GB2275149A - Bone-conduction transducer with reduced friction surface - Google Patents

Abstract

A voice transducer system for use in a vehicle comprises a seat, a casing 13 mounted on said seat and a piezoelectric transducer 15 disposed in said casing to detect vibrations of produced voice waves when they are transmitted through the skull 1 of an operator's head. A damper material 14 is disposed in said casing and surrounds said piezoelectric transducer. The casing including a side surface 13a to be contacted with the operator's head so as to receive said vibrations, said side surface of the casing being pretreated to have a small coefficient of friction to reduce rubbing noises when the operator's head or hair 11 slides on said side surface. <IMAGE>

Description

A VOICE TRANSDUCER The present invention relates to a voice transducer used for telecommunication by a telephone installed in a motor vehicle or the like.

There are various kinds of voice transducers, in one kind of which, sound waves of a natural voice transmitted through the air are detected by a sensor such as a microphone so as to convert them into electric signals and process them as voice signals and in another kind of voice transducer vibrations of a natural voice transmitted through the skull of an operator's head are detected by a sensor such as a piezoelectric element so as to process them as electric signals. The former is suitable when ambient noise is small, and the latter is suitable when ambient noise is so large that it is difficult to receive sound waves progressing in the air.

Fig. 1 illustrates the structure of a conventional voice transducer of the latter kind.

Reference numeral 1 denotes an operators head. The voice transducer is designated by reference numeral 102. Reference numerals 103 and 104 respectively designate a casing and a damper material. 105 designates a piezoelectric transducer, lie., a bimorph cell. When the operator utters vocal sounds with the head 1 resting on the voice transducer 102, its voice signal S1 is transmitted through the head 1 in the form of mechanical vibration, and it vibrates the voice transducer 102 in contact with the head 1. The vibration is received by the casing 103 of the voice transducer 102, and the received vibration is delivered through the damper material 104 of liquid state to the bimorph cell 105.The bimorph cell 105 oscillates laterally, as indicated by an arrow A, in response to the delivered vibration, to thereby convert the voice signal in the form of mechanical vibration into an electric signal S2.

Figs. 3A and 3B illustrate states of application of the voice transducer shown in Fig. 2 when it is used as a telephone for a motor vehicle. The voice transducer 102 is installed in a headrest 106 of a seat in the vehicle, with its surface to be contacted with the head 1 being fixed.

In the case of the conventional voice transducer described above, the portion to be contacted with the head is fixed. Consequently, when the operator's head is brought into contact with the voice transducer, the head may not be sufficiently closely fitted to or contacted with the contact portion of the voice transducer, or even if the head is closely fitted to or contacted with the contact portion of the voice transducer, a contact section of the head may not be close to the skull but the neck which is remote from the skull. There will be therefore a decrease in the magnitude of the vibration of the voice transmitted through the skull of the head to be inputted into the voice transducer.In other words, when a short-bodied operator is seated, as shown in Fig. 3A, the voice transducer 102 locates opposite to an upper portion of the head 1 so that the head 1 and the contact portion of the voice transducer 102 can not be sufficiently closely fitted to each other. On the other hand, when a long-bodied operator is seated, as shown in Fig. 3B, the voice transducer 102 contacts with the operator's neck so that vibrations of the voice transmitted through the skull of the head 1 can only be detected by the voice transducer 102 with difficulty. As a result, a problem is encountered in that the voltage of the voice signal output from the voice transducer 102 is decreased, and the S/N (sound to noise) ratio is deteriorated.

Moreover, in the case of the voice transducer 102 shown in Fig. 1, when the operator's head 1 is brought into contact with the voice transducer 102, the operator's hair 11 is held between the head 1 and the voice transducer 102, so that unfavourable vibration is inevitably generated by friction between the hair 11 and the surface of the casing 103 when the head 1 is moved. This unnecessary vibration is detected by the voice transducer 102 along with the vibrations of the voice transmitted from the head 1, resulting in a problem that the S/N ratio of the electric signal output from the voice transducer 102 is drastically deteriorated.

An object of the invention is to provide a voice transducer which produces electric signals whose S/N ratio is not drastically deteriorated by unnecessary vibration which is generated by friction between the operator's hair and the voice transducer.

According to the invention there is provided a voice transducer system comprising: a seat; a casing mounted on said seat; a piezoelectric transducer disposed in said casing to detect vibrations of produced voice waves when they are transmitted through the skull of an operator's head; and a damper material which is disposed in said casing and surrounds said piezoelectric transducer, said casing including a side surface to be contacted with the operator's head so as to receive said vibrations, said side surface of the casing being pretreated to have a small coefficient of friction to reduce rubbing noises when the operator's head slides on said side surface.

Other objects, characteristics and advantages of the invention will be more specifically understood from the description of preferred embodiments with reference to the drawings Fig. 1 is a schematic cross-sectional view of a conventional voice transducer; Fig. 2 is an enlarged view partially showing the conventional voice transducer of Fig. 1; Fig. 3A and 3B are schematical explanatory views illustrating, by way of example, application states of the conventional voice transducer; Fig. 4 is a partially broken-away perspective view showing a voice transducer when it is installed in a headrest; Fig. 5 is a schematical explanatory view illustrating, by way of example, an application state of the voice transducer shown in Fig. 4; and Fig. 6 is an explanatory view illustrating the relationship between a voice transducer according to an embodiment of the invention and an operators head.

Figs. 4 and 5 illustrate a voice transducer. As shown in Fig. 4, the voice transducer comprises a main body 2, a holder member 7 and a rod 8 for connecting the main body 2 to the holder member 7.

The main body 2 is attached to the holder member 7 by means of the rod 8 in such a manner that it can be swung upwardly or downwardly, as indicated by an arrow B, and then held at a desired swung location.

It should be noted that since a publicly known structure can be chosen for the attachment of the main body 2 to the holder member 7 in a manner to enable it to be swung and held in a desired posture, a detailed illustration of a structure of the attachment is omitted from the drawing. The holder member 7 is securely fitted in a recess 6a comprising a mounting portion formed in a headrest 6 of a seat.

The main body 2 whose structure is similar to that of the conventional voice transducer 102 shown in Fig. 1 comprises a casing 3 with a side surface 3a to be contacted with an operator's head 1, a bimorph cell which is a piezoelectric transducer provided inside of the casing 3 (see the conventional bimorph cell denoted by reference number 105 in Fig. 1), and a damper material which surrounds the bimorph cell on the inside of the casing 3 (see the conventional damper material denoted by reference number 10 in Fig. 1). The side surface 3a of the casing 3 is curved outwardly defining a smooth surface to be contacted with the head 1 in a preferable condition.

The side surface 3a is pre-treated for reducing the friction coefficient and arranged to be less uneven and not have acutely angled minute projections which may catch the hair of the operator. This treatment is given to the side surface 3a in such a manner and for such a reason as to be described later in relation to an embodiment of the invention as illustrated in Fig. 6.

Now referring to Fig. 5, when a short-bodied operator is seated, the main body 2 is swung downwardly and held or fixed in the position thus swung, so as to cause the side surface 3a to be closely fitted to or contacted adequately with the head 1. As a result, voice transmitted through the skull of the head 1 can be received without fail by the main body 2 of the voice transducer.

On the other hand, when a long-bodied operator is seated, the main body 2 is swung upwardly and held in the position thus swung, and the operator makes a simple adjustment such as re-seating himself to slightly lower the position of the head 1, so that the portion of the voice transducer to be contacted with the head 1, ie., the side surface 3a, is closely fitted to or satisfactorily contacted with the head 1. In this manner, according to this embodiment, the head of the operator and the surface of the voice transducer to be contacted with the head can always be closely fitted to each other to such an extent as to effectively prevent a voltage drop in the output of the voice transducer and degradation of the S/N ratio.

In the above description, the voice transducer is installed in the headrest portion of the automobile seat. However, such a voice transducer can be similarly applied to various other kinds of seats in so far that it is the voice transducer which detects vibrations of a natural voice transmitted through the skull of the operator's head and converts them into electric signals.

The above-described voice transducer is advantageous in that it can be sufficiently closely fitted to the portion of the operator's head which is close to the skull because the portion of the voice transducer in contact with the head can be moved up or down. Thus, it produces the effect that the vibrations of the voice transmitted through the skull of the head are not decreased in magnitude, so as to solve such problems as a voltage drop in the output of the voice transducer and degradation of the S/N ratio.

Fig. 6 illustrates a voice transducer 12 according to an embodiment of the present invention.

The voice transducer 12 whose structure is similar to that of the conventional one shown in Fig. 1 comprises a casing 13, a piezoelectric transducer, ie., a bimorph cell 15, and a damper material 14 of liquid state, for the purpose of converting a voice signal S1 into an electric signal S2.

In the embodiment shown in Fig. 6, the casing 13 has a side surface 13a to be contacted with the operator's head 1, and the side surface 13a is pretreated to make the friction coefficient smaller than that of a material of the casing 13. The method of this treatment is, for example, polishing.

The casing 13 may be formed of a metal plate, a plastic plate or the like. Alternatively, the casing 13 may be a die cast product, a plastic molded product or the like. The above treatment may be performed by mechanically polishing the side surface 13a alone or by immersing the whole casing 13 in a chemical liquid to reduce the friction coefficient of the entire outer surface of the casing 13.

According to this embodiment, the side surface 13a of the casing 13 is made to have a small friction coefficient to thereby decrease the magnitude of unnecessary vibration generated due to friction between the operator's hair 11 and the casing 13 when the head 1 is moved while the head 1 is in contact with the voice transducer 12.

Therefore, the vibration S1 caused by the voice waves is transmitted, at a favourable S/N ratio, through the casing 13 and the damper material 14 toward the bimorph cell 15 serving as a piezoelectric transducer, and consequently, the electric signal S2 which is a voice signal at a favourable S/N ratio is output to an electric signal receiver unit (not shown).

Thus, the above-described embodiment produces an effect that unfavourable vibration is lessened owing to a small friction coefficient of the side surface 13a of the casing 13 in order to improve the S/N ratio of the electric signal S2 while it is output from the voice transducer 12 in response to the vibration S1 of the voice waves generated from the operator's vocal cord.

It should be noted that the side surface 13a of the casing 13 requires treatment to form a mirrorlike surface smoother than an ordinarily machined surface so that the side surface 13a becomes less uneven, and especially that it has no acutely angled minute projections which may catch the operator's hair.

Claims (6)

1. A voice transducer system comprising: a seat; a casing mounted on said seat; a piezoelectric transducer disposed in said casing to detect vibrations of produced voice waves when they are transmitted through the skull of an operator's head; and a damper material which is disposed in said casing and surrounds said piezoelectric transducer, said casing including a side surface to be contacted with the operator's head so as to receive said vibrations, said side surface of the casing being pretreated to have a small coefficient of friction to reduce rubbing noises when the operator's head slides on said side surface.

2. A voice transducer system according to claim 1, wherein said casing is formed of a metal, said side surface of the casing being polished.

3. A voice transducer system according to claim 1, wherein said casing is formed of a plastic material, said side surface of the casing being polished.

4. A voice transducer system according to claims 1, 2 or 3, wherein said side surface of the casing is polished so as not to have minute projections of acute angles.

5. A voice transducer system according to claims 1, 2 or 3, wherein said polished side surface is a mirror-like surface.

6. A voice transducer substantially as hereinbefore described with reference to Fig. 6 of the drawings.