CN106859943A - Based on the passive type micromotion control method that source of sound drives - Google Patents

Abstract

The present invention relates to a kind of passive type micromotion control method driven based on source of sound, comprise the following steps：The sound source signal of input is received by DSP electronic frequency dividers, and is shown on a user interface in the form of oscillogram；The low pass filter of DSP electronic frequency dividers and the part-frequency point of high-pass filter are respectively provided with based on oscillogram, to obtain the sound source signal of 20Hz to 100Hz frequency ranges and the sound source signal of 100Hz to 20KHz respectively；The sound source signal of 20Hz to 100Hz frequency ranges is transported into source of sound drive-type low frequency vibrator after amplifying in power amplifier, and finally drives human body to realize micromotion, broadcasting in Full-frequency trumpet is transported to after the sound source signal of 100Hz to 20KHz is amplified through power amplifier.The present invention realized to the control of the passive type of human body micromotion, solving the problems such as be excessively limited in the prior art place, weather and personal health, and micromotion intensity controlled.

Description

Based on the passive type micromotion control method that source of sound drives

Technical field

The present invention relates to micromotion control technology field, and in particular to a kind of passive type micromotion control driven based on source of sound Method processed.

Background technology

Micromotion be it is a kind of can be used to alleviating battle-weary motion, current micromotion is mostly active, is for example gone to work Race's form such as " punishing to stand still ", " doing exercises ", taijiquan, the square dance in old man morning etc. are taken exercises, and this form can substantially not Using auxiliary equipment, but the consciousness of individual is excessively relied on, and is limited to the factors such as place, weather, personal health, And it is difficult to control to its intensity.

The content of the invention

It is an object of the present invention to a kind of passive type micromotion control method driven based on source of sound is proposed, by passive Formula control auxiliary human body carries out micromotion, solves the problems, such as excessively to be limited to the factors such as place, weather and personal health, together When cause the intensity controlled of micromotion.

In order to realize the above object a kind of passive type micromotion control method driven based on source of sound proposed by the present invention, Mainly include the following steps that：

A, the sound source signal by the reception input of DSP electronic frequency dividers, and carried out on a user interface in the form of oscillogram Display；

The part-frequency point of B, the low pass filter that DSP electronic frequency dividers are respectively provided with based on oscillogram and high-pass filter, with The sound source signal of 20Hz to 100Hz frequency ranges and the sound source signal of 100Hz to 20KHz are obtained respectively；

C, by the sound source signal of 20Hz to 100Hz frequency ranges through power amplifier amplify after transport to source of sound drive-type low-frequency vibration Device, is converted into vibration mechanical energy, drives human body to realize micromotion by the support drive connection with direct body contact, will The sound source signal of 100Hz to 20KHz is played during Full-frequency trumpet is transported to after amplifying through power amplifier.

In present invention further optimization scheme, the DSP electronic frequency dividers are double using 24 decibels/octave of quadravalence To transposition circuit, the sound source signal of the sound source signal of 20Hz to 100Hz frequency ranges and 100Hz to 20KHz is controlled in best effort Frequency range, and frequency range is without mutually covering.

In present invention further optimization scheme, the step C also included before micromotion is realized：By ultralow frequency source of sound The acoustic energy of signal is overlapped, and the directional property of ultralow frequency sound source signal is controlled with ultralow array way.

In present invention further optimization scheme, the step C also included before micromotion is realized：To sound source signal Triggering, release time and loudness, noise carry out performance balance control, and carry out dynamic range by setting DSP electronic frequency dividers Control.

In present invention further optimization scheme, the source of sound drive-type low frequency vibrator drives with human body support and connects Connect, micromotion is carried out by the micromotion drive human body support realized in step C.The human body support include mat, The object of chair etc. and direct body contact.

In present invention further optimization scheme, the sound source signal is specially music signal.

Beneficial effect：The passive type micromotion control method driven based on source of sound proposed by the present invention, can be driven source of sound The support drive connection with direct body contact such as formula low frequency vibrator and mat, chair, support drives in source of sound The moving body of driving lower band of formula low frequency vibrator carries out micromotion, so as to realize the passive type control to human body micromotion, solves The problems such as being in the prior art excessively limited to place, weather and personal health, and micromotion intensity controlled.

Brief description of the drawings

Fig. 1 is a kind of passive type micromotion control method schematic flow sheet driven based on source of sound that embodiment is proposed.

Specific embodiment

For the ease of it will be appreciated by those skilled in the art that being carried out further to the present invention below in conjunction with accompanying drawing and embodiment Description.

The frequency range of human auditory is that 20Hz is 20KHz.The present inventor passes through to study discovery, within the range The sound source signal of different frequency range has following different-effect for people's sense of hearing：30Hz~60Hz is more dull, if without suitable Big loudness, human ear is hardly noticeable that；60Hz~100Hz is heavier, and 80Hz nearby can produce extremely strong " double infection " effect, loudness It is very high, and comfortable sensation will not be given people, strong impulse effect can be given on the contrary；100Hz~200Hz is more plentiful； 200Hz~500Hz dynamics easily causes droning unhappy psychology；500Hz~1KHz is brighter and clearer, if 800Hz is nearby lifted 10dB, can substantially produce a kind of noisy sense and narrow sense；1KHz~2KHz is brighter；2KHz~4KHz is clearer and more melodious, but 3400Hz easily causes auditory fatigue；4KHz~8KHz is more sharp；6800Hz is formed and screamed, sharp keen sensation；8KHz~16KHz It is clear more than tone sense after 7.5KHz thorough very thin than relatively fine.

Based on different auditory effects, the present embodiment has split two i.e. 20Hz to 100Hz and 100Hz to 20KHz of frequency range, And using 20Hz to 100Hz as the frequency range for realizing micromotion.

Fig. 1 is specifically referred to, a kind of passive type micromotion control method driven based on source of sound that the present embodiment is proposed is adopted Sound source signal can be specifically music signal, and it comprises the following steps S100 to S300：

S100, the sound source signal by the reception input of DSP electronic frequency dividers, and entered on a user interface in the form of oscillogram Row display；

The part-frequency point of S200, the low pass filter that DSP electronic frequency dividers are respectively provided with based on oscillogram and high-pass filter, To obtain the sound source signal of 20Hz to 100Hz frequency ranges and the sound source signal of 100Hz to 20KHz respectively；

S300, by the sound source signal of 20Hz to 100Hz frequency ranges through power amplifier amplify after transport to source of sound drive-type low frequency Vibrator, is converted into vibration mechanical energy, drives human body to realize micromotion by the support drive connection with direct body contact, Broadcasting in Full-frequency trumpet is transported to after the sound source signal of 100Hz to 20KHz is amplified through power amplifier.

In a particular application, the DSP electronic frequency dividers use the quadravalence bidirectional crossed circuit of 24 decibels/octave, The sound source signal of the sound source signal of 20Hz to 100Hz frequency ranges and 100Hz to 20KHz is controlled in best effort frequency range, and frequency Scope is without mutually covering.

In preferred scheme, the step S300 also included before micromotion is realized：By the acoustic energy of ultralow frequency sound source signal It is overlapped, and the directional property of ultralow frequency sound source signal is controlled with ultralow array way.

In further preferred scheme, the step S300 also included before micromotion is realized：Triggering to sound source signal, Release time and loudness, noise carry out performance balance control, and carry out dynamic range control by setting DSP electronic frequency dividers.

The passive type micromotion control method driven based on source of sound that the present embodiment is proposed, can be shaken source of sound drive-type low frequency The support drive connection with direct body contact such as dynamic device and mat, chair, vibration mechanical energy is applied on human body, Human body limb, muscle, fine vascular, channels and collaterals, skin etc. can be driven, trickle, beneficial, soft, the vibration of health occurs, from And promote human metabolism and blood circulation.

Embodiment described above only expresses several embodiments of the invention, and its description is more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Shield scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (5)

1. it is a kind of based on source of sound drive passive type micromotion control method, it is characterised in that comprise the following steps：

A, the sound source signal by the reception input of DSP electronic frequency dividers, and shown on a user interface in the form of oscillogram；

The part-frequency point of B, the low pass filter that DSP electronic frequency dividers are respectively provided with based on oscillogram and high-pass filter, with respectively Obtain the sound source signal of 20Hz to 100Hz frequency ranges and the sound source signal of 100Hz to 20KHz；

C, by the sound source signal of 20Hz to 100Hz frequency ranges through power amplifier amplify after transport to source of sound drive-type low frequency vibrator, Vibration mechanical energy is converted into, drives human body to realize micromotion by the support drive connection with direct body contact, by 100Hz To 20KHz sound source signal amplify through power amplifier after transport in Full-frequency trumpet and play.

2. it is according to claim 1 based on source of sound drive passive type micromotion control method, it is characterised in that it is described DSP electronic frequency dividers use the quadravalence bidirectional crossed circuit of 24 decibels/octave, and the source of sound of 20Hz to 100Hz frequency ranges is believed Number and 100Hz to 20KHz sound source signal control in best effort frequency range, and frequency range is without mutually covering.

3. it is according to claim 2 based on source of sound drive passive type micromotion control method, it is characterised in that the step Rapid C also included before micromotion is realized：The acoustic energy of ultralow frequency sound source signal is overlapped, and is controlled with ultralow array way The directional property of ultralow frequency sound source signal.

4. it is according to claim 3 based on source of sound drive passive type micromotion control method, it is characterised in that the step Rapid C also included before micromotion is realized：Triggering, release time and loudness, noise to sound source signal carry out performance balance control System, and carry out dynamic range control by setting DSP electronic frequency dividers.

5. it is according to claim 4 based on source of sound drive passive type micromotion control method, it is characterised in that the sound Source signal is specially music signal.