KR102203802B1 - Implantable Hearing Aids Using Energy Harvesting - Google Patents

Abstract

The present invention relates to an implantable hearing aid using energy harvesting. The implantable hearing aid includes: a sound processor which converts sound into electrical signals; a transducer which vibrates by receiving the electrical signal from the sound processor; and a power generation coil performing energy harvesting of a change in a magnetic field generated by the transducer to acquire electric energy. Accordingly, it is possible to increase the lifespan of the implantable hearing aid.

Description

Implantable Hearing Aids Using Energy Harvesting

The present invention relates to an implantable hearing aid, and more specifically, to an implantable hearing aid using energy harvesting capable of extending the operating time of the hearing aid compared to the capacity of a battery by harvesting discarded energy and returning it to power. .

In general, hearing aids are classified into a wearable type that is worn outside the body and an implantable type that can be inserted into the body.

In the case of a wearable hearing aid, the size and shape vary, and it is a method that can be worn on the outside of the ear.

Wearable hearing aids can be used for a long time except for product damage caused by corrosion or aging, and have the advantage of easy replacement of used batteries.

However, the wearable hearing aid has a disadvantage that it is inconvenient to use because it is lost or bulky when stored and worn when released from wearing.

In recent years, implantable hearing aids (for example, artificial middle ear, cochlear implant, etc.) that are implanted in the body such as ossicles or temporal bones and are not easily recognized that the hearing aids were worn outside are in the spotlight.

This is because water does not flow into the implantable hearing aid, so activities such as showering and swimming can be free.

In addition, since negative views of the hearing-impaired person remain socially and do not want the hearing aid to be exposed to the outside, users still expect to develop excellent implantable hearing aids.

These implantable hearing aids have no particular problem in shearing performance of sound, but have a disadvantage in that their service life is limited due to the limitation of built-in battery performance due to miniaturization for implantation.

Since it can be used for about 5 years with a single transplant, it is necessary to perform a transplant operation again for battery replacement, so the operation for battery replacement can act as a burden of cost and risk to the user during the operation.

Therefore, in the case of implantable hearing aids, power reuse technology is required to extend the operating time and implant life of the battery.

US 6735318 B2 US 7239069 B2 US 7547275 B2 KR 10-1223693 B1

In order to solve the above problems, the present invention uses energy harvesting that can extend the service life of the hearing aid compared to the capacity of the battery by harvesting the energy discarded by a configuration further including a power generation coil in the transducer and returning it to power. The purpose is to provide an implantable hearing aid.

In order to achieve the above object, the present invention is a sound processor that converts sound into an electrical signal, a transducer that vibrates by receiving an electrical signal from the sound processor, and energy harvesting of a change in a magnetic field generated by the transducer. It provides an implantable hearing aid using energy harvesting, characterized in that it includes a power generation coil that acquires electrical energy by harvesting; a technology that recovers waste energy and uses it as an auxiliary power source.

According to an embodiment, the power generation coil is divided and provided on both sides of the case to supply and receive electric power by using a change in a magnetic field caused by a before/after vibration of a permanent magnet.

According to another embodiment, the power generation coil is provided in the center of the case and absorbs a magnetic field changed by the vibration coil as electric energy to receive power.

By providing the present invention configured as described above, energy discarded during vibration of the transducer can be used as auxiliary power by harvesting energy, and there is an effect of extending the service life of the implantable hearing aid compared to the capacity of the battery.

1 is a block diagram showing an implantable hearing aid using energy harvesting according to the present invention.
2 is a cross-sectional view showing a transducer in the implantable hearing aid using energy harvesting according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the same technical field can easily implement the present invention.

The implantable hearing aid using energy harvesting of the present invention includes a sound processor 100 and a transducer 300 as shown in FIGS. 1 to 2.

The sound processor 100 may be attached to the outside of the user's skin or implanted in the human body, and may receive external sound and convert it into an electrical signal and transmit it to the transducer 300.

As an embodiment, an implant 200 implanted inside the user's skin may be further included, and the implant 200 receives a signal from the sound processor 100 by wire or wirelessly and converts the signal into a specific pulse signal. In addition, the transducer 300 is electrically connected to the sound processor 100 or the implant 200 and vibrates according to an electrical signal, so that the surrounding skeleton or the ossicles of the semicircular tube or Vibration is transmitted to the temporal bone so that the user can recognize sound.

The transducer 300 is a circular case including a permanent magnet 320, a vibration plate 330, and a vibration coil 340 in order to transmit vibration according to the electrical signal of the sound processor 100 or the implant 200 ( 310) can be provided.

Here, one or both sides of the case 310 are open, and a permanent magnet 320 is embedded therein.

At this time, the permanent magnet 320 is provided single or one or more consecutively, it is preferable that the same pole is provided to face each other. For example, when two permanent magnets are used, they may be arranged in the order of polarity of N-S S-N or S-N N-S.

In addition, an elastic transmission member such as a rubber or a spring for transmitting vibration may be further provided between the vibration plate 330 and the permanent magnet 320.

In addition, a vibration coil 340 is wound inside or outside the case 310, and the direction of current is changed according to an electrical signal transmitted from the sound processor 100 or the implant 200 to change the direction of the case 310. ) It can change the direction of the internal magnetic field.

In addition, diaphragms 330 are provided on both sides or one side of the case 310 that are open.

The vibration plate 330 is vibrated by a permanent magnet 320 vibrating by a magnetic field generated by the principle of Lorentz force according to the direction of the current provided to the vibration coil 340.

Accordingly, the direction of the magnetic field generated by the vibration coil 340 changes according to the signal (direction of current) of the sound processor 100 or the implant 200, so that the permanent magnet 320 vibrates, and the The vibration is transmitted to the diaphragm 330 to transmit the vibration to the surrounding bones of the semicircular canal, the ossicles, or the temporal bones, so that the user can recognize sound through bone conduction.

Meanwhile, as shown in FIG. 2, a current is induced around the case 310 by a change in the magnetic field of the vibration coil 340, and the sound processor 100 or the transducer ( It may include a power generation coil 350 that supplies auxiliary power to the battery 210 connected to the 300. The battery 210 may be implanted in the human body or may exist outside the human body.

According to the embodiment (a) of FIG. 2, the power generation coil 350 is divided and provided on both sides of the case 310, so that the electric current induced by the change in the magnetic field caused by the vibration of the permanent magnet 320 is transferred to the battery ( 210) can be supplemented. In this case, the power generation coil 350 may be wound around the case 310 to vibrate together with the transducer 300, or may be physically separated from and fixed to the case 310, thereby preventing the vibration of the transducer 300. It can be fixed at the same time. Even when the transducer 300 or the permanent magnet 320 vibrates, if the power generation coil 350 is in a fixed state, the amount of the recovered power increases.

According to the embodiment (b) of FIG. 2, the power generation coil 350 is provided in the center of the case 310 to transmit a current induced by a change in a magnetic field due to vibration of the permanent magnet 320 to the battery 210. It can be supplied auxiliary. In this case, the power generation coil 350 may be wound around the case 310 to vibrate together with the transducer 300, or may be physically separated from and fixed to the case 310, thereby preventing the vibration of the transducer 300. It can also be in a fixed state at the same time. Even when the transducer 300 or the permanent magnet 320 vibrates, if the power generation coil 350 is in a fixed state, the amount of the recovered power increases.

Meanwhile, the location of the power generation coil 350 or the vibration coil 340 is not limited to the embodiment of FIG. 2 and may be variously positioned inside or outside, the center or both sides, or one end of the case 310, respectively. Can be seen.

On the other hand, the transducer 300 includes, as an embodiment, the ossicles vibration type installed in the ossicles and the temporal bone vibration type installed in the temporal bones.

In the case of the ossicles vibration type, the installation space is small, so it is manufactured in a compact size of 2 mm or less, and the power consumed is small and the vibration can be transmitted directly to the cochlea, but the maximum size has a size of 2 mm or less, which is recovered by the power generation coil 350. The amount of power may be low.

On the other hand, in the case of the temporal bone vibration type, since there is a distance from the cochlea, the vibration output must be high and a lot of batteries may be consumed, but the installation space is wider than that of the isobone vibration type, so it can be manufactured in a size of 10 mm or more, and the amount of power recovered by the power generation coil 350 This is relatively very high.

That is, when the transducer 300 is located in the ossicles, the maximum size may have a size of 2 mm or less, so that the amount of power recovered by the power generation coil 350 may be small, but when it is located in the temporal bone, it may be manufactured with a size of 10 mm or more So the recovered power can be increased as much as possible.

By providing the present invention configured as described above, the change in the magnetic field generated by the vibration of the transducer can be recovered as electrical energy and used as auxiliary power, and there is an effect of extending the operating life of the battery or implantable hearing aid.

The terms and words used in the present specification and claims described above should not be construed as being limited to their usual or dictionary meanings, and the present inventors appropriate the concept of terms to describe their own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention on the basis of the principle that it can be defined.

Therefore, the configurations shown in the drawings and embodiments described in the present specification are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, and thus can be replaced at the time of application. It is to be understood that there may be a variety of equivalents and variations that may exist.

100: sound processor
200: implant
210: battery
300: transducer
310: case
320: permanent magnet
330: diaphragm
340: vibrating coil
350: power generation coil

Claims (5)

A sound processor 100 for converting sound into an electrical signal;
A transducer 300 that vibrates by receiving an electrical signal from the sound processor 100; And
Including a power generation coil 350 for obtaining electrical energy by harvesting energy for the change in the magnetic field generated in the transducer 300,
The transducer 300,
A case 310 with one or both sides open;
A vibration coil 340 that is wound around the case 310 and forms a magnetic field according to a signal from the sound processor 100;
A permanent magnet 320 provided inside the case 310 and capable of vibrating according to the direction of a magnetic field;
It includes a vibration plate 330 provided on one or both sides of the case 310 open to transmit the vibration of the permanent magnet 320,
Further comprising an implant 200 for receiving the signal from the sound processor 100 by wire or wirelessly, converting it into a signal of a specific pulse, and transmitting it to the transducer 300,
The vibration coil 340 is wound on the inside of the case 310 and changes the direction of the current according to the electric signal transmitted from the sound processor 100 or the implant 200 to change the magnetic field inside the case 310. Change the direction of
The power generation coil 350 is wound around the outer periphery of the case 310, a current is induced by a change in the magnetic field of the vibration coil 340, and supplies power to the battery 210 by the induced current. Implantable hearing aid using energy harvesting, characterized in that.
delete The method according to claim 1,
The power generation coil 350 is implanted hearing aid using energy harvesting, characterized in that provided at both ends of the case (310).
The method according to claim 1,
The power generation coil 350 is implanted hearing aid using energy harvesting, characterized in that provided in the center of the case (310).
The method according to claim 1,
The transducer 300 is an implantable hearing aid using energy harvesting, characterized in that it is installed in the user's ossicles or temporal bones.

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