KR101385189B1 - Hearing aid - Google Patents

Abstract

The present invention is a continuous hearing aid consisting of the internal structure of the microphone 10, the amplifier 20, the receiver 30 and the like, and the outer structure of the shell 70, which is double coated with a surfactant 72 and copper 71. According to the double-coated ear hearing aid of the shell 70, first, it is possible to prevent dust from adsorbing to the hearing aid or to get grease through the surfactant of the outer coating layer, and through copper having high thermal conductivity of the inner coating layer. By transferring the body temperature inside the hearing aid, it is possible to remove naturally occurring internal moisture from the hearing aid itself without passing through other instruments.

Description

Double Coated In-Ear Hearing Aids {HEARING AID}

The present invention relates to a hearing aid having a double coating on the surface of the hearing aid shell to prevent contact with moisture, dust, grease, etc., which causes hearing aid failure.

Hearing aids consist of a microphone that accepts sound, an amplifier that makes the sound louder, a receiver that converts the amplified sound to sound waves, and a volume control. The hearing aid is built into the shell except for the volume control. Or dust, earwax or oil, which may cause hearing aid failure.

Hearing aids include eyeglasses, hairpins, tiepins, pockets, earrings, etc. Recently, an invisible ear (ITE: In The Ear) is mainly used, and the present invention relates to an ear hearing aid. .

Because the ear hearing aid is inserted inside the ear, it is susceptible to failure by foreign objects. In particular, due to the high humidity in the summer or high humidity immediately after exercise, hearing aids, which are precision devices, may be broken. In addition, grease caused by secretions in the ear may worsen the hygiene of hearing aids and cause breakdown.

Therefore, due to such a failure, the user is inconvenient to periodically visit the hearing aid center for cleaning or to manage the financial burden of the new product.

Hearing aids with functions to solve this problem have been proposed. For example, according to Korean Patent Laid-Open Publication No. 10-2008-0092696, the acoustic vent is optimized for the hearing aid body, and the nanoparticle material of the molecular size is properly mixed with the UV-curing material on the body of the hearing aid using a silver nano-material. There is a hearing aid which improves sterilization and antibacterial function by coating. According to this document, sterilization and antimicrobial functions, which are inherent characteristics of silver nanoparticles, are improved, and air vents are smoothed through acoustic vents to prevent sweat and water vapor from inside the ear canal and block germs. Improved antibacterial function However, there is still insufficient to block dust, earwax and grease penetrating into the hearing aid in advance, and to remove the moisture inside the hearing aid.

The present invention is to minimize the exposure from moisture, dust, earwax and oil that penetrates the hearing aid as described above, causing a failure, and a special double of the hearing aid itself shell for hearing aid users who are not comfortable with periodic hygiene management The purpose of the coating alone is to reduce and prevent failures due to moisture and dust in advance.

In order to achieve the above object, the present invention is characterized by double-coating a surfactant and copper on the surface of the shell in which the main electronic components of the hearing aid are built.

The surface of the hearing aid shell is primarily coated with copper, and the upper surface of the hearing aid shell is coated with a surfactant. At this time, the surface of the shell is coated with copper by electroless plating, and a special coating solution containing a surfactant is coated thereon. Heat treatment.

According to the double-coated ear hearing aid of the present invention, first, the surface of the hearing aid can be prevented from adsorbing dust or grease to the hearing aid through the surfactant of the outer coating layer, and the body temperature of the inner ear through the copper having high thermal conductivity of the inner coating layer. Hearing aids can be removed on their own without passing through other instruments.

1 is a wearing state showing a state in which a general ear-type hearing aid is inserted into the ear,
Figure 2 is a perspective view of the hearing aid according to the general technique,
3 is a cross-sectional view schematically showing the structure of a special double coated shell of a double coated ear hearing aid according to the present invention.

When described in detail with reference to the accompanying drawings an embodiment according to the present invention.

1 is a wearing state showing a state in which a general ear hearing aid is inserted into an ear, FIG. 2 is a perspective view of a hearing aid according to a general technique, and FIG. 3 is a double coated ear hearing aid according to the present invention. A schematic cross-sectional view of the structure of a special double coated shell 70 is shown.

In order to remove and prevent moisture, dust, earwax and oil, which are the causes of hearing aid failure, the hearing aid is equipped with a special double-coated shell 70 to extend the life of hearing aids to general hearing aid users. Instead of the inconvenience caused by visiting or maintaining hearing aid centers, it is intended to provide convenience to general hearing aid users by eliminating and preventing the cause of the above-mentioned failure by only the function of the hearing aid itself.

The structure of the hearing aid according to the present invention is similar to the structure of the general hearing-type hearing aid shown in FIG. 2, and the main electronic components such as the microphone 10, the amplifier 20, the receiver 30, and the like are the appearance of the hearing aid, that is, the shell 70. It is composed of a form built in.

However, the present invention in the above configuration, unlike the conventional ear-type hearing aid, the shell of the hearing aid is manufactured by special double coating with a surfactant 72 and copper 71 as shown in Figure 3, first, the external surfactant coating layer (72) prevents the adsorption of dust on the hearing aid or grease, which is similar in function to the washing of soap and the like. That is, oily substances such as dust or dirt are mostly molecules composed of hydrocarbon chains, and since they have compatibility with the hydrocarbon portion of the surfactant and the non-polar tail portion, when the surfactant molecule encounters an oily substance, In addition, the hydrocarbon chain of the surfactant surrounds it to form micelles. The interaction of the micelle surface removes dirt and grease.

On the other hand, if the existing ear hearing aid is coated with a strong moisture resistance or hydrophobic material, the present invention is coated with a high thermal conductivity copper 71 to increase the dehumidification effect by transferring the body temperature of the ear inside the hearing aid. Of course, since the body temperature is a heat source, the temperature in the hearing aid does not have a sudden change due to heat.

As mentioned above, the two coating layers doublely surround the shell 70 with the surfactant coating layer 72 on the outside and the copper coating layer 71 inside the bottom. That is, as shown in FIG. 3, the shell 70 of the hearing aid is first coated with copper 71, and the surfactant 72 is coated thereon to coat the two layers.

In general, since the shell 70 is made of plastic, when the copper 71 is coated on the shell 70, electroless plating is performed by plating through a chemical reaction without using electricity. Copper is one of the most commercially available plating materials. The copper is self-catalytically reduced by a reducing agent of an aqueous metal salt solution without receiving electrical energy from the outside, thereby depositing and coating copper 71 on the surface of the shell 70. Electroless plating has a uniform coating compared to electroplating and has a uniform thickness of approximately 25 μm, resulting in a uniform coating.

Next, in order to coat the surfactant 72 thereon, a special coating liquid containing the surfactant is coated on the surface of the shell 70 of the hearing aid plated with copper 71 and heat-treated.

Microphone 10
Amplifier 20
Receiver 30
Volume control 40
Battery compartment 50
On / off switch 60
Shell 70
Copper Coating (Inner Coating) 71
Surfactant Coating Layer (External Coating Layer) 72

Claims (4)

In order to remove and prevent moisture, dust, earwax and oil when it penetrates the hearing aid, it is equipped with a shell 70 coated with a surfactant 72 and a copper 71 and is primarily equipped with the function of the hearing aid itself. Double coated ear hearing aid to prevent internal failure. 2. The hearing aid according to claim 1, wherein the outer coating layer of the double coated shell (70) consists of a surfactant (72), and the lower inner coating layer is a double coating of copper (71). The double coated ear hearing aid according to claim 1 or 2, wherein the shell (70) is coated with copper (71) by electroless plating.  The method according to claim 1 or 2, wherein the coating liquid containing the surfactant is coated on the surface of the shell 70 of the hearing aid plated with copper 71 to heat the coating of the surfactant 72. Coated ear hearing aid.

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