KR101557444B1 - air conditioner - Google Patents

Abstract

The present invention includes an indoor unit main body having an air intake port for sucking indoor air and an air outlet port for discharging air ventilated and an insect repellent device attached to the indoor unit main body for eliminating insect pests, An insect repellent control unit for outputting a pulse signal to generate an evasive frequency according to the type of insect pest detected; an amplification unit for amplifying the level of the pulse signal; And an output unit for outputting the converted signal. This makes it possible to effectively combat insects.

Air conditioner, indoor unit, insect repellent

Description

Air conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of efficiently purging a pest.

In general, an air conditioner is divided into a separable type and an integral type in which a room is cooled or cleaned by using a refrigerating cycle of a refrigerant composed of a compressor, a condenser, an expansion device, and an evaporator to create a more comfortable indoor environment for the user .

The separate type and the integral type are the same in function but the separate type indoor and outdoor units are connected to each other by a cooling / heat radiating device installed in the indoor unit, a heat radiating / cooling and compressing device installed in the outdoor unit, To integrate the functions of the house walls and holes in the wall of the house is installed directly by hanging device.

On the other hand, the air conditioner mainly operates in an environment with a high temperature and a high humidity as in the summer. In addition, in an environment with a high temperature and a high humidity, the optimum climatic conditions in which various pests (flies, mosquitoes, ticks, etc.) can live are maintained.

As various functions of the air conditioner have been added and become complicated, various attempts have been made for air conditioning as well as pest control.

It is an object of the present invention to provide an air conditioner capable of efficiently pest insect by a sound wave signal according to a pest type.

Another object of the present invention is to provide an air conditioner capable of efficiently exterminating pests when it is detected that a plurality of kinds of pests are detected.

It is another object of the present invention to provide an air conditioner which can easily change frequency of an acoustic signal.

It is another object of the present invention to provide an air conditioner capable of simply and efficiently arranging an output unit for outputting a sound wave signal.

An air conditioner according to an embodiment of the present invention for solving the above-mentioned problems and other problems is provided with an indoor unit main body having an air inlet for sucking indoor air and an air outlet for discharging air ventilated, And an insect repellent unit for exterminating the insect pest. The insect repellent unit includes a pest type detection unit for detecting the kind of pest, an insect repellent control unit for outputting a pulse signal to generate a repellent frequency according to the detected pest type, And an output unit for converting the level-amplified pulse signal into a sound wave signal and outputting the sound wave signal.

As described above, the air conditioner according to the embodiment of the present invention can detect insect species and generate sound wave signals of the corresponding evasive frequency in accordance with the detected insects, thereby effectively exterminating insects.

Further, when it is detected that a plurality of pest species are detected, a plurality of sound wave signals are sequentially and repeatedly output, thereby enabling efficient eradication.

In addition, since the sound wave signal is output based on the pulse width modulation, a simple and accurate implementation is possible.

In addition, an output unit for outputting the sound wave signal can be efficiently arranged.

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

FIG. 1 is a perspective view of the air conditioner according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating the operation of the air conditioner according to the embodiment of the present invention. Fig.

The air conditioner according to the present embodiment includes an indoor unit main body 2 and an insect repellent 100.

The indoor unit main body 2 is provided with an air inlet port 4 through which indoor air is sucked and an air outlet port 6 through which the air-conditioning air is discharged. Air is sucked into the air inlet port 4, 6), it is possible to provide a stand-type air-conditioning unit, a ceiling air-conditioning unit, and a wall-mounted air-conditioning unit. Hereinafter, a wall-mounted type air conditioner will be described as an example.

The indoor unit main body 2 includes a chassis 10, a front frame 20, a suction grille 21, a front panel 28, and a discharge unit 30. [

The air inlet port 4 is formed on the front surface and the upper surface of the indoor unit main body 2 and the air outlet port 6 is formed on the lower surface of the indoor unit main body 2, It is also possible to form an air suction passage between the upper portion and the lower portion of the indoor unit main body 2 and between the upper portion and the lower portion of the indoor unit main body 2, It is also possible that the discharge port 6 is formed on the lower surface of the indoor unit main body 2 and the front panel 28 covers the entire surface of the indoor unit main body 2. [ The air suction port 4 is formed on the upper surface of the indoor unit main body 2 and particularly on the upper surface side of the indoor unit main body 2 and the air discharge port 6 is formed on the lower surface of the indoor unit main body 2, And the front panel 28 forms a front side outer tube of the air conditioner and is connected to the indoor unit body 2 so as to be rotatably protruded forward from the upper portion thereof for service or the like.

The chassis 10 is a kind of a case which is installed on a wall of a room, in which an air flow passage through which air flows, and various components are installed.

The front frame 20 forms a space with the chassis 10 and is disposed in front of the chassis 10. [

Openings 4 and 5 are formed on the upper surface and the front surface of the front frame 20 so that the upper surface opening acts as an air intake port 4 and the front surface opening 5 functions as an attachment / Service as a service hall.

The suction grille 21 protects the lower side of the room while allowing air in the room to be sucked into the indoor unit main body 2 and is formed in a grill shape on the air inlet opening 4 which is the upper surface opening of the front frame 20.

The discharge unit 30 discharges and guides the air ventilated inside the indoor unit body 2. The discharge unit 30 is connected to at least one of the chassis 10 and the front frame 20 by fastening means such as a fastening unit or hooking means such as a hook .

The chassis 10 is provided with an air flow guide 12 for guiding the air sucked into the air inlet 4 to the air outlet 6, A front portion 13 to which the component is to be mounted is formed.

The airflow guide 12 formed in the chassis 10 forms a flow path of a fan 54 to be described later and includes left and right guides 15 and 16 projecting forward from the chassis 10, And a central guide 17 between the guides 15 and 16. One of the left and right guides 15 and 16 supports a heat exchanger 60 and a heat exchanger supporter (18).

A motor mounting portion 14 in which a fan motor 52 to be described later is seated and supported is protruded forward from the front end portion 13 formed on the chassis 10.

A control box 70 is disposed in the front housing 15 and the control box 70 is provided with an indoor unit 70 for controlling the fan motor 52 of the blower 50 and a wind direction adjustment driving unit 35 of the wind direction adjusting unit, A control unit 72 and a insect repellent control unit 180 described below for controlling the insect repellent 100 can be mounted together.

The front frame 20 forms an air flow passage together with the chassis 10 to protect the front portion 13 formed on the chassis 10. [

The front frame 20 has front and rear openings 5 formed in front of the flow guide 12 of the chassis 10 and an upper opening 4 on the upper front side of the flow guide 12 of the chassis 10, .

The discharge unit 30 is provided with a drain portion 32 for receiving condensed water dropped from the heat exchanger 60 to be described later on the upper surface thereof and a drain connection 32 for guiding the condensed water to the outside of the indoor unit main body 2, A hose 33 is connected and an air discharge opening 6 is formed in the lower portion of the drain portion 32.

The discharge unit (30) is provided with a wind direction adjusting mechanism for adjusting the wind direction of the air passing through the air discharge opening (6).

The wind direction adjusting device includes a wind direction adjusting portion 34 that is arranged to be rotatably disposed in the indoor unit body 2, particularly, the discharging unit 30 to adjust the wind direction while guiding the air passing through the air outlet 6, And a wind direction adjustment driving unit 35 for rotating the wind direction adjustment driving unit 35.

The wind direction adjuster 34 includes a left and right wind direction adjusting unit for adjusting the wind direction of the air passing through the air outlet 6 and a vertical wind direction adjusting unit for adjusting the vertical wind direction of the air passing through the air outlet 6. [

The wind direction control unit driving unit 35 may be connected to the left and right wind direction control unit so that the left and right wind direction control unit is rotated around the vertical axis and connected to the upper and lower wind direction control unit so that the upper and lower wind direction control unit is rotated up and down about the horizontal axis It is possible.

The wind direction regulating section driving section 35 is composed of a wind direction regulating motor provided on one side of the left and right sides of the discharging unit 30.

The air conditioner according to the present embodiment includes an air blower 50 for sucking air into the air suction unit 4 and passing the air to the inside of the indoor unit 2 and discharging the air to the air discharge unit 6, And a heat exchanger (60) for exchanging the air sucked into the main body (2) with the refrigerant.

The blower 50 is provided with a fan motor 52 mounted on the chassis 10 and particularly on the motor mounting portion 14 formed on the front portion 13 and a fan motor 52 mounted on the rotary shaft of the fan motor 52, And a motor cover 56 mounted on the chassis 10 so as to cover the fan motor 52. [

The fan 54 is constituted by a cross flow fan elongated horizontally between the flow guides 15, 16 and 17, in particular, between the left and right flow guides 15 and 16.

The heat exchanger 60 is disposed in the space of the indoor unit body 2 so as to be positioned between the air intake portion 4 and the fan 54 and particularly at the rear of the front portion of the front frame 20, Drain region 32 of the semiconductor device.

The heat exchanger 60 includes a vertical portion 62 vertically positioned on the upper side of the drain portion 32, a forward inclined portion 64 formed obliquely upward from the upper side of the vertical portion 62, And a rear inclined portion 66 formed to be inclined toward the rear lower side from the upper portion of the rear end portion 64.

The air conditioner according to the present embodiment includes a filter 80 disposed inside the indoor unit 2 and a filter frame 90 on which the filter 80 is mounted so as to purify the air sucked into the air inlet 4 .

The filter frame 90 is installed between the air inlet 4 and the heat exchanger 60 and is formed with an opening 91 through which air is passed and the filter 80 is disposed.

The insect repellent 100 is attached to the indoor unit main body 2 by removing or inducing insects such as mosquitoes which are located in a room where the air conditioner performs air conditioning.

The insect repeller 100 includes an output unit 102 for outputting a sound wave of a specific frequency band in which insects such as mosquitoes are avoided. The pest controller 100 further includes an insect repellent controller 180 for outputting a pulse signal, an amplifying part 185, and a pest type detecting part 190 for detecting the type of insect pest, as will be described later do.

The output unit 102 of the pest controller 100 may be a speaker that converts an electric signal into an electric signal and outputs the electric signal. The output unit 102 can be fixedly mounted on the indoor unit body 2 or can be mounted on the indoor unit body 2. In the following description, the indoor unit main body 2 is fixedly positioned.

4 is a view showing an example in which an output unit of the pest controller is installed.

4 (a), the output portion 102 of the insect repeller 100 is disposed on the right side of the air outlet 6. Since the output portion 102 of the insect repeller 100 is disposed in a state of being covered by the wind direction regulating portion 34 as described above, only when the wind direction regulating portion 34 is opened and the air outlet opening 6 is opened, So that it can be efficiently and simply implemented.

Referring to FIG. 4 (b), the output portion 102 of the insect repeller 100 may be disposed on both the left and right sides of the air outlet 6. As shown in FIG. 4 (b), the airflow direction adjusting unit 34 is opened to expose only when the air discharge opening 6 is opened, thereby enabling efficient and simple implementation. In addition, the level of the sound wave signal output from the output unit 102 may be higher, which may be more effective for pest control. On the other hand, when the pest controller 100 has a plurality of output units, it is also possible that sound waves of different frequencies are output from the output units.

4 (a) to 4 (b) illustrate a case where the airflow direction adjusting portion 34 is opened and air is discharged from the air discharge opening 6, and at this time, the output of the pest control device 100 The sound wave signal of a specific frequency band is output from the sound source 102. It is also possible that the sound wave signals of different frequencies are sequentially output.

4 (a) to 4 (b), the air discharged from the air outlet 6 may be heat-exchanged air depending on whether the indoor unit is operated or not.

5 is a simplified internal block diagram of an air conditioner according to an embodiment of the present invention.

Referring to the drawings, an air conditioner according to an embodiment of the present invention includes an indoor unit 200 and a pest controller 100.

The indoor unit 200 includes the front panel 28, the air inlet 4 disposed on one side of the front panel 28, and the air outlet (not shown) disposed on one side of the front panel 28 And an air conditioner 34 for adjusting the air flow direction of the discharged air and opening and closing the air outlet 6.

The indoor unit 200 further includes an air blower 50 driven by the fan motor 52, a wind direction adjusting unit 34 driven by the air direction adjusting motor 35, a heat exchanger An indoor unit control unit 72 for controlling the overall operation of the indoor unit, an input unit 220 for receiving various operation instructions from the user, and a display unit 230 for displaying the state in which the sound signal is being output.

The indoor unit controller 72 controls the overall operation of the indoor unit. For example, when an operation signal of the air conditioner is received from an input unit 220 such as a remote controller, the indoor unit controller 72 controls to start the operation of the air conditioner accordingly. At this time, the compressor (not shown) of the outdoor unit is driven through communication with the outdoor unit controller 310 in the outdoor unit 300.

The indoor unit control unit 72 controls the fan motor 52 to operate the blower 50 of the indoor unit in accordance with driving of a compressor (not shown) of the outdoor unit and controls the wind direction adjusting motor 35 ). Thereby, the air in the sucked room is heat-exchanged in the heat exchanger (60), and the heat-exchanged air is again discharged to the room.

On the other hand, the indoor unit control unit 72 outputs an operation signal to the insect repellent control unit 180 in the insect repellent 100. This operation signal can be generated and output when the indoor unit operation command is input from the input unit 220 or the insect pest control operation command is input. That is, the insect repeller 100 operates in the case of the indoor unit operation mode or in the insect repelling mode in which only the sound wave signal is outputted separately without the indoor unit operation.

The insect repeller 100 detects a pest type and outputs an acoustic wave signal of a repelling frequency avoided by the detected insect. This makes it possible to effectively combat insects.

Types of insects include flies, mosquitoes, mites, moths, and flyweeds. In addition, various kinds of flies and mosquitoes are distributed. Accordingly, the detection of the kind of insect pests described herein includes not only detection of flies, mosquitoes, mites, moths and ferns, but also detection of flies or mosquitoes, for example.

The insect repeller 100 outputs a sound wave signal of a repulsive frequency band according to the type of insect pest detected. Here, the range of the avoidance frequency band is a frequency band of ultrasonic waves avoided by various insects, and preferably has a frequency of 20 kHz to 100 kHz. Within this frequency band, the avoidance frequencies of flies, mosquitoes, mites, moths, and mosquitoes are different from each other. Therefore, in the embodiment of the present invention, sound waves are outputted with different avoidance frequencies according to the kinds of pests.

On the other hand, it is also possible to use the frequency of the male vane sound of the detected insect pest as the avoidance frequency band. The frequency of the male wing sound may range from approximately 200 Hz to 600 Hz. For example, the frequency of the male wing sound of the encephalitis mosquito or the red wing mosquito is 250 Hz to 400 Hz, the frequency of the male wing sound of the malaria mosquito is 300 Hz to 600 Hz, and the frequency of the male wing sound of the Egyptian mosquito is approximately 600 Hz, .

The pest controller 100 includes an output unit 102, an insect repellent control unit 180, an amplification unit 185, and a pest type sensing unit 190.

The pest type detection unit 190 detects the type of pest. As a method of detecting the pest type, for example, it is possible to detect the size of the pest active in the room by using an infrared sensor, and to detect the kind of the pest accordingly. It is also possible to detect insect wings in indoor, especially female wings, and detect the frequency of wing sounds to detect pest types. This will be described later with reference to FIG.

The insect repellent control unit 180 receives an operation signal from the input unit 220 or the indoor unit control unit 72 and operates. That is, when receiving an operation signal while receiving power of about 5 V from a power supply unit (not shown), the insect repeller control unit 180 starts its operation. Accordingly, the insect repellent control unit 180 outputs a pulse signal to generate the repellent frequency according to the detected insect species.

Here, the operation signal received by the insect repellent control unit 180 may be an indoor unit operation operation signal or an insect repellent operation signal directly received from the input unit 220 such as a remote controller. The operation signal received by the insect repellent control unit 180 may be an indoor unit operation operation signal or an insect repellent operation signal received through the indoor unit control unit 310. [

The pest control unit 180 may perform pulse width modulation (PWM) on the pulse signal to change the avoidance frequency. As a result, the avoidance frequency can be changed simply.

For example, when a plurality of frequencies are detected by the frequency detecting unit 440, the insect repeller control unit 180 controls the pest control unit 180 to perform pulse width modulation so as to output a corresponding pulse for generating an evasive frequency Can be performed. That is, a pulse signal having different avoidance frequencies is generated according to the pulse width varying in accordance with the pulse width modulation. Particularly, as the pulse width increases, the avoidance frequency of the generated pulse signal becomes higher.

The amplifying unit 185 amplifies the level of the pulse signal output from the insect repeller control unit 180. [ The amplifying unit 185 may be implemented in various forms such as an OP amp, a transistor, and the like.

The output unit 102 converts the level-amplified pulse signal into a sound wave signal, and outputs the sound wave signal. On the other hand, the output unit 102 may sequentially output a plurality of sound wave signals having different frequencies. The output unit 102 is a speaker, which can be realized as a metal element, and vibrates according to an input pulse signal to output a sound wave signal.

The insect repellent control unit 180 and the amplification unit 185 may be mounted on the same substrate and the amplification unit 185 and the output unit 102 may be electrically connected by wiring. This wiring may include a pulse signal transmission wiring for transmitting the pulse signal amplified by the amplifying part 185 to the output part 120 and a power wiring for supplying power to the output part 120. [

The insect repellent control unit 180 and the amplification unit 185 mounted on the same substrate can be arranged side by side with the control box 70 together with the substrate on which the indoor unit control unit 72 is mounted as described above.

On the other hand, the indoor unit controller 72 can control the display unit 230 to display the sound wave signal when the sound wave signal is outputted from the insect repeller 100. Since the sound wave signal output from the insect repeller 100 may be a frequency band of 20 kHz to 100 kHz rather than an audible spectrum, in order to allow the user to intuitively recognize the operation of the insect repelling device, It is preferable to display whether or not the sound wave signal is outputted through the signal line.

The display unit 230 may include a light emitting diode (LED) that emits light. When the sound wave signal is outputted from the pest controller 100, the display unit 230 can display various examples. For example, the display unit 230 may be displayed such that the number of times of emission per unit time is increased or the amount of emitted light is increased in proportion to the frequency band of the sound wave signal. Accordingly, the user can intuitively not only determine the generation of the sound wave signal, but also the size of the frequency of the sound wave signal.

On the other hand, when the level of the pulse signal outputted from the amplifying unit 185 is detected and the level of the detected pulse signal exceeds the set value, it is determined that the operation is abnormal and the operation of the insect repellent control unit 180 is stopped It is possible.

6 is a simplified internal block diagram of the pest type detection unit of FIG.

Referring to FIG. 5, the pest type sensing unit 190 includes a pawl sound sensing unit 410 for sensing pest sound and a frequency detection unit 440 for detecting a frequency of the sensed paw sound.

The blade sound sensing unit 410 senses the insect wing sound. Especially, it is possible to detect the wing sound of the female mosquito of the spawning season in which a person or an animal sucks blood in the room.

The wing sound sensing unit 410 includes a microphone 415 for converting a sound wave signal input by the vibration element into an electric signal, and a band pass filtering unit 420 for performing band pass filtering to output only electric signals corresponding to a predetermined frequency band among the converted electric signals And a band pass filter 425 for filtering the received signal.

The wing sound sensing part 410 is attached to the outer surface of the indoor unit body 2 so that the wing sound sensing part 410 is exposed only when the wind direction adjustment part 34 is opened and the air outlet opening 6 is opened . It is also possible to separate them from the indoor unit main body 2 separately in the indoor space. In this case, the blade sound sensing unit 410 may transmit / receive the control signal using the short-range wireless communication with the insect repellent controller 180. Also, a plurality of the blade sound sensing units 410 may be disposed.

The microphone 415 collects the sound wave signals in the room where the indoor unit is installed, and converts them into electric signals. To this end, the microphone 415 may include a piezoelectric element. The sound wave signals collected by the piezoelectric elements are vibrated and converted into electric signals. The microphone 415, as a result, performs a function that is contrary to the output unit 102, that is, the speaker.

The band-pass filter 425 filters only a predetermined frequency band. In the embodiment of the present invention, the pest type detection unit 190 detects the type of insect pests by detecting the frequency of the pest insects, particularly the wing sound, so that it is preferable to remove the sound wave signals other than the pest insects . Accordingly, the blade sound sensing unit 410 includes a band-pass filter 425. [ The band-pass filter 425 may be implemented by a passive device, for example, a resistor and a capacitor, but is not limited thereto, and may be implemented in software in a microcomputer.

The predetermined frequency band passed by the band-pass filter 425 is preferably 200 Hz to 600 Hz as the frequency of insect wing sound.

The frequency detector 440 detects the frequency of the sensed wing sound. The frequency detector 440 may be implemented in hardware by including a timer counter. However, the frequency detector 440 may be implemented in software in the microcomputer.

When a plurality of frequencies are detected by the frequency detecting unit 440 and a plurality of pests are detected by the pest type detecting unit 190, the pest control unit 180 controls the pest control unit 180 It is possible to output the corresponding pulse signal of the largest frequency, that is, the largest coefficient. That is, when a plurality of pests are detected by detecting a plurality of pests, the level of the panning sound is the largest, and the pulse signal corresponding to the highest frequency of the detected frequency, that is, As a representative. As a result, among the plurality of insect species, insects most distributed in the room can be firstly eliminated.

On the other hand, when a plurality of frequencies are detected by the frequency detection unit 440, the insect repeller control unit 180 can output a plurality of pulse signals as it is according to the detected plurality of frequencies. In such a case, the insect repeller control unit 180 can sequentially output a plurality of sound wave signals having different frequencies by pulse width modulation. By repeatedly outputting a plurality of sound wave signals having different frequencies sequentially, it is possible to efficiently perform insect pest control within a short time.

7 is a flowchart showing the operation of a pest controller according to an embodiment of the present invention.

Referring to the drawing, first, the type of pest is detected (S710). The pest type detection unit 190 detects the type of insect pest active in the room. For this purpose, the pest type detection unit 190 can detect the insect pest type according to the size of the pest using an infrared sensor or the like, and also detects the insect pendulum sound and analyzes the frequency of the sensed pendulum sound It can also detect the type of pest. On the other hand, it is possible to use the band-pass filter 425 to remove other sound waves in the room when the wing sound is sensed.

Next, the avoidance frequency is determined according to the type of the detected insect (S720). The insect repellent control unit 180 determines the repellent frequency according to the type of insect pest detected. The avoidance frequency may be the avoidance frequency of the ultrasonic band or the male wing sound avoidance frequency using the phenomenon that the female mosquito of the spawning season avoids the male wing sound. The avoidance frequency of the ultrasonic band may be a frequency of approximately 20 kHz to 100 kHz, and the frequency of the male wing sound may be in a range of approximately 200 Hz to 600 Hz. The insect repellent control unit 180 determines the repelling frequency of the corresponding ultrasonic band or the repelling frequency of the corresponding male vane according to the type of insect pest detected.

Next, a sound wave signal of the determined avoided frequency is output (S730). The pest control unit 180 outputs a pulse signal having a pulse width corresponding to the determined avoided frequency and the amplification unit 185 amplifies the level of the pulse signal. Level-amplified pulse signal into the sound wave signal and outputs it. Accordingly, the sound wave signal of the avoided frequency determined by the insect repeller control unit 180 is output to the room. Therefore, it is possible to actively eliminate the pest according to the type of the detected pest.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that the invention may be practiced. It is to be understood, therefore, that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. In addition, the scope of the present invention is indicated by the following claims rather than the detailed description. Also, all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

1 is a perspective view of the air conditioner according to an embodiment of the present invention.

2 is a perspective view illustrating the operation of the air conditioner according to the embodiment of the present invention.

3 is an exploded perspective view of an air conditioner according to an embodiment of the present invention.

4 is a view showing an example in which an output unit of the pest controller is installed.

5 is a simplified internal block diagram of an air conditioner according to an embodiment of the present invention.

6 is a simplified internal block diagram of the pest type detection unit of FIG.

7 is a flowchart showing the operation of a pest controller according to an embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

72 ... indoor unit controller 100 ... insect repellent machine

102 ... Output unit 180 ... Pest control unit

185 ... amplifying unit 190 ... pest type detecting unit

220 ... input unit 230 ... display unit

410 ... wing tone detecting unit 440 ... frequency detecting unit

Claims (12)

 An indoor unit main body having an air inlet for sucking indoor air and an air outlet for discharging air ventilated; And And an insect repellent device attached to the indoor unit body to remove insects, The insect repellent machine, An insect repellent control unit for outputting a pulse signal to generate a repulsive frequency according to the type of insect pest detected; an amplifying unit for amplifying the level of the pulse signal; And an output unit for converting the pulse signal into a sound signal and outputting the sound signal, Wherein the pest type detection unit comprises: A wing tone detecting unit for detecting a wing sound of a pest; And And a frequency detector for detecting a frequency of the sensed wing sound, Detecting a pest type according to the detected frequency,  The pest controller may further include: And outputs a plurality of pulse signals according to a plurality of detected frequencies when a plurality of frequencies are detected by the frequency detection unit of the pest type detection unit. delete The method according to claim 1, Wherein the wing- A microphone for converting a sound wave signal inputted by the vibration element into an electric signal; And And a band-pass filter for performing band-pass filtering to output only an electric signal corresponding to a predetermined frequency band among the converted electric signals. The method of claim 3, Wherein the predetermined frequency band includes: Wherein the air conditioner has a frequency of 200 Hz to 600 Hz. The method according to claim 1, Preferably, (20kHz to 100kHz). delete delete The method according to claim 1, The insect repellent machine, And sequentially outputs a plurality of sound signals corresponding to the plurality of pulse signals repeatedly. The method according to claim 1, The pest controller may further include: And the pulse signal is generated by pulse width modulation according to the detected frequency. The method according to claim 1, And a display unit for displaying a state in which the sound wave signal is being output. The method according to claim 1, The pest controller may further include: Wherein the air conditioner directly receives the operation signal from the input unit or receives the operation signal through the indoor unit control unit. 12. The method of claim 11, The operation signal includes: An indoor unit operation operation signal or a pest control operation signal.

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