KR100365289B1 - Plasma display panel - Google Patents

Abstract

The present invention relates to a plasma display panel.

The present invention is a front substrate that the image is reproduced and a plurality of FPC is connected; A rear substrate in close contact with the rear side of the front substrate and connected with a plurality of FPCs intersecting with the FPC connected to the front substrate; A metal thin film which functions as a heat sink for uniformly forming charge and dissipating heat; A plurality of support frames attached to the grid by a double-sided tape with respect to the rear side of the metal thin film and having a boss in the element; And a printed circuit board connected to the support frame and connected to the FPC connected to the front and rear substrates.

Accordingly, the plasma display panel is formed to uniformly form charges during driving and improve the structure of the heat sink to dissipate heat, thereby realizing a lighter weight and a slimmer product.

Description

Plasma display panel {Plasma display panel}

The present invention relates to a plasma display panel, and more particularly, to a plasma display panel that realizes light weight and slimming of a product by improving a structure of a heat sink that uniformly forms charges and drives heat to dissipate heat when a plasma display panel is driven. .

Recently, the importance of an image display device (or a video display device) has become more important as the development of high-definition television is partially completed and the improvement plan is continuously studied. As such a type of image display device, as is known, a color cathode ray tube (CRT), a liquid crystal display (LCD), a fluorescent display (VFD), a plasma display panel (hereinafter referred to as PDP), etc. There is this.

However, since it is not technically completed as a display element that can be satisfied with the development of high definition television (High Definition TeleVision), it is being developed while maintaining a complementary relationship at different positions.

Among the image display apparatuses, the plasma display panel is used to display an image by using a gas discharge phenomenon, has the most promising resolution and roughness ratio in this field, is fast in response, and suitable for displaying a large area image. Widely used in applications such as televisions, monitors, and indoor and outdoor advertising display panels.

FIG. 1 is an exploded perspective view showing the internal structure of a typical plasma display panel in a separated state.

As shown in the drawing, the plasma display panel is integrally fused with the front substrate 10 on which an image is reproduced and the rear substrate 20 on which phosphors which are not represented are emitted.

The FPC (Flexible Printed Circuit) 11 (21) is electrically connected to the front and rear substrates 10 and 20 in an intersecting direction, and a double-sided tape 30 is attached to the rear surface of the rear substrate 20. It is provided.

In addition, a heat sink 50 having a plurality of bosses 41 mounted thereon is attached to the double-sided tape 30 over the entire area of the double-sided tape 30, and the front and rear substrates 10 ( The printed circuit board 60 is mounted on 20.

Meanwhile, the heat sink 50 has a function of uniformly forming charges when the plasma display panel is driven, a function of dissipating heat generated when the plasma display panel is driven, and a front and rear substrates 10 and 20 through the heat sink 50. A function of supporting the casing without the drawing representation is performed in parallel.

However, the following problems occur in the heat sink of the plasma display panel as described above.

That is, the plasma display panel is advanced in terms of structural features such as light weight and slimness, compared to image display devices implemented by other image display methods such as a color cathode ray tube and a liquid crystal display device. In terms of technology, the technology is advanced, and it is already spread and commercially used in the wall-mounted type. As the heat dissipation plate 50 used in the plasma display panel as described above maintains about 1 to 2 mm in thickness, the product There was a problem that the weight of the heavy.

In addition, the problem of the heat sink as described above is a barrier to the prior task to implement the slimmer and lighter weight of the product.

Therefore, the technical problem to be solved by the present invention, that is, the object of the present invention was created in order to solve the problem of the heat sink of the conventional plasma display panel, the function of uniformly forming charges when driving the plasma display panel The present invention provides a heat dissipation plate of a plasma display panel that reduces weight while maintaining a function of dissipating heat generated during driving, thereby reducing weight and slimming a product.

1 is an exploded perspective view illustrating a main part of a general plasma display panel.

Figure 2 is an exploded perspective view showing the main portion of the plasma display panel according to the present invention.

Figure 3 is an exploded perspective view showing another embodiment of the support frame applied in the present invention.

*** Explanation of symbols for main parts of drawing ***

10,20; front and rear substrates 11,21; FPC

30; double-sided tape 60; printed circuit board

70; metal thin film 80; support frame

81; the boss

The present invention to achieve the above object, the image is reproduced and a plurality of front substrate is connected to the FPC; A rear substrate in close contact with the rear side of the front substrate and connected with a plurality of FPCs intersecting with the FPC connected to the front substrate; A metal thin film which functions as a heat sink for uniformly forming charge and dissipating heat; A plurality of support frames attached to the grid by a double-sided tape with respect to the rear side of the metal thin film and having a boss in the element; And a printed circuit board installed on the support frame and connected to the FPC connected to the front and rear substrates.

Preferably, the metal thin film is preferably deposited by any one of an e-beam deposition method or a sputtering deposition method.

Also preferably, the support frame is preferably coupled to the longitudinal support frame and the transverse support frame by the concave-convex coupling.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

In other words, for convenience of description, the same parts and members as in the prior art will be described with the same reference numerals as in the prior art.

2 is an exploded perspective view for showing the main portion of the plasma display panel according to the present invention, Figure 3 is an exploded perspective view for showing another embodiment of the support frame applied in the present invention.

For convenience of explanation, the same parts and members are assigned the same parts and numbers as in the prior art.

As shown, the plasma display panel to which the present invention is applied is integrally fused with the front substrate 10 on which an image is reproduced and the rear substrate 20 on which phosphors which are not represented are emitted.

The front and rear substrates 10 and 20 are electrically connected to the flexible printed circuits (FPCs) 11 and 21 in a direction crossing each other, and a metal thin film is deposited on the rear surface of the rear substrate 20.

Preferably, the metal thin film is preferably deposited by any one of an e-beam deposition method or a sputtering deposition method.

In addition, a plurality of support frames 80, which are metallic, are attached to the rear of the metal thin film 70 in a lattice form at the rear of the metal thin film 70 by an adhesive means such as a double-sided tape (not shown).

The support frame 80, which is arranged in a grid, has a boss 81 mounted on the element.

The support frame 80 may be manufactured in a single body to form a lattice structure, but in the state in which the support frame 80 in the longitudinal direction and the support frame 80 in the transverse direction are separately manufactured, the drawings are omitted. It may be coupled in a state of being fastened by a fastening member or the like, as shown in Figure 3 in the state in which the grooves are formed in the longitudinal support frame 80 and the transverse support frame 80, the grooves are engaged with each other unevenness It may be combined in the formula (iii).

The operation of the plasma display panel according to the present invention having the above configuration will be described.

That is, the metal thin film 70 is deposited on the rear surface of the rear substrate 20 and the double-sided tape 30 is attached to the other side of the metal thin film 70. As described above, the function of uniformly forming charges when driving the plasma display panel, which is a function of the heat sink, and the function of dissipating heat generated during driving, are simultaneously performed.

In addition, the support frame 80, which is a metal material attached to the rear side of the double-sided tape 30, has a printed circuit board 60 disposed on the upper side thereof, while the front and rear substrates of the plasma display panel are placed on a casing without the drawing. It acts as a mediator.

At this time, the feature of the present invention, the metal thin film 70 deposited on the double-sided tape 30 according to the present invention is a function of uniformly forming a charge, which is the same function as a conventional heat sink in the state of ultra-thin deposition of about a micron unit, and driving The heat dissipation generated during the heat dissipation, and the support frame 80 disposed at the rear of the function is to support the front and rear substrates 10, 20 to the casing, which is the same function as the conventional heat sink. .

Therefore, the present invention can reduce the weight by the structure of the double-sided tape 30 attached to the deposited metal thin film 70 and the support frame 80 arranged in a lattice shape behind the metal thin film 70. Is the point.

According to the present invention having the above configuration, the problem caused by the thickness of the heat sink must be maintained at about 1 to 2 mm as in the prior art, that is, the conventional problem that the weight of the product becomes heavy by the heat sink is actively solved.

In addition, the problem that has been reversed the prior task to implement the slimmer and lighter product is also solved.

As described in detail above, according to the present invention, a plasma display panel can be lightweight and slim.

Until now illustrated and described with respect to the preferred embodiment according to the present invention, but not limited to this can be variously changed and used by those skilled in the art.

However, it is apparent that such modifications fall within the scope of the present invention.

Claims (3)

A front substrate on which an image is reproduced and a plurality of FPCs are connected; A rear substrate in close contact with the rear side of the front substrate and connected with a plurality of FPCs intersecting with the FPC connected to the front substrate; A metal thin film which functions as a heat sink for uniformly forming charge and dissipating heat; A plurality of support frames attached to the grid by a double-sided tape with respect to the rear side of the metal thin film and having a boss in the element; And And a printed circuit board mounted to the support frame and connected to the FPC connected to the front and rear substrates. The method of claim 1, The metal thin film is plasma display panel, characterized in that deposited by any one of the e-beam (E-beam) deposition method or sputter deposition method. The method of claim 1, The support frame is a plasma display panel comprising a support frame in the longitudinal direction and the transverse support frame is coupled by the uneven coupling.