JPH0478079B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a speaker device that can efficiently generate vibrations or deep bass sounds along with normal audio signals.

(Prior Art) A conventional speaker device of this type consists of a speaker A and a vibrating body B, as shown in FIG.
Further, in the speaker A, both sides of the voice coil driving magnet 1 are held between a plate 2 and a pole yoke 3, and the center pole part of the pole yoke 3 is loosely inserted into the center hole of the plate 2, and the center pole part of the pole yoke 3 is loosely inserted into the center hole of the plate 2. An annular magnetic gap 4 between the edge and the outer circumference of the pole part
is formed. This gap 4, frame 5
A voice coil 8 wound around a bobbin 7 integrated with a diaphragm 6 attached to the diaphragm 6 is inserted. In addition, the vibrating body B
are standing walls 9 and 10 that are double circular inside and outside when viewed from above.
It is made up of a flat donut-shaped iron housing 11 having an opening on one side, and an excitation coil 12 wound in a multi-layered manner between the upright walls 9 and 10. This vibrating body B is attached to a rivet 1 through a circular spring plate 14 to a column 13 installed in the center of the back of the pole yoke 3, with its opening side facing the yoke 3 side.
5, and is supported by the speaker A so as to be able to freely vibrate. A lead wire 16 from an amplifier (not shown) is connected to the voice coil 8 and the excitation coil 12 in parallel. Further, 17 is a mounting base for a speaker box, a wall plate, etc.

In such a speaker device, the lead wire 1
When an audio signal current is passed through the speaker A, the magnetic flux generated in the voice coil 8 of the speaker A acts on the strong magnetic field 18 of the magnet 1 generated in the magnetic gap 4 as shown in FIG. It moves in the axial direction, vibrates the diaphragm 6, and generates an audio signal at a normal audible frequency. In addition, in the vibrating body B, the upstanding walls 9 and 10 serve as N and S magnetic poles, and a magnetic flux 19 whose direction alternately fluctuates is generated between the two magnetic poles, and this magnetic flux 1
9 magnetically interferes with the leakage magnetic flux 20 coming out from the magnet 1. This causes the spring plate 14 to vibrate as a fulcrum, and this vibration also causes the coil 12 to vibrate.
Due to the synergistic effect of the low frequency band components that are naturally cut out from the high frequency components and the mass of the spring plate 14 and the vibrating body B itself, the low frequency range is faithfully extracted, and this vibration is transmitted to the pillar 13. , York 3,
It is transmitted to the mounting base 17 through the magnet 1, plate 2, and frame 5, and is extracted as vibration or deep bass sound.

(Problems to be Solved by the Invention) According to the above configuration, the magnetic field acting on the magnetic flux 19 by the excitation coil 12 is equal to the leakage magnetic flux 2 of the magnet 1.
0, and this magnetic flux 20 has a weak magnetic field strength, so
In order to cause the vibrating body B to vibrate greatly, a large signal current must be passed through the excitation coil 12, which has the disadvantage of poor efficiency.

In order to solve these drawbacks, conventional
A speaker device disclosed in No. 59-52795 has been proposed.

This speaker device has a magnet interposed between an upper plate and a lower plate, and a pole piece that covers the upper plate, the lower plate, and the magnet. Furthermore, first and second magnetic gaps are provided between the peripheral edges of the upper and lower plates and the pole piece, respectively, and voice coils are inserted into the first and second magnetic gaps, respectively.

However, in this speaker device, since the first and second magnetic gaps are vertically connected, the vibration generated by the voice coil inserted into the first magnetic gap and the vibration generated by the voice coil inserted into the second magnetic gap are There is a problem in that back pressure is applied to each other through the magnetic gaps and the vibrations generated by the voice coil, making it impossible to obtain good acoustic characteristics. .

Therefore, in order to solve these drawbacks of the speaker device, a speaker device disclosed in Japanese Utility Model Application Laid-open No. 59-84996 has been proposed.

This speaker device has a pole piece arranged in the center, a yoke arranged around the pole piece, and a magnet interposed between the pole piece and the yoke. Further, first and second magnetic gaps are formed between the upper and lower ends of the pole piece and the upper and lower ends of the yoke, respectively, and a voice coil is inserted into each magnetic gap.

According to this speaker device, the upper and lower first and second magnetic gaps are separated by a magnet,
Since the magnetic gaps do not communicate with each other, they are not affected by back pressure.

By the way, since the voice coils inserted into the first and second magnetic gaps vibrate vertically, it is necessary to provide a vibration space for the voice coils in the vertical direction. Here, in this speaker device,
Since the first and second magnetic gears are arranged vertically in a straight line, there is a problem in that the speaker device becomes larger in the vertical direction, in addition to ensuring a space for the voice coil to vibrate. Was.

SUMMARY OF THE INVENTION In view of the above-mentioned conventional problems, it is an object of the present invention to provide a compact speaker device in which the back pressures generated when driving the speaker and the vibrating body do not affect each other.

(Means for Solving the Problems) In order to solve the above problems, the present invention includes a speaker and a vibrating body supported by the speaker so as to be able to freely vibrate, and the speaker generates an audio signal of an audible frequency. In a speaker device that generates vibrations or deep bass sounds using the vibrating body, the magnetic circuit of the speaker is connected to a flat annular magnet and one magnetic pole of the magnet, and the center is located within the inner space of the magnet. A disc-shaped pole yoke passing through the magnet is connected to the other magnetic pole of the magnet, and an end face located inside the magnet is separated from the penetrating portion of the pole yoke via a first magnetic gap. an annular plate extending toward the pole yoke and separated from the outer peripheral edge of the pole yoke via a second magnetic gap;
The vibrating body is connected via a spring plate to a portion protruding downward from the lower center of the pole yoke, the voice coil of the speaker is inserted into the first magnetic gap, and the voice coil of the speaker is inserted into the second magnetic gap. It is characterized by the insertion of a vibrating voice coil.

(Function) According to the present invention, since the first and second magnetic gears are partitioned into the inside and outside by the magnet,
Back pressure caused by vibrations generated by one voice coil does not affect the other voice coil.

Further, the first magnetic gap of the speaker is arranged inside the magnet, the second magnetic gap of the vibrating body is arranged outside the magnet, and the first and second magnetic gaps are arranged inside the magnet.
Since the magnetic gaps are not arranged vertically in a straight line, the length of the speaker device in the axial direction does not become large.

Further, this vibrating body is fixed to a portion protruding from the lower center of the pole yoke of the speaker, so that the vibration of the vibrating body does not affect the swinging of the voice coil of the speaker.

(Embodiment) FIGS. 1 to 3 show an embodiment of the present invention. In the figure, C is a speaker, D is a vibrating body, and speaker C is a magnetic circuit 30 consisting of a magnet 31, a plate 32, and a pole yoke 33.
, frame 40 , diaphragm 41 , and bobbin 42
and a voice coil 43. In the magnetic circuit 30, an annular plate 32 and a disc-shaped pole yoke 33 are joined to both sides of a flat annular magnet 31, that is, to different magnetic pole faces. Further, a center pole portion 33a that penetrates the inside of the magnet 31 projects from the center of the pole yoke 33. Furthermore, the magnet 31 is connected to the plate 32.
An annular first magnetic gap 34 is formed in the center hole 32a between the inner end face and the center pole portion 33a. On the other hand, the end surface of the plate 32 on the outside of the magnet 31 extends from the outside of the magnet 31 toward the pole yoke 33, and a second magnetic gap is formed in the rear opening 32b between this outside end surface and the outer peripheral surface of the pole yoke 33. 35 is formed. Further, the diaphragm 41 is attached to the frame 40 so as to be able to vibrate freely, and a voice coil 43 wound around a bobbin 42 integral with the diaphragm 41 is inserted into the first magnetic gap 34.

The vibrating body D includes a flat donut-shaped weight plate 44 made of a material with sufficient mass, such as iron, a bobbin 45, and a voice coil 46. A bobbin 45 wound with a voice coil 46 is integrally attached to the side of the weight plate 44 facing the pole yoke 33, and this voice coil 46 is connected to the second magnetic gap 3.
5 is inserted. Further, the vibrating body D is suspended and connected by a rivet 48 to a circular spring plate 47 fixed to a support 33c protruding from the central part of the back surface of the pole yoke 33, and is supported so as to be able to freely vibrate. Further, 49 is a lead wire, and 50 is a mounting base.

In such a configuration, when an audio signal current is passed through the lead wire 49, the magnetic flux from the voice coil 43 acts on the magnetic field of the magnet 31 generated in the magnetic gap 34 in the speaker C, causing the coil 43 to move in the axial direction. The diaphragm 41 is vibrated to generate an audio signal at a normal audible frequency. Also, the vibrating body D
Then, the magnetic flux generated by the voice coil 46 acts on the magnetic field of the magnet 31 generated in the magnetic gap 35, and the coil 46 also moves in the axial direction, causing the weight plate 44 to vibrate. Only the low range of this vibration is faithfully extracted due to the mechanical resistance of the spring plate 47 and the mass of the vibrating body D itself, and this vibration is transmitted to the yoke 3.
3. The sound is transmitted to the mounting base 50 through the magnet 31, plate 32, and frame 40, and is extracted as vibration or deep bass sound.

Since a strong magnetic field is generated by the magnet 31 in both the magnetic gaps 34 and 35,
A strong magnetic field can also be applied to the voice coil 46, and the vibrating body D can be caused to vibrate greatly with a small amount of current, allowing efficient driving.

In addition, the first and second magnetic gaps 34, 35
Since the inside and outside are partitioned by the magnet 31, back pressure caused by vibrations generated by one voice coil 43 or 46 does not affect the other voice coil 43 or 46.

Furthermore, the first magnetic gap 34 of the speaker C is placed inside the magnet 31, and the second magnetic gap 34 of the vibrator D is placed inside the magnet 31.
A magnetic gap 35 is disposed outside the magnet 31, and the first and second magnetic gap 34, 35
are not arranged vertically in a straight line,
The vertical size can be reduced.

Furthermore, since the vibrating body D is fixed to the column 33c that protrudes downward from the center of the lower part of the pole yoke 33 via the spring plate 47, the vibration of the vibrating body D directly affects the upper and lower parts of the voice coil 43 of the speaker C. It does not affect the vibration of the

In the above embodiment, the same signal is supplied to the voice coils 43 and 46, but the voice coil 4
6 may be inputted with a signal with particularly high frequency components cut off, or another signal may be inputted depending on the purpose.

(Effects of the Invention) As explained above, according to the present invention, since the first and second magnetic gears are partitioned into the inside and outside by a magnet, one voice coil is free from back pressure due to vibrations generated by the first and second magnetic gears. Good acoustic characteristics can be obtained without affecting the other voice coil side.

In addition, the first magnetic gap of the speaker is placed inside the magnet, and the second magnetic gap of the vibrating body is placed outside the magnet, so that the first and second magnetic gap are arranged vertically in a straight line, as in the past. Since they are not arranged side by side, the length of the speaker device in the axial direction does not become large, and even a speaker device in which a speaker and a vibrating body are arranged vertically in parallel can be provided in a small size.

Furthermore, the vibrating body is fixed to a portion protruding from the lower center of the pole yoke of the speaker, so that the vibration of the vibrating body does not affect the swinging of the voice coil of the speaker.

[Brief explanation of the drawing]

The drawings are for explaining the present invention, and FIGS. 1 to 3 show one embodiment of the speaker device of the present invention, with FIG. 1 being a longitudinal sectional front view thereof, and FIG. 2 being an enlarged bottom view thereof, and FIG. Figure 3 is an explanatory diagram of magnetic flux action, Figure 4 is a longitudinal sectional front view showing an example of a conventional speaker device, and Figure 5 is a diagram illustrating the effect of magnetic flux.
The figure is an explanatory diagram of the magnetic flux effect in a conventional example. C... Speaker, D... Vibrating body, 30... Magnetic circuit, 35... Second magnetic gap, 46... Voice coil.

Claims (1)

[Scope of Claims] 1 A device comprising a speaker and a vibrating body supported by the speaker so as to be able to freely vibrate, the speaker generating an audio signal of an audible frequency, and the vibrating body generating vibration or deep bass. In the speaker device, the magnetic circuit of the speaker includes: a flat annular magnet; a disc-shaped pole yoke connected to one magnetic pole of the magnet, the center of which passes through the inner space of the magnet; The end face that is connected to the other magnetic pole and is located inside the magnet is separated from the through part of the pole yoke via a first magnetic gap, and the end face that is located outside the magnet is on the pole yoke side. The vibrator is composed of an annular plate that extends and is separated from the outer peripheral edge of the pole yoke via a second magnetic gear, while the vibrating body is connected to a portion protruding downward from the lower center of the pole yoke via a spring plate. . A speaker device, wherein a voice coil of the speaker is inserted into the first magnetic gap, and a voice coil of the vibrator is inserted into the second magnetic gap.