FR2604589A1 - ATRIAL MICROPHONE INCORPORATED INTO AN EARPHONE - Google Patents

Abstract

THE INVENTION RELATES TO AN EAR MICROPHONE. THE PROBLEM TO BE SOLVED CONSISTS IN PARTICULAR OF SIMPLIFYING THE MANUFACTURING AND AVOIDING THE MIXING OF SOUNDS WITH NOISE. THE MICROPHONE IS CHARACTERIZED IN THAT IT INCLUDES, IN AN EARPHONE BODY 3, A VIBRATION SENSOR 4 DEVICE TO SICK A BONE CONDUCTED SOUND SIGNAL FROM THE WALL OF THE EXTERNAL HEARING CANAL AND A VOICE TRANSDUCER 5 TO CONVERT THE SIGNAL RECEIVED IN ONE VOICE 1. THE INVENTION IS APPLICABLE IN PARTICULAR TO MICROPHONES TO BE USED IN A NOISY ENVIRONMENT.

Description

"Ear microphone embedded in a headset". The present invention

  relates to an ear microphone and, more particularly, an ear microphone suitable for use in a noisy environment by providing a sensor device for receiving a sound signal driven by the bones and coming from the wall of the external auditory canal of the ear as well as a vocal transducer to convert

the signal received in one voice.

  Ear microphones of the type described above

  above are currently known. For example, U.S. patents N4150 262 and 4 334 315 and the patent of R.F.A. No. 2 849 152 and similar patents

  describe conventional ear microphones.

  These ear microphones are all of the type in which a vibration sensor such as a piezoelectric element of a certain weight is connected by a support such as spring to the ear microphone to be introduced into the external auditory canal. When the ear microphone is introduced into the external ear canal to produce a voice, the sounds of the voice signal of the user vibrate by a vocal 2D signal driven by the bones the wall of the external auditory canal. The vibration sensor device senses the vibrations and produces a voltage proportional to these vibrations, this voltage being amplified by an amplifier connected to a sensor cable and it is 3-0 transmitted to the outside. The amplifier is mounted in

a listener.

  A voice transducer for converting the received signal into a voice is disposed outside the earpiece and is connected to the earphone by a tube

Dconductor of sounds.

  In the conventional ear microphone mentioned above the sound produced by the speech transducer is transmitted into the ear by the sound conducting tube. Therefore, when the sound-conducting tube is bent in its middle part, disadvantages are manifested in that the sound is hardly perceived in the ear and in that the sound-conducting tube can possibly pick up noises, so that the voice is

  mix easily with noises.

  The ear microphone is inserted tightly into the external ear canal. Since the conventional ear microphone does not have a communication conduit between the inside and the outside of the ear in the earpiece, the external ear canal is completely closed when the ear microphone is inserted into this external ear canal. Therefore, the sound produced by the speech transducer is enclosed in the external auditory canal and becomes a sound that is unnatural. Since external sounds are not perceived by the ear on the side through which the ear microphone was introduced, the directional direction of the ear is lost, which can be dangerous. In addition, since the external auditory canal is closed, as described in 2D above, the disadvantage is that sweat easily accumulates in this external auditory canal. In addition, the conventional atrial microphone vibration sensor device is 3-0 parallel to the external auditory canal at the time of fixation. With this arrangement, namely when the sensor device is disposed laterally, the earpiece containing the sensor device must be disposed laterally in the direction of its length. As a result, the end of the earpiece which is introduced into the

  External auditory canal must have an increased length.

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  However, since the vibrations are picked up by the end of the earpiece inserted into the external ear canal, the end portion of the earpiece can not be relaxed. Since the end of the earpiece is inserted deep into the external ear canal, the feeling of fixation felt by the user is made more unpleasant and it can happen that the user experiences pain in the ear. In addition, secretions from the ear tend to accumulate in the acoustic duct formed at the end of the earpiece and a disadvantage manifests itself in the fact that the cleaning of these secretions

  the ear is difficult to perform.

  Accordingly, it is an object of the present invention to provide a bi-directional ear microphone suitable for mass production and to prevent sound mixing with sound due to a sound conducting tube and attenuation of sound from 'a vocal transducer, improving the

  2 clarity of sounds and reducing the number of elements.

  Another object of the present invention is to create an ear microphone which allows to suppress the increase in sound pressure (sensation of enclosed sounds) in the ear at the time of fixation, 2D to hear the external sounds and which causes that little

secretions in the ear.

  Yet another object of the present invention is to create an ear microphone giving a good feeling of fixation without deep insertion into the external auditory canal 3'0, this microphone being able to be made of a flexible material at the end of the earpiece. For this purpose, the invention relates to an ear microphone of the above type, characterized in that it comprises, in a headphone body, a vibration-sensing device for picking up an audible signal led by

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  the bones coming from the wall of the external auditory canal and a vocal transducer to convert the received signal into

a voice.

  Other objects, features and advantages of the invention will appear more fully on reading

  of the description below in connection with the drawings

  in which: - Figure 1 is.a side view of an exemplary embodiment of an ear microphone according to the present invention; Figure 2 is a longitudinal sectional view of the earpiece of the ear microphone; FIG. 3 is a view showing the ear microphone fixed in the ear; FIG. 4 is a longitudinal sectional view of another embodiment of FIG.

the invention; and-

  FIG. 5 is a longitudinal sectional view of another embodiment of FIG.

the invention.

  The preferred embodiment of the present invention will be described in detail in the following.

referring to the attached drawings.

  An earpiece 1, usually made of a plastic material, having an introducer portion 2 to be inserted into an external auditory canal, is designed with a curved shape allowing it to fit snugly into the external auditory canal. A sensor device 4 and a voice transducer 5 are 3H contained in the part of the earphone body 3 which remains outside the ear. In order to be able to associate the sensor device 4 and the voice transducer 5 in the earphone 1, the earphone body 3 can be split longitudinally, as shown in FIG. 2. The sensor device 4 consists of a detector part for detecting a vocal signal (vibrations)

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  driven by the bones and coming from the user himself

  This signal must also be transmitted to the wall of the external auditory canal, and a vibration sensor element to convert the vibrations detected by the detector part into an electrical signal. The vibration sensing element usually uses a piezoelectric element, but instead a silicon semiconductor element can be used to detect changes in the value of a resistance when the pressure on the semiconductor element is affected. driver varies. The sensor device can also use, as another type of power generation system, the vibration

  of a coil in a magnetic field.

  A sound conducting channel 6, which communicates the end of the introduction portion 2 with the voice transducer 5, is formed in the earphone 1. A conduit 7, which communicates the end of the introductory part 2 with the rear surface of the body 3, is also formed in the earphone 1. The front half 2C of the duct 7 can, as shown in Figure 2, communicate with the sound conducting channel 6. The duct 7 is intended to make communicate the inside and outside of the ear when mounting the ear microphone to balance the pressures

  between the outside and the inside of the ear.

  Therefore, since the increase in sound pressure in the ear is suppressed, the sensation of enclosed sounds is avoided. As the channel 7 does not disturb the perception of external sounds, the sense of perception of the direction. sounds is not lost by the user .. In addition, sweat does not accumulate easily in the ear. In addition, the arrangement of the earpiece containing the microphone and the voice transducer has various advantages; in particular, the effects of reaction are avoided. The earphone 1 also comprises a cable 8 starting from the sensor device 4 and

  a cable 9 starting from the voice transducer 5.

  It is not always necessary for the sensor device 4 to be disposed next to the vocal transducer D, ie transversely in the body 3 of the earphone, as shown in FIG. 2. This device can also be disposed longitudinally following this transducer 5 in the

  body 3 of the earpiece, as shown in Figure 4.

  When the sensor device 4 is disposed next to the transducer, the introduction portion 2 must have an increased length accordingly. On the other hand, when the sensor device 4 is disposed longitudinally in the body 3, the length of the insertion portion 2 can be shortened. Even if the sensor device 4 is thus disposed following the transducer in the longitudinal direction, the vibrations of the wall of the external auditory canal are transmitted to the earphone 1 and they are picked up by the sensor device 4 in the same way as when the sensor device is arranged next to the transducer. With such an arrangement of the earphone 1, the introduction portion 2 has a shorter length, so that the earphone 1 does not penetrate deeply into the external auditory canal. This gives CD thus a more favorable fixing feeling of the earphone 1. Since the sensor device is not disposed in the introduction portion 2, this introduction portion 2 can be made of a flexible material. In addition, in the examples. 3-0 embodiment shown in Figure 2 and Figure 4, the end of the introduction portion 2 may be formed to be removable. More specifically, as shown in FIG. 5, a removable element 10 is formed at the end of the insertion part 2, this element being fixed in a detachable manner on the introduction part 2, for example by means of a snap. A passage 11 which communicates with the sound-conducting channel 6 and the conduit 7 (made up together for the most part) is pierced in the removable element 10. Since the passage 11 is disposed at the end of the part In introduction 2, the secretions of the ear tend to accumulate there. But, this passage 11 can be cleaned in a simple manner by removing the earphone 1 and it can be maintained all the time in clean condition. The removable element 10 may be made of an elastic material such as urethane or silicones. We can therefore reduce the feeling of pain felt by the user when the earphone 1 is introduced

  deep in the external auditory canal.

2D

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Claims (6)

  1. An ear microphone characterized in that it comprises, in a body (3) earpiece, a vibration sensor device (4) for receiving a sound signal driven by the bones coming from the wall of the external auditory canal and a transducer vocal (5) for   convert the received signal into a voice (1).   An ear microphone according to claim 1, characterized in that the vibration sensor element of the vibration sensor device (4) is a piezoelectric element.   An ear microphone according to claim 1, characterized in that the vibration sensing device (4) is arranged in the body (3).   the earpiece (1) next to the voice transducer (4).   4. Aural microphone according to claim 1, characterized in that a duct (7) is formed from the end of the insertion part (2) of the earphone (1) into the external auditory canal and goes to the rear surface of the body (3) of the earphone (1). An ear microphone according to claim 2, characterized in that the front half of the duct (7) is formed to communicate with a sound conducting channel (6) formed from the voice transducer (5) and up to the end of the insertion part (2) of the earphone (1) in the conduit external auditory.   3-0 6. Aural microphone according to claim 1, characterized in that the end of the insertion part (2) of the earpiece (1) in the external auditory canal is made of an elastic material such as urethane or a silicone, this 9 2604589   end being releasably attached to the conduit external auditory. 2D 3-