JP2000070855A - Shaker and mechanical vibration sensing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shaker which is very miniature, lightweight and inexpensive and also has long life and to provide a bodily sensation type mechanical vibration sensing device to which the shaker is applied. SOLUTION: A hollow coil 12 is coaxially held in the inside of a cylindrical outer case 16. Two pieces of magnets 13, 13 sandwich a spacer 15 consisting of a magnetic substance in the insider of the coil 12 and the directions of magnetic poles are mutually opposed, stuck and unified. In this state, both end parts are vibratingly fitted to the outer case 16 through compliances 14, 14. The mechanical vibration sensing device consists of a movable magnet type shaker 1', an amplifier 2 supplying an electric signal and a sensitive means 3 of mechanical vibration information of a chair and a health instrument or the like in which the shaker 1' is installed in a part 31 coming into contact with the human body in order to transfer mechanical vibration to the human body 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audiovisual device, a stereophonic device, a portable telephone, an information notifying device, a game machine, a health appliance, and the like. Exciter and bodily sensation type mechanical vibration sensing device that senses sound effects, notification signals, etc. to increase the power and sense of presence, transmit some information without sound, and give a useful physiological action to the human body It is about.

[0002]

2. Description of the Related Art Conventionally, in order to obtain a sufficient ultra-low tone in an AV device and a stereo reproducing device, it is not sufficient to simply listen to a large volume of ultra-low sound by hearing. The ultra-low sound in the band is caused by the mechanical vibration of surrounding objects that come into contact with the human body, such as a floorboard, caused by the effect of the sound pressure of the reproduced sound waves, in addition to the stereo reproduction sound normally reproduced from speakers or headphones. It is known that sensing with is effective. As an example of a bass reproduction device based on such a technical idea, a vibrator is provided on an object such as a chair that directly contacts the body, and mechanical vibration generated by applying a low-range audio signal to the vibrator is generated. Means for transmitting a feeling of ultra-low sound to the body have been put to practical use. Furthermore,
Not only in the audio field but also in mobile phones, mechanical vibrations are used instead of sound as notification transmission means without sounding.

[0003]

In the conventional vibrator which is a basic element used in each of the above-mentioned applications, the vibrator used in the bass reproduction apparatus employs a conductive structure. There is a problem in that it is often difficult to install because it is very large and expensive. In addition, an eccentric motor is used for a vibrator such as a mobile phone in order to reduce the size and weight. However, since the eccentric motor includes precise parts such as a commutator and a brush, it is expensive and has a long life. There is a disadvantage that it cannot be expected, and furthermore, there is a problem to be solved that the amplitude and frequency of the converted mechanical vibration cannot be controlled simultaneously and arbitrarily.

[0004] Therefore, an object of the present invention is to solve the problems of the conventional information transmission and notification means of the bodily sensation system utilizing mechanical vibration, and to provide an AV and stereo device, a mobile phone, and a game. A vibrator with a simple structure that is easily installed on a machine, health equipment, etc., and allows the body to sense mechanical vibrations including information such as amplitude and frequency, and the above-described AV device using the vibrator. And a mechanical vibration sensing device of the sensation type.

[0005]

Means for Solving the Problems The structure of the present invention adopted to achieve the object will be described with reference to the reference numerals used in the embodiments. The vibrator according to the first invention is a movable magnet type vibrator. An exciter 1 comprising an electromechanical vibration converter, wherein a hollow coil 12 is coaxially housed in a cylindrical outer case 16, and two magnets 13,
In a state where the magnetic poles 13 are fixed and integrated with the directions of the magnetic poles facing each other with the spacer 15 interposed therebetween, both ends are oscillably attached to the outer case 16 via the compliances 14 and 14.

The mechanical vibration sensing device of the sensation type according to the second invention has an amplifier 2 for supplying an electric signal and a hollow coil 12 housed coaxially in a cylindrical outer case 16. In a state where two magnets 13 and 13 are fixedly integrated with their magnetic poles facing each other across a spacer 15 made of a magnetic material, both ends are interposed via the compliances 14 and 14 in the outer case. 16, a vibrator 1 ′ that is attached so as to be able to vibrate, and the vibrator 1 ′
And a means 3 for sensing information by mechanical vibration provided at a contact portion 31 with the human body. The vibrator 1 reacts with the vibration of the internal magnets 13, 13 by the reaction of the cylindrical outer case 1.
6 is configured to generate mechanical vibration in the vertical axis direction and to transmit the mechanical vibration to the human body from a contact portion 11 provided in a part of the outer case 16.

The mechanical vibration sensing device according to the third aspect of the present invention includes an amplifier 2 for supplying an electric signal having fluctuation, and a hollow coil 12 housed coaxially in a cylindrical outer case 16. And two magnets 13, 13
Are fixedly integrated with the magnetic poles facing each other across a spacer 15 made of a magnetic material, and both ends of the outer case 16 are interposed via the compliances 14, 14.
And a water tank 3j having a structure mounted so as to be able to vibrate and convert a fluctuating electric signal from the amplifier 2 into a fluctuating mechanical vibration, and the vibrator 1 is arranged inside the water tank 3j. Then, a mechanical vibration in the longitudinal direction is generated in the cylindrical outer case 16 by a reaction caused by the vibration of the internal magnets 13, 13, and the water storage tank 3 is generated by the generated mechanical vibration.
The structure is such that water 31j in j is stirred at the molecular level.

[0008]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the configuration of the present invention; FIG. 2 is a block diagram showing the basic structure of the present invention; First
As shown in FIG. 1, the vibrator 1 of the invention has two magnets 13,
13 is fixedly integrated with the magnetic poles facing each other with a spacer 15 made of a magnetic material interposed therebetween, and inside the hollow coil 12 housed coaxially inside the cylindrical outer case 16. Similarly, both ends are accommodated in the outer case 16 via the compliances 14,
It is mounted so that it can vibrate. In the figure, the compliance 14 is conceptually displayed as a spring.
As the compliance 14, in addition to the actual spring shown in FIG. 2, the flexible synthetic resin 1 shown in FIG.
4b, means for using the repulsive force due to the interaction between the magnets, by arranging the second magnet 14c shown in FIG. Alternatively, it may be a combination of the foamed synthetic resin 14b and the second magnet 14c shown in FIG.

In the figure, the two magnets 13 are fixedly integrated with their S poles facing each other, but their N poles may face each other. The spacer 15 does not need to be a magnetic material, but by using a magnetic material as in the embodiment, the reluctance of the magnet system is reduced, and the electromechanical conversion efficiency of the vibrator can be further increased. When the two magnets 13 are fixed with the spacer 15 interposed therebetween, and the repulsive force causes an inconvenience in the assembling process, as in the first modification shown in FIG. To 2
The magnet and the spacer are inserted and fixed together with an adhesive, or as shown in a modified example 2 of FIG. 7, a through hole is formed in the magnet and the spacer in the axial direction, and a rod (rivet or small rivet) is formed. It is only necessary to use a screw 18 or the like to integrally connect the two. Furthermore, as in the second modification of FIG. 7, the yokes 19, 19 made of a magnetic material are attached to the opposite ends of the magnets 13, 13 which are not in contact with the spacer 15, so that the reluctance of the magnet system is reduced. This has the effect of increasing the electromechanical conversion efficiency of the vibrator.

In the above structure, the magnet 13 vibrates in the axial direction by a driving force generated by Fleming's left-hand rule with respect to the voice current flowing through the hollow coil 12. Since the reaction force due to this vibration causes the outer case 16 to vibrate,
The end portion facing the vibration direction of the outer case 16 is
The contact portion 11 may be used.

The vibrator 1 of the present invention having the above-described structure has a cylindrical outer shape, can be assembled in a small size, and vibrates in the axial direction. Mechanical vibration can be transmitted to the portion 11 in a concentrated manner. Also, since this vibrator is a moving magnet type electromechanical vibration transducer, the number of parts is smaller and the structure is simpler and cheaper than other types of vibrators such as linear motor type and eccentric motor type. , High conversion efficiency, bearings, commutators,
Since there is no sliding part such as a brush, it is strong and has a long life.
Further, unlike the eccentric motor type, the frequency and amplitude of the output mechanical vibration can respond to the frequency and amplitude of the input electric signal.

FIG. 8 shows the basic structure of the bodily sensation type mechanical vibration sensing device according to the second invention. As means for generating mechanical vibration, two magnets 13, 13 are spacers made of a magnetic material. In the state where the magnetic poles are opposed to each other with the magnetic poles 15 interposed therebetween and are integrally fixed, the magnetic poles are also coaxially housed inside the hollow coil 12 housed coaxially inside the cylindrical outer case 16, and both ends thereof Compliance Department 1
An exciter 1 ′ is attached to the outer case 16 via the vibrators 4 and 14 so as to be able to vibrate, and the amplifier 2 is connected to supply an electric signal suitable for the application. It goes without saying that a program source, a low-pass filter, an oscillator, a fuzzy signal generator and the like are connected to the input section of the amplifier 2 according to the application. The vibrator 1 ′ is installed at the contact part 31 of the information sensing means 3 with the human body 4 by mechanical vibration, converts an electric signal including various information into mechanical vibration, and converts the mechanical vibration into the outer case 16 (or The light is transmitted to the human body 4 via a contact portion 11) provided on a part of the outer case 16. In FIG. 8, as the simplest and representative case in the second invention, the information sensing means 3 holds the vibrator 1 ′ and has a function of pressing and holding it against the palm of the human body 4 (band). ).

The means 3 for sensing information by mechanical vibration includes: The vibrator 1 ′ is connected to the human body 4 by the holder 3 shown in FIG.
1. abutment method Chairs, relaxation chairs,
2. A method of burying in a cushion of furniture that is always used in contact with the human body, such as a bed. 3. A system in which it is installed on an independent cushion or mat and used at any time as needed together with the furniture and the like. 4. A system that can be used by incorporating it into parts that are easily accessible to passengers' hands and body, such as handrails, backrests and armrests of transportation. 5. A system to be installed in the operation unit of the game machine;
6. Method to be installed in a mobile phone, etc. A method to attach to the human body contact part of health equipment such as massage table and vibrator,
Various methods can be considered.

The electric signals applied from the amplifier 2 to the vibrator 1 ′ include: 1. For chairs, relaxation chairs, cushions, mats, etc., ultra-low-frequency audio signals, natural sounds, fuzzy signals whose frequencies and levels fuzzy fluctuate, etc. obtained from AV devices and stereo devices through filters. 2. sound effect signals for game consoles; 3. Information signals such as incoming calls to mobile phones and the like; For health appliances, relaxation chairs, etc., various signals corresponding to the purpose, such as natural sounds and fuzzy signals, can be considered. The above-mentioned various signals are obtained by means such as a generator suitable for each use, a combination use of a generator and a filter, and the like, and are supplied to the vibrator 1 according to the purpose.

The mechanical vibration sensing device according to the third invention corresponds to a thirteenth embodiment of the present invention. As shown in FIG. 17, the schematic structure includes an amplifier 2 for supplying a fluctuation electric signal, the vibrator 1 ′ for converting the fluctuation electric signal from the amplifier 2 into a fluctuation mechanical vibration, and a water tank 3 j. Tank 3j
The water 31j to be denatured is stored therein, and the vibrator 1 is disposed and immersed in the water 31j, and transmits the generated mechanical vibration to the water 31j. The water 31j is fluctuated and mechanically stirred to stir the water 31j in the water storage tank 3j at the molecular level and is denatured to become isomer water excellent in human health.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. In the drawings, FIGS. 1 to 7 show the first to fourth embodiments and the magnet 1 in the vibrator 1 according to the first invention.
The structure of two kinds of modification examples in three relations is shown. FIGS. 9 to 16 show the structures of the fifth to twelfth embodiments of the mechanical vibration sensing device according to the second invention. Further, FIG.
7 shows a structure of a thirteenth embodiment belonging to the third invention.

FIG. 2 shows a first embodiment. Basic structure is first
Although it is almost the same as the vibrator 1 described in the invention, in the first embodiment, the compliance 14 uses a spring 14a, and the magnets 13 are made of a non-magnetic material shown in FIG. A structure in which two magnets and a spacer 15 made of a magnetic material are inserted and fixed in a thin sleeve 17 using an adhesive together is adopted. In the second embodiment shown in FIG. 3, the compliance 14 uses a foamed synthetic resin 14b having flexibility. In the third embodiment shown in FIG. 4, the compliance 14 is such that the second magnet 14c is
Are arranged with a gap in opposition to the same polarity as the end polarities of the ends, and means for utilizing the repulsive force due to the interaction between the magnets is adopted. Further, in the fourth embodiment shown in FIG. 5, the compliance 14 includes the foamed synthetic resin 14b and the second magnet 14c.
And the magnet 13 and the second magnet 1
4c does not generate noise even if it collides.

FIG. 9 shows a fifth embodiment. The fifth embodiment is an apparatus for listening to an ultra-low frequency band in stereo reproduction, wherein a means 3 for detecting information by mechanical vibration is similar to a wristwatch band suitable for holding a vibrator 1 ′ in contact with a human body 4. This is a holding tool 3a having a structure. With this holder 3a, the contact portion 11 is brought into contact with the "pot" 41 where the meridians existing in the human body 4 are concentrated. Filter 2 from the output signal of stereo playback device 5
1 to separate the low-range audio signal Lo, and
And input to the vibrator 1. Generally, there are a number of "pots" on the surface of the human body 4, but as the "pot" for the ultra-low range listening, the "pot" 41a located at the center of the palm called Lagu, or the wrist A "pot" 41b located at the inner center is suitable.

The point at which the meridians spreading throughout the body from the palm to the soles of the human body are concentrated is called "pot", and the "pot" 41a at the center of the palm is called a labor shrine and is the most effective. Next, a similar effect can be obtained with the "pot" 41b at the center of the wrist. The present inventor pays attention to a phenomenon in which a significant acupressure effect is obtained by pressing the "pot" in acupressure therapy,
In the present embodiment, it is proposed to apply this phenomenon to obtain the high sensitivity music reproduction and the effective AV listening with the excellent bass feeling by giving the bass vibration intensively to the "pot" 41a, i.e., Rokyu. Things.

In order to obtain a sufficient bass feeling according to the fifth embodiment, it is necessary to apply bass vibration so as to intensively drive the "pots" 41a and 41b.
Since the contact portion 11 is set to a size suitable for intensively applying the mechanical vibration to a part of the human body 4, the speaker 7
By using it together with the playback sound, it becomes possible to reproduce a powerful ultra-low frequency range. Also, when listening to the stereo reproduction with the headphones 6, a powerful sense of realism can be obtained without leaking sound to the outside. Further, when the palm with the vibrator 1 abutted is placed on Tanda, the presence of a low sound source near Tanda is felt, and a still further bass effect can be obtained. This bass effect is characterized in that it can be obtained only by attaching the vibrator 1 to one of the palms.

As a modification of the holder 3a in the embodiment shown in FIG. 9, a wide ring-shaped rubber band may be used instead of the band portion having a structure similar to the band of the watch. Alternatively, the rubber band may be divided on the back of the palm and joined by a planar fastener to form a ring (not shown).

FIG. 10 shows a sixth embodiment in which the mechanical vibration information sensing means 3 is a chair, a sofa, or a relaxation device 3b. The vibrator 1 ′ is a human body contact part 3 such as an armrest, a backrest, a seating part of the relaxation device 3 b.
1b, the contact portion 11 is provided on the back surface of each surface material, and is disposed in the cushion material. This embodiment has the same effect as the fifth embodiment, and also has a massage effect on the human body 4.

FIG. 11 shows a seventh embodiment in which the mechanical vibration information sensing means 3 is a game machine 3c. The vibrator 1 ′ is disposed at the human body contacting portion 31 c, such as the operation panel of the game machine 3 c, and transmits the mechanical vibration of the sound effect generated on the vibrator 1 to the human body 4, thereby enabling the user of the game machine Gives a powerful real-world effect. The vibrator 1 may be fixed to an operation panel or a case in any direction, or may be elastically supported via a foamed resin.

FIG. 12 shows an eighth embodiment in which the mechanical vibration information sensing means 3 is a portable telephone 3d. The effect that the vibrator 1 'is attached to the main body case 31d of the mobile phone 3d and the mechanical vibration for notifying the incoming call is transmitted to the human body 4 so that the owner of the mobile phone can be notified of the incoming call without sound. There is.

FIG. 13 shows a ninth embodiment in which the mechanical vibration information sensing means 3 is a mat member 3e such as a bed or a bed. A plurality of vibrators 1 'are arranged in the mat member 3e. The main shaft directions of the respective vibrators 1 do not necessarily need to be matched. By generating a mechanical signal similar to that of the sixth embodiment from the vibrator 1, it is possible to experience a powerful low-pitched sound feeling, comfortable massage vibration and the like while sleeping.

FIG. 14 shows a tenth embodiment in which the means 3 for sensing information by mechanical vibration is an independent cushion material 3f having flexibility and elasticity. The vibrator 1 'is disposed inside the cushion material 3f, transmits mechanical vibration to the human body 4 touching the cushion material 3f, and gives the user the same bodily sensation as in the sixth embodiment. This embodiment has a feature that a general chair, bed, or the like, which is not a bodily sensation device, can be used as a bodily sensation device. Although the vibrator 1 is described as a half section, the internal configuration is the same as that of the first embodiment.

FIG. 15 shows an eleventh embodiment in which the means 3 for sensing information by mechanical vibration is a cushioning material 3g incorporated in a portion of a transportation facility that can be reached by passengers. A vibration exciter 1 'is disposed inside the cushion material 3g, and transmits mechanical vibration to the human body 4 of the passenger touching the cushion material 3g, thereby performing AV, public information, and other machines similar to those in the sixth embodiment. This has the effect of providing vibration information.

FIG. 16 shows a twelfth embodiment, in which the mechanical vibration information sensing means 3 is a health appliance 3h such as a massage table or a vibrator. FIG. 1 shows a vibrator for eliminating shoulder stiffness as an example. Exciter 1 'is health equipment 3h
The body contact portion 31h has an effect of applying mechanical vibration stimulation to the user 4 to eliminate stiff shoulders, congestion, and the like. When applied to a massage table, the structure is similar to that of the sixth embodiment shown in FIG.

FIG. 17 shows a thirteenth embodiment of the present invention.
This corresponds to the mechanical vibration sensing device according to the third invention. Since this embodiment has been described in the section of the embodiment, the description will be omitted in this paragraph.

The embodiments which are considered to be representative of the present invention have been described above. However, the present invention is not necessarily limited to the structures of the embodiments, but has the above-mentioned constitutional requirements according to the present invention, and The present invention achieves the object of the present invention and can be appropriately modified and implemented within the range having the following effects.

[0031]

The vibrator according to the present invention can be assembled in a small cylindrical shape and vibrates in the axial direction, so that the cylindrical bottom surface is used as a small area contact portion to concentrate mechanical vibration on a human body or the like. Can be applied. Also, compared to the vibrator of other structures such as a linear motor type and an eccentric motor type, the number of parts is small, the structure is simple and inexpensive, the conversion efficiency is high, and there are no sliding parts such as bearings, commutators and brushes. So sturdy and long life. Furthermore, unlike an eccentric motor, etc., the frequency and amplitude of the output mechanical vibration can respond to the frequency and amplitude of the input electric signal, so it can be used not only for signal transmission but also for sound effects and stereo playback sounds. It has a great effect on adding power and dynamic range.

Further, the mechanical vibration sensing device according to the present invention uses a vibrator with a simple structure for transmitting mechanical vibration to the body, so that it is small, lightweight and inexpensive. The feature is that extremely simple means of contacting the contact portions is sufficient. In particular, when used in combination with a conventional stereo playback device as a bodily sensation-type bass sound playback device, it can be used for a long time, even when transmitting vibration to a "pot" or when using it incorporated in a cushion such as a chair. Even with this, it is possible to obtain a feeling of ultra-low tone without giving a fatigue or a sense of incongruity, and also to obtain comfort by a natural fuzzy sound. or,
In such a case, by using it together with the headphone stereo, the playback sound does not leak outside, so you can listen to powerful playback sound with the same sense as high volume playback without worrying about the surroundings. In addition, you can enjoy the natural sound quietly without worrying about the surrounding noise.

Further, taking advantage of the characteristic that the rhythm sense of the present device is easily recognized, an excellent effect that the rhythm sense can be easily obtained by incorporating it in a relaxation device for listening to music or as a karaoke auxiliary device such as a microphone. Demonstrate.

In addition, the mechanical vibration sensing device to which the vibrator according to the present invention is applied can compact the device as a vibrator for a health appliance such as a caller of a portable telephone or a vibrator. By applying fuzzy vibration to water to denature water molecules, regular use of denatured water has the effect of improving health.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a vibrator according to the first invention.

FIG. 2 is a sectional view of the first embodiment.

FIG. 3 is a sectional view of a second embodiment.

FIG. 4 is a sectional view of a third embodiment.

FIG. 5 is a sectional view of a fourth embodiment.

FIG. 6 is a cross-sectional view of a first modification of the magnet portion of the vibrator.

FIG. 7 is a cross-sectional view of Modification Example 2 of the magnet portion of the vibrator.

FIG. 8 is a schematic perspective view of a mechanical vibration sensing device according to a second invention.

FIG. 9 is a schematic perspective view of a fifth embodiment.

FIG. 10 is a schematic perspective view of a sixth embodiment.

FIG. 11 is a schematic perspective view of a seventh embodiment.

FIG. 12 is a schematic perspective view of an eighth embodiment.

FIG. 13 is a schematic perspective view of a ninth embodiment.

FIG. 14 is a schematic perspective view of a tenth embodiment.

FIG. 15 is a schematic perspective view of an eleventh embodiment.

FIG. 16 is a schematic perspective view of a twelfth embodiment.

FIG. 17 is a schematic sectional view of a mechanical vibration sensing device belonging to the third invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Exciter 1 'Exciter 11 Contact part 12 Hollow coil 13 Magnet 14 Spring 15 Spacer 16 Outer case 17 Sleeve 18 Bar material 19 Yoke 2 Amplifier 21 Low-pass filter 3 Sensing means 31 Contact part 4 Human body 41 Crucible 5 Stereo reproduction Device 6 Headphones 7 Speaker

Claims (17)

[Claims] An exciter comprising a movable magnet type electromechanical vibration transducer, wherein a hollow coil (12) is housed coaxially in a cylindrical outer case (16), and said coil (12) is ), Two magnets (13), (13) are fixedly integrated with the poles facing each other across the spacer (15).
A vibrator having both ends vibrably attached to the outer case (16) via the compliances (14), (14). 2. The vibration exciter according to claim 1, wherein said compliances (14), (14) are resilient forces of springs (14a), (14a). 3. The vibrator according to claim 1, wherein the compliances (14) and (14) are elastic forces of the foamed synthetic resins (14b) and (14b) having flexibility. 4. The said compliance (14), (14), said magnet (1) with respect to said integrated magnet (13), (13)
3. The vibrator according to claim 1, wherein the exciter is a repulsive force generated by magnets (14c) and (14c) which are spaced apart from each other so as to have the same polarity as the end polarities of (3) and (13). . 5. A flexible synthetic resin (14d) (14d) is fixed to both ends of the integrated magnets (13) and (13), and the magnets (14e) and (14e) are flexible. ) Are arranged with a gap facing the integrated magnets (13) and (13) with the same polarity as that of the ends of the magnets (13) and (13) facing each other. Compliance (14), (14) is replaced by magnet (14e),
2. The vibration exciter according to claim 1, wherein the vibration is a repulsive force generated between the magnet (13) and the magnet (13). 6. A hollow coil (12) is housed coaxially inside a cylindrical outer case (16), and inside the coil (12),
The two magnets (13), (13) are fixedly integrated with their magnetic poles facing each other with a spacer (15) interposed therebetween, and both ends are interposed via compliance (14), (14). The outer case
(16) a vibrator (1 ′) attached to the vibrator (1 ′), an amplifier (2) for supplying an electric signal to the vibrator (1 ′), and the vibrator (1 ′) Installed at the contact site (31) with the
The vibrator (1) consists of a means for sensing information by mechanical vibration (3), and the vibrator (1) reacts with the vibration of the internal magnets (13) and (13) to the cylindrical outer case (16) in the vertical direction. Mechanical vibration of the outer case (16) and a contact portion (1
An sensation-type mechanical vibration sensing device that transmits the mechanical vibration to the human body (4) from 1). 7. A contact part (11) of the vibrator (1 ′) is an outer case.
The area suitable for applying the mechanical vibration of (16) in a concentrated manner is set, and the means for detecting information due to the mechanical vibration (3) has a meridian in which the contact portion (11) exists in the human body (4). 7. A mechanical vibration sensing device according to claim 6, which is a holder (3a) for abutting and holding a concentrated "pot" (4a), and imparting a bass feeling to a listener by transmitting mechanical vibration to a human body (4). . 8. The mechanical vibration sensing device according to claim 7, wherein the “pot” (4a) of the human body is a “pot” located at the center of the palm. 9. The mechanical vibration sensing device according to claim 7, wherein the “pot” (4a) of the human body is a “pot” located at a central portion inside a wrist. 10. The means for sensing information by mechanical vibration.
(3) is a relaxation facility (3b) such as a chair, and a shaker (1 ')
7. The mechanical vibration sensing device according to claim 6, wherein the mechanical vibration sensing device is provided at a human body contact site (31b) of the relaxation facility (3b) and transmits the mechanical vibration to the human body (4) to give a listener a sense of mind and body. 11. A means for sensing information by mechanical vibration.
(3) is a game machine (3c), and the shaker (1 ') is a game machine (3c).
c) is disposed at the operation part (31c), and applies the mechanical vibration to the human body (4).
7. The mechanical vibration sensing device according to claim 6, wherein a sound effect is given to the user of the game machine by transmitting the sound to the game machine. 12. The means for sensing information by mechanical vibration.
(3) is a mobile phone (3d), and a vibrator (1 ') is installed on a main body (31d) of the mobile phone (3d) to transmit mechanical vibration for alerting an incoming call to a human body. 7. The mechanical vibration sensing device of the sensation system according to claim 6, which notifies the holder of the mobile phone of the incoming call. 13. The means for sensing information by mechanical vibration.
(3) is a bed mat (3 g), and the shaker (1 ') is a mat (3 g).
7. The mechanical vibration sensing device according to claim 6, wherein the mechanical vibration is transmitted to a user touching the mat member (3g) during use. 14. A means for sensing information by mechanical vibration.
(3) is an independent cushion material (3
e), wherein the vibrator (1 ′) is disposed inside the cushion material (3e), and transmits the mechanical vibration to a human body of a user touching the cushion material (3e) during use. 7. The bodily sensation-type mechanical vibration sensing device according to claim 6, wherein the feeling of bass is given to the user. 15. A means for sensing information by mechanical vibration.
(3) is a cushioning material (3f) which is incorporated in a portion of a transportation facility that can be reached by a passenger, and a vibrator (1 ') is disposed inside the cushioning material (3f) and used. 7. The sensation-type mechanical vibration sensing device according to claim 6, wherein the mechanical vibration is transmitted to a passenger's human body touching the cushion material (3f) therein, thereby giving the passenger an information signal such as AV and public information. 16. The means for sensing information by mechanical vibration.
(3) is the body contact part (31h) of the health equipment (3h),
7. The sensation-type mechanical vibration sensing device according to claim 6, wherein (1 ') is disposed inside the body contact portion (31h), and stimulates a user of the health appliance (3h) by mechanical vibration. 17. An amplifier (2) for supplying an electric signal having fluctuation, the vibrator (1 ′) for converting the fluctuation electric signal from the amplifier (2) into fluctuation mechanical vibration, and a water tank (3j). The vibrator (1) is disposed inside the water storage tank (3j), and is vertically moved to the cylindrical outer case (16) by a reaction accompanying the vibration of the internal magnets (13), (13). Generates axial fluctuation mechanical vibration,
The water in the water tank (3j) (31
j) A mechanical vibration sensing device in which agitation is performed at the molecular level.