KR100669800B1 - Plasma display apparatus - Google Patents

Abstract

The present invention relates to a plasma display device. Plasma display device according to the invention,

A plasma display panel on which an image is implemented;

A chassis base disposed behind the plasma display panel to support the plasma display panel;

A circuit board installed at a rear surface of the chassis base to drive the plasma display panel;

A signal transmission medium surrounding an edge of the chassis base and connected to the plasma display panel from the circuit board, and having an IC installed thereon; And

And a reinforcing member fixed to the chassis base to surround and protect the signal transmission medium and having a first heat dissipation hole for radiating heat generated from the IC.

According to the present invention, there is an effect that can efficiently dissipate heat generated from the IC mounted on the signal transmission medium by the high voltage discharge voltage.

Description

Plasma display apparatus

1 is a schematic exploded perspective view of a conventional plasma display device.

FIG. 2 is a schematic cross-sectional view taken along the line II-II of FIG. 1.

3 is a schematic exploded perspective view of a plasma display device according to a preferred embodiment of the present invention.

4A is a schematic cross-sectional view taken along the line IV-IV of FIG. 3.

4B is a schematic cross-sectional view of a plasma display device according to another embodiment of the present invention.

5 is a schematic cross-sectional view of a plasma display device according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

110 ... plasma display panel 120 ... chassis base

131 ... signaling medium 141 ... circuit board

150 ... reinforcement 160 ... front cover

170 ... Back cover 180 ... Cabinet

184 ... 2nd heat radiation hole A ... central axis

191,192 ... reinforcing member 194 ... first heat radiation hole

The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved structure to efficiently discharge heat generated from an IC mounted on a signal transmission medium due to a high voltage discharge voltage.

BACKGROUND ART In general, a plasma display device is used to display an image by using a gas discharge phenomenon, and is excellent in various display capabilities such as display capacity, brightness, contrast, afterimage, viewing angle, and the like. have.

Such a plasma display device is shown in FIGS. 1 and 2. FIG. 1 is a schematic exploded perspective view of a conventional plasma display device, and FIG. 2 is a schematic cross-sectional view taken along the line II-II of FIG. 1.

1 and 2, the plasma display apparatus includes a plasma display panel 10. The plasma display panel 10 includes a front substrate 11 and a rear substrate 12 disposed on the rear surface of the front substrate 11. Discharge cells separated by a partition (not shown) are formed between the front substrate 11 and the rear substrate 12, and the discharge cells are filled with discharge gas. In this discharge cell, phosphors are stacked.

On the other hand, a plurality of address electrodes (not shown) are arranged side by side on the rear substrate 12, and a discharge holding electrode pair (not shown) on the front substrate 11 in a direction intersecting the address electrodes. Are arranged. When the discharge is performed in the discharge gas between the electrodes by the voltage applied to the electrodes, the phosphor is excited by the radiation of ultraviolet light accompanying the discharge to emit light to form an image.

In addition, the plasma display apparatus includes a chassis base 20 disposed substantially parallel to the plasma display panel 10 to support the plasma display panel 10, and a plasma display panel of the chassis base 20. (10) A circuit board 41 and a cabinet 80 are mounted on the opposite side (rear side) of the attachment surface (front side) and electrically connected to the plasma display panel 10 to drive them.

The cabinet 80 is disposed in front of the plasma display panel 10 and is provided with a front cover 60 having a window 61 and a rear side of the circuit board 41 and the front cover 60 together with the front cover 60. The back cover 70 accommodates the plasma display panel 10, the chassis base 20, and the circuit board 41, and vent holes 72 and 71 are formed on the upper side and the lower side, respectively. In addition, the reinforcing material 50 is attached to the chassis base 20 to prevent bending of the chassis base 20.

A heat dissipation sheet 15 having good thermal conductivity is interposed between the plasma display panel 10 and the chassis base 20 to emit heat generated from the plasma display panel 10 to the outside.

The plasma display panel 10 and the circuit board 41 are connected by a signal transmission medium 31. As the signal transmission medium 31, a tape carrier package (TCP) in which an integrated circuit is formed in a tape-shaped package is used. The TCP 31 is equipped with an IC 32. The signal transmission medium shown in FIG. 1 is TCP 31. The TCP is connected to the circuit board 41 through an opening 51 formed in the reinforcing member 50.

Reinforcing members 91 and 92 are fixed to the chassis base 20 so as to surround and protect the TCP 31 and the IC 32. As shown in FIG. 2, an upper reinforcing member 91 is fixed to an upper side of the chassis base 20 to protect the TCP 31 from being exposed to the outside.

When the plasma display apparatus is driven, a large amount of heat is generated in the TCP 31, especially the IC 32 mounted on the TCP 31. However, the conventional plasma display device has a problem in that the heat generated as described above cannot be efficiently emitted. That is, the reinforcing member 90 only wraps and protects the TCP 31 from being exposed to the outside, and cannot effectively release the heat generated by the TCP 31.

Disclosure of Invention The present invention has been made in view of the above-described problems, and an object thereof is to provide a plasma display device having an improved structure to effectively dissipate heat generated from a signal transfer medium transferring a signal from a circuit board to a plasma display panel. .

Plasma display device according to the present invention for achieving the above object, the plasma display panel is implemented image;

A chassis base disposed behind the plasma display panel to support the plasma display panel;

A circuit board installed at a rear surface of the chassis base to drive the plasma display panel;

A signal transmission medium surrounding an edge of the chassis base and connected to the plasma display panel from the circuit board, and having an IC installed thereon; And

And a reinforcing member fixed to the chassis base to surround and protect the signal transmission medium, and having a first heat dissipation hole for dissipating heat generated from the IC.

According to this invention, it is preferable that the said 1st heat radiation hole is arrange | positioned at the said reinforcement member so that the center axis line of this 1st heat radiation hole may pass through the said IC.

In addition, according to the present invention, it is preferable that the first heat radiating hole is disposed in the reinforcing member so that the IC deviates from the region extending in the axial direction of the first heat radiating hole from the first heat radiating hole.

According to the present invention, there is further provided a cabinet for accommodating the plasma display panel, the chassis base, the circuit board, the signal transmission medium and the reinforcing member therein,

Preferably, the cabinet is provided with a second heat dissipation hole for dissipating heat generated from the IC and discharged through the first heat dissipation hole.

According to the present invention, the first heat dissipation hole is disposed in the reinforcing member such that the central axis of the first heat dissipation hole passes through the IC, and the second heat dissipation hole is disposed in the first heat dissipation hole from the first heat dissipation hole. It is preferred to deviate from the axially extending area of the hiatus.

Hereinafter, a plasma display device according to the present invention will be described in more detail with reference to the accompanying drawings.

3 is a schematic exploded perspective view of a plasma display device according to a preferred embodiment of the present invention, Figure 4a is a schematic sectional view taken along the line IV-IV of FIG.

3 and 4A, a plasma display device according to an exemplary embodiment of the present invention includes a plasma display panel 110, a chassis base 120, a circuit board 141, a signal transmission medium 131, and a reinforcing member ( 191, 192.

The plasma display panel 110 is an image-forming part, and any one of various plasma display panels may be employed. As an example, the AC type surface discharge plasma display panel includes a front substrate 111 and a rear substrate 112. Although not shown, a plurality of sustain electrode pairs are disposed on the front substrate 111. The sustain electrode pairs are embedded by a front dielectric layer, and the front dielectric layer is covered by a MgO protective film and protected.

The rear substrate 112 is sealed to face the front substrate 111. Although not shown, a plurality of address electrodes are formed on the rear substrate 112 so as to cross the sustain electrode pairs. Are also buried by the rear dielectric layer. Meanwhile, a discharge space is formed between the front dielectric layer and the rear dielectric layer, and phosphor layers of red, green, and blue are coated inside the discharge space to realize various colors, and xenon gas is disposed in the discharge space. Is charged.

The chassis base 120, which may be manufactured by casting or pressing, is disposed at the rear of the plasma display panel 110 to be combined with the plasma display panel 110 to support the plasma display panel 110. The upper end of the chassis base 120 is provided with a flange 122 to prevent the bending of the chassis base 120. On the other hand, the chassis base 120 is attached to the reinforcement 150 to prevent the bending of the chassis base 120. In addition, a heat dissipation sheet 115 having good thermal conductivity is interposed between the plasma display panel 110 and the chassis base 120 to dissipate heat generated from the plasma display panel 110. The heat dissipation sheet 115 transfers heat generated from the plasma display panel 110 toward the chassis base 120.

The circuit board 141 is mounted on the rear surface of the chassis base 120, and components for driving the display panel 110 are mounted on the circuit board 141. The parts refer to various parts such as a part for supplying power to the display panel and a part for applying a signal for realizing an image to the display panel.

The display panel 110 and the circuit board 141 are connected by a signal transmission medium 131 connected to the plasma display panel 110 from the circuit board 141 by surrounding the edges of the chassis base 120. . That is, the signal transmission medium 131 comes out of the circuit board 141 through the opening 151 formed in the reinforcement member 150 and is connected to the plasma display panel 110 beyond the chassis base 120. . The signal transmission medium 131 transmits a signal from the circuit board 141 to the plasma display panel 110. Various types of signal transmission media may be used, but in this embodiment, a tape carrier package (TCP) is used. Is used. An IC 132 is provided on the TCP 131. The IC 132 controls and drives the plasma display panel 110 together with various components on the circuit board 141.

The reinforcing members 191 and 192 surround and protect the signal transmission medium 131 and are fixed to the upper and lower sides of the chassis base 120, respectively. The reinforcing members 191 and 192 have a substantially 'C' shape, one end of which is fixed to the chassis base 120, and the other end of which is disposed in front of the plasma display panel 110. Since the reinforcing members 191 and 192 surround the signal transmission medium 131, the signal transmission medium TCP 131 is not exposed to the outside.

On the other hand, the TCP 31, in particular, the IC 32 generates a lot of heat when driving the plasma display panel 110. First reinforcement holes 194 are formed in the reinforcing members 191 and 192 to dissipate heat generated from the TCP 31, in particular, the IC 32. The first heat radiating holes 194 are spaced apart from the reinforcing members 191 and 192 at predetermined intervals and are arranged in a line. The air heated by the heat generated from the signal transmission medium 131 is discharged through the heat dissipation hole 194, thereby preventing the signal transmission medium 131 from being overheated.

In this embodiment, as shown in FIG. 4A, the central axis A of the first heat dissipation hole 194 is disposed to pass through the IC 132. When the central axis A of the first heat dissipation hole 194 is disposed to pass through the IC 132, the path for discharging the heated air can be shortened, thereby providing effective heat dissipation. .

However, the central axis of the first heat radiating hole 194 does not necessarily have to be disposed to pass through the IC 132. That is, in order to prevent the electromagnetic waves generated from the plasma display panel 110 or the signal transmission medium 131 from being emitted to the outside, dust or foreign matter is introduced through the first heat radiating hole 194. The IC 132 may be disposed to deviate from the first axis A and deviate from the first heat radiating hole 194 so as to prevent the direct flow into the 132. This state is shown in FIG. 4B. Referring to FIG. 4B, the IC 132 is positioned so as to deviate from an area extending vertically from the first heat radiating hole 194, that is, an area extending along the axial direction of the first heat radiating hole 194. The position of the first heat radiating hole 194 may be determined. When the first heat dissipation hole 194 and the IC 132 are disposed so as to be offset from each other, there is an effect that the electromagnetic waves can be prevented from being emitted. In addition, the IC 132 may be disposed to slightly extend over an area extending vertically to the first heat dissipation hole 194.

The plasma display apparatus may include a cabinet. The plasma display device according to another embodiment of the present invention having the cabinet 180 is illustrated in FIG. 5.

5, another embodiment of the present invention will be described. In this embodiment, the same reference numerals as in the above-described embodiment represent the same members, and their construction and operation and effect are the same.
Referring to FIG. 5, the cabinet 180 includes a front cover 160 and a back cover 170. The front cover 160 is disposed in front of the plasma display panel 110, and a window 161 is formed at the center thereof so that an image formed in the plasma display panel 110 can be viewed.
The front cover 160 and the back cover 170 together accommodate the plasma display panel 110, the chassis base 120, the circuit board 141, and the signal transmission medium 131. Is disposed at the rear of the chassis base 120 and coupled to the front cover 160. Ventilation holes (not shown) are formed at the upper and lower sides of the back cover 170, respectively.
In the cabinet 180, a second heat dissipation hole 184 is formed to discharge heat generated from the IC 132 and discharged through the first heat dissipation hole 194 to the outside.
In the present embodiment, the first heat radiating hole 194 and the second heat radiating hole 184 are disposed to be offset from each other. That is, the first heat dissipation hole 194 is disposed in the reinforcing member 191 such that the central axis of the first heat dissipation hole 194 passes through the IC 132 and the second heat dissipation hole 184. Is disposed away from the area extending in the axial direction of the first heat radiating hole 194 from the first heat radiating hole 194. In this way, the air heated by the heat discharged from the IC 132 passes through the first heat radiating hole 194 and the second heat radiating hole 184 sequentially and is discharged to the outside.
Since the first heat dissipation hole 194 is disposed directly above the IC 132, the discharge path of the heated air becomes very short, and the heat dissipation efficiency is increased. Since the heat dissipation hole 194 is disposed to be offset, the discharge of electromagnetic waves is prevented and the IC 132 can be prevented from being contaminated.

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

As described above, the plasma display apparatus according to the present invention has an advantage of effectively dissipating heat generated from a signal transfer medium that transfers a signal from a circuit board to the plasma display panel.

Claims (5)

A plasma display panel on which an image is implemented; A chassis base disposed behind the plasma display panel to support the plasma display panel; A circuit board installed at a rear surface of the chassis base to drive the plasma display panel; A signal transmission medium surrounding an edge of the chassis base and connected to the plasma display panel from the circuit board, and having an IC installed thereon; And And a reinforcing member fixed to the chassis base to surround and protect the signal transmission medium and having a first heat dissipation hole for radiating heat generated from the IC. The method of claim 1, And the first heat dissipation hole is disposed in the reinforcing member so that the central axis of the first heat dissipation hole passes through the IC. The method of claim 1, And the first heat dissipation hole is disposed in the reinforcing member so that the IC deviates from an area extending in the axial direction of the first heat dissipation hole from the first heat dissipation hole. The method according to any one of claims 1 to 3, The cabinet further includes a plasma display panel, a chassis base, a circuit board, a signal transmission medium, and a reinforcement member therein. And a second heat dissipation hole in the cabinet for dissipating heat generated from the IC and discharged through the first heat dissipation hole. The method of claim 4, wherein The first heat radiating hole is disposed in the reinforcing member so that the central axis of the first heat radiating hole passes through the IC, and the second heat radiating hole extends in the axial direction of the first heat radiating hole from the first heat radiating hole. Plasma display device, characterized in that the deviation from the area.

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