JP2007013247A - Earhole type hearing aid having data communication function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hearing aid which is used by being inserted to an external auditory meatus and to which a data communication function is added without remarkably changing the outward form. <P>SOLUTION: An RFID is incorporated into the hearing aid mounted on the external auditory meatus, not a 1/2 wavelength antenna having been used for a loop antenna conventionally, but a one-side-end open 1/4 wavelength antenna is connected to one side of a chip pad, and part of the antenna is embedded to a removable wire for taking out the hearing aid from the external auditory meatus to enable communication with an external device, so that the hearing aid is configured to transmit a product identification number or the like by radio communication, naked eye recognition of which has been difficult since the product identification number is printed in small letters conventionally. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an ear hole type hearing aid having a data communication function such as RFID capable of communicating with the outside and capable of being mounted in an external auditory canal.

Hearing aids, especially products of the type attached to the ear canal, are only about 1 cm ³ in size, and the outer dimensions are so small that there is no space for printing barcodes commonly used in distribution industry inventory management. The reality is that only product management is possible to print the serial number with small letters on the case. In the production line, only the serial number written in these small letters is relied on, and although it is difficult to see with the naked eye even if it is close to the eyes, it is difficult to see with a magnifying glass. Management mistakes also occurred. For this reason, it is hoped that the development of technology to read specific data (manufacturing number, etc.) of hearing aids easily and reliably by means of communication with the outside, rather than reading small letters written on the hearing aid body, at the production line or dealer. It was rare.

    First, a general configuration of an ear hole type hearing aid that can be mounted in the ear canal will be described with reference to FIG. As a basic configuration of the ear hole type hearing aid, a microphone 11, a hearing aid circuit 13, an earphone 12, a battery 14, and a removable wire 2 are provided inside a shell 1 that contacts the ear canal.

In the configuration of this hearing aid, the microphone 11 converts an external acoustic signal into an electrical signal. This electrical signal is subjected to hearing aid processing by the hearing aid circuit 13 and is converted into a sound that is easy for the user to hear. Further, the sound signal is converted from an electric signal to an acoustic signal by the earphone 12 and output. These components are all housed in the shell 1 and sealed with the face plate 1a. The shell 1 has an external shape that matches the internal shape of the ear canal of the person using the hearing aid. The hearing aid shell 1 is provided with a cover 1a. The cover 1a has an audio inlet that is acoustically coupled to an audio input end of the microphone 11 by an acoustic tube. Further, a hearing aid circuit 13 such as a volume control device is connected to the microphone 11, and after the signal processing for correcting the frequency characteristic of the signal of the microphone 11 in accordance with the hearing characteristic of the user by the hearing aid circuit, the earphone. 12 is output. The battery 14 that drives the hearing aid circuit 13 is housed in a battery chamber that can be opened and closed with a button or screw from the outside. The volume of the hearing aid is about 1 cm ³ and there is a space for adding an RFID chip, but there is no space for an antenna that receives radio waves, a circuit that amplifies radio waves from the outside, and its driving power source.

  There is also a removable wire 2 protruding from the body of the hearing aid. This is a member peculiar to the ear-hole type hearing aid, and is provided to enable removal of the hearing aid inserted deeply into the ear canal from the ear canal.

  Here, as means for realizing communication between the ear hole type hearing aid that can be mounted in the external auditory canal as described above and the outside, the removable wire is made multifunctional, and an infrared signal is used instead of a radio wave that is restricted by an antenna. A technique of using and communicating with the outside is known (Patent Document 1). In this technique, after an infrared detector receives an infrared signal, the infrared signal can be converted into an electrical signal, and these electrical signals can be supplied to an output terminal.

  In addition to the above, there is also known a data transmission device for a hearing aid that uses the coil as a transmission / reception antenna device in a modulatable transmission circuit composed of a coil and a capacitor for generating a variable transmission signal in the hearing aid. (Patent Document 2). This has a current source that can be controlled by a comparator so that energy is supplied to the transmitter circuit only during one half-wave, and uses an LC oscillator circuit as a transmitter oscillator instead of a crystal oscillator, so the space is small. In addition, since the coil can be used as an antenna for a dielectric transmission system, it occupies less space and consumes less current.

Further, regarding the miniaturization of the antenna, an antenna element in which two coaxial cables are arranged in parallel with a length of about 1/4 of the transmission signal wavelength is provided, and each central conductor at one end of the two coaxial cables is provided. A technique is also known in which a thin and small antenna is configured by connecting an external conductor and an external conductor at a connection portion, and connecting the other end to a power supply portion and the other end to a ground (Patent Document 3).
Japanese Patent Laid-Open No. 05-176398 JP 2004-248281 A Japanese Patent Laid-Open No. 2004-187055

  As described above, none of the conventional ear hole type hearing aids have means for communicating with the outside, and there is only a method for reading the product number written in lower case on the outer case as the specific information of the hearing aid. On the other hand, with conventional RFID antennas that operate without batteries, it is difficult to reduce the size of the antenna if it is built in a hearing aid, or even if the size can be reduced, the communication distance is extremely shortened to several millimeters. There was a problem.

  In order to solve this problem, for example, in Patent Document 1, an infrared signal introduced from a removable wire is converted into an electrical signal using infrared rays, and data is transmitted to the electrical circuit of the hearing aid. If you try to use it to send out the individual control number of a hearing aid, you can't use it unless the hearing aid is turned on, and because it has infrared directivity, you can't use it without considering the orientation of the removable wire. There's a problem.

  In Patent Document 2, if the coil of the LC transmission circuit is used as a transmission / reception antenna device, for example, if 2.45 GHz is used as the communication carrier frequency, the free space wavelength is about 61.2 mm. When the coil is used as a large pole antenna, it cannot be stored in the ear insert type hearing aid body. In the case of a chip using a low frequency, the number of turns of the coil is required. At 125 kHz, it is necessary to wind 200 times, 13.56 MHz, or 3-4 times, and in the case of 13.56 MHz, for example, a communication distance of about 10 cm. Since the effective area of the antenna of a credit card is required to secure the above, it cannot be stored in the ear insertion type hearing aid main body.

  Further, Patent Document 3 discloses a technique of using two ultrafine coaxial cables having a quarter wavelength length of a communication carrier signal as a short antenna by arranging the ends and connecting the tips. However, since this antenna is a feeding type and grounded antenna, a transmission circuit is required. However, there is no space for incorporating an additional battery into the hearing aid, and if the voltage of the existing button battery 11 is boosted and used, The operating time of the essential hearing aid must be sacrificed and is not practical in the intended use of the present invention (ear-insertion type hearing aid).

  As a similar technology, handheld radios use not only the half-wave whip type but also the quarter-wave whip type using a short antenna. Yes, it is an antenna that cannot be used for an ear insertion type hearing aid that is a low-power device.

  An object of the present invention has been made in view of the above circumstances, and in an ear-hole type hearing aid, a hearing aid having a data communication function having non-orientated sensitivity without changing the outer shape or the usability (the appearance size or battery life of the hearing aid) Is to provide.

  In order to solve the above-mentioned problems, in the invention of claim 1, in the ear hole type hearing aid that can be mounted in the ear canal, the ear hole type hearing aid incorporates an RFID chip having specific information of the hearing aid, A removable wire is included, and the removable wire constitutes a part of the antenna attached to the RFID chip.

  As a result, the ear-hole type hearing aid that can be installed in the ear canal can communicate with the outside using radio waves, and the specific information (manufacturing) of the hearing aid can be easily and quickly performed without reading small characters written on the hearing aid exterior. Serial number, etc.) can be obtained, so that the work efficiency at the manufacturing site is improved and the conventional work mistakes are eliminated. In addition, since the manufacturing number used for in-factory management and the serial number at the time of shipment can be registered in the RFID with different numbers while data linking, there is an effect that shipping work and product management become easy.

  Further, the invention of claim 2 is configured to use an RFID that operates using a carrier frequency of 2.45 GHz or more.

  As a result, since the carrier frequency having a wavelength of 12 cm or less can be used, the antenna can be miniaturized.

  Furthermore, in the invention of claim 3, the antenna has a loop antenna configuration, and only one of the two chip pads of the RFID chip is connected to the antenna, and the length of the antenna attached to the RFID chip is RFID. Is configured to be less than ½ and ¼ or more of the wavelength in the center carrier signal in which the s is operated.

  As a result, the antenna length is such that the RFID can be used in the ear-hole type hearing aid that can be mounted in the ear canal that cannot be stored because it is too long at a half wavelength of the carrier signal required by a conventional loop antenna or the like. be able to.

  According to a fourth aspect of the present invention, the antenna has a loading antenna configuration, and a loading coil is provided at the tip of the take-out means.

  As a result, an antenna having a higher gain than the loop antenna can be used, so that the reading distance becomes longer and product management at a factory or the like becomes easier.

  Furthermore, in the invention of claim 5, the antenna has a GP antenna configuration, and a vertical pole portion of the GP antenna is built in a removable wire, and the vertical pole portion of the GP antenna is used as one of the chip pads of the RFID chip. Then, another chip pad of the RFID chip is connected to a radial portion that also serves as a means for preventing removal of the removable wire.

  Accordingly, when the hearing aid is pulled out from the external auditory canal by pulling the removable wire, it is blocked by the radially extending radial connection portion, and thus the removable wire is difficult to come off.

  In the ear hole type hearing aid having the data communication function according to the present invention, since the removable wire and the antenna in the ear hole type hearing aid can be shared, the outer dimensions are the same as those of the conventional hearing aid and the usability is not changed. However, since the RFID chip is built in, it is possible to read the management number and the like through radio waves in the factory and the store by using a reading device, so that the work time is shortened and the conventional method is used. Since there is no need to read small characters printed on the main body, there are no management mistakes or mistakes in the factory.

  FIG. 1A shows a first embodiment of the present invention and shows a hearing aid incorporating an RFID chip 3 that uses a quarter-wavelength antenna 4 of a loop antenna system. A removable wire 2 penetrating the face plate 1 a is inserted into the shell 1, and an antenna 4 is inserted into the removable wire 2. An RFID chip 3 is attached to the tip of the removable wire 2, and one end of the antenna 4 is connected to the RFID chip 3.

  FIG. 1B is a plan view of the RFID chip 3. The RFID chip 3 is provided with two chip pads 5 for connecting the antenna 4. Normally, both terminals of the antenna 4 are connected to the two, but in this embodiment, the antenna 4 is connected to only one of them. Connected and the other end of the antenna is open.

  In addition, when the withstand voltage characteristic of the RFID chip 3 is low, the RFID chip 3 may be charged when the radio wave from the reading device is strong, and the RFID chip 3 may be electrostatically broken. Can provide a discharge effect by providing a small discharge antenna 7 between the pads 5 and 5.

  FIG. 1C is a view of the RFID chip 3 seen from the side. A part of the internal wiring 5 a of the RFID chip connected to the RF interface circuit of the RFID chip 3 is exposed on the chip pad 5. A bonding wire 6 is used for electrical connection to the antenna 4 on the antenna substrate 4a directly or on the surface of the chip pad 5 that has been subjected to bump (Ag or lead-free solder) treatment.

  FIG. 2 shows a second embodiment of the present invention, which is a hearing aid incorporating an RFID chip 3 using helical antennas 8 and 8a. A removable wire 2 penetrating the face plate 1a is inserted into the shell 1, and a loading coil 8a is embedded in the removable wire 2 at the tip of the exposed portion. The antenna pole portion 8 connected to the loading coil 8a passes through the inside of the removable wire 2 and reaches the inside of the shell 1. An RFID chip 3 is attached to the tip of an antenna pole portion 8 that penetrates through the removable wire 2 and is connected to one of two wire bonding pads 5. Further, the other chip pad 5 of the RFID chip 3 and the grounding portion of the hearing aid circuit 13 are connected by an independent wire 6a and are grounded.

  The RFID chip 3 is molded together with the helical antennas 8 and 8a, one of the two chip pads on the chip is drawn out to the helical antennas 8 and 8a, and the other is pulled out of the mold with a lead wire, and the earphone 12 is made of metal. And a printed circuit board such as the hearing aid circuit 13 are grounded.

  In the above, the structure in which the RFID chip 3 is integrated with the removable wire 2 has been described. However, only the helical antennas 8 and 8 a are molded on the removable wire 2, and the RFID chip 3 may be provided at a place other than the removable wire 2. Conceivable. In this case, for example, the position of the RDID chip 3 may be soldered on the board of the hearing aid circuit 13 on-board, and only the antenna terminals of the board are connected to the helical antennas 8 and 8a built in the removable wire 2. Conceivable.

  FIG. 3A shows a third embodiment of the present invention, which is a hearing aid with a built-in RFID chip 3 that uses GP antennas 9 and 9a. A removable wire 2 penetrating the face plate 1 a is inserted into the shell 1, and a vertical pole portion 9 is inserted into the removable wire 2. An RFID chip 3 is attached to the tip of the removable wire 2, and an antenna penetrating the inside of the removable wire 2 is connected to one of two chip pads 5 of the RFID chip 3. Another chip pad 5 of the RFID chip 3 is connected to a radial 9 a mounted on a radial base 10.

  By fixing the radial base 10 to the face plate 1a and performing electrical connection processing such as soldering to the fixed radial base 10 through the radial 9a, the GP antenna radial base 10 has not only an antenna function. Also, it can have a function as a fixing means for the removable wire.

  FIG. 3B is an enlarged view of the RFID chip 3. A vertical element 9 is connected to the upper chip pad 5 by a bonding wire 6, and a lower chip pad 5 is connected to the upper end of an element 9 a by a bonding wire 6.

  In addition to the stand-alone mode (mode in which power is supplied from the outside to operate as an RFID tag) of the RFID communication part incorporated in the hearing aid, the RFID is operated in a state where the hearing aid is operated by the power source incorporated in the hearing aid. By electrically connecting the communication function to the hearing instrument control means, direct communication between the external device and the hearing aid body (CPU, memory, etc.) can be considered wirelessly, and bidirectional communication is also possible. Become.

  Traditionally, the manufacturing control number and shipping control number printed on a part of the hearing aid main body in small letters can be transmitted to the outside using radio waves as RFID internal data. This eliminates the need for the store clerk to read detailed characters when performing product verification, thereby reducing the work time. In addition, the bi-directional communication between the electronic circuit inside the hearing aid and the external device via the RFID communication means built in the hearing aid makes it possible to adjust the characteristics of the hearing aid directly from the outside or via the network.

(A) Hearing aid cross-sectional view with built-in RFID connected to a loop antenna (b) Enlarged view of the RFID chip part (c) View of the above RFIC chip from the side Hearing aid cross section with built-in RFID connected to a helical antenna (A) Cross-sectional view of a hearing aid with a built-in RFID connected to a GP antenna (b) Enlarged view of the RFIC chip part Front perspective view of a conventional ear hole type hearing aid that can be mounted in a conventional ear canal

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Shell 1a ... Faceplate 2 ... Removable wire 3 ... RFID chip 4 ... Antenna 4a ... Antenna board 5 ... Chip pad 5a ... Internal wiring of RFID chip 6 ... Bonding wire 6a ... Wire 7 ... Discharge antenna 8 ... Antenna pole part 8a ... Loading coil 9 ... Vertical element 9a ... Radial 10 ... Radial base 11 ... Microphone 12 ... Earphone 13 ... Hearing aid circuit 14 ... Battery

Claims (5)

In the ear hole type hearing aid that can be mounted in the ear canal, the ear hole type hearing aid has a removable wire containing an RFID chip having specific information of the hearing aid, and the removable wire is one of the antennas attached to the RFID chip. Ear hole type hearing aid having a data communication function characterized in that it constitutes a part. The hearing aid according to claim 1, wherein the RFID chip operates using a frequency of 2.45 GHz or more. 3. The hearing aid according to claim 1, wherein the antenna has a loop antenna configuration, only one of two chip pads of the RFID chip is connected to the antenna, and the antenna attached to the RFID chip. The ear hole type hearing aid having a data communication function is characterized in that the length is less than ½ and ¼ or more of the wavelength in the center carrier signal in which the RFID operates. 3. An ear hole type hearing aid having a data communication function according to claim 1, wherein the antenna has a loading antenna configuration, and a loading coil is provided at a tip of the take-out means. 3. The hearing aid according to claim 1, wherein the antenna has a GP antenna configuration, a vertical pole portion of the GP antenna is built in a removable wire, and the vertical pole portion of the GP antenna is a chip pad of an RFID chip. An ear hole type hearing aid having a data communication function, characterized in that the other chip pad of the RFID chip is connected to a radial portion that also serves as a means for preventing removal of the removable wire.