JPH09274489A - Noise suppressing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the noise suppressing device in which no limitation is imposed on the environmental conditons when using the device in the environment to reduce the noise caused by the cooling fan that is provided within an electronic equipment. SOLUTION: A cooling fan 2 is provided in the electronic equipment for cooling purposes. In order to reduce cooling fan noise 5, a ventilation duct 3 is mounted on the cooling fan discharge port and a means is provided to electrically compensate for the vibration values of the fan 2 detected by a sensor 4. Moreover, the device is provided with an adaptive filter 10 which generates cancelling sounds 7, that are outputted by a speaker 6 and reduce the noise 5 by interference. Furthermore, a characteristics updating means of the filter 10 and a sound collecting means, which monitors the interference result of the noise 5 and the sounds 7, are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a noise reduction device for reducing noise generated from a cooling fan in an electronic device equipped with a cooling fan for cooling the inside of a main body.

[0002]

2. Description of the Related Art Conventionally, in an electronic device equipped with a cooling fan for cooling the inside of a main body, noise is generated by changing the shape of the cooling fan and the peripheral portion of the cooling fan in order to reduce the noise generated from the cooling fan. Measures have been taken such as suppressing or reducing the output of the cooling fan by limiting the use environment condition to reduce the generation of noise.

[0003]

However, in the above-mentioned conventional example, the method of lowering the output of the cooling fan naturally causes a temperature rise in the main body due to a reduction in exhaust efficiency, and therefore is not adversely affected by the temperature rise. ,
It is just an individual measure only when the temperature of the place where the electric device is used is low. Further, there is a limit to the effect of the noise reduction method by changing the shape of the cooling fan and the peripheral portion of the cooling fan. Considering the necessity of further noise reduction in recent years, these noise reduction methods are not enough. .

An object of the present invention is to solve the above-mentioned drawbacks, and in an electronic device having a cooling fan for cooling the inside of the main body, it is not necessary to limit the use environment when reducing the noise due to the cooling fan. It is intended to provide a reduction device.

Another object of the present invention is to provide a noise reduction device which stops the noise reduction operation outside a preset time such as midnight when reducing the noise generated by an electronic device.

[0006]

In order to achieve the above object, the present invention provides an exhaust duct, a means for detecting vibration, and a detected vibration value in an electronic device having a cooling fan for cooling the inside of the main body. A means for electrically correcting the noise, an adaptive filter for generating a cancel sound for reducing the cooling fan noise by interference, a filter characteristic updating means,
It has a speaker for outputting a cancel sound and a sound collecting means for monitoring the interference result of the cooling fan noise and the cancel sound.

Further, the present invention provides means for detecting a signal highly correlated with noise generated by an electronic device, means for electrically correcting the detected signal, and noise generated by the electronic device due to interference. An adaptive filter for generating a canceling sound to be reduced, a filter characteristic updating means, a speaker for outputting the canceling sound, a sound collecting means for monitoring a result of interference between the noise generated by the electronic device and the canceling sound, a timer,
And a noise reduction operation control procedure.

[0008]

Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) FIG. 1 shows a facsimile apparatus as an electronic apparatus according to the present invention. Reference numeral 1 denotes a facsimile apparatus main body, and a side portion of the facsimile apparatus main body 1 is provided with a cooling fan 2 which will be described later. An exhaust duct 3 is provided.

FIG. 2 shows a first embodiment of the present invention.
2 shows a cooling fan noise reduction device provided in the facsimile machine.

In FIG. 2, 1 and 3 are the facsimile apparatus main body and the exhaust duct shown in FIG. 1, respectively. Four
Is a vibration sensor as a means for detecting the vibration of the cooling fan 2. Cooling fan noise 5 is generated from the cooling fan 2, and the speaker 6 provided in the exhaust duct 3 outputs a cancel sound 7 for reducing the cooling fan noise 5 due to interference to the exhaust duct 2. The residual noise 8 is generated as a result of the interference between the cooling fan noise 5 and the cancel sound 7.
A microphone 9 as a sound collecting means for monitoring the residual noise 8 is provided in the exhaust duct 3 below the speaker 6. Reference numeral 10 is an adaptive filter that generates a cancel sound 7 output from the speaker 6 based on the output signal of the vibration sensor 4, and 11 is an electroacoustic system between the speaker 6 and the microphone 9 based on the output signal of the vibration sensor 4. Is an FIR filter as a means for performing the correction, and an adaptive filter coefficient updating unit 12 is a means for updating the characteristic of the adaptive filter 10 based on the detection value of the microphone 9 and the output value of the FIR filter 11.

Next, the operation of the above configuration will be described.

First, the exhaust duct 3 forcibly directs the cooling fan noise 5 having a noise component correlated with the vibration of the cooling fan 2 generated by the operation of the cooling fan 2 installed in the facsimile apparatus main body 1. To proceed. Here, the cooling fan noise 5 becomes a one-dimensional traveling wave in the exhaust duct 3. Next, the vibration of the cooling fan 2 is detected by the vibration sensor 4, and based on the output of the vibration sensor 4, the adaptive filter 10 has the same amplitude as the noise component correlated with the vibration of the cooling fan 2 in the cooling fan noise 5, A cancel sound 7 having an opposite phase is generated and output from the speaker 6 into the exhaust duct 3. Output cancellation sound 7
Interferes with the cooling fan noise 5, and as a result, the cooling fan noise 5 is reduced. With respect to the interference performed at this time, the influence of the phase shift is smaller in the sound wave (600 HZ) having a lower frequency, and thus it is effective in reducing the noise component correlated with the vibration of the cooling fan 2 having a relatively low frequency. Become. And
The residual noise 8 generated as a result of this interference is constantly monitored by the microphone 9 and input to the adaptive filter coefficient updating unit 12. The filter coefficient updating unit 12 receives a signal obtained by correcting the electroacoustic system between the speaker 6 and the microphone 9 by the FIR filter 11 based on the output signal of the vibration sensor 4, and the adaptive filter coefficient updating unit 12 Then, the filter coefficient of the adaptive filter 10 is updated from time to time to minimize the residual noise 8 based on the detection value of the microphone 9 and the output value of the FIR filter 11.

As a result, the cooling fan noise 5 can be effectively reduced without limiting the use environment.

Here, FIG. 3 is a cooling fan in which the shape of the exhaust duct 3 shown in FIG. 2 is changed, and the exhaust duct 3 has a curved surface-shaped portion 3a with R on the inner wall against which the exhaust flow of the cooling fan 2 collides. It shows a noise reduction device.

Exhaust duct 3 having this curved portion 3a
According to the cooling fan noise reduction device including the above, the turbulent noise 13 generated in a spiral shape in the vicinity of the curved shape portion 3a when the exhaust flow of the cooling fan 2 collides with the curved shape portion 3a can be suppressed. As a result, the cooling fan noise 5 and the cancellation noise 7
The turbulent noise 13 is mixed in when the interference result is monitored by the microphone 9, the S / N ratio of the interference result does not deteriorate, and the interference result can be monitored with higher accuracy. become. As a result, the adaptive filter coefficient is updated more optimally, and the cooling fan noise 5 can be effectively reduced.

FIG. 4 shows the microphone 9 shown in FIG.
Shows a cooling fan noise reduction device having unidirectionality.

According to the cooling fan noise reduction device provided with the microphone 9 having the unidirectional characteristic, the exhaust flow of the cooling fan 2 collides with the inner wall of the microphone 9 having the unidirectional characteristic, so that the microphone 9 has a directional characteristic in the vicinity thereof. It is possible to avoid the risk of detecting the turbulent noise 13 generated in a spiral shape.
As a result, when the interference result of the cooling fan noise 5 and the cancellation sound 7 is monitored by the microphone 9, the turbulent noise 1
When 3 is mixed, the S / N ratio of the interference result is not deteriorated, and the interference result can be monitored with higher accuracy. As a result, the adaptive filter coefficient is updated more optimally, and the effect of reducing the cooling fan noise 5 increases.

(Embodiment 2) A second embodiment of the present invention is shown in FIG.
In the second embodiment, since the cooling fan noise reduction operation is always performed during the operation of the facsimile apparatus, the noise listener is present around midnight when the facsimile apparatus is used in the office. If no noise reduction is required, the noise reduction operation is performed. Therefore, the noise reduction operation is performed except the time set by using the timer.

FIG. 5 shows a cooling fan noise reduction device according to a second embodiment of the present invention. In FIG.
Reference numeral 14 is configured in the same manner as in the first embodiment except that a timer in which a noise reduction operation time is set by the user and a switch unit 15 for stopping the noise reduction operation by a signal from the timer 14 are used. There is.

Next, the operation of the above configuration will be described.

First, the user is in a time zone (for example, from 8:00 to 2) when a person is present in the office where the facsimile apparatus is used.
4 o'clock) is set by the timer 14.

The switch section 15 performs the noise reduction operation of the cooling fan noise reduction device in response to the signal from the timer 14. This noise reduction operation is performed as follows within the time set by the timer 14.

First, the exhaust duct 3 forcibly directs the cooling fan noise 5 having a noise component correlated with the vibration of the cooling fan 2 generated by the operation of the cooling fan 2 installed in the facsimile apparatus main body 1. To proceed. Here, the cooling fan noise 5 becomes a one-dimensional traveling wave in the exhaust duct 3. Next, the vibration of the cooling fan 2 is detected by the vibration sensor 4, and based on the output of the vibration sensor 4, the adaptive filter 10 has the same amplitude as the noise component correlated with the vibration of the cooling fan 2 in the cooling fan noise 5, A cancel sound 7 having an opposite phase is generated and output from the speaker 6 into the exhaust duct 3. Output cancellation sound 7
Interferes with the cooling fan noise 5, and as a result, the cooling fan noise 5 is reduced. With respect to the interference performed at this time, the influence of the phase shift is smaller in the sound wave (600 HZ) having a lower frequency, and thus it is effective in reducing the noise component correlated with the vibration of the cooling fan 2 having a relatively low frequency. Become. And
The residual noise 8 generated as a result of this interference is constantly monitored by the microphone 9 and input to the adaptive filter coefficient updating unit 12. The filter coefficient updating unit 12 receives a signal obtained by correcting the electroacoustic system between the speaker 6 and the microphone 9 by the FIR filter 11 based on the output signal of the vibration sensor 4, and the adaptive filter coefficient updating unit 12 Then, the filter coefficient of the adaptive filter 10 is updated from time to time to minimize the residual noise 8 based on the detection value of the microphone 9 and the output value of the FIR filter 11.

Next, outside the time set by the user,
The switch unit 15 stops the noise reduction operation of the cooling fan noise reduction device in response to a signal from the timer 14.

As a result, the above noise reduction operation is not performed outside the time set by the user.

As described above, according to the second embodiment, when no noise listener is present around midnight and the noise reduction is not required, the noise reduction operation is stopped, thereby wasting power. It can prevent and extend the life of the noise reduction device.

(Embodiment 3) A third embodiment of the present invention is shown in FIG.
This will be described below.

FIG. 6 shows a cooling fan noise reduction device according to a third embodiment of the present invention. This device has a rotation pulse sensor for detecting the rotation speed of the cooling fan as the vibration sensor 4, and a rotation speed sensor for detecting the rotation speed. The configuration is similar to that of the first embodiment except that the oscillator 14 outputs a periodic wave synchronized with the number of fan blades and the cooling fan noise 5 is reduced by interference based on the output of the oscillator 14. ing.

Next, the operation of the above configuration will be described.

First, the exhaust duct 3 produces a cooling fan noise 5 having a frequency component of (fan speed) × (number of fan blades) generated by the operation of the cooling fan 2 installed in the facsimile apparatus main body 1. Force it to move downward. Here, the cooling fan noise 5 becomes a one-dimensional traveling wave in the exhaust duct 3. Next, the rotation speed of the cooling fan 2 is detected by the rotation pulse sensor 4A, and the oscillator 14 is synchronized with the frequency of (fan rotation speed) × (fan blade number) based on the output of the rotation pulse sensor 4A. Outputs a periodic wave. Based on this output, in the adaptive filter 10, in the cooling fan noise 5 ((fan rotation speed)) ×
A cancel sound 7 having the same amplitude and opposite phase as the frequency component of (the number of fan blades) is generated and output from the speaker 6 into the exhaust duct 3. The output cancellation sound 7 interferes with the cooling fan noise 5, and as a result, the cooling fan noise 5 is reduced. With respect to the interference performed at this time, the influence of the phase shift is smaller in the sound wave (600 HZ) having a lower frequency, and therefore, in the cooling fan 2 having a relatively low frequency, (the rotation speed of the fan) × (the number of blades of the fan) ) Is effective in reducing the frequency component. The residual noise 8 generated as a result of this interference is constantly monitored by the microphone 9,
It is input to the adaptive filter coefficient updating unit 12. Based on the output signal of the vibration sensor 4, the filter coefficient updating unit 12 uses the FIR filter 11 to make a speaker 6 and a microphone 9
The signal with the correction of the electro-acoustic system between is input,
The adaptive filter coefficient updating unit 12 calculates the residual noise 8 based on the detected value of the microphone 9 and the output value of the FIR filter 11.
The filter coefficient of the adaptive filter 10 is updated at any time so as to minimize.

Here, FIG. 7 shows a cooling fan noise reduction device in which the exhaust duct 3 shown in FIG. 6 has a curved surface shaped portion 3a with an R on the inner wall against which the exhaust flow of the cooling fan 2 collides. is there.

Exhaust duct 3 having this curved portion 3a
According to the cooling fan noise reduction device including the above, the turbulent noise 13 generated in a spiral shape in the vicinity of the curved shape portion 3a when the exhaust flow of the cooling fan 2 collides with the curved shape portion 3a can be suppressed. As a result, the cooling fan noise 5 and the cancellation noise 7
The turbulent noise 13 is mixed in when the interference result is monitored by the microphone 9, the S / N ratio of the interference result does not deteriorate, and the interference result can be monitored with higher accuracy. become. As a result, the adaptive filter coefficient is updated more optimally, and the cooling fan noise 5 can be effectively reduced.

Here, FIG. 8 shows the microphone 9 shown in FIG.
Shows a cooling fan noise reduction device having unidirectionality.

According to the cooling fan noise reduction device provided with the microphone 9 having the unidirectional characteristic, the exhaust flow of the cooling fan 2 collides with the inner wall of the microphone 9 having the unidirectional characteristic so that the microphone 9 has a directional characteristic in the vicinity thereof. It is possible to avoid the risk of detecting the turbulent noise 13 generated in a spiral shape.
As a result, when the interference result of the cooling fan noise 5 and the cancellation sound 7 is monitored by the microphone 9, the turbulent noise 1
When 3 is mixed, the S / N ratio of the interference result is not deteriorated, and the interference result can be monitored with higher accuracy. As a result, the adaptive filter coefficient is updated more optimally, and the effect of reducing the cooling fan noise 5 increases.

Further, according to the present invention, when no noise listener is present around midnight and the noise reduction is not required, the noise reduction operation is stopped to prevent wasteful consumption of electric power and to reduce the noise reduction device. The life can be extended.

Although the speaker 6 and the microphone 9 are provided in the exhaust duct 3 in the above embodiment, the speaker 6 and the microphone 9 may be provided on the facsimile apparatus main body 1 side. This is convenient if the exhaust duct 3 is provided in the main body 1 of the facsimile device during assembly so that the facsimile device main body 1 can immediately function as a noise reduction device.

[0038]

As described above in detail, according to the present invention, in an electronic device equipped with a cooling fan for cooling the inside of the main body,
In order to reduce the cooling fan noise, an exhaust duct is attached to the cooling fan exhaust port, and a cancel sound that reduces the cooling fan noise is output due to the speaker interference in the exhaust duct. Without limitation, it is possible to effectively reduce the noise component having a relatively low frequency, which is less affected by the phase difference between the cancel sound and the cooling fan noise.

Further, by providing a curved surface portion with an R to the inner wall of the exhaust duct, the exhaust flow of the cooling fan collides with the inner wall to suppress the turbulent noise generated in a vortex in the vicinity thereof. When monitoring the interference result of the cooling fan noise and the cancel sound with the microphone, it is possible to prevent the S / N ratio of the interference result from being deteriorated due to the mixing of the turbulent noise, and the interference result with higher accuracy. As a result, the adaptive filter coefficient is updated more optimally, and the cooling fan noise reduction effect is increased.

Further, by using a microphone having unidirectionality and not directing it toward the point where the exhaust flow of the cooling fan collides with the inner wall, the exhaust flow of the cooling fan collides with the inner wall. The risk of detecting turbulent noise generated in the vicinity of the vortex is avoided, which allows turbulent noise to be mixed in when monitoring the interference result of the cooling fan noise and the cancel sound with a microphone. As a result, it is possible to prevent the S / N ratio of the interference result from deteriorating and to monitor the interference result with higher accuracy. As a result, the adaptive filter coefficient is updated more optimally and the cooling fan noise is reduced. Will increase.

[Brief description of drawings]

FIG. 1 is a perspective view showing a facsimile apparatus according to the present invention.

FIG. 2 is a configuration diagram of a cooling fan noise reduction device provided in the facsimile apparatus of FIG. 1 according to the first embodiment of the present invention.

FIG. 3 is a diagram showing the exhaust duct in FIG. 2 as an exhaust duct having a curved surface portion.

FIG. 4 is a diagram in which the microphone of FIG. 1 is a unidirectional microphone.

FIG. 5 is a configuration diagram of a cooling fan noise reduction device provided in the facsimile apparatus of FIG. 1 according to a second embodiment of the present invention.

FIG. 6 is a configuration diagram of a cooling fan noise reduction device provided in the facsimile apparatus of FIG. 1 according to a third embodiment of the present invention.

7 is a diagram showing the exhaust duct in FIG. 6 as an exhaust duct having a curved surface portion.

FIG. 8 is a diagram in which the microphone of FIG. 6 is a unidirectional microphone.

[Explanation of symbols]

 1 Facsimile device main body 2 Cooling fan 3 Exhaust duct 3a Curved portion of exhaust duct 3 4 Vibration sensor 4A Rotation pulse sensor 5 Cooling fan noise 6 Speaker 7 Cancel sound 8 Residual noise 9 Microphone 9A Directional microphone 10 Adaptive filter 11 FIR filter 12 Filter coefficient update unit 13 Turbulent noise 14 Timer 15 Switch unit 16 Oscillator

Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H03H 21/00 G10K 11/16 B

Claims (10)

[Claims] 1. In an electronic device having a cooling fan for cooling the inside of the main body, an exhaust duct of the cooling fan, a speaker for outputting a cancel sound for reducing noise of the cooling fan of the cooling fan by interference, and the cooling fan. Sound collecting means for monitoring the interference result of noise and the cancel sound, an adaptive filter for generating the cancel sound, means for detecting the vibration of the cooling fan, and the vibration value detected by the means. Means for electrically correcting between the speaker and the sound collecting means, and filter characteristic updating means for updating the characteristics of the adaptive filter based on the detected value of the sound collecting means and the output value of the correcting means A noise reduction device comprising: 2. The noise reduction device according to claim 1, wherein the exhaust duct has a curved shape. 3. The noise reduction device according to claim 1, wherein the sound collecting unit has a unidirectional characteristic. 4. In a facsimile apparatus provided with a cooling fan for cooling the inside of the main body, a cancel sound is generated in order to reduce noise due to interference between the exhaust fan of the cooling fan and the cooling fan generated by the operation of the cooling fan. A speaker for outputting inside, a microphone for monitoring residual noise as a result of interference between the cancel sound output from the speaker and the cooling fan noise in the exhaust duct, and a vibration sensor for detecting vibration of the cooling fan. An adaptive filter for generating a cancel sound output from the speaker based on the output of the vibration sensor, and an FIR filter for electrically correcting the speaker and the microphone based on the output of the detection means And based on the detected value of the microphone and the output value of the FIR filter, A noise reduction device comprising: an adaptive filter coefficient updating unit that updates characteristics. 5. The adaptive filter generates a canceling sound having the same amplitude and opposite phase as a noise component correlated with the vibration of the cooling fan in the cooling fan noise based on the output of the vibration sensor. The noise reduction device according to claim 4. 6. A speaker for outputting a cancel sound for reducing noise generated by an electronic device by interference, and a sound collecting means for monitoring a result of interference between the cancel sound output from the speaker and the noise generated by the electronic device. A detection means for detecting a signal having a high correlation with noise generated by the electronic device; an adaptive filter for generating a cancel sound output from the speaker based on the output of the detection means; and an output of the detection means. Correction means for electrically correcting between the speaker and the sound collecting means based on the above, and the characteristic of the adaptive filter is updated based on the detected value of the sound collecting means and the output value of the correcting means. And a filter characteristic updating means for setting a noise reduction operation time, and a switch section for performing the noise reduction operation for the time set by the timer. Sound reduction device. 7. An electronic device having a cooling fan for cooling the inside of the main body, an exhaust duct of the cooling fan, a speaker for outputting a cancel sound for reducing the cooling fan noise of the cooling fan by interference, and the speaker. Sound collecting means for monitoring the interference result between the output of the canceling sound and the cooling fan noise, detecting means for detecting the rotation speed of the cooling fan, and outputting a periodic wave according to the rotation speed detected by the detecting means. Oscillator, an adaptive filter for generating a cancellation sound output from the speaker based on the output of the oscillator, and an electrical filter between the speaker and the sound collecting means based on the output of the detection means. And a filter characteristic updating unit for updating the characteristic of the adaptive filter based on the detected value of the sound collecting unit and the output value of the correcting unit. A noise reduction device characterized in that 8. The noise reduction according to claim 7, wherein the detection means is a rotation pulse sensor, and the oscillator outputs a periodic wave in synchronization with the detected number of rotations times the number of blades of the cooling fan. apparatus. 9. The noise reduction device according to claim 7, wherein the exhaust duct has a curved shape. 10. The noise reduction device according to claim 7, wherein the sound collecting unit has a unidirectional characteristic.