KR100714233B1 - Wireless Hearing Aid using Magnetic Field Generated by Necklace-type Electric Wire - Google Patents

Abstract

It is an object of the present invention to minimize the size of the ear shell inserted into the ear hole and to eliminate the howling of the voice, and at the same time, to block the electromagnetic waves so as not to be largely affected by electromagnetic interference from other electromagnetic wave generators around the necklace type To provide a wireless hearing aid using a magnetic field generated by the.

Wireless Hearing Aid Using Magnetic Field Generated by Necklace-type Wire

Description

Wireless Hearing Aid using Magnetic Field Generated by Necklace-type Electric Wire}

1 is a view schematically showing a wireless hearing aid using a magnetic field generated by a wire in the form of a necklace according to an embodiment of the present invention,

FIG. 2 is a circuit diagram of a receiving sound processor in a wireless hearing aid using a magnetic field generated by a necklace-shaped wire according to an embodiment of the present invention.

3 is a perspective view illustrating a state in which a battery door of an ear shell is opened in a wireless hearing aid using a magnetic field generated by a necklace-type wire according to an embodiment of the present invention;

FIG. 4 is an exploded schematic view of a circuit of a receiving sound processor provided on the face plate rear side of the ear shell in FIG. 3;

FIG. 5 is a diagram illustrating a reception acoustic processing unit of a wireless hearing aid using a magnetic field generated by a necklace-shaped wire according to an embodiment of the present invention, and inserting a shell into an ear hole to evaluate a reception sensitivity of sound; FIG.

FIG. 6 is a side view of FIG. 5.

<Description of the code | symbol about the principal part of drawing>

1: First battery 2: Voltage regulator
3: microphone 4: transposition OP amplification means
5: power OP amplification means 6: low pass filter
7: switch 10: receiving sound processing unit
20: Ear shell 21: Face plate
21a: Receptacle 21b: switch
22: Second Battery 23: Telecoil
24: amplification means 25: volume control means
26: Tube 27: receiver
28: molding 29: door
30: printed circuit board

The present invention relates to a wireless hearing aid using a magnetic field generated by a wire in the form of a necklace. In particular, it is possible to minimize the size of the ear shell to insert the ear hole and to eliminate the howling of the voice. The present invention also relates to a wireless hearing aid using a magnetic field generated by a necklace-shaped wire that can block electromagnetic waves.
In general, among the hearing aids developed or marketed so far, wired receivers are easy to touch the wires for wired receivers while stirring the wires while wearing wired receivers. .
In addition, existing products that transmit the voice output of a small radio, MP3 or cordless phone to the ear to a wired receiver have an inherent problem that it requires a cumbersome wire. In addition, pocket hearing aids are wired in a social climate that emphasizes appearance. Due to the trend of avoiding the use of hearing aids, they are gradually faced by users.
Due to these problems, wireless hearing aid technology has been developed and released as products instead of wired hearing aids, but most of them are based on the transmission and reception of FM radio waves.
The transmission and reception by FM radio must be equipped with an antenna, include a modulation and demodulation circuit of an audio signal, and increase the transmission frequency in order to shorten the antenna. The FM wireless hearing aid technology, which attempts to make the size as small as possible, has a problem that it is difficult to handle the physical size of the antenna and the demodulation circuit.

Accordingly, the present invention has been made to solve the above various problems, and an object of the present invention is to minimize the size of the ear shell inserted into the ear hole and to eliminate the howling of the voice. To provide a wireless hearing aid using.

It is another object of the present invention to provide a wireless hearing aid using a magnetic field generated by a necklace-shaped wire that can block electromagnetic waves so that electromagnetic interference from other electromagnetic wave generating apparatuses in the vicinity is largely prevented.
The present invention has been made in order to achieve the above object, the present invention is to receive the sound to filter the noise, amplified to a predetermined level to generate a magnetic field, and a sound field generating unit is output from the magnetic field generating wire of the receiving sound processor The magnetic shell wirelessly receives a telecoil and filters and amplifies the noise to output sound pressure through the receiver to the eardrum.

Hereinafter, a wireless hearing aid using a magnetic field generated by a necklace-shaped wire according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a wireless hearing aid using a magnetic field generated by a necklace-type wire according to an embodiment of the present invention, Figure 2 is generated by a necklace-type wire according to an embodiment of the present invention 3 is a circuit diagram of a receiving sound processing unit in a wireless hearing aid using a magnetic field, and FIG. 3 is a view showing an opening of a battery door of an ear shell in a wireless hearing aid using a magnetic field generated by a necklace-shaped wire according to an embodiment of the present invention. Figure 4 is a perspective view showing a state, Figure 4 is an exploded schematic view of the circuit of the receiving acoustic processor installed on the face plate rear side of the ear shell in Figure 3, Figure 5 is a necklace according to an embodiment of the present invention The receiver acoustic processing section of the wireless hearing aid using the magnetic field generated by the electric wires is hung on the neck and the shell is inserted into the ear hole A diagram for evaluating the reception sensitivity of the direction, Figure 6 is a picture seen from the Figure 5 side.

1 to 6, the wireless hearing aid 100 using a magnetic field generated by a necklace-shaped wire according to an embodiment of the present invention receives sound, filters noise, amplifies to a predetermined level, and generates a magnetic field. Receiving sound processing unit 10 for generating a reception, and the magnetic field output from the magnetic field generating wire (L1) of the receiving sound processing unit 10 by wireless in the telecoil 23 to filter and amplify the noise to receive the receiver (27) The ear shell 20 is configured to output sound pressure through the eardrum.

The reception sound processor 10 filters a noise included in a first battery 1 for supplying operation power when the switch 7 is switched on and a DC voltage supplied from the first battery 1, and then direct current voltage. Noise is filtered by the first and second capacitors C1 and C2 and the first and second capacitors C1 and C2 connected in parallel to each other to stabilize the A voltage regulator 2 for adjusting and outputting a microphone, a microphone 3 receiving a DC signal adjusted to a constant DC voltage by the voltage regulator 2 as an operating power source, and receiving an acoustic signal, and receiving by the microphone 3 Receiving a sound signal to cut off a DC component, receiving a first high pass filter C3 for passing an acoustic signal of an AC component, and an AC signal output from the first high pass filter C3 to receive a resistor R4; R2 and the first variable resistor VR A pre-OP amplifying means 4 for amplifying at an amplification degree determined by 3), a low pass filter C7 for filtering noise by receiving an acoustic signal amplified to a predetermined level by the pre-OP amplifying means 4, and A second high pass filter C5 which receives an acoustic signal of an AC component from which noise is filtered by the low pass filter C7, cuts off a DC component, and outputs an acoustic signal of the AC component; and the second high pass filter C5 Power OP amplifying means (5) for receiving current through the second variable resistor (VR7) for determining the amplification ratio and amplifying current to match the impedance, and the power OP amplifying means (5) A low pass filter 6 for filtering the noise contained in the output current-amplified sound signal and the low-pass filter 6 receives a current-amplified sound signal filtered with noise, and blocks the DC component, Output sound signal of It is composed of a third high pass filter (C6) and the third high pass filter (C6) magnetic-field generating wires (L1) for generating a magnetic field when flow the acoustic signals of the AC component to be output to.

The ear shell 20 is disposed in the accommodating portion 21a formed in the face plate 21 to supply the operating power, and a DC voltage (1.4 Vdc) supplied from the second battery 22. ) And a fourth capacitor C20 for stabilizing the DC voltage by filtering the noise included in the C) and a 100 Hz to 10 KHz band generated when an acoustic signal of an AC component flows through the magnetic field generating wire L1 of the receiving sound processor 10. Telecoil 23 which is induced by a low frequency magnetic field and outputs a secondary induced acoustic signal of an AC component, and secondary induction of an AC component which is connected in parallel to the telecoil 23 and output from the telecoil 23 Noise filter capacitor C21 for filtering the noise included in the acoustic signal, and the AC component of the noise filter is filtered by the noise filter capacitor C21 by receiving a DC voltage from the second battery 22 as an operating power source. Car induction sound An amplification means 24 for receiving the direction signal and amplifying the signal to a predetermined level, a volume adjusting means 25 for receiving a secondary induced acoustic signal amplified to a predetermined level by the amplifying means 24 and adjusting the volume to a predetermined level; The receiver 27 is configured to receive the secondary induced acoustic signal adjusted to a predetermined level by the volume adjusting means 25 and output sound pressure to the eardrum through the tube 26.

The volume adjusting means 25 is preferably used a variable resistor.

In FIG. 2, R1 and R5 divide the DC voltage 12Vdc outputted from the battery 1 into 1/2 at the time of switching on the switch 7, and transfers a DC voltage of 6Vdc to the pre-OP amplifier 4. R6 is a divider resistor for supplying operating power, R6 is a resistor for reducing the DC voltage of 5Vdc applied to the microphone 3 to a DCV of 2.5Vdc, C4 is a third capacitor for stabilizing the voltage, and C8 is a voltage Distributing capacitor.

The low pass filter 6 is composed of a resistor R8 and a capacitor C9.

Each component of the reception sound processor 10 is provided on a printed circuit board 30 as shown in FIGS. 1 and 6.

In Fig. 3, reference numeral 28 denotes a molded product of the ear shell 20 inserted into the ear hole, and the face plate 21 is covered with the enlarged diameter portion exposed to the outside of the molded product 28, i.e., the outer ear hole. In FIG. 3 and FIG. 4, in FIG. 29, the accommodating part 21a does not detach the second battery 22 after the second battery 22 is inserted into the accommodating part 21a formed in the face plate 21. ) Is a door covering.
Next, the operation and effect on the wireless hearing aid using the magnetic field generated by the necklace-shaped wire according to the present invention configured as described above will be described.
First, when the ear shell 20 is inserted into the ear hole and the switch 21b provided on the face plate 21 of the ear shell 20 is switched on, the second battery 22 installed in the ear shell 20 is turned on. After filtering the noise included in the DC voltage (1.4Vdc) supplied by the fourth capacitor (C20) to stabilize the DC voltage, the DC voltage is supplied to the amplifying means 24 as an operating power source.
When the reception sound processor 10 switches on the switch 7, the DC voltage supplied from the first battery 1 is applied to the pre-OP amplifier 4 and the power OP amplifier 5. At the same time it is applied, it is divided in half to supply a DC voltage of 6 Vdc to the preamplifier OP amplification means 4.
At the same time, the DC voltage supplied from the first battery 1 stabilizes the DC voltage by filtering the noise included in the DC voltage from the first and second capacitors C1 and C2 so as to be constant in the voltage regulator 2. The voltage is applied to the microphone 3 by adjusting the DC voltage.
Accordingly, the microphone 3 receives an external sound signal, the sound signal received by the microphone 3 blocks the DC component in the first high pass filter C3, and converts the sound signal of the AC component into the transposed signal. It is input to the OP amplification means 4 and amplified by the amplification degree determined by the resistors R4 and R2 and the first variable resistor VR3.
After the noise is filtered by the low pass filter C7, the acoustic signal amplified to a predetermined level by the pre-OP amplifier 4 blocks the DC component in the second high pass filter C5, and the acoustic signal of the AC component. Is input to the power OP amplifying means 5 through a second variable resistor VR7 which determines the amplification factor.
The acoustic signal of the AC component inputted to the power OP amplifying means 5 is amplified by a current at an amplification rate set by the second variable resistor VR7, and the current amplified by a predetermined level by the power OP amplifying means 5. The signal cuts off the DC component in the third high pass filter C6 after the noise is filtered by the low pass filter 6 including the resistor R8 and the capacitor C9, and outputs an acoustic signal of the AC component. A magnetic field is generated when an acoustic signal of an AC component output from the third high pass filter C6 flows through the magnetic field generating wire L1.
When the magnetic field generating wire L1 is placed on the neck, the low frequency magnetic field generated in the magnetic field generating wire L1 in the range of 100 Hz to 10 KHz is installed on the face plate 21 of the ear shell 20 through the human body, particularly the head. The secondary induced acoustic signal of the AC component is induced in the telecoil 23, and the secondary induced acoustic signal of the AC component induced in the telecoil 23 is used for the noise filter connected in parallel to the telecoil 23. The capacitor C21 filters the noise included in the secondary induced acoustic signal of the AC component.
The secondary induced acoustic signal of the AC component in which the noise is filtered by the noise filter capacitor C21 is amplified by the amplifying means 24 to a predetermined level, and the second of the AC component amplified to a predetermined level by the amplifying means 24. The differential guidance acoustic signal is adjusted to a predetermined level in the volume adjusting means 25 so that the receiver 27 outputs the sound pressure of the secondary induced acoustic signal to the eardrum of the human body through the tube 26 to listen to the sound. have.
Therefore, the present invention prevents the sound pressure output from the receiver 27 by the face plate 21 on the ear shell inserted into the ear hole to feed back to the microphone 3 of the receiving sound processor 10 so as to prevent voice feedback. In addition to eliminating the noise, the electromagnetic wave can be blocked so that the electromagnetic wave is generally not disturbed by other electromagnetic wave generating apparatuses, and the second battery 22, the telecoil 23, the amplification means 24, Since the capacitors C20 and C21, the volume controller 25, the receiver 27, and the tube 26 are accommodated, the size of the ear shell 20 can be minimized.
In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the wireless hearing aid using the magnetic field generated by the necklace-shaped wire of the present invention, the size of the ear shell inserted into the ear hole can be minimized, and the howling of the voice can be eliminated. The present invention relates to a wireless telecoil receiver using a magnetic field generated by a wire in the form of a necklace capable of blocking electromagnetic waves, which are not generally subjected to electromagnetic interference.

Claims (3)

Receiving sound is filtered, the noise is amplified to a predetermined level to generate a magnetic field receiving acoustic processing unit 10, and the magnetic field output from the magnetic field generating wire (L1) of the receiving acoustic processing unit 10 telecoil (23) Wireless hearing aid using a magnetic field generated by a wire in the form of a necklace, characterized in that it consists of an ear shell 20 for wirelessly receiving and filtering and amplifying noise to output sound pressure to the eardrum through the receiver 27. The method of claim 1, wherein the receiving sound processor 10 is included in the first battery (1) for supplying the operating power when switching on the switch 7 and the DC voltage supplied from the first battery (1) DC voltage stabilized by filtering noise from the first and second capacitors C1 and C2 and the first and second capacitors C1 and C2 connected in parallel to each other to stabilize the DC voltage by filtering noise. A voltage regulator (2) for receiving and adjusting and outputting a constant DC voltage, a microphone (3) receiving a DC signal adjusted to a constant DC voltage from the voltage regulator (2) as an operating power source and receiving an acoustic signal, and the microphone A first high pass filter C3 for receiving a sound signal received by (3), cutting off a direct current component and allowing a sound signal of an AC component to pass therethrough, and an AC component sound output from the first high pass filter C3. Receive signal and resistor (R4, R2) A pre-op amplifying means 4 for amplifying at an amplification degree determined by the first variable resistor VR3, and a low pass filter for filtering noise by receiving an acoustic signal amplified to a predetermined level by the pre-op amplifying means 4; C7), a second high pass filter C5 which receives an acoustic signal of an AC component from which noise is filtered by the low pass filter C7, cuts off a DC component, and outputs an acoustic signal of the AC component, and the second Power OP amplifying means (5) for receiving an acoustic signal of an AC component output from the high pass filter (C5) through a second variable resistor (VR7) for determining an amplification factor and for amplifying current to match an impedance; A low pass filter 6 for filtering noise included in the current amplified sound signal outputted from the means 5, and a low current pass-amplified sound signal filtered from the low pass filter 6 to receive a DC component. Of the AC component A third high pass filter C6 for outputting a direction signal and a magnetic field generating wire L1 for generating a magnetic field when an acoustic signal of an AC component outputted to the third high pass filter C6 flows. A wireless hearing aid using a magnetic field generated by a necklace-shaped wire. The method of claim 1, wherein the ear shell 20 is disposed in the accommodating portion (21a) formed in the face plate 21, the second battery 22 for supplying the operating power and the second battery 22 is supplied from When the acoustic signal of the AC component flows through the fourth capacitor C20 for filtering the noise included in the DC voltage (1.4Vdc) to stabilize the DC voltage and the magnetic field generating wire L1 of the receiving sound processor 10. Telecoil 23, which is induced by a low frequency magnetic field generated in the range of 100 Hz to 10 KHz and outputs a secondary induced acoustic signal of an AC component, is connected in parallel to the telecoil 23 and output from the telecoil 23. Noise filter capacitor (C21) for filtering the noise contained in the secondary induced acoustic signal of the AC component, and the noise from the noise filter capacitor (C21) receives a DC voltage from the second battery 22 as the operating power source Filtered interactivity Amplification means (24) for receiving a second induced acoustic signal of a minute and amplifying to a predetermined level, and volume adjusting means for receiving a second induced acoustic signal amplified to a predetermined level from the amplifying means (24) and adjusting the volume to a predetermined level And a receiver 27 which receives the secondary induced acoustic signal adjusted to a predetermined level by the volume adjusting means 25 and outputs the sound pressure to the eardrum through the tube 26. Wireless hearing aid using magnetic field generated by a wire in the form of a necklace.

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