This application is the U.S. National Phase under 35 U.S.C. ยง371 of International Application No. PCT/JP2007/050381, filed on Jan. 15, 2007, which in turn claims the benefit of Japanese Application No. 2006-008445, filed on Jan. 17, 2006, the disclosures of which applications are incorporated by reference herein.
The present invention relates to a speaker.
As the preceding technical document information with respect to the invention of the present application, for example, Patent Document 1 is commonly known.
Since the speaker shown in
The present invention is intended to enhance the driving efficiency in a speaker being less in distortion.
In order to achieve the purpose, the present invention comprises a frame, a magnetic circuit supported by the frame, a voice coil body movably disposed against magnetic gap in the magnetic circuit, a diaphragm with its outer rim connected to the frame via a first edge and its inner rim connected to the voice coil body, and a damper disposed rather closer to the magnetic circuit than the diaphragm, of which the inner rim is connected to the voice coil body, wherein the outer rim of the damper is connected to the frame via a second edge, and the second edge is protruded toward the diaphragm or the opposite side thereof. The damper has such a structure that a first protrusion protruding toward the diaphragm and a second protrusion protruding in a direction opposite to the first protrusion are alternately repeated in a plurality of times, and the first protrusion and the second protrusion are different in size, and the smaller protrusion out of the first and second protrusions is same in protruding direction as that of the second edge.
In this configuration, speaker distortion can be suppressed, and it is possible to enhance the driving efficiency by decreasing the weight even as a mid-range and a full-range speaker.
One preferred embodiment of the present invention will be described in the following with reference to the drawings.
Diaphragm 3 is a portion that serves as a sound source of the speaker, for which pulp and resin fulfilling the requirements for both high stiffness and internal loss are used as main materials, and the outer rim thereof is connected to the opening end of frame 5 via first edge 4 protruding upward, while the inner rim is fixed by bond 3a on the outer wall of body 2a of voice coil body 2. First edge 4 is formed from a material such as urethane, foamed rubber, SBR rubber, and cloth so that a moving load will not be given to diaphragm 3.
As shown in
Second edge 11 and damper 10 will be further described in the following. Firstly, second edge 11 is structurally protruded in a direction opposite to diaphragm 3 in this preferred embodiment. Also, damper 10 is structurally such that first protrusion 10a protruding toward diaphragm 3 and second protrusion 10b protruding in a direction opposite to first protrusion 10a are alternately repeated in a plurality of times. Further, first protrusion 10a and second protrusion 10b are different in size from each other, and in this preferred embodiment, first protrusion 10a is larger than second protrusion 10b.
Also, the protruding direction of second edge 11 is same as the protruding direction of second protrusion 10b that is smaller than first protrusion 10a, and thereby, speaker distortion can be suppressed. The reason for this will be described later.
In the above configuration, a voice signal is applied to coil 2b of voice coil body 2, then voice coil body 2 reacts with the magnetic field of magnetic gap 8 and moves in a vertical direction. Diaphragm 3 is vibrated due to the movement to emit a sound from the speaker. Particularly, since second edge 11 is disposed at the outer rim of damper 10, speaker distortion is suppressed, and further, the driving efficiency of the speaker is enhanced.
Conventionally, the inner and outer rims of damper 10 are connected to frame 5 and voice coil body 2, thereby suppressing rolling of voice coil body 2 in operation. In this preferred embodiment, to make easier to follow the movement of voice coil body 2, first protrusion 10a protruding toward diaphragm 3 and second protrusion 10b protruding in a direction opposite to first protrusion 10a are alternately repeated in a plurality of times, thereby providing the structure with elasticity.
Thus, damper 10 is a ring-like corrugated plate having a plurality of first protrusions 10a and second protrusions 10b. As a result, when voice coil body 2 is small in the excursion, damper 10 will not cause a great load to the movement of voice coil body 2, but the load is increased as the excursion of voice coil body 2 becomes larger.
Accordingly, in this preferred embodiment, the outer rim of damper 10 is connected to frame 5 via second edge 11. In this way, the excursion of voice coil body 2 is increased, a stress is applied to second edge 11 when the load of damper 10 becomes increased, and second edge 11 is elastically deformed in accordance with the stress.
As a result, even in case the excursion of voice coil body 2 becomes larger, damper 10 will hardly cause hindrance to the excursion, and it is possible to suppress lowering of the driving efficiency.
Also, in the present preferred embodiment, voice coil body 2 is vertically supported by two support members such as first edge 4 and combination 12 formed of damper 10 and second edge 11. And, in order to enhance the driving efficiency of diaphragm 3, first edge 4 is reduced in thickness to decrease its weight, and thereby, the total weight of diaphragm 3 and first edge 4 is reduced. In this way, it is structurally possible to enhance the driving efficiency of diaphragm 3.
However, when first edge 4 is reduced in thickness, the supporting strength for voice coil body 2 is lowered, and therefore, second edge 11 is made thicker than first edge 4, and thereby, the supporting strength for voice coil body 2 is prevented from lowering. As a result, Young's modulus of combination 12 formed of damper 10 and second edge 11 is greater (stiffer) than Young's modulus of first edge 4.
Due to the above configuration, voice coil body 2 is mainly supported by combination 12 formed of damper 10 and second edge 11. Accordingly, to suppress the distortion of up and down excursion of diaphragm 3, it is necessary to make the up and down loads of combination 12 formed of damper 10 and second edge 11 equal to each other as much as possible.
The shape of damper 10 in this preferred embodiment shown in
In this preferred embodiment, first protrusion 10a protruding toward diaphragm 3 and second protrusion 10b protruding in a direction opposite to first protrusion 10a are alternately repeated in a plurality of times.
In such a shape, as a result of taking into account various characteristics, when first protrusion 10a is larger in size than second protrusion 10b, second edge 11 is protruded in the same direction as second protrusion 10b being small, specifically in a direction opposite to diaphragm 3. In this way, it is possible to obtain the following advantages.
That is, when second protrusion 10b is smaller than first protrusion 10a, damper 10 is easy to elastically deform toward diaphragm 3 and hard to elastically deform in a direction opposite to diaphragm 3.
In order to make up for the elasticity of damper 10 which is hard to elastically deform in a direction opposite to diaphragm 3, the protruding direction of second protrusion 10b is same as the protruding direction of second edge 11. That is, each of second protrusion 10b and second edge 11 is protruded in a direction opposite to diaphragm 3.
That is, since second edge 11, first protrusion 10a, and second protrusion 10b are easier to elastically deform in the protruding direction, second protrusion 10b is made smaller than first protrusion 10a, and consequently, second edge 11 serves to make up for the deficiency due to being hard to elastically deform in a direction opposite to diaphragm 3.
As a result, the difference between elastic deforming loads in up and down directions of combination 12 formed of damper 10 and second edge 11 is lowered, thereby suppressing the distortion of the speaker.
Naturally, in case first protrusion 10a is smaller than second protrusion 10b, in order to make up for deficiency in elasticity of first protrusion 10a, second edge 11 is protruded in a direction opposite to diaphragm 3 according to first protrusion 10a. In this way, same advantage can be obtained as well.
Consequently, the vertical excursion of diaphragm 3 is made generally symmetrical, and it is possible to reduce distortion in the speaker. Also, since first edge 4 is reduced in weight, the speaker is excellent in driving efficiency as a mid-range and a full-range speaker.
Thus, in a configuration such that damper 10 is connected to frame 5 via second edge 11, as described earlier, power linearity can be assured by corrugated damper 10 until the movable range of voice coil body 2 increases to a certain extent. And, when the movable range of voice coil body 2 exceeds the predetermined value, making it difficult to assure the linearity, the elasticity of second edge 11 will compensate for the deficiency in linearity. Accordingly, it is desirable to set Young's modulus of second edge 11 greater (stiffer) than Young's modulus of damper 10.
Also, damper 10 and second edge 11 are different from each other with respect to Young's modulus, and it is desirable to set the elasticity so that both of them individually function in accordance with the movable range of voice coil body 2. That is, between damper 10 and second edge 11, more specifically, in the connecting region between damper 10 and second edge 11, the individuality of both members can be assured by setting Young's modulus of the region greater (stiffer) than Young's modulus of damper 10 and second edge 11.
For setting Young's modulus of the connecting region between damper 10 and second edge 11 greater (stiffer) than Young's modulus of damper 10 and second edge 11, for example, a stiff bond such as acrylic bond is used for bonding second edge 11 to damper 10, or second edge 11 and damper 10 are integrated by insert mold to increase the thickness thereof, or a reinforcing material is affixed to the connecting region.
The present invention is able to reduce speaker distortion and also to improve the driving efficiency, and particularly, it is useful for a mid-range and a full-range speakers.
Number | Date | Country | Kind |
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2006-008445 | Jan 2006 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2007/050381 | 1/15/2007 | WO | 00 | 7/10/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/083582 | 7/26/2007 | WO | A |
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Number | Date | Country | |
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20090123019 A1 | May 2009 | US |