KR20060116532A - Plasma display apparatus - Google Patents

Abstract

A plasma display device is provided to simplify a process for manufacturing the device by integrally forming a heat conduction member on a chassis member and then coupling the chassis member to a display panel. A plasma display panel(10) displays an image through gas discharge, and is supported by a chassis base(20) oppositely engaged to the panel. A heat conduction member(30) is disposed between the panel and the chassis base, and is formed to be coupled with the chassis base. A drive circuit(40) is disposed on the chassis opposite to the panel to drive the panel. The chassis base and the heat conduction member have at least one aperture, respectively, in which the aperture of the chassis base is opposite to that of the heat conduction member.

Description

Plasma display apparatus

1 is an exploded perspective view illustrating a schematic configuration of a plasma display device according to an exemplary embodiment of the present invention.

FIG. 2 is an exploded perspective view illustrating a coupling structure of the chassis base and the heat conductive member of FIG. 1. FIG.

3 is a partial cutaway view showing a state in which the chassis base and the heat conduction member of FIG. 1 are coupled.

<Brief description of symbols for the main parts of the drawings>

10: plasma display panel 20: chassis base

21: opening 22: opening rib

23: edge rib 30: heat conductive member

31: heat dissipation opening 32: adhesive opening

40: drive device 41: circuit element

42: circuit board 43: boss

50: signal transmission means 51: wiring circuit

52: integrated circuit 60: reinforcing member

70: cover plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device, and more particularly, to a plasma display device having a heat conductive member integrally formed with a chassis base.

In general, a plasma display device is a display device that displays an image by using a gas discharge phenomenon. Compared to a cathode ray tube (CRT), a cathode ray tube (CRT), which is commonly used, flat panel display, weight reduction, and thinning are possible. It has been in the spotlight recently.

The plasma display device inserts a heat conduction medium between a plasma display panel in which an image is formed by a gas discharge and a chassis base supporting the same, thereby transferring heat generated from the panel to the chassis base and dissipating it to the outside. In addition, the chassis base surface opposite to the surface on which the plasma display panel is attached is provided with driving circuit boards equipped with various driving circuit elements for driving the plasma display panel.

However, such a conventional plasma display device has a problem in that the chassis base and the heat conductive medium are separately assembled as separate members, thereby increasing the number of entire manufacturing processes.

In addition, in a conventional plasma display device, the chassis base is formed of a metal material such as aluminum to secure rigidity for supporting a panel. Thus, a predetermined rigidity is maintained in a plasma display device requiring weight reduction such as a wall-mounted TV. At the same time, a lightweight chassis base was required.

Furthermore, in the conventional plasma display device, heat generated in the plasma display panel is transferred to the chassis base through the heat conducting medium and then discharged to the outside by the tropical current between the chassis base and the air. Heat dissipation due to tropical flow had a problem that can not be very limited.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a plasma display device which can improve productivity by reducing the number of assembly steps of the chassis base and the thermal conductive medium.

Another object of the present invention is to provide a plasma display device that can achieve a reduction in weight while securing a predetermined rigidity capable of supporting a plasma display panel or the like.

Another object of the present invention is to provide a plasma display device having improved heat dissipation effect by dissipating heat generated in a plasma display panel to the outside by external air and direct tropical flow.

The present invention is to achieve the above and other objects, the present invention is to achieve a lightweight and simple heat dissipation structure of the chassis base, the plasma display panel to implement the image using gas discharge; A chassis base coupled to the plasma display panel to support the plasma display panel; A heat conductive member disposed between the plasma display panel and the chassis base and formed to correspond to the shape of the chassis base and coupled to the chassis base; And a driving device disposed on a surface of the chassis base opposite to the plasma display panel to drive the plasma display panel.

Preferably, the chassis base and the heat conductive member have at least one opening corresponding to each other.

Preferably, the opening is disposed at a position corresponding to an area in which the driving device is disposed.

The chassis base is preferably made of plastic.

The chassis base and the heat conductive member may be attached by an adhesive or double-sided tape.

Preferably, the chassis base and the thermally conductive member are in close contact with each other.

Preferably, the plasma display panel and the thermal conductive member are in close contact with each other.

According to another aspect of the present invention, there is provided a plasma display apparatus including: a plasma display panel in which an image is implemented using gas discharge; A chassis base coupled to the plasma display panel to support the plasma display panel, the chassis base having at least one opening; A heat conducting member disposed between the plasma display panel and the chassis base and having at least one opening corresponding to the shape of the opening of the chassis base and integrally coupled to the chassis base; And a driving device disposed on a surface of the chassis base opposite to the plasma display panel to drive the plasma display panel.

The chassis base is preferably formed of a plastic material.

Preferably, the chassis base opening and the opening of the heat conductive member are formed in a portion corresponding to the position where the driving device is disposed.

It is preferable that at least part of an edge of the opening of the chassis base is formed with an opening rib extending from the chassis base.

The opening rib may protrude toward the plasma display panel.

Preferably, at least some of the edges of the chassis base are formed with edge ribs extending from the chassis base to protrude.

The thermally conductive member is preferably inserted into a space between the opening rib and the edge rib of the chassis base.

The thermally conductive member and the chassis base may be attached by an adhesive or double-sided tape.

The plasma display panel and the chassis base may be bonded by double-sided tape, and a portion of the heat conductive member corresponding to a position where the double-sided tape is disposed may be an opening for bonding.

The double-sided tape is preferably made of a thermally conductive material.

The double-sided tape is preferably made of the same thickness as the heat conductive member.

It is preferable that the double-sided tape has the same size as the opening for bonding the heat conductive member.

Preferably, the thermally conductive member is in close contact with the plasma display panel.

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

1 is an exploded perspective view schematically illustrating a plasma display device according to an exemplary embodiment of the present invention, FIG. 2 is an exploded perspective view illustrating a coupling structure of the chassis base and the heat conductive member of FIG. 1, and FIG. 3 is a chassis of FIG. 1. Partial cutaway view showing the base and the thermally conductive member combined.

Referring to the drawings, the plasma display device according to the present embodiment includes a plasma display panel 10, a chassis base 20, a heat conductive member 30, and a driving device 40.

The plasma display panel 10 implements an image by emitting a phosphor layer by discharge caused in response to an external image signal. As the plasma display panel 10, any one of various plasma display panels may be employed. For example, a three-electrode AC surface discharge type plasma display panel may be employed. In this case, the plasma display panel 10 includes a front panel 11 and a rear panel 12.

Although not shown, the front panel 11 includes a plurality of sustain electrode pairs including X electrodes and Y electrodes in strip form on the front substrate, a first dielectric layer in which the sustain electrode pairs are embedded, and a surface of the front panel 11. And a protective layer to be coated.

The rear panel 12 is opposed to the front panel 11. Although not shown, a plurality of address electrodes are formed on the rear substrate to intersect with the pair of sustain electrodes, a second dielectric layer filling the address electrodes; And a partition wall formed on the second dielectric layer to define a discharge cell in which discharge occurs and to prevent cross-talk, and a red, green, and blue color applied inside the discharge space partitioned by the partition wall. The phosphor layer is included. The discharge cells correspond to regions where the sustain electrode pairs and the address electrodes cross each other, and the discharge cells are filled in the discharge cells. In the plasma display panel 10, a lot of heat is generated by gas discharge generated in a discharge cell, and the heat must be emitted to the outside in order for the plasma display device to operate properly.

The chassis base 20 is disposed on one surface of the plasma display panel. The chassis base 20 supports the plasma display panel 10 to prevent the panel 10 from being deformed by heat or broken by external impact.

The chassis base 20 has a plurality of openings 21, and the openings 21 are formed to correspond to the shapes of the driving device 40 described later mounted on the chassis base 20. Opening ribs 22 protruding forward of the chassis base 20 are formed at the edge of the opening 21. The opening rib 22 is bent and extended at right angles from the chassis base 20 at the edge of the opening 21 to protrude toward the front of the chassis base 20. The opening ribs 22 may be formed entirely at the edges of all the openings 21, but need not necessarily be formed at the edges of the required openings 21, or may be formed only at a part of the same opening 21 but not all of the edges. have. Although the height of the opening rib 22 is not restrict | limited, It is preferable that it is substantially the same as the thickness of the heat conductive member 30 mentioned later. Edge ribs 23 protruding toward the front of the chassis base 20 are also formed at the edge of the chassis base 20. The opening ribs 22 and the chassis ribs 23 form a space into which the heat conductive member 30 to be described later is inserted by both of them and the chassis base 20. The chassis base 20 may be made of a metal material such as aluminum, but may also be made of a light material such as plastic. The chassis base 20 made of a light material such as plastic is preferable because it can make a great contribution to the weight reduction of the plasma display device.

The thermal conductive member 30 is coupled to the chassis base 20. The heat conductive member 30 has a size substantially the same as that of the chassis base 20 and has a heat dissipation opening 31 having a shape corresponding to the opening 21 of the chassis base 20. The thermal conductive member 30 has an adhesive opening 32 into which adhesive means such as a double-sided tape 24 attaching the chassis base 20 to which the thermal conductive member 30 is coupled to the plasma display panel 10 is inserted. The thermally conductive member 30 is formed of a silicon material, but is not limited thereto, and may be formed of any material as long as the member has a thermal conductivity.

This thermally conductive member 30 is coupled to the chassis base 20 as shown in FIG. That is, the heat dissipation opening 31 and the adhesive opening 32 of the thermal conductive member 30 correspond to the opening 21 of the chassis base 20 and the double-sided tape 24 bonded to the rear surface of the plasma display panel 10, respectively. Position the heat conducting member 30 to be in close contact with the chassis base 20. At this time, the coupling of the thermal conductive member 30 and the chassis base 20 can be made by using a double-sided tape or adhesive therebetween. Or by screwing.

When the thermally conductive member 30 is coupled to the chassis base 20 in this manner, the thermally conductive member 30 is formed by the base portion 24, the opening ribs 22, and the edge ribs 23 of the chassis base 30. Is inserted into the space to be in close contact with the chassis base (30). Therefore, when the heat conducting member 30 and the chassis base 20 are integrated by the combination as described above, even if the chassis base 20 is made of plastic, the rigidity required for the chassis base 20 is secured and the chassis base ( The weight reduction of 20 and the weight reduction of the plasma display device can be ensured. In addition, the heat conduction member 30 may be coupled to correspond to the overall shape of the chassis base 20 so that the entire chassis base 20 may function as a heat conduction medium, thereby further improving the heat dissipation effect of the plasma display device.

Although the chassis base 20 has an opening rib 22 and an edge rib 23 in the present embodiment, the present invention is not necessarily limited thereto, and the shape of the heat conductive member 30 is the shape of the chassis base 20. If it is configured to correspond to the shape and both are coupled to each other it can be said to belong to the present invention. Accordingly, the chassis base 20 is composed of a flat plate having only the opening 21 without ribs such as the opening ribs 22 or the edge ribs 23 of the present embodiment and having an opening that is identical to the shape of the opening 21. When the thermally conductive member 30 is coupled to the chassis base 20 to be aligned also falls within the scope of the present invention.

The thermally conductive member 30 integrally coupled with the chassis base 20 is adhered to the plasma display panel 10 by a double-sided tape 24. In this case, the double-sided tape 24 is disposed on the rear surface of the plasma display panel 10 to be disposed at a position corresponding to the adhesive opening 32 of the heat conductive member 30. Alternatively, the double-sided tape 24 may be attached to the adhesive opening 32 of the heat conductive member 30 integrally coupled to the chassis base 20. In this case, the chassis base 20, the heat conductive member 30 and the double-sided tape 24 are integrally coupled. At this time, the double-sided tape 24 has the same thickness as the heat conductive member 30 so that the heat conductive member 30 can be in close contact with the plasma display panel 10. By such a configuration, heat generated in the plasma display panel 10 is smoothly and directly transferred to the heat conductive member 30 by the heat conduction. Furthermore, the heat transferred to the heat conducting member 30 is directly and completely transferred to the chassis base 20 integrally coupled to be in close contact with the heat conducting member 30, and then by the tropical current between the chassis base 20 and the outside air. It will be released to the outside smoothly.

The driving device 40 is installed at the rear of the chassis base 20. The driving device 40 is a device for driving the plasma display panel 10 to realize an image by gas discharge. The driving device 40 includes various types of circuit elements 41 and a circuit board 42 on which they are disposed. . The driving device 40 is disposed at a position corresponding to the opening 21 of the chassis base 20 and the heat dissipation opening 31 of the heat conductive member 30 corresponding thereto, and the chassis base 20 is formed by the boss 43. It is coupled by being fastened to. In this case, the circuit board 42 is coupled to the rear surface of the chassis base 20 by a height of the boss 43 at a predetermined distance apart. As such, the rear surface of the plasma display panel 10 is directly exposed to the outside air, whereby heat generated in the plasma display panel 10 is directly discharged to the outside by the tropical flow of the outside air. That is, the outside air flows in and out between the rear surface of the chassis base 20 and the gap between the circuit board 42, and further, the heat dissipation opening 31 of the opening 21 and the heat conductive member 30 of the chassis base 20. By heat transfer in the process of directly flowing into and out of the back of the plasma display panel 10 through the H), the heat generated in the plasma display panel 10 is smoothly discharged to the outside. By such a configuration, heat dissipation efficiency can be greatly improved by releasing heat generated in the plasma display panel 10 to the outside more smoothly.

The signal transmitting means 50 transmits an electrical signal to drive between the driving device 40 and the plasma display panel 10, specifically, the electrodes. The signal transmitting means 50 is disposed between the edge of the plasma display panel 10 and the circuit board 41 of the driving device 40 disposed near the edge of the chassis base 20 for connection convenience. The signal transmission means 50 may be configured such as a flexible printed cable (FPC), a tape carriage package (TCP), a chip on film (COF), and the like. The signal transmission means 50 includes a wiring circuit 51 for transmitting signals transmitted to the plasma display panel 10 and an integrated circuit 52 for controlling the signals transmitted by integrating them with a predetermined film. It is arrange | positioned at the base member 53, such as back. At this time, the signal transmission means 50 is disposed to be positioned on the reinforcing member 60 to reinforce the rigidity of the chassis base 20 coupled to the edge of the chassis base 20. The reinforcing member 60 has the same height as the circuit board 42 so that the signal transmission means 50 connecting the circuit board 42 and the plasma display panel 10 may not be bent or torn rapidly. It is preferable because it can arrange | position. In addition, a cover plate 70 is mounted on the signal transmission means 50 positioned on the reinforcing member 60. The cover plate 70 receives heat generated from the signal transmitting means 50, in particular heat generated from the integrated circuit 52, and releases the integrated circuit 50 from external shocks. It protects you.

Referring to the operation of the present invention having the above configuration is as follows.

When the plasma display panel 10 is driven by the driving device 40 according to an external image signal, gas discharge such as plasma discharge is generated inside the panel 10. As a result, heat is generated in the panel 10. The heat generated in this way is transferred to the assembly of the chassis base 20 and the heat conductive member 30, which is in close contact with the panel 10, by heat conduction, and the chassis base ( 20) is released to the outside by the tropical flow of the assembly of the heat conducting member 30 and the outside air. In addition, the remaining heat generated in the plasma display panel 10 comes from the plasma display panel 10 which is in direct contact with the outside air through the opening 21 of the chassis base 20 and the heat dissipation opening 31 of the heat conductive member 30. Emitted directly to the outside by tropical flows with outside air. Through such a process, heat generated from the plasma display panel 10 may be efficiently discharged to the outside to smoothly operate the plasma display device.

According to the present invention having the above configuration, the chassis base may be made of a lightweight material such as plastic, thereby achieving a reduction in the weight of the chassis base and the weight of the plasma display device.

In addition, the present invention may simplify the manufacturing process of the plasma display device by integrally coupling the thermal conductive member to the chassis base and then coupling the thermal conductive member to the plasma display panel.

According to the present invention, the chassis base and the heat conducting member are integrally combined, and then bonded to the plasma display panel in close contact with each other, and further, an opening penetrating through the chassis base and the heat conducting member is formed to directly expose the plasma display panel to external air, thereby exposing the plasma display panel to external air. It is possible to efficiently release the heat generated in the outside.

Although the present invention has been described with reference to the embodiments shown in the 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. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (20)

A plasma display panel in which an image is implemented using gas discharge; A chassis base coupled to the plasma display panel to support the plasma display panel; A heat conducting member disposed between the plasma display panel and the chassis base and formed to correspond to the shape of the chassis base and coupled to the chassis base; And And a driving device disposed on a surface of the chassis base opposite to the plasma display panel to drive the plasma display panel. The method of claim 1, And the chassis base and the thermally conductive member have at least one opening corresponding to each other. The method of claim 2, The opening corresponds to a region in which the driving device is disposed. The method of claim 1, The chassis base is made of a plastic plasma display device. The method of claim 1, And the chassis base and the thermally conductive member are attached by adhesive or double-sided tape. The method of claim 1, And the chassis base and the thermally conductive member are in close contact with each other. The method of claim 6, And the plasma display panel and the thermal conductive member are in close contact with each other. A plasma display panel in which an image is implemented using gas discharge; A chassis base coupled to the plasma display panel to support the plasma display panel, the chassis base having at least one opening; A thermally conductive member disposed between the plasma display panel and the chassis base and having at least one opening corresponding to a shape of the opening of the chassis base and integrally coupled to the chassis base; And And a driving device disposed on a surface of the chassis base opposite to the plasma display panel to drive the plasma display panel. The method of claim 8, And the chassis base is formed of a plastic material. The method of claim 8, And the opening of the chassis base opening and the heat conducting member are formed in a portion corresponding to the position where the driving device is disposed. The method of claim 8, And an opening rib extending from the chassis base to protrude from at least a portion of an edge of the opening of the chassis base. The method of claim 11, And the opening rib protrudes toward the plasma display panel. The method of claim 12, And at least a portion of an edge of the chassis base having edge ribs extending from the chassis base to protrude. The method of claim 13, And the thermally conductive member is inserted in a space between the opening rib and the edge rib of the chassis base. The method of claim 14, And the heat conductive member and the chassis base are attached by an adhesive or double-sided tape. The method of claim 8, The plasma display panel and the chassis base are bonded by double-sided tape, And a portion of the heat conductive member corresponding to the position where the double-sided tape is disposed is an opening for bonding. The method of claim 16, The double-sided tape is a plasma display device made of a thermally conductive material. The method of claim 16, And the double-sided tape has the same thickness as the heat conductive member. The method of claim 16, And the double-sided tape is the same size as the adhesive opening of the heat conductive member. The method of claim 16, And the thermally conductive member is in close contact with the plasma display panel.

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