comparing the indoor temperature of the controller to a reference temperature preset in the microcomputer, and a stop signal is inputted at the time of controlling the compressor and the fan in the drive step In this case, the internal temperature sensing step of sensing the internal temperature of the air conditioner by determining whether an operation signal is input while turning off the compressor and the outdoor fan motor, the internal temperature of the internal temperature sensing step, and the indoor temperature of the indoor temperature sensing step If the temperature difference is within a certain range, close the discharge port by driving the door motor while turning off the indoor fan motor. Key is characterized by being a door drive step.

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

1 to 2, reference numeral 1 denotes a main body of an air conditioner, a front surface of the main body 1 which forms the appearance of the air conditioner, and a cover in which the operation selecting means 10 are disposed at a predetermined position. The member 2 is fixed.

In addition, a suction port 31 is formed in a lower portion of the front surface of the main body 1, a discharge port 41 is formed in an upper portion of the front surface of the main body 1, and the discharge port 41 is cold air discharged into the room. Wind direction up and down control plate 43 and wind direction left and right control plate 44 for controlling the direction of the is disposed.

In addition, an evaporator (3) for converting indoor air into cold is disposed at the center of the main body (1), and the lower part of the main body (1) sucks indoor air and simultaneously converts the evaporator (3). The blowing fan 4 which discharges cold air is attached.

In addition, in the upper portion of the main body 1, when the air conditioner is operated, the discharge port 41 is opened so that the cold air converted by the evaporator 3 is smoothly supplied to the room, and the main body when the air conditioner is stopped. A discharge port door 42 for closing the discharge port 41 is mounted in order to prevent foreign matters or the like from flowing into the inside of the container (1) and to enhance the appearance.

In this case, when the door motor 91 connected to the discharge port door 42 and supported by the support member 93 is driven by a control signal of a microcomputer, which will be described later, the transmission members 92 and 92 'are linked thereto. Thus, the discharge port door 42 is moved up and down.

In FIG. 3, the operation selecting means 10 is provided with a plurality of function keys (artificial intelligence, inward, clean, reserved operation, stop) for selecting the operation function of the air conditioner by the user, and the microcomputer 20 ) Receives the operation signal from the operation selection means 10 and outputs a control signal for controlling the overall operation of the air conditioner.

In addition, the inlet temperature detecting means 30 detects a temperature of indoor air sucked through the inlet 31 of the air conditioner and outputs the temperature to the microcomputer 20 at a predetermined position (for example, the evaporator 3). A temperature sensor that can be mounted between the blowing fans 4, and the outlet temperature sensing means 40 detects the temperature of the cold air heat exchanged in the evaporator 3 and outputs the temperature to the microcomputer 20. The rear side of 1) is a temperature sensor mounted on the upper part.

Humidity detection means 50 detects the humidity of the indoor air sucked into the suction port 31 and outputs it to the microcomputer 20, the compressor drive means 60 receives the control signal from the microcomputer 20 The compressor 61 performs a function of operating the air conditioner according to the difference between the room temperature Tr sensed by the inlet temperature sensing means 30 and the reference temperature Ts selected by the user by the operation selecting means 10. To drive.

In addition, in the drawing, the outdoor fan motor driving means 70 receives the control signal from the microcomputer 20 to drive the outdoor fan motor 71, and the indoor fan motor driving means 80 is the microcomputer 20. The indoor fan motor driving means 80 receives the control signal from the air conditioner and drives the indoor fan motor 81 even when the compressor 61 and the outdoor fan motor 71 are turned off. The difference between the room temperature Tr sensed by 30 and the internal temperature Ti of the air conditioner sensed by the outlet temperature sensing means 40 may reach within a certain range (for example, ± 2 ° C. or less). By driving the indoor fan motor 81 until the dew is prevented from forming in the discharge door 42.

Then, the door motor driving means 90 receives the control signal from the microcomputer 20 to drive the door motor 91 to open and close the discharge port 41 while moving the discharge port door 42 up and down, The door opening / closing detecting means 100 detects the opening / closing state of the discharge door 42 which is operated by the door motor driving means 90 and outputs it to the microcomputer 20.

Hereinafter, a description will be given of the dew point preventing device and the method of the automatic door of the air conditioner configured as described above.

First, in step S1, a key signal of a driving function desired by a user is selected by the driving selection means 10 and output to the microcomputer 20. In step S2, the air conditioner is operated while initializing the air conditioner for the selected driving control function. Start the action.

Subsequently, in step S3, the door opening / closing detecting means 100 detects whether the discharge port door 42 is open and outputs it to the microcomputer 20.

As a result of the determination in step S3, when the discharge port door 42 is opened (Yes), the operation function of the air conditioner can be immediately performed. In step S4, the suction port 31 is detected by the suction port temperature detection 30. It detects the temperature (Tr) of the indoor air sucked in and outputs it to the microcomputer (20).

Accordingly, the microcomputer 20 compares the room temperature Tr sensed by the inlet temperature sensing means 30 with the reference temperature Ts set by the user by the operation selection means 10 and compares the temperature difference. In step S5, the compressor 61, the outdoor fan motor 71, and the indoor fan motor 81 are driven by the compressor driving means 60, the outdoor fan motor driving means 70, and the indoor fan motor driving means 80. Drive control.

Subsequently, in step S6, it is determined by the user whether the stop signal is input to the microcomputer 20 from the operation selection means 10, and when the stop signal is input (Yes), the operation of the air conditioner must be stopped. Therefore, in step S7, the compressor 61 and the outdoor fan motor 71 are turned off, and only the indoor fan motor 81 is driven by the indoor fan motor driving means 80.

In step S8, the user determines whether the operation signal is input to the microcomputer 20 from the operation selection means 10, and if the operation signal is not input (No), dew is discharged to the discharge door 42. In order to prevent this from happening, in step S9, the temperature Ti of the internal air heat-exchanged by the evaporator 15 is detected by the outlet temperature sensing means 40 and output to the microcomputer 20.

Accordingly, the microcomputer 20 compares the indoor temperature Tr sensed by the inlet temperature sensing means 30 with the internal temperature Ti sensed by the discharge port temperature sensing means 40. It is discriminated whether or not the temperature difference compared by the microcomputer 20 is larger than ± 2 (the maximum temperature difference in which dew does not form in the discharge door 42).

As a result of the determination in step S10, when the difference between the room temperature Tr and the inside temperature Ti determined by the microcomputer 20 is not greater than ± 2 (No), dew is discharged from the discharge door 42. In step S11, the indoor fan motor 81 is turned off by the indoor fan motor driving means 80.

Subsequently, in step S12, the drive control signal from the microcomputer 20 is applied to the door motor driving means 90 to drive the door motor 91 so that the discharge port door 42 is closed to close the discharge port 41. Is operated.

Subsequently, in step S13, the door opening / closing detecting means 100 determines whether or not the discharge port door 42 is closed. When the door is closed (Yes), the door motor driving means 90 causes the door motor ( The operation is terminated while turning off 91).

On the other hand, when the result of the discrimination in step S3 is that the discharge port door 42 determined by the microcomputer 20 is not open (No), the operation function of the air conditioner cannot be performed. The door motor 91 is driven by the motor driving means 90 to operate the discharge door 42 downward to open the discharge port 41.

When the stop signal is not input (No) as a result of the determination in step S6, the operation function of the air conditioner must be continuously performed, and the flow returns to step S5 to the compressor 61 and the outdoor fan 71. And the indoor fan 81 is continued.

On the other hand, when the operation signal is input (Yes) as a result of the discrimination in step S8, the operation function of the air conditioner must be performed again from the beginning, and the process returns to step S4 and is performed by the inlet temperature sensing means 30. The temperature Tr is sensed.

If the difference between the room temperature Tr and the internal temperature Ti determined by the microcomputer 20 is greater than ± 2 (Yes) as a result of the determination in step S10, dew is discharged to the discharge port door 42. As a result, the process returns to step S7 and the indoor fan motor driving means 80 continues to drive the indoor fan motor 81 until the temperature difference is ± 2 or less.

On the other hand, when the result of the discrimination in step S13, when the discharge port door 42 detected by the door opening and closing detecting means 100 is not closed (No), the process returns to step S12 and the door motor driving means 90 By this, the door motor 91 is continuously driven.

On the other hand, in the above configuration, but described the cooling air conditioner, the present invention is not limited to this, as well as being applied to all air conditioners having a discharge port, such as cooling, heating air conditioner and heating air conditioner, it is also applicable to the intake port Do.

As described above, according to the present invention, there is provided an apparatus for preventing dew condensation in the discharge port door of the air conditioner according to the present invention. By operating the indoor fan motor until the temperature difference reaches a certain range, dew can be prevented from forming on the discharge door, which can extend the life of the device and improve the operation function. While achieving a great effect that can satisfy the various needs of the user.

Claims (2)

An air conditioner comprising: a microcomputer, an inlet temperature sensing means for sensing an indoor temperature and outputting the same to the microcomputer, an outlet temperature sensing means for sensing an internal temperature of the air conditioner, and a control signal from the microcomputer And an indoor fan motor driving means for driving an indoor fan motor to prevent dew condensation of the discharge port door when the compressor is turned off, and a door motor driving means for driving a door motor for opening and closing the discharge port in response to a control signal from the microcomputer. And a door opening / closing detecting means for detecting an opening / closing state of the discharging opening door operated by the door motor driving means. When the operation signal is input by the user, the indoor temperature detection step of detecting the indoor temperature by determining the opening / closing state of the discharge door and the indoor temperature in the indoor temperature detection step are compared with the reference temperature preset in the microcomputer. Drive step for driving control of the compressor and the indoor fan, and if a stop signal is input during the compressor and indoor fan drive control in the driving step, the compressor and the outdoor fan motor are turned off to determine whether the operation signal is input. Compare the internal temperature sensing step to detect the internal temperature of the air conditioner with the internal temperature of the internal temperature sensing step and the indoor temperature of the indoor temperature sensing step. If the temperature difference is within a certain range, turn off the indoor fan motor and turn off the door motor. Toe of the air conditioner, characterized in that made of a door drive step for closing the discharge port by driving the How to prevent dew condensation on exit door.