KR101467321B1 - Microspeaker with terminal formed by lds process - Google Patents

Abstract

The present invention relates to a microspeaker and, more particularly, to a microspeaker with a terminal formed by using an LDS method. The microspeaker according to the present invention includes a frame, a yoke which is insert-molded in the frame, a magnetic circuit which includes a magnet and a top plate, a voice coil, a diaphragm, and a suspension. The present invention provides the microspeaker with the terminal formed by using the LDS method. Wherein, the microspeaker includes the terminal formed by plating after a conductive pattern is formed on the surface of the frame by using the LDS method.

Description

[0001] MICROSPEAKER WITH TERMINAL FORMED BY LDS PROCESS [0002]

The present invention relates to a micro speaker. And more particularly, to a micro speaker in which a terminal is formed using an LDS method.

FIG. 1 is an exploded perspective view of a conventional micro speaker, and FIG. 2 is a sectional view of a conventional micro speaker. The conventional micro speaker is provided with a yoke 21, an inner ring magnet 22, an outer ring magnet 23, an inner ring top plate 24 and an outer ring top plate 25 in a frame 10, The voice coil 30 is positioned in the air gap between the outer ring magnet 23 and the outer ring magnet 23 and vibrates up and down when power is applied to the voice coil 30. The voice coil 30 is mounted on the lower surface of the damper 50 and the side diaphragm 41 and the center diaphragm 42 are provided on the upper and lower surfaces of the suspension 50, Vibrates and generates sound. A protector (60) is coupled to protect parts located inside the speaker. The protector 60 includes a ring-shaped steel portion 61 having an opening 63 formed at its center so as to radiate sound, a steel portion 61 inserted therein and injection-molded, and the frame 10, the side diaphragm 41 And a ring-shaped injection part 62 which is laminated on the outer peripheral part of the suspension 50.

And a terminal 70 attached to a lower portion of the frame 10 to provide a connection point with an external terminal for applying power from the outside to the voice coil 30. The terminal 70 includes a frame 10, And is inserted into the frame 10 by insert injection.

There is a disadvantage that the terminal 70 may not be located at the correct position and defects may occur because the frame 10 and the terminal 70 are integrally formed by insert injection. Further, since the contact surface between the terminal 70 and the external terminal is located on the lower surface of the injection mold at the time of injection, a member for fixing is not required. However, since the surface connected to the suspension 50 is spaced apart from the lower surface, If it is not in the position, it is buried in the injection material and is not exposed to the outside, so that a defective product which can not be bonded can be produced, so it needs to be fixed at the correct position. Therefore, a separate support member for supporting the terminal 70 is required, the shape of the injection mold becomes complicated, and the support member must be removed after the injection molding. In addition, since the terminal 70 occupies a volume inside the frame 10, there is a disadvantage in space utilization in a structure in which space utilization is maximized like a micro speaker.

In order to solve such a problem, the applicant has applied for a micro speaker which forms a terminal on the outer surface of the frame by using the LDS method in Korean Patent Application No. 10-2013-0019962. At this time, there is a problem in that, when the terminal is formed by using the LDS method, plating for forming a terminal is formed on the yoke, the magnet or the top plate injected into the frame, resulting in defective product. When the yoke, magnet, and top plate are plated together, the surface becomes rough and the performance deteriorates, and corrosion problems occur.

 There is a need to solve the problem of forming LDS energizing patterns on components such as a yoke and a magnet injected into a frame when forming a terminal by using the LDS method.

The present invention provides a micro speaker capable of preventing occurrence of defects by plating a conductive material forming an LDS energizing pattern on a part such as a yoke or a magnet injected into a frame at the time of forming a terminal by using the LDS method The purpose.

The present invention relates to a micro speaker comprising a frame, a magnetic circuit including a yoke, a magnet and a top plate to be insert-injected into the frame, a voice coil, a diaphragm and a suspension, wherein an energizing pattern is formed on the surface of the frame using LDS technique And a terminal formed by plating. The terminal is formed by using the LDS method.

According to another embodiment of the present invention, a UV coating layer is formed on a remaining surface of a frame except a portion where a current-carrying pattern is formed using a yoke and an LDS method to prevent a plating layer by an LDS method from being formed. To provide a micro speaker.

According to another embodiment of the present invention, there is provided a micro speaker in which a terminal is formed using an LDS method, wherein the yoke is copper plated.

According to another embodiment of the present invention, there is provided a micro speaker in which a terminal is formed using an LDS method, wherein the magnet is copper plated.

According to another embodiment of the present invention, there is provided a micro speaker in which a terminal is formed using an LDS method, wherein the top plate is copper plated.

In another embodiment of the present invention, a protective layer for preventing the formation of the plating layer by the LDS method is formed by using a yoke, at least one of a frame, a magnet, and a top plate except a portion where a current- And the terminal is formed in one place by using the LDS method.

According to another embodiment of the present invention, there is provided a method of forming a terminal using an LDS method, wherein a protective layer is formed on at least one of a yoke, a magnet and a top plate to prevent a plating layer from being formed by an LDS method, Provides a micro speaker.

The present invention also relates to a method of manufacturing a semiconductor device, comprising the steps of copper plating at least one of a yoke, a magnet and a top plate, injection molding a frame using LCP by inserting a yoke, a magnet and a top plate, Forming an insert-injected part in a frame and a frame, forming a current-carrying pattern in the frame with a laser, and plating the conductive material on the current-carrying pattern formed by the laser to form a terminal A method of forming a terminal using an LDS method on a micro speaker is provided.

The present invention also relates to a method of manufacturing a light emitting device, comprising the steps of: injecting a yoke, a magnet, and a top plate to form a frame using an LCP; inserting a yoke, a magnet and a top plate to form a UV coating layer on the injection- And forming a terminal by plating a conductive material on a current-carrying pattern formed by the laser. The present invention also provides a method of forming a terminal using an LDS method on a micro speaker.

The micro speaker having the terminal formed using the LDS method provided by the present invention can prevent plating of conductive material on the yoke, magnet, and top plate integrally formed when the frame is injected, so that defects such as shorts Can be prevented.

FIG. 1 is an exploded perspective view of a conventional micro speaker, FIG. 2 is a sectional view of a conventional micro speaker,
3 is a perspective view of a micro speaker in which a terminal is formed using an LDS method according to an embodiment of the present invention,
4 and 5 are views showing a part of a micro speaker in which a terminal is formed using an LDS method according to an embodiment of the present invention;
FIG. 6 is a photograph showing a micro-speaker in which a terminal is formed by using the LDS method according to the first embodiment of the present invention,
8 to 10 are photographs of a yoke, an outer ring magnet, and an outer ring top plate to which a structure for preventing plating defects of a micro speaker in which terminals are formed by using the LDS method according to the third embodiment of the present invention is applied.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the drawings.

3 is a perspective view of a micro speaker in which a terminal is formed using an LDS method according to an embodiment of the present invention.

A micro speaker according to an embodiment of the present invention includes a frame 100, a magnetic circuit provided in the frame 100, a vibrating body vibrating with a magnetic circuit and mutual electromagnetic force, A protector 600 for protecting the body, and a terminal 700 formed on the surface of the frame 100 by the LDS method.

The magnetic circuit includes a yoke 210 coupled to the frame 100, an inner ring magnet 220 attached to the yoke 210, and a ring-shaped outer ring magnet 220 attached to the yoke 210 at a predetermined interval from the inner ring magnet 220. An outer ring magnet 230 and an inner ring top plate 240 covering the inner ring magnet 220 to help form a magnetic flux and an outer ring top plate 250 covering the outer ring magnet 230 and helping to form a magnetic flux. The gap between the inner ring magnet 220 and the outer ring magnet 230 may be referred to as an air gap and the lower end of the voice coil of the vibrating body to be described later is positioned. When a current flows through the voice coil, The voice coil is vibrated up and down by mutual electromagnetic force.

The vibrating body includes a voice coil 300, a suspension 400, and diaphragms 510 and 520. The diaphragms 510 and 520 include a side diaphragm 510 and a center diaphragm 520. As described above, when an electric signal is applied to the voice coil 300, the suspension 400 vibrates due to mutual electromagnetic force with the magnetic circuit. The suspension 400 vibrates the voice coil 300 in only the upward and downward directions Thereby guiding the vibration of the voice coil 300. The voice coil 300 and the diaphragms 510 and 520 are attached to the suspension 400 and the diaphragms 510 and 520 are vibrated together by the vibration of the voice coil 300 to generate sound.

4 and 5 are views showing a part of a micro speaker in which a terminal is formed using an LDS method according to an embodiment of the present invention.

A micro speaker forming a terminal using the LDS method according to an embodiment of the present invention forms a terminal 700 on the frame 100 by using the LDS method. In order to form the terminal 700 using the LDS method, the frame 100 is injection-molded using LCP (Liquid Crystal Polymer). LCP exhibits high mechanical and thermal properties since it has a self-orientation (directionality) even after solidification and injection molding. LCP is highly advantageous in injection molding because it has a large self-reinforcing effect, has a very high strength and modulus of elasticity, and has a very good flow characteristic, because it performs the injection in the injection direction. Also, since the elastic modulus is very large, the vibration characteristics are excellent, and the crystalline structure is very fine, so that the heat distortion temperature, long term heat resistance and soldering resistance temperature are very high.

After the frame 100 is formed with the LCP material, a pattern is formed on the surface of the frame 100 by using a laser, and a conductive material such as nickel or copper is plated on the pattern to form the terminal 700. Since the pattern can be drawn at a desired position on the frame 100, the design of the terminal 700 is advantageous.

Since the terminal 700 is formed by plating a conductive material on the surface of the frame 100, there is a possibility that the terminal 700 may be scratched or peeled off and defective. In order to prevent this, the terminal 100 may be formed with a stepped portion (not shown) which is recessed more than the periphery thereof, and the terminal 700 may be formed by irradiating the stepped portion (not shown) with a laser and plating a conductive material. The possibility that the terminal 700 is scratched or peeled off is reduced because the terminal 700 is formed in the stepped portion (not shown).

The shape of the terminal 700 includes an upper surface 710 where the suspension is soldered with the land portion, a lower surface 720 contacting the external terminal, and a side surface 730 connecting the upper surface 710 and the lower surface 720.

The shape and structure of the remaining parts of the micro speaker forming the terminal using the LDS method according to an embodiment of the present invention are the same as those of the prior art except for the shape and manufacturing method of the frame 100 and the terminal 700. [ The magnetic circuit including the yoke 210 and the magnets 220 and 230 shows the inner and outer ring types in one embodiment of the present invention. However, the inner and outer ring types, the outer and inner ring types, and the bar type may be used , And a diaphragm (not shown) may be employed. The structure of the suspension (not shown) may be any structure such as an FPCB structure or a structure in which the lead wire of the voice coil is attached to the bottom surface of the FPCB as long as it can transmit an electrical signal to the voice coil.

The yoke 210, the outer ring magnet 230, and the outer ring top plate 250 are inserted and integrally joined at the time of injection molding of the frame 100. Therefore, when the terminal 100 is formed by injection molding with the LCP material and then the laser is irradiated to form the energizing pattern for forming the terminal 700 and the conductive material is plated to form the terminal 700, the yoke 210 and the outer ring magnet 230 and the outer ring top plate 250 are easily plated with a conductive material, and the conductive material is plated in an excessive amount to increase the surface roughness of such parts, thereby causing defects and increasing the possibility of corrosion. Therefore, it is necessary to treat the frame 100 so that the conductive material is not plated on portions other than the specific positions where the terminals 700 are to be formed.

FIG. 6 is a photograph illustrating a plating failure prevention structure of a micro speaker in which a terminal is formed using the LDS method according to the first embodiment of the present invention.

The micro speaker having the terminals formed using the LDS method according to the first embodiment of the present invention includes a frame 100 (see FIG. 3), a yoke 100 integrally formed by integrally molding the frame 100 with an LCP material, (See FIG. 3), the outer ring magnet 230 (see FIG. 3), and the outer ring top plate 250 (see FIG. At this time, the chrome plating process of the yoke, the outer ring magnet, and the outer ring top plate of a typical micro speaker is omitted. At this time, since the LDS method should be applied to the portion where the terminal 700 is to be formed on the surface of the frame 100, UV coating is not performed.

The terminal 700 (see FIG. 3) is formed by using the LDS method after the formation of the UV coating layer. The frame 100 formed of the LCP material is irradiated with a laser to form a plating of a conductive material, And patterning is performed to form a plating of a conductive material on the patterned portion. When the terminal 700 is formed by the LDS method, a plating layer of a conductive material by the LDS method is not formed at the portion where the UV coating layer is formed.

FIG. 7 is a photograph showing a structure for preventing a plating failure of a micro speaker in which a terminal is formed using the LDS method according to the second embodiment of the present invention. A protective layer is formed on the surface of the yoke 210 so as to prevent the plating layer formed by the LDS method from being formed when the terminal 700 is formed on the yoke 210 by the LDS method. The protective layer is made of a material that reacts well with the metal, and is coated on the yoke 210 mainly.

8 to 10 are photographs of a yoke, an outer ring magnet, and an outer ring top plate to which a structure for preventing plating defects of a micro speaker in which a terminal is formed by using the LDS method according to the third embodiment of the present invention is applied.

The micro speaker according to the third embodiment of the present invention is formed by copper plating the yoke 210 (see FIG. 3), the outer ring magnet 230 (see FIG. 3) and the outer ring top plate 250 And inserts the frame 100 (see FIG. 3) into an injection molding to be integrated with the frame 100. Thereafter, the frame 100 on which the yoke 210, the outer ring magnet 230 and the outer ring top plate 250 are inserted is coated with a material which is easily coated only on the metal, do. In this case, the protective layer is not formed on the injection mold forming the frame 100, and a protective layer is formed only on the yoke 210, the outer ring magnet 230, and the outer ring top plate 250. Thereafter, the frame 700 is formed by patterning the frame 100 injection-molded from the LCP material with a laser, and plating a conductive material on the pattern.

Claims (9)

A micro speaker comprising a frame, a magnetic circuit including a yoke, a magnet and a top plate to be insert-injected into the frame, a voice coil, a diaphragm and a suspension,
And a terminal formed on the surface of the frame by forming a current-carrying pattern using an LDS method and plating,
And a UV coating layer is formed on the remaining surface of the frame except for a portion where a current-carrying pattern is formed using a yoke and an LDS method to prevent a plating layer formed by the LDS method from being formed on the other surface of the frame. . delete The method according to claim 1,
Micro speaker with terminal formed using LDS method characterized by yoke being copper plated. The method according to claim 1,
The micro speaker is a terminal formed by using the LDS method which is characterized in that the magnet is copper plated. The method according to claim 1,
And the top plate is copper plated. A micro speaker comprising a frame, a magnetic circuit including a yoke, a magnet and a top plate to be insert-injected into the frame, a voice coil, a diaphragm and a suspension,
And a terminal formed on the surface of the frame by forming a current-carrying pattern using an LDS method and plating,
At least one of the yoke, the magnet and the top plate is copper plated,
Wherein a protective layer is formed on at least one of a yoke, a magnet and a top plate in order to prevent a plating layer from being formed by the LDS method in response to the copper plating. A micro speaker comprising a frame, a magnetic circuit including a yoke, a magnet and a top plate to be insert-injected into the frame, a voice coil, a diaphragm and a suspension,
And a terminal formed on the surface of the frame by forming a current-carrying pattern using an LDS method and plating,
At least one of the yoke, the magnet and the top plate is copper plated,
Wherein the protective layer is formed on at least one of a yoke, a magnet, and a top plate to prevent a plating layer from being formed by the LDS method. Copper plating at least one of a yoke, a magnet, and a top plate;
Inserting a yoke, a magnet, and a top plate, and injection molding the frame using the LCP;
Forming a protective layer on the yoke, magnet and top plate, which is insert-injected into the frame and the frame, which reacts only with the metal and prevents plating;
Forming an energizing pattern in the frame with a laser; And
And forming a terminal by plating a conductive material on a current-carrying pattern formed by the laser. Inserting a yoke, a magnet, and a top plate, and injection molding the frame using the LCP;
Inserting a yoke, a magnet, and a top plate to form a UV coating layer on the injection molded frame;
Forming an energizing pattern in the frame with a laser; And
And forming a terminal by plating a conductive material on a current-carrying pattern formed by the laser.

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