KR100187244B1 - Device and method of a sound control of airconditioner - Google Patents

Abstract

The present invention relates to an air conditioner having a discharge port door to prevent dust or foreign matter from entering the room during operation of the air conditioner, and in particular, an acoustic control device for an air conditioner that generates sound at the same time as the discharge door door. And a method, comprising: control means, driving operation means for inputting operation and stop signals of the air conditioner, and a door to open and close the discharge port door in accordance with the operation and stop signals inputted by the operation operation means. The door motor driving means for driving the motor, and the sound generating means for generating a sound to inform the opening and closing operation of the discharge door according to the control of the control means, by generating an effect sound such as melody at the same time of the discharge door There is an effect that can satisfy the various needs of the user for.

Description

Sound control device and method of air conditioner

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

2 is a perspective view showing an air conditioner in a state where an outlet is open according to an embodiment of the present invention.

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

Figure 4 is an operating state diagram showing the discharge opening and closing state of the air conditioner according to an embodiment of the present invention.

5 is a control block diagram of an acoustic controller of an air conditioner according to an embodiment of the present invention.

6A and 6B are flowcharts showing the operation sequence of the acoustic control of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

3: inlet port 4: discharge port

5: indoor heat exchanger 6: indoor fan

8: outlet port door 12: door motor

20: DC power supply means 25: operation operation means

30: control means 35: room temperature detection means

40: door motor drive means 45: door opening and closing detection means

50: sound generating means 60: compressor driving means

61 compressor: fan motor driving means

71: indoor fan motor 80: display means

The present invention relates to an air conditioner having a discharge port door to prevent dust or foreign matter from entering the room during operation of the air conditioner, and in particular, an acoustic control device for an air conditioner that generates sound at the same time as the discharge door door. And to a method thereof.

In general, the air conditioner according to the related art is equipped with a discharge port door for opening and closing the discharge port for discharging the heat exchanged air in the indoor heat exchanger to prevent the inflow of dust or foreign substances in the room during operation standby air conditioning operation of the air conditioner When the operation stop signal is input after the time or air conditioning operation, the compressor and the fan motor are turned off and the discharge port door is moved upward to close the discharge port.

On the other hand, when the operation start signal is input during the operation standby of the air conditioner, the discharge port door is moved downward to open the discharge port as the door motor is driven.

At this time, if the photo sensor attached to the upper and lower predetermined positions of the discharge port detects the opening and closing state of the discharge port, the control unit determines whether the discharge port door is opened or closed according to the open / close detection signal (high or low level signal) detected by the photo sensor. To control the normal operation and standby operation of the air conditioner.

However, in such a method, there is a problem in that only the minute vibration sound generated by the drive of the discharge door at the same time as the discharge port door is shanghai can not be satisfied to satisfy the user's demand for various and complex product functions.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to produce a sound effect such as melody at the same time in Shanghai of the discharge door door of the air conditioner that can satisfy the user's various needs for the product The present invention provides an acoustic control apparatus and a method thereof.

In order to achieve the above object, an acoustic control apparatus of an air conditioner according to the present invention includes an intake port for sucking indoor air, an indoor heat exchanger for exchanging indoor air sucked through the intake port, and air exchanged by the indoor heat exchanger. An air conditioner comprising: a discharge port for discharging; and a discharge port door for opening and closing the discharge port to prevent dust or foreign matter from flowing through the discharge port, wherein the control unit and the operation for inputting an operation and stop signal of the air conditioner are provided. The control means, the door motor driving means for driving the door motor to open and close the discharge port door in accordance with the operation and stop signal input by the operation operation means, and the control at the same time the shank of the discharge port door by the drive of the door motor Generating sound to notify the opening and closing operation of the discharge door according to the control of the means. It characterized by consisting of a flavor-generating means.

In addition, the acoustic control method of the air conditioner according to the present invention comprises a discharge opening and closing step of opening and closing the discharge port by driving the discharge port door according to the operation and stop signal inputted by the driving operation means, and generating sound at the time of driving the discharge port door. It characterized in that the sound generating step of informing the opening and closing operation of the discharge port door.

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

As shown in FIGS. 1 to 3, reference numeral 1 denotes an indoor main body (hereinafter referred to as a main body) of an air conditioner, and the front surface of the main body 1 forms an exterior of the indoor unit and operates at a predetermined position. The cover member 2 provided with the operation means 25 is fixed.

In addition, an inlet port 3 through which the indoor air is sucked is formed in the lower part of the front surface of the main body 1, and a discharge port 4 that discharges heat-exchanged air (cold or warm air) into the upper part of the front surface of the main body 1. Is formed, and the air discharge port 4 is equipped with a wind direction up and down control plate 411 and a wind direction left and right control plate 421 for controlling the direction of the air discharged into the room.

In addition, a linear indoor heat exchanger (5) is installed at the center of the main body (1) so as to heat-exchange the indoor air sucked through the suction port (3) with cold or warm air by evaporative latent heat of the refrigerant. An indoor fan in the lower portion of the indoor heat exchanger (5) to suck the indoor air through the suction port (3) and discharge the air heat exchanged in the indoor heat exchanger (5) to the room through the discharge port (4) ( 6) is fitted.

In addition, the discharge port 4 is opened inside the discharge port 4 so that the air heat-exchanged from the indoor heat exchanger 5 is smoothly supplied to the room during the operation of the air conditioner, and the operation standby of the air conditioner is performed. In order to prevent dust or foreign matter from flowing into the main body 1 through the discharge port 4, the discharge port door 8 which closes the discharge port 4 is moved upward or downward in order to enhance the appearance. It is fitted as possible.

On the other hand, the drive means for driving the discharge port door 8 upward or downward is fixed by the support member 10 and the support member 10 fixed to the upper portion of the indoor unit 1, the discharge port door 8 Is coupled to the shaft 12a of the door motor 12 so as to be rotatable by the power generated by the door motor 12 and the door motor 12 generating power for moving upward or downward). Rack for converting the pinion gear 14 and the rotational movement of the pinion gear 14 to linear movement so as to move the discharge port door 8 upward or downward in association with the pinion gear 14 and the rotation of the pinion gear 14. The gear 16 is comprised.

Next, a circuit block diagram for controlling the sound generation in the indoor unit configured as described above will be described with reference to FIG.

As shown in FIG. 5, the DC power supply means 20 converts a commercial AC voltage supplied from an AC power supply terminal (not shown) into a predetermined DC voltage required for the operation of the air conditioner, and outputs the same. 25) has a plurality of function keys (artificial intelligence, cooling, heating, clean, reserved operation, stop, etc.) to input the operating conditions of the air conditioner desired by the user, as well as the operation start signal of the air conditioner An operation key is provided to input an operation stop signal.

In addition, the control means 30 receives the DC voltage output from the DC power supply means 20 to initialize the air conditioner as well as the air according to the operation selection signal input by the operation operation means 25. As a microcomputer for controlling the overall operation of the conditioner, the control means 30 is connected to the door motor 12 which opens and closes the discharge port door 8 according to the operation start / stop signal input by the operation operation means. Control to supply or cut off the applied power.

The indoor temperature detecting means 35 is sucked through the inlet port 3 to control the indoor temperature to the temperature Ts set by the user by the driving operation means 25 to perform cooling operation of the air conditioner. The temperature Tr of the indoor air is sensed, and the door motor driving means 40 receives a control signal output from the control means 30 when the driving start signal and the driving stop signal are input by the driving operation means 25. The door motor 12 is drive-controlled so as to move the discharge port door 8 which opens and closes the discharge port 4 up and down.

In addition, the door opening / closing detecting means 45 detects whether the discharge opening 4 is opened or closed according to the opening / closing position of the discharge opening door 8 which is moved up and down by the door motor driving means 40 and the control means 30. And the sound generating means (50) receives the control signal output from the control means (30) at the same time as the discharge port door (8) by the drive of the door motor (12). To generate a sound, such as a melody to inform the opening and closing operation.

In addition, the compressor driving means 60 is controlled according to the difference between the temperature Ts set by the user by the driving operation means 25 and the room temperature Tr sensed by the room temperature sensing means 35. The control means 30 receives the control signal output from the means 30 and drives the compressor 61, and the fan motor driving means 70 blows the air heat-exchanged by the indoor heat exchanger 5 into the room. The indoor fan 6 is driven by controlling the rotation speed of the indoor fan motor 71 by receiving a control signal output from the indoor fan motor 71.

In addition, in the drawing, the display means 80 displays the operating conditions and the set temperature Ts set by the user by the driving operation means 25 under the control of the control means 30, as well as the air. Displays the operating status of the unit.

Hereinafter, the effect of the sound control device and the method of the air conditioner configured as described above will be described.

6A and 6B are flowcharts showing the operation procedure of the acoustic control of the air conditioner according to the present invention, in which S denotes a step STEP in FIGS. 6A and 6B.

As an initial condition for explaining the operation of the present invention, it is assumed that the discharge port 4 is closed.

First, when power is applied to the air conditioner, the DC power supply unit 20 converts a commercial AC voltage supplied from an AC power supply terminal (not shown) into predetermined DC voltages required for driving the air conditioner, thereby driving circuits and control means. Output to 30.

Therefore, in step S1, the DC voltage output from the DC power supply means 20 is inputted from the control means 30 to initialize the air conditioner.

At this time, the user inputs the desired operating condition (cooling, heating, dehumidification, cleanness, etc.) and the set temperature (Ts) of the desired air conditioner by operating the operation operation means 25, and presses the operation switch, the operation operation means ( 25, an operation command and an operation start signal (hereinafter referred to as operation signal) are input to the control means 30.

Accordingly, in step S2, the control means 30 determines whether the driving signal is input from the driving operation means 25, and maintains the air conditioner in the operating standby state when the driving signal is not input (NO). The operation of step S2 and below is repeated.

As a result of the discrimination in step S2, when the operation signal is input (YES), the control means 30 proceeds to step S3 and the control means 30 opens a control signal for opening the closed discharge port 4; )

Accordingly, in the door motor driving means 40, the door motor 12 is driven by driving the door motor 12 under the control of the control means 30, as shown in FIGS. The pinion gear 14 coupled to the shaft 12a of the door motor 12 while being driven in the forward direction is rotated downward along the rack gear 16 to operate the discharge port door 8 downward to discharge the discharge port ( Open 4).

At this time, in step S4, the control means 30 outputs a control signal to the sound generating means 50 to inform the opening of the discharge port 4 in accordance with the downward movement of the discharge port door 8.

Accordingly, the sound generating means 50 receives a control signal output from the control means 30 to generate a sound (for example, a melody) indicating the opening operation of the discharge port door 8, and in step S5 the door The position of the discharge opening door 8 moved downward by the driving of the motor 12 is detected by the door opening and closing detecting means 45, and the control means 30 is a signal detected by the door opening and closing detecting means 45. Is inputted to determine whether the discharge port 4 is completely opened.

As a result of the discrimination in step S5, when the discharge port 4 is not completely opened (NO), the flow returns to step S3 to continue driving the door motor 12 until the discharge port door 8 is fully opened. .

On the other hand, when the result of the discrimination in step S5, when the discharge port 4 is completely open (YES), the process proceeds to step S6, the door motor driving means 40 is controlled by the control means 30, the door motor 12 ), The opening operation of the discharge port door 8 is completed, and the sound generating means 50 does not generate sound under the control of the control means 30.

Subsequently, in step S7, the fan motor driving means 70 controls the rotation speed of the indoor fan motor 71 under the control of the control means 30 to drive the indoor fan 6.

When the indoor fan 6 is driven, the indoor air starts to be sucked into the main body 1 through the suction port 3, and at this time, the indoor temperature of the indoor air sucked through the suction port 3 is detected. In the means 35.

Accordingly, in step S8, the indoor temperature Tr sensed by the indoor temperature detecting means 35 is compared with the temperature Ts set by the user to the driving operation means 25, thereby applying the driving condition of the compressor 61. Determine.

The driving condition of the compressor 61 is a case in which the room temperature Tr sensed by the room temperature sensing means 35 is greater than the temperature Ts set by the user during the cooling operation. The room temperature Tr sensed by the room temperature detecting means 35 is smaller than the temperature Ts set by the user.

As a result of the discrimination in step S8, if it is not the driving condition of the compressor 61 (NO), the process returns to the step S7 and repeatedly performs the operation of step S7 or below while continuously detecting the room temperature Tr In the case of the driving condition of the compressor 61 (YES), the control means 30 determines the operating frequency of the compressor 61 according to the difference between the room temperature Tr and the set temperature Ts. The control signal for driving the compressor 61 is output to the compressor driving means 60.

Therefore, the compressor driving means 60 drives the compressor 61 according to the driving frequency determined by the control means 30, and in step S10, the indoor heat exchanger is adapted to the operating conditions selected by the user by the driving operation means 25. By discharging the air heat-exchanged in (5) into the room through the discharge port (4) to perform the normal operation to perform the indoor air conditioning

At this time, in step S11, it is determined whether the operation stop signal is input to the control means 30 from the operation operation means 25 during the normal operation of the air conditioner, and when the operation stop signal is not input (NO), The flow returns to step S10 to continue normal operation.

As a result of the discrimination in step S11, when the operation stop signal is input during normal operation (YES), the flow advances to step S12, and the control means 30 controls to stop the compressor 61 and the indoor fan motor 71. The signal is output to the compressor driving means 60 and the fan motor driving means 70.

Therefore, the compressor driving means 60 stops the compressor 61 under the control of the control means 30, and the fan motor driving means 70 controls the indoor fan motor 71 under the control of the control means 30. To stop the driving of the indoor fan 6.

Subsequently, in step S13, the control means 30 outputs a control signal for closing the discharge port 4 which is open to the door motor driving means 40.

Accordingly, in the door motor driving means 40, the door motor 12 is driven by driving the door motor 12 under the control of the control means 30, as shown in FIGS. The pinion gear 14 coupled to the shaft 12a of the door motor 12 while being driven in the reverse direction is rotated upward along the rack gear 16 to operate the discharge port door 8 upward to discharge the discharge port ( 4) close.

Subsequently, in step S14, the control means 30 outputs a control signal to the sound generating means 50 to notify the closing of the discharge port 4 according to the upward movement of the discharge port door 8.

Accordingly, the sound generating means 50 receives a control signal output from the control means 30 to generate a sound (for example, a melody) informing the closing operation of the discharge port door 8, and in step S15 the door The position of the discharge opening door 8 moved upward by the driving of the motor 12 is detected by the door opening and closing detecting means 45, and the control means 30 is a signal detected by the door opening and closing detecting means 45. It is determined whether the discharge port 4 is completely closed.

As a result of the discrimination in step S15, when the discharge port 4 is not completely closed (NO), the door motor 12 is continuously driven until the discharge port door 8 is completely closed. .

On the other hand, when the result of the discrimination in step S15 indicates that the discharge port 4 is completely closed (YES), the process proceeds to step S16 and the door motor driving means 40 moves the door motor 12 under the control of the control means 30. ) Is stopped to complete the closing operation of the discharge port door 8, and the sound generating means 50 does not generate sound under the control of the control means 30.

Subsequently, in step S17, the control means 30 ends the operation while maintaining the air conditioner in the operation standby state until the operation start signal is input again by the operation operation means 25.

According to the acoustic control apparatus and method of the air conditioner according to the present invention as described above, the excellent effect that can satisfy the user's various needs for the product by generating a sound effect such as melody at the same time in Shanghai of the discharge door have.

Claims (2)

An inlet for sucking indoor air, an indoor heat exchanger for exchanging indoor air sucked through the inlet, a discharge port for discharging air heat-exchanged by the indoor heat exchanger, and a dust or foreign material through the discharge port An air conditioner having a discharge door to open and close the discharge port, comprising: operation operation means for inputting operation and stop signals of the air conditioner; Control means for opening and closing the discharge port and generating sound while the discharge port door is in motion; and door motor driving means for driving the door motor to open and close the discharge port by moving the discharge door door under control of the control means. And the opening and closing operation of the discharge port door under the control of the control means. Ridorok sound control apparatus of the air conditioner by being a sound generating means for generating a sound according to claim. Discharge opening / closing step of opening and closing the discharging opening by opening and closing the discharging opening door according to the operation and stop signal inputted by the driving operation means; Sound control method of an air conditioner, characterized in that made.