JP2558297Y2 - Electro-acoustic transducer for headphones - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial application field) The present invention relates to an electroacoustic transducer for headphones.

(Prior Art) Conventionally, as an electroacoustic transducer mainly for headphones, one configured as shown in FIG. 3 has been known.

FIG. 3 shows a magnetic circuit in which a cylindrical magnet 21 is provided on a bottomed cylindrical yoke 20 and a disk-shaped pole piece 22 is provided on the magnet 21. A predetermined interval 23 is provided between the outer peripheral portion 20a of the frame 20 and a diaphragm 25 provided with a voice coil 24 is provided within the predetermined interval 23. And the frame 26 and the outer peripheral portion 20a of the yoke 20 are held in a flange shape. The frame 26 is made of a synthetic resin, and the outer peripheral portion 20a of the yoke 20 is molded.
An edge portion 27 formed in a flange shape between 6 and the outer peripheral portion 20a of the yoke 20 was provided.

An acoustic circuit including a plurality of partial holes 28 is formed on the edge portion 27 at predetermined intervals in consideration of the movement of the diaphragm 25. Further, a terminal portion 29 for attaching the lead wire of the voice coil 24 is provided below the back side of the edge portion 27 where the partial hole 28 is not provided. Then, one of said partial bore 28 as a control hole S _1, a damper such as a nonwoven fabric on top other portions hole 28
Shielded at 30, there constructed for the purpose of expanding the reproduction frequency by flattening the frequency response by lowering the minimum resonance frequency f ₀ of the vibration plate 25, and adjusts the degree of breathability, such as non-woven fabric Was.

(Challenge invention is to solve) In this case, without being blocked by the nonwoven fabric or the like in the edge portion 27 as described above, it is necessary to provide a control hole S ₁ consisting of holes, the amplitude of the vibration plate 25 In the motion, near a certain frequency (the resonance point of the vibration system), the imbalance of the amplitude motion and the positional mechanical impedance between the driving air occurs, and a remarkable rolling phenomenon, that is, the lead wire and The rolling phenomenon of the diaphragm caused by the arrangement of the terminals occurs, and the occurrence of peak dips and distortions in the frequency response is observed. In addition, the rolling phenomenon causes a low production yield, and is often discarded in a post-manufacturing inspection process, which is accompanied by a problem of high cost.

The present invention has been made in view of the above circumstances, and its purpose is to reduce the rolling phenomenon near a specific frequency, increase the sound pressure of the reduction, and remove the auditory distortion. It is an object of the present invention to provide an inexpensive electro-acoustic transducer for headphones by improving sound quality and eliminating poor production yield.

(Means for Solving the Problems) In order to achieve the above object, the electroacoustic transducer of the present invention comprises:
A cylindrical metal body is provided at the center of the frame 2 having a plurality of partial holes 4 formed at regular intervals on the edge 2a and formed with a cylindrical edge 2a having a predetermined width. The yoke 1 is integrally formed, and a magnet 5 and a pole piece 6 are provided on the yoke 1. A voice coil 8 having the diaphragm 3 is disposed in a predetermined gap 7 between the pole piece 6 and the yoke 1. And a terminal portion via a notch groove 10 for guiding a lead wire 9 from the voice coil 8 through the plane of the edge portion 2a to a peripheral edge of the edge portion 2a.
In the electroacoustic transducer connected to 11, a damper covering the back surface of the opposite edge portion 2a provided with the voice coil 8 is provided.
The damper 13 has a control hole communicating with the partial hole 4 at a position corresponding to a position deviated by a predetermined angle from the X axis a extending in the diameter direction of the frame 2.
14 are provided one by one, and the terminal portion 11 is connected to the X
With respect to the shaft a, it is provided at a lower central portion thereof and on the back side of the edge portion 2a.

(Operation) In the electroacoustic transducer configured as described above, in order to reduce the rolling phenomenon, the damper 13 of the edge portion 2a has the least rolling near the frequency at which the rolling of the amplitude of the diaphragm occurs. As described above, two control holes 14 are provided at specific positions where the balance can be obtained, and it is determined in consideration of the wire processing of the coil lead and the structure of the frame. The pressure could be increased.

(Embodiment) An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. FIG.

In FIG. 1 (c), reference numeral 1 denotes a yoke which is formed of a shallow cylindrical metal body having a bottom, and a small hole 1a is formed in the center. A circular frame 2 made of synthetic resin is provided on the outer end surface of the cylindrical protrusion 1b at the peripheral portion. The yoke 1 is integrally formed when the frame 2 is formed. The frame 2 has a protrusion 1b of the yoke 1.
There is provided a disk-shaped edge portion 2a extending horizontally from the tip of the cylindrical portion 2b, and a cylindrical portion 2b formed in a perpendicular direction is provided on an outer peripheral surface of the edge portion 2a, and a lower end surface of the cylindrical portion 2b is provided. Has a protrusion 2c formed in a ring shape. A step is provided on the outer periphery of the projection 2c, and a cover (not shown) is fitted to the step from outside. A step 2d is also provided inside the upper end surface of the cylindrical portion 2b, and a gasket 3b is attached to the step 2d via the edge 3a of the diaphragm 3. As shown in FIG. 1 (a), a plurality of partial holes 4 are provided in the edge portion 2a of the frame 2 at substantially equal intervals over a portion excluding the lower portion of the edge portion 2a. In FIG. 1 (a), the partial hole 4 is shown as a round hole, but it may be provided as a square hole. FIG. 1A shows a top view in a state where the diaphragm 3 is removed for convenience of explanation.

A thin cylindrical magnet 5 is provided on the center of the yoke 1 integrally formed with the frame 2 configured as described above, and a pole piece 6 is mounted on the upper surface of the magnet 5. The pole piece 6 is a thin disk-shaped metal disk, and is attached to the periphery thereof with a predetermined distance 7 from the protruding portion 1b of the yoke 1 to form a magnetic circuit portion. A cylindrical bobbin having a voice coil 8 is disposed within a predetermined interval 7 of the magnetic circuit unit. The upper end of the bobbin is connected to the diaphragm 3 and vibrates when a signal current is input to the voice coil 8. The plate 3 is vibrated in the vertical direction in the figure to generate a sound corresponding to the signal current.

Lead wire 9 for inputting signal current to voice coil 8
As shown in FIG. 1 (a), the wire is routed from the outer peripheral portion of the voice coil 8 along the plane of the edge portion 2a along the cylindrical portion 2b of the frame 2, and as shown in FIG. 1 (a). As shown in the figure, the lead wire 9 is guided to the back side of the frame 2 through a notch groove 10 provided below the cylindrical portion 2b of the frame 2. It is the most experimentally desirable position to draw out tangentially from about 60 ° counterclockwise from the position.

This lead wire 9 is drawn out through the cutout groove 10,
It is soldered to a terminal portion 11 shown in FIG. 1B provided on the back side of the frame 2. Protrusions 12 are provided on both side surfaces of the terminal portion 11 so as to prevent foreign matter from entering the terminal portion 11. The back surface (the upper surface in FIG. 1 (b)) provided with the partial hole 4 of the edge portion 2a outside the projection portion 12, that is, a large surface is provided on the back surface of the edge portion 2a opposite to the voice coil 8. A damper 13 having a fan shape and being laid around the projecting portion 2c of the frame 2 and the yoke 1 is provided. This damper 13 is made of non-woven fabric,
In addition, the terminal portion 11 provided on the back side of the edge portion 2a is provided from near one end to near the other end thereof, and covers the partial hole 4 therebetween.
Two control holes 14 are provided on the reduced diameter. The control hole 14 communicates with a corresponding one of the plurality of partial holes 4 formed in the edge portion 2a. As shown in FIG. 1 (b), the control hole 14 extends in the diameter direction of the frame 2.
They are provided at positions deviated from each other by a predetermined angle with respect to the axis a, that is, at positions 13 ° lowered clockwise. The position 13 ° down clockwise is a position determined experimentally. When one area of the control hole 14 is S ₂ , the relationship with the area S ₁ of the conventional control hole is expressed by the following equation. It is provided so that the equation holds.

S ₂ × 2 / S ₁ = 0.94 As a result, the frequency characteristic F-2 of the electroacoustic transducer according to the present invention was improved as shown in FIG. In the figure, F-1 is a frequency characteristic of a conventional electroacoustic transducer,
In F-1 there was a peak of around 74dB near 300Hz, but in F-2 it became flat and 300H
Below z, an increase in sound pressure was observed, which made it possible to eliminate unpleasant sounds on hearing.

Although the above-described embodiment has described the electro-acoustic transducer having the dome-shaped diaphragm, the same operation and effect can be obtained in a flat-drive electro-acoustic transducer having a flat-type diaphragm instead of the dome-shaped diaphragm. be able to.

The terminal portion 11 is located at a central portion below the X axis a and on the back side of the edge portion 2a.

(Effects of the Invention) As described above, the electroacoustic transducer of the present invention is provided with the edge portions 2a formed of a cylindrical resin and having a circular predetermined width. A yoke 1 made of a cylindrical metal body is integrally formed in a central portion of a frame 2 having a plurality of partial holes 4, and a magnet 5 and a pole piece 6 are provided on the yoke 1.
At a predetermined gap 7 between the pole piece 6 and the yoke 1, the diaphragm 3
And a lead wire 9 from the voice coil 8 is connected to the terminal portion 11 through a cutout groove 10 for guiding the lead wire 9 through the plane of the edge portion 2a to the peripheral edge of the edge portion 2a. In the electroacoustic transducer, the voice coil 8
A damper 13 is provided to cover the back surface of the opposite edge portion 2a provided with a groove. The damper 13 is provided at a position corresponding to a position deviated from the X axis a extending in the diametric direction of the frame 2 by a predetermined angle. Each of the control holes 14 communicating with the certain partial hole 4 is provided one by one, and the terminal portion 11 is connected to the X-axis a
On the other hand, a configuration is provided at the lower central portion and on the back side of the edge portion 2a, the rolling phenomenon is reduced, the sound pressure of the reduction is increased, the audible distortion is removed, the sound quality is improved, and the production is improved. There is an advantage that the yield can be improved and the cost can be reduced.

[Brief description of the drawings]

1 and 2 show an embodiment of the present invention. FIG. 1 is a top view of the electroacoustic transducer with the diaphragm removed, FIG. 1B is a rear view, and FIG. 2 is a cross-sectional view, FIG. 2 is an actual measurement graph of frequency characteristics, FIG. 3 is a conventional example of an electroacoustic transducer, (a) is a cross-sectional view, and (b) is a rear view. 2 ... frame, 2a ... edge part, 4 ... partial hole 8 ... voice coil, 13 ... damper, 14 ... control hole

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-57-23395 (JP, A) JP-A-57-143794 (JP, U) JP-B-60-56039 (JP, B2)

Claims (1)

(57) [Scope of request for utility model registration] An edge portion (2a) formed of a cylindrical resin and having a circular predetermined width is provided.
A yoke (1) made of a cylindrical metal body is integrally formed at the center of a frame (2) having a plurality of partial holes (4) formed at equal intervals in (a). A magnet (5) and a pole piece (6) are provided on top,
Predetermined gap (7) between pole piece (6) and yoke (1)
And a voice coil (8) having a diaphragm (3) is provided, and a lead wire (9) from the voice coil (8) is passed through a plane of the edge portion (2a) to form the edge portion (2a). An electroacoustic transducer connected to a terminal portion (11) through a notch groove (10) leading to a peripheral edge, wherein an opposite edge portion (2) provided with the voice coil (8) is provided.
a) a damper (13) covering the rear surface of the frame (2) is provided on the damper (13).
A control hole (14) communicating with said partial hole (4) at a position corresponding to a position offset by a predetermined angle with respect to the axis (a);
For the headphone, wherein the terminal portion (11) is provided at a central portion below the X axis (a) and on the back side of the edge portion (2a). Electroacoustic transducer.