KR100683686B1 - Plasma display apparatus - Google Patents

Abstract

A plasma display device according to the present invention includes a plasma display panel; A heat conductive member disposed in parallel with a rear surface of the plasma display panel; A chassis base disposed parallel to the rear side of the heat conductive member and having at least one pressing protrusion protruding from a surface facing the heat conductive member to press the rear surface of the heat conductive member; And a circuit board disposed behind the chassis base to drive the plasma display panel.

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 partial cross-sectional view taken along the line II-II of FIG. 1. FIG.

3 is a perspective view of the chassis base shown in FIG.

<Brief description of the major symbols in the drawings>

110. Plasma display panel 140. Chassis base

141..Pressure protrusion 150..Circuit board

160..No heat conduction

The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved structure to protect a plasma display panel.

Plasma display device is a flat panel display that displays images by using gas discharge phenomenon. It has excellent display capability such as display capacity, brightness, contrast, afterimage and viewing angle, and it is possible to replace cathode ray tube with thin and large display. It is in the spotlight as the next generation flat panel display.

Typically, such a plasma display apparatus includes a plasma display panel, a chassis base disposed substantially parallel to the plasma display panel, a circuit board mounted behind the chassis base to drive the plasma display panel; And a case accommodating the plasma display panel, the chassis base, and the circuit board.

In the plasma display panel, an image is realized by a discharge phenomenon, and thus a large amount of heat is generated. Such heat degrades the display performance of the plasma display panel, and when driven for a long time, causes a problem of deteriorating the reliability of the circuit board. Therefore, in order to effectively dissipate heat generated from the plasma display panel, a heat conducting member is generally provided between the plasma display panel and the chassis base. There is an example in which the thermally conductive members are spaced apart from the chassis base at predetermined intervals to insulate the circuit board and the plasma display panel so that heat transfer therebetween can be blocked.

However, as described above, when the space between the thermally conductive member and the chassis base is spaced at a predetermined interval, the plasma display panel and the thermally conductive member are not in close contact. Accordingly, when vibration or shock is applied to the plasma display panel from the outside, a vibration phenomenon may occur in the plasma display panel. The shaking phenomenon of the plasma display panel may damage the members constituting the plasma display panel, in particular, the partition walls, resulting in poor discharge.

The present invention is to solve the above problems, by providing a pressing projection on the surface facing the heat conducting member of the chassis base, thereby preventing the shaking of the plasma display panel, the plasma that can be insulated between the circuit board and the plasma display panel It is an object to provide a display device.

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

A plasma display panel;

A heat conductive member disposed in parallel with a rear surface of the plasma display panel;

A chassis base disposed in parallel with the rear side of the heat conductive member and having at least one pressing protrusion projecting from a surface opposite to the heat conductive member so that an end portion projecting from the rear surface of the heat conductive member can be pressed;

And a circuit board disposed behind the chassis base to drive the plasma display panel.

Here, it is preferable that an area other than an area where the pressing protrusion of the chassis base is arranged to form an adiabatic space with the heat conductive member.

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 embodiment of the present invention, Figure 2 is a partial cross-sectional view taken along the line II-II of FIG.

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.

The plasma display panel 110 may be any one of various plasma display panels. As an example, an AC plasma display panel having a surface discharge type structure as shown in FIG. 2 may be employed. have.

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, a storage electrode pair 122 formed on a rear surface of the front substrate 121, and a front dielectric layer formed to cover the storage electrode pair 122. 123 and a protective film 124 formed on the rear surface of the front dielectric layer 123. The sustain electrode pair 122 may be formed as a pair of X and Y electrodes spaced apart from each other by a discharge gap.

In addition, the rear panel 130 disposed behind the front panel 120 is formed on the rear substrate 131 and the front surface of the rear substrate 131 and crosses the storage electrode pairs 122. Extended address electrodes 132, a back dielectric layer 133 formed to cover the address electrodes 132, and barrier ribs 134 formed on the back dielectric layer 133 to define discharge spaces 135. And a phosphor layer 136 disposed in the discharge spaces 135 and a discharge gas filled in the discharge spaces 135. The barrier ribs 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 space 135. It is formed so as to correspond to them.

The chassis base 140 is disposed at the rear of the plasma display panel 110 having the above configuration, and the plasma display panel 110 and the chassis base 140 are attached to an adhesive member 161 such as a double-sided tape. By mutual coupling. The chassis base 140 is formed of a material such as aluminum to support the plasma display panel 110. 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. 170 may be installed.

The thermally conductive member 160 is interposed between the chassis base 140 and the plasma display panel 110. That is, the thermally conductive member 160 is formed in a plate shape and disposed substantially parallel to the rear surface of the plasma display panel 110. The thermally conductive member 160 arranged as described above diffuses and generates heat generated when the plasma display panel 110 is driven in the planar direction of the plasma display panel 110. The thermally conductive member having such a function may be formed of a graphite material or the like.

An adhesive material may be applied to a surface of the heat conductive member 160 facing the plasma display panel 110 to be firmly fixed to the plasma display panel 110, but is not necessarily limited thereto.

In addition, a circuit board 150 is installed at the rear of the chassis base 140. Devices for driving the plasma display panel 110 are mounted on the circuit board 150, and the devices are configured to supply power to the plasma display panel 110 and to implement an image on the plasma display panel 110. In order to do this, a device for applying a signal may be included.

The electrical signal from the circuit board 150 is transmitted to the plasma display panel 110 by the signal transmission member. The signal transmission member may be configured in various ways. For example, at least one device 153, for example, a TCP 151 formed by mounting a driver IC in a tape-shaped wiring unit 152 may be employed. Can be. The plasma display panel 110, the chassis base 140, the circuit board 150, and the like as described above are accommodated by a case provided with a front cover and a back cover, which are not shown, to constitute the plasma display apparatus 100. do.

Meanwhile, at least one pressing protrusion 141 according to an aspect of the present invention is provided between the thermally conductive member 160 and the chassis base 140 disposed on the rear surface of the plasma display panel 110. The pressing protrusion 141 is disposed in a space between the thermal conductive member 160 and the chassis base 140, and the thermal conductive member 160 is pressed against the plasma display panel 110 so that the plasma display panel 110 and the chassis base ( It is possible to support between the 140, and to insulate the circuit board 150 and the plasma display panel 110.

As shown in FIG. 3, the pressing protrusion 141 is provided in plurality and spaced apart from each other, and protrudes from the plane of the chassis base 140 at a predetermined height. Here, each protruding end of the pressing protrusions 141 faces the heat conductive member 160 and is disposed to press the back surface of the heat conductive member 160, respectively. In order to increase the area in which the pressing protrusion 141 presses the heat conductive member 160, an end portion of the pressing protrusion 141 may be formed in a plane, but is not limited thereto. As the pressing protrusion 141 is integrally formed with the chassis base 140 by press working, as shown in FIG. 3, the groove 142 is formed on the rear surface corresponding to the pressing protrusion 141 of the chassis base 140. It may be made of a formed structure. Meanwhile, the present invention is not limited thereto, and the pressing protrusion may be separately formed and coupled to the chassis base.

As described above, each end of the pressing protrusions 141 is disposed to press the heat conductive member 160, such that the plasma display panel 110 to which the heat conductive member 160 is coupled and the chassis base 140 may be supported. . Accordingly, even if vibration or shock is applied from the outside of the plasma display apparatus 100, the phenomenon that the plasma display panel 110 is shaken by the vibration or shock can be prevented. Accordingly, damage to the members constituting the plasma display panel 110, particularly the partition wall 134, may be prevented, thereby enabling stable discharge.

On the other hand, since the heat conductive member 160 may be fixed to the plasma display panel 110 by the pressing protrusions 141, the adhesive between the heat conductive member 160 and the plasma display panel 110 may be separated. It may be of a structure that is not bound by a material.

The area of the chassis base 140 where the pressing protrusions 141 are not formed forms an adiabatic space with the heat conductive member 160. The thermal insulation space is transferred from the chassis base 140 receiving heat generated from the circuit board 150 to the plasma display panel 110 or a heat conductive member receiving heat generated from the plasma display panel 110 ( Heat may be transferred from 160 to the circuit board 150 via the chassis base 140 to prevent them from affecting each other.

As described above, according to the present invention, the heat conduction member is pressed by the pressing protrusion formed on the surface of the chassis base facing the heat conduction member, so that the plasma display panel can be supported between the chassis base and the plasma display panel. The shaking phenomenon can be prevented. As a result, stable discharge can be performed by preventing damage to the members constituting the plasma display panel.

In addition, the region in which the pressing protrusion is not formed between the chassis base and the heat conductive member forms a heat insulation space, and thus, the circuit board and the plasma display panel may be insulated from each other. As a result, the effect of heat transfer between the circuit board and the plasma display panel can be minimized.

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.

Claims (7)

A plasma display panel; A heat conductive member disposed in parallel with a rear surface of the plasma display panel; A chassis base disposed parallel to the rear side of the heat conductive member and having at least one pressing protrusion protruding from a surface facing the heat conductive member to press the rear surface of the heat conductive member; And a circuit board disposed behind the chassis base to drive the plasma display panel. The method of claim 1, And an area other than an area in which the pressing protrusion of the chassis base is disposed to form an insulation space with the heat conductive member. The method according to claim 1 or 2, And the pressing protrusion is integrally formed with the chassis base by press working. The method according to claim 1 or 2, And the pressing protrusion is formed separately and coupled to the chassis base. The method of claim 1, And the chassis base is formed of an aluminum material. The method of claim 1, And the heat conductive member is fixed to the plasma display panel by an adhesive material. The method of claim 1, And the heat conductive member is formed of a graphite material.

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