JPS63279700A - Composite type speaker - Google Patents

Abstract

PURPOSE:To obtain the reproduced sound of high quality extending over a wide frequency band by generating the sound, with the aid of two kinds of vibration systems by constituting a vibrating diaphragm which vibrates by interlocking with a voice coil, of a piezoelectric film which expands and contracts according to the change of a sound signal and supplying the voice signal to both voice coil and diaphragm. CONSTITUTION:In the cone-shaped piezoelectric film diaphragm 11, the major diameter side peripheral part of it is fixed to the supporting part 12a of a frame 12 and on the other hand, the minor diameter side peripheral part is connected to the voice coil 7. Besides, a driving circuit 5 is provided in order to supply the voice signal to an electrodynamic part terminal 8 and a piezoelectric part terminal 14. The driving circuit 15 supplies the voice signal to the electrodynamic part terminal 8 through a step-up transformer 18 and to the piezoelectric part terminal 14 through a low pass network filter 19 respectively. Since the piezoelectric film diaphragm 11 receives directly the vibration of the voice coil 7 and the vibration with a sufficient amplitude is obtained extending over a whole body, it reproduces well a low pitched sound band. On the other hand, the expanding and contracting motion of the piezoelectric film diaphragm 11 is converted into the vibration in the direction vertical to the surface direction of the piezoelectric film diaphragm 11 and reproduces well an intermediate and high pitched sound band.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention is a speaker for use in electric sound V equipment,
In particular, the present invention relates to a composite speaker having an electrodynamic structure.

[Conventional technology]

Generally, it is desirable for a speaker to be able to reproduce sound in as wide a frequency band as possible with a single unit.

For this reason, a full-range speaker unit, a coaxial speaker unit in which a woofer section and a tweeter section are coaxially arranged, and the like have been proposed.

[Problem that the invention seeks to solve]

However, with the full-range speaker unit described above, it is practically difficult to provide performance that can cover the entire audible frequency band, and there are also problems in that it is also difficult to design. On the other hand, coaxial speaker units have disadvantages in that their structures are extremely complex and their design and manufacturing costs are relatively high.

(Means for Solving the Problems) In order to solve the above conventional problems, the composite speaker of the present invention includes a voice coil that vibrates in response to changes in an audio signal, and a peripheral portion that is fixed. In a speaker equipped with a diaphragm that vibrates in conjunction with the voice coil,
The diaphragm is formed of a piezoelectric film that expands and contracts in response to changes in audio signals, and the audio signal is set to be input to both the voice coil and the diaphragm of the piezoelectric film.

[For production]

In the above configuration, when an audio signal is input to the voice coil, displacement occurs in the voice coil due to electromagnetic induction, and vibrations are generated in accordance with changes in the audio signal. When this vibration is transmitted to the piezoelectric film diaphragm, the piezoelectric film diaphragm vibrates and emits sound. According to this vibration system, the piezoelectric film diaphragm can vibrate with a sufficient amplitude over its entirety, so that low frequency range can be reproduced satisfactorily.

On the other hand, when an audio signal is input to the piezoelectric film diaphragm,
This piezoelectric film diaphragm expands and contracts in accordance with the applied voltage of the audio signal. The expansion and contraction movement of the piezoelectric film diaphragm is
Since the peripheral edge of the piezoelectric film diaphragm is fixedly provided, the vibration is converted into vibration in a direction perpendicular to the surface direction of the piezoelectric film diaphragm, and this vibration emits sound according to the audio signal. In this case, it is not possible to obtain vibrations with a very large amplitude, but since the piezoelectric film has excellent tracking performance when high frequencies are input, it can reproduce mid-to-high frequencies well. be able to. In this way, the acoustic information obtained by the two types of vibration systems is distributed from the bass to the treble range depending on the characteristics of each vibration system, so it is possible to obtain high-quality reproduced sound over a wide frequency band. .

[Example 1] An example of the present invention will be described below based on FIG.

In the composite speaker 1 according to this embodiment, the magnetic circuit 2
is composed of a yoke 3, a magnet 4, and a top plate 5. The circumferential surface of the central protruding portion 3a of the yoke 3 and the inner circumferential surface of the top plate 5 form a gap portion 6 that serves as a magnetic flux concentration region. A voice coil 7 that vibrates in response to changes in the audio signal is disposed in the gap 6, and an electrodynamic terminal 8 for inputting the audio signal is connected to the voice coil 7 via a drive cone 9. It is connected. The drive cone 9 has a generally mortar-like shape, and its smaller diameter peripheral edge is connected to the voice coil 7, while its larger diameter peripheral edge is connected to the rear end surface of the diaphragm fixing ring 10. This diaphragm fixing ring 10 is fixed to a support portion 12a formed on the front edge of the frame 12. Further, a peripheral portion of an inverted dome-shaped diaphragm 11 (hereinafter referred to as a piezoelectric film diaphragm) formed of a piezoelectric film is fixed to the diaphragm fixing ring 10. A piezoelectric film electrode 13 is provided at the bottom of the piezoelectric film diaphragm 11, and a piezoelectric terminal 14 for inputting an audio signal is connected to the piezoelectric film electrode 13 via the driving cone 9. In this way, in the composite speaker 1 of the present invention, audio signals are input to both the piezoelectric film diaphragm 11 and the voice coil 7 constituting the electrodynamic section.

In the above configuration, when an audio signal is input to the voice coil 7, displacement occurs in the voice coil 7 due to electromagnetic induction, and vibrations are generated in accordance with changes in the audio signal. This vibration is transmitted to the diaphragm fixing ring 10 by the drive cone 9, and further this diaphragm fixing ring 1
0 to the piezoelectric film diaphragm 11. This causes the piezoelectric film diaphragm 11 to vibrate, generating compressional waves in the air around it and emitting sound. Here, according to the vibration system of this electrodynamic part, the piezoelectric film vibration ItIi
Since vibrations of sufficient amplitude can be obtained throughout the 11, bass range can be reproduced satisfactorily.

On the other hand, when the audio signal input from the piezoelectric part terminal 14 is applied to the piezoelectric film electrode 13, the piezoelectric film diaphragm 1
1 expands and contracts in response to audio signals. Since the peripheral edge of the piezoelectric film diaphragm 11 is fixed to the diaphragm fixing ring 10, the expansion and contraction movement is converted into vibration in a direction perpendicular to the surface direction of the piezoelectric film diaphragm 11, and this vibration produces an audio signal. A corresponding sound is generated. In this case, it is not possible to obtain vibrations with a very large amplitude, but since the piezoelectric film has excellent tracking performance when high frequencies are input, it can reproduce mid-to-high frequencies well. becomes possible.

In this way, the acoustic information obtained by the two types of vibration systems is distributed from the bass to the treble range depending on the characteristics of each vibration system, so high-quality reproduced sound can be obtained in a wide frequency band. In addition, since the acoustic information obtained by the two types of vibration systems is generated from the piezoelectric film diaphragm 11, which is a single sound source, the structure is extremely simple and the design cost is low. It also becomes possible to reduce manufacturing costs.

[Embodiment 2] Another embodiment of the present invention will be described below with reference to FIGS. 2 and 3. Note that members having the same functions as those in the first embodiment are given the same reference numerals.

The composite speaker according to this embodiment is different from the first embodiment in that the drive cone and diaphragm fixing ring are omitted and the piezoelectric film diaphragm 11 is directly attached. That is, in the cone-shaped piezoelectric film diaphragm 11, its large diameter side peripheral edge is fixed to the support portion 12a of the frame 12, while its small diameter side peripheral edge is connected to the voice coil 7. Further, in order to supply audio signals to the electrodynamic part terminal 8 and the piezoelectric part terminal 14, a drive circuit 15 is provided as shown in FIG. The drive circuit 15 includes an audio signal generator 16,
It is composed of a constant voltage amplifier 17 for amplifying the audio signal, a step-up transformer 18, and a low-pass network filter 19. The audio signals are supplied to each of them via a low-pass network filter 19, respectively.

In the above configuration, the piezoelectric film diaphragm 11 directly receives the vibration of the voice coil 7 and vibrates. At this time,
Since the piezoelectric film diaphragm 11 can vibrate with a sufficient amplitude over its entirety, it is possible to reproduce bass frequencies well.

On the other hand, since the peripheral edge of the piezoelectric film diaphragm 11 is fixed to the support portion 12a of the frame 12 and the voice coil 7, the expansion and contraction movement of the piezoelectric film diaphragm 11 is perpendicular to the surface direction of the piezoelectric film diaphragm 11. This vibration is converted into vibration in a certain direction, and this vibration emits sound according to the audio signal. Therefore, as in the first embodiment, it is possible to reproduce the middle and high frequency ranges favorably.

Note that the step-up transformer 18 and the low-pass network filter 19 can be omitted or replaced with other circuits depending on the design of the two types of vibration systems described above.

〔Effect of the invention〕

As described above, the composite speaker of the present invention includes a voice coil that vibrates in response to changes in an audio signal, and a diaphragm that has a fixed peripheral portion and vibrates in conjunction with the voice coil. The diaphragm is formed of a piezoelectric film that expands and contracts according to changes in the audio signal, and the audio signal is set to be input to both the voice coil and the diaphragm of the piezoelectric film. , sound can be generated by two types of vibration systems. Since the acoustic information obtained by these two types of vibration systems is distributed from a low frequency range to a high frequency range depending on the characteristics of each vibration system, high-quality reproduced sound can be obtained in a wide frequency band. In addition, the sound information obtained by the two types of vibration systems is both generated by a piezoelectric film diaphragm, which unifies the sound source, so the structure is extremely simple, reducing design costs and manufacturing. This also has the effect of significantly reducing costs.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a composite speaker showing one embodiment of the present invention, FIG. 2 is a cross-sectional view of a composite speaker showing another embodiment of the present invention, and FIG. 3 is a drive circuit of the composite speaker. FIG. 1 is a composite speaker, 2 is a magnetic circuit, 7 is a voice coil, 8 is an electrodynamic terminal, 11 is a piezoelectric film diaphragm, 14 is a piezoelectric terminal, and 15 is a drive circuit.

Claims (1)

[Claims] 1. A voice coil that vibrates according to changes in the audio signal,
A speaker including a diaphragm having a fixed peripheral portion and vibrating in conjunction with the voice coil, wherein the diaphragm is formed of a piezoelectric film that expands and contracts according to changes in an audio signal, and the voice coil and a composite speaker characterized in that an audio signal is input to both of the piezoelectric film diaphragm.