The present invention relates generally to a speaker, more specifically to a speaker using light weight, highly rigid cone-shaped diaphragm to provide excellent frequency response.
In conventional speakers, paper pulp, metal, polypropylene, etc. are normally used as the diaphragm.
These conventional diaphragms have various drawbacks. Those made primarily from paper pulp are not moisture-resistant, fade under normal environment and degrade in aging. Those made from metal are hard on the surfaces and have high Young's modulus of elasticity but encounter harmonic distortion due to split vibrations and poor processability such as adhesiveness. Those made of synthetic resin such as polypropylene (PP) or formed polyethylene are low density, poor rigidity and poor heat-resistant.
In order to overcome these drawbacks, the speaker according to the present invention features in constructing a cone-shaped diaphragm made from thermoplastic resin such as polyethylene terephthalate resin (PET) or polyethylene naphthalate resin (PEN) with ultra micro foam of 30 micron or less in average cell size. Such cone-shaped diaphragm is light weight, provides large internal loss, is excellent in rigidity (high in acoustic speed) and provides excellent sound quality.
Now, a first embodiment of the speaker according to the present invention will be described by reference to
As illustrated in
Now, the cone-shaped diaphragm 5 will be described in detail hereunder. The cone-shaped diaphragm 5 is made from foamed polyethylene terephthalate (PET) commercially available from Furukawa Electric Industries under the trademark of “MCPET” or foamed polyethylene naphthalate (PEN).
As apparent from the microscopic photograph in cross-section of the cone-shaped diaphragm, the diaphragm made from PET in the embodiment according to the present invention has small cells. Illustrated at the bottom in
Illustrated in Table 1 below is comparison of various characteristics of the speaker utilizing the cone-shaped diaphragms according to the present invention and speakers utilizing diaphragms made from conventional materials. The speakers are 16 cm in diameter.
In fabrication process of the cone-shaped diaphragm in Table 1, an attempt was made to make a diaphragm of PET with 500 μm average cell diameter. However, rigidity (acoustic speed) was significantly low and characteristics as the diaphragm for speaker were inferior to those of the reference speakers in Table 1.
This leads to a conclusion that simple foaming of resin is not usable as a speaker diaphragm. Table 1 proves that a speaker using a cone-shaped diaphragm made from resin having ultra micro foaming of 30 μm or less average cell size is lighter and high rigid to provide excellent speaker characteristics.
As apparent from the reference value in Table 1, the speaker using a conventional diaphragm made from paper pulp has smaller tan δ, larger distortion and poor appearance quality. On the other hand, the diaphragm made from PP has larger tan δ, smaller distortion, larger weight and lower reproduced sound pressure of the speaker.
Illustrated in
It is assumed that the use of foamed resin of 30 μm or smaller cell size is responsible for obtaining the light weight, highly rigid cone-shaped diaphragm.
Since the diaphragm according to the present invention can be used exactly the same manner as the conventional diaphragms, it is unnecessary to modify any step of making speakers. It is possible to obtain uniform quality and improve sound quality.
Now, the second embodiment of the speaker according to the present invention will be described by reference to
As illustrated in
The cone-shaped diaphragm 5 is identical to the cone-shaped diaphragm of the first embodiment and made from foamed PET with 30 μm or smaller average cell size.
Illustrated in
By using the cone-shaped diaphragm made from foamed resin with 30 μm or smaller average cell size, the diaphragm becomes highly rigid and thus providing an excellent speaker. Also, the use of 30 μm or smaller average cell size is effective to provide the cone-shaped diaphragm of excellent reflectance, thereby enabling to provide a speaker with enhanced visual interest.
When an audio signal is applied to the voice coil of the speaker 1, the voice coil 3 vibrates in the magnetic gap 21. Such vibration is transferred to the cone-shaped diaphragm 5 to generate audio sound. At this time, the vibration of the voice coil 3 develops magnetic flux and magnetic field in the magnetic gap 21. The induction coil 81 wound around the voice coil bobbin 31 with a space intersects with the inductive magnetic field to induce an inductive current in the inductive coil 82. The induced voltage is 2˜3 volts and is used (after necessary amplification) to turn on and off the LEDs 82.
In the above configuration, LEDs 82 are controlled to selectively emit different colored light such as blue, red, yellow, etc. in response to the vibration magnitude of the voice coil 3 of the speaker 1. LEDs 82 are disposed near the surface of the diaphragm 5 in an orientation to illuminate the diaphragm 5. Since the diaphragm 5 has excellent spectral characteristic, almost all light from LEDs 82 is total reflected to illuminate a large area of the cone-shaped diaphragm 5 in response to high/low or strong/weak of the reproduced sound. This arrangement is effective to entertain the listeners visually in addition to the audio.
As apparent from the above description, the speaker according to the present invention features in using the cone-shaped diaphragm made from thermoplastic resin such as polyethylene terephthalate (PET) resin or polyethylene naphthalate PEN) resin with ultra micro foam of 30 μm or smaller average cell size. The diaphragm is light and yet has larger internal loss and excellent rigidity (fast acoustic speed) to provide the speaker having excellent sound quality.
Also, the speaker comprises the cylindrical support at the base of the center magnetic pole of the magnetic circuit, the induction coil wound around the support at the middle portion separating from the voice coil and a plurality of LEDs radially disposed in the LED holder secured to the end of the support. The LEDs are selectively turned on or off in response to the driving of the voice coil bobbin of the speaker. The cone-shaped diaphragm is made from formed resin of 30 μm or smaller average cell size. In this arrangement, the surface of the diaphragm has improved spectral reflectance to provide visual entertainment.
Number | Date | Country | Kind |
---|---|---|---|
11/283436 | Oct 1999 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP00/06884 | 10/3/2000 | WO | 00 | 1/2/2002 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO01/26417 | 4/12/2001 | WO | A |
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