KR101514677B1 - Bone conduction output apparatus - Google Patents

Abstract

The present invention relates to a bone conduction output apparatus. More particularly, a bone conduction output apparatus has a coil fixed to a case. A magnetic circuit is vibrated by an elastic support unit on a side of the case. Bone conduction to the body of a user is performed through a bone conduction transmission body. The magnetic circuit, the elastic support unit and the bone conduction transmission body are simply assembled by rivet or screw combination. The bone conduction transmission body protrudes from the outside of the case to touch the body so that bone conduction output is condensed without dispersion. A space between the magnetic circuit and the elastic support unit, and the elastic support unit and the bone conduction transmission body is formed so that interference due to adjacent configuration elements at the vibration of the elastic support unit is prevented. The apparatus is elastic to an external case receiving the bone conduction output apparatus or the surface of a fixing object to correspond to an angle which changes according to the curvature of the user′s body.

Description

[0001] BONE CONDUCTION OUTPUT APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bone conduction output apparatus, and more particularly, to a bone conduction output apparatus which includes a coil fixed to a case, a magnetic circuit vibrating at one side of the case, Wherein the bone conduction conduit is protruded to the outside of the case so as to be brought into contact with the body of the wearer, The bone conduction output is concentrated without being dispersed through the case, and a space is formed between the magnetic circuit and the elastic support means and between the elastic support means and the bone conduction carrier to prevent interference by the adjacent components in vibration of the elastic support means And an outer portion that accommodates the bone conduction output device to adapt to an angle that varies with the wearer ' And more particularly to a bone conduction output device that elastically acts on a case or a surface to be fixed.

Generally, an acoustic or vibration output device is an acoustic or vibration output device that converts an electrical signal input from a signal source into a mechanical signal to output sound or a sound or vibration force such as a speaker, receiver, buzzer, or vibration motor (vibrator) And a bone conduction output device corresponds to this.

These sound or vibration output devices vary widely in size and application. Particularly, in response to the growth of the information and communication industry, a small-sized vibration or vibration output device widely used for calling a vibration of a communication terminal, especially a small vibration motor, The adoption of the linear motion vibration motor is rapidly increasing. (In the conventional vibration motor, the vibrating body rotates while rotating.)

The above-mentioned linear motion vibration motor is being applied to portable IT devices including a touch phone including a smart phone and a general mobile phone because the response speed is faster, the noise is less and the product life is greatly improved as compared with a rotary vibration motor .

The above-mentioned response speed means the time taken to reach 50% of the vibration force at the maximum displacement, which is the main reason for adopting the linear motion vibration motor.

Recently, a touch screen phone has evolved into a smart phone, and various applications are downloaded and used. Such an application has various functions and a feedback vibration suitable for such functions is required. In order to satisfy such a function, A vibration motor that is faster in response speed than a vibration motor is required.

The linear motion vibration motors are distinguished from the vibration motors using brushes and commutators. The driving principle of the linear motion vibration motors is based on Fleming's left-hand rule that a conductor placed in a magnetic field receives a force in a certain direction. That is, when an AC alternating signal is applied to a fixed coil, the coil generates vibrational energy by moving the magnet, which is a vibrator, according to the direction and intensity of the current and the frequency.

 1, a vibration motor includes a magnet 4 and a top plate 5, which are stacked and fixed by sequentially welding, adhering or fitting an upper surface of a yoke 3 and a yoke 3, (4) and a top plate (5) which are disposed in the outer circumferential direction or the inner circumferential direction with a gap (space) between the coils 6 and react with a magnetic flux formed in the gap according to the direction of the alternating- A magnetic circuit including a yoke and / or a weight depending on the function and the design) vibrates and generates a vibration force.

At this time, the magnet 3 and the top plate 4 are divided into magnetic circuits, and the coil 6 is divided into vibration inducing portions.

The acoustic or vibration output device having such a structure is usually housed in an enclosure case 1 and a lid 2. The magnet 4 and the top plate 5 are fixed to the yoke 6, (For example, fixed to the rivet 8 or welded or fixed to the case by injection) while the leaf spring 7 is supported.

However, in the conventional acoustic or vibration output device,

Further, in the conventional sound or vibration output device, since the vibration generated in the vibration structure formed by the coil 6 and the magnetic circuit is transmitted to the case 1 through the leaf spring 7, the vibration generated in the vibration structure causes the vibration force Ultimately, the bone conduction rate is attenuated by being dispersed through the case in the process of being transmitted to a part to be delivered, for example, a smart phone, an MP3 player, a notebook computer, etc., and the output efficiency relative to the input is deteriorated.

This problem is particularly exacerbated in parts requiring fine vibration power, such as a bone conduction output device.

In the conventional sound or vibration output apparatus, sound or vibration is output by the vibration of the magnetic circuit in a state where the magnetic circuit is accommodated in the case 1 and the lid 2. Therefore, depending on the degree of bending of the wearer's body, 1 or the lid 2 is not completely brought into contact with the body, and sound or vibration, particularly in the case of bone conduction, is not properly transmitted.

 The prior art of the conventional acoustic or vibration output device is as follows, and the conventional techniques disclosed in these documents also have the above-described problems.

Document 1: Korean Patent Laid-Open No. 10-2005-0106482 (Application No. 10-2005-7016399 (2005.09.02); bone conduction device)

Document 2: Japanese Laid-Open Patent Publication No. 10-2005-0021102 (Application No. 10-2003-0059198 (2003.08.26): Diaphragm for micro speaker and micro speaker using the same)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a bone conduction transducer for a bone conduction body, Wherein the bone conduction conduit is protruded to the outside of the case so as to be brought into contact with the body of the wearer so that bone conduction So that the output is concentrated without being dispersed through the case and a space is formed between the magnetic circuit and the elastic support means and between the elastical support means and the bone conduction carrier to prevent the interference by the adjacent components during vibration of the elastic support means, Accommodating the bone conduction output device to adapt to an angle that varies with the wearer ' And an object of the present invention is to provide a bone conduction output device which elastically acts on an outer case or a surface of an object to be fixed.

The magnetic circuit 110 and the coil 120 are accommodated in a position corresponding to each other in the case 101 so that the magnetic circuit 110 and the coil 120 are connected to each other in accordance with the direction of the AC signal applied to the coil 120, The bone conduction output apparatus (100) according to any one of claims 1 to 11, wherein the elastic body (170) is provided at an open end of the case (101) The magnetic circuit 110 is positioned at the center and the magnetic circuit 110 is fixed to the elastic body 170 and the bone conduction vehicle 180 while the bone conduction vehicle 180 is positioned at the center of the outer side of the case 101. [ Are pressed and fixed by rivets or screws passing through the center of these.

The present invention also includes a spacer 1 114 for securing a vibration width of the elastic body 170 between the elastic body 170 and the magnetic circuit 110 and a spacer 1 114 between the elastic body 170 and the bone conduction body 180 And a spacer 2 (181) for securing a vibration width is further provided.

In addition, the present invention can be applied to an outer case of a case 101 of a bone conduction output apparatus 100 or a bottom surface portion corresponding to a surface to be fixed, in a state of being tilted in response to a tilt change according to the bending of the body, 200 or a cushion member 161 that elastically supports the surface of the object to be fixed.

In addition, the present invention can be applied to an outer case (200) of a case (101) of a bone conduction output apparatus (100) or a side surface portion corresponding to a surface to be fixed in a tilted state in response to a tilt change, Or a cushion member 2 (162) for elastically supporting the surface of the object to be fixed.

According to the present invention, the bone conduction conduit 180 protrudes outside the case 101 to be brought into contact with the wearer's body, so that the bone conduction output is not dispersed through the case, ), So that the ultimate bone conduction can be transmitted to the body, which is the target of bone conduction, without loss, and thereby, the bone conduction rate is improved.

In addition, the present invention provides a space between the magnetic circuit and the elastic support means and a space between the elastically supporting means and the bone conduction transmission member to prevent interference by the adjacent elements during vibration of the elastic support means, Thereby obtaining an effect of preventing distortion.

The present invention also provides a cushion member 161 (162) at a portion (a bottom surface and a side surface portion) of the case 101 of the bone conduction output apparatus 100 corresponding to the outer case or the surface to be fixed, The bone conduction output apparatus 100 is adapted to be elastically adaptable to the changing angle of the bone conduction output apparatus 100 in accordance with the wearer's bending of the body and maintains the supporting force so that the bone conduction output apparatus 100 is brought into surface contact with the body surface in accordance with the bending of the body An effect of preventing the loss of bone conduction is obtained.

1 is a cross-sectional view showing a configuration of a conventional bone conduction output apparatus.
2 is an exploded perspective view showing a configuration according to an embodiment (Embodiment 1) of the present invention;
3 is a cross-sectional view more specifically showing a coupling structure according to an embodiment (Embodiment 1) of the present invention.
4 is a sectional view showing another coupling structure according to an embodiment (Embodiment 1) of the present invention;
5 is a sectional view showing an operation state according to an embodiment (Embodiment 1) of the present invention;
6 is an exploded perspective view showing a configuration according to another embodiment (Embodiment 2) of the present invention;
7 is a cross-sectional view more specifically showing a coupling structure according to another embodiment (Embodiment 2) of the present invention.
8 is an exploded perspective view showing a configuration according to still another embodiment (Embodiment 3) of the present invention.
9 is a cross-sectional view more specifically showing a coupling structure according to still another embodiment (Embodiment 3) of the present invention.
10 is a sectional view showing another structure according to still another embodiment (Embodiment 3) of the present invention.
11 is a sectional view showing still another configuration according to still another embodiment (Embodiment 3) of the present invention.
12 is a sectional view showing a configuration according to still another embodiment (Embodiment 4) of the present invention.
13 is a sectional view showing another configuration and operation state according to still another embodiment (Embodiment 4) of the present invention.
14 is an exploded perspective view showing a configuration according to still another embodiment (Embodiment 5) of the present invention.
15 and 16 are an exploded perspective view and a cross-sectional view showing an example of a quadrangular state of the present invention.

The present invention will now be described with reference to the accompanying drawings.

2 to 4, when the magnetic circuit 110 and the coil 120 are accommodated in positions corresponding to each other in the case 101, A bone conduction output apparatus (100) for generating sound or vibration while a magnetic circuit (110) vibrates according to the direction of an alternating current signal applied to a coil (120) The magnetic circuit 110 is positioned at the center of the elastic body 170 facing the inside of the case 101 and the bone conduction carrier 180 is located at the center of the outer side of the case 101, And the fixation of the elastic body 170 and the bone conduction vehicle 180 may be such that the fixation of the elastic body 170 and the bone conduction conduit 180 is performed by a rivet or a screw which passes through the center thereof.

Here, the case 101 of the present invention may be a circular opening with an open top, or a polygonal enclosure including an ellipse or a quadrangle, wherein the height of the enclosure is spaced apart (radially) (Radial) with a distance from the portion excluding the portion of the bottom surface to the height, and may have a cross-sectional shape of "┗┛" in a state where both opposite sides are open, The through hole may be formed.

Meanwhile, the magnetic circuit 110 of the present invention includes a magnet 111 for generating magnetic force; A top plate 112 stacked on an upper surface of the magnet 111 to concentrate the magnetic force of the magnet; The magnet 111 and the top plate 112 are provided with a height surface to provide a space through which the magnetic flux is formed in the direction of the outer circumferential surface or the inner circumferential surface of the magnet 111 while providing a surface on which the magnet 111 is seated and fixed, And a yoke 113 as shown in FIG.

The magnetic circuit 110 may include a yoke 113 having a circular or polygonal plate shape including an ellipse or a quadrangle and protruding from the center of the yoke 113, And a top plate 112 stacked thereon. At this time, the laminated body composed of the yoke 113, the magnet 111 and the top plate 112 is fixed in a state in which the tubular body having the corresponding shape is wrapped around the outer peripheral portion of the laminated body, for example, The yoke, the magnet, and the top plate are laminated in an insert shape on the tubular body), curling is bent at one side edge of the tubular body, and fixation can be performed by pressing.

In the present invention, the coil 120 may be circular, elliptical or polygonal, including a square, adhered and fixed to the center of the inner bottom surface of the case 101 so as to be positioned in the air gap of the magnetic circuit 110.

The two-wire terminal of the coil 120 is drawn out to the outside through a separate hole formed in the case 101 and may be electrically connected to a terminal provided on the outer bottom surface of the case 101 by soldering.

In addition, the elastic body 170 of the present invention may be a round spring having a center through it, or a polygonal leaf spring including an ellipse or a square.

The leaf spring 170, which may be the elastic body 170, is an identical body connected to the edge surface located at a distance from the center surface by the bulging carcass. When the leaf spring 170 is seated inside the stepped end of the open end of the case 101 And can be crimped and fixed through curling.

Meanwhile, the bone conduction transmitter 180 of the present invention may be a block body made of a material capable of transmitting vibrations, which is formed of a circle, a polygon including an ellipse or a quadrangle, or a specific shape (e.g., a heart, a butterfly, a flower, have. In this way, it is possible to provide the bone conduction body 180 of various shapes.

The present invention also includes a spacer 1 114 for securing a vibration width of the elastic body 170 between the elastic body 170 and the magnetic circuit 110 and a spacer 1 114 for retaining the elastic body 170 and the bone conduction body 180, A spacer 2 181 for ensuring a vibration width can be further provided.

The spacer 1 114 may be a vibrating space securing rim that is fitted to provide a space (space) between the elastic body 170 and the magnetic circuit 110, The spacer 1 114 may be a monolayer annular block or an annular block having a stepped multilayer structure so as to fit into the inside diameter of the elastic body 170 .

The spacer 2 181 may be a vibrating space securing rim that is inserted to provide a space (space) between the elastic body 170 and the bone conduction vehicle 180, and the bone conduction body 180 The spacer 2 118 may be a monolayer annular block or may be a circular block having a stepped annular multilayer structure to be fitted to the inside diameter of the elastic body 170. It is possible.

Hereinafter, the operation of the present invention will be described.

First, in the present invention, a coil 120 is positioned in a gap between a central protruding portion of the yoke 113 and a stacked body of the magnet 111 and the top plate 112. At this time, The magnetic fluxes formed in the gap in the signal are mutually reacted to form the yoke 113, the magnets 111 and 111 'and the top plates 112 and 112' as shown in FIGS. 5 and 6 The magnetic circuit 110 elastically fixed at the center of the elastic body 170 vibrates up and down with respect to the coil 120 fixed to the inner bottom surface of the case 101 to generate a vibration force.

In the present invention as described above, the bone conduction conduit 180 protrudes outside the case 101 to contact the wearer's body, so that the bone conduction output is concentrated on the bone conduction conduit 180 without being dispersed through the case , Allowing the body to deliver the ultimate bone conduction power without loss, thereby improving bone conduction.

1 and 2, which provide a vibration space between the magnetic circuit 110 and the elastic body 170 and between the elastic body 170 and the bone conduction body 180 so as to vibrate without mutual interference, 114) 181 are provided to prevent the magnetic circuit 110 from colliding with or contacting the inner surface of the elastic body 170 when vibrating in the outward direction, for example, The bone conduction body 180 is prevented from colliding with or contacting with the outer surface of the elastic body 17, thereby preventing degradation or distortion of bone conduction due to vibration damping.

Hereinafter, another embodiment of the present invention will be described.

6 and 7, a portion of the exterior of the elastic body 170 excluding the portion where the bone conduction transmitter 180 is disposed may be provided with a cap- Member 190 may be provided.

At this time, the blocking member 190 is formed at the center so as to secure a region through which the bone conduction transmitter 180 can flow, and the outer frame portion is formed at the outer peripheral edge portion of the case 101 and the elastic body 170 And can be fixed through curling of the case 101 in a state in which it is positioned between the case 101 and the case 101.

In this case, the blocking member 190 can block the foreign substances introduced from the outside, and can prevent the elastic body 170 from being damaged by the external pressure.

Next, as shown in FIGS. 8 and 9, the third embodiment of the present invention will be described with reference to FIGS. 8 and 9, wherein the magnetic circuit 110 is formed in a state of being laminated on a surface of the bone conduction transmitter 180, A bone conduction cover 182 may be further provided which is coupled to the center of the yoke 113 by fastening screws passing through the elastic body 170 and the bone conduction conductor 180.

The bone conduction cover 182 may be in the form of a plate having a larger area than the bone conduction transmitter 180. The bone conduction cover 182 may protrude from the bone conduction cover 180, 110 may be formed with a female screw in the inner diameter so as to be coupled with the screw while passing through the center of the yoke.

In this case, the bone conduction cover 180 can protect the elastic body 170 from an external impact.

10, the magnetic circuit 110 is formed from the lower surface of the case 101 in a state of being laminated on a surface of the bone conduction conductor 180 in contact with the body, A bone conduction cover 182 may be further provided which is connected to the center of the constituent yoke 113 by fastening screws passing through the elastic body 170 and the bone conduction conductor 180. At this time, the magnetic circuit 110 and the elastic body 170 may be coupled to each other through welding.

11, the bone conduction cover 182 is provided with an elastic body 170, a magnetic circuit 110, and a male screw thread passing through the center of the lower surface of the case, And may be engaged with a nut provided on the lower surface.

12, a state in which the lower surface of the case 101 is tilted in response to a change in inclination according to the bending of the body is referred to as a surface to be fixed And a cushion member 161 that elastically supports the cushion member 161 may be provided.

As a result, the cushion member 161 is elastically deformed while the inclination of the cushion member 161 is deformed inwardly of the object to be fixed according to the bending of the body, thereby elastically supporting the object with respect to the object to be fixed, Do not lose it to the body.

In addition, as shown in FIG. 13, a cushion member 2 (see FIG. 13) for elastically supporting a tilted state in response to a change in inclination according to the bending of the body on the outer peripheral surface of the case 101, 162 may be further provided.

As a result, the cushion member 2 (162) is elastically deformed in a state in which the inclination is changed inside the object to be fixed according to the bending of the body, thereby elastically supporting the object to be fixed with respect to the object to be fixed, Not only can the bone conduction be undistorted but also transmitted to the body without being lost.

At this time, the cushion members 1 and 2 (161) may be a spring or a rubber or silicone material block having elasticity, in particular, a hemispherical block.

14, the case 101 includes a base 101a on which the coil 120 is seated, and a base 101a on which the base 101a is fixed. (101b ') is formed on a plane portion of the case body (101b) or a portion thereof extending from a height surface to a plane portion, and the magnetic body The circuit 110 and the bone conduction conductor 180 may be fixed through riveting or screw connection, respectively.

In this case, the case itself performs the elastic body 170 function.

The magnetic circuit 110, the elastic body 170, and the bone conduction body 180 may be formed in a rectangular shape as shown in FIGS. 15 and 16, , The design change of such a shape can be selectively applied according to the portion where the bone conduction output apparatus 100 of the present invention is used.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

For example, the bone conduction output apparatus 100 having the same structure as that of the present invention refers to a case where vibration is transmitted directly from the bone to the vagus without passing through the air, and occurs when the vibrating body is attached to the head cover or inside the head bone. When used as the bone conduction output apparatus as described above, it can be applied to earphones (including headphones and back earphones), and can be used as a sound or vibration output device of a smart phone, and can be applied to the legs of sunglasses or glasses, The present invention is not limited to the bone conduction output device, but can be used for other vibration and / or sound output devices.

In addition, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

100: Bone conduction output device 101: Case
110: magnetic circuit 111: magnet
112: Top plate 113: York
114: spacer 1 120: coil
161, 162: cushion member 1, 2, 170:
180: bone conduction carrier 181: spacer 2
182: bone conduction cover 190: blocking member

Claims (13)

The magnetic circuit 110 vibrates or oscillates according to the direction of the alternating current signal applied to the coil 120 in a state where the magnetic circuit 110 and the coil 120 are accommodated at the positions corresponding to the case 101 In the bone conduction output apparatus (100)
A magnetic circuit 110 is disposed at a central portion of the elastic body 170 provided at the open end of the case 101 to provide elastic support force toward the inside of the case 101 and a bone conduction surface area The resilient body 170 itself and the bone conduction conduit 180 for securing a space are disposed to prevent the enlarged portion from interfering with the elastic body 170, The fixation of the magnetic circuit 110, the elastic body 170 and the bone conduction conduit 180 may be performed by pressing and fixing by the rivets or screws passing through the centers of the elastic circuits,
And a bone conduction output device.
The method according to claim 1,
The case 101 may be a polygonal enclosure having an open top, a polygonal enclosure including an ellipse or a quadrangle, or a surface extending from a portion excluding a central portion of a bottom surface of the enclosure, Sectional shape in a state in which both side faces thereof are opened in a radial direction with a gap therebetween, and a cross-sectional shape is "┗┛ ", and a through hole is formed at the center of the bottom surface,
And a bone conduction output device.
The method according to claim 1,
The magnetic circuit 110 includes a magnet 111 and a top plate 112 spaced apart from a protruded central portion of the yoke 113. The yoke 113 is formed of polygonal plates, And the stacked body composed of the yoke 113 and the magnet 111 and the top plate 112 is fixed to the outer circumferential surface portion of the yoke 113 and the top plate 112 in a state in which the tubular body having the shape is wrapped Curling bending, fixed by compression,
And a bone conduction output device.
The method according to claim 1,
The elastic body 170 is a leaf spring of a polygonal shape including a circular or elliptical or quadrangular shape with a center through which the edge surface located at a distance from the center face is connected by a bullet carcass, ), Which is pressed and fixed through curling in a state in which it is seated inside the step,
And a bone conduction output device.
The method according to claim 1,
The bone conduction transducer 180 may be a circular block, a polygonal block including an ellipse or a square,
And a bone conduction output device.
The method according to claim 1,
A spacer 1 114 for securing a vibration width of the elastic body 170 between the elastic body 170 and the magnetic circuit 110 and a spacer 1 114 for securing a vibration width between the elastic body 170 and the bone conduction body 180 A spacer 2 181 is further provided,
And a bone conduction output device.
The method according to claim 6,
The spacer 1 114 is provided at the center of the surface corresponding to the vibration space securing rim or the elastic body 170 of the magnetic circuit 110 which is fitted to provide a gap between the elastic body 170 and the magnetic circuit 110 And the stepped protrusions are formed,
The spacer 2 181 is provided with a vibration space securing rim fitted to provide a gap between the elastic body 170 and the bone conduction transfer body 180 or a protrusion A step formed at one end thereof,
And a bone conduction output device.
The method according to claim 1,
A cap-shaped barrier member 190 is provided at a portion of the external surface of the elastic body 170 other than the portion where the bone conduction transmitter 180 is disposed,
And a bone conduction output device.
The method according to claim 1,
The magnetic circuit 110 is attached to the body of the bone conduction transmitter 180 in a state of being stacked on the surface of the bone conduction body 180. The center of the yoke 113 constituting the magnetic circuit 110 and the screw fastening through the elastic body 170 and the bone conduction body 180 A bone conduction cover 182 coupled by a bone conduction cover 182,
And a bone conduction output device.
The method according to claim 1,
The center of the yoke 113 constituting the magnetic circuit 110 from the lower surface of the case 101 in a state of being laminated on the surface of the bone conduction conductor 180 in contact with the body, A bone conduction cover 182 that is coupled by tightening a screw that passes through the bone conduction member 180,
And a bone conduction output device.
The method according to claim 9 or 10,
The bone conduction cover 182 is in the form of a plate having a larger area than the bone conduction delivering body 180. The bone conduction cover 182 protrudes from the bone conduction cover 180 to the yoke 170 of the magnetic circuit 110, A female screw formed on the inner diameter so as to be screwed in a state of passing through the center,
And a bone conduction output device.
The method according to claim 1,
The lower surface of the case 101 may be provided with a cushion member 161 that elastically supports a tilted state in response to a tilt change in accordance with the bending of the body with respect to the surface to be fixed, , A cushion member 2 (162) for elastically supporting a tilted state in response to a tilt change in accordance with the bending of the body with respect to the surface to be fixed,
And a bone conduction output device.
The magnetic circuit 110 vibrates or oscillates according to the direction of the alternating current signal applied to the coil 120 in a state where the magnetic circuit 110 and the coil 120 are accommodated at the positions corresponding to the case 101 In the bone conduction output apparatus (100)
The case 101 includes a base 101a on which the coil 120 is seated and a planar portion or a planar portion of the case body 101b which is formed with a space to be coupled with the base 101a, The magnetic circuit 110 is located at the center of the inside of the case 101 of the carburetor 101b 'and the magnetic circuit 110 is located at the center of the outside of the case 101 In the state where the bone cancer conduction body 101 itself and the bone conduction conduction body 180 securing the space are disposed to prevent the expanded portion of the bone conduction area and the extended portion from interfering with the bullet-shaped cancer 101b ' And the bone conduction vehicle 180 may be fixed by pressing a rivet or a screw through the center thereof,
And a bone conduction output device.

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