The present invention relates to loudspeakers.
In a conventional loudspeaker, as shown in
Distortion of the loudspeaker is reduced by making protrusions from edges 4A and 7E in opposite directions such that the vertical excursion of diaphragm 3A becomes vertically symmetrical.
One of the typical prior arts related to the present invention is disclosed in Patent Document 1.
The loudspeaker shown in
Patent Document 1: Japanese Patent Unexamined Publication No. 2004-7332.
The present invention further improves a driving efficiency of low-distortion loudspeakers.
The present invention includes a frame, a diaphragm whose outer rim is supported by this frame via an edge, a voice coil unit connected to this diaphragm, a magnetic circuit where a voice coil of this voice coil unit is movably disposed in its magnetic gap, and first and second edge members for supporting the voice coil unit by the frame at two points with a predetermined interval to the side of a magnetic gap from a part where diaphragm is connected. The first and second edge members include heat-resistant connectors that allow air to pass through, and ring edges made of resilient material and are connected to these connectors. The edge of the first or the second edge members protrudes toward the diaphragm, and the other edge protrudes toward the magnetic circuit.
This structure suppresses distortion of the loudspeaker, and also improves the driving efficiency by reducing the weight of an excursion portion connected to the voice coil. Accordingly, this loudspeaker is applicable to mid-range loudspeakers and tweeters.
REFERENCE MARKS IN THE DRAWINGS
1 Magnetic circuit
2 Voice coil unit
2
b Voice coil
3 Diaphragm
4 Edge
5 Frame
7A, 7B, 7 Edge member
7
a,
7
b,
7
p Ring connector
7
c,
7
d,
7
q Ring edge
8 Magnetic gap
A loudspeaker in the first exemplary embodiment of the present invention is described below.
Voice coil unit 2 is configured such that voice coil 2b is wound around the outer rim of cylindrical body 2a. This voice coil 2b is disposed in a vertically movable manner relative to magnetic gap 8. This allows excursion of thin disc-like diaphragm 3 connected to the upper outer rim of cylindrical body 2a of voice coil unit 2. Dust cap 9 is provided on a top part of cylindrical body 2a of voice coil unit 2 as a dust-proofing measure.
Diaphragm 3 is the sound-generating source in the loudspeaker, and is thus mainly made of pulp and resin so as to achieve both high hardness and internal loss. The outer rim of this diaphragm 3 is connected to an open end of frame 5 via edge 4 protruding upward. The inner rim of diaphragm 3 is connected and fixed to the outer rim of body 2a of voice coil unit 2. Edge 4 is typically made of urethane, foamed rubber, SBR rubber, or cloth such that edge 4 does not apply load to the movement of diaphragm 3.
Edge members 7A and 7B are combined parts of ring connectors 7a and 7b, and ring edges 7c and 7d. Inner rims of ring connectors 7a and 7b of edge members 7A and 7B are connected to the outer rim of body 2a of voice coil 2, at a predetermined interval, at points to the side of magnetic circuit 1 from a part where diaphragm 3 is fixed. Outer rims of edge members 7A and 7B are connected to frame 5 via ring edges 7c and 7d at a predetermined interval. These ring connectors 7a and 7b are made by hardening a material such as cloth in a corrugated ring structure. If the movement distance of voice coil unit 2 is small, these ring connectors 7a and 7b stretch and compress in accordance with the vertical movement of voice coil unit 2. If the vertical movement distance of voice coil unit 2 is large, ring edges 7c and 7d follow the vertical movement, which is described later.
These ring connectors 7a and 7b are, as described above, made of a material such as cloth hardened in a corrugated ring structure, and a vent (not illustrated) is provided. Accordingly, ring connectors 7a and 7b allow air to pass through, and thus they apply less load to upward and downward movement of edge members 7A and 7B. In addition, since these ring connectors 7a and 7b are made of a material such as cloth hardened in a corrugated structure, as described above, they are heat-resistant. Accordingly, these ring connectors 7a and 7b and also ring edges 7c and 7d, to which ring connectors 7a and 7b are connected, do not deteriorate as a result of the heat generated from voice coil 2b of voice coil unit 2.
If an audio signal is applied to voice coil 2b of voice coil unit 2 in this structure, voice coil unit 2 moves up and down by reacting with the magnetic field in magnetic gap 8. This movement vibrates diaphragm 3, generating sound from the loudspeaker. In particular, distortion of the loudspeaker is suppressed and the driving efficiency of the loudspeaker is further improved by providing ring edges 7c and 7d on the outer rims of ring connectors 7a and 7b in edge members 7A and 7B. The reason is given below.
Conventionally, inner and outer ends of ring edges 7c and 7d are connected to frame 5 and voice coil unit 2, respectively, so as to suppress the rolling of voice coil unit 2 which may occur during its movement. In the loudspeaker in the first exemplary embodiment, this ring edge 7c protrudes toward diaphragm 3, ring edge 7d protrudes toward magnetic circuit 1, and both ring edges 7c and 7d are resilient so as to allow easy tracing of the movement of voice coil unit 2. By applying the audio signal to voice coil 2b of voice coil body 2, voice coil body 2 reacts with the magnetic field in magnetic gap 8, and moves upward and downward. If the excursion of voice coil unit 2 is small, above-mentioned ring connectors 7a and 7b do not impose a large load on the movement of voice coil unit 2. However, as the excursion of voice coil unit 2 becomes larger, ring connectors 7a and 7b hinder smooth vertical movement.
In the loudspeaker in the first exemplary embodiment of the present invention, the outer rims of ring connectors 7a and 7b are connected to frame 5 via ring edges 7c and 7d, respectively. When the excursion of voice coil unit 2 becomes large and ring connectors 7a and 7b start to apply load, stress is applied to ring edges 7c and 7d. Ring edges 7c and 7d then resiliently deform in response to this stress. Accordingly, although the excursion of voice coil unit 2 rises, the presence of ring edges 7c and 7d prevents hindering of the excursion, and thus reduction of driving efficiency is suppressed.
In the first exemplary embodiment, voice coil unit 2 is vertically supported by two supports: edge 4 and edge members 7A and 7B (combined parts of assembly of ring connectors 7a and 7b and ring edges 7c and 7d). To improve the driving efficiency of diaphragm 3, edge 4 is thinned so that its weight becomes lighter. This makes the weight of diaphragm 3 and edge 4 lighter, providing a structure that improves the driving efficiency of diaphragm 3. However, if edge 4 is thinned, the strength to support voice coil unit 2 is reduced. Therefore, ring edges 7c and 7d of edge members 7A and 7B are made thicker than edge 4 so as to prevent degradation in the strength to support voice coil unit 2. As a result, Young's modulus of edge members 7A and 7B (combined parts of ring connectors 7a and 7b, and ring edges 7c and 7d) becomes greater (harder) than that of edge 4.
In the above structure, edge members 7A and 7B (combined parts of ring connectors 7a and 7b and ring edges 7c and 7d) dominantly support voice coil unit 2. Accordingly, the upper load and lower load of edge members 7A and 7B (combined parts of assembly of ring connectors 7a and 7b and ring edges 7c and 7d) need to be kept at the same level as much as possible to suppress distortion in the vertical movement of the diaphragm. Since ring connectors 7a and 7b vibrate only slightly, as described above, the upper load and lower load of ring edges 7c and 7d are kept as much as possible at the same level in the first exemplary embodiment. For this purpose, ring edge 7c protrudes toward diaphragm 3 and ring edge 7d protrudes toward magnetic circuit 1. In addition, both ring edges 7c and 7d are resilient. The upper and lower loads are kept as much as possible at the same level by establishing a symmetric shape in the protruding directions of ring edges 7c and 7d relative to their boundary. Ring edges 7c and 7d are connected to steps 5a and 5b on frame 5, respectively. This achieves a reliable connection. A significant characteristic of the loudspeaker in the first exemplary embodiment of the present invention is that upper and lower loads of edge members 7A and 7B (combined parts of assembly of ring connectors 7a and 7b and ring edges 7c and 7d) that practically support voice coil unit 2 are kept at the same level.
This characteristic achieves symmetric vertical excursion of diaphragm 3, reducing distortion of the loudspeaker. In addition, edge 4, which has a large area on the outer rim of diaphragm 3, is thinned to make it lighter. This achieves high driving efficiency, even in mid-range loudspeakers and tweeters.
A loudspeaker in the second exemplary embodiment of the present invention is described below.
Voice coil unit 2 is configured such that voice coil 2b is wound around the outer rim of cylindrical body 2a. This voice coil 2b is disposed in a vertically movable manner relative to magnetic gap 8. This allows excursion of thin disc-like diaphragm 3 connected to the upper outer rim of cylindrical body 2a of voice coil unit 2. Dust cap 9 is provided on a top part of cylindrical body 2a of voice coil unit 2 as a dust-proofing measure.
Diaphragm 3 is the sound-generating source in the loudspeaker, and is thus mainly made of pulp and resin so as to achieve both high hardness and internal loss. The outer rim of this diaphragm 3 is connected to an open end of frame 5 via edge 4 protruding upward. The inner rim of diaphragm 3 is connected and fixed to the outer rim of body 2a of voice coil unit 2. Edge 4 is typically made of urethane, foamed rubber, SBR rubber, or cloth such that edge 4 does not apply load to the movement of diaphragm 3.
An inner rim of ring connector 7p of edge member 7 is connected to the outer rim of body 2a of voice coil unit 2 at a point to the side of magnetic circuit 1 from a part where diaphragm 3 is fixed. An outer rim of ring connector 7p is connected to frame 5 via ring edge 7q. This ring connector 7p is made by hardening a material such as cloth in a corrugated ring structure. If the movement distance of voice coil unit 2 is small, this ring connector 7p stretches and compresses in accordance with the vertical movement of voice coil unit 2. If the vertical movement distance of voice coil unit 2 is large, ring edge 7q follows the vertical movement, which is described later.
This ring connector 7p, as described above, is made of a material such as cloth hardened in a corrugated ring structure and a vent (not illustrated) is provided. Accordingly, ring connector 7p allows air to pass through, and thus it applies less load to upward and downward movement of edge member 7. In addition, since this ring connector 7p is made of a material such as cloth hardened in a corrugated ring structure, as described above, it is heat-resistant. Accordingly, this ring connector 7p and also ring edge 7q, to which ring connector 7p is connected, do not deteriorate as a result of the heat generated from voice coil 2b of voice coil unit 2.
If an audio signal is applied to voice coil 2b of voice coil unit 2 in this structure, voice coil unit 2 moves up and down by reacting with the magnetic field in magnetic gap 8. This movement vibrates diaphragm 3, generating sound from the loudspeaker. In particular, distortion of the loudspeaker is suppressed and the driving efficiency of the loudspeaker is further improved by providing ring edge 7q on the outer rim of ring connector 7p in edge member 7. The reason is described below.
In
Accordingly, in the loudspeaker in the second exemplary embodiment, the outer rim of ring connector 7p is connected to frame 5 via ring edge 7q. When the excursion of voice coil unit 2 becomes large and ring connector 7p starts to apply load, stress is applied to ring edge 7q. Ring edge 7q then resiliently deforms in response to this stress. Accordingly, although the excursion of voice coil unit 2 rises, the presence of ring edge 7q prevents hindering of the excursion, and thus reduction of driving efficiency is suppressed. In the second exemplary embodiment, voice coil unit 2 is vertically supported by two supports: edge 4 and edge member 7 (combined part of ring connector 7p and ring edge 7q). To improve the driving efficiency of diaphragm 3, edge 4 is thinned so that its weight becomes lighter. This makes the weight of diaphragm 3 and edge 4 lighter, providing a structure that improves the driving efficiency of diaphragm 3. However, if edge 4 is thinned, the strength to support voice coil unit 2 is reduced. Therefore, ring edge 7q of edge member 7 is made thicker than edge 4 so as to prevent degradation in the strength to support voice coil unit 2. As a result, Young's modulus of edge member 7 (combined part of ring connector 7p and ring edge 7q) becomes greater (harder) than that of edge 4.
In the above structure, edge member 7 (combined part of ring connector 7p and ring edge 7q) dominantly supports voice coil unit 2. Accordingly, the upper load and lower load of edge member 7 need to be kept at the same level as much as possible to suppress distortion in the vertical movement of the diaphragm. Since ring connector 7p moves only slightly, as described above, a structure shown in
Ring edge 7q is made of rubber or synthetic resin, and has upward and downward protrusions alternately in a circumferential direction on six equal circumferentially-segmented parts, as shown in
These protrusions are further detailed next. In
This characteristic achieves symmetric vertical excursion of diaphragm 3, reducing distortion of the loudspeaker. In addition, edge 4, which has a large area on the outer rim of diaphragm 3, is thinned to make it lighter. This achieves high driving efficiency, even in mid-range loudspeakers and tweeters.
The loudspeaker of the present invention reduces distortion of the loudspeaker and improves its driving efficiency. In particular, the present invention is effectively applicable to mid-range loudspeakers and tweeters.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2008/001431 | 6/5/2008 | WO | 00 | 12/12/2008 |