KR19980058039A - Car Audio Speaker Magnetic Circuit Structure - Google Patents

Abstract

The present invention relates to a speaker magnetic circuit structure of a car audio, and to bend the outer side of the installation hole 8 formed on the upper end of the cylindrical surface 4 downward and then horizontally bent to form a plurality of heat dissipation grooves 10. The case 2 has integrally formed the traumatic plate portion 6 and the lower plate portion 12 having horizontal ends formed therein, and a plurality of traumatic plates 16 laminated and bonded to the upper surface of the case 2 outer trauma plate portion 6. And, bending the outer peripheral end to the other end of the support portion 20 to press the end into the press-in hole 14 of the lower plate portion 12 of the case (2) downward and then horizontally bent to a plurality of heat discharge grooves (10) A pole piece 18 having a heat discharge hole 24 penetrating from an upper surface of the inner plate portion 22 having a horizontal end to a lower surface of the support portion 20, and an inner plate portion of the pole piece 18; (22) a plurality of inner upper plates 28 laminated on the upper surface, a magnet 30 inserted and bonded inside the fitting projection 26 of the pole piece 18, It consists of a cooling member 38 to be inserted into the heat discharge hole 24 of the pole piece 18, to minimize the leakage of magnetic flux, to uniform the strength of the magnetic force line in the void of the magnetic circuit portion 32, voice coil By extending the range of magnetic force lines affecting 46 and dissipating heat generated in the magnetic circuit section 32 to the outside, the sound quality of the speaker is improved and the failure of the speaker is prevented.

Description

Car Audio Speaker Magnetic Circuit Structure

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a speaker audio circuit of a car audio, and in particular, a pole piece press-fitted with a magnet is provided inside the case, the shape of the upper part of the case and the pole piece is changed, and a magnet is installed in the case. Car audio speaker magnetic circuit that minimizes leakage of magnetic flux generated in the circuit, makes the strength of magnetic field lines uniform, expands the range of magnetic field lines affecting the voice coil, and dissipates heat generated in the magnetic circuit section of the case to the outside. It's about structure.

In general, a speaker is composed of a magnetic circuit portion consisting of a magnet, an upper plate, and a lower plate, a voice coil positioned at a cavity of the magnetic circuit portion, and a vibration portion of a bobbin, a damper, and a cone-shaped vibration plate that vibrate when an electric current is applied to the voice coil. As shown in FIG. 1, the magnetic circuit portion 82 of the speaker 70 has a ring-shaped magnet 76 having an insertion hole 78 in the pole piece 74 protruding upward from the lower plate 72. ) And a ring-shaped upper plate 80 having an insertion hole 78 in the pole piece 74 is bonded to the magnet 76. The outer circumferential surface of the pole piece 74 and the upper plate ( The voice coil 86 wound around the lower end of the bobbin 84 is located in the space | gap between the insertion hole 78 of 80, and the magnet 76 is in the state exposed to the exterior.

As described above, a case in which a conventional speaker magnetic circuit structure in which the magnet 76 is exposed to the outside is installed with an S pole and an N pole of the magnet 76 as an example.

The magnetic circuit portion 82 of the speaker 70 is drawn out from the N pole of the magnet 76 and flows from the lower end of the pole piece 74 to the upper end through the lower plate 72 and the outer circumferential surface of the pole piece 74 and the upper plate ( A magnetic force line leading to the S pole of the magnet 76 is formed through the gap between the inner circumferential surface of the insertion hole 78 of the insertion hole 78 and the upper plate 80. The voice coil 86 located in the gap is applied to the current. The driving force is generated by the magnetic force lines formed in the voids, causing the bobbin 84 to vibrate.

On the other hand, in addition to the magnetic force lines, a plurality of magnetic force lines are formed on the upper and lower sides of the gap, the magnetic force lines formed on the upper and lower sides of the gap is weakened by the magnetic force is gradually weakened to form a magnetic force line beyond a certain distance from the gap, the outside of the magnet 76 exposed The magnetic force lines formed at the outer circumference are drawn out of the N pole, and the magnetic force weakens and disappears.

In this way, when a current is applied to the voice coil 86 located in the cavity where the magnetic force lines are formed, a driving force is generated to cause the bobbin 84 to vibrate, and as the bobbin 84 vibrates, the conical vibration plate 88 adhered to the bobbin 84. Sound waves were radiated by this vibration.

However, in the conventional speaker magnetic circuit structure as described above, since the magnet 76 is exposed to the outside, the magnetic flux leaks to the outside, the magnetic force lines formed in the pores are not uniform, and are formed on the upper and lower sides of the pores as compared to the magnetic force lines formed in the pores. Since the magnetic force of the magnetic force line is weak, the same driving force should be generated when the current of the same intensity is applied to the voice coil 86, but the driving force generated by the voice coil 86 is located in the air gap and above and below the air gap. There is a problem that the sound quality of the speaker 70 is lowered by varying the driving force generated by the position.

The bobbin 84 vibrates up and down in the space between the pores of the magnetic circuit portion 82, the outer circumferential surface of the pole piece 74, and the insertion hole 78 of the magnet 76, thereby generating frictional heat and causing the voice coil 86 Heat is generated by a current applied to the air, and when the temperature in the void and the space rises due to the heat, the temperature of the voice coil 86 increases to bond the voice coil 86 to the bobbin 84 and the voice coil 86. When the adhesive is softened, the bobbin 84 is carbonized, and the speaker 70 is operated, the temperature in the voids and the space rises and the temperature of the voice coil 86 rises, so that the voice coil 86 moves in the radial direction. When the speaker 70 is not operated, the temperature of the voice coil 86 decreases due to a decrease in the temperature of the void and the space, which causes the voice coil 86 to contract in a radial direction. Stretching If this is repeated, the voice coil 86 is released from the bobbin 84 to be in contact with the pole piece 74, the upper plate 80, the magnet 76, thereby generating noise in the speaker 70 or failure of the speaker 70. I had an issue.

The present invention has been made in view of the conventional problems, the technical problem of the present invention is to install a pole piece press-fit the magnet inside the case, to change the shape of the case and the upper portion of the pole piece, the cooling member to the case By installing, it is for minimizing the leakage of the magnetic flux which generate | occur | produces in a magnet, making the intensity | strength of a magnetic force line uniform, expanding the range of the magnetic force line which affects a voice coil, and discharging the heat which generate | occur | produces inside of a case to the outside.

This technical problem is to bend the outer side of the installation hole formed in the upper end of the cylindrical surface and then horizontally bent again to form a horizontal end having a plurality of heat dissipation grooves and the indentation hole in the lower end of the cylindrical surface A case formed integrally with the formed lower plate portion, a plurality of trauma plates for laminating and bonding to the upper surface of the case trauma plate portion in the same shape as the trauma plate portion of the case, and the other end of the support portion for pressing one end into the press-in hole of the case lower plate portion. The outer circumferential end having an outer circumference larger than the outer circumference of the support portion and smaller than the diameter of the installation hole of the case is bent downward and then horizontally bent downward to form a horizontal end having a plurality of heat dissipation grooves. The pawl is formed by the annular protrusion formed in the annular shape and formed through the heat exhaust hole through the upper surface of the inner upper plate portion from the lower surface of the support portion Suwa, a plurality of inner plate to be laminated and bonded to the upper surface of the inner plate of the pole piece in the same shape as the inner plate of the pole piece, and forming a press-in hole so that the support of the pole piece is press-fitted inside the fitting projection of the pole piece It is achieved by providing a speaker audio circuit structure of a car audio comprising a magnet to be inserted and bonded, and a heat absorbing portion inserted into the heat discharge hole of the pole piece, and a cooling member integrally formed with a plurality of heat generating portions at one end of the heat absorbing portion.

1 is a cross-sectional view showing a conventional speaker magnetic circuit structure.

Figure 2 is an exploded perspective view showing a speaker magnetic circuit structure of the car audio according to the present invention.

3 is a plan view showing an upper portion of a magnetic circuit part, which is a main part of the present invention;

4 is a cross-sectional view showing a speaker magnetic circuit structure of a car audio according to the present invention.

〈Description of the symbols for the main parts of the drawings〉

2: case 4: cylindrical surface

6: trauma plate part 8: installation worker

10: heat discharge groove 12: lower plate

14 indentation hole 16 trauma plate

18: pole piece 20: support

22: upper plate 24: heat exhaust hole

26: fitting protrusion 28: inner upper plate

30: magnet 32: magnetic circuit part

38: cooling member 40: heat absorbing portion

42: heating section 44: bobbin

46: voice coil

Hereinafter, the present invention will be described with reference to the accompanying drawings.

In the speaker magnetic circuit structure of the car audio according to the present invention, as shown in FIGS. 2, 3, and 4, the case 2 forming the external appearance of the magnetic circuit unit 32 has a cylindrical surface 4 in a cylindrical shape. In the upper end of the installation hole 8 is formed in the center, the outer side of the installation hole 8 is bent downward and then horizontally bent to form a trauma plate portion 6 having a horizontal end. The heat dissipation groove 10 is formed to the outside, the lower plate portion 12 is formed at the lower end of the cylindrical surface 4 formed with a press-fit hole 14 in the center.

On the upper surface of the outer plate 6, an installation hole 8 is formed in the center, and the outside of the installation hole 8 is bent downward to have a horizontal end, and the horizontal end has a plurality of heat dissipation grooves 10 formed outside. One or more outer plates 16 are laminated and bonded.

The pole piece 18 installed inside the case 2 has a lower end than the outer circumference of the support portion 20 at the other end of the support portion 20 which presses one end into the press-fit hole 14 formed in the lower plate portion 12 of the case 2. The outer circumferential end of the inner upper plate part 22, which is larger and smaller than the diameter of the case 2 installation hole 8, is bent downward, and then horizontally bent again to form a horizontal end, and a plurality of heat dissipation grooves are formed at the horizontal end. A heat discharge hole 24 is formed in the center of the pole piece 18 by forming the inner side 10 and penetrating from the upper end surface of the inner upper plate part 22 to the lower end surface of the support part 20, and the inner upper plate part 22. The fitting protrusion 26 is formed in an annular shape at the inner side of the back of the bottom.

The upper surface of the inner plate portion 22 is formed with a heat discharge hole 24 in the center, the outer peripheral end of the inner upper plate portion 22 is bent downward to have a horizontal end, the horizontal end has a plurality of heat discharge grooves (10) inside A plurality of inner upper plates 28 formed by laminating and bonding.

The magnet 30 having the center of the indentation hole 14 through which the support portion 20 of the pole piece 18 is press-fitted is pressed into the support portion 20 so that the fitting protrusion 26 of the inner upper plate portion 22 of the pole piece 18 is press-fitted. ) And adheres to the rear surface of the inner upper plate part (22).

And. The cooling member 38 which protrudes the columnar endothermic part 40 above the disc-shaped heat generating part 42 is formed, and the said endothermic part 40 is a heat discharge hole 24 of the pole piece 18. ), The cooling member 38 is made of a material such as aluminum having excellent thermal conductivity.

The bobbin 44 wound around the voice coil 46 is inserted into the gap of the magnetic circuit part 32 according to the present invention, and the upper end of the bobbin 44 is inserted into the bobbin insertion hole of the damper 50. After adhering the outer circumferential surface of the damper 50 to the frame 54, the small diameter end of the cone-shaped vibration plate 48 is adhered to the upper end of the bobbin 44, and the inner circumferential surface of the edge 52 is adhered to the large diameter end and the edge ( The outer circumferential surface of 52 is adhered to the frame 54.

The operation of the present invention will be described with an example in which the magnet 30 is installed at the top of the S pole and the bottom of the N pole as an example.

First, the magnet 30 is installed inside the case 2 so that the magnetic flux leaked from the outer circumferential surface of the magnet 30 follows the cylindrical surface 4 of the case 2 in which the magnetic circuit serves as a magnetic circuit. , Air gap, and the amount of magnetic flux leakage of the magnet 30 is reduced by flowing to the inner upper plate portion 22 of the pole piece 18, and the plurality of outer plates 16 are laminated on the upper surface of the outer plate 6 of the case 2. By bonding and laminating a plurality of inner upper plates 28 on the upper surface of the inner upper plate portion 22 of the pole piece 18, the magnetic force lines coming out of the N pole of the magnet 30 are lower plate portions 12, the cylinder of the case 2. One magnetic circuit flows up to the surface 4, and the magnetic circuit is divided in the outer plate 6, and a part of the inner plate 22 of the outer plate 6, the air gap, and the pole piece 18 of the case 2. Through the S pole of the magnet 30, a part of the inner plate of the outer plate 16, air gap, pole piece 18 bonded to the upper surface of the outer plate 6 of the case (2) Entering the S pole of the magnet 30 through the inner plate 28, which is bonded to the upper surface of the plate portion 22, a part of the outer plate 16, voids, inner plate 28, bonded to the upper surface of the outer plate 16 It enters the S pole through the inner plate 28 bonded to the upper surface of the outer plate 16 laminated on the outer plate 6 of the case 2 and the inner plate 22 of the pole piece 18. Since the magnetic circuits are formed as many as the number of the inner plates 28, the strength of each magnetic force line formed in the gap is uniform.

The outer plate 6 of the case 2 and the inner plate 22 of the pole piece 18 or the outer plate 16 and the inner plate 28 of the case 2 which are installed to correspond to each other and give or receive magnetic flux with a gap therebetween. By bending each side to form a horizontal end, the cross section that transmits and receives the magnetic flux becomes the horizontal end face 34 and the bending face 36, so the range affecting the voice coil 46 is widened.

In addition, the bobbin 44 vibrates up and down in the cavity of the magnetic circuit part 32 to generate frictional heat, and heat is generated by the current applied to the voice coil 46. The heat generated as described above is generated by the pole piece 18. The heat absorbed by the heat absorbing portion 40 of the cooling member 38 inserted into the heat discharge hole 24 of the discharged to the outside through the heat generating portion 42 of the cooling member 38 installed on the outside of the case 2, At this time, the heat generating portion 42 forms a plurality and increases the cooling effect by increasing the surface area, and as shown in FIG. 3, the outer upper plate portion 6 and the inner upper plate portion of the pole piece 18 of the case 2. A plurality of heat dissipation grooves 10 are formed at the horizontal ends of the 22, the outer plate 16, and the inner plate 28, so that heat generated in the magnetic circuit part 32 is transferred through the heat dissipation grooves 10. Discharged.

When a current is applied to the voice coil 46 located in the space where the uniform magnetic field lines are formed as described above, a driving force is generated to cause the bobbin 44 to vibrate, and as the bobbin 44 vibrates, the conical vibration plate adhered to the bobbin 44 ( 48) the sound waves are emitted by vibrating.

As described above, the speaker magnetic circuit structure of the car audio according to the present invention minimizes the leakage of the magnetic flux of the magnet 30 and allows a plurality of magnetic circuits to be formed to uniform the strength of the magnetic force lines applied to the voice coil 46, By widening the range of magnetic force lines affecting the voice coil 46, the same driving force is generated whenever the same current flows through the voice coil 46.

In addition, the heat generated in the magnetic circuit part 32 is sucked by the heat absorbing portion 40 inserted into the heat discharging hole 24 of the pole piece 18 to the outside from the heat generating portion 42 formed outside the case 2. A plurality of heat dissipation grooves formed at the horizontal ends of the outer plate 6 and the inner plate 22 and the outer plate 16 of the pole piece 18 and the outer plate (6) of the case (2) By discharging the heat generated in the magnetic circuit portion 32 through the (10), the temperature of the voice coil 46 is raised as in the prior art to bond the voice coil 46 and the bobbin 44 and the voice coil 46 The adhesive is softened and the bobbin 44 is prevented from carbonizing, and the rising and lowering of the temperature of the voice coil 46 is repeated so that the expansion and contraction of the voice coil 46 is repeated in the radial direction of the voice coil 46. Noise is generated from the speaker by preventing the bobbin 44 from being released and coming into contact with the members in the magnetic circuit part 32. So as to have the effect of improving the sound quality of the speakers and improving the quality and reliability of the speakers by eliminating the cause of speaker failure.

Claims (1)

In the speaker magnetic circuit structure of a car audio, in which a current is applied to the voice coil 46 located in the gap of the magnetic circuit portion 32 where the magnetic force lines are formed, and the bobbin 44 vibrates to generate sound waves. The outer plate 6 and the cylinder having a horizontal end having a plurality of heat dissipation grooves 10 are formed by bending the outer side of the installation hole 8 formed at the upper end of the cylindrical surface 4 downward and then horizontally. Case 2 which integrally formed the lower plate part 12 which formed the indentation hole 14 in the lower end of the surface 4, A plurality of trauma plates 16 laminated and bonded to an upper surface of the case 2 trauma plate 16 and the same shape as the trauma plate portion 6 of the case 2, The diameter of the installation hole 8 of the case 2 is greater than the outer periphery of the support part 20 at the other end of the support part 20 that presses one end into the press-fit hole 14 of the lower plate part 12 of the case 2. The outer periphery having a smaller outer periphery is bent downward, and then horizontally bent again to form a horizontal end having a plurality of heat dissipation grooves 10 to form a lower fitting protrusion 26 on the inner side of the rear surface of the inner plate portion 22. A pole piece 18 formed in an annular shape and having a heat discharge hole 24 penetrating from an upper surface of the inner plate portion 22 to a lower surface of the support portion 20; A plurality of inner plates 28 laminated and bonded to the upper surface of the inner plates 22 of the pole pieces 18 in the same shape as the inner plates 22 of the pole pieces 18; A magnet 30 forming a press-fit hole 14 so that the support part 20 of the pole piece 18 is press-fitted and inserted into the fitting protrusion 26 of the pole piece 18; The cooling member 38 is formed with a heat absorbing portion 40 to be inserted into the heat discharge hole 24 of the pole piece 18 and a plurality of heat generating portions 42 are integrally formed at one end of the heat absorbing portion 40. Car audio speaker magnetic circuit structure, characterized in that made.