JPH06178390A - Speaker device - Google Patents

Abstract

PURPOSE:To set a low band resonance frequency to be low even if a speaker is the one with a smaller diameter and to execute reproduction with high fidelity. CONSTITUTION:A concentric hole 5 is performed at the center of a magnet 1, a pole piece 2, a yoke plate 3 (second frame) and a base plate 4 and they are integratedly fixed by a grommet 6 inserted into the hole 5. A rising part 4a which is bent upward is formed on the open end side of the yoke plate 3. In a yoke frame 7 (first frame), a first attaching part 7a with small diameter and the second attaching part 7b with large diameter are integratedly formed. A vibration plate 9 is mounted on one end side 8a of a cylindrical voice coil 8. The outer peripheral part 9a of the vibration plate 9 is directly fixed to an open end surface 7c of the second attaching part 7b. The attaching part 7a is inserted into the inner side of the rising part 4a in a state where the voice coil 8 and the vibration plate 9 are mounted on the yoke frame 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a speaker device,
For example, the present invention relates to a speaker device which is suitable for use in headphones for music reproduction or communication and which enables high-fidelity reproduction.

[0002]

2. Description of the Related Art With the spread of headphone stereos in recent years,
Very generalized inner ear type (Inner ear insertion type)
The small size headphones are required to reproduce with high fidelity. FIG. 5 shows a conventional diaphragm in a speaker device used for a headphone stereo. In FIG. 5, a voice coil 51 housed in a magnetic gap (not shown) of a magnetic circuit having a cylindrical magnetic gap is supported on the back side 53 of the diaphragm 52, and its both ends leads 51a and 51b are attached to the diaphragm. While being taken out to the outside from the outer peripheral edge 54 along 52, the leads 51a and 51b at both ends thereof are fixed to the back side 53 of the diaphragm 52 with, for example, an adhesive (not shown).

In this way, both ends of the lead 51a are bonded with the adhesive.
In the configuration in which 51b is fixed to the diaphragm 52, the movement of the diaphragm 52 is easily isolated. That is, the low frequency resonance frequency f ₀ of the speaker device is f ₀ = 1 / [2π√ (M / S)] (however,
The symbol M is represented by the mass of the vibration system, and the symbol S is represented by the stiffness of the vibration system. If the leads 51a and 51b at both ends are adhesively fixed, the stiffness S becomes large, which causes an increase in the low frequency resonance frequency f ₀ of the vibration system. However, it was not suitable for high-fidelity reproduction because of reduced input resistance.

Therefore, in order to lower the low-frequency resonance frequency f ₀ , the thickness of the diaphragm 52 should be reduced to about 6 μm, or the outer diameter of the speaker should be increased to about 16 mm in order to improve the input resistance. Was taken. However, if the diaphragm 52 is made thin, cost will increase due to a decrease in manufacturing yield, an increase in man-hours, etc., and if the outer diameter of the speaker is increased, the inner ear type has a too large diameter and is hard to hear. In addition, there is a problem that the ear becomes painful if it is inserted into the ear canal for a long time.

As a conventional diaphragm holding structure for a speaker device, a so-called ring system has been proposed which is attached to a yoke frame as shown in FIG. Figure 6
In the above, reference numeral 60 is a magnetic circuit, and this magnetic circuit 6
0 is a magnet 61, a pole piece 62, a base plate 63, a yoke frame 64, and a pole piece 62.
And a yoke frame 64. The magnetic gap 65 is formed between the cylindrical magnetic gap 65 and the yoke frame 64.
A voice coil 67 supported by a vibration plate 66 is accommodated in the unit 5 so as to be freely displaceable.

The yoke frame 64 has a magnetic gap 65.
The vibration plate 66 has a rising portion 64a raised from a state of extending further away and a step portion 64b formed on the inner peripheral side of the rising portion 64a. The diaphragm 66 has a ring 68 in advance on the outer peripheral edge on the front surface side (front surface side). The vibrating plate 66 is supported by the yoke frame 64 by adhering and fixing the ring 68 portion over the stepped portion 64b. However, in this ring-type configuration, the ring 68 is located inside the rising portion 64a, so that the diameter of the diaphragm 66 becomes smaller than that of the outer diameter of the speaker. This causes an increase in the low-frequency resonance frequency and is not suitable for high fidelity reproduction because the aperture is small.

Further, as shown in FIG. 7, a ring is omitted and the outer circumference of the diaphragm 66 is used as a diaphragm having a large speaker diameter or a diaphragm having a thickness of 12 μm or more, which is related to the diameter and is easy to handle as a single diaphragm. There is also a configuration in which is fitted and supported on the rising portion 64a of the yoke frame 64. In the configuration shown in FIG. 7, the structure and material of the diaphragm 66 are limited to a solid one, and since the rising portion 64a is located outside the diaphragm 66, only the portion corresponding to the outer diameter of the speaker is provided. The diameter of the diaphragm 66 was small, which was also unsuitable for high fidelity reproduction.

Further, as shown in FIG. 8, the ring system of FIG. 6 is modified and a rising portion 64a 'lower than the rising portion 64a of FIG. 7 is provided on the yoke frame 64, and the outer peripheral edge of the diaphragm 66 on the back side is formed. Pre-attached ring 68 '
There is also proposed a configuration in which the ridge is fitted to the outside of the rising portion 64a '. This modified ring configuration has the advantage that the outer diameter of the speaker can be made smaller than the configurations of FIGS. 6 and 7 described above when the effective diameter of the diaphragm 66 is the same, but the ring 68 ′ is structurally weak. Because of the external pressure, the diaphragm 66
However, there is a problem that it is easily deformed and the sound quality is deteriorated.

[0009]

In the conventional speaker device, by fixing the leads at both ends of the voice coil to the diaphragm, the performance is deteriorated or the performance is varied, and the diameter of the speaker is adjusted to improve or maintain the performance. There was a problem that I could not reduce. The present invention has been made to solve the above-mentioned conventional drawbacks, and provides a speaker device capable of lowering the low-range resonance frequency and enabling high-fidelity reproduction even though the speaker has a small diameter. is there.

[0010]

In order to solve such a problem, the first structure of the present invention has a magnetic circuit having a cylindrical magnetic gap, a voice coil housed in the magnetic gap, and a voice coil. A diaphragm supported by the coil, a first frame having one end attached to an outer peripheral edge of the diaphragm, and a second frame engaged with the first frame and having a part of its magnetic circuit attached thereto. And a lead-out means for pulling out both ends of the voice coil from the back side of the diaphragm. The second configuration of the present invention is
A frame, a magnetic circuit formed in the frame and having a cylindrical magnetic gap, a diaphragm whose outer periphery is supported by the frame, and a magnetic coil which is wound in a cylindrical shape and supported on the back side of the diaphragm. And a lead-out means for pulling out both ends of the voice coil from the back side of the diaphragm. And
In the above-described first and second configurations, it is preferable that the voice coil is wound evenly and leads at both ends thereof are led out from diagonal positions.

[0011]

In the first structure of the present invention having such means, the outer peripheral edge of the diaphragm supporting the voice coil can be directly attached to the first frame to hold the diaphragm. A ring for holding the plate is not necessary, and a thin diaphragm can be used easily. Further, in the second configuration of the present invention, since the leads at both ends of the voice coil are not adhered to the diaphragm, the low-frequency resonance frequency of the diaphragm does not increase, which is a preferable state for high fidelity reproduction. Moreover, in the configuration in which the voice coil is wound evenly and the leads at both ends are led out from the diagonal position on the same end face side, the vibration balance of the voice coil is made uniform.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view showing one embodiment of the first configuration according to the speaker device of the present invention. In FIG. 1, reference numeral 1 is an annular magnet, and a pole piece 2 is arranged above the magnet 1 and a base plate 4 is arranged below the magnet plate 3 with a yoke plate 3 interposed therebetween. The yoke plate 3 and the base plate 4 are provided with a concentric hole 5 at the center, and these are integrally fixed by an eyelet 6 inserted in the hole 5. The yoke plate 3 has a larger diameter than the base plate 4, and a rising piece 3a bent upward in FIG. 1 is formed on the open end side of the yoke plate 3 and functions as a second frame.

The yoke frame 7 has a first mounting portion 7a having a small diameter and a second mounting portion 7b having a large diameter.
Functioning as a frame. The voice coil 8 is formed in a cylindrical shape by winding an insulated conductor in an even number, for example, in a double winding as shown in FIG. 3 described later, and one end side 8a is attached to and supported by a diaphragm 9. Outer peripheral edge portion 9 of diaphragm 9
a is directly fixed to the open end surface 7c of the second mounting portion 7b of the yoke frame 7 with an adhesive or the like.

With the voice coil 8 and the diaphragm 9 attached to the yoke frame 7, the first mounting portion (end portion) 7a of the yoke frame 7 is attached to the rising piece 3 of the yoke plate 3.
It is attached inside a (end). At this time, a cylindrical magnetic gap 11 as a part of the magnetic circuit 10 is formed between the inside of the first mounting portion 7a and the pole piece 2, and the voice coil 8 is accommodated in the magnetic gap 11. Has become. The magnetic circuit 10 is formed by the magnet 1, the pole piece 2, the yoke plate 3 and the like described above.

By adopting the step of housing the voice coil 8 in the magnetic gap 11 from the state where the voice coil 8 and the diaphragm 9 are attached to the yoke frame 7 as described above, the ring of the above-mentioned conventional example, etc. It is possible to directly fix the diaphragm 9 to the open end surface 7c of the yoke frame 7 without using the fixing means. Therefore, the outer diameter of the speaker becomes substantially the same as the diameter of the diaphragm 9, and the value of the resonance frequency can be set low while suppressing the outer diameter of the speaker.

For example, in the case of a small inner ear type headphone, the low-frequency resonance frequency f ₀ of the speaker alone is set to 30.
Since it is preferable to set it to 0 Hz or less, the outer diameter of the speaker is normally set to φ16 mm and the thickness of the diaphragm is set to about 6 μm. However, according to the configuration of the embodiment of FIG. Even if the thickness of the diaphragm is set to 8 mm and the thickness of the diaphragm is set to about 9 μm, the same performance can be realized. FIG. 2 shows an embodiment according to the second configuration of the speaker device of the present invention. The same parts as those in FIG. 1 are designated by the same reference numerals and the description thereof will be omitted.
In FIG. 2, one end side 8a of the voice coil 8 is a diaphragm 9
The outer peripheral edge portion 9a of the diaphragm 9 is directly fixed to the open end surface 7c of the second mounting portion 7b.

The voice coil 8 is formed by double-winding a conductive wire as shown in FIG. 3, and a winding start portion 8b and a winding end portion 8c are located far from a diaphragm (not shown in FIG. 3) 9, for example, one end side. 8
The other end 8d on the side opposite to a is drawn to the back side of the diaphragm 9 from a diagonal position. The winding start portion 8b and the winding end portion 8c become leads 8e and 8f at both ends and are collectively pulled out to the outside through a pulling portion 12 formed on the first mounting portion 7a of the yoke frame 7 as shown in FIG. ing.

It is sufficient that the leads 8e and 8f at both ends are led out from the position far from the diaphragm 9, and the lead 8e at one end side is not always necessary.
It is not limited to the configuration in which it is pulled out from the other end portion 8d on the side opposite to a, and it is not always necessary to lead it out from the diagonal position. However, if the leads 8e and 8f on both ends are led out from the diagonal position on the same end face side, the vibration balance of the voice coil 8 is made uniform and the characteristics are improved. If the voice coil 8 is laminated and wound in an even number of layers other than double winding, the leads 8 at both ends
e and 8f can be derived from the diagonal position.

In the second configuration, the leads 8e and 8f at both ends of the voice coil 8 are drawn out without contacting the diaphragm 9, so that it is easy to suppress an increase in the low frequency resonance frequency. , High fidelity playback can be realized. FIG. 4 shows the effective diameter of the diaphragm of FIG. 5 showing the embodiment shown in FIG. 2 and the conventional example of FIG. 5 having substantially the same diameter (φ14.8 mm), and the thickness of the diaphragm is 9 μm and 6 μm, respectively, with respect to the frequency. It shows a sound pressure characteristic.

As can be seen from this characteristic, in the embodiment shown in FIG. 2, the low resonance frequency is the same even though the diaphragm having a thickness of 3 μm is used, and the distortion at 100 Hz is the same as the embodiment of the present invention. The example is 30% and the conventional example is 20%, which is lower in the example. Further, this embodiment is 200 Hz, 8
3 dB, S. P. L. The distortion over time is also improved by the second-order distortion and the third-order distortion as compared with the conventional one. By the way, it is possible to combine the above-described first configuration of FIG. 1 with the second configuration of FIG. 2, and for example, the both-end leads of the voice coil 8 supported by the diaphragm 9 in FIG. It may be pulled out from the back side and pulled out from the fitting portion of the yoke frame 7 and the yoke plate 3. Specifically, it can be pulled out from between the rising pieces 3a of the yoke plate 3.

[0021]

As described above, in the first structure of the present invention, the outer peripheral edge portion of the diaphragm supporting the voice coil is the first portion.
Since it is possible to mount the diaphragm directly on the frame of, and no ring for holding the diaphragm is required, and it is easy to use a thin diaphragm, it is a speaker with a small diameter and low resonance frequency. The value of can be set low, high fidelity can be obtained, a structure suitable for the inner ear type can be realized, and the manufacturing yield is high and the manufacturing is simple. Further, in the second configuration of the present invention, since both ends of the voice coil are pulled out from the back side of the diaphragm, the leads at both ends are not adhered to the diaphragm, and the value of the low frequency resonance frequency is low even though the speaker has a small diameter. In addition to being settable, high fidelity is obtained, there is an advantage that a structure suitable for the inner ear type can be realized. In addition, in the first and second configurations, if the voice coil is wound evenly and the leads at both ends are led out from the diagonal positions, the vibration balance of the voice coil is made uniform and stable characteristics can be obtained.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a first configuration of a speaker device of the present invention.

FIG. 2 is a sectional view showing a second configuration of the speaker device of the present invention.

FIG. 3 is a perspective view showing a voice coil used in the speaker device of FIG.

FIG. 4 is a characteristic diagram comparing the sound pressure level with respect to frequency for the speaker device of FIG. 2 according to the present invention and the conventional speaker device.

FIG. 5 is a cross-sectional view showing a structure for leading out both ends of a voice coil in a conventional speaker device.

FIG. 6 is a cross-sectional view showing a conventional speaker device.

FIG. 7 is a cross-sectional view showing a conventional speaker device.

FIG. 8 is a cross-sectional view showing a conventional speaker device.

[Explanation of symbols]

 1 magnet 2 pole piece 3 yoke plate (frame, second frame) 3a rising piece 4 base plate 5 hole 6 eyelet 7 yoke frame (frame, first frame) 8 voice coil 8b winding start portion 8c winding end portion 8e, 8f Leads on both ends 9 Vibration plate 10 Magnetic circuit 11 Magnetic gap 12 Drawer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location H04R 9/02 102 E 8421-5H

Claims (4)

[Claims] 1. A magnetic circuit having a cylindrical magnetic gap, a voice coil housed in the magnetic gap, a diaphragm supporting the voice coil, and an outer peripheral edge portion of the diaphragm attached to one end. No. 1 frame, a second frame engaged with the first frame and having a part of the magnetic circuit attached thereto, and a drawing-out means for drawing out both-end leads of the voice coil from the back side of the diaphragm. A speaker device comprising: 2. The speaker device according to claim 1, wherein the voice coil is wound evenly, and leads at both ends thereof are led out from diagonal positions. 3. A frame, a magnetic circuit formed in the frame and having a cylindrical magnetic gap, a diaphragm having an outer periphery supported by the frame, and a diaphragm wound in a cylindrical shape and supported by the diaphragm. A speaker device comprising: a voice coil housed in a magnetic gap; and a pull-out means for pulling out both ends of the voice coil from the back side of the diaphragm. 4. The speaker device according to claim 3, wherein the voice coil is wound evenly, and leads at both ends thereof are led out from diagonal positions.