KR20050021102A - Diaphragm for Micro Speak and Micro Speak using thereof - Google Patents

Abstract

PURPOSE: A diaphragm for microspeakers and the microspeaker using the diaphragm are provided to improve sound quality by suppressing partial vibration of the diaphragm using embossments formed on a surface of the diaphragm. CONSTITUTION: A diaphragm(170) is connected to a voice coil(160) of a speaker. The diaphragm is reciprocally moved up and down by a magnetic field. A plurality of embossments are formed on a surface of the diaphragm to suppress partial vibration of a speaker diaphragm. A magnet(140) is magnetized in a vertical direction. An upper plate(150) forms a magnetic circuit. A yoke(130) forms the magnetic circuit with the magnet. The diaphragm is supported to be movable in a vertical direction. The embossments are formed on the surface of the diaphragm. A protector(180) is implemented on a frame to protect the diaphragm.

Description

Diaphragm for micro speaker and micro speaker using same

The present invention relates to a micro-speaker, and more particularly, by forming an embo on the surface of a diaphragm vibrating while the voice coil of the speaker is bonded and linearly reciprocates up and down according to a magnetic field. The present invention relates to a diaphragm for a micro speaker and a micro speaker using the same, which improve acoustic characteristics by suppressing divided vibration of the diaphragm.

The speaker converts electrical energy into mechanical energy by voice coils between the air gaps, according to Fleming's left-handed law, that a conductor conducts electricity when it is in a magnetic field.

That is, when a current signal containing several frequencies is applied to the voice coil, the voice coil generates mechanical energy according to the strength of the current and the magnitude of the frequency, and generates vibration on the diaphragm attached to the voice coil, thereby ultimately recognizing the human ear. The sound pressure of a predetermined magnitude | size can be produced.

Among these sound pressures, relatively low sound pressures are used to closely adhere to the human ear and are commonly referred to as receivers. In contrast, those with relatively high sound pressure and a certain distance from the human ear are used as speakers. It is called.

The magnetic circuit of the loudspeaker can be interlinked with magnetic flux at right angles to the voice coil existing in the air gap by using a magnet and an upper plate in the yoke made of ferrous metal, respectively. The voice coil is bonded to the diaphragm to generate an electromotive force up and down by an input signal to vibrate the diaphragm bound to the frame to generate sound pressure.

In recent years, in order to meet the trend of the commercialization of high-energy magnets and the molding technology of microstructures, and the trend of miniaturization and weight reduction in the information and communication field, the speaker has been continuously miniaturized and reduced in weight and high performance. In addition, as the spread of mobile communication terminal devices has increased rapidly, the use of micro-speakers has been expanded, and the size of the accessories used therein has also been reduced due to the miniaturization of the size thereof, which makes it difficult to meet this trend with conventional design techniques. Do it.

Briefly describing such a micro-speaker according to the prior art, as shown in Figure 1, a frame 11 having a space on the inner surface, the magnet 14 magnetized in the vertical direction embedded in the frame, the magnet ( 14 and the yoke 13 to form a magnetic circuit, the upper plate 15 is attached to the magnet 14 to form a magnetic circuit, the sound generating diaphragm fixed to the outer end of the upper end of the frame 11 (17), the voice coil 16 is wound around the lower end of the diaphragm 17 fixed to the protective plate 18, covering the open end of the frame 11, and one side of the outer surface of the frame (11) It consists of the PCB board | substrate 19 joined.

In the configuration of the general micro-speaker as described above, the diaphragm has a wave of various shapes in order to remove the buckling phenomenon and excellent response during vertical vibration, the shape of the diaphragm acts as a design variable that has the greatest influence on the frequency characteristics This significantly affects the acoustic characteristics of the speaker.

In general, the diaphragm uses a thin film made of a polymer material, and due to the characteristics of the material, split vibration occurs when the diaphragm vibrates, thereby causing abnormal sounds.

2A and 2B show a diaphragm for a micro speaker according to the prior art.

In order to prevent split vibration of the diaphragm according to the prior art, as shown in FIG. 2A, concentric circles are formed on the surface of the diaphragm, and FIG. 2B is used by forming a radial shape on the surface of the diaphragm.

FIG. 3 is a frequency response graph showing output characteristics of a micro speaker using the diaphragm for the speaker shown in FIGS. 2A and 2B using a display device for inspecting the speaker output characteristics.

In the graph, the X-axis represents frequency (Hz) and the Y-axis represents sound pressure (dB). As shown, the lowest resonant frequency f ₀ is about 1 kHz, and the reproduction band has a range of about 1 kHz to 4.5 kHz.

However, such a conventional diaphragm diaphragm for the micro-speaker, despite the above-described shape, the vibration of the diaphragm is generated, which is a major cause of sound quality degradation.

In addition, when the abnormal sound caused by the above-mentioned divided vibration is severe, there is a problem of lowering the productivity because the speaker failure occurs.

In addition, in recent years, as the size of the LCD window and the slimmer product of the mobile communication terminal are accelerating the miniaturization of the speaker, which is a sound reproducing component, one of the components to reduce the area occupied by the speaker is to meet the market situation. The diaphragm also has a design difficulty that must be manufactured for optimal performance using the minimum space.

Therefore, the present invention is to solve the problems according to the prior art as described above, an object of the present invention is to form an emboss on the surface of the diaphragm vibrating while the voice coil of the speaker is bonded and reciprocating linearly up and down according to the magnetic field The present invention provides a microspeaker diaphragm capable of outputting high-quality sound by suppressing divided vibration of the diaphragm and a micro speaker using the same.

In addition, an object of the present invention is to reduce the size of the speaker by reducing the overall size of the speaker diaphragm.

In addition, the present invention is to improve the productivity by minimizing the failure rate caused by the divided vibration by suppressing the divided vibration of the vibration plate by the embossed shape formed on the surface of the vibration plate.

In addition, the present invention is to implement a micro-speaker that can reproduce the excellent sound characteristics by moving the minimum resonance frequency to the low range by the embossed shape formed on the surface of the diaphragm to improve the bass and the sound reproduction band more secure It is.

As a means for achieving the above object, the micro-speaker diaphragm according to the present invention, by forming the emboss on the surface of the diaphragm vibrating while the voice coil of the speaker is bonded and reciprocating linearly up and down according to the magnetic field, the vibration vibration of the speaker diaphragm It is characterized by improving the acoustic characteristics by suppressing the.

Here, the embossed surface of the diaphragm is formed inside the boundary to which the voice coil is attached.

Here, the embossed surface of the diaphragm is formed outside the boundary to which the voice coil is attached.

Here, the embossed surface of the diaphragm is formed in the whole diaphragm.

Here, the embossed surface of the diaphragm is formed in a lattice shape.

Here, the embossed surface of the diaphragm is formed in a cross diagonal shape.

Here, the cross-sectional shape of the embossing is characterized in that it has a U shape.

Here, the cross-sectional shape of the embossing is characterized in that it has a V shape.

In addition, the micro speaker according to the present invention, the frame having a space on the inner surface; Magnet magnetized in the vertical direction; An upper plate attached to an upper surface of the magnet to form a magnetic circuit; A yoke forming a magnetic circuit together with the magnet; A diaphragm having an emboss formed on a surface thereof, which is assembled to an upper surface of the frame and supported to enable shaking up and down; A voice coil attached to the diaphragm to vibrate the diaphragm while linearly reciprocating up and down according to a magnetic field; And a protective plate attached to the frame to protect the diaphragm.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is an exploded perspective view illustrating a micro speaker according to the present invention, and as shown, a frame 110 having a space on an inner surface, a yoke 130 mounted inside the frame 110, and The magnet 140 magnetized in the up-and-down direction inside the yoke 130, an upper plate 150 attached to an upper surface of the magnet 140 to form a magnetic circuit, and assembled to an upper surface of the frame 110. The vibration generating plate 170, which is embossed on the surface, which is supported to shake up and down, and is bonded to the vibration plate 170 to vibrate the vibration plate 170 while linearly reciprocating up and down according to a magnetic field. The voice coil 160 and the protection plate 180 covering the open end of the frame 110 is composed of.

The micro speaker configured as described above is integrally injection molded by inserting the yoke 130 into the frame 110 having a space on an inner surface thereof.

Here, the frame 110 serves to determine the size and shape of the speaker by fixing the magnet 140 and the diaphragm 170, a plurality of air holes formed while forming a concentric circle at a predetermined position of the rear portion of the frame 110 It has a (120), which is to play a role of helping the vibration smoothly through the outside and air when the diaphragm 170 is shaken.

The yoke 130 serves as a passage through which the magnetic force lines pass as one of the magnetic circuits at the bottom of the frame 110 to improve the flow of the magnetic force lines, and the magnetic circuits include the yoke 130, the magnet 140, and The upper plate 150 is formed, and the yoke 130 has a shape surrounding the magnet 140 and the upper plate 150.

The magnet 140 and the upper plate 150 are installed in the yoke 130 inside the frame 110 formed as described above, and the voice coil 160 is attached to the outside of the magnet 140 and the upper plate 150. Adhered diaphragm 170 to the outside of the frame 110.

The magnet 140 is configured on the top of the yoke 130 to supply a strong and continuous direct current magnetic flux in the magnetic circuit.

Here, the magnet 140 is a neodymium (Nd) magnet, which is one of rare earth magnets, and has a very strong magnetic energy and is widely used for light, thin and high-tech products. Such Nd magnet type speakers are mainly incorporated in notebook computers, small personal computers, slim computers or LCD monitors.

In addition, the diaphragm 170 has a concave shape in the inner direction and is assembled to the upper surface of the frame 110 so as to be naturally shaken up and down.

5A to 5F are plan views illustrating embodiments of the microspeaker diaphragm according to the present invention, and show an embodiment in which embosses are formed in various forms on the diaphragm used in the speaker as described above.

Referring to FIG. 5A, an emboss is formed in a lattice shape on the inner surface of the center of the diaphragm that is vibrated while the voice coil of the speaker is bonded and vibrates linearly up and down in accordance with a magnetic field.

As described above, the embossed diaphragm serves to suppress splitting vibration during the vibration of the diaphragm and to improve the characteristics of the speaker. That is, by lowering the minimum resonant frequency due to the embossing, not only the sound quality of the low tone is improved but also the play band is wider in the reproduced sound.

5B illustrates another embodiment of the diaphragm for a speaker, in which an embossed shape formed on the diaphragm is formed in a diagonal cross shape.

5C and 5D show an embodiment in which the emboss shape formed on the diaphragm of FIGS. 5A and 5B is formed outside the boundary to which the voice coil is attached, instead of being formed inside the diaphragm.

5E and 5F show an embodiment of the diaphragm in which the lattice-shaped emboss shape and the cross diagonal emboss shape are formed on the whole diaphragm.

As such, the embossed shape that may be formed in the diaphragm may be variously formed according to the designer. In addition, depending on the tool for generating the embossed shape, the cross-sectional shape of the embossing can also be varied, the typical shapes are U shape and V shape.

Referring back to FIG. 4, when a current is selectively applied from the outside to the voice coil 160 attached to the diaphragm 170 formed as described above, the voice coil 160 may have an outer diameter and a yoke of the upper plate 150. Up and down linear reciprocating motion with the diaphragm 170 up and down according to the magnetic field between (130).

At this time, the air hole 120 formed in the frame 110 serves to help the air flow in the speaker to smooth the up and down vibration of the diaphragm 170.

That is, since the high frequency current applied to the voice coil 160 through a wire (not shown) from the outside is alternating current, the magnetic field generated by the voice coil 160 in accordance with the direction of the current applied to the voice coil 160 is a magnet ( When formed in the same direction as the magnetic field formed by the 140, a kind of repulsive force is generated between the magnet 140 and the voice coil 160, so that the voice coil 160 is pushed upward from the magnet 140. Will be.

On the contrary, when the magnetic field generated by the voice coil 160 is formed in the opposite direction to the magnetic field formed by the magnet 140, the attraction force that is attracted to each other between the magnet 140 and the voice coil 160 is generated. The coil 160 moves downward to the magnet 140 side.

As described above, the diaphragm according to the present invention, which performs the up and down linear reciprocating motion, can be slimmed by about 0.2 mm compared with the conventional diaphragm due to the performance improvement due to the embossing. It can be relatively reduced according to the improved acoustic performance.

In addition, the protective plate 180 is formed with a plurality of holes so as to easily transmit the output signal to the outside, it is pressed into the frame 110 is mounted. The protective plate 180 serves to protect the diaphragm 170 and at the same time to further attach a nonwoven fabric to suppress the amplitude due to excessive resonance.

The PCB substrate 190 is bonded to the outer lower side of the frame 110, and the PCB substrate 190 includes a terminal for receiving an external signal, and has a central groove formed in the frame 110. The leader line of the voice coil 160 is contacted to the terminal of the center of the terminals, and external voice and melody signals are transmitted through the remaining terminals.

In the micro speaker formed as described above, an alternating current is applied through a wire from the outside to form a magnetic field in the voice coil 160 in the magnetic circuit including the upper plate 150, the square magnet 140, and the yoke 130. The magnetic lines of force from the north pole of the magnet 140 pass through the upper plate 150, the voice coil 160 and the yoke 130 in order to form a magnetic field directed to the south pole of the magnet 140 again. The voice coil 160 functions as a speaker using the magnetic flux generated by the magnetic circuit.

As such, when a signal is applied to the voice coil 160, the magnetic flux generated from the magnetic circuit through the yoke 130 and the magnetic flux generated from the voice coil 160 interlocking up and down together with the diaphragm 170 are generated. The sound is generated in response to each other, the generated sound is transmitted to the outside through a plurality of holes formed in the protective plate 180 mounted on the front portion of the frame 110.

Figure 6 shows a frequency response graph showing the output characteristics of the micro-speaker equipped with the embossed diaphragm according to the present invention, using a display device for testing the speaker output characteristics, wherein the X-axis represents the frequency (Hz) Y The-axis represents sound pressure (dB).

As shown in FIG. 4, the micro speaker using the diaphragm according to the related art has a minimum resonant frequency of 1 kHz and a reproduction band of 1 kHz to 4.5 kHz. As shown in FIG. 6, an embossed diaphragm according to the present invention is shown. By using the micro speaker, the minimum resonant frequency is lowered from the conventional 1 kHz to 750 Hz, so that not only the sound quality of the bass is improved in the reproduction sound but also the reproduction band is wider in the range of 750 Hz to 4.5 kHz to enable high-quality sound output.

As described above, the micro-speaker diaphragm according to the present invention and the micro-speaker using the same by forming the emboss on the surface of the diaphragm vibrating while the voice coil of the speaker is bonded and reciprocating linearly up and down according to the magnetic field, the vibration of the speaker diaphragm By suppressing this, the sound quality of the speaker can be improved.

In addition, the present invention is to reduce the overall height of the diaphragm for the speaker has the effect that can be reduced in size, thinner.

In addition, the present invention can suppress the divided vibration of the diaphragm by the embossed shape formed on the surface of the diaphragm, thereby minimizing the defective rate caused by the divided vibration, thereby improving productivity.

1 is a cross-sectional view showing a micro speaker according to the prior art,

2a and 2b is a plan view showing a diaphragm for a micro speaker according to the prior art,

Figure 3 is a frequency response graph showing the output characteristics of the micro speaker using the display device for testing the output characteristics of the speaker according to the prior art,

4 is an exploded perspective view illustrating a micro speaker according to the present invention;

5a to 5f are plan views showing an embodiment of a diaphragm for a micro speaker according to the present invention;

Figure 6 is a frequency response graph showing the output characteristics of the micro speaker using the display device for testing the output characteristics of the speaker according to the present invention.

◎ Explanation of symbols for main part of drawing

11 and 110: frames 12 and 120: air holes

13, 130: York 14, 140: Magnet

15, 150: upper plate 16, 160: voice coil

17, 170: diaphragm 18, 180: protective plate

19, 190: PCB board

Claims (9)

The voice coil of the speaker is bonded and emboss is formed on the surface of the diaphragm which vibrates while reciprocating linearly up and down according to the magnetic field, thereby improving the acoustic characteristics by suppressing the split vibration of the speaker diaphragm. A diaphragm for a micro speaker, characterized in that. According to claim 1, The diaphragm of the surface of the diaphragm is a diaphragm for a speaker, characterized in that formed inside the boundary to which the voice coil is attached. According to claim 1, Embossing surface of the diaphragm diaphragm for a speaker, characterized in that formed on the outside of the boundary to which the voice coil is attached. According to claim 1, An embossment on the surface of the diaphragm is formed on the entire diaphragm. According to claim 1, An embossment on the surface of the diaphragm is formed in a lattice shape. According to claim 1, An embossment on the surface of the diaphragm is formed in a cross oblique shape. According to claim 1, The cross-sectional shape of the emboss has a U-shape diaphragm, characterized in that. According to claim 1, The cross-sectional shape of the emboss has a V shape, the diaphragm for a micro speaker. A frame having a space inside; Magnet magnetized in the vertical direction; An upper plate attached to an upper surface of the magnet to form a magnetic circuit; A yoke forming a magnetic circuit together with the magnet; A diaphragm having an emboss formed on a surface thereof, which is assembled to an upper surface of the frame and supported to enable shaking up and down; A voice coil attached to the diaphragm to vibrate the diaphragm while linearly reciprocating up and down according to a magnetic field; And A protector attached to the frame to protect the diaphragm Micro speaker, characterized in that comprises a.