KR0136723B1 - Noise control apparatus of an air-conditioner and the method thereof - Google Patents

Abstract

The present invention relates to an air conditioner noise control device and method for effectively attenuating noise generated during operation of an air conditioner, wherein the air conditioner selects main control means and silent operation of the air conditioner. Noise selection means for detecting noise generated during operation of an air conditioner under the control of the main control means when the silent operation is selected by the operation selection means, and the noise detected by the noise detection means. Noise control means for outputting a control signal having the same amplitude and opposite phase as the noise signal to control the noise, and modulating the control signal from the noise control means into a control sound signal to attenuate the noise. Control sound output means for outputting a modulated control sound signal, and control of said main control means at the time of selecting the silent operation by said operation selecting means. D) a display means for displaying the silent operation state of the air conditioner, and according to the control of the noise control means, by effectively attenuating the noise generated during the operation of the air conditioner to satisfy the user's satisfaction. There is an effect that can improve the performance.

Description

Noise control device and method of air conditioner

1 is a schematic side sectional view of a conventional noise control device of an air conditioner.

2 is a schematic perspective view of an air conditioner according to an embodiment of the present invention;

Figure 3 is a schematic side cross-sectional view of the noise control device of the air conditioner according to an embodiment of the present invention,

4 is an overall control block diagram of a noise control device of an air conditioner according to an embodiment of the present invention;

5 is a control block diagram of major components according to an embodiment of the present invention;

6 is a flowchart showing a noise control operation procedure of the air conditioner according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: operation selection means 20: DC power supply means

30: main control means 40: noise detection means

41: upper noise detection unit 42: lower noise detection unit

50: noise control means 60: control sound output means

61: upper control sound output unit 62: lower control sound output unit

70: display means

The present invention relates to an air conditioner noise control device and method for effectively attenuating noise generated during operation of an air conditioner.

In general, the noise control apparatus of the conventional air conditioner is a sound from the blower fan 6 generated during operation of the air conditioner or the internal duct structure of the main body 1, as shown in FIG. An upper noise detector 411 for detecting noise such as exhaust noise generated is attached to the upper rear end of the main body 1, and an upper portion of the upper noise detector 411 is provided with noise generated during operation of the air conditioner. An upper control sound generator 614 for outputting a control sound signal having the same amplitude and opposite phase to that of the noise signal detected by the upper noise detector 411 is attenuated.

During operation of the air conditioner configured as described above, noise generated by the internal duct structures of the blowing fan 6 and the main body 1 is transmitted to the air volume discharge direction and starts to radiate to the outside.

At this time, when the user selects the silent operation, the noise generated by the blowing fan 6 and the internal duct structure is detected by the upper noise detector 411 and output to the amplifier, and the amplifier is provided to the upper noise detector 411. In order to A / D convert the minute noise signal detected by the amplified electric analog signal and output to the filter unit.

Therefore, the filter unit filters out noise components included in the amplified analog signal, that is, unwanted electromagnetic waves, which are not noise signal sources, and outputs the filtered analog signal to the A / D converter. Is converted to a noise control means (DS P chip for signal processing).

Accordingly, the noise control unit receives the digitally converted noise signal by the A / D converter and converts the control sound signal having the same noise frequency and amplitude and the opposite phase to analog through the A / D converter. Output to the outside through the control sound generator 614.

At this time, the control sound signal output through the upper control sound generator 614 is generated at the operation of the air conditioner while overlapping the noise signal generated in the blowing fan 6 and the internal duct structure and radiated in the air volume discharge direction. The original noise signal is suppressed and attenuated.

On the other hand, when the silent operation is off, the air conditioning operation of the air conditioner performed before the silent operation selection is continued while the silent operation is stopped.

By the way, in the conventional noise control method, the upper noise detector and the upper control sound generator are mounted on the side of the air volume discharge port, which is the upper part of the air conditioner, to reduce the noise emitted to the discharge port to some extent, but the noise is generated in various places. In this case, there is a problem in that the duct structure between the intake port and the blower fan is restricted, and thus the noise generated during the operation of the air conditioner cannot be effectively attenuated because the noise emitted to the front of the intake port cannot be controlled.

In addition, according to the conventional method as described above, since a number of DS P chips for signal processing to control the noise when the noise occurs in a number of places, not only the mounting structure is complicated, but also a problem that the manufacturing cost increases accordingly there was.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is that the amplitude and the phase are the same as the plurality of noise signals generated during operation of the air conditioner under the control of the noise control means. The present invention provides a sound control device and a method of an air conditioner capable of improving the performance of a device while satisfying a user's satisfaction by outputting a control sound signal to effectively attenuate the generated noise.

In order to achieve the above object, the noise control apparatus for an air conditioner according to the present invention includes an air conditioner, main control means, operation selection means for selecting a silent operation of the air conditioner, and a silent operation by the operation selection means. When selected, the noise detection means for detecting the noise generated during the operation of the air conditioner according to the control of the main control means, and the noise signal and amplitude to receive the noise signal detected by the noise detection means to control the noise Noise control means for outputting a control signal that is the same and opposite in phase, control sound output means for outputting the modulated control sound signal to attenuate noise by modulating the control signal from the noise control means into a control sound signal; Display means for displaying the silent operation state of the air conditioner under the control of the main control means at the time of the silent operation selection by the operation selection means; It characterized by comprising.

In addition, the noise control method of the air conditioner according to the present invention is a silent operation determination step for determining whether the silent operation is selected during operation of the air conditioner, and a silent operation lamp for the silent operation selection determined in the silent operation determination step. The noise detection step of detecting the noise generated during operation of the air conditioner while the light is on, and outputs a control sound signal of the same amplitude and phase as the noise signal detected in the noise detection step to output the noise A noise reduction step for attenuating, a silent operation off step for determining whether the silent operation is turned off when the air conditioner attenuates the air conditioner by the noise reduction step, and a silent operation lamp for the silent operation off in the silent operation off step It characterized in that the air conditioning operation step for performing the air conditioning operation of the air conditioner while turning off.

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

As shown in Figs. 2 to 3, the cover member 2 is formed on the front surface of the main body 1 to form the exterior of the air conditioner and the operation selecting means 10 is formed at a predetermined position.

In addition, a suction port 3 is formed at the lower front surface of the main body 1, a discharge port 4 is formed at the upper front surface of the main body 1, and the cold air discharged to the room is discharged at the discharge port 4. Wind direction up and down control plate (4a) and wind direction left and right control plate (4b) for controlling the direction of the is mounted.

In addition, an evaporator 5 for heat-exchanging indoor air with cold is generally installed at the center of the main body 1, and at the same time, the lower part of the main body 1 sucks the indoor air through the suction port 3; A blowing fan 6 for discharging air heat-exchanged in the evaporator 5 to the room through the discharge port 4 is mounted.

On the other hand, the blowing fan (6) is attached so that the air volume is sucked into the inner rear to prevent a large amount of noise generated during operation of the air conditioner through the intake port (3) of the front of the blowing fan (6) It is.

In addition, an upper noise detector 411 is mounted on the upper end of the evaporator 5 to detect noise of the discharge port 4 generated when the blower fan 6 is driven, and an upper portion of the upper noise detector 411. The upper rear surface of the main body 1 is equipped with an upper control sound generator 614 for outputting a control sound signal having the same amplitude and opposite phase as the noise signal sensed by the upper noise detector 411.

In addition, the front of the blower fan 6 is equipped with a sound insulating material (8) for absorbing the vibration generated during the driving of the blower fan (6) to attenuate primarily the noise emitted to the outside due to the vibration, At the rear of the fan 6, a lower noise detector 421 for detecting the noise on the suction port 3 side generated when the blower fan 6 is driven is mounted in the flow path duct.

A lower control sound generator 624 is mounted at a lower end of the blower fan 6 to output a control sound signal having the same amplitude and opposite phase as the noise signal detected by the lower noise detector 421.

In addition, the upper part of the main body 1, the discharge port 4 is opened so that cold air heat exchanged from the evaporator 5 is smoothly supplied to the room during the operation of the air conditioner, and the operation standby of the air conditioner In order to prevent dust or foreign matter from entering the inside of the main body 1 and to have a beautiful appearance, a discharge port door 7 which closes the discharge port 4 is installed to be moved upward or downward. .

As shown in FIG. 3, the driving means for driving the discharge port door 7 upwardly or downwardly is supported by the support member 7a fixed to the upper part of the main body 1 and the support member 7a. A door motor 7b that is secured to generate power for moving the discharge door 7 upwardly or downwardly, and coupled to the door motor 7b so as to be rotatable by power generated by the door mutter 7b. When the pinion gear 7c and the pinion gear 7c are rotated, the rotational movement of the pinion gear 7c is converted to linear movement so as to move the discharge port door 7 upward or downward in association with the rotation of the pinion gear 7c. It consists of the rack gear 7d.

A block diagram for controlling noise generated during operation of the air conditioner configured as described above will be described with reference to FIGS. 4 to 5.

As shown in Figs. 4 to 5, the operation selecting means 10 has a plurality of function keys (cooling, heating, artificial intelligence, clean, reserved operation, stop to select the operation function of the air conditioner desired by the user. And the like, as well as a silent operation switch to select the silent operation of the air conditioner.

The DC power supply unit 20 receives commercial AC power from an AC power input terminal (not shown), converts it into a predetermined DC voltage necessary for the operation of the air conditioner, and outputs the main control means 30. In addition to initializing the air conditioner by receiving a DC voltage supplied from the means 20, the overall operation of the air conditioner is controlled according to the operation selection signal and the silent operation signal input by the operation selection means 10. It's a microcomputer.

In addition, the noise detecting means 40 detects the noise generated by the driving of the blower fan 6 and the flow path duct structure in which the fluid moves during the operation of the air conditioner. Upper noise detection unit 41 for detecting the noise of the upper discharge port 4 side generated during the operation of the air conditioner, and the noise of the lower intake port 3 side generated during operation of the air conditioner The lower noise detection unit 42 is configured to.

The upper noise detector 41 includes an upper noise detector 411 made of a microphone so as to detect noise of the discharge port 4 generated by the driving of the blower fan 6 during operation of the air conditioner. The first amplifier 412 amplifies the minute noise signal detected by the noise detector 411 into an electrical signal for A / D conversion, and the noise signal amplified by the first amplifier 412 A first filter unit 413 for filtering out noise components, that is, unwanted electromagnetic waves, and a first A / D converter 414 for converting analog data of the noise signal filtered by the first filter unit 413 into digital signals. It is.

The lower noise detector 42 includes a lower noise detector 421 made of a microphone so as to detect a noise of the intake port 3 generated by driving the blower fan 6 during operation of the air conditioner, and the lower noise detector 42. The second amplifier 422 for amplifying the minute noise signal detected by the noise detector 421 into an electrical signal for A / D conversion, and the noise signal amplified by the second amplifier 422 A second filter unit 423 for filtering out noise components, that is, unwanted electromagnetic waves, and a second A / D converter 424 for converting analog data of the noise signal filtered by the second filter unit 423 into digital signals. It is.

The noise control means 50 receives the noise signal detected by the noise detection means 40 and outputs a control signal for controlling the noise generated when the air conditioner is operated. ) Is a DSP (DIGITAL SIGNAL PROCESSOR) chip for signal processing that outputs a control signal having the same amplitude and opposite phase to the noise signal detected by the noise detecting means 40.

The control sound output means 60 modulates the control signal output from the noise control means 50 (that is, the signal having the same amplitude and opposite phase as the noise signal generated during operation of the air conditioner) to the control sound signal. This control sound output means 60 and the detected noise signal to control the noise of the discharge port (4) detected by the upper noise detection unit 41 of the noise detection means 40 and the The upper control sound output unit 61 outputs a control sound signal having the same amplitude and opposite phase, and the noise of the suction port 3 sensed by the lower noise detection unit 42 of the noise detection means 40. And a lower control sound output section 62 for outputting a control sound signal having the same amplitude and opposite phase as the sensed noise signal for control.

The upper control sound output unit 61 is connected to the first D / A converter 611 and the first D / A converter 611 for converting digital data of the control signal output from the noise control means 50 into analog. A third filter 612 for filtering noise components included in the analog data of the control signal converted by the third amplifier, and a third amplifier for amplifying the control signal filtered by the third filter unit 612 into an electrical signal. 613 and an upper control sound generator 614 made of a speaker for modulating and outputting the control signal amplified by the third amplifier 613 into a control sound signal.

The lower control sound output unit 62 is provided with a second D / A converter 621 and a second D / A converter 621 for converting digital data of the control signal output from the main control means 30 into analog. A fourth filter unit 622 for filtering noise components included in the analog data of the converted control signal, and a fourth amplifier for amplifying the control signal filtered by the fourth filter unit 622 into an electrical signal ( 623 and a lower control sound generator 624 made of a speaker to modulate and output the control signal amplified by the fourth amplifier 623 into a control sound signal.

In addition, in the drawing, the display means 70 displays the operating conditions input by the user by the operation selecting means 10 under the control of the main control means 30, as well as the silent operation state of the air conditioner. Display.

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

6 is a flowchart showing the operation procedure of the noise control of the air conditioner according to the present invention. In FIG. 6, S denotes a step.

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

Therefore, in step S1, the DC voltage output from the DC power supply unit 20 is inputted by the main control means 30, and the air conditioner is initialized. In step S2, the operation signal of the air conditioner is operated by the operation selection means 10. It is determined whether is input to the main control means 30.

As a result of the discrimination in step S2, when the operation signal is not input (No), the air conditioner is kept in operation standby state. When the operation signal is input (Yes), the operation of the air conditioner is performed. Since the discharge port 4 must be opened in order to perform the operation, in step S3, the door motor 7b is driven in the forward direction by driving the door motor 7b under the control of the main control means 30. The pinion gear 7c coupled to the shaft is rotated downward along the rack gear 7d to open the discharge port 4 by moving the discharge port door 7 downward.

When the discharge port 4 is completely opened in accordance with the driving of the door motor 7b, in step S4, the blower fan 61 is driven under the control of the main control means 30 to suck the indoor air through the suction port 3. At the same time, the cold air converted by the evaporator 5 is discharged to the room through the discharge port 4 to start the operation of the air conditioner.

At this time, during operation of the air conditioner, the noise generated by vibration caused by the driving of the blower fan 6 and the noise generated by the internal duct structure of the main body 1 are transmitted to the air volume discharge direction to the outside. It begins to radiate.

As described above, when the noise generated by the operation of the air conditioner is generated, whether the silent operation switch is turned on by the operation selecting means 10 in step S5, that is, the silent operation signal of the air conditioner is input to the main control means 30. If the silent operation signal is not input (No), the flow returns to the step S4 to continue the cooling operation of the air conditioner.

As a result of the determination in step S5, when the silent driving signal is input (Yes), the silent driving relay (not shown) is turned on according to the control signal of the main control means 30, and is supplied from the DC power supply means 20. DC voltage is input to the noise control means 50.

Therefore, in step S6, the silent operation lamp indicating that the air conditioner is performing the silent operation is turned on by the display means 70. In step S7, the driving fan and the internal duct of the blower fan 6 are operated during operation of the air conditioner. The noise of the upper discharge port 4 caused by the structure is detected by the upper noise detector 411 for a predetermined number of times (approximately, about 10 times).

The minute noise signal sensed by the upper noise detector 411 is amplified into an electrical analog signal through the first amplifier 412, and the noise component included in the amplified noise signal, that is, a noise signal source, is unnecessary. Electromagnetic waves are filtered by the first filter unit 413 and input to the first A / D converter 414.

Accordingly, the analog data of the filtered noise signal is converted into digital by the first A / D converter 414 and input to the noise control means 50.

Subsequently, in step S8, the noise level of the lower suction port 3 generated by the operation of the blower fan 6 and the internal duct structure during operation of the air conditioner is lowered for a predetermined number of times (approximately, about 10 times). 421).

The minute noise signal sensed by the lower noise detector 421 is amplified into an electrical analog signal through the second amplifier 422, and is not a noise component included in the amplified noise signal, that is, an unnecessary noise signal source. Electromagnetic waves are filtered by the second filter unit 423 and input to the second A / D converter 424.

Therefore, when the analog data of the filtered noise signal is converted into digital by the second A / D converter 424 and input to the noise control means 50, the noise control means 50 includes the upper noise detector 411 and A control signal having the same frequency and amplitude and opposite phase as the noise signal detected by the lower noise detector 421 is output to the control sound output means 60 for a predetermined number of times (about 9 times).

Accordingly, in step S9, the control signal output from the main control means 30 by the upper control sound output unit 61 of the control sound output means 60, that is, the noise signal detected by the upper noise detector 411. The digital data of the control signal having the same amplitude and the opposite phase to is converted into analog data through the first D / A converter 611.

In addition, the noise component included in the analog data of the control signal converted by the first D / A converter 611 is filtered through the third filter unit 612, and the analog data of the filtered control signal is third. Amplified by the amplifier 613.

At this time, the control signal amplified by the third amplifier 613 is the same as the control signal, that is, the noise signal detected by the upper noise detector 411 through the upper control sound generator 614, the phase is opposite It is modulated with a half-noise signal and outputted to the discharge port 4.

Accordingly, the noise of the discharge port 4 generated by the driving fan 6 and the internal duct structure overlaps with the control sound signal output through the upper control sound generator 614 to suppress the original noise signal. Therefore, the noise emitted to the outside can be attenuated.

In operation S10, the control signal output from the main control means 30 by the lower control sound output part 62 of the control sound output means 60, that is, the noise frequency detected by the lower noise detector 421 and Digital data of control signals having the same amplitude and opposite phase are converted into analog data through the second D / A converter 621.

The noise component included in the analog data of the control signal converted by the second D / A converter 621 is filtered through the fourth filter unit 622, and the analog data of the filtered control signal is fourth. Amplified by amplifier 623.

At this time, the control signal amplified by the fourth amplifier 623 is the same as the control signal, that is, the noise signal sensed by the lower noise detector 421 through the lower control sound generator 624, the phase is opposite It is modulated with a half-noise signal and outputted to the suction port (3).

Accordingly, the noise of the suction port 3 generated by the driving fan 6 and the internal duct structure overlaps with the control sound signal output through the lower control sound generator 624, thereby suppressing the original noise signal. Therefore, the noise emitted to the outside can be attenuated.

On the other hand, in the embodiment of the present invention has been described taking the case of the silent operation during the cooling operation of the air conditioner as an example, to achieve the object and effect of the present invention in any air conditioning operation of the air conditioner, including heating operation Of course you can.

During the silent operation of the air conditioner as described above, in step S11, it is determined whether the silent operation switch is turned off by the operation selecting means 10, that is, whether the silent operation off signal of the air conditioner is input to the main control means 30. When the silent operation off signal is not input (No), the process returns to step S7 to continue the silent operation of the air conditioner.

On the other hand, when the determination result in step S11, when the silent operation signal is input (Yes), the silent operation relay (not shown) in accordance with the control signal of the main control means 30 is turned off while the DC power supply means 20 DC voltage supplied from the noise control means 50 is cut off.

Therefore, in step S12, the air conditioner stops the silent operation and turns off the silent operation lamp through the display means 70. In step S13, the air conditioner is operated according to the operation method performed before the silent operation of the air conditioner. While continuing the cooling operation, the process returns to the step S5 to continuously determine whether or not the silent operation signal is input, and repeats the operation of the step S5 or less.

On the other hand, in the embodiment of the present invention has been described taking the case of the silent operation during the cooling operation of the air conditioner as an example, to achieve the object and effect of the present invention in any air conditioning operation of the air conditioner, including heating operation Of course you can.

According to the noise control device and method of the air conditioner according to the present invention as described above, according to the control of the noise control means, a plurality of noise signals generated at the time of operation of the air conditioner are the same in amplitude and opposite in phase. By outputting a control sound signal to effectively attenuate the generated noise can meet the user's satisfaction while having an excellent effect of improving the performance of the device.

Claims (6)

In the air conditioner, operation selection means for selecting the silent operation of the air conditioner, main control means for controlling to perform the silent operation when the silent operation is selected by the operation selection means, air conditioning according to the control of the main control means Upper noise detection means for detecting the noise of the upper discharge port generated during operation of the machine, the lower noise detection means for detecting the noise of the lower suction inlet generated during the operation of the air conditioner under the control of the main control means, the main control Noise for outputting a control signal having the same amplitude and opposite phase as the noise signal to attenuate the noise by receiving the noise signal sensed and output by the upper noise detecting means and the lower noise detecting means, respectively, according to the control of the means. Control means, the noise of the discharge port detected by the upper noise detection means receives the control signal of the noise control means The upper control sound output means for outputting a control sound signal having the same amplitude and opposite phase to the sensed noise signal so as to cancel the signal, and the suction port sensed by the lower noise detection means by receiving the control signal of the noise control means. The lower control sound output means for outputting a control sound signal having the same amplitude and opposite phase to the sensed noise signal so as to cancel the noise of the noise, and according to the control of the main control means at the time of selecting the silent operation by the operation selecting means. Silencer of the air conditioner, characterized in that consisting of a display means for displaying the silent operation state of the air conditioner. According to claim 1, wherein the upper noise detection means, by the upper noise detector for detecting the noise of the discharge port side caused by the operation of the blower fan and the flow path duct structure during operation of the air conditioner, by the upper noise detector A first amplifier for amplifying the detected minute noise signal into an electrical signal for A / D conversion, a first filter unit for filtering a noise component included in the noise signal amplified by the first amplifier, and the first filter unit And a first A / D converter for converting analog data of the noise signal filtered by the filter unit into digital. According to claim 1, wherein the lower noise detection means, by the lower noise detector for detecting the noise of the intake side caused by the operation of the blower fan and the flow path duct structure during operation of the air conditioner, by the lower noise detector A second amplifier for amplifying the detected minute noise signal into an electrical signal for A / D conversion, a second filter unit for filtering a noise component included in the noise signal amplified by the second amplifier, and the second And a second A / D converter for converting analog data of the noise signal filtered by the filter unit into digital. The control signal converted by the first D / A converter and the first D / A converter for converting digital data of the control signal output from the noise control means into analog. A third filter for filtering noise components included in the analog data of the third amplifier, a third amplifier for amplifying the control signal filtered by the third filter into an electrical signal, and a control signal amplified by the third amplifier Noise control device of the air conditioner, characterized in that consisting of the upper control sound generator for modulating the control sound signal. The control signal converted by the second D / A converter according to claim 1, wherein the lower control sound output means comprises: a second D / A converter for converting digital data of the control signal output from the noise control means into analog; A fourth filter for filtering out noise components included in the analog data, a fourth amplifier for amplifying the control signal filtered by the fourth filter into an electrical signal, and a control signal amplified by the fourth amplifier. Noise control device of the air conditioner, characterized in that consisting of a lower control sound generator for modulating and outputting the control sound signal. The silent operation discrimination step for determining whether the silent operation is selected during the operation of the air conditioner and the operation of the blower fan during the operation of the air conditioner while the silent operation ram is turned on during the silent operation selection determined in the silent operation determination step. The noise detection step for detecting the noise of the discharge port and the suction port generated by the flow path duct structure, respectively, and outputs a control sound signal of the same amplitude and opposite phase to each noise signal detected in the noise detection step to the discharge port side And a noise attenuation step for attenuating the noise on the inlet side, a silent operation off step for determining whether the silent operation is turned off while attenuating the noise of the air conditioner by the noise reduction step, and the silent sound in the silent operation off step. When the operation is off, stop the silent operation and turn off the silent operation lamp and perform air conditioning operation of the air conditioner. Noise control of the air conditioner which is characterized by being a crude operation step.