KR100187265B1 - Device and method of air flow control for airconditioner - Google Patents

Abstract

The present invention relates to a discharge airflow control apparatus and method for controlling an air conditioner capable of realizing air conditioning in a wide area by adjusting the wind direction angle and air volume of the discharged air, wherein the control means and the air discharged through the discharge port are centered. And a driving operation means for manipulating a key to reach a distance, and receiving a control signal outputted from the control means so that the discharged air reaches a center and a distance according to the key operation of the driving operation means to adjust the wind angle of the wind direction control plate. It consists of a wind direction control means and a fan motor driving means for driving the indoor fan by receiving a control signal output from the control means so that the discharge air reaches the center and the remote according to the key operation of the operation operation means, by a simple key operation Extensive area that is relatively far from the main body by adjusting the wind direction angle and air volume of the discharged air It is possible to increase the conditioning effects.

Description

Discharge airflow control device of air conditioner and its method

1 is a perspective view showing an indoor unit of a conventional air conditioner.

2 is a longitudinal cross-sectional view of FIG.

3 is a control block diagram of a control device of the ejector of the air conditioner according to an embodiment of the present invention.

4A to 4C are flowcharts showing the operation flow of the discharge airflow control of the air conditioner according to the present invention.

5 is an operating state of the wind up and down control plate viewed from the line A-A of FIG.

6 is an operating state of the wind direction left and right control plate seen from the B-B line of FIG.

* Explanation of symbols for main parts of the drawings

3: inlet port 7: outlet port

9: wind direction up and down control panel 11: wind direction left and right control panel

21: indoor fan motor 23: indoor fan

100: power supply means 102: operation operation means

104: control means 106: room temperature detection means

108: compressor driving means 110: wind direction control means

112: first wind direction motor drive 113: first wind direction control motor

114: second wind direction drive unit 115: second wind direction control motor

116: fan motor driving means 118: display means

The present invention relates to a discharge airflow control apparatus and method of the air conditioner capable of realizing an air conditioner capable of realizing air conditioning in a wide area by adjusting the wind direction angle and the air volume of the discharged air.

In the conventional air conditioner, as shown in FIG. 1, a suction grill member 5 having a plurality of suction ports 3 into which indoor air is introduced is installed at the front lower part of an indoor main body 1 (hereinafter, referred to as a main body). In the upper part of the main body 1, the discharge port 7 which discharges the air sucked through the said suction port 3 and heat-exchanged by cold air or warm air is formed in the room.

In addition, the discharge port 7 is provided with a wind direction up and down control plate 9 for adjusting the direction of the air discharged to the room through the discharge port 7 up and down and the wind direction left and right control plate 11 to adjust the left and right, the main body On the front surface of (1), the cover member 13 is fixed to the interior of the indoor unit and protects the interior. At the lower side of the kerf member 13, the operation mode of the air conditioner (automatic, Cooling, dehumidification, blowing, heating, etc.) and operation start / stop, the operation unit 15 for adjusting the air volume and the direction of the air discharged through the discharge port (7).

In addition, as shown in FIG. 2, a filter member 17 is installed inside the suction grill member 5 to filter foreign substances such as dust floating in the indoor air sucked through the suction port 3. The inside of the filter member 17 is provided with a straight heat exchanger 19 to heat the indoor air filtered by the filter member 17 to cold or warm air by latent heat of evaporation of the refrigerant.

In addition, the upper part of the heat exchanger 19 to suck the indoor air through the suction port 9 and at the same time to discharge the air heat exchanged in the heat exchanger 19 to the room through the discharge port (7) indoor fan motor A blower fan 23 (hereinafter referred to as an indoor fan) that rotates in accordance with the driving of the 21 is provided, and an outer side of the indoor fan 23 covers the indoor fan 23 and the suction port 3 at the same time. The duct member 25 is installed to guide the flow of air that is sucked through and discharged to the discharge port 7.

In the air conditioner configured as described above, when the user operates the remote controller or the control unit 15 to select a desired operation mode and then turns on the operation key, the indoor fan 23 rotates according to the driving of the indoor fan motor 21. The indoor air is sucked into the main body 1 through the suction port 3.

The foreign matter such as dust floating in the indoor air sucked through the suction port 3 is removed while passing through the filter member 17, and the indoor air from which the foreign matter such as dust is removed by the filter member 17 is heat exchanger. Heat is exchanged by latent heat of evaporation of the refrigerant flowing in the heat exchanger 19 while passing through (19).

The air heat-exchanged in the heat exchanger (19) is guided upward by the duct member (25) and discharged into the room through the discharge port (7), the air discharged through the discharge port (7) wind direction up and down control plate (9) And the wind direction is adjusted up and down or left and right according to the wind direction angle of the wind direction left and right control plate (11).

At this time, the method of controlling the wind direction of the discharged air by the wind direction up and down control plate 9 and the wind direction left and right control plate 11, first, every time the key for operating the wind up and down control plate 9 provided in the operation unit 15 is turned on. When the angle of the wind direction up and down control plate 9 changes up and down, and the key is turned off, the wind direction of the discharge air is adjusted up and down according to the operation of stopping the wind up and down control plate 9.

In addition, when the wind direction left and right control plate 11 provided on the operation unit 15 is turned on, the wind direction left and right control plate 11 swings left and right, and when the key is turned on again, the wind direction left and right control plate 11 is stopped. Therefore, the discharge air was adjusted to the left and right.

However, in the conventional air conditioner configured as described above, it is inconvenient to use because the user needs to find the desired discharge airflow pattern by operating keys while directly checking the positions of the up / down control plate 9 and the right and left control plate 11. According to the wind direction angle of the control plate 9 and the wind direction left and right control plate 11, the discharge air is discharged only up and down or left and right in a certain direction, there is a problem that the wind direction control range is narrow, it is not possible to control the air flow in a wide area.

In addition, since the air volume needs to be increased for long distance air conditioning, there is an inconvenience that the user needs to manipulate the air volume accordingly.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to adjust the wind direction angle and air volume of the discharged air by a simple key operation to increase the air-conditioning effect of a large area relatively far from the main body There is provided a discharge airflow control apparatus for an air conditioner and a method thereof.

In order to achieve the above object, the discharge airflow control apparatus for an air conditioner according to the present invention discharges heat exchanged by the heat exchanger with a suction inlet for sucking indoor air, and a heat exchanger for heat-exchanging indoor air sucked through the suction inlet. A discharge fan, an indoor fan that sucks indoor air through the suction port and simultaneously discharges heat exchanged by the heat exchanger into the room through the discharge port, and a wind direction control plate that controls the air direction of the air discharged through the discharge port. An air conditioner comprising: control means, driving operation means for manipulating a key so that air discharged through the discharge port reaches a center and a distance, and discharge air reaches a center and a distance according to a key operation of the driving operation means. Wind direction of the wind direction control plate by receiving a control signal output from the control means to And a fan motor driving means for driving the indoor fan by receiving a control signal output from the control means so that the discharge air reaches a center and a distance according to the key operation of the driving operation means. It features.

In addition, the discharge airflow control method of the air conditioner according to the present invention, the initial position step for closing the wind direction control plate by driving the wind direction control motor at the time of power-on and operation off to prevent the position change of the wind direction control plate, and operation operation means An air conditioning operation step for discharging the heat-exchanged air into the room according to the set temperature, the set wind amount, and the set wind direction input by the air conditioner, and a wave operation discrimination step for determining whether the wave operation is selected by the operation operation means; And, if it is determined that the wave operation is selected in the wave operation determination step, the wind direction control step of controlling the wind angle angle of the wind direction control plate by driving the wind direction control motor so that the discharge air reaches the center and the far distance, and in the wave operation determination step, If it is determined that wave operation is selected, the indoor fan is discharged to reach the center and far When controlling the air flow rate of the emitter for driving the indoor fan by a turbo flow rate control step of selecting a driving wave hayeotdago determined at the wave operation determination step it is characterized by being a display step of displaying a wave operation.

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

Since the air conditioner according to the present invention is the same as the conventional configuration shown in Figs. 1 and 2, the same name and the same reference numeral are specified to omit overlapping description.

As shown in FIG. 3, the power supply means 100 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. ) Is a function key for inputting the operation mode (automatic, cooling, dehumidification, blowing, heating) of the air conditioner and the start / stop of operation, the set temperature (Ts), the set air volume of the discharged air, and the set wind direction. In addition, a wave (WAVE) key for automatically adjusting the wind direction and the air volume of the discharged air so that the discharged air reaches a wide area of a relatively far (center, far) from the main body (1).

In addition, the control unit 104 receives the DC voltage output from the power supply unit 100 to initialize the air conditioner, as well as the operation selection signal input by the operation operation unit 102 and the operation start / operation. A microcomputer that controls the overall operation of the air fuser in accordance with a stop signal, and the control means 104 controls the wind direction up and down control panel so that the discharged air reaches a wide area (center, far) according to the ON operation of the wave key. 9) and the wind direction angle of the wind direction control plate 11 and the speed of the indoor fan (23).

The indoor temperature sensing means 106 controls the indoor temperature to the temperature Ts set by the user by the driving operation means 102 to perform the air conditioning operation of the air conditioner. The temperature Tr of the air is sensed, and the compressor driving means 108 measures the temperature Ts set by the user by the driving operation means 102 and the room temperature sensed by the room temperature sensing means 106. The compressor 109 is driven and controlled by receiving a control signal output from the control means 104 according to the difference of Tr.

In addition, the wind direction adjusting means 110 adjusts the direction of the discharged air up and down and left and right so that the air discharged through the discharge port 7 reaches a wide area (center, far) according to the ON operation of the wave key. The wind direction adjusting means 110 receives a control signal output from the control means 104 when the wave key is turned on, so that the wind direction up and down control plate 9 swings an upward predetermined section (about 15 °). The first wind direction motor driver 112 driving the regulating motor 113 and the control signal output from the control means 104 when the wave key is turned on receive the wind direction left and right control plates 11 fixed at a predetermined angle. It consists of a second wind direction motor driver 114 for driving the second wind direction control motor 115.

In addition, the fan motor driving means 116 receives a control signal output from the control means 104 to blow the air (cold or warm air) heat-exchanged to the room according to the air volume selected by the driving operation means (102). By controlling the rotation speed of the indoor fan motor 21 to drive the indoor fan 23, the display means 118 is output from the control means 104 in accordance with the key signal input by the driving operation means (102) Operation mode (automatic, cooling, dehumidification, ventilation, heating), set temperature (Ts) and room temperature (Tr) as well as wave operation status that coordinates a wide range of areas (centre, remote) by receiving control signals Turn the wave display lamp on / off to display.

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

4A to 4C are flowcharts showing the operation flow of the airflow control of the air conditioner according to the present invention. In FIGS. 4A to 4C, S denotes a step.

First, when power is applied to the air conditioner, the power supply means 100 converts a used alternating voltage supplied from an AC power terminal (not shown) into predetermined DC voltages required for driving the air conditioner, thereby driving each circuit and control means ( Output to 104).

Therefore, in step S1, the DC voltage output from the power supply means 100 is inputted from the control means 104, and the air conditioner is initialized. In step S2, the control means 104 uses the wind direction control plate 9 as an operation origin. The control signal for driving the first wind direction control motor 113 is output to the first wind direction motor driver 112 to move to the closed state.

Accordingly, the first wind direction motor driver 112 receives the control signal output from the control means 104 and drives the first wind direction control motor 113 at an angular speed of 22.5 ° / sec in a clockwise direction to control the wind direction up and down control panel. Close (9).

Subsequently, in step S3, the control means 104 transmits a control signal for driving the second wind direction control motor 115 to the second wind direction motor driver 114 to move the wind direction left and right control plate 11 to the closed state, which is the operation origin. Output

Accordingly, the second wind direction motor driver 114 receives the control signal output from the control means 104 and drives the second wind direction control motor 115 at an angular speed of 22.5 ° / sec in a clockwise direction so that the wind direction left and right control plate ( 11) Close it.

At this time, in step S4, the control means 104 determines whether a predetermined time (about 7 seconds) has elapsed by counting the driving time of the first and second wind direction control motors 113 and 115, and the predetermined time does not pass. If it is not (NO), it is determined that the wind direction up and down control plate 9 and the wind direction left and right control plate 11 are not completely closed, and return to step S2 to repeat the operation of step S2 or less until a predetermined time elapses. do.

As a result of the determination in step S4, when a predetermined time has elapsed (YES), it is determined that the wind direction up and down control plate 9 and the wind direction left and right control plate 11 are completely closed, and the flow proceeds to step S5 to determine the first and second wind directions. The motor composition units 112 and 114 stop driving of the first and second wind direction control motors 113 and 115 according to the control of the control means 104 to control the wind direction up and down control plate 9 and the wind direction left and right control plate 11. This state is used as a starting point for the operation after completing the closed operation.

On the other hand, the initialization routine up to step S5 is performed even when the driving is off, which means that the position of the wind direction adjusting plate 9 and the wind direction left and right adjusting plate 11 has been changed by arbitrary external operation when the power is turned on or when the driving is turned off. In this case, since it is difficult to precisely position control, it is to perform the initialization routine to completely close the wind direction up and down plate 9 and the wind direction left and right control plate 11.

Subsequently, in step S6, the set temperature Ts, the set air volume, and the set wind direction of the room to be cooled or heated by the operation operation means 102 are input to the control means 104. In step S7, the operation / stop key (hereinafter If the operation key is not turned on (NO), the operation of step S7 or less is repeated while the air conditioner is kept in operation standby until the operation key is turned on.

As a result of the determination in step S7, when the operation key is turned on (YES), an operation command and an operation signal are input from the operation operation means 102 to the control means 104, so that the operation of cooling or heating can be performed in step S8. Further, the control means 104 outputs a control signal for driving the indoor fan motor 21 to the fan motor driving means 116.

Accordingly, the fan motor driving means 116 receives the control signal output from the control means 104 in accordance with the set air volume input by the driving operation means 102 (speed) of the indoor fan motor 21. To drive the indoor fan (23).

When the indoor fan 23 is driven according to the set air volume, the indoor air is sucked into the main body 1 through the suction port 3, at which time the temperature Tr of the indoor air sucked through the suction port 3 is room temperature. The sensing means 106 detects and outputs the control means 104.

Subsequently, in step S9, the control means 104 adjusts the wind direction angles of the wind direction up and down control plate 9 and the wind direction left and right control plate 11 according to the set wind direction inputted by the driving operation means 102. A control signal for driving the wind direction control motors 113 and 115 is output to the first and second wind direction motor drivers 112 and 114.

Accordingly, the first and second wind direction control unit 112, 114 receives the control signal output from the control means 104 to drive the first and second wind direction control motor 113, 115 to adjust the wind direction up and down control panel (9) and the wind direction angle of the wind direction left and right control plate 11 is adjusted according to the wind direction set by the user.

Subsequently, in step S10, the indoor temperature Tr sensed by the indoor temperature detecting means 106 is compared with the temperature Ts set by the user to the operation operation means 102 to determine whether the compressor 109 is a driving condition. Determine.

The driving condition of the compressor 109 is a case in which the room temperature Tr sensed by the room temperature sensing means 106 is greater than the set temperature Ts during the cooling operation, and the room temperature ( The case where Tr) is smaller than the set temperature Ts is described. In the present invention, the cooling or heating operation will be described as an example.

As a result of the discrimination in step S10, if it is not the driving condition of the compressor 109 (NO), the flow returns to the step S8 and repeats the operation of step S8 or less while continuously detecting the room temperature Tr, In the case of the driving condition of the compressor 109 (YES), the control means 104 determines the operating frequency of the compressor 109 according to the difference between the room temperature Tr and the set temperature Ts. The control signal for driving the compressor 109 is output to the compressor driving means 108.

Therefore, the compressor driving means 108 drives the compressor 109 according to the operating frequency determined by the control means 104.

When the compressor 109 is driven, the indoor fan 23 is driven in step S12 while the indoor air is sucked into the main body 1 through the suction port 3 and suspended in the indoor air sucked through the suction port 3. When foreign matter such as dust is removed while passing through the filter member 17, the indoor air from which foreign matter such as dust is removed by the filter member 17 flows into the heat exchanger 19 while passing through the heat exchanger 19. Heat exchanged by latent heat of evaporation of the refrigerant.

The air heat-exchanged in the heat exchanger 19 is moved to the upper side by the guide of the duct member 25 and according to the wind direction angle of the wind direction up and down control plate 9 and the wind direction left and right control plate 11 installed to be discharged to the discharge port 7. Air conditioning is performed by adjusting the wind direction up and down or left and right.

In the normal operation of the air conditioner as described above, in step S13, it is determined whether the wave key of the operation operation means 102 is turned on. If the wave key is not turned on (NO), the flow returns to the step S12 to operate normally. Is continued, and the operation of step S12 or less is repeated.

As a result of the discrimination in step S13, when the wave key is turned on (YES), the key signal corresponding to the wave driving mode is input from the driving operation means 102 to the air means 104, so that wave operation of the air conditioner is performed. Proceeding to step S 14, the control means 104 outputs a control signal for displaying the wave operating state of the air conditioner to the display means 118 to perform.

Therefore, the display means 118 turns on the wave display lamp under the control of the control means 104 to display the wave operation state, and in step S15 the control means 104 has a wide range of air discharged through the discharge port 7. A control signal for driving the indoor fan motor 21 is output to the panter driving means 116 to reach an area (center and far of the room).

Accordingly, the fan motor driving means 116 receives the control signal output from the control means 104 to drive the rotation speed of the indoor fan motor 21 in the turbo wind direction (about 670 RPM), and control in step S16. The means 104 outputs a control signal to the first wind direction motor driver 112 for adjusting the angle of the wind direction adjusting plate 9 so that the discharged air reaches a wide area (center and far).

Accordingly, the first wind direction control unit 9 receives the control signal output from the control means 104 and drives the first wind direction regulating motor 113 at an angular speed of 22.5 ° / SEC so that the wind direction up and down control plate 9 is operated. As shown in FIG. 5, the swing swings at an upward constant angle tool (about 15 °).

Subsequently, in step S17, the control means 104 outputs a control signal for adjusting the angle of the wind direction left and right control plate 11 to the second wind direction motor driver 114 so that the discharged air reaches a wide area (center and far). .

The second wind direction motor driver 114 receives the control signal output from the control means 104 and drives the second wind direction control motor 115 at an angular speed of 14.4 ° / sec to adjust the angle of the wind direction left and right control plate 11. As shown in FIG. 6, after moving to the center constant angle, the drive of the 2nd wind direction adjustment motor 115 is stopped.

Accordingly, the indoor air sucked through the suction port 3 is heat-exchanged by the latent heat of evaporation of the refrigerant flowing in the heat exchanger 19 while passing through the heat exchanger 19, and the air heat-exchanged in the heat exchanger 19 is ducted. Under the guidance of (25) is moved to the upper part of the continuous swing of the upward direction of the wind direction up and down control plate 9 installed in the discharge port (7), giving a wave to the discharge air flow according to the fixed constant angle of the center of the wind direction left and right control plate (11) As air reaches a wide area (centre, far) relatively far from the main body 1, the air direction of the discharged air is increased by driving the turbo air volume of the indoor fan motor 21 to perform air conditioning in a wide area. .

At this time, in step S18, it is determined whether the wave key is turned on again. If the wave key is not turned on (NO), the flow returns to step S15 to repeat the operation of step S15 and below.

As a result of the discrimination in step S18, when the wave key is turned on (YES), the key signal corresponding to the wave operation mode stop is input from the driving operation means 102 to the control means 104, so that the wave operation of the air conditioner is performed. To stop the process, the control means 104 outputs a control signal to the display means 118 to display the wave operation stop.

Accordingly, the display means 118 turns off the wave display lamp under the control of the control means 104 to display the wave operation stop state, and in step S20 the first and second wind direction control motors 113 and 115 and the indoor fan motor. 21 returns to the cooling or heating operation mode set value before the wave mode, and repeats the operation of step S12 and below while continuing the normal operation in step S12.

According to the discharge airflow control apparatus and method of the air conditioner according to the present invention as described above, by adjusting the wind direction angle and the wind direction of the discharged air by a simple key operation to increase the air-conditioning effect of a large area relatively far from the main body It has a great effect.

Claims (2)

A suction inlet for suctioning indoor air, a heat exchanger for discharging air heat-exchanged by the heat exchanger, an inlet for discharging air exchanged by the heat exchanger, and inhaling indoor air through the suction port and simultaneously exchanging heat in the heat exchanger An air conditioner having an indoor fan for discharging air into the room through the discharge port and a wind direction control plate for controlling the wind direction of the air discharged through the discharge port, wherein the air direction and the air volume of the air discharged through the discharge port are simultaneously controlled. A wave key for inputting a wave signal, and a control signal for controlling the wind direction angle of the wind direction control plate and the speed of the indoor fan so that when the wave signal is input according to the manipulation of the wave key, the discharged air reaches the center and the distance of the room. Control means for outputting and the wind of the discharged air in accordance with the control signal from the control means. The wind direction control means for fixing the direction of the left and right wind direction control plate at the center constant angle while swinging the wind direction up and down control plate to adjust the direction, and the indoor fan to adjust the air volume of the discharge air in accordance with the control signal from the control means. And a fan motor driving means constituted by the air flow rate, and a display means for displaying a wave operation state in which the center and the far air are air-conditioned according to the control signal from the control means. Initial position step of closing the wind direction up / down / left / right control panel by driving the wind direction control motor when the power is turned on and off to prevent position fluctuation of the wind direction up / down / left / right control panel, and the set temperature and set wind volume inputted by the operation operation means. And an air conditioning operation step of discharging the air heat-exchanged by the heat exchanger into the room according to the set wind direction to perform indoor air conditioning, a wave signal discrimination step of determining whether a wave signal is input from the driving operation means, and the wave signal discrimination step. If it is determined that the wave signal has been input in the wind direction control step of adjusting the wind direction of the discharge air by fixing the wind direction left and right control plate at the center constant angle while swinging the wind direction up and down control plate at a predetermined interval, and the wave signal in the wave signal discrimination step Is determined to be input, drive the indoor fan motor with turbo air volume Air volume control step of adjusting the air volume of the air, and a display step of displaying a wave operating state of air conditioning the center and the remote room when it is determined that the wave signal is input in the wave signal discrimination step Air flow control method.