KR20190117873A - High power microspeaker having a structure for rocking of a voicecoil - Google Patents

Abstract

The present invention relates to a microspeaker having a structure for limiting the rocking of a voice coil capable of minimizing magnetic loss by being vibrated in an existing vibration space and not requiring a separate vibration space. According to an embodiment of the present invention, the microspeaker comprises: a frame; a magnetic circuit installed in the frame; a voice coil having a lower end located in a magnetic gap of the magnetic circuit; a vibration plate vibrated by the voice coil to generate sounds; and a structure attached to the lower end of the voice coil to be elastically deformed within the magnetic gap and limiting the rocking of the voice coil.

Description

HIGH POWER MICROSPEAKER HAVING A STRUCTURE FOR ROCKING OF A VOICECOIL}

The present invention relates to a microspeaker having a voicecoil locking restriction structure.

The microspeaker is composed of a magnetic circuit, a coil that vibrates by mutual electromagnetic force with the magnetic circuit, and a coil to which the coil is attached and vibrates together by the vibration of the coil to generate sound.

When the vibration of the coil, the diaphragm is not only made in the desired vibration direction, that is, the direction perpendicular to the diaphragm, but negative distortion may occur as the single vibration or the split vibration is performed, thereby providing a suspension between the vibration plate and the coil. It has been complemented by having.

However, as high power is required for the microspeaker, as the height of the coil increases and the amplitude of the element increases, such as amplitude or split vibration, an additional structural change is required to prevent the single or split vibration. .

1 is a view showing a microspeaker having a sub diaphragm according to the prior art.

 The microspeaker has magnetic circuits 21, 22, 23, 24, and 25 installed in the frame 10, and vibrates up and down by mutual electromagnetic forces with the magnetic circuits 21, 22, 23, 24, and 25 according to electrical signals. The voice coil 30 is provided. The magnetic circuits 21, 22, 23, 24, and 25 include a yoke 21 coupled to the lower end of the frame 10, an inner ring magnet 22 and an outer ring magnet 23 attached to the yoke 21, and an inner ring magnet. An inner ring top plate 24 and an outer ring top plate 25 are attached to the upper surfaces of the outer ring magnet 23 and the outer ring magnet 23, respectively, to assist in the formation of magnetic flux. The outer ring magnet 23 has a rectangular ring shape and is disposed outside the inner ring magnet 22 at intervals from the rectangular inner ring magnet 22. The lower end of the voice coil 30 is located in the magnetic gap between the inner ring magnet 22 and the outer ring magnet 23.

At the upper end of the voice coil 30, the vibration of the main diaphragm 51 and the main diaphragm 51 including the center diaphragm 51a and the side diaphragm 51b is guided to suppress the unidirectional vibration and the divided vibration, and at the same time, the voice coil An energization suspension 40 having an energization function for transmitting an electrical signal to 300 is attached. The sub diaphragm 52 is additionally attached to the lower part of the acoustic system so as to further suppress the single vibration and the divided vibration of the main diaphragm 51.

However, the conventional sub diaphragm 52 requires a vibration space, and magnetic field loss occurs as much as the vibration space required by the sub diaphragm 52. It also had the disadvantage of being affected by air impedance.

Republic of Korea Patent Application 10-2017-0081703

It is an object of the present invention to provide a microspeaker having a split vibration prevention structure that can vibrate in an existing vibration space and minimize a magnetic field loss without requiring a separate vibration space.

It is another object of the present invention to provide a microspeaker having a split vibration prevention structure which does not increase the air resistance in the vibration direction and is not affected by air impedance.

The present invention provides a frame, a magnetic circuit installed in the frame, a voice coil having a lower end in a magnetic gap of the magnetic circuit, a vibration plate vibrating by the voice coil, and generating a sound and attached to the lower end of the voice coil to elastically deform in the magnetic gap. And it provides a microspeaker having a locking restriction structure of the voice coil, characterized in that it comprises a structure for limiting the locking of the voice coil.

In another example of the invention, the structure provides a microspeaker having a locking restricting structure of a voice coil, characterized in that it is made of any one or more of materials such as fibers, polymers, films and metals.

In another embodiment of the present invention, the structure provides a microspeaker having a locking restriction structure of the voice coil, characterized in that the voice coil receives a tensile force and a compressive force in a vibrating direction.

In another embodiment of the present invention, the structure is made of a conductive material, and provides a microspeaker having a locking restriction structure of the voice coil, characterized in that it can transmit an electrical signal to the voice coil.

The microspeaker having the locking limiting structure of the voice coil provided by the present invention has the advantage of not limiting the size of the magnetic field while preventing the locking vibration of the voice coil.

In addition, the microspeaker provided with the locking limiting structure of the voice coil provided by the present invention has an advantage of being immune to air impedance while preventing the locking vibration of the voice coil.

In addition, the microspeaker including the locking limiting structure of the voice coil provided by the present invention has an advantage of reducing the distortion by contributing to the balance of the vertical vibration of the vibration system to suppress an increase in the harmonic component of the speaker.

1 shows a microspeaker having a sub diaphragm according to the prior art,
Figure 2 is an exploded view showing a microspeaker having a locking restriction structure of the voice coil according to the first embodiment of the present invention,
3 is a cross-sectional view showing a microspeaker having a locking restricting structure of a voice coil according to the first embodiment of the present invention;
4 is a view showing a locking restriction structure of a voice coil provided in the microspeaker according to the first embodiment of the present invention;
5 is a view showing the installation state of the locking restriction structure of the voice coil provided in the microspeaker according to the first embodiment of the present invention,
6 is a view showing an installation state of the locking restriction structure of the voice coil provided in the microspeaker according to the second embodiment of the present invention,
7 is a view showing the installation state of the locking structure of the voice coil provided in the microspeaker according to the third embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Figure 2 is an exploded view showing a microspeaker having a locking constraint structure of the voice coil according to the first embodiment of the present invention, Figure 3 is a micro having a locking restriction structure of the voice coil according to the first embodiment of the present invention 4 is a cross-sectional view illustrating a speaker, FIG. 4 is a view illustrating a locking limiting structure of a voice coil included in a micro speaker according to a first embodiment of the present invention, and FIG. 5 is provided with a micro speaker according to the first embodiment of the present invention. Figure is a view showing the installation state of the locking structure of the voice coil.

The microspeaker having the locking restriction structure of the voice coil according to the first embodiment of the present invention forms an exterior side surface and is coupled to the bottom of the frame 100 and the frame 100 to provide a component installation space therein. The inner plate 240 attached to the yoke 210, the inner magnet 220 and the outer magnet 230, and the inner magnet 220 and the outer magnet 230, which are attached to the yoke 210 to form a lower surface of the speaker, respectively. ) And an outer plate 250. The yoke 210, the inner magnet 220, the outer magnet 230, the inner plate 240, and the outer plate 250 form a magnetic circuit. The inner magnets 220 are formed in a substantially rectangular shape, and a total of four outer magnets 230 are disposed in a bar shape at intervals with each side of the inner magnets 220. The inner plate 240 is attached to the upper side of the inner magnet 220, and is the same rectangle as the inner magnet 220, but the outer plate 250 is a rectangular ring shape attached to all four outer magnets.

 An air gap is formed between the inner magnet 220 and the outer magnet 230, and a lower end of the voice coil 300 is positioned. When current is applied to the voice coil 300, the voice coil is caused by mutual electromagnetic force with the magnetic circuit. 300 will vibrate. At this time, the vibration plates 510 and 520 connected to the voice coil 300 vibrate together to generate sound. The diaphragms 510 and 520 have a rectangular ring shape and include a side diaphragm 520 having a dome portion projecting upward between the inner ring portion and the outer ring portion and a center diaphragm 510 attached to the center of the side diaphragm 520. .

A suspension 400 is additionally provided between the voice coil 300 and the diaphragms 510 and 520 to prevent unidirectional vibration, split vibration, and locking of the voice coil 300 and the diaphragm 510 and 520. The suspension 400 may also serve as an FPCB by bonding a polymer film and a metal pattern. At this time, an external electrical signal is transmitted to the voice coil 300 through the suspension 400.

The protector 600 is coupled to an upper end of the frame 100 to protect components disposed in the frame 100.

In order to prevent rocking of the voice coil 300, the present invention provides a structure 700 attached to a lower end of the voice coil 300 to be elastically deformed in a magnetic gap and to limit the locking of the voice coil 300. Equipped. The structure 700 includes a top surface 710 attached to the bottom of the voice coil 300, a bottom surface 720 attached to the top surface of the yoke 210, and a top surface 710 and a bottom surface 720. It is provided with an elastic portion 730 to elastically connect. The elastic part 730 of the structure 700 provided in the microspeaker according to the first exemplary embodiment of the present invention is bent once and has a> or <shape. However, the shape of the elastic part 730 may be any shape as long as it is attached to the voice coil 300 and elastically supports the lower end of the voice coil 300 to prevent locking of the voice coil 300. The top surface 710 is attached to four corner portions of the voice coil 300 having a rectangular ring shape. The bottom surface 720 is attached between the inner magnet 220 and the outer magnet 230 on the yoke 210.

The structure 700 is made of a material of any one or more of fibers, polymers, films, and metals. That is, the material may be made of any one of fibers, polymers, films, and metals, or two or more of fibers, polymers, films, and metals may be manufactured by heterojunction.

FIG. 6 is a view illustrating an installation state of a locking limit structure of a voice coil included in the microspeaker according to the second exemplary embodiment of the present invention. In the microspeaker according to the second embodiment of the present invention, the shape and installation relations of the components except for the shape of the structure 700a are the same as those of the first embodiment. The structure 700a according to the second embodiment of the present invention also has an upper surface 710a attached to the voice coil 300, a lower surface 720a attached to the yoke 210 (see FIG. 2), and an upper surface 710a. And an elastic portion 730a for elastically connecting the lower surface 720a. The top surface 710a is formed in a rectangular ring shape along the bottom contour of the voice coil 300 and is attached to the entire bottom of the voice coil 300. The bottom surface 730 is formed in the same shape as the top surface 710a and attached to the yoke 210 (see FIG. 2).

7 is a view showing the installation state of the locking structure of the voice coil provided in the microspeaker according to the third embodiment of the present invention. In the microspeaker according to the third embodiment of the present invention, the suspension is omitted, and the structure 700b transmits an electrical signal to the voice coil 300. At this time, the structure 700b is manufactured by bonding a film and a metal pattern. The structure 700b according to the second embodiment of the present invention also has an upper surface 710b attached to the voice coil 300, a lower surface 720b attached to the yoke 210 (see FIG. 2), and an upper surface 710b. And an elastic part 730b for elastically connecting the lower surface 720b. The top surface 710b is formed in a rectangular ring shape along the bottom contour of the voice coil 300 and is attached to the entire bottom of the voice coil 300. Two landing parts 712b for soldering the voice coil 300 are provided on the top surface 710b attached to the voice coil 300. The landing part 712b is located at the edge of the top surface 710b, so that the magnetic field loss is minimized.

Claims (4)

frame;
A magnetic circuit installed in the frame;
A voice coil having a lower end in a magnetic gap of the magnetic circuit;
A vibration plate vibrating by the voice coil and generating sound; And
And a structure attached to a lower end of the voice coil and elastically deformed in the magnetic gap to limit the locking of the voice coil. The method of claim 1,
A microspeaker having a locking restriction structure of a voice coil, wherein the structure is made of any one or more of fibers, polymers, films, and metals. The method of claim 1,
The structure is a microspeaker having a locking restriction structure of the voice coil, characterized in that the voice coil receives a tensile force and a compressive force in the direction of the vibration. The method of claim 1,
The structure is made of an energizable material, the micro-speaker having a locking structure of the voice coil, characterized in that it can transmit an electrical signal to the voice coil.

Images