JP2002247687A - Dome-type speaker and its manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dome-type speaker with high reliability where flowing-in/out of air and a back-pressure can easily be adjusted and a distortion factor of a diaphragm is reduced, and to provide its manufacturing method. SOLUTION: A nonpermeable diaphragm 10 is irradiated with a laser beam, to form a vent hole 12 with a very small diameter and the finished diaphragm is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dome type speaker used for a car stereo, for example, and more particularly to a dome type speaker using a so-called hard type diaphragm having no air permeability such as metal. The present invention relates to a dome-shaped speaker of good quality and high productivity without deteriorating the sound quality in hearing, and a method of manufacturing the same.

[0002]

2. Description of the Related Art Many dome-type speakers used as tweeters for Hi-Fi have a ring-shaped magnet 4 fixed on a bottom yoke 5 having a center pole 5a as shown in FIG. The top plate 3 is fixed on the magnet 4, and the frame 7 is fixed on the top plate 3 with screws or the like.
A voice coil 2 provided inside a dome-shaped diaphragm 1 provided at the center of the frame 7 faces a magnetic gap formed between the top plate 3 and a center pole 5a. When a current flows through the voice coil 2, the diaphragm 1 vibrates up and down according to the direction of the current due to the action of the electromagnetic force. The diaphragm 1 is required to be thin, light, strong, and not bent. I have.

The diaphragm used in such a dome type speaker is, for example, a so-called soft type having breathability obtained by applying polyurethane to a polyester cloth, and a hard type formed by molding a thin metal plate such as aluminum or titanium. Types are often used.

[0004]

In particular, in a dome type speaker using a non-breathable diaphragm,
A cavity including the inside of the diaphragm (cavity), specifically, a gap formed between the outer peripheral surface of the center pole 5a and the inner peripheral surface of the magnet 4, and formed inside the diaphragm communicating with the gap. Since the cavity formed by the gap and the gap is almost completely sealed, the air inside the diaphragm may be changed due to changes in the outside air pressure or outside temperature, heat generated when the speaker is used, and heat treatment during manufacturing. There is a disadvantage that the diaphragm itself may be deformed due to expansion or contraction of the dome-shaped speaker.Therefore, in some dome-shaped speakers, the air in the cavity is externally exposed by using a groove formed in the magnetic circuit. Means of escape are taken.

However, as described above, the means for allowing the air in the cavity to escape to the outside by using the groove formed in the magnetic circuit portion is a large bottleneck in manufacturing a speaker.
In addition to impairing the productivity of the speaker, it is difficult to adjust the inflow and outflow of air, and there is a problem in reliability.

In view of this situation, the present invention has made intensive studies and as a result, formed a hole having a small diameter in a diaphragm constituting a dome-shaped diaphragm or in a part of an edge integrally attached to an outer peripheral portion of the diaphragm. It was found that it was easy to adjust the inflow and outflow of air and the back pressure.
The present invention has been completed.

SUMMARY OF THE INVENTION An object of the present invention is to provide a highly reliable dome-shaped speaker capable of easily adjusting the inflow and outflow of air and adjusting the back pressure and reducing the distortion rate of the diaphragm, and a method of manufacturing the same. Is what you do.

[0008]

In order to achieve the above object, a dome-shaped speaker according to the present invention is provided with a non-breathable diaphragm constituting a diaphragm, or a non-breathable edge integral with the diaphragm. It is characterized in that a vent having a small diameter is formed.

Further, according to the method of manufacturing a dome-shaped speaker of the present invention, a laser beam is applied to a non-breathable diaphragm constituting a diaphragm or a non-breathable edge part integral with the diaphragm to produce a small diameter. Is formed.

Further, according to the method of manufacturing a dome-shaped speaker of the present invention, a laser is provided in advance on a required portion of a non-breathable diaphragm constituting a diaphragm or a non-breathable edge portion provided integrally with the diaphragm. A material which promotes heat generation or excitation by the oscillation frequency of the laser beam, and irradiates the spread portion of the material with a laser beam to form a small-diameter air hole.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A dome-shaped speaker according to the present invention
As shown in FIG. 1, the most significant feature is that a non-breathable diaphragm 10 constituting a diaphragm or a non-breathable edge portion 11 integral with the diaphragm 10 is provided with a small-diameter vent hole 12. The non-breathable diaphragm or the non-breathable edge integral with the non-breathable diaphragm is not particularly limited in its material as long as air does not flow in and out through the diaphragm. There is no limitation, and any of metal, synthetic resin, and rubber may be used, or a diaphragm made of a gas-permeable material, or a rubber or a synthetic material may be formed on the surface and / or the back surface of a gas-permeable edge portion integrated with the diaphragm. A resin may be coated to make it impermeable.

A vent hole 1 formed in the diaphragm 10
2 may be a hole having a small diameter that does not impair the appearance of the diaphragm by the formation of the ventilation hole and allows air to flow smoothly, and the size is approximately 1.5 mm or less. is there.

[0013] The shape of the vent formed in the diaphragm may be any as long as air can flow smoothly.
It can be freely selected such as a circle, an ellipse, a triangle, a square, a diamond, etc., and is not limited at all.

The vent hole is formed by using a needle or a laser beam in a required portion of a non-breathable diaphragm or a non-breathable edge portion integral with the diaphragm. Although there is no particular limitation, it is most preferable to use a laser beam in view of productivity.

Non-breathable diaphragm 10 or non-breathable edge portion 11 integral with diaphragm 10
When the ventilation hole 12 is formed by using the needle N, when the needle N having a required diameter is pierced through the diaphragm 10 as shown in FIG. 2, the peripheral portion of the ventilation hole 12 forms a burr on the back side of the diaphragm 10. Since there is a possibility that the burrs may appear and impair the air permeability, it is preferable to remove the burrs by appropriate means when they occur.

When a ventilation hole is formed in the diaphragm by using a laser beam, either a carbon dioxide gas laser system or a YAG laser system can be used. Specifically, FIG. Such a device can be used.

That is, for example, a laser oscillator 13 using an yttrium-aluminum-garnet crystal containing neodymium (Nd) for irradiating a laser beam L, an irradiation position control device 14 for changing the irradiation direction of the laser beam L, A field lens 15 that focuses the laser beam L whose irradiation direction has changed, a holding device 16 that holds the diaphragm 10 in opposition to the field lens 15, and a control device (not shown) that controls all of them.
A ventilation hole is formed in the diaphragm 10 by using a laser processing machine 17 constituted by the above-described method. The reflecting mirror 14a of the irradiation position control device 14 is rotatably held by a motor or the like.

The laser beam machine 17 irradiates a required portion of the diaphragm 10 held by the holding device 16 with a laser beam L to form a ventilation hole in accordance with preset data.

At this time, a material that absorbs a YAG laser having an oscillation wavelength (1.06 μm) and promotes heat generation or excitation is spread on a portion to be irradiated with the laser beam L in advance. It is possible to condense light to a required part and vaporize and remove the part of the diaphragm 10 instantaneously. When a ventilation hole is formed, it suppresses melting at a peripheral portion thereof and facilitates laser trimming. it can.

In forming the air holes in the diaphragm 10, a compound having a hue close to green or near green is used as a substance to be spread at a site where the air holes are to be formed in order to promote heat generation or excitation by a laser. For example, it is preferable to form a resin film containing fine powder of chromium or a chromium compound and copper or a copper-based compound.

Further, when such a laser processing means is used,
Diaphragm in the assembled speaker unit,
Alternatively, the ventilation hole can be formed very easily also on the edge portion integral with the diaphragm.

Incidentally, the drilling time by laser processing is as follows.
It takes 0.6 seconds to form four vents with a diameter of 0.4 mm, whereas if the same vent is manually opened with a needle, it takes about 8 seconds to process with a laser beam. It takes about ten times as long as the processing time as compared with the case where laser processing is performed, and the use of laser processing means can greatly reduce the working time for forming the ventilation holes.

[0023]

FIG. 3 shows a holding device 16 of a laser beam machine 17 shown in FIG.
On the upper surface, a diaphragm made of non-breathable by applying polyurethane resin is set on the surface of the hemispherically molded polyester fabric diaphragm, and the laser trimming conditions
Average laser power 46.8W, Q switch frequency 4,000
0 Hz, beam positioner moving speed 30 mm / sec
By irradiating the diaphragm 10 with the laser beam, no extra damage is given to the periphery of the portion where the laser beam hits,
Two mm air holes were formed.

This diaphragm 10 has a diameter of 25.4 m.
The size of m, the main part of the diaphragm is made of titanium, and the edge part is made of an elastomer, which is naturally non-breathable, and the distortion frequency characteristics of the loudspeaker are compared with the diaphragm before forming the ventilation holes. As a result, as shown in FIG. 4, it is clear that the speaker using the diaphragm having two ventilation holes having a diameter of 0.4 mm has improved distortion factors in all frequency bands.
It can be seen that the characteristics were significantly improved in the band below 00 Hz.

[0025]

According to the dome-shaped speaker of the present invention, a small-diameter ventilation hole is formed in the non-breathable diaphragm constituting the diaphragm or in the non-breathable edge integral with the diaphragm. The cavity formed in the magnetic circuit by the installation communicates with the outside, adjusts the increase of gas pressure in the cavity generated in the enclosed space, improves the sound quality by hearing by reducing the distortion rate, and the diaphragm By increasing the heat dissipation effect from the diaphragm and improving the heat dissipation effect from the diaphragm, the input resistance can be increased and the reliability can be improved.

Further, according to the method of manufacturing a dome-shaped speaker of the present invention, a non-breathable diaphragm constituting a diaphragm or a non-breathable edge integral with the diaphragm is irradiated with laser light to have a small diameter. Since the ventilation holes are formed, a highly reliable dome-shaped speaker having a good sound feeling can be efficiently produced.

In particular, at the site where the air hole is to be formed,
By spreading a substance that generates or excites heat according to the oscillation frequency of the laser in advance, the laser beam is condensed, the diaphragm is instantaneously vaporized, and a ventilation hole can be formed. Suppression makes laser trimming easier.

[Brief description of the drawings]

FIG. 1 is an enlarged sectional view of a main part of a diaphragm constituting a dome-shaped speaker of the present invention.

FIG. 2 is an explanatory view of one means for forming a ventilation hole in a diaphragm.

FIG. 3 is an explanatory diagram illustrating an example of a laser processing machine that forms a ventilation hole in a diaphragm.

FIG. 4 is a distortion frequency characteristic diagram of the dome type speaker of the present invention.

FIG. 5 is an explanatory diagram showing an example of a conventional dome-type speaker.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Diaphragm 11 Edge part 12 Vent hole 13 Laser oscillator 14 Irradiation position control device 15 Field lens 17 Laser processing machine L Laser beam

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3J045 AA06 AA14 BA02 BA03 BA04 CA08 CA17 DA10 EA10 5D016 AA08 BA06 EC01 HA07

Claims (7)

[Claims] 1. A dome-shaped loudspeaker, wherein a non-breathable diaphragm constituting a diaphragm or a non-breathable edge integral with the diaphragm is provided with a small-diameter ventilation hole. 2. The dome-type speaker according to claim 1, wherein a material of the diaphragm or the edge portion is one of a metal, a synthetic resin, and a rubber. 3. The diaphragm or edge portion is made of a gas-permeable material, or a rubber or synthetic resin is coated on a surface and / or a back surface of a gas-permeable edge portion integral with the diaphragm. The dome-shaped speaker according to claim 1, wherein: 4. A non-breathable diaphragm constituting a diaphragm or a non-breathable edge portion integral with the diaphragm is irradiated with a laser beam to form a small-diameter ventilation hole. Manufacturing method of dome type speaker. 5. A substance which promotes heat generation or excitation by a laser oscillation frequency in advance at a required portion of a non-breathable diaphragm constituting a diaphragm or a non-breathable edge portion provided integrally with the diaphragm. A method of manufacturing a dome-shaped speaker, comprising: irradiating a laser beam to a spread portion of the substance to form a small-diameter vent hole. 6. The method according to claim 5, wherein the substance is a compound having a green or near-green hue. 7. The method according to claim 4, wherein the ventilation hole is one of a circle, an ellipse, a triangle, a square, and a diamond.