KR102085840B1 - Sound transducer - Google Patents

Abstract

The present invention relates to an acoustic transducer and, more particularly, to an acoustic transducer capable of reducing split vibration by providing an additional damper for supporting a voice coil at an upper end of the voice coil or both the upper end and a lower end of the voice coil. The acoustic transducer comprises: a frame; a magnetic circuit which has a yoke coupled to a lower surface of the frame, a center magnet attached to the yoke, side magnets spaced apart from the center magnet by a predetermined interval to form a magnetic gap, a center plate attached to an upper portion of the center magnet, and side plates attached to upper portions of the side magnets; a voice coil which has a lower end positioned in the magnetic gap and is vibrated by an electromagnetic force with the magnetic circuit; a diaphragm which generates a sound while being vibrated by the voice coil; a suspension which has a current carrying function, has the outer periphery positioned on the frame, has the voice coil attached to the center thereof, has a bridge connecting the outer periphery and the center, and guides the vibration of the diaphragm; a first damper which is attached between the suspension and the voice coil to prevent tilting of the voice coil; and a second damper which is attached to the lower end of the voice coil and the frame to prevent tilting of the voice coil.

Description

Acoustic transducer {SOUND TRANSDUCER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an acoustic transducer, and more particularly, to an acoustic transducer capable of improving split vibration by providing an additional damper supporting the voice coil at the top or both the top and bottom of the voice coil.

Conventional acoustic transducers (eg, microspeakers, etc.) do not use a wide band of sound sources due to communication technology limitations. However, with the development of information and communication technology, the playback bandwidth of the sound source to be reproduced in the sound conversion device has been widened and the required output has been increased, so the structure of the conventional sound conversion device has limitations in terms of characteristics and reliability.

In order to improve this point, the applicant of the present invention has been filed and registered in the Republic of Korea Patent No. 10-1200435 "high power micro speaker" (hereinafter referred to as "prior patent"), the high power micro speaker is a frame, protector, A yoke assembly coupled to the frame and provided with a magnet, a vibration plate provided in the frame to generate vibration, a voice coil coupled to the vibration plate to vibrate the vibration plate, and provided at one side of the frame and electrically connected between the lead wire and the external terminal of the voice coil. Terminals and center diaphragm, side diaphragm and voice coil to provide connection, side diaphragm are attached, outer diaphragm and voice coil contacting frame and protector, outer and inner parts are connected, and lead wire of coil is soldered Or out of the support and the outer part with a land to be welded It consists of a damper formed of an FPCB having an extension formed to provide a terminal provided in the frame and an electrical connection of the outer portion.

In the prior patent of the present applicant, the vibration system is composed of a damper and a voice coil formed of a diaphragm and an FPCB, and the distance between the diaphragm and the damper is close and relatively far from the lower end of the voice coil where the motion is generated by the actual magnetic force. There was a limit to improving split vibration.

In addition, the applicant's prior patent had a fear of deformation due to heat due to the inflow of the outside air into the diaphragm.

Republic of Korea Patent No. 10-1200435

An object of the present invention is to provide a microspeaker provided with a damper that can prevent tilting at high power up and down the voice coil.

The present invention provides a frame, a yoke coupled to a lower surface of the frame, a center magnet attached to the yoke, a side magnet spaced apart from the center magnet at a predetermined interval to form a magnetic gap, and a center plate attached to the top of the center magnet and the top of the side magnet. A magnetic circuit having a side plate attached to the magnetic circuit, the lower end is located in the magnetic gap, the voice coil vibrating by the magnetic circuit and mutual electromagnetic force, the vibration plate vibrating by the voice coil to generate sound, the energization function, the outer peripheral portion has a frame The voice coil is attached to the central portion and has a bridge connecting the outer periphery and the central portion, and a suspension for guiding the vibration of the diaphragm, the first damper and the voice coil attached between the suspension and the voice coil to prevent tilting of the voice coil. Attached to the bottom and frame to tilt the voice coil It provides a sound conversion device comprising a second damper to prevent.

In another embodiment of the present invention, the first damper is divided into two or more pieces to provide an acoustic transducer, characterized in that attached symmetrically.

In another embodiment of the present invention, the first damper is provided in one piece and provides a sound conversion device characterized in that the groove or hole through which the upper and lower holes of the first damper is formed.

In another embodiment of the present invention, the second damper is divided into two or more pieces to provide an acoustic transducer, characterized in that attached symmetrically.

In another embodiment of the present invention, the second damper is provided in one piece and provides a sound conversion device characterized in that the groove or hole through which the upper and lower holes of the second damper is formed.

In another embodiment of the present invention, the side plate provides a sound conversion apparatus, characterized in that provided with a step on the upper surface of the side plate, in order to avoid the collision of the first damper.

In another embodiment of the present invention, the yoke provides an acoustic transducer, characterized in that a step is provided on the upper surface of the yoke in order to avoid collision of the second damper.

In another embodiment of the present invention, a rectangular frame, a yoke coupled to the lower surface of the frame, the center magnet is attached to the yoke, the side magnets and a predetermined distance apart from the center magnet to form a magnetic gap attached to the upper portion of the center magnet A magnetic circuit having a center plate and a side plate attached to an upper side of the side magnet, a voice coil having a lower end in a magnetic gap and vibrating by a magnetic circuit and mutual electromagnetic force, a vibration plate vibrating by a voice coil, and generating sound, It has an energizing function, the outer circumference is located in the frame and the voice coil is attached to the center portion, has a bridge connecting the outer circumference and the center portion, a suspension for guiding the vibration of the diaphragm, attached to the lower surface of the suspension to prevent the tilting of the voice coil 1 damper, attached to the bottom of the voice coil and the frame looks It provides a transducer device comprising a second damper for preventing the tilting of the coil.

The acoustic conversion device provided by the present invention further includes dampers above and below the voice coil, so that the tilting of the voice coil can be efficiently prevented at high output when the amplitude of the voice coil is increased.

In addition, the present invention has a plurality of openings are formed in the corner portion of the outer upper plate to smooth the air flow inside the acoustic transducer, and in particular, to lower the internal heat during high power application, thereby suppressing deformation of the diaphragm and improving THD.

In addition, the present invention has the effect of improving the balance of vibration by supplementing the difference between the stiffness of the diaphragm of the long side and short side in the structure of the rectangular acoustic transducer.

1 is a perspective view of an acoustic transducer according to a first embodiment of the present invention;
2 is a coupling diagram of a voice coil, a first damper, and a second damper included in the acoustic transducer according to the first embodiment of the present invention;
3 is a cross-sectional view of an acoustic transducer according to a first embodiment of the present invention;
4 is a cross-sectional view of a corner of an acoustic transducer according to a first embodiment of the present invention;
5 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the second exemplary embodiment of the present invention;
6 is a coupling diagram of the voice coil and the first damper included in the acoustic transducer according to the third embodiment of the present invention;
7 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fourth exemplary embodiment of the present invention;
8 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fifth embodiment of the present invention;
9 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fifth embodiment of the present invention;
10 is a coupling diagram of a voice coil and a second damper included in the acoustic transducer according to the sixth embodiment of the present invention;
11 is a coupling diagram of a voice coil and a second damper included in the acoustic transducer according to the seventh exemplary embodiment of the present invention;
12 is a cross-sectional view of an acoustic transducer according to an eighth embodiment of the present invention;
13 is a partial cross-sectional view of the acoustic transducer according to an eighth embodiment of the present invention;
14 is a diagram illustrating SPL and THD according to output-specific frequencies of a conventional acoustic transducer;
FIG. 15 is a view comparing SPL and THD according to output frequency of the conventional acoustic transducer and SPL and THD according to output frequency of the acoustic transducer according to the present invention. FIG.

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

1 is a perspective view of an acoustic transducer according to a first exemplary embodiment of the present invention, and FIG. 2 is a coupling diagram of a voice coil, a first damper, and a second damper included in the acoustic transducer according to the first exemplary embodiment of the present invention. .

In the acoustic transducer according to the first exemplary embodiment of the present invention, components are fixed to the rectangular frame 100, the yoke 210 is coupled to the lower surface of the frame 100, and a protector is attached to the upper surface of the frame 100. 800 are combined to form an overall appearance.

The yoke 210 coupled to the lower surface of the frame 100, the center magnet 220, the side magnet 230, the center plate 240, and the side plate 250 attached to the yoke 210 are acoustic conversion devices. Configure the magnetic circuit of. A magnetic gap is formed between the center magnet 220 and the side magnet 230. The side magnets 230 are divided into four parts by removing edge portions to provide a space for installing the second damper 700 to be described later. The center plate 240 has a shape corresponding to that of the center magnet 220, but the side plate 250 is formed in a rectangular ring shape to maximize the magnetic field.

The voice coil 300 is attached to the suspension 500 to be described later so that the lower end is located in the magnetic gap of the magnetic circuit. When an electrical signal is applied to the voice coil 300, the voice coil 300 vibrates up and down by mutual electromagnetic force with the magnetic circuit, and the diaphragms 410 and 420 coupled with the voice coil 300 vibrate together and sound. Will occur.

The suspension 500 is formed with a conductive pattern on the polymer film, and includes an outer circumferential portion coupled to the frame 100, a center portion to which the voice coil 300 is attached, and a bridge that elastically connects the inner circumference portion and the central portion. In addition, a voice coil 300 is attached to a lower surface of the suspension 500, and diaphragms 410 and 420 are attached to an upper surface of the suspension 500. Therefore, the suspension 500 may prevent the lateral vibration and the split vibration of the diaphragms 410 and 420 while guiding the up and down vibration of the voice coil 300. The conductive pattern formed on the suspension 500 serves to transfer an electrical signal applied from the outside to the voice coil through the terminal 900 to be described later.

The diaphragms 410 and 420 are located at the outer periphery of the center diaphragm 410 attached to the center portion of the suspension 500, the outer periphery is seated on the frame 100, and the inner periphery is at the suspension 500. It is provided with the side diaphragm 420 supported by it. The side diaphragm 420 has a rectangular ring shape as a whole, and is provided with a dome portion projecting upward between the outer circumference portion and the inner circumference portion.

The frame 100 is coupled to a terminal 900 capable of transmitting an electrical signal in a conductive pattern of the suspension 500.

In addition, the protector 800 is coupled to the upper portion of the frame 100 to protect components installed in the frame 100. At this time, the protector 800 is the upper surface is a metal grill 810 having a sufficient strength, the metal grill 810 is coupled to the injection molding 820 by a method such as insert injection.

Meanwhile, in the present invention, the first damper 600 and the second damper 700 are additionally coupled to the upper end and the lower end of the voice coil 300, respectively. In the present invention, the first damper 600 and the second damper 700 is a concept that is distinguished from the side diaphragm 420 and the suspension 500 in which the term damper is commonly used in the speaker field. In the present invention, the ring-shaped polymer film attached to the outer circumference of the center diaphragm 410, which may also serve to guide the center diaphragm 410, may be referred to as a side diaphragm 420. In addition, the diaphragm 410, 420 is attached to the upper surface, the voice coil 300 is attached to the lower surface, a conductive thin film pattern is formed to transmit the electrical signal to the voice coil 300 to the suspension 500 Refers to.

The dampers 600 and 700 are for preventing tilting of the voice coil 300, and the inner ends of the dampers 600 and 700 are attached to the voice coil 300 and the outer ends of the dampers 600 and 700, respectively. The first damper 600 is attached to the upper end of the voice coil 300, and the second damper 700 is attached to the lower end of the voice coil 300.

The voice coil 300 has a substantially rectangular ring shape, and the first damper 600 is attached to an opposite short side of the voice coil 300. More precisely, the pair of first dampers 600 is extended from the short side of the voice coil 300 to both edges of the short side and attached. The inner end 602 of the first damper 600 is attached to the upper end of the voice coil 300, the outer end 604 is fixed to the frame 100. The inner end 602 and the outer end 604 are provided with a dome part 606 protruding downward so that the first damper 600 can be elastically deformed during the vertical movement of the voice coil 300.

The second damper 700 is attached to the edge of the voice coil 300. That is, a total of four second dampers 700 are attached to each corner of the voice coil 300. The inner end 702 of the second damper 700 is also attached to the lower end of the voice coil 300, and the outer end 704 is fixed to the frame 100. Between the inner end 702 and the outer end 704 is provided with a dome portion 706 projecting downward so that the second damper 700 can be elastically deformed during the vertical movement of the voice coil 300.

Since the second damper 700 is attached to the lower end of the voice coil 300, the side magnets 230 may not be installed where the second damper 700 is formed. Therefore, in order to install the second damper 700 while maximizing the size of the side magnet 230, the side magnet 230 is installed divided into four in a straight line, the second damper 700 is the side magnet 230 is It is located in the corner where it is not installed. On the other hand, since the side plate 250 is independent of the attachment position of the second damper 700, one square ring-shaped side plate 250 is attached to the divided four side magnets 230. There is an advantage that the magnetic field can be increased by increasing the size of the side plate 250.

3 is a cross-sectional view of an acoustic transducer according to a first embodiment of the present invention. Since the first damper 600 is attached to the upper end of the voice coil 300 and has a dome portion projecting downward, a collision between the first damper 600 and the side plate 250 may occur. To improve this, the side plate 250 is provided with a step 252 to avoid collisions on the top surface. Step 252 can be easily formed through the forging process.

The side plate is provided with a step on the upper surface of the side plate, in order to avoid the collision of the first damper.

4 is a cross-sectional view of a corner portion of the acoustic transducer according to the first embodiment of the present invention. As the second damper 700 is attached to the lower end of the voice coil 300, the yoke 210 and the second damper 700 may collide with each other. In order to improve this, the step 212 is provided on the upper surface of the yoke 210. The step of the yoke 210 can also be easily formed through forging.

5 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the second exemplary embodiment of the present invention.

The first damper 610 included in the acoustic transducer according to the second exemplary embodiment of the present invention is attached to four corners of the voice coil 300. Therefore, it is bent in L shape. The inner end 612 is attached to the voice coil 300, the outer end 614 is attached to the frame 100, and the dome part 616 protrudes downward between the inner end 612 and the outer end 614. It is provided.

6 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the third exemplary embodiment of the present invention. The first dampers 620a and 620b of the acoustic transducer according to the third exemplary embodiment of the present invention are attached to four sides of the voice coil 300. The length of the first damper 620a attached to the long side is different from the length of the first damper 620a attached to the long side. The first dampers 620a and 620b according to the third embodiment of the present invention also have inner ends 622a and 622b attached to the voice coil 300, outer ends 624a and 624b attached to the frame 100, and Dome parts 626a and 626b which protrude downward are positioned between the inner ends 622a and 622b and the outer ends 624a and 624b.

7 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fourth exemplary embodiment of the present invention. A pair of first dampers 630 included in the acoustic transducer according to the fourth exemplary embodiment may extend from the long side of the voice coil 300 to the edge and face each other. The inner end 632 of the first damper 630 is attached to the upper end of the voice coil 300, the outer end 634 is fixed to the frame 100. Between the inner end 632 and the outer end 634 is provided with a dome portion 636 protruding downward so that the first damper 630 elastically deformed during the vertical movement of the voice coil 300.

 8 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fifth exemplary embodiment of the present invention.

The first damper 640 included in the acoustic transducer according to the fifth exemplary embodiment of the present invention is integrally formed without being separated. The inner end 642 of the first damper 640 is attached to the entire upper end of the voice coil 300. That is, it is a square ring shape which is the same shape as the cross section of the voice coil 300. On the other hand, it does not extend to the long side of the frame 100, but extends only to the short side of the frame 100, the outer end 644 is attached to the short side and the corner of the frame 100. That is, of the first damper 640 The long side is formed with a groove 648 through which air can enter. In other words, the inner end 602 of the pair of first dampers 600 described in the first embodiment (see Fig. 2) is extended and integrated. Can be.

 9 is a coupling diagram of a voice coil and a first damper included in the acoustic transducer according to the fifth exemplary embodiment of the present invention.

The first damper 650 included in the acoustic transducer according to the fifth exemplary embodiment of the present invention is integrally formed without being separated. The inner end 652 of the first damper 650 is attached to the entire upper end of the voice coil 300. That is, it is a square ring shape which is the same shape as the cross section of the voice coil 300.

In addition, the outer end 654 of the first damper 650 also has a rectangular ring shape so that the whole is attached to the frame 100. A dome part 656 protruding downward is formed between the inner end 652 and the outer end 654. At this time, the dome part 656 of the long side is deleted and perforated to form a hole 658 through which air can enter.

10 is a diagram illustrating a combination of a voice coil and a second damper included in the acoustic transducer according to the sixth exemplary embodiment of the present invention.

The second damper 710 included in the acoustic transducer according to the sixth exemplary embodiment of the present invention includes an inner end 712 attached to the entire lower end of the voice coil 300 and an outer end 714 extending only to an edge portion. ) And a dome portion 716.

11 is a coupling diagram of a voice coil and a second damper included in the acoustic transducer according to the seventh exemplary embodiment of the present invention. The second damper 720 of the acoustic transducer according to the sixth embodiment of the present invention includes a square ring-shaped inner end 722 attached to the entire lower end of the voice coil 300 and a square attached to the frame 100. A ring-shaped outer end 724 and a dome portion 726 formed only at the corners are provided.

That is, in the second damper 720, the dome portion of the long side and the dome portion of the short side are deleted to form holes 728 and 729.

12 is a cross-sectional view of an acoustic conversion device according to an eighth embodiment of the present invention, and FIG. 13 is a cross-sectional view of a corner portion of an acoustic conversion device according to an eighth embodiment of the present invention. The acoustic conversion device according to the eighth embodiment of the present invention has the same structure as the first embodiment except for the attachment structure of the first damper 660. Unlike the first embodiment, the first damper 660 has an inner end 662 that is not attached to the upper end of the voice coil 300, that is, between the voice coil 300 and the suspension 500. It is attached only to the bottom surface. That is, both the voice coil 300 and the inner end 662 of the first damper 600 are attached to the suspension 500, but are spaced apart from each other.

Meanwhile, in the eighth embodiment, the frame 102 does not surround the outer side of the magnetic circuit, that is, does not surround the outer circumference of the side magnet 230 and the yoke 210, but is attached to the upper side of the side magnet 230. to be. Accordingly, it is possible to increase the size of the side magnet 230, there is an advantage that can increase the magnetic field. The side plate 250 may improve the assembly convenience by insert injection molding during the molding of the frame 102.

Like other embodiments, the second damper 730 has an inner circumferential portion attached to a lower end of the voice coil 300, and an outer circumferential portion attached to a lower surface of the frame 102. In this case, since the frame 102 is manufactured to be coupled to the upper portion of the side magnet 230, there is an advantage in that the outer circumferential portion of the second damper 730 is easily attached to the frame 102.

FIG. 14 is a diagram illustrating SPL and THD according to output-specific frequencies of a conventional acoustic transducer. FIG. As shown, applying a voltage higher than the rated voltage to the conventional microspeaker structure partially reduces the SPL and increases the THD. This is because tilting of the voice coil occurs at high power.

FIG. 15 is a diagram comparing SPL and THD according to output frequency of the conventional acoustic converter and SPL and THD according to output frequency of the acoustic transducer according to the present invention.

The line marked in black is a conventional acoustic transducer, and the red line is a case in which only the second damper is applied, and the blue line is a case in which both the first damper and the second damper are applied as in the present invention. As can be seen from the figure, when the second damper is applied than when the damper is not applied, the output SPL is higher and the THD is lowered when the first and second dampers are applied together than when only the second damper is applied. Can be.

Claims (8)

Square frame;
Yoke coupled to the lower surface of the frame, center magnet attached to the yoke, side magnets spaced apart from the center magnet to form a magnetic gap, and a center plate attached to the top of the center magnet and a side plate attached to the top of the side magnet Magnetic circuit having a;
A voice coil having a lower end in the magnetic gap and vibrating by the magnetic circuit and the mutual electromagnetic force;
A vibration plate vibrating by the voice coil and generating sound;
Suspension having an energizing function, the outer periphery is located in the frame and the voice coil is attached to the center, having a bridge connecting the outer periphery and the center and guides vibration of the diaphragm;
A first damper having an inner end attached between the suspension and the voice coil and an outer end fixed to the frame to prevent tilting of the voice coil;
And a second damper attached to the lower end of the voice coil and the frame to prevent tilting of the voice coil. The method of claim 1,
And the first damper is divided into two or more pieces and attached symmetrically. The method of claim 1,
The first damper is made of one piece and the sound conversion device, characterized in that the groove or hole through which the upper and lower holes of the first damper is formed. The method of claim 1,
And the second damper is divided into two or more pieces and attached symmetrically. The method of claim 1,
The second damper is made of one piece and the sound conversion device, characterized in that the groove or hole through which the upper and lower holes of the second damper is formed. The method of claim 1,
The side plate is provided with a step on the upper surface of the side plate, in order to avoid the collision of the first damper. The method of claim 1,
The yoke is provided with a step on the upper surface of the yoke, in order to avoid the collision of the second damper. Square frame;
Yoke coupled to the lower surface of the frame, center magnet attached to the yoke, side magnets spaced apart from the center magnet to form a magnetic gap, and a center plate attached to the top of the center magnet and a side plate attached to the top of the side magnet Magnetic circuit having a;
A voice coil positioned at a lower end in the magnetic gap and vibrating by the magnetic circuit and the mutual electromagnetic force;
A vibration plate vibrating by the voice coil and generating sound;
Suspension having an energizing function, the outer periphery is located in the frame and the voice coil is attached to the center, having a bridge connecting the outer periphery and the center and guides vibration of the diaphragm;
A first damper having an inner end attached to a lower surface of the suspension and an outer end fixed to the frame to prevent tilting of the voice coil;
And a second damper attached to the lower end of the voice coil and the frame to prevent tilting of the voice coil.

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