KR100669730B1 - Plasma display apparatus - Google Patents

Abstract

A plasma display device according to the present invention comprises: a plasma display panel on which an image is implemented; A chassis base disposed behind the plasma display panel; A circuit unit disposed at the rear of the chassis base to drive the plasma display panel; A plasma display panel and a chassis base are mutually coupled to each other. The plasma display panel is formed of a double-sided tape having a predetermined width and length, and includes a center including an edge region between the plasma display panel and the chassis base and an area where vibration noise is maximum in the circuit portion. Adhesive members disposed in regions, respectively, wherein the adhesive members disposed in the region where the vibration noise is maximum in the circuit part are wider than the adhesive members disposed in other regions.

Description

Plasma display apparatus

1 is an exploded perspective view showing a plasma display device according to an embodiment of the present invention.

FIG. 2 is a partially separated perspective view illustrating an example of the plasma display panel shown in FIG. 1. FIG.

FIG. 3 is a block diagram for explaining driving of a circuit unit shown in FIG. 1; FIG.

4 is a rear view illustrating a state in which adhesive members are disposed on a rear surface of the plasma display panel of FIG. 1.

<Brief description of the major symbols in the drawings>

110. Plasma display panel 140. Chassis base

150. Circuit part 170. Adhesive member

172a..wide adhesive member 180..heatproof member

The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved structure to reduce noise emitted to the front of the plasma display panel.

In general, a plasma display device is a flat panel display that displays an image using a gas discharge phenomenon, and has excellent display capability such as display capacity, brightness, contrast, afterimage, and viewing angle. It is in the spotlight as a next-generation flat panel display that can be replaced.

The plasma display apparatus includes a plasma display panel, a chassis base disposed substantially parallel to the plasma display panel, a circuit unit mounted behind the chassis base to drive the plasma display panel, and the plasma. And a case for accommodating a display panel, a chassis base, and a circuit portion.

In the plasma display device configured as described above, the circuit unit is provided with various elements to drive the plasma display panel. Among these elements, a plurality of switching elements, for example, a semiconductor element such as a field effect transistor (FET), is included. When the switching elements are in operation, vibration may be generated by itself, which causes noise.

In particular, when the vibration frequency of the vibration transmitted from the switching elements to the plasma display panel and the vibration frequency of the vibration generated when discharge is performed inside the plasma display panel for realizing an image, the amplitude is greatly increased. This can cause loud noises. Such noise is emitted toward the front of the plasma display panel, thereby degrading product reliability.

The present invention is to solve the above problems, by improving the structure of the adhesive member for coupling between the plasma display panel and the chassis base, to provide a plasma display device that can reduce the noise emitted to the front of the plasma display panel The purpose is.

Plasma display device according to the present invention for achieving the above object,

A plasma display panel on which an image is implemented;

A chassis base disposed behind the plasma display panel;

A circuit unit disposed behind the chassis base to drive the plasma display panel;

The plasma display panel and the chassis base are coupled to each other, and each side is formed of a double-sided tape having a predetermined width and length. Adhesive members disposed in each of the central regions including;
In the circuit portion, the adhesive member disposed in the region having the greatest vibration noise is wider than the adhesive member disposed in the other region.

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

1 is an exploded perspective view of a plasma display device according to an exemplary embodiment of the present invention, and FIG. 2 is a partially separated perspective view of an example of the plasma display panel shown in FIG. 1. 3 is a partial cross-sectional view taken along the line III-III of FIG. 1.

Referring to FIG. 1, the plasma display apparatus 100 according to an exemplary embodiment includes a plasma display panel 110 in which an image is implemented.

Any one of various plasma display panels may be employed as the plasma display panel 110. As an example, an AC plasma display panel having a surface discharge type 3-electrode structure as shown in FIG. 2 is employed. Can be.

The plasma display panel 110 illustrated in FIG. 2 includes a front panel 120 and a rear panel 130 that is coupled to face the front panel 120.

The front panel 120 includes a front substrate 121 disposed in front and a storage electrode pair 122 formed on a rear surface of the front substrate 121 and formed of a pair of an X electrode 123 and a Y electrode 124. ), A front dielectric layer 125 formed to cover the storage electrode pairs 122, and a passivation layer 126 formed on a rear surface of the front dielectric layer 125. The X electrode 123 and the Y electrode 124 constituting the sustain electrode pair 122 serve as a common electrode and a scan electrode, and are spaced apart from each other by a discharge gap. The X electrode 123 includes an X transparent electrode 123a and an X bus electrode 123b formed to be connected thereto. Similarly, the Y electrode 124 is also formed to be connected to the Y transparent electrode 124a. The Y bus electrode 124b is provided.

The rear panel 130 is formed on the rear substrate 131 disposed at the rear side, and the address electrodes 132 formed on the front surface of the rear substrate 131 and extending in a direction crossing the storage electrode pairs 122. And a back dielectric layer 133 formed to cover the address electrodes 132, barrier ribs 134 formed on the back dielectric layer 133 to define discharge spaces 135, and the discharge space 135. Phosphor layer 136 disposed in the field and the discharge gas filled in the discharge space (135). The partition walls 134 extend in parallel with each other with at least one address electrode 132 interposed therebetween, so that the regions where the storage electrode pairs 122 and the address electrodes 132 intersect are respectively discharge spaces 135. It is formed to correspond to.

The chassis base 140 is disposed behind the plasma display panel 110 having the above configuration. The chassis base 140 is formed of a material such as aluminum to support the plasma display panel 110 and receive heat generated from the plasma display panel 110 to release the heat to the outside.

The chassis base 140 may have a structure in which an edge of the chassis base 140 is bent backward, so that bending or bending deformation may be prevented, and a plurality of reinforcing members are disposed at the rear of the chassis base 140. 141 may be installed.

In addition, a circuit unit 150 is installed at the rear of the chassis base 140. The circuit unit 150 includes a plurality of elements, and among these elements, a switching element such as a semiconductor element such as a FET is also included. It is.

The electrical signal from the circuit unit 150 is transmitted to the plasma display panel 110 by a signal transmission member, and the signal transmission member includes at least one element 162, for example, a drive, in the tape-shaped wiring unit 161. TCP 160 or the like in which an IC is mounted and packaged may be employed.

As shown in FIG. 3, the circuit unit 150 driving the plasma display panel 110 includes an image processor 151, a logic controller 152, an address driver 153, an X driver 154, and a Y driver ( 155, and a power supply unit 156.

The image processor 151 converts an external analog image signal into a digital signal to generate internal image signals, for example, 8-bit red, green and blue image data, clock signals, and vertical and horizontal synchronization signals. The logic controller 152 generates driving control signals S _A , S _Y , and S _X according to an internal image signal from the image processor 151. The address driver 153 processes the address signal S _A among the driving control signals S _A , S _Y , and S _X from the logic controller 152 to generate a display data signal, and generates the generated display data. The signal is applied to the address electrodes 132. The X driver 154 processes the X driving control signal S _X among the driving control signals S _A , S _Y , and S _X from the logic controller 152 and applies the X driving control signal S _X to the X electrodes 123. The Y driver 155 processes the Y driving control signal S _Y among the driving control signals S _A , S _Y , and S _X from the logic controller 152 and applies the Y driving control signal S _Y to the Y electrodes 124.

In addition, the power supply unit 156 is required for the operation voltage required by the image processor 151 and the logic controller 152, and the address driver 153, the X driver 154, and the Y driver 155. Generate and supply an operating voltage.

The circuit unit 150 is accommodated by a case provided with a front cover and a back cover, which are not shown together with the plasma display panel 110 and the chassis base 140, thereby forming a plasma display device.

Meanwhile, the plasma display panel 110 and the chassis base 140 are coupled to each other by a plurality of adhesive members 170 according to an aspect of the present invention. Shapes and materials of the adhesive members 170 may be variously formed. For example, as illustrated in FIGS. 1 and 4, the adhesive members 170 may have predetermined widths and lengths, and are spaced apart from each other. The row may be disposed between the plasma display panel 110 and the chassis base 140. The adhesive members 170 may be formed of a double-sided tape having adhesiveness on both sides such that one side thereof may be adhered to the plasma display panel 110 and the other side thereof may be adhered to the chassis base 140.

In more detail, the adhesive members 170 are disposed in the edge region and the central region between the plasma display panel 110 and the chassis base 140, respectively. In this case, the adhesive members 171 disposed in the edge region are elongated in the horizontal direction on the upper side and the lower side of the plasma display panel 110, respectively, and in the vertical direction on the left side and the right side of the plasma display panel 110. Each extends long. In addition, the adhesive members 172 disposed in the central region extend in the longitudinal direction, respectively, and are spaced apart at predetermined intervals.

Among the adhesive members 172 disposed in the central region as described above, according to one feature of the present invention, at least one adhesive member 172a is disposed in the edge region with the other adhesive member 172b. The width is relatively wider than). In addition, the relatively wide adhesive member 172a is disposed in the circuit unit 150 so as to correspond to the region where the vibration noise is maximum.

The region in which the vibration noise is the largest in the circuit unit 150 may correspond to a region in which the Y driver 155 for driving the Y electrodes 124 provided in the sustain electrode pairs 122 is disposed. This is because a plurality of switching elements such as FETs are included in the Y driving unit 155 to drive the Y electrodes 124 that perform a scanning action, because the switching elements have a characteristic of generating vibrations on their own. to be.

As described above, when the wide adhesive member 172a is disposed to correspond to the region where the vibration is maximum in the circuit unit 150, for example, the region of the Y driver 155, the vibration generated in the region of the Y driver 155 may be suppressed. The noise due to vibration can be reduced. In particular, the vibration frequency of the vibration generated from the region of the Y driver 155 may be different from the vibration frequency of the vibration generated when discharge is performed in the plasma display panel 110 to implement an image. Noise can be prevented from occurring. As a result, the noise emitted to the front of the plasma display panel 110 can be sufficiently reduced to ensure product reliability.

As described above, at least one of the adhesive members 172 disposed in the center region is formed of the wide adhesive member 172a, thereby coupling between the plasma display panel 110 and the chassis base 140. It may be stronger than this.

Meanwhile, the heat dissipation members 180 may be provided between the adhesive members 170 having the above structure. That is, the heat dissipation members 180 are interposed between the plasma display panel 110 and the chassis base 140 and are formed in a plate shape and disposed in the spaces between the adhesive members 170, respectively.

The heat dissipation member 180 is made of a material having excellent thermal conductivity, spreads heat generated when the plasma display panel 110 is driven in the planar direction of the plasma display panel 110, and transfers heat to the chassis base 140. To be released.

As described above, according to the present invention, in the adhesive members for coupling between the plasma display panel and the chassis base, the adhesive member is disposed to correspond to the region where the vibration noise of the circuit part is maximum, and the width of the adhesive member disposed therein is increased. By having a structure wider than the width of the adhesive member disposed in another area, vibration can be suppressed and noise emitted to the front of the plasma display panel can be reduced.

In addition, the coupling between the plasma display panel and the chassis base may be more robust. Therefore, the effect that product reliability can be improved can be acquired.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. I can understand. Accordingly, the true scope of protection of the invention should be defined only by the appended claims.

Claims (6)

A plasma display panel on which an image is implemented; A chassis base disposed behind the plasma display panel; A circuit unit disposed behind the chassis base to drive the plasma display panel; The plasma display panel and the chassis base are coupled to each other, and are formed of a double-sided tape having a predetermined width and length, respectively, and an edge region between the plasma display panel and the chassis base and an area where vibration noise is maximum in the circuit part. Adhesive members disposed in each of the central regions including; And the adhesive member disposed in the region having the highest vibration noise in the circuit portion is wider than the adhesive member disposed in the other region. delete The method of claim 1, The plasma display panel includes a front substrate, a rear dielectric layer formed on a rear surface of the front substrate, sustain electrode pairs each provided as a pair of X and Y electrodes embedded in the rear dielectric layer, and a rear surface of the front dielectric layer. A protective film, a back substrate facing the front substrate, a back dielectric layer formed on the front surface of the back substrate, address electrodes embedded in the back dielectric layer and formed to intersect the pair of storage electrodes, and formed on the back dielectric layer. And a partition wall defining discharge spaces, and a phosphor layer disposed in the discharge spaces. The method of claim 3, wherein And a region in which the vibration noise is maximum in the circuit unit corresponds to a region in which a Y driving unit for driving Y electrodes provided in the sustain electrode pairs is disposed. delete The method according to claim 1 or 3, And heat dissipation members disposed between the adhesive members and interposed between the plasma display panel and the chassis base.

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