KR102115387B1 - The compositive speaker with moving magnetic circuit type - Google Patents

Abstract

The present invention includes: a frame; an excitation module disposed on the frame and vibrating along a vibration axis; a magnetic circuit module capable of vibrating along the vibration axis by electromagnetic interaction with the excitation module; a first sound pressure generating plate connected to the frame and the magnetic circuit module, and generating sound pressure by the magnetic circuit module. Therefore, sound is amplified, and the sound quality and sound pressure are improved, especially in the mid/high sound band.

Description

Moving magnetic circuit type composite speaker {THE COMPOSITIVE SPEAKER WITH MOVING MAGNETIC CIRCUIT TYPE}

The present invention relates to a moving magnetic circuit type composite speaker, and more particularly, to a moving magnetic circuit type composite speaker with improved sound quality and sound pressure.

Exciters are a type of speaker. A speaker is an acoustic device that converts electrical signals, including sound signals, into vibrations of a diaphragm to generate small waves in the air and radiate sound waves. The speaker radiates vibrations through the interaction between the permanent magnet and the voice coil through the diaphragm.

In a moving magnetic circuit type speaker according to the prior art, sound pressure generated by vibration of the magnetic circuit is radiated through a through hole of a cover disposed on the front side. However, according to the prior art, when the vibration control element (configuration) is at high output, nonlinear vibration is generated. Therefore, there is a problem in that it is difficult to realize high-efficiency sound such as distortion of sound. In addition, the reproduction sound region is classified according to the vibration control element, and thus there is a difficulty in high frequency reproduction.

One embodiment of the present invention is to provide a moving magnetic circuit type composite speaker capable of improving sound amplification and sound quality and sound pressure of a mid-range.

In order to achieve the above object, a moving magnetic circuit type composite speaker according to an embodiment of the present invention is disposed on a frame, a frame, and a vibrating module that vibrates along an oscillation axis and electromagnetic interaction with a vibrating module. It is characterized in that it comprises a magnetic circuit module capable of vibrating along the oscillation axis, and a first sound pressure generating plate connected to the frame and the magnetic circuit module and generating sound pressure by the magnetic circuit module.

According to the present invention, by disposing a plurality of vibration control elements, the sound is amplified, and the sound quality and sound pressure can be amplified. In particular, sound quality and sound pressure may be improved in the mid-range band.

1 is a perspective view of a moving magnetic circuit type composite speaker according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the moving magnetic circuit type composite speaker illustrated in FIG. 1.
3 is an exploded perspective view of the moving seat circuit type composite speaker shown in FIG. 1.
FIG. 4 is a perspective view showing the yoke and the first sound pressure generating plate shown in FIG. 3.
5 and 6 are cross-sectional views showing another embodiment of the second sound pressure generating plate shown in FIG. 2.
7 is a graph showing the frequency characteristics of a moving magnetic circuit type composite speaker and a conventional speaker according to an embodiment of the present invention.

Hereinafter, a moving magnetic circuit type composite speaker 10 according to an exemplary embodiment of the present invention will be described in detail.

1 is a perspective view of a moving magnetic circuit type composite speaker 10 according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the moving magnetic circuit type composite speaker 10 shown in FIG. 1, and FIG. 3 is FIG. 1 An exploded perspective view of the moving magnetic circuit type composite speaker 10 shown in FIG.

1 to 3, the moving magnetic circuit type composite speaker 10 according to an embodiment of the present invention includes a frame 100 and a module 200 for amplifying sound and improving sound pressure and sound quality of middle and high sound , A magnetic circuit module 300 and a first sound pressure generating plate 400.

The frame 100 may support the excitation module 200, the magnetic circuit module 300, and the first sound pressure generating plate 400. The frame 100 may extend in a circumferential direction around a vibration axis (a) extending in one direction. The excitation module 200 is disposed on the frame 100 and vibrates along the vibration axis a. The magnetic circuit module 300 can vibrate along the vibration axis a by electromagnetic interaction with the excitation module 200. That is, the module 200 having the magnetic circuit module 300 vibrates along the vibration axis a by mutual electromagnetic force.

The first sound pressure generating plate 400 is connected to the frame 100 and the magnetic circuit module 300. The first sound pressure generating plate 400 may vibrate by the magnetic circuit module 300 to generate a small wave (sound pressure) to generate sound. The edge of the first sound pressure generating plate 400 is connected to the frame 100. The first sound pressure generating plate 400 has elasticity, and includes at least one selected from polymer materials (plastic, rubber, etc.) and metal materials. The first sound pressure generating plate 400 may extend in the circumferential direction based on the vibration axis (a).

The excitation module 200 excites the panel 11. The panel 11 may vibrate to generate sound. In addition, the magnetic circuit module 300 has a first sound pressure generating plate 400. That is, the panel 11 by the excitation module 200 and the first sound pressure generating plate 400 may each generate sound. Thereby, the sound can be amplified. In addition, it is possible to improve the sound pressure and sound quality of the middle or treble. That is, the insufficient range can be compensated. When the sound range is insufficient, a phenomenon occurs in which one band is heard well and the other band is not heard well.

The excitation module 200 includes a voice coil unit 210 and a coupler 220. In addition, the excitation module 200 may further include a damper 230 and an adhesive layer 240. The voice coil unit 210 is disposed in a magnetic gap of the magnetic circuit module 300. The coupler 220 is disposed on the top of the voice coil part 210. The coupler 220 excites the panel 11 to generate sound pressure. For example, the coupler 220 may be attached to the panel 11 through the adhesive layer 240. The coupler 220 may extend in the circumferential direction based on the vibration axis (a).

The voice coil part 210 may include a bobbin 211 and a voice coil 212. The bobbin 211 may have a cylindrical shape extending in a circumferential direction based on the vibration axis (a). The voice coil 212 may be wound on the outer peripheral surface of the bobbin 211. Of course, the voice coil 212 may be wound in a cylindrical shape without the bobbin 211. The voice coil 212 is disposed between the side wall portion 313 of the yoke 310 to be described later and the magnet 320. Therefore, the module 200 having according to the current applied to the voice coil unit 210 may vibrate along the vibration axis (a).

The damper 230 is connected to the voice coil part 210 and the frame 100. The damper 230 may extend in the circumferential direction based on the vibration axis (a). The inner circumferential surface of the damper 230 is connected to the voice coil part 210, and the outer circumferential surface of the damper 230 is connected to the frame 100. The inner peripheral surface of the damper 230 and the voice coil part 210 may be bonded by an adhesive material supplied therebetween. The damper 230 is disposed under the first sound pressure generating plate 400. The damper 230 may have a curved shape in a zigzag section. The damper 230 may also generate small waves by the vibration of the voice coil unit 210.

The magnetic circuit module 300 may extend in the circumferential direction based on the vibration axis (a). The magnetic circuit module 300 may include a yoke 310, a magnet 320, and a pole piece 330. The yoke 310 is connected to the first sound pressure generating plate 400. The magnet 320 is disposed on the yoke 310. The pole piece 330 is disposed on the magnet. The yoke 310, the magnet 320, and the pole piece 330 form a magnetic field. The magnet 320 and the pole piece 330 may have a disk shape.

FIG. 4 is a perspective view showing the yoke 310 and the first sound pressure generating plate 400 shown in FIG. 3.

2 to 4, the yoke 310 and the first sound pressure generating plate 400 have a vibration axis (a) coaxially. In one embodiment, the yoke 310 includes a bottom portion 311, a side wall portion 313, and a coupling protrusion 315. The bottom portion 311 is disposed to face the first sound pressure generating plate 400. The side wall portion 313 is disposed at the edge of the bottom portion 311 and may extend in an upward direction along the vibration axis a to have a cylindrical shape. The engaging projection 315 is disposed at the center of the bottom portion 311. The engaging protrusion 315 protrudes downward from the bottom portion 311 along the vibration axis a. The engaging projection 315 separates the bottom portion 311 of the yoke 310 and the first sound pressure generating plate 400. Accordingly, the first sound pressure generating plate 400 may generate sound by vibration of the yoke 310.

The engaging projection 315 has a projection through hole 312. The first sound pressure generating plate 400 has a fastening hole 410. The protrusion through-hole 312 is disposed at the center of the coupling protrusion 315 and the bottom portion 311 in a plane. The fastening hole 410 is disposed at the center of the first sound pressure generating plate 400 in a plane. The fastening hole 410 and the protrusion through hole 312 are in communication. Fastening means (screws, etc.) may be screwed to the fastening hole 410 and the projection through-hole 313. Accordingly, the yoke 310 may vibrate the center of the first sound pressure generating plate 400. Accordingly, acoustic distortion due to warping vibration of the first sound pressure generating plate 400 is prevented, and linear vibration of the first sound pressure generating plate 400 is possible.

In addition, the first sound pressure generating plate 400 may have at least one frame fastening hole 430. The frame fastening hole 430 is disposed at the edge of the first sound pressure generating plate 400. The plurality of frame fastening holes 430 may be spaced along the circumferential direction at an isometric angle based on the vibration axis (a). For example, the four frame fastening holes 430 may be spaced apart at an equal angle along the circumferential direction. Therefore, the pair of frame fastening holes 430 may be arranged to face each other based on the vibration axis (a). A fastening means (not shown) such as a screw may be screwed to the frame 100 through the frame fastening hole 430.

Accordingly, the edge of the first sound pressure generating plate 400 can be stably fixed to the frame 100. As a result, the edges and centers of the first sound pressure generating plate 400 are stably coupled to the frame 100 and the magnetic circuit module 300, so that the first sound pressure generating plate 400 can perform linear vibration. In addition, the strong driving force of the magnetic circuit module 300 may prevent the first negative pressure generating plate 400 and the frame 100 from falling off (separating).

On the other hand, the intensity of the vibration by the first sound pressure generating plate 400 is the magnetic force of the magnetic circuit module 300, the intensity of the current applied to the excitation module 200, the weight of the magnetic circuit module 300, and the first sound pressure It may be determined according to the elastic force of the generating plate 400. In one embodiment, the first sound pressure generating plate 400 may include a through portion 420. The through portion 420 penetrates the first sound pressure generating plate 400 in the direction of the vibration axis (a). The through portion 420 is disposed between the vibration axis (a) and the frame 100 in a plane. Depending on the shape of the through portion 420, the intensity of vibration of the first sound pressure generating plate 400 may be determined.

2 and 3, the moving magnetic circuit type composite speaker 10 according to an embodiment of the present invention further includes a second sound pressure generating plate 500. The second sound pressure generating plate 500 is connected to the voice coil part 210 of the module 200 with the frame 100. The second sound pressure generating plate 500 generates sound pressure by vibration of the excitation module 200. The second sound pressure generating plate 500 may extend in the circumferential direction based on the vibration axis (a). The inner peripheral surface of the second negative pressure generating plate 500 and the voice coil part 210 may be bonded by an adhesive material supplied therebetween. The second sound pressure generating plate 500 has elasticity, and includes at least one selected from polymer materials (plastic, rubber, etc.) and metal materials.

The second sound pressure generating plate 500 includes a frame connection portion 510, a module connection portion 520 having a diaphragm 530, and the like. The frame connection part 510 is connected to the frame 100, and the module connection part 520 having it is connected to the voice coil part 210. The diaphragm 530 is disposed between the module connecting portion 520 having the frame connecting portion 510. The diaphragm 530 is convexly curved at least once along the vibration axis a.

As an example, the diaphragm 530 may be convexly curved upward along the vibration axis a. By the convex direction, the diaphragm 530 can buffer the excitation module 200 more upwardly than downward. In addition, the first sound pressure generating plate 400 may further cushion the downward movement of the magnetic circuit module 300. That is, the excitation module 200 and the magnetic circuit module 300 may be sufficiently buffered by the diaphragm 530 and the first sound pressure generating plate 400 in the upper and lower directions thereof. Meanwhile, the vibration of the diaphragm 530 generates a separate sound. The material and shape of the diaphragm 530 may determine the intensity and sound quality of vibration.

5 and 6 are cross-sectional views illustrating another embodiment of the second sound pressure generating plate 500 illustrated in FIG. 2.

5 and 6, the second sound pressure generating plate 500 may include a plurality of convex portions 530. For example, the second sound pressure generating plate 500 may include an upper convex portion 531 and a lower convex portion 532. The upward convex portion 531 has a first radius of curvature r1 and its center C1. Further, the downward convex portion 532 has a second radius of curvature r2 and its center C2.

In addition, the second sound pressure generating plate 500 may have a plurality of convex portions 530 defined by a plurality of radii of curvature. For example, the second sound pressure generating plate 500 may have a curve defined by a first radius of curvature r1, a second radius of curvature r2, and a third radius of curvature r3. Here, the first to third radii of curvature r1 to r3 are different from each other by at least two or more. Further, at least one of the centers C1, C2, and C3 of the first to third curvature radii may be disposed above or below the second sound pressure generating plate 500.

7 is a graph showing the frequency characteristics of a moving magnetic circuit type composite speaker 10 and a conventional speaker according to an embodiment of the present invention. In particular, it is compared with a speaker using a conventional moving magnetic circuit module.

Referring to FIG. 7, the vertical axis represents the sound pressure level (SPL), and the horizontal axis represents the frequency. The moving magnetic circuit type composite speaker (solid line) according to an embodiment of the present invention has a sound pressure level that is higher than that of a 200 Hz or higher (middle band) conventional speaker (dotted line). That is, the sound is amplified, and the sound quality and sound pressure of the used band are improved.

Although the invention made by the present inventors has been described in detail according to the above-described embodiments, the present invention is not limited to the above-described embodiments, and it is needless to say that various modifications can be made without departing from the gist thereof.

10: moving magnetic circuit type composite speaker
11: Panel
100: frame
200: module with
300: magnetic circuit module
400: first sound pressure generating plate
500: second sound pressure generating plate
a: Vibration axis

Claims (13)

frame;
An excitation module disposed on the frame and vibrating along the vibration axis;
A magnetic circuit module capable of vibrating along the vibration axis by electromagnetic interaction with the excitation module; And
It is connected to the frame and the magnetic circuit module, and includes a first sound pressure generating plate for generating sound pressure by the magnetic circuit module,
Magnetic circuit module,
A yoke connected to the first negative pressure generating plate;
A magnet placed on the yoke;
A moving magnetic circuit type composite speaker including a pole piece disposed on a magnet. According to claim 1,
The module you have,
A voice coil part disposed in the magnetic gap of the magnetic circuit module; And
A moving magnetic circuit type composite speaker that is disposed on the top of the voice coil part and includes a coupler that generates sound pressure by having a panel. According to claim 1,
A moving magnetic circuit type composite speaker further connected to a module having a frame and further comprising a second sound pressure generating plate that generates sound pressure by vibration of the excitation module. According to claim 2,
The module you have,
A moving magnetic circuit type composite speaker further comprising a voice coil part and a damper connected to the frame. The method of claim 3,
The second sound pressure generating plate,
A frame connection portion connected to the frame;
An excitation module connector connected to the excitation module; And
A moving magnetic circuit type composite speaker comprising a diaphragm disposed between a frame connection and a module connection. The method of claim 5,
The diaphragm is a moving magnetic circuit type composite speaker that is convexly curved at least once along the vibration axis. delete According to claim 1,
York,
A bottom portion facing the first sound pressure generating plate;
A side wall portion extending in one direction along the vibration axis at the edge of the bottom portion; And
A moving magnetic circuit type composite speaker including a coupling protrusion protruding from the bottom in the other direction opposite to one direction. The method of claim 8,
The engaging projection has a projection through hole disposed at the center of the engaging projection on a plane,
The first sound pressure generating plate is disposed at the center of the first sound pressure generating plate on a flat surface, and the moving magnetic circuit type composite speaker has a fastening hole communicating with the protrusion through hole. According to claim 1,
The first sound pressure generating plate is disposed between the vibration axis and the frame on a plane, and the moving magnetic circuit type composite speaker has a through portion penetrating the first sound pressure generating plate in the direction of the vibration axis. According to claim 2,
The excitation module further comprises a moving magnetic circuit type composite speaker further comprising an adhesive layer disposed between the coupler and the panel. According to claim 1,
The magnetic circuit module is a moving magnetic circuit type composite speaker extending in a circumferential direction about a central axis. According to claim 1,
The intensity of vibration by the first sound pressure generating plate is determined by the magnetic force of the magnetic circuit module, the strength of the current applied to the excitation module, the weight of the magnetic circuit module, and the moving magnetic circuit type composite speaker determined according to the elastic force of the first sound pressure generating plate .

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