KR200314357Y1 - Speaker for preventing leakage flux - Google Patents

Abstract

The present invention relates to magnetically shielded speakers, and more particularly, to magnetically shielded speakers having a magnet exposed to the outside. Magnetically shielded speaker according to the present invention is an external magnetic speaker coupled to the outside of the frame formed by the magnet is inserted between the yoke and the plate, the plate and the magnet is built in the space of the frame is the width of the magnetic portion Characterized in that it is reduced.

Description

Magnetic shield speaker {SPEAKER FOR PREVENTING LEAKAGE FLUX}

The present invention relates to a magnetically shielded speaker, and more particularly, to a speaker in which a magnet exposed to the outside is built into the speaker.

In general, when a magnetic field is generated from a magnet and a magnetic loop is formed through a plate and a yoke, and a current flows through a voice coil placed in a magnetic circuit gap, the voice coil vibrates due to the interaction between the current and the magnetic field. According to the vibration, the diaphragm coupled to the voice coil generates an acoustic signal and emits sound.

A conventional speaker constituting the above operation will be described with reference to FIGS. 1 and 2 as follows.

1 is a cross-sectional view showing a speaker according to the prior art, wherein a cylindrical yoke 6 with a central portion protruding therefrom, a magnet 5 attached to an outer circumferential upper surface of the yoke 6, and an upper surface of the magnet 5 are shown. A voice coil composed of a plate 4 attached to the wall, a frame 3 coupled to the upper surface of the plate 4, and a winding portion and a bobbin positioned in the space portion between the yoke 6 and the plate 4. (7), one end is attached to each side of the bobbin formed on the upper part of the voice coil (7), and the other end is a diaphragm (1) and a damper (2) coupled to the frame (3), and a voice coil (7). ) Consists of a terminal plate 9 which is electrically connected.

The positions of the diaphragm 1 and the damper 2 bonded to the voice coil 7 are respectively bonded to the side surfaces of the bobbin formed on the winding part of the voice coil 7 to form a coupling with the frame 3.

In this voice coil 7, as shown in FIG. 2, the winding part 12 is wound around the bobbin 11 in a counterclockwise direction, and the wire starts at the center of the bobbin 11. After the primary winding to the lower end of the secondary winding, the secondary winding is again conducted from the lower end to the center portion. Then, the input wire 13 and the output wire 14 are drawn as shown in the drawing, and they are connected to the negative terminal and the positive terminal of the terminal plate 9. Each is electrically connected.

Referring to the operation of the conventional speaker having the above configuration, first, the magnetic field generated from the magnet 5 passes through the magnetic circuit gap through the plate 4, passes through the yoke 6 to form a magnetic loop, and within the magnetic circuit gap. When a current flows through the placed voice coil 7 and a driving force is generated and transmitted to the diaphragm 1, the diaphragm 1 vibrates corresponding to the driving force of the voice coil 7. The vibration eventually generates an acoustic signal, which generates sound waves.

However, such a conventional speaker structure has a problem that the magnet 5 is exposed to the outside so that the magnetic force generated from the magnet 5 is leaked to the outside without being applied to the voice coil 7 at all.

Accordingly, an object of the present invention is to provide a magnetically shielded speaker in which a magnet is installed inside a speaker to prevent magnetic force leakage and at the same time reduce the air pressure inside the speaker to increase the sound pressure level.

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

FIG. 2 is a configuration diagram illustrating the voice coil of FIG. 1. FIG.

3 is a perspective view of a magnetic shield speaker according to an embodiment of the present invention.

4 is a cross-sectional view of the magnetic shield speaker according to an embodiment of the present invention.

<Explanation of Signs of Major Parts of Drawings>

20: York 30: frame

40: magnet 50: plate

60: gasket 70: damper

80: voice coil 90: diaphragm

100: dust cap 110: frame space portion

Magnetically shielded speaker of the present invention for achieving the above object is an external magnetic speaker coupled to the outside of the frame formed by the magnet is inserted between the yoke and the plate, the plate and the magnet is built in the space of the frame It is characterized in that the width of the outer magnetic portion is reduced.

A damper support gasket is reinforced in the space of the frame, and the speaker is an elliptical cone speaker.

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

3 is a perspective view of a magnetic shield speaker according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the magnetic shield speaker according to an embodiment of the present invention.

As shown, the present invention is largely yoke 20, frame 30, magnet 40, plate 50, gasket 60, damper 70, voice coil 80 ), A diaphragm 90, and a dust cap 100.

The yoke 20 is in the shape of a disc and is formed integrally by protruding a cylindrical protrusion 21 having a constant diameter at a constant height in the center of the disc upper surface and supporting the frame 30.

In addition, the frame 30 has a circular opening formed at the center of the lower surface, and is seated on the upper edge of the yoke 20 with the central protrusion 21 of the yoke 20 as the central axis.

In particular, the inside of the frame 30 is a circular shape so that the ring-shaped magnet 40 having a constant thickness can be seated on the inner lower surface of the frame 30 with the central protrusion 21 of the yoke 20 as a central axis. Grooves are formed.

In addition, the magnet 40 has a circular ring shape having a thickness equal to the height of the groove formed on the inner lower surface of the frame 30, with the center protrusion 21 of the yoke 20 as the center axis. It is seated in a circular groove formed in the inner lower surface of the).

In addition, the plate 50 also has a circular ring shape and is placed on the upper surface of the magnet 40.

In addition, the gasket 60 is seated at an end formed in the space 110 of the frame 30 in a circular ring shape to support the damper 70.

In addition, the damper 70 is placed on the upper surface of the gasket 60 in a disc shape having an opening formed at the center thereof.

The voice coil 80 is formed of a winding part and a bobbin, and is positioned in a space part between the yoke 20 and the plate 50.

And, one end of the diaphragm 90 is bonded to the side of the bobbin formed on the upper portion of the voice coil 80 and the other end is coupled to the upper end of the frame 30, the dust cap 100 is the center of the upper surface of the diaphragm 90 Is bonded to.

Referring to the operation of the magnetic shield speaker of the present invention having a coupling structure as described above are as follows.

The magnetic field generated from the magnet 40 passes through the magnetic circuit gap through the plate 50, passes through the yoke 20, forms a magnetic loop, and current flows through the voice coil 80 to generate driving force. When the driving force generated as described above is transmitted to the diaphragm 90, the diaphragm 90 vibrates corresponding to the driving force of the voice coil 80, so that an acoustic signal is generated and an acoustic signal is output to the outside.

That is, the coil is raised or lowered by the magnetic force line direction of the magnet 40 and the magnitude and direction of the electromagnetic force line of the voice coil 80 by the driving force of the voice coil 80. At this time, the sound pressure is generated by a repetitive operation in which the diaphragm 90 attached to the voice coil 80 simultaneously moves up or down, thereby outputting sound in an audible frequency band that can be heard by a person.

In other words, when the voice coil 80 rises, the sound pressure generated in this way also rises, and the diaphragm 90 interlocked with the voice coil 80 also rises to generate a "+" sound pressure, and when the voice coil 80 falls, the vibration plate interlocked thereto. (90) is also lowered, the negative pressure will be generated.

Here, in the magnetic shield of the present invention, as the magnet 40 is formed in the magnetic shape formed inside the speaker, the magnetic force generated from the magnet 40 is not leaked to the outside as compared to the conventional external magnetic structure. 80).

In addition, by forming the magnet 40 in a magnetic shape, the air pressure inside the speaker is dropped, so that the sound pressure level is increased. For example, when the sound pressure level is 10 [dB] in the conventional external speaker, the magnetic shield speaker of the present invention is represented by a sound pressure level of about 12 [dB].

In the above-described embodiment of the present invention, a circular cone-shaped speaker has been described as an example, but it will be apparent to those skilled in the art that the present invention can be applied to an elliptical cone-shaped speaker as well as to a car speaker or a road speaker.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

As described above, by incorporating the magnet inside the speaker, it is possible to prevent leakage of magnetic force and increase the sound pressure level by reducing the air pressure inside the speaker.

Claims (3)

In the magnetic speaker that is coupled to the outside of the frame formed by the magnet is inserted and fixed between the yoke and the plate, Magnetically shielded speaker characterized in that the width of the external magnetic portion is reduced by the plate 50, the magnet 40 is built in the space (110) of the frame (30). The method of claim 1, Magnetically shielded speaker characterized in that the damper support gasket (60) is reinforced in the space (110) of the frame (30). The method of claim 1, The speaker is magnetic shield characterized in that the elliptical cone-shaped speaker.