JPH08299050A - Silenced drier - Google Patents

Abstract

PURPOSE: To provide a silenced drier capable of reducing the uncomfortableness of a user caused by noises. CONSTITUTION: When a blast fan 102 is driven by a motor, noises are generated, and the noises are detected by a noise source mincrophone 107 and stored in a RAM. A controller 114 controls a speaker 109 based on the noises stored in the RAM in the past fixed period and the interference sound so that the interference sound detected by an interference sound microphone 108 between the control sound generated by the speaker 109 and the noises becomes minimum, and the noises are offset by the control sound.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a muffler dryer used for drying hair or the like.

[0002]

2. Description of the Related Art Conventionally, a dryer is constructed as shown in FIG. That is, a fan 102 that is rotationally driven by a motor (not shown) is installed in the dryer housing 101, and an air flow is generated by this. The air flow passes through the air passage 103 and blows out 105
More outflow. The heater 1 is provided near the outlet 105.
04 is installed and the changeover switch 106 is turned on.
-Controlled by OFF operation. Changeover switch 1
When 06 is ON, the heater 104 heats and hot air flows out from the blowout port 105.

[0003]

However, when the dryer is used, not only the air flow is discharged from the blowout port 105, but also the driving sound of the motor and the blower fan 102.
The noise such as the wind noise is also emitted. Since the dryer is generally used to dry wet hair and the like, the air outlet 105 is near the user's ear during use, and thus the noise is very annoying.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a muffler dryer capable of reducing discomfort caused by noise given to a user.

[0005]

In order to achieve this object, a muffler dryer of the present invention comprises a blower fan for blowing air, a drive means for driving the blower fan, and a drive means for driving the blower fan. Noise detection means for detecting noise generated by the noise detection means, noise storage means for storing noise detected by the noise detection means in the past fixed period, and control sound for canceling the noise detected by the noise detection means Control sound generating means, an interference sound detecting means for detecting an interference sound between the noise generated by the control sound generating means and the noise in the vicinity of the control sound generating means, and the interference sound detecting means. Noise control for controlling the control sound generating means based on the interference sound and the noise stored in the noise storage means so as to minimize the interference sound. And a stage.

The noise control means may be stopped when the interference sound detected by the interference sound detection means exceeds a predetermined value.

Further, the noise control means may be activated when the noise detected by the noise detection means exceeds a predetermined value.

Further, the noise detecting means may be constituted by a vibration detector for detecting the vibration generated by driving the blower fan by the driving means.

[0009]

According to the muffler dryer of the present invention having the above structure, noise is generated by driving the blower fan by the driving means, and the noise is detected by the noise detecting means and stored in the noise storing means. On the other hand, the control sound generated by the control sound generation means detected by the interference sound detection means, and the noise of the past certain period stored in the noise storage means so that the interference sound with the noise is minimized, The noise control means controls the control sound generation means based on the interference sound, and the control sound cancels the noise and reduces the noise of the dryer.

Further, when the interference sound detected by the interference sound detection means diverges and exceeds a predetermined value, the noise control means stops the control sound generation means from generating the control sound. .

Further, when the noise detected by the noise detecting means exceeds a predetermined value which is uncomfortable for the user, the noise control means causes the control sound generating means to generate a control sound.

Further, the vibration detector detects the vibration of the blower fan driven by the driving means, and based on the vibration, the noise control means controls the control sound generating means so as to cancel the vibration.

[0013]

EXAMPLES A muffler dryer 1 embodying the present invention will be described below.
An embodiment will be described with reference to the drawings. However,
The same members as those of the conventional technique are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 1 is a side view of the muffler dryer 1 as seen from the side. That is, the dryer housing 101
A blower fan 102, which is rotationally driven by a motor (not shown) as a driving means, is installed therein, and an air flow is generated by this. The air flow passes through the air passage 103 and flows out from the air outlet 105. Outlet 10
A heater 104 is installed in the vicinity of 5, and the heater 104 is controlled by the ON-OFF operation of the changeover switch 106. When the changeover switch 6 is ON, the heater 104 heats and hot air flows out from the blowout port 105.

A noise source microphone 107 as noise detecting means for detecting noise generated by driving the blower fan 102 by a motor is installed in the blower passage 103 near the blower fan 102. Also, FIG.
In the lower part of the vicinity of the air outlet 105, an interference sound microphone 108 as an interference sound detecting means for detecting an interference sound between the sound generated from the speaker 109 and the noise is installed in the vicinity of a speaker 109 described later. There is. Further, in FIG. 1, a speaker 109 as a control sound generating unit for generating a control sound toward the interference sound microphone 108 is provided at a position facing the interference sound microphone 108 on the upper side of the air passage 103.

Next, the electric circuit 12 of the muffler dryer 1
The configuration of 0 will be described with reference to the block diagram of FIG.

An amplifier 110c for amplifying the detected noise is connected to the noise source microphone 107, and an A / D converter 112b for converting an analog signal into a digital signal is connected to the amplifier 110c. ing. The digital signal converted by the A / D converter 112b is
It is input to the control unit 114.

An amplifier 110b for amplifying the detected interference sound is connected to the interference sound microphone 108, and an A / D converter 112a for converting an analog signal into a digital signal is connected to the amplifier 110b. Has been done.
The digital signal converted by the A / D converter 112a is input to the control unit 114.

The control unit 114 controls the interference sound microphone 1
08 and the RAM 12 described later.
The noise control means controls the speaker 109 based on the noise stored in No. 1 so that the interference sound is minimized. In the control unit 114, the digital signal which minimizes the interference sound obtained by the method described below is D /
Output to the A converter 111. The digital signal is converted into an analog signal by the D / A converter 111,
The analog signal is amplified by the amplifier 110a connected to the D / A converter 111, and generated as a control sound from the speaker 109.

RAM 12 connected to the controller 114
Reference numeral 1 functions as a noise storage unit that stores noise detected by the noise source microphone 107 for a certain past period.

Next, a method of minimizing the interference sound in the control unit 114 will be described in detail.

As shown in FIG. 3, the control unit 114 obtains the minimum signal by a finite impulse response filter (also called FIR filter) which can easily have an arbitrary characteristic. Input signal x (n) 200
Is a detection signal of the noise source microphone 107 in FIG. 1, symbol 201 is a delay element, and symbols 203 are W _0n , W _1n , W _2n , ..., W
_Mn is a variable filter coefficient, symbol 202 is an adder, symbol M is the number of filter taps, and the minimum signal is the output y
(n) 204 is obtained by the following equation.

[0023]

[Equation 1]

The input signal x (n) represents the current input signal, x (n-1) represents the previous input signal, and x (nM)
Represents the input signal M times before, and these input signals are
The value stored in the RAM is used.

The variable filter coefficients W _1n , W _2n , ..., W _Mn are used to follow changes in the transfer characteristics due to disturbances in the noise path and changes in the characteristics of each electric component itself. However, the reason for this is that the value converges to the optimum filter coefficient value.

Next, a method for obtaining the variable filter coefficient will be described with reference to FIG. Here, the reference signal c (n) is generated by passing the noise signal x (n) detected by the noise source microphone 107 of FIG. 1 through the delay filter 302. This reference signal c (n) and interference sound microphone 1
The detection signal e (n) of 08 is input to the adaptive algorithm 301, and the variable filter coefficients W _1n , W _2n , ..., W _Mn are updated using the adaptive formula called LMS algorithm given by the following formula.

[0027]

[Equation 2]

The parameter μ in the above equation is a constant called a step size, which is a parameter that influences the convergence speed and convergence accuracy of the filter coefficient W (n).

That is, in order to pursue the convergence speed, it is sufficient to increase the parameter μ within a converging range, but in consideration of the accuracy after convergence, it is necessary to comprehensively select the parameter μ.

As described above, the estimated variable filter coefficient
W _1n W _2n ... W _Mn are transmitted to A of FIG. 3 to generate the output digital signal y (n) 204.

The coefficient h _{0 of} the delay filter 302 shown in FIG.
h ₁ , ... H _p are obtained in advance. FIG. 5 is a block diagram showing the configuration of noise control used to obtain the coefficient of the delay filter 302. Random noise source 400 can provide a random signal.

The overall operation of FIG. 5 will be described. A random digital signal is generated from the random noise generation source 400, and this drives the speaker 109 via the D / A converter 111 and the amplifier 110a to generate a control sound.
Meanwhile, a random digital signal is input from the random noise source 400 to the controller 114. Adder 40
In 3, the interference sound is picked up by the microphone 108 and the amplifier 110
b, the noise signal via the A / D converter 112a and the control unit 1
The output of 14 and the output are added to obtain the error e (n).

The control unit 114 successively corrects the coefficient of the control unit 114 so as to minimize this error e (n).
Finally, this convergence value is set to the filter coefficient in FIG.
Used as h ₀ , h ₁ , ... H _p .

Next, the operation of the muffler dryer 1 of this embodiment will be described with reference to FIGS.

First, when noise such as wind noise of the motor and blower fan 102 is input by the noise source microphone 107 arranged near the blower fan 102, the noise is amplified by the amplifier 110c, and , A / D
After being converted into a digital signal by the converter 112b, it is input to the control unit 114 and stored in the RAM 121. On the other hand, the interference sound near the opening 105 is input by the interference sound microphone 108 and amplified by the amplifier 110b. Then, it is input to the control unit 114 as a digital signal via the A / D converter 112a.

The control unit 114 controls the noise and the speaker 1 based on the transfer function indicating the characteristics of each electric component from the interference sound microphone 108 to the speaker 109 that generates the control sound.
So that the interference sound with the sound generated from 09 is minimized,
The filter coefficient W _Mn is determined based on the noise signal of the past fixed period stored in the RAM 121.

Further, in the control unit 114, the noise source microphone 1
No. 07 noise signal and the filter coefficient
Based on W _Mn , a digital signal having an amplitude characteristic and a phase characteristic that minimizes the interference sound is generated. The digital signal is converted into an analog signal by the D / A converter 111, and then amplified by the amplifier 110a to generate a control sound for canceling the noise from the speaker 109,
No noise is heard at the user's ear.

As is clear from the above description, the muffler dryer of this embodiment uses the blower fan 10 by the motor.
Noise is generated by driving No. 2, and the noise is detected by the noise source microphone 107 and stored in the RAM 121. On the other hand, based on the interference sound and the control sound generated from the speaker 109 detected by the interference sound microphone 108 and the noise for the past certain period stored in the RAM 121 so as to minimize the interference sound with the noise. Control unit 114
Controls the speaker 109 and the noise is canceled by the control sound, so that the noise of the dryer is reduced,
The discomfort of the user can be reduced.

The present invention is not limited to the embodiments described above in detail, and within the scope of the invention,
Various changes can be made.

For example, in the control section 114, the digital signal value of the interference sound input from the interference sound microphone 108 is
When the predetermined value is exceeded, the D / A converter 111 may not be caused to output the control sound signal that minimizes the interference sound.

In the control unit 114, the digital signal value of the noise detected by the noise source microphone 107 is
When the predetermined value is exceeded, the D / A converter 111 may output a control sound signal that minimizes the interference sound.

Further, although the noise source microphone 107 is used as the noise detecting means for detecting the noise, if the frequency of the noise is known, the frequency signal may be directly input to the control unit 114, The noise source microphone 107 may be omitted.

Further, instead of the noise source microphone 107, a vibration detector capable of detecting a vibration highly correlated with noise may be used. In this case, a vibration detector is installed on the vibration source, especially on the motor. The vibration of the motor or the like detected by the vibration detector is amplified by the amplifier 110c, further converted into a digital signal by the A / D converter 112b, and then input to the control unit 114 and the RAM 12.
1 is stored. On the other hand, in order to minimize the interference sound between the control sound generated by the speaker 109 detected by the interference sound microphone 108 and the noise highly correlated with the vibration,
The control unit 114 controls the speaker 109 based on the vibration for the past certain period stored in the RAM 121 and the interference sound, and the noise is canceled by the control sound.
The noise of the dryer is reduced, and the discomfort of the user can be reduced.

[0044]

As is apparent from the above description, in the muffler dryer of the present invention, noise is generated by driving the blower fan by the driving means, the noise is detected by the noise detecting means, and the noise is stored in the noise storing means. Remember. On the other hand, the control sound generated by the control sound generation means detected by the interference sound detection means, and the noise of the past certain period stored in the noise storage means so that the interference sound with the noise is minimized, The noise control unit controls the control sound generation unit based on the interference sound, and the noise is canceled by the control sound, so that the noise of the dryer is reduced and the discomfort of the user can be reduced. .

When the interference sound detected by the interference sound detection means diverges and exceeds a predetermined value, the noise control means stops the control sound generation means from generating the control sound. Therefore, when the noise cannot be canceled due to a failure of the interference sound detecting unit, the noise detecting unit, or the like, it is possible to prevent the user from feeling more uncomfortable.

Further, when the noise detected by the noise detecting means exceeds a predetermined value which the user feels uncomfortable, the noise control means causes the control sound generating means to generate a control sound. Since the control sound generating means is not always used, the durability of the muffler dryer can be improved.

Further, the vibration detector detects the vibration of the blower fan driven by the driving means, and based on the vibration, the noise control means cancels the noise highly correlated with the vibration, and the control sound generating means. By controlling the noise, the noise having a high correlation with the vibration can be canceled, and since the vibration detecting means having better durability than the noise detecting means is used, it is possible to prolong the service life of the muffling dryer and to prevent external noise. Since the signal such as "No" is not picked up, it is possible to obtain the effect that the sound can be accurately suppressed.

[Brief description of drawings]

FIG. 1 is a side view of a muffler dryer of this embodiment as viewed from the side.

FIG. 2 is a block diagram showing an electric circuit configuration of this embodiment.

FIG. 3 is a block diagram for generating a control sound in the control unit of the present embodiment.

FIG. 4 is a block diagram for obtaining a filter coefficient used when generating a control sound according to the present embodiment.

FIG. 5 is a block diagram showing a configuration of noise control used for obtaining a coefficient of a delay filter.

FIG. 6 is a side view of a conventional dryer seen from the side.

[Explanation of symbols]

 1 Muffler Dryer 101 Dryer Housing 102 Blower Fan 105 Blowout Port 107 Noise Source Microphone 108 Interference Sound Microphone 109 Speaker 114 Controller 121 RAM

Claims (4)

[Claims] 1. A blower fan that blows air, a drive unit that drives the blower fan, a noise detection unit that detects noise generated by driving the blower fan by the drive unit, and the noise detection unit. Noise storage means for storing noise detected in the past for a certain period of time, control sound generation means for generating a control sound for canceling the noise detected by the noise detection means, and control in the vicinity of the control sound generation means Based on the sound generated from the sound generation means, the interference sound detection means for detecting the interference sound with the noise, the interference sound detected by the interference sound detection means, and the noise stored in the noise storage means And a noise control unit that controls the control sound generation unit so that the interference sound is minimized. 2. The noise reduction dryer according to claim 1, wherein when the interference sound detected by the interference sound detecting means exceeds a predetermined value, the noise control means is stopped. . 3. The noise reduction dryer according to claim 1, wherein when the noise detected by the noise detection means exceeds a predetermined value, the noise control means is activated. 4. The muffler dryer according to claim 1, wherein the noise detecting unit is a vibration detector that detects a vibration generated by driving the blower fan by the driving unit.