KR101972002B1 - Vibrational transducer for display panel - Google Patents

Abstract

The present invention relates to a vibrational transducer which transduces electric energy into vibrational energy. Specifically, the present invention relates to a slim-typed vibrational transducer for a display panel which transfers the vibrational energy to the display panel such as a mobile communication terminal and the like to generate a haptic function or a sound signal. To minimize a thickness, the slim-typed vibrational transducer for a display panel comprises a frame which is formed to couple a metal frame formed of metal and an injection frame formed of plastic up and down.

Description

Slim type vibration transducer for display panel {VIBRATIONAL TRANSDUCER FOR DISPLAY PANEL}

The present invention relates to a vibration converter for converting electrical energy into vibration energy, and more particularly, to a slim vibration converter for a display panel to transmit vibration energy to the display panel to generate a haptic function or an acoustic signal.

Recently, various display devices such as mobile phones, tablets, laptops, monitors, and TVs generate vibrations or sound signals using display panels.

The slim vibration converter for the display panel converts electrical energy into vibration energy and transmits the electrical energy to the display panel of the display device. As shown in FIG. 9, the frame 10 which forms an exterior is installed inside the frame. A yoke assembly 20 constituting a magnetic circuit, a bobbin coil 30 installed to be positioned in an air gap formed in the yoke assembly, a first damper 40 and a second damper attached to the bobbin coil and vibrating up and down ( 50) and a vibration transmitting body 60 attached to the upper surface of the second damper 50 to protrude upward.

Here, the first damper 40 is fixed to the outer periphery of the frame 10 and the bobbin coil is fixed to the bottom surface and vibrates up and down with the bobbin coil 30. The second damper 50 is fixed to the upper surface of the first damper 40 and the upper end of the frame 10 and vibrates up and down together with the first damper. And the upper surface of the second damper 50 is installed so that the vibration carrier 60 is attached to the display panel to transmit the vibration of the second damper 40 to the outside. At this time, the vibration carrier 60 is made of a plate shape, but a plurality of through holes are formed so that the sound does not occur even if the vibration up and down.

Thus, the vibration carrier 60 transmits vibration to the display panel instead of generating sound by itself, thereby generating a predetermined sound signal in the display panel.

On the other hand, since the vibration transducer is installed in a narrow space between the back of the display panel and the display device, it is necessary to miniaturize and slim. However, the slim vibration converter for a display panel according to the prior art has a difficulty in being substantially applied to a display device because the thickness is too thick.

Republic of Korea Patent No. 10-1468631 (Notice date: 2014.12.05)

The present invention is to solve the problems of the prior art, the main object of the present invention, to provide a slim vibration converter for a display panel that can be applied to a thin display device by minimizing the thickness of the frame, the vibration carrier and the yoke assembly. It is.

Another object of the present invention, by combining the metal frame made of metal and the injection frame made of plastic up and down to provide a slim vibration transducer for a display panel that can improve the sound quality while reducing the thickness of the frame while preventing bending or deformation. will be.

In addition, another object of the present invention, by insert molding the vibration carrier on the upper surface of the damper to be integrally fixed to reduce the thickness of the vibration carrier while increasing the strength and at the same time firmly coupled between the vibration carrier and the damper It is to provide a slim vibration converter for.

As a means for achieving the object of the present invention, the slim type vibration converter for a display panel according to the present invention,

A frame forming an exterior, a yoke assembly installed inside the frame to constitute a magnetic circuit, a plurality of bobbin coils located in a gap formed in the yoke assembly, and a damper to which the bobbin coil is attached and fixed to the frame. And a vibration transmitter attached to an upper surface of the damper and transmitting a vibration of the damper to the display panel.

The damper includes an outer circumferential ring fixed to the frame, an inner circumferential ring formed inside the outer circumferential ring and supporting an edge of the vibration transmitting body, a plurality of leg portions formed between the outer circumferential ring and the inner circumferential ring, and the inner circumference. A coil attachment ring formed inside the ring to which the upper surface of the bobbin coil is attached, a through portion formed between the outer circumference ring, the inner circumference ring, the coil attachment ring, and the leg portion, and formed on one side of the coil attachment ring to the bobbin A solder pad for soldering and fixing a lead wire of a coil, and a connection terminal protruding on an outer side of the outer ring to receive an external electrical signal;

The frame is made by combining a metal frame made of metal and an injection frame made of plastic, wherein the metal frame has a seating hole formed to accommodate the yoke assembly in the center, and has a predetermined depth outside the seating hole. And a plurality of through holes formed to penetrate the bottom of the seating groove so as to prevent the damper from vibrating up and down, and to discharge heat generated when the bobbin coil vibrates to the outside. The injection frame has an opening formed through the yoke assembly in the center, a seating end formed around the opening to support the outer circumferential ring of the damper, and a plurality of ends formed at both ends of the injection frame to support the connection terminal of the damper. It consists of a terminal groove of the injection frame is the outer ring and the connecting terminal of the damper Wrapping is characterized in that the metal frame is electrically separated to prevent the occurrence of a short.

In the present invention, a cutout groove is formed in the center of the damper to separate the outer circumference ring, the inner circumference ring, and the coil attachment ring into two independent parts.

The yoke assembly includes a yoke, a magnet and an upper plate, and the bobbin coil includes a bobbin and a voice coil wound around an outer circumferential surface of the bobbin, and the lead wire of the voice coil is soldered to the solder pad of the damper. .

The vibration carrier is a flat plate protruding to a predetermined height on the upper surface of the damper. The vibration carrier is smaller than the damper and exposed to the outside when the vibration carrier is attached to the upper surface of the damper.

The vibration carrier is inserted and fixed to the damper to be integrally fixed, and the inner circumferential ring and the coil attachment ring of the damper are embedded in the vibration carrier, and the solder pad formed on the coil attachment ring is exposed to the outside of the vibration carrier. Form a recess groove as much as possible.

The vibration carrier consists of an injection vibration carrier insert molded into the inner circumferential ring of the damper and a coil attachment ring, and a metal plate made of a nonmagnetic metal insert molded into the injection vibration carrier.

The metal frame is formed with a circular protrusion protruding upward from a circumference of a mounting hole formed therein, and a circular groove is formed with an evacuation groove through which the lead wire of the voice coil penetrates.

The yoke of the yoke assembly is integrally formed inside the metal frame.

The upper surface of the vibration carrier is further provided with a double-sided adhesive tape for attaching the vibration carrier to the display panel.

The damper may include an outer circumferential ring, an inner plate formed inside the outer circumferential ring and attached to the upper and lower surfaces of the vibration transmitting body and the bobbin coil, and a plurality of leg portions formed between the outer circumferential ring and the inner plate. A through part is formed between the ring and the leg part, a solder pad for soldering the lead wire of the voice coil is formed on the inner plate, and a connection terminal for receiving an external electrical signal is protruded on the outer side of the outer ring. In the center, a notch groove is formed to separate the outer ring and the inner plate into two independent parts.

According to the present invention, by combining the frame of the vibration transducer with a metal frame made of a metal material and the injection frame made of plastic up and down, while reducing the thickness of the frame to prevent bending or deformation to reduce the overall thickness of the vibration transducer Has an effect of facilitating application to a display device.

In addition, the present invention is applied to a thin display device by reducing the thickness of the entire vibration transducer by insert molding the vibration carrier to the damper of the vibration converter, while reducing the thickness while increasing the strength of the vibration carrier and strengthening the coupling between the vibration carrier and the damper. There is an effect which makes it easy to do it.

In addition, the present invention has the effect of increasing the rigidity of the damper by simplifying the structure of the damper by integrally forming the inner surface to which the vibration carrier and the bobbin coil are attached up and down inside the outer peripheral ring of the damper.

1 is a perspective view showing a preferred embodiment of a slim type vibration converter for a display panel according to the present invention;
2 is a bottom view of the slim type vibration converter for the display panel shown in FIG.
3 is an exploded view of a slim type vibration converter for a display panel shown in FIG.
4 is a perspective view showing another embodiment of a metal frame according to the present invention;
5 is a plan view showing another embodiment of a damper according to the present invention;
6 is a perspective view showing another embodiment of the vibration carrier according to the present invention;
7 is a bottom view of a damper in which the vibration carrier is inserted and injected according to the present invention;
8 is a perspective view and a bottom perspective view showing another embodiment of a damper insert injection molded vibration transmission in accordance with the present invention,
9 is a cross-sectional view showing an example of a vibration converter for a display panel according to the prior art.

Advantages and features of the present invention, and a method for achieving the same will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. However, this embodiment is provided to explain in detail enough to easily implement the technical idea of the present invention to those skilled in the art. In addition, in describing the embodiments of the present invention, when it is determined that a detailed description of a related well-known configuration or function interferes with the understanding of the embodiments of the present invention, the detailed description thereof will be omitted.

Hereinafter, a slim vibration converter for a display panel according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a preferred embodiment of a slim vibration converter for a display panel according to the present invention, Figure 2 is a bottom view of the slim vibration converter for a display panel shown in Figure 1, Figure 3 is a display shown in Figure 1 An exploded perspective view of a slim panel vibration converter.

Referring to this, the slim vibration converter 1 for a display panel of the present invention includes a frame 10 having a substantially flat rectangular plate shape, a yoke assembly 20 accommodated inside the frame 10, and the yoke. One or more bobbin coils 30 installed to be located in the air gap of the assembly 20, a damper 40 attached to an upper end of the bobbin coils 30 and having an edge fixed to an upper surface of the frame 10, and And a vibration transmitting member 50 attached to the upper surface of the damper 40.

In the present invention, the at least one bobbin coil 30, the damper 40 and the vibration transmitting member 50 are combined with each other to form a vibrating module (5). The vibrating module 5 vibrates up and down by the interaction of the electric field generated from the bobbin coil 30 and the magnetic field generated from the yoke assembly 20. The vibration energy of the vibrating body module 5 is transmitted to the display panel through the vibrating carrier 50, and the display panel vibrates with the vibrating carrier 50 to generate an acoustic signal.

In particular, the slim type vibration converter 1 for the display panel of the present invention may reduce the thickness of the frame 10, the vibration carrier 50, and the yoke assembly 20 to the maximum in order to meet the slimming trend of the display device. It is.

To this end, the frame 10 is formed by combining the metal frame 10a made of metal and the injection frame 10b made of plastic up and down. In addition, the vibration carrier 50 is formed by combining the metal plate 50a made of a nonmagnetic metal and the injection vibration carrier 50b made of plastic up and down. In addition, the yoke of the yoke assembly 20 is integrally coupled to the metal frame 10a to reduce the thickness of the frame 10, the vibration carrier 50, and the yoke assembly 20, thereby reducing the thickness of the entire vibration converter 1. To minimize.

More specifically, as shown in FIG. 3, the frame 10 forms an appearance of the slim type vibration converter 1 for a display panel, and includes a metal frame 10a and an injection frame 10b. The metal frame 10a has a flat rectangular plate shape, and two seating holes 18 are formed in the inner side to accommodate the yoke assembly 20. In addition, a seating groove 11 is formed at a predetermined depth so that the dampers 40 oscillating up and down do not come into contact with the outside of the two seating holes 18. In addition, a plurality of through holes 14 are formed at a bottom of the seating groove 11 to discharge heat generated when the vibration carrier 50 vibrates up and down. In addition, the metal frame 10a is provided with a plurality of fastening holes 17. The fastening hole 17 allows a predetermined fastening means to pass through when the vibration converter 1 is fixed to the display device. For example, the pair of fastening holes 17 are formed at both sides of the frame 10, and the other pair of fastening holes 17 are formed at the left and right ends of the frame 10.

On the other hand, the use of the metal frame (10a) has the effect of reducing the thickness of the frame and to prevent bending and deformation, but when installing the damper 40 to which the + /-electric signal is applied to the metal frame (10a) There is a problem that a short occurs. In consideration of this point, the frame 10 is integrally formed with an injection frame 10b made of plastic on the upper surface of the metal frame 10a. The injection frame 10b is attached to the upper edge of the metal frame 10a to electrically insulate the damper 40 to prevent a short.

Preferably, as shown in Figure 3, the injection frame (10b) is made of a flat rectangular plate shape, the opening is formed in the center of the track shape. Preferably, the opening 19 has a size and shape corresponding to the mounting groove 11 formed in the metal frame 10a. A seating end 12 is formed around the opening 19 to support the outer circumferential ring 41 of the damper 40, and a connection terminal of the damper 40 is formed at an outer side of the opening 19. A plurality of terminal grooves 13 on which the 46 is seated is formed.

In addition, the yoke assembly 20 installed in the seating hole 18 of the metal frame 10a includes a yoke 21, a magnet 22, and an upper plate 23 installed on an upper surface of the magnet 22. do. The yoke 21 has a flat cylindrical shape and is inserted into and coupled to a seating hole 18 formed in the metal frame 10a.

As such, when the yoke 21 is inserted into each of the seating holes 18, the yoke 21 is exposed to the lower portion of the frame 10. Then, the magnet 22 and the upper plate 23 are sequentially installed in the mounting groove formed on the upper surface of the yoke 21. At this time, a circular protrusion 15 protrudes around the seating hole 18 of the metal frame 10a to support the yoke 21. In addition, the circular protrusion 15 is provided with an evacuation groove 15a so that the lead wire 31a of the voice coil 31 can pass therethrough.

Subsequently, as shown in FIG. 3, the bobbin coil 30 is installed to be located in the gap of the yoke assembly 20, and includes a cylindrical bobbin 32 and a voice coil 31 wound around its outer circumferential surface. Is done. The lead wire 31a of the voice coil 31 is connected to the solder pad 44 of the damper 40.

Subsequently, the damper 40 installed on the upper surface of the frame 10 is a leaf spring having elasticity. The vibration transmitting member 50 is attached to the upper surface and one or more bobbin coils 30 are attached to the lower surface. The damper 40 has a function of suppressing vibration of the vibration carrier 50 and may be made of an FPCB in which a metal plate or a circuit pattern having a predetermined elasticity is formed.

As shown in FIG. 3, the damper 40 is integrally formed with the outer circumferential ring 41 fixed to the seating end 12 of the injection frame 10b and the outer circumferential ring 41, and the vibration is performed. An inner circumferential ring 42 supporting the edge of the transfer member 50, and a plurality of leg portions 43 integrally formed between the outer circumferential ring 41 and the inner circumferential ring 42 and formed in a band shape to have a predetermined elastic force. Is made of.

In addition, a coil attachment ring 45 to which the bobbin coil 30 is attached is integrally formed inside the inner circumferential ring 42. The coil attachment ring 45 is formed of a circular ring to correspond to the shape of the bobbin coil 30. In addition, a plurality of connection terminals 46 protrude from the outer side of the outer ring 41 so as to receive an external electric signal. Preferably, the connection terminal 46 may be formed to protrude outward and bend outward. In addition, a through portion 47 is formed between the outer circumference ring 41, the inner circumference ring 42, the coil attachment ring 45, and the leg portion 43 to a predetermined size. In addition, the solder pad 44 protrudes from one side of the coil attaching ring 45 to solder and connect the lead wire 31a of the voice coil 31.

On the other hand, when the damper 40 is made of a metal plate, the damper 40 is formed with a notch groove 48. The notch groove 48 separates the damper 40 into two independent parts so as to transmit an applied +/- electric signal to the voice coil 31. That is, the notch groove 48 is formed to penetrate across the center portion of the damper 40, so that the outer circumferential ring 41, the inner circumferential ring 42 and the coil attachment ring 45 of the damper 40 It is possible to configure circuits corresponding to +/- electric signals by dividing into independent parts.

And both ends of the outer ring 41 is provided with a link that is connected to some of the cut-out groove 48 is not broken. The link is very convenient when producing or assembling the vibrator 1 because it maintains the connected state without completely removing the outer ring 41. In addition, after the vibration carrier 50 is attached to the damper 40, the link may be cut so that the two outer circumferential rings 41 may constitute an independent circuit.

4 illustrates another embodiment of the metal frame 10a according to the present invention. As shown, the metal frame 10 is formed integrally with the yoke 21 inside. That is, instead of forming one or more seating holes 18 in the metal frame 10a and installing the yoke 21 in the seating hole 18, the yoke (a) may be disposed at a position corresponding to the seating hole 18. 21) is formed integrally there is an effect that can simplify the structure and shorten the assembly process.

5 shows another embodiment of a damper 40 according to the present invention. Damper 40 according to the present embodiment, the outer ring 41 is fixed to the upper surface of the frame 10, the inner surface of the outer ring 41 and the vibration carrier 50 is attached to the upper surface An inner plate 145 to which the bobbin coil 30 is attached, and a plurality of leg portions 43 connecting the outer circumference ring 41 and the inner plate 145. That is, the damper 40 is the inner circumference ring 42 and the coil attachment ring 45 is integrally combined to form a plate. In this way, when the inner plate 145 is integrally formed inside the outer circumferential ring 41, the structure of the damper is simple and the strength is increased. In this case, a plurality of solder pads 144 are formed on the inner plate 145 to solder and connect the lead wires of the voice coil 31. In addition, in the center of the outer ring 41 and the inner plate 145, the notched groove 48 is formed so as to separate into two independent parts.

On the other hand, the vibration carrier 50 is attached to the upper surface of the damper 40 is made of a flat plate having a predetermined thickness. That is, the vibration transmitting member 50 is made of a hard material so as to be transmitted to the display panel without attenuating the vibration generated from the damper 40. For example, the vibration carrier 50 may be made of reinforced plastic, ceramic or aluminum. In addition, the vibration carrier 50 is made of a constant thickness so that vibrations of the vibration converter 1 and the display panel do not interfere with each other. For example, the vibration transmitting member 50 has a height of about 1mm ~ 10mm. For example, when the height of the vibration carrier 50 is 1 mm or less, the vibrations of the display panel and the vibration converter 1 may interfere with each other, and when the height of 10 mm or more, the thickness of the slim vibration converter 1 for the display panel becomes thick. there is a problem.

Preferably, the vibration transmitting member 50 has a size corresponding to the shape of the inner circumferential ring 42 of the damper 40. Therefore, when the vibration transmitting member 50 is installed on the upper surface of the damper 40, as shown in FIG. 1, a part of the damper 40 is exposed. That is, when the vibration transmitting member 50 is attached to the inner circumferential ring 42 of the damper 40, the outer circumferential ring 41 and the leg 43 and the leg 43 and the outer circumferential ring 41 of the damper 40 ( The penetrating portion 47 formed between 41 is exposed to the outside. As such, since the penetrating portion 47 of the damper 40 is exposed, an acoustic signal (noise) does not occur even when the vibration carrier 50 vibrates up and down.

In addition, another embodiment of the vibration transmitting member 50 according to the present invention, as shown in Figure 6, by forming a predetermined depth concave portion 54 in the middle of the edge of the vibration transmitting member 50 to the damper 40 The through portion 47 of the can be exposed. That is, the penetration portion 47 of the damper 40 is sufficiently exposed to prevent unnecessary sound from being generated in the process of transmitting the vibration by the vibration carrier 50.

On the other hand, another embodiment of the vibration carrier 50 according to the present invention, as shown in Figure 7, the vibration carrier 50 is integrally attached or insert molded on the upper surface of the damper 40. As such, when inserting the vibration carrier 50 into the damper 40, the inner circumferential ring 42 and the coil attachment ring 45 of the damper 40 are embedded in the vibration carrier 50 and the damper 40. The outer ring 41 and the connection terminal 46 of the 40 are exposed to the outside. At this time, the lower surface of the vibration carrier 50 is formed with a recessed groove 59 so that the solder pad 44 formed in the coil attachment ring 45 is exposed to the outside to easily solder the lead wire 31a of the voice coil 31. Enable to connect

In addition, another embodiment of the vibration carrier 50 is made by combining the metal plate 50a made of nonmagnetic metal and the injection vibration carrier 50b made of plastic as shown in FIGS. 8A and 8B. The injection vibration carrier 50b is integrally attached to the inner circumferential ring 42 and the coil attachment ring 45 of the damper 40 or insert molded. In addition, the metal plate 50a is integrally attached to the inner side of the injection vibration carrier 50b and is insert injection molded. As such, by attaching or insert-molding the metal plate 50a made of a nonmagnetic metal to the injection vibration carrier 50b made of plastic, the stiffness is increased while reducing the thickness of the vibration carrier 50 to generate abnormal vibration or split vibration. You can prevent it. At this time, the injection vibration carrier 50b surrounds the edge of the metal plate 50a and fills the inner circumferential ring 42 and the coil attachment ring 45 of the damper 40 with the short between the voice coil 31. Prevent it from happening.

Hereinafter, the operation of the slim type vibration converter 1 for a display panel according to the present invention will be described.

First, the vibration converter 1 according to the present invention is fixed to the display device by passing the fastening bolt through the plurality of fastening holes 17 formed in the frame 10. And the upper surface of the vibration transmitting member 50 is installed in close contact with the rear of the display panel. At this time, a double-sided tape is attached to the upper surface of the vibration transmitting member 50 to be in close contact with the display panel.

Subsequently, when an external electric signal is applied to the voice coil 31 through the connection terminal 46 of the damper 40 installed in the frame 10, the electric force and the yoke assembly 20 formed on the voice coil 31 are applied. Magnetic force formed in the) and the bobbin coil 30 vibrates up and down.

When the bobbin coil 30 vibrates up and down, the vibration energy is transmitted to the vibration carrier 50 through the damper 40. The vibration carrier 50 transmits vibration energy to the display panel as it is. Then, the display panel vibrates with the vibration carrier 50 to generate a predetermined sound signal. At this time, since the periphery of the vibration carrier 50 is open, the vibration carrier 50 does not generate an acoustic signal even when the vibration carrier 50 vibrates up and down.

As described above, the slim type vibration converter 1 for the display panel of the present invention combines the metal frame 10a made of metal and the injection frame 10b made of plastic up and down or vibrates inside the damper 40. The vibration transducer is formed by insert molding the transfer body 50 integrally or by forming the vibration carrier 50 with the metal plate 50a and the injection vibration carrier 50b to reduce the thickness of the frame 10 and the vibration carrier 50 as much as possible. (1) By making the whole thickness thin, it can be installed in the narrow space between a display apparatus and a display panel.

In addition, in the present invention, the yoke 21 is integrally formed inside the metal frame 10a and the inner plate 145 is integrally formed inside the outer circumferential ring 41 of the damper 40 to simplify the structure. It is effective to simplify the assembly process.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

1: Slim type vibration converter for display panel 5: Vibration module
10: frame 10a: metal frame
10b: Injection frame 11: Settling groove
12: Seating terminal 13: Terminal groove
14: through hole 17: fastening hole
18: seating hole 20: yoke assembly
30: bobbin coil 31: voice coil
32: bobbin 40: damper
41: outer ring 42: inner ring
43: leg 44: solder pad
45: coil attachment ring 46: connection terminal
47: through part 50: vibration carrier
50a: metal plate 50b: injection vibration carrier
145: inner plate

Claims (10)

A frame forming an exterior, a yoke assembly installed inside the frame to constitute a magnetic circuit, a plurality of bobbin coils located in a gap formed in the yoke assembly, and a damper to which the bobbin coil is attached and fixed to the frame. And a vibration transmitter attached to an upper surface of the damper and transmitting a vibration of the damper to the display panel.
The damper includes an outer circumferential ring fixed to the frame, an inner circumferential ring formed inside the outer circumferential ring and supporting an edge of the vibration transmitting body, a plurality of leg portions formed between the outer circumferential ring and the inner circumferential ring, and the inner circumference. A coil attachment ring formed inside the ring to which the upper surface of the bobbin coil is attached, a through portion formed between the outer circumference ring, the inner circumference ring, the coil attachment ring, and the leg portion, and formed on one side of the coil attachment ring to the bobbin A solder pad for soldering and fixing a lead wire of a coil, and a connection terminal protruding on an outer side of the outer ring to receive an external electrical signal;
The frame is made by combining a metal frame made of metal and an injection frame made of plastic, wherein the metal frame has a seating hole formed to accommodate the yoke assembly in the center, and has a predetermined depth outside the seating hole. And a plurality of through holes formed to penetrate the bottom of the seating groove so as to prevent the damper from vibrating up and down, and to discharge heat generated when the bobbin coil vibrates to the outside. The injection frame has an opening formed through the yoke assembly in the center, a seating end formed around the opening to support the outer circumferential ring of the damper, and a plurality of ends formed at both ends of the injection frame to support the connection terminal of the damper. It consists of a terminal groove of the injection frame is the outer ring and the connecting terminal of the damper Slim vibration converter for display panel characterized in that the metal frame is electrically separated to prevent the occurrence of a short.
According to claim 1,
And a cutout groove for separating the outer circumference ring, the inner circumference ring and the coil attachment ring into two independent parts in the center of the damper.
According to claim 1,
The yoke assembly includes a yoke, a magnet and an upper plate, and the bobbin coil includes a bobbin and a voice coil wound around an outer circumferential surface of the bobbin, and the lead wire of the voice coil is connected to the solder pad of the damper by soldering. Slim type vibration converter for display panel, characterized in that.
According to claim 1,
The vibration carrier is a flat plate protruding to a predetermined height on the upper surface of the damper, and has a smaller size than the damper so that the penetration portion of the damper is exposed to the outside when the vibration carrier is attached to the upper surface of the damper. Slim vibration converter for display panel.
The method of claim 4, wherein
The vibration carrier is inserted and fixed to the damper to be integrally fixed, and the inner circumferential ring and the coil attachment ring of the damper are embedded in the vibration carrier, and the solder pad formed on the coil attachment ring is exposed to the outside of the vibration carrier. Slim type vibration converter for a display panel, characterized in that to form a recess groove as possible.
The method of claim 4, wherein
The vibration carrier is made of an injection vibration carrier insert-molded into the inner ring of the damper and the coil attachment ring, and a metal plate made of a metal plate made of a non-magnetic metal insert-molded inside the injection vibration carrier. converter.
According to claim 1,
The metal frame is a slim vibration converter for a display panel, characterized in that the circular protrusion is formed so as to protrude to the upper periphery around the mounting hole formed in the inner side, the avoidance groove through which the lead wire of the voice coil penetrates.
According to claim 1,
Slim vibration converter for a display panel, characterized in that the yoke of the yoke assembly is integrally formed inside the metal frame.
The method of claim 4, wherein
The upper surface of the vibration carrier is a slim vibration converter for a display panel, characterized in that further provided with a double-sided adhesive tape for attaching the vibration carrier to the display panel.
According to claim 1,
The damper may include an outer circumferential ring, an inner plate formed inside the outer circumferential ring and attached to the upper and lower surfaces of the vibration transmitting body and the bobbin coil, and a plurality of leg portions formed between the outer circumferential ring and the inner plate. A through part is formed between the ring and the leg part, a solder pad for soldering the lead wire of the voice coil is formed on the inner plate, and a connection terminal for receiving an external electrical signal is protruded on the outer side of the outer ring. In the center, a slim vibration converter for a display panel, characterized in that formed a notch groove for separating the outer ring and the inner circumference plate into two independent parts.

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