KR100989809B1 - Magnetic circuit having single magnets, sound wave actuator using the same - Google Patents

Abstract

PURPOSE: A magnetic circuit using a single magnet and a sound wave actuator using the same are provided to maximize the magnetic force generated within the magnetic gap between a top ring and a middle ring by forming a space between a magnet and an external ring. CONSTITUTION: A single magnet(20) is installed on a protrusion of the center of a round lower plate(10). A middle ring(30) is combined to the top of the magnet. An external ring(40) is attached along the outside of the lower plate. A top ring(50) is attached on the outer ring. The external ring is combined between the bottom plate and the top ring.

Description

Magnetic Circuit Having Single Magnets, Sound Wave Actuator Using the Same}

The present invention relates to a magnetic circuit using a single magnet and a sound wave actuator using the same. More preferably, the magnetic circuit unit is provided using a single magnet, and a magnet is provided between the magnet mounted on the lower plate and the outer ring. By preventing the magnetization is generated to maximize the magnetic force generated in the magnetic gap between the upper ring and the middle ring.

In general, sound regenerators are used for horn speakers, hi-fi audio systems such as component systems, system speakers consisting of woofers, midrange and tweeters covering a certain frequency band, and general speakers covering all frequency bands in one unit. And a microspeaker having an ultra-lightweight and ultra-slim structure for use in small electronic devices such as a micro camcorder or a walkman, a receiver used for a mobile communication terminal, an earphone having a structure in which a part is inserted into an ear, and a frequency of a specific band Only classified as buzzers to play.

Conventional speakers have a single magnet installed outside or inside the yoke, and a bobbin in which a voice coil is wound in a magnetic gap of a magnetic circuit in which a top plate is installed above the magnet. In addition, the upper part of the bobbin is respectively fixed to the upper and lower parts of the frame and the diaphragm and damper, the center of which is perforated in a circular shape, and the center cap (in other words, the dust cap) for blocking the bobbin hole at the center of the diaphragm is coupled. Has a structure.

The loudspeaker includes a diaphragm and a repulsive force generated by reactions between the alternating magnetic flux generated in the fixed magnetic circuit and the alternating rotational magnetic flux generated in the up-down-flowable voice coil. The voice coil vibrates up and down to generate a sound corresponding to the driving signal.

In the magnetic circuit in which a magnetic gap is formed between the center pole of the yoke and the top plate by using such a conventional single magnet, the opposing yoke surface forming the magnetic gap is relatively limited in size and small, and is uniform in the opposing yoke surface. Magnetic flux density is not formed.

That is, the opposite yoke face portion relatively close to the magnet has a higher magnetic flux density than the opposite yoke face portion relatively far from the magnet. As a result, the suction and repulsive force on the voice coil inserted into the magnetic gap between the opposite yoke faces This results in a non-uniformity depending on the position of the coil.

This phenomenon affects the vertical vibration of the bobbin wound around the voice coil when the original sound is reproduced, and thus, distortion occurs during the original sound reproduction of the diaphragm.

In addition, the technique is suitable for the user to feel the vibration in three dimensions in response to the audio signal, but lacking the magnetic force to drive the diaphragm for aerobic exercise.

Thus, as shown in the prior art as shown in Figures 1a and 1b, "magnetic circuit using a dual magnet and a speaker and a vibration generating device using the same" published in Patent No. 10-651766.

The disclosed technique includes a second magnet 11a and a magnet 11b in the first magnetic circuit M1 and the second magnetic circuit M2 and a loop type second including a magnetic magnet 11b. The magnetic-pole circuit M2 prevents magnetic flux leakage of the magnetic gap G portion and faces the yoke opposite surface that forms the magnetic gap G of the loop-type first magnetic circuit M1 including the external magnet 11a. The dual magnetic structure has high efficiency and low distortion frequency characteristics by improving the linear response of the vibration system by realizing the uniform distribution of magnetic lines in the dual magnetic structure.The sound generator of the dual magnet structure has the same vibration frequency and acceleration as the speaker. It can control very precisely and has the advantage of exerting more than 2Gm in amplitude and more than 3G in acceleration, but the manufacturing process is complicated, and the magnet that is composed of 38mm diameter is required. Had its drawbacks.

In addition, miniaturization is necessary to extend the application range, but since there are two or more magnets, it is difficult to miniaturize the volume.

The present invention has been made to solve the problems of the prior art as described above, and its object is to simplify the structure of the magnetic circuit using a single magnet to simplify the manufacturing process to reduce the manufacturing cost and increase the competitiveness.

In addition, the lower plate, the middle ring, the outer ring, and the upper ring constituting the magnetic circuit part are magnetized by the magnet, and aim to achieve a gentle curve by chamfering the angular portions to reduce magnetic loss.

In addition, the middle ring of the magnetic circuit part is magnetized by the magnet, which is angled at the corners to reduce the magnetic loss and maximizes the magnetic force to the outer side, and has an outer cylindrical shape.

In addition, the present invention aims to maximize the magnetic force generated in the magnetic gap between the upper and middle rings by forming an empty space between the magnet and the outer ring mounted on the lower plate to prevent magnetization from the magnet. do.

Referring to the configuration of the present invention having the above object with reference to the accompanying drawings as follows.

2 and 3, the magnet 20 is mounted in the center of the lower plate 10 made of a circular shape so as to generate a magnetic force, and the magnet 20 above the middle ring by the magnetic force The upper circuit 50 is formed on the upper end of the outer ring 40 formed along the outer side of the lower plate 10 so that the 30 is coupled to the magnetic circuit part 60.

At this time, the lower plate 10, the middle ring 30, the outer ring 40, the upper ring 50 is a single (one) magnet 20 by using a magnetic material such as iron (Fe) all to form a magnetic force It is coupled to each other by the magnetic force generated by).

A magnetic gap 70 is formed between the upper ring 50 and the intermediate ring 30 to generate a magnetic field. An actuator is inserted into the magnetic gap 70 and the bobbin 80 wound with the voice coil 90 to which an AC power is applied is inserted to interact with the magnetic force in the magnetic gap 70 to move the vibration upward. Configure

The present invention configured as described above was able to improve the efficiency of the work by simplifying the manufacturing process as well as the manufacturing cost by reducing the number of parts while maintaining the advantages of the conventional acoustic wave generator composed of dual magnets.

In addition, the present invention uses a single magnet (one magnet) to combine the lower plate, the middle ring, the outer ring, the upper ring to form a magnetic circuit portion, by forming an empty space between the magnet and the outer ring to prevent magnetization from the magnet Because of the cycle, the magnetic force generated in the magnetic gap between the upper and middle rings can be maximized.

1A and 1B are front and plan cross-sectional views of a magnetic circuit having dual magnets.
2 is an exploded perspective view of an actuator using a single magnet of the present invention,
3 is a cross-sectional view of an actuator using a single magnet of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment according to the present invention.

Figure 2 is an exploded perspective view of the actuator using a single magnet of the present invention, Figure 3 is a cross-sectional view of the actuator using a single magnet of the present invention.

Actuator 100 using a single magnet according to an embodiment of the present invention, the actuator 100 using a single (one) magnet 20, without using a dual (double) magnet, as known in the prior art In order to simplify the manufacturing process of the) as well as to miniaturize.

In the present invention, as shown in Fig. 2, a single (one) magnet 20 made of neodymium is attached to a protruding portion protruding toward the center of the circular lower plate 10. At this time, since the lower plate 10 is formed in a circular shape, it is preferable that the magnet 20 is also formed in a circular shape and mounted on the central protrusion of the lower plate 10. At this time, the lower plate 10 and the magnet 20 are attached and fixed by a magnetic force. However, the present invention is not limited to the circular shape as in the above embodiment, and can be manufactured by changing the design in various forms according to the shape and shape of the product.

And the middle ring 30 is coupled to the magnet 20 by the magnetic force generated in the magnet 20, the outer ring 40 is attached along the outer side of the lower plate 10, and the outer ring 40 The upper ring 50 is attached to the upper to form a magnetic circuit portion 60 to generate a magnetic force.

In this case, the outer ring 40 is inserted into and fixed to the upper step of the lower plate 10 and the lower step of the upper ring 50 so as not to be separated by being coupled between the lower plate 10 and the upper ring 50.

That is, the lower plate 10, the middle ring 30, the outer ring 40, and the upper ring 50 constituting the magnetic circuit part 60 are generated in the magnet 20 because magnetic materials such as iron (Fe) are used. Are coupled to each other by magnetic force.

In addition, a magnetic gap 70 is formed between the intermediate ring 30 and the upper ring 50 so that the bobbin 80 wound around the voice coil 90 is inserted into the outer circumference thereof so that it can move up and down. In addition, the voice coil 90 is connected to a power line (not shown) for applying AC power.

And the bobbin 80 is moved by the Fleming's left hand law while the AC power of the voice coil 90 wound around the bobbin 80 interacts with the magnetic force generated inside the magnetic gap 70.

In addition, the lower plate 10, the outer ring 40, the upper ring 50, which is magnetized by the magnetic force generated in the magnet 20, chamfered corners to reduce magnetic losses (11, 41) (51), the middle ring 30 is also magnetized by the magnet (20), the angle 31 to the corner in order to reduce the magnetic loss and maximize the magnetic force to the outside, and the outer side to be inclined cylindrical (32) Configured.

In addition, since the empty space 21 is formed between the magnet 20 and the outer ring 40 to prevent magnetization from the magnet 20, the magnetic gap between the upper ring 50 and the middle ring 30 ( 70) maximized the magnetic force generated.

Hereinafter, an embodiment of the operating state of the actuator of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, as shown in Figs. 2 and 3, by using a single magnet 20 formed of neodymium, the size of the magnet 20 is increased, and in the divided piece neodymium magnet in which the material is directly magnetized The lower plate 10, the middle ring 30, the outer ring 40, and the upper ring 50 are combined by the generated magnetic field to form the magnetic circuit unit 60 to generate the magnetic field.

Therefore, the empty space 21 formed between the magnet 20 mounted above the central protrusion of the lower plate 10 and the outer ring 40 mounted along the outer side of the lower plate 10 is used to prevent magnetization generated from the magnet 20. Since it prevents the magnetic force between the upper ring 50 and the middle ring 30 to maximize the magnetic flux density of the magnetic gap 70 formed between the intermediate ring 30 and the upper ring 50, the bobbin 80 Vibration system is not limited by increasing the action force on the voice coil (90) wound around the outer periphery of (), and sufficiently increases the winding amount of the voice coil (90) wound on the bobbin 80 to increase the allowable input Improvement was made to allow sufficient vibration in accordance with the input signal.

The operation of the actuator 100 of the present invention is the intermediate ring 30, the outer ring 40, the upper ring 50 made of iron by a magnetic field generated from the magnet 20 attached to the lower plate 10 is Since the magnetic circuit unit 60 is coupled to each other, a magnetic field is formed in the magnetic gap 70 formed between the intermediate ring 30 and the upper ring 50, and inserted into the magnetic gap 70. When an alternating current is applied to the voice coil 90 wound around the outer periphery of the bobbin 80, the bobbin 80 moves in and out of the magnetic gap 70.

In more detail, when an AC signal is applied in the current direction (right) to the voice coil 90 wound around the outer periphery of the bobbin 80 inserted into the magnetic gap 70, the magnetic gap 70 is formed inside the magnetic gap. In accordance with Fleming's left hand law, the bobbin 80 moves upwards in the magnetic gap 70, and the AC signal applied to the voice coil 90 moves in the opposite direction to the current direction (left) while interacting with the magnetic field. When applied, the bobbin 80 moves downwards within the magnetic gap 70. Therefore, the bobbin 80 transmits vibration upward while moving up and down inside the magnetic gap 70 by Fleming's left hand law.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

In addition, the protection scope of the present invention should be interpreted by the claims below, and all technical thoughts within the equivalent scope should be construed as being included in the scope of the present invention.

The present invention can be made compact by simplifying the structure of the exercise device to vertically move up and down using a single magnet, it is possible to produce products such as generators and drive amplifiers using the exercise device as well.

10. Bottom 20. Magnet
21. Empty space 30. Middle ring
31.each 32.cylindrical
40. Outer Ring 50. Upper Ring
11, 41, 51. Curve 60. Magnetic circuit section
70. Magnetic gap 80. Bobbin
90. Voice coil 100. Actuator

Claims (5)

delete delete delete A magnetic ring is formed by an intermediate ring coupled to a magnet mounted on a central protrusion of a lower plate made of a circular shape to generate a magnetic field, an outer ring formed along an outer edge of the lower plate, and an upper ring mounted on an upper portion of the outer ring. Circuitry,
A magnetic gap in which a magnetic field is formed between the upper ring and the outer ring;
The actuator is inserted into the magnetic gap to form an actuator including a bobbin wound with a voice coil to which an AC power is applied to oscillate up and down while interacting with a magnetic field.
An empty space is formed between the magnet and the outer ring to prevent magnetization from the magnet, and the lower plate, the outer ring, and the upper ring of the magnetic circuit part are formed in a gentle curve by chamfering corners to reduce magnetic loss. Ring is a sonic actuator using a single magnet, characterized in that the edge is formed in an angle and the outer shape is cylindrical in order to reduce the magnet loss and maximize the magnetic force to the outside. The method of claim 4, wherein
The lower plate, the middle ring, the outer ring, the upper ring is a sound wave actuator using a single magnet, characterized in that consisting of a magnetic material is formed.

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