KR101500308B1 - Bone conduction output apparatus - Google Patents

Abstract

The present invention relates to a bone conduction output apparatus. More particularly, the present invention relates to a bone conduction output apparatus which elastically supports a vibration structure that a case of receiving a coil and a magnetic circuit forms a coil and a magnetic circuit. An object is fixed by a bolt instead of an adhesive (tapping or bonding). The coil is easily detached by the magnetic force of the magnetic circuit when vibration is generated. The bone conduction output apparatus has a structure of guiding the coil to be fixed at an exact location.

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 for supporting a vibration structure formed by a coil and a magnetic circuit by a case itself housing a coil and a magnetic circuit, (Taping or bond fixing), so that the coil pulled by the magnetic force of the magnetic circuit during vibration can be easily dropped, and the coil is guided to be fixed at the correct position Output device.

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 sound or vibration output apparatus as described above, since the leaf spring 7 for supporting the magnetic circuit is provided in the case 1, the space or space for the leaf spring 7 in the case 1 must be secured Therefore, there is a problem that the volume (size) of the entire acoustic or vibration outputting apparatus becomes large.

In addition, since the conventional sound or vibration output device is required to fix the plate spring 7 to the case 1 by fixing the rivet 8, welding or fixing it to the case or the like, it is difficult to manufacture, There is a problem of falling.

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 attenuates in the course of being transmitted to a smartphone, MP3, notebook, or the like, which is to be outputted, and the output efficiency is low.

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

In addition, the conventional sound or vibration output device is adhesively fixed to a case to be fixed, for example, a case or an output screen (including a glass) of a smart phone through a double-sided tape or adhesive (e.g., a bond) , There is a problem that it is easily fallen due to environmental factors such as frequent vibration or temperature (particularly, high temperature). In the case of adhesive bonding, fixing force is good but once fixed sound or vibration output device can not be released There is a problem that the adhesive causes contamination of the periphery of the object to be fixed and a process of cleaning the contaminated area is required.

Further, in the conventional sound or vibration output device, a case or a case cover in which a coil is fixed is usually made of a flat body, but is made of iron reacting with a magnetic force, so that a case or a case cover in which the coil is fixed by the magnetic force of the magnetic circuit is attracted There is a problem that the vibration is generated in the process of oscillating in the opposite direction in the sticking state, and the output characteristic is affected by the attenuation.

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)

It is an object of the present invention to provide a bone conduction output device for supporting a vibration structure formed by a coil and a magnetic circuit by a case itself housing a coil and a magnetic circuit, (Taping or fixing of the bond), so that the coil pulled by the magnetic force of the magnetic circuit can be easily released during the vibration, and the coil is guided to be fixed at the correct position And to provide a device.

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 magnetic circuit (110) and the coil (120) A threaded portion 130 providing a coupling portion; A coil constant position fixing guide portion 140 protruding along a portion where the coil 120 contacts the inner or outer diameter of the coil 120 to guide the coil 120 to be fixed at an accurate position; The magnetic circuit 110 is provided on the protruding face of the constant position guiding portion 140 to correspond to the magnetic circuit 110 and is attracted to the magnetic circuit 110 during the vibrating process, And a bone conduction output unit (150).

According to the present invention, the yoke 113, which is a portion where the magnetic circuit 110 is fixed, and the plate 122, which is a portion where the coil 120 is fixed, The bone conduction output apparatus 100 can be screwed to an apparatus to be fixed, such as an external case in which the bone conduction output apparatus 100 is accommodated, or an apparatus requiring output such as sound or vibration, such as a smart phone, Can be easily fixed to the object to be fixed, and the effect of facilitating the removal for replacement or repair can be obtained.

The present invention is also applicable to a case where a plurality of protrusions are arranged in a circular or annular shape at the center of a portion where the inner diameter of the coil 120 is positioned among the plates 122 to which the coil 120 is fixed, The coil 120 is fixed to the center of the surface of the plate 122. The coil 120 is fixed to the center of the surface of the plate 122, And prevents the coil 120 from flowing on the plate 122 when the coil 120 is fixed.

In addition, since the case 101 accommodates the magnetic circuit 110 and the coil 120 and supports the vibrating structure without the need for a separate leaf spring, It is possible to simplify the constituent elements and structure of the entire output apparatus 100 and to secure the flow space of the leaf spring in the case and to reduce the volume (size) of the bone conduction output apparatus 100 for the space .

Further, since the present invention does not require a leaf spring, the effect of improving the productivity by omitting the fixing operation of the leaf spring to the case is obtained.

The present invention can also be applied to a case where a vibration generated in the vibration structure formed by the magnetic circuit 110 and the coil 120 is transmitted through the case 101 without passing through the plate spring, , A notebook or the like, it is possible to prevent the vibration from being attenuated and to increase the output efficiency.

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 an exploded perspective view showing another configuration according to an embodiment (Embodiment 1) of the present invention;
4 is an exploded perspective view showing still another configuration according to an embodiment (Embodiment 1) of the present invention;
5 is a sectional view showing a detailed configuration according to an embodiment (Embodiment 1) of the present invention.
6 is a sectional view showing still another configuration according to an embodiment (Embodiment 1) of the present invention;
7 is a sectional view showing an operation state of an embodiment (Embodiment 1) of the present invention.
8 is a sectional view showing a configuration according to another embodiment (Embodiment 2) of the present invention.
9 is a sectional view showing a configuration according to still another embodiment (Embodiment 3) of the present invention.
10 is an exploded perspective view showing a configuration according to still another embodiment (Embodiment 4) of the present invention.
11 is a cross-sectional view showing a configuration according to still another embodiment (Embodiment 5) of the present invention.
12 is an exploded perspective view showing a configuration according to still another embodiment (Embodiment 6) of the present invention;
13 is a cross-sectional view showing a configuration according to still another embodiment (Example 7) of the present invention.
14 is a sectional view showing an operation state of still another embodiment (Embodiment 7) of the present invention.
15 is an exploded perspective view showing a configuration according to still another embodiment (Embodiment 8) of the present invention.
16 is a sectional view showing a configuration according to still another embodiment (Embodiment 9) of the present invention.
17 is a sectional view showing a configuration according to still another embodiment (Embodiment 10) of the present invention.

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

2 to 5, a magnetic circuit 110 and a coil 120 are accommodated in a position corresponding to each other in the case 101. In this case, The magnetic circuit (110) and the coil (120) are fixed to each other. The magnetic circuit (110) generates sound or vibration according to the direction of the AC signal applied to the coil A threaded portion 130 which is perforated on one or both of the portions to be fixed and which provides a threaded portion with the object to be fixed; A coil constant position fixing guide portion 140 protruding along a portion where the coil 120 contacts the inner or outer diameter of the coil 120 to guide the coil 120 to be fixed at an accurate position; The magnetic circuit 110 is provided on the protruded surface of the fixed position fixing guide portion 140 to correspond to the magnetic circuit 110 and is attracted to the magnetic circuit 110 during the vibration process, And a reduction unit 150, as shown in FIG.

Here, in the present invention, the magnetic circuit 110 may be fixed to the yoke 113 or the case body, and the coil 120 may be fixed to the plate 122 or the plate or the case cover.

Meanwhile, in the present invention, the threaded portion 130 may be a perforation provided through the center of a portion where the coil 120 is fixed, or may be a perforation hole provided through a center of a portion where the magnetic circuit 110 is fixed. Or may be all of the perforations. At this time, screw tabs may be formed on the inner circumferential surface of the threaded portion 130.

In the present invention, the coil constant position fixing guide portion 140 may protrude circularly or annularly at the center of a portion of the plate 122 at which the inner diameter of the coil 120 is positioned, A plurality of protrusions may be arranged along the inner diameter, or may be annularly protruded at a portion where the outer diameter of the coil 120 is positioned, or may have a plurality of protrusions arranged along the outer diameter. At this time, the nose fixed position fixing guide part 140 may be a plate 122 or a plate pressed (pressurized) and raised.

Meanwhile, in the present invention, the attraction reducing unit 150 is provided on the protruding surface portion of the nose fixed position fixing guide unit 140, and may have a triangle or semicircular cross section and a vertex.

The case 101 of the present invention supports the magnetic circuit 110 and the coil 120 with elasticity so that the magnetic circuit 110 and the coil 120 can act as a repulsive attraction type, A case in which one side is fixed and the other side is elastically supported so as to vibrate while being acted as a repulsive suction, or a case with a built-in type.

The case 101 may be a vertical elastic plate made of a metal material or a synthetic resin material, which is coupled to an edge of a facing surface of a portion where the magnetic circuit 110 is fixed and a portion where the coil 120 is fixed.

In this case, the case 101 has a plate-like leaf spring arrangement (see FIG. 2) that is coupled with a gap at a peripheral portion of a facing surface of a portion where the magnetic circuit 110 is fixed and a portion where the coil 120 is fixed ) Or a plate spring (see Fig. 3 (a)) in which a ridge and an elastic part are arranged at a distance from a rim to be joined to a rim of a facing surface of a portion where the magnetic circuit 110 is fixed and a surface to which the coil 120 is fixed And a leaf spring (rim) having an elasticity, which is made of a rim having elasticity, which is joined to a rim of a facing surface of a portion where the magnetic circuit 110 is fixed and a portion where the coil 120 is fixed, ) Type (see Fig. 4).

The number of the plate spring arrangements arranged in the above is three to six as an example, but the present invention is not limited thereto, and the arrangement thereof may be increased according to the degree of magnetic force and the capacity of the bone conduction output apparatus.

In addition, the surface of the leaf spring may be a crumple zone providing a tension force, or a curved surface provided in an outward or inward direction.

The case 101 may be coupled to a groove formed on a facing surface of a portion where the magnetic circuit 110 is fixed and a surface on which the coil 120 is fixed, It is possible.

2 to 5, 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; Another magnet 111 'and a top plate 112' concentric with the magnet 111 and the top plate 112 and spaced apart from the magnet 111 'and the top plate 112'; And a yoke 113 for providing a path through which magnetic force lines pass while providing a surface on which the magnets having concentric circles are seated.

Also, as shown in FIG. 6, the magnetic circuit 110 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; A magnet 111 and a yoke 112 having a height so as to provide a space through which magnetic flux is formed in the direction of the outer circumference or inner circumference of the magnet 112 and the top plate 112 while providing a surface on which the magnet 111 is seated and fixed, (113 ').

 Meanwhile, in the present invention, the coil 120 may be a voice coil 121 that vibrates according to the Fleming's left-hand rule when an AC signal is input from the outside in a state where the coil 120 is located in a gap of the magnetic circuit 110.

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

In the present invention, the voice coil 121 is positioned in a space between a pair of magnets 111 and 111 'and a top plate 112 and 112' that are seated on the yoke 113, The yoke 113, the magnets 111 and 111 ', and the top plate 112, as shown in FIG. 7, in response to the magnetic flux formed in the gap according to the direction of the AC signal applied to the coil 121, The magnetic circuit 110 composed of the coil 112 'and the coil 120 fixed to the plate 122 vibrate and generate a vibration force.

The above-described vibration is possible by the magnetic circuit 110 and the coil 120 being supported elastically while being separated by the case 101 having elasticity. That is, the vibration is made possible by the elastic force of the case 101 positioned vertically between the magnetic circuit 110 and the coil 120.

At this time, when either the magnetic circuit 110 or the coil 120 is fixed, the opposite non-fixed portion is vibrated and outputs the vibration power and / or sound. In an embodiment of the present invention, a portion of the plate 122 to which the coil 120 is fixed is fixed to an object to be fixed, and a portion of the magnetic circuit 110 is shown in contact with the body.

In the present invention, the yoke 113, which is a portion where the magnetic circuit 110 is fixed, and the plate 122, which is a portion where the coil 120 is fixed, are perforated to form the threaded portion 130, An external case in which the fixation object, such as the bone conduction output device 100, is accommodated, or an apparatus requiring output such as sound and / or vibration, such as a smart phone.

Accordingly, the bone conduction output apparatus 100 can be easily fixed to the object to be fixed, and removal for replacement or repair can be easily performed.

The present invention is also applicable to a case where a plurality of protrusions are arranged in a circular or annular shape at the center of a portion where the inner diameter of the coil 120 is positioned among the plates 122 to which the coil 120 is fixed, The coil 120 is fixed to the center of the surface of the plate 122. The coil 120 is fixed to the center of the surface of the plate 122, And prevent it from flowing on the plate 122 when the coil 120 is fixed.

The present invention is characterized in that the attraction reducing portion 150 is provided on the protruded surface portion of the coil constant position fixing guide portion 140 so that the plate 122 corresponding to the vibration- It is possible to easily fall off in the process of oscillating in the opposite direction, so that the output characteristic can be prevented from being deteriorated.

In addition, since the case 101 accommodates the magnetic circuit 110 and the coil 120 and supports the vibrating structure without the need for a separate leaf spring, It is possible to simplify the constituent elements and structure of the entire output apparatus 100 and to secure the flow space of the leaf spring in the case without reducing the volume (size) of the bone conduction output apparatus 100 for the space have.

Further, since the present invention does not require a leaf spring, it is possible to omit the fixing operation of the leaf spring with respect to the case, thereby improving the productivity.

The present invention can also be applied to a case where a vibration generated in the vibration structure formed by the magnetic circuit 110 and the coil 120 is transmitted through the case 101 without passing through the plate spring, , Notebook computers, etc., it is possible to prevent the vibration from being attenuated and to increase the output efficiency.

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

Referring to FIG. 8, the magnetic circuit 110 includes a magnet 111 'and a top plate 112', spaced apart from a central protruding portion of the yoke 113, And a threaded portion 130 'may be formed through the center of the protrusion of the yoke 113. In this case,

In this case, the magnetic circuit 110 can be fixed to the object to be fixed by screwing. In addition, since the screw can be inserted and screwed into the piercing portion of the plate 122 when the screw is coupled, the fixing operation can be easily performed.

9, the case 101 includes a portion where the magnetic circuit 110 is fixed and a portion on the opposite side of the portion where the coil 120 is fixed, as shown in FIG. 9. Referring to FIG. 9, A plate spring or a magnetic circuit 110 bent in such a manner that the central portion of the plate body is spaced apart from the rim of the coil 120 and protruding inwardly and the center of the rim coupled to the rim of the facing surface of the coil 120, Shaped plate spring or magnetic circuit 110 which is bent so as to protrude in the inward direction and which is arranged on the surface with a ridge and an elastic portion spaced therefrom and a rim Like plate spring (a full rim type in which a tread is not formed) bent in such a manner that a central portion of the plate-like portion is protruded inward.

At this time, the bent portion may be bent in a "C" shape or a "U" shape or a ">" shape.

10, the case 101 includes a portion where the magnetic circuit 110 is fixed and a portion on the opposite side of the portion where the coil 120 is fixed, The plate spring or the magnetic circuit 110, which is bent in the "a" shape or "ts" shape, and the edge portion of the portion where the coil 120 is fixed Shaped plate spring or a magnetic circuit 110 in which a central portion of the rim to be coupled with the rim is bent in an "a" shape or a " And a central portion of a rim which is engaged with a rim of a portion where the coil 120 is fixed is a plate spring having a rim shape that is bent in an "a" shape or a " (Rim) type).

At this time, the bent portion may be bent in the "a" shape or the "b" shape.

The direction of the alternating current signal applied to the coils 120 located in the gap between the pair of magnets 111 and 111 'and the top plates 112 and 112' The magnetic circuit 110 and the coil 120 constituted by the yoke 113, the magnets 111 and 111 'and the top plates 112 and 112' are vibrated to generate a vibrating force This vibration is made possible by the elastic support force of the case 101 positioned vertically between the magnetic circuit 110 and the coil 120.

Next, as shown in FIG. 11, a threaded portion 130 'provided on the yoke 113 is inclined in response to a tilt change according to the bending of the user's body. The cushion member 161 that elastically supports the state of the object to be fixed can be fitted and fixed.

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, a state in which the outer peripheral surface of the case 101 supporting the vibration of the magnetic circuit 110 and the coil 120 is tilted in response to a change in the tilt in accordance with the bending of the body, The cushion member 2 (162) can be 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.

12, the case 101 is coupled to a portion where one end of the case 101 is fixed to the magnetic circuit 110, and the other end of the case 101 is connected to a magnetic circuit (not shown) 110 may be an array of four-line leaf springs made of a metal material or a synthetic resin material which extend obliquely along the outer rim line of the coil 120 and are coupled to a portion where the coil 120 is fixed.

In the above, the number of the four linear-shaped leaf springs arranged is three to six as an example, but the arrangement may be increased according to the degree of the magnetic force and the capacity of the bone conduction output apparatus.

The magnetic circuit 110 and the coil 120 composed of the yoke 113, the magnets 111 and 111 'and the top plates 112 and 112' are vibrated by the above-described principle The vibration is vertically vibrated while being rotated in the left and right direction within a certain range by the case 101 arranged in a quadrangular form.

Referring to FIG. 13, the case 101 includes a portion on which the magnetic circuit 110 is fixed and a portion on the opposite side of the portion where the coil 120 is fixed, The coil spring may be an array of coil springs which are coupled to each other at an edge portion of the coil spring.

The number of the coil springs arranged in the above example is three to six, but the arrangement may be increased depending on the degree of magnetic force and the use of the bone conduction output apparatus.

14, when the portion to which the magnetic circuit 110 is fixed and the portion to which the coil 120 is fixed do not maintain a horizontal position but are out of a horizontal line at a predetermined angle, So that the coil spring can flexibly correspond to the fixation.

At this time, the number of turns or the degree of elasticity of the coil spring located at a narrow space between the magnetic circuit 110 and the facing surface of the coil 120 is set to be less than the number of turns or elasticity of the coil spring You may.

In this way, the portion where the magnetic circuit 110 is fixed and the portion where the coil 120 is fixed do not maintain a horizontal position, but the interval from the horizontal line at a predetermined angle, that is, It is possible to eliminate the unbalance in the elastic force of the narrow side and the wide side, thereby preventing the vibration distortion.

15, the coil 120 is fixed to the center of one side surface of the diaphragm 123 for outputting sound by the vibration of the coil 120. In this case, And a diaphragm).

A rim type support member 124 is provided on the outer circumference of the diaphragm 123 to which the coil 120 is fixed to provide a portion to be coupled with the case 101, A lid 125 for protecting the diaphragm may be coupled to the inner circumferential surface of the one opening portion.

Thus, the vibration force due to the vibrations of the magnetic circuit 110 and the coil 120 and the vibration due to the vibration of the vibration plate 123 can be simultaneously outputted.

Next, referring to Embodiment 9 of the present invention, as shown in FIG. 16, the coil 120 is fixed to the center of the inside of the housing 102, and the open periphery of the housing 102 The outer circumference of the elastic body 170 supporting the magnetic circuit 110 is fixed to the outer circumference of the elastic body 170 and the bone conduction body 180 is further provided at the outer center of the elastic body 170.

At this time, the bone conduction transmitter 180 may be fixed by rivets passing through the elastic body 170 and the yoke 113 of the magnetic circuit 110.

Further, the outer peripheral edge of the elastic body 170 supporting the magnetic circuit 110 may be fixed to the opened peripheral edge of the housing-like case 102 through curling engagement.

In this case, since the fixed portion of the coil 120 is not vibrated, it is possible to prevent the line drawn out from the body of the coil 120 from being broken by frequent vibration.

Next, referring to the tenth embodiment of the present invention, as shown in FIG. 17, the coil 120 is fixed to the center of the inside of the housing 102, and the open periphery of the housing 102 The outer periphery of the elastic body 170 supporting the magnetic circuit 110 is fixed to the elastic body 170 and the bone conduction body 180 is further provided at the center of the outer side of the elastic body 170, The portion contacting the elastic body 170 may have a small diameter and the portion contacting the body may have a large stepped portion.

In this case, the area of the elastic body 170 in contact with the bone conduction body 170 can be minimized during the vibration of the elastic body 170, so that the vibration power can be prevented from being attenuated and the bone conduction rate delivered to the body can be increased .

At this time, the outer periphery of the elastic body 170 supporting the magnetic circuit 110 can be fixed to the opened peripheral edge of the housing-like case 102 through the curling engagement. That is, a step is formed in the peripheral portion of the housing-like case 102, and the peripheral portion of the housing-like case 102 is bent in a state where the outer peripheral portion of the elastic body 170 is seated on the short- 170 can be pressed and fixed.

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, It is not limited to the bone conduction output device, but can be used as other vibration and / or sound output device, as the name of the present invention shows.

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, 111 ': magnet
112, 112 ': Top plate 113, 113': yoke
120: coil 122: plate
130, 130 ': Screw connection part 140:
150: attraction reducing portion 161, 162: cushion member 1, 2
170: elastic body 180: bone conduction carrier

Claims (13)

The magnetic circuit 110 and the coil 120 may be mutually vibrated in response to the direction of the AC signal applied to the coil 120 at positions corresponding to the magnetic circuit 110 and the case 101, In the bone conduction output apparatus (100) for generating vibration,
The magnetic circuit 110 and the coils 120 are punched into either one of the planar bodies or the both planar bodies provided on both side portions of the case 101 to provide a portion where the coils 120 are fixed, A screw-engaging portion (130) for providing a portion;
A coil constant position fixing guide portion 140 protruding along a portion where the coil 120 contacts the inner or outer diameter of the coil 120 to guide the coil 120 to be fixed at an accurate position;
The magnetic circuit 110 is provided on the protruded surface of the fixed position fixing guide portion 140 to correspond to the magnetic circuit 110 and is attracted to the magnetic circuit 110 during the vibration process, A reduction unit 150,
And a bone conduction output device.
The method according to claim 1,
A portion where the magnetic circuit 110 is fixed is a yoke 113 or a case body constituting a magnetic circuit and a portion where the coil 120 is fixed is a plate 122 or a plate or a case cover,
And a bone conduction output device.
The method according to claim 1,
The threaded portion 130 may be a perforation provided through a center of a portion where the coil 120 is fixed or a perforation provided through a center of a portion where the magnetic circuit 110 is fixed, A screw tab formed on the inner peripheral surface,
And a bone conduction output device.
The method according to claim 1,
A cushion member 1 (161) 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 method according to claim 1,
The outer circumferential surface of the case 101 supporting the vibration of the magnetic circuit 110 and the coil 120 is elastically supported on the surface to be fixed with respect to the surface to be fixed in response to the change of the tilt in accordance with the bending of the body A cushion member 2 (162) is further provided,
And a bone conduction output device.
The method according to claim 1,
The coil constant position fixing guide portion 140 may be formed in a circular or annular shape at the center of a portion of the plate 122 where the inner diameter of the coil 120 is positioned, Or annularly protruding at a portion where the outer diameter of the coil 120 is located, or having a plurality of protrusions arranged along the outer diameter,
And a bone conduction output device.
The method according to claim 1,
The attraction reducing unit 150 is provided on a protruding surface portion of the nose fixed position fixing guide unit 140 and has a triangle or semicircular cross section and a vertex,
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' stacked with a gap from the center protruding portion of the yoke 113 constituting the magnetic circuit, And a screw-engaging portion 130 '
And a bone conduction output device.
9. The method of claim 8,
A cushion member 1 (161) for elastically supporting a tilted state in response to a tilt change in accordance with the bending of the body in a screwed portion 130 'provided on the yoke 113 is fitted and fixed However,
And a bone conduction output device.
9. The method of claim 8,
The outer circumferential surface of the case 101 supporting the vibration of the magnetic circuit 110 and the coil 120 is elastically supported on the surface to be fixed with respect to the surface to be fixed in response to the change of the tilt in accordance with the bending of the body The cushion member 2 162 is provided,
And a bone conduction output device.
The method according to claim 1,
The coil 120 is fixed to the center of the interior of the housing 102 and the outer periphery of the elastic body 170 supporting the magnetic circuit 110 is fixed to the open periphery of the housing 102, And a bone conduction transmitter (180) is further provided at an outer center of the elastic body (170).
The method according to claim 1,
The coil 120 is fixed to the center of the interior of the housing 102 and the outer periphery of the elastic body 170 supporting the magnetic circuit 110 is fixed to the open periphery of the housing 102, A portion of the bone conduction body 180 that is in contact with the elastic body 170 has a small diameter and a portion of the bone conduction body 180 that is in contact with the body has a large diameter, Lt; / RTI >
And a bone conduction output device.
The method according to claim 11 or 12,
A case in which the outer periphery of the elastic body 170 supporting the magnetic circuit 110 is fixed to the opened peripheral portion of the housing case 102 through the curling engagement,
And a bone conduction output device.

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