JPS6222320B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an electrodynamic speaker in which a rectangular plane diaphragm is driven by a single voice coil. An object of the present invention is to provide an electrodynamic speaker capable of obtaining sound pressure frequency characteristics and reducing distortion.

Generally, an electrodynamic speaker in which a rectangular plane diaphragm is driven by a single voice coil is constructed as shown in FIG. In FIG. 1, a rectangular plane diaphragm 1 is supported at its outer periphery by a frame 3 via an edge member 2, and the frame 3 is attached to a magnetic circuit formed by a magnet 4, a yoke 5, and a center pole 6. There is. A bobbin 8 having a voice coil 9 supported by a damper 7 bonded to one side of the frame 3 is directly bonded to the lower surface of the rectangular plane diaphragm 1. As shown in FIG. 1, when one voice coil bobbin 8 is bonded directly to the diaphragm 1 and the diaphragm 1 is driven centrally by only one magnetic circuit, the second
A vibration mode as shown in the figure occurs. here,
A indicates a vibration mode at the first resonance frequency ₁ , and in this vibration mode A, two nodes a and a' substantially parallel to the short side of the diaphragm 1 are generated.
B indicates a vibration mode at the second resonance frequency ₂ , and in this vibration mode B, three nodes b, b', b'' approximately parallel to the short side of the diaphragm 1 occur. It shows the vibration mode at the next resonance frequency ₃ , and in this vibration mode C, there are four nodes c, c', c'',
c occurs. As explained above, when driven by the center drive method shown in FIG. 1, the high frequency reproduction limit is determined by the divided resonance of the diaphragm 1, so the uneven This results in a sound pressure frequency characteristic that causes Therefore, the fourth
As shown in FIGS. 5 and 5, it has been proposed to flatten the sound pressure frequency characteristics by moving one voice coil bobbin 8 to one short side of the diaphragm 1 and subjecting it to node driving. In FIGS. 4 and 5, a rectangular plane diaphragm 1 is supported at its outer periphery by a frame 3 via an edge member 2, and a magnet 4, a yoke 5, a center pole 6 are mounted on one side of the frame 3.
A bobbin 8 having a voice coil 9 supported by a damper 7 is attached to the frame 3 directly at the position of a node occurring in the rectangular plane diaphragm 1. At this time, the mounting position of the voice coil bobbin 8 is between the node a' caused by the first resonance frequency ₁ shown in Fig. 2 and the third resonance frequency.
The _voice coil bobbin 8 has a size that can directly drive these two nodes at the same time. By using the above-described node drive method, As shown in Figure 6, the characteristics when using the center drive method (the uneven characteristics shown by the broken line) can be improved so that a flat sound pressure frequency characteristic up to the high range, as shown by the solid line, can be obtained. In other words, the characteristics can be improved so that the peaks and troughs of the sound pressure characteristics due to resonance of the diaphragm are reduced.The same effect can be obtained by changing the combination of the positions of the various nodes shown in Fig. 2 as another driving method. However, in the case of one voice coil bobbin direct connection using the one-sided drive method (nodal drive method) described above, distortion due to the second and third harmonics occurs as shown in Figure 7. The reason for this is that rolling is more likely to occur because it is driven on one side compared to the conventional case where two magnetic circuits are used and driven symmetrically at two locations. Conceivable.

The present invention solves these conventional drawbacks, and includes an edge member for driving the rectangular plane diaphragm on the flat side and supporting the rectangular plane diaphragm on the frame from the center position of the rectangular plane diaphragm. It is constructed so that it is asymmetrical when viewed from the outside. According to this configuration, not only can a flat sound pressure frequency characteristic up to high frequencies be obtained because nodes of different vibration modes are simultaneously driven, but also an asymmetric edge can be obtained even when driven by a single voice coil. The rolling phenomenon can be reduced by
It also has the advantage of reducing strain.

Embodiments of the present invention will be described below with reference to the drawings. FIGS. 8 and 9 are a top view and a structural sectional view of the electrodynamic speaker of the present invention as seen from the side. In FIG. 8, reference numeral 1 denotes a rectangular plane diaphragm, which is supported on a frame 3 via an edge member 10 whose outer periphery is asymmetrically shaped (different edge widths). As shown in FIG. 9, the diaphragm 1 prototyped using the asymmetric edge member 10 is directly bonded to the voice coil bobbin 8 so that it can be driven using a one-sided drive method (nodal drive method). In other words, a magnetic circuit consisting of a magnet 4, a yoke 5, and a center pole 6 is attached to the frame 3, and the voice coil 9 is moved in a piston manner within a magnetic gap between the yoke 5 and the center pole 6 that constitute the magnetic circuit. voice coil 9
A bobbin 8 having a diameter is supported on the frame 3 by a damper 7. The edge member 10 has a shape in which the short side of the diaphragm 1 close to the drive position is narrow, the short side far from the drive position is wide, and the long side is narrow enough to support the short side close to the drive position. It is formed to have.

In this way, the shape of the edge member is made asymmetric,
By reducing the edge width on the voice coil drive side and increasing the edge width on the opposite side, the 10th
As shown in the figure, it has become possible to significantly reduce the second and third harmonic distortion. This is because the edge width on the voice coil driving side is made smaller than the edge width on the opposite side, suppressing the amplitude on the voice coil side, and making it easier to vibrate on the opposite side, making it difficult for rolling phenomena to occur. It is.

In addition, as shown in FIG. 11, when the diaphragm is supported on the frame by the edge member 11 formed so that the edge width gradually increases from the voice coil drive side to the opposite side. It goes without saying that the same strain reduction effect as described above can be obtained also in this case.

As described above, according to the present invention, there is provided a voice coil bobbin that simultaneously contacts two nodes in different vibration modes among the vibration modes of free vibration of a rectangular plane diaphragm, and a The rectangular plane diaphragm is configured so that the rectangular plane diaphragm is nodally driven by the voice coil that makes a piston motion, and the outer periphery of the rectangular plane diaphragm is such that the short side closer to the drive side of the voice coil is narrower, and the voice coil Since it is configured to be supported on the frame by an asymmetrical edge member whose short side farthest from the drive side is wide, it is possible to suppress the occurrence of rolling of the rectangular plane diaphragm and reduce distortion.
It also has the advantage of being able to expand the reproduction band as a flat sound pressure frequency characteristic. Moreover,
Since there is only one magnetic circuit, that is, one voice coil, it has advantages such as a good space factor and is suitable as a small speaker.

[Brief explanation of the drawing]

Figure 1 is a cross-sectional view of the structure of a flat-plate speaker when driven by the center, Figure 2 is a diagram showing the vibration mode of the diaphragm and the positional relationship of the nodes when driven by the center, and Figure 3 is the sound pressure of the same speaker. Frequency characteristic diagram, Figure 4 is a top view of a conventional nodal drive type speaker, Figure 5 is a structural sectional view of the same speaker, Figure 6 is a sound pressure frequency characteristic diagram of the same speaker, and Figure 7 is a diagram of the same speaker. FIG. 8 is a top view showing one embodiment of the speaker of the present invention, and FIG. 9 is a structural sectional view of the same speaker.
0 is a distortion characteristic diagram of the same speaker, and FIG. 11 is a top view showing another embodiment of the speaker of the present invention. 1... Rectangular plane diaphragm, 3... Frame, 4... Magnet, 5... Yoke, 6... Center pole, 7...
Damper, 8...Voice coil bobbin, 9...Voice coil, 10...Edge member.

Claims (1)

[Claims] 1. It has a voice coil bobbin that simultaneously contacts two nodes in different vibration modes among the vibration modes of the free vibration of the rectangular plane diaphragm, and the voice coil that is installed on this bobbin and moves as a piston within the gap of the magnetic circuit. The rectangular plane diaphragm is configured to be nodal driven, and the outer periphery of the rectangular plane diaphragm has a short side farther from the voice coil driving part than a short side closer to the voice coil driving part. An electrodynamic speaker configured to be supported by a frame using wide asymmetrical edge members.