This Application is a U.S. National Phase Application of PCT International Application PCT/JP2006/302936.
The present invention relates to loudspeakers to be used in various audio devices and communications devices, more specifically to small, thin and rectangular loudspeakers for use in mobile phones where loudspeaker mounting space is limited, and to manufacturing method of the loudspeakers.
Along with the trend toward miniaturization and multi-functioning of various audio devices and communications devices, miniaturization of loudspeakers to be used in these devices is increasingly accelerated. Especially for loudspeakers to be used in mobile phones, not only miniaturization but also high-quality sound is required. Under such circumstances, emphasis of loudspeaker development is placed on rectangular loudspeakers rather than more general circular loudspeakers to enable more efficient use of limited space available in mobile phones where loudspeaker mounting space is limited.
The magnetic circuit and frame 15 in which yoke 11 is press fit are joined with an adhesive. Voice coil 16 is provided in a manner fitting in magnetic gap 14. Central portion of diaphragm 17 couples with voice coil 16 while its peripheral border couples with the peripheral border of frame 15.
In a conventional loudspeaker configured in this way, when an audio signal is input into voice coil 16 fit inside magnetic gap 14, voice coil 16 vertically vibrates due to a magnetic field generated by magnetic gap 14. This further causes vertical vibration of diaphragm 17 to which voice coil 16 is coupled thereby reproducing sound.
As a prior art technical literature related to the invention of this application, Unexamined Japanese Patent Publication 2003-37892, for example, is known.
However, as the above-mentioned conventional loudspeaker is fabricated by a method of preparing yoke 11 that configures a magnetic circuit by bending a sheet of a magnetic metallic material, a clearance is caused at each corner of yoke 11 formed into a rectangular configuration. Accordingly, magnetic flux leakage takes place from the clearances resulting in performance degradation such as reduction in the sound pressure due to reduction in magnetic flux density. There is also a fear of an adverse effect being caused by leakage magnetic flux on other electronic components densely mounted in the vicinity of the loudspeaker.
The present invention provides loudspeakers excellent in both quality and performance by solving such existing problems by eliminating magnetic flux leakage, and provides manufacturing method of such loudspeakers.
The loudspeaker in accordance with the present invention comprises a magnetic circuit having a magnetic gap, a frame made of a resin material and coupled to the magnetic circuit and, and a diaphragm having a voice coil that can be driven by a magnetic field generated by the magnetic gap and coupled to the center with its peripheral border coupled to the outer circumference of the frame. The magnetic circuit has a yoke formed in the shape of a rectangular dish and a magnet fixed inside the yoke. The magnetic circuit also has a tongue-like flange provided at each corner section that projects outwardly at a position below the top end of the yoke by a predetermined distance. The yoke is insert-molded in the frame in a manner covering the flanges.
Also, the method of manufacturing loudspeakers in accordance with the present invention comprises the steps of: drawing a planar magnetic metallic material into a rectangular dish and subsequently making a yoke having integrally provided tongue-like flanges that outwardly project at a position below the top end of the yoke by a predetermined distance by downwardly press working the peripheral border of the top end of each corner; insert molding the yoke into a resin frame in a manner such that the tongue-like flanges formed on the yoke are covered; making a magnetic circuit in which a magnetic gap is formed by joining a magnet inside the yoke; joining a voice coil to be driven by a magnetic field generated by the magnetic gap to a diaphragm; and joining the diaphragm joined with the voice coil to the frame.
According to the present invention as described above, by providing at each corner a tongue-like flange that outwardly projects at a position below the top end of the yoke by a predetermined distance and insert molding the yoke into a resin frame in a manner covering the tongue-like flanges, it becomes possible not only to greatly enhance the bonding strength between the yoke and frame but also to obtain a low profile. Also, by making the rectangular yoke in the shape of a dish, clearance at each corner is eliminated thus removing magnetic flux leakage and giving the advantage of stably providing loudspeakers which are excellent both in quality and performance.
A description of the present invention is given below in terms of the first preferred embodiment.
Air vents 2a are provided on resin-made frame 2. When forming frame 2, yoke 1 is inserted molded in a manner covering tongue-like flanges 1a provided on yoke 1. Furthermore, the loudspeaker is so structured that the bottom of yoke 1 will project from the bottom surface of frame 2 after insert molding, thus making it easy to print or stamp indication marking of part number or lot number on the bottom of yoke 1.
Magnet 3 fixed inside yoke 1 and top plate 4 joined on top of magnet 3 form a magnetic circuit that has magnetic gap 5.
Voice coil 7 is joined to the central portion of diaphragm 6 that has integrally formed edge 6a on the outer circumference. Voice coil 7 is arranged in a manner fitting inside magnetic gap 5 formed in the magnetic circuit. And, by inputting an audio signal to voice coil 7, a magnetic field is generated by magnetic gap 5 thus causing voice coil 7 to vertically vibrate. Diaphragm 6 joined to voice coil 7 is also caused to vertically vibrate thus reproducing the audio signal. Cover 8 protects diaphragm 6.
First, as shown in
Subsequently, as shown in
Next, the remaining flanges are pressed again to a predetermined thickness as shown in
Here, flanges 1a integrally provided on yoke 1 may be extended over the entire outer circumference of yoke 1. However, it is difficult to provide an outwardly projecting flange over the entire circumference by pressing a very small dimension as fracture may occur on the way due to insufficient elongation of the flange material. A structure in which flanges are partially provided at each corner in a symmetrical way or on the long sides like the flanges described in the first preferred embodiment of the present invention is the most effective and productivity is also good.
In a loudspeaker that uses yoke 1 as manufactured in this way in accordance with the first preferred embodiment, tongue-like flange 1a that outwardly projects from a position a predetermined distance below the top surface of yoke 1 is provided. And, by insert-molding yoke 1 in frame 2 in a manner covering flange 1a, not only the bonding strength between yoke 1 and frame 2 is greatly improved but also a low profile can be obtained. Furthermore, by forming rectangular yoke 1 into the shape of a dish, clearance at each corner can be eliminated thus eliminating magnetic flux leakage and enabling stable manufacture of loudspeakers that are excellent in both quality and performance.
A description of the present invention will be given below referring to the second preferred embodiment.
In the second preferred embodiment, the structure of the voice coil used in the loudspeaker is different from that used in the first preferred embodiment. As other structures are the same as those in the first preferred embodiment, elements similar to those in the first preferred embodiment are given the same reference numbers and detailed description of those elements are omitted, and description will be given only on the different elements referring to drawings.
The base material of voice coil 9 excluding the coil is joined to the center of diaphragm 10 that has an integrally formed edge 10a on the outer circumference in a manner such that voice coil 9 is disposed above magnetic gap 5 and close to magnetic gap 5 without touching. Voice coil 9 is disposed above magnetic gap 5 and opposite to magnetic gap 5.
Base material of the central portion of diaphragm 10 has rigidity while edge 10a is made of a flexible material. Accordingly, the degree of freedom of motion of diaphragm 10 is high thus fully assuring the dynamic range of the sound coming out from the loudspeaker.
Similar to the loudspeaker in accordance with the first preferred embodiment, the loudspeaker configured in this way in accordance with the second preferred embodiment is free from magnetic flux leakage and is excellent both in quality and performance. As voice coil 9 can be made lightweight and its shape can be freely changed, it is possible to manufacture a loudspeaker that is adaptable to any shape even when the mounting space is limited.
The loudspeaker in accordance with the present invention is free from magnetic flux leakage and is excellent in both quality and performance. Also, the method of manufacturing loudspeakers in accordance with the present invention is useful for manufacturing loudspeakers for use in information-communication devices such as mobile phones.
Number | Date | Country | Kind |
---|---|---|---|
2005-066968 | Mar 2005 | JP | national |
2005-066969 | Mar 2005 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2006/002936 | 2/20/2006 | WO | 00 | 5/8/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/095561 | 9/14/2006 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
20040086147 | Koura et al. | May 2004 | A1 |
Number | Date | Country |
---|---|---|
1-309748 | Dec 1989 | JP |
2000-325879 | Nov 2000 | JP |
2000325879 | Nov 2000 | JP |
2001-238297 | Aug 2001 | JP |
2002-199490 | Jul 2002 | JP |
2002199490 | Jul 2002 | JP |
2003-37892 | Feb 2003 | JP |
2004-180193 | Jun 2004 | JP |
2004180193 | Jun 2004 | JP |
Number | Date | Country | |
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20090232345 A1 | Sep 2009 | US |