KR20100072775A - Bone conductive ear phone - Google Patents

Abstract

PURPOSE: A bone conduction earphone is provided to expend the watch band by additionally forming the other external computing device vibration pipe on the outside of a silicone cover. CONSTITUTION: A voice coil is installed on inside of a frame(17) and forms the magnetic field according to an electric signal. At least a pair of magnets vibrates as constant frequency according the magnetic field of the voice coil. A vibrator transfers the vibration of magnet to the human body. A housing(10) is formed in the end part of one side of frame. Inducing the resonance of the air according to the vibration of the vibrator, a cover(13) is comprised of the silicon material of the soft which multiplies the sound volume. An air layer is formed between the silicon material of cover and vibrator. An external computing device vibration pipe(14) is connected to the vibrator.

Description

Bone conductive ear phone {Bone conductive ear phone}

The present invention relates to a bone conduction earphone, and more particularly, to a bone conduction earphone which can improve the wearing comfort without any inconvenience even when used for a long time and can expand the listening band to increase the listening power.

In general, the vibration of the sound transmitted to the air is transmitted to the eardrum in the ear, and the vibration of the eardrum is transmitted to the thread-shaped cochlea through three bones (耳 小 骨) located in the eardrum.

The cochlea is filled with a fluid called lymph, which is converted into an electrical signal and transmitted to the auditory nerve so that the human brain recognizes sound.

Bone conduction earphones omit the process of vibrations passing through the eardrum and the osseous bone in the sound recognition mechanism, and the vibration of sound is sent directly to the cochlea through the skull to ensure bone conduction even if the eardrum or the osseous bone are abnormal. It is a device that allows you to hear sound.

Such bone conduction earphones have been developed in various types and forms. Most bone conduction earphones have a frame forming an external appearance, a voice coil installed inside the frame to form a magnetic field when an electrical signal is applied, and the voice coil. At least one pair of magnets vibrating while having a predetermined frequency interacting with a magnetic field, and a vibrating body for transmitting the vibration of the magnet to the human body.

Accordingly, when an electrical signal is applied to the voice coil, a magnetic field proportional to the strength of the electrical signal is formed in the voice coil, and the magnetic field vibrates with a predetermined frequency in the vertical direction by interacting with the magnet. As the vibration is output through the vibrating body and transmitted to the human body, the human body recognizes a predetermined sound signal.

However, conventional bone conduction earphones have the following disadvantages in terms of fit and functionality.

First, in the case of the conventional bone conduction earphones, the frame portion inserted into the ear is made of a hard plastic material, so the wear feeling is reduced, which makes it difficult to wear for a long time.

Second, in the case of the conventional bone conduction earphones, a vibrating body that directly transmits vibrations to the skull is installed inside the frame, and thus, it is difficult to generate enough vibrations to transmit sound by bone conduction. In case of transmitting, there is a disadvantage in terms of functionality, such as loss of mechanical vibration and a cause of distortion of an acoustic signal.

Therefore, the present invention has been devised in view of such a point, and by treating the contact portion of the frame directly in contact with the skin of the ear with a soft material to improve the fit, bone bone that can be worn without discomfort even for a long time use It is also an object to provide an earphone.

In addition, another object of the present invention is to install a vibrating body that transmits vibration to the skull outside the frame to transmit the vibration directly to the skull, thereby extending the listening band, thereby increasing the bone conduction bone conduction To provide earphones.

In order to achieve the above object, the bone conduction earphone provided by the present invention is a frame forming an exterior, a voice coil installed inside the frame to form a magnetic field when an electric signal is applied, and interacting with each other by a magnetic field of the voice coil. At least one pair of magnets vibrating with a frequency, and a vibrating body for transmitting the vibration of the magnet to the human body, while being installed in the form of closing the front of the housing which is in contact with the ear and formed at one end of the frame and Forming an air layer between the vibrating body is characterized in that it further comprises a cover made of a soft silicone material to increase the volume by inducing air resonance by the vibration of the vibrating body.

Here, the bone conduction earphone is connected to the vibrating body is located outside of the cover and at the same time can extend to the inside of the ear and the outer vibrating tube made of an annular annular or hollow cylindrical shape to directly transmit the frequency of the high frequency band to the skull It is preferable to comprise in the form containing further.

The bone conduction earphone provided by the present invention has a merit of being able to be used for a long time because the lower cover of the frame directly contacting the ear is made of soft silicone material, and has a merit of being used for a long time, between the soft silicone cover and the vibrating body. There is an advantage that the volume is increased because the resonance frequency by the air layer formed.

In particular, by providing another external vibrating tube on the outside of the silicone cover, it is possible to extend the source of vibration close to the skull, and thus transmit the high band frequency attenuated by the silicone cover to the skull to provide a listening band more than before. There is an effect that can be extended.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 is a perspective view and a cross-sectional view showing a bone conduction earphones according to an embodiment of the present invention.

As shown in Figures 1 to 3, the bone conduction earphones are made of a soft silicone material that is in direct contact with the skin of the ear, and in particular, the vibrating tube is made of an external type that is installed outside of the housing. It is inserted close to the inner skull of the to transmit vibration directly to the skull to expand the listening band.

To this end, the bone conduction earphone is a frame 17 having a substantially "U" shape that can be hooked to the ear while forming an appearance, and a voice that is installed inside the frame 17 to form a magnetic field when an electrical signal is applied. Coil (not shown), at least a pair of magnets 21 to vibrate while having a predetermined frequency to interact with the magnetic field of the voice coil, a vibrating body 11 for transmitting the vibrations of the magnet 21 to the human body, etc. Is done.

Here, the bone conduction earphone is an electrical signal is applied to the voice coil to form a magnetic field, the magnetic field at this time interacts with the magnet and the magnet is vibrated with a predetermined frequency in the vertical direction, the vibration of the magnet through the vibrating body It contains a series of outputs.

In particular, the bone conduction earphone includes a cover 13 of silicon material to improve the wearing comfort so that there is no discomfort even when used for a long time.

The cover 13 is installed in the form of closing the front of the open housing 10, as the cover 13 finishes the front of the housing 10 in this way, while forming a predetermined space inside the cover air layer (12) will be made.

Accordingly, while the space in which the vibrating body 11 belongs is formed as a predetermined sealed air layer 12, it is possible to induce resonance of air due to the vibration of the vibrating body 11, and finally, by using such a resonance frequency, Can be increased.

In addition, the cover 13 in direct contact with the ear is made of a soft silicone material with excellent fit to provide an advantage that can be worn for a long time without discomfort.

That is, the cover 13 made of a soft silicon material may provide two advantages, that is, a feeling of wearing and an increase in volume using a resonance frequency.

Here, the cover 13 may be installed in a removable structure of hanging type to fit in the groove portion 19 formed around the front edge of the housing 10.

The present invention provides an external vibrating tube 14 capable of transmitting a high frequency band directly to the skull by extending the listening band closer to the skull, which means that the listening band can be expanded compared to conventional earphones.

The external vibrating tube 14 is configured to extend to the outside of the cover 13 while being connected to the vibrating body 11 side, so when the earphone is plugged into the ear, the external vibrating tube 14 is to the inside of the ear. It can be deeply extended.

Since the external vacuum tube 14 transmits vibration directly to the skull in the ear, the listening band can be expanded than before, and thus the listening power can be increased.

The external vibrating tube 14 may be applied to a variety of forms, as an example may be applied to an annular ring shape of the hollow inside.

Ring-shaped external vibrating tube 14 is installed in a form that is connected to and supported by the vibrating body 11 side using a circular connecting body 20 in the rear end.

That is, when the pillar 15 integrally extending from the central portion of the vibrating body 11 is positioned outside through the cover 13, the external vibrating tube 14 is connected to the portion protruding outward of the cover 13. By fitting the sieve 20, the vibrating body 11 and the external vibrating tube 14 can be integrally connected.

Accordingly, when the vibrating body 11 vibrates, the vibrating force from the pillar 15 may be transmitted to the external vibrating tube 14 to be directly transmitted to the skull in the ear.

As such, since the external vibrating tube 14 is provided on the outside of the cover 13, the high frequency band that can be attenuated by the silicone cover can be directly transmitted to the skull, thus listening power due to the expansion of the listening band. You can increase it.

In other words, since the high frequency can be dissipated inside the silicon, the high frequency band can be guided to the external vibration tube 14 and the high frequency band can be transferred out, thereby expanding the listening band.

Here, in the case of the external vibrating tube 14, it is preferable to apply a material which can exert a good fit without a foreign body even when directly in contact with sensitive skin such as a silicone material or a soft rubber material.

As another example of the external vibration tube 14, as shown in Figure 6, it may be applied to a hollow cylindrical shape.

In the case of such a cylindrical external vibrating tube 14, after integrally formed on the front surface of the vibrating body 11 of the housing side, it can be installed in a structure in which a predetermined length protrudes outwards through the cover 13, and thus the vibrating body 11 ) Vibration is transmitted directly to the external vibrator 14, the sound of the high band can be transmitted directly to the skull.

The vibrator 11 serves to output the vibration of the magnet 21 while being combined with the front surface of the magnet 21 installed inside the end of the housing 10.

In particular, in the space formed inside the vibrating body 11, that is, between the magnet 21, a film 16 mounted on the rear surface of the vibrating body 11 is provided to reinforce the mid-range band transmitted to the human body. Will be.

That is, the film 16 is made of a poly film of about 0.2mm, and serves to increase the vibration of the vibrating body 11 by reinforcing sound.

Bone conduction earphones provided by the present invention provides an advantage that can be used in both ears as one earphone.

To this end, the entire housing 10 including an external vibrating tube 14 or the like is connected by a rotatable hinge 18 to the end of the frame 17, for example the end of the curved portion in the form of a small diameter. do.

Accordingly, by turning the housing 10 in the horizontal direction with the hinge portion 18 as the axis, the direction of the external vibrating tube 14 can be adjusted as desired, and the user can conveniently use the left or right side.

At this time, the rotation range of the housing 10 is preferably constrained in the range of 180 ° so that there is no inconvenience when adjusting the direction.

Therefore, looking at the state of use of the bone conduction earphone is configured as follows.

4 and 5 are a front view and a side view showing a wearing state of the bone conduction earphones according to an embodiment of the present invention.

As shown in Figure 4 and 5, the bone conduction earphones can be worn and used in the form of hanging on the ear 100 using the "U" shaped frame 17.

At this time, since the cover made of a soft silicone material in contact with the skin of the ear 110, it can feel a good fit, and in the case of the external vibrating tube 14 is located close to the skull while being located deep inside the ear, It can efficiently transmit vibration directly to the skull.

For example, when an electrical signal related to sound is applied to the voice coil, a magnetic field is formed inside and outside the voice coil in proportion to the intensity of the applied electric signal.

This magnetic field interacts with the magnet, which causes the magnet to vibrate with a predetermined frequency in the vertical direction.

The vibration of the magnet is transmitted to the vibrating body, the vibration of the vibrating body is guided to the external vibrating tube through the pillar and transmitted directly to the skull, and eventually the human body recognizes a predetermined sound signal.

As described above, the bone conduction earphone of the present invention is made of a soft silicone cover body which is in direct contact with the skin of the ear, and in particular, an external vibrating tube is inserted into the ear to transmit vibration directly to the skull, thereby providing excellent wearing comfort when using the earphone. It can also deliver high-frequency frequencies directly to the skull, providing an extended listening band.

1 is a perspective view showing a coupling bone conduction earphones according to an embodiment of the present invention

Figure 2 is an exploded perspective view showing the bone conduction earphones according to an embodiment of the present invention

3 is a cross-sectional view showing the bone conduction earphones according to an embodiment of the present invention

Figure 4 is a front view showing the wearing state of the bone conduction earphones according to an embodiment of the present invention

Figure 5 is a side view showing the wearing state of the bone conduction earphones according to an embodiment of the present invention

Figure 6 is a perspective view of the bone conduction earphones according to another embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10 housing 11 vibrating body

12 air layer 13 cover

14: external vibrating tube 15: pillar

16: film 17: frame

18: hinge portion 19: groove portion

20: connector 21: magnet

Claims (8)

A frame forming an external appearance, a voice coil installed inside the frame to form a magnetic field when an electrical signal is applied, and at least one pair of magnets vibrating with a predetermined frequency by interacting with a magnetic field of the voice coil; In the bone conduction earphone comprising a vibrating body for transmitting the vibration of the magnet to the human body, It is installed in the form of contacting the ear and closing the entire surface of the housing 10 formed at one end of the frame 17 and forming an air layer 12 between the vibrating body 11 to prevent vibration of the vibrating body 11. Bone conduction earphone, characterized in that it comprises a cover (13) made of a soft silicone material to increase the volume by inducing air resonance. The apparatus of claim 1, further comprising an external vibrating tube 14 connected to the vibrating body 11 and extending outwardly of the cover 13 and extending inward to the ear and directly transmitting a frequency of a high frequency band to the skull. Bone conduction earphone, characterized in that. The bone conduction according to claim 1 or 2, wherein the external vibrating tube (14) is connected to the vibrating body side through a column (15) extending from the vibrating body (11) to the outside while passing through the cover (13). earphone. 3. The bone conduction earphone according to claim 2, wherein the external vibrating tube (14) has an annular annular shape with an empty inside. The bone conduction earphone according to claim 2, wherein the external vibration tube (14) has a hollow cylindrical shape. The bone conduction earphone according to any one of claims 2, 4 and 5, wherein the external vibrating tube (14) is made of silicon or soft rubber. The bone conduction earphone according to claim 1 or 2, wherein the vibrator (11) further comprises a film (16) for reinforcing the mid-range. The bone conduction according to claim 1 or 2, wherein the housing (10) is connected to the hinge portion (18) on the side of the frame (17) so that it can be rotated 180 ° so that it can be used for both the left and right ears. earphone.

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