KR20080038573A - Plasma display device - Google Patents

Abstract

A plasma display device is provided to improve heat radiation efficiency by forming a finger between a cover member and a signal transmitting member, the finger resiliently contacting electronic elements. A plasma display device includes a plasma display panel(10) displaying an image and a circuit unit(17) generating an electric signal to drive the plasma display panel. A signal transmitting member(18) is connected to the circuit unit at one side thereof and is connected to the plasma display panel at the other side to transmit the electric signal from the circuit unit to the panel, and has electronic elements(19). The electron elements are covered by a cover member(21), and a finger(22) is fixed to the cover member, in which at least one portion of the finger resiliently contacts the electronic element.

Description

Plasma display device

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

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

3 is an enlarged view of a portion A of FIG. 2.

4 to 6 are partial cross-sectional views showing another modified example of the plasma display device according to the embodiment of the present invention.

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

100: plasma display device 10: plasma display panel

11: front panel 12: back panel

13: chassis base 13a: chassis base bend

14: attachment means 15: heat transfer medium

16: support member 17: circuit part

18: signal transmission means 19: electronic device

20: wiring portion 21: cover member

22, 32, 42, 52: fingers 22a, 22b: bends of the fingers

23: double-sided tape

The present invention relates to a plasma display device, and more particularly, to a plasma display device having improved heat radiation efficiency.

Plasma display device using plasma display panel is a flat panel display device that displays images by using gas discharge phenomenon, and is excellent in various display ability such as brightness, contrast, afterimage, and viewing angle, and it is possible to display thin screen and large screen. It is attracting attention as a display device.

Typically, the plasma display apparatus includes a plasma display panel, a chassis base for supporting the same, a circuit unit for driving the panel, a case, and the like.

The plasma display apparatus further includes signal transmission means in which electronic elements are mounted as mediating signal transmission between the plasma display panel and the circuit unit.

The electronic devices generate a driving signal of the plasma display panel, and generate a large amount of heat when driving the plasma display panel. The heat generated at this time causes problems such as deterioration of the device, making it difficult to smoothly drive the plasma display device.

Conventionally, in order to solve this problem, the heat generated from the electronic devices is conducted to the chassis base or the support member installed on the rear surface of the chassis base to be discharged to the outside, and the cover member is installed to heat the heat generated from the electronic devices to the cover member. It was structured to be turned over and released to the outside. Furthermore, the thermal conductive sheet was inserted between the electronic element and the cover member.

However, when a predetermined force or more is applied from the outside, the signal transmission means is damaged or the signal transmission means is not in contact with the chassis base (or the support member), and thus there is a problem in that the heat radiation effect is lowered.

Furthermore, in order to slim the plasma display device, an electronic device may be made smaller and may be positioned at the lower end of the chassis base. At this time, since the screw is not directly coupled to the lower end of the chassis base with the electronic device, the electronic device does not come into contact with the chassis base (or the support member) due to external force or thermal deformation of the support member.

The present invention provides a plasma display device capable of improving heat dissipation efficiency by improving contact force between an electronic element of a signal transmission means and a chassis base.

The present invention provides a plasma display panel for implementing an image, a circuit unit for generating an electrical signal for driving the plasma display panel, and in order to transmit a signal from the circuit unit to the plasma display panel, one side is connected to the circuit unit and the other side is A plasma display including signal transmission means connected to the plasma display panel and including an electronic element, at least a cover member covering the electronic element, and a finger fixed to the cover member and at least a portion of which is in contact with the electronic element while elastically pushing the electronic element. Start the device.

In the present invention, the finger may be fixed to the cover member by double-sided tape, screws and welding. In addition, one side of the finger may be bent to cover one end of the cover member may be pressed and fixed to the cover member.

In the present invention, the finger may be made of a material containing a metal such as beryllium, copper, copper, phosphor bronze, stainless steel, or may be plated.

In an embodiment of the present invention, the plasma display panel may further include a chassis base disposed between the plasma display panel and the circuit unit to support the plasma display panel and the circuit unit. An edge of the chassis base may include a bent portion. The electronic device may be disposed to correspond to the bent portion, and the electronic element may contact the chassis base by the pressure of the finger.

The present invention may further include a support member disposed between the cover member and the chassis base to support the electronic device.

Hereinafter, with reference to the embodiments of the present invention shown in the accompanying drawings will be described in detail the configuration and operation of the present invention.

1 is a schematic exploded perspective view of a plasma display apparatus 100 according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1, and FIG. 3 is an enlarged view of portion A of FIG. 2.

The plasma display apparatus 100 according to an exemplary embodiment of the present invention illustrated in FIGS. 1 to 3 largely includes a plasma display panel 10, a chassis base 13, and a circuit unit 17.

The plasma display panel 10 displays an image and includes a front panel 11 and a back panel 12 that are coupled to face each other. Various types of plasma display panels may be adopted as the plasma display panel 10. As an example, an AC plasma display panel 10 having a surface discharge three-electrode structure may be selected. The front panel 11 and the back panel 12 include a substrate, a plurality of electrodes formed on the substrate and applying a voltage, and a dielectric layer covering the electrodes.

The chassis base 13 is provided behind the plasma display panel 10. The chassis base 13 supports the plasma display panel 10 and is coupled to the plasma display panel 10 by attachment means 14 such as a double-sided tape. At this time, the attachment means 14, such as double-sided tape, are spaced apart from each other along the edge of the chassis base 13. The chassis base 13 also receives heat generated from the plasma display panel 10 and smoothly discharges it to the outside. For this purpose, the chassis base 13 is made of a material having excellent heat dissipation such as aluminum. Can be done. However, it can also be formed of synthetic resin for weight reduction and cost reduction. The chassis base 13 may be manufactured by casting or press working. The chassis base 13 may have bent portions 13a that are bent in opposite directions of the plasma display panel 10 at upper and lower edges thereof.

A heat transfer medium 15 such as a heat conductive sheet is inserted between the plasma display panel 10 and the chassis base 13. The heat transfer medium 15 disperses local heat generated in the plasma display panel 10 when the plasma display apparatus 100 is driven. In addition, the heat transfer medium 15 may easily release heat to the outside by smoothly transferring heat generated in the plasma display panel 10 to the chassis base 13. One side of the heat transfer medium 15 may contact the plasma display panel 10 and the other side may be spaced apart from the chassis base 13. The heat transfer medium 15 may be formed of graphite, silicon, or the like.

The support member 16 may be installed at the bent portion 13a of the chassis base 13. The support member 16 may be made of a material such as aluminum to prevent bending and warping of the chassis base 13.

The circuit part 17 is provided in the rear part of the chassis base 13. The circuit unit 17 generates an electrical signal for driving the plasma display panel 10 and transmits it to the plasma display panel 10.

There is a signal transmission means 18 connecting them between the circuit portion 17 and the plasma display panel 10. The signal transfer means 18 is a medium for transmitting electrical signals between the circuit portion 17 and the plasma display panel 10, such as a tape carrier package or a chip on film. .

The signal transfer means 18 is equipped with electronic elements 19 such as integrated circuits that turn signal transmission from the circuit portion 17 to the plasma display panel 10 on / off.

The signal transmission means 18 consists of the electronic element 19 and the wiring part 20 of a tape form. When connecting between the circuit portion 17 and the plasma display panel 10 by the signal transmission means 18, the electronic elements 19 are arranged so as to correspond to the bent portions 13a formed at the upper and lower edges of the chassis base 13. can do. In this way, the plasma display apparatus 100 can be made slimmer by the thickness of the electronic element 19. The cover member 21 is provided at the lower end of the rear surface of the chassis base 13 so as to surround the signal transmission means 18 on which the electronic element 19 is mounted.

The cover member 21, including the electronic element 19, smoothly discharges heat generated from the signal transmission means 18 to the outside and prevents damage to the signal transmission means 18 by preventing a force applied from the outside. Function Furthermore, since it has a structure surrounding the electronic device 19, it also has a function to prevent noise generated in the electronic device (19). The cover member 21 may be formed using various materials, and may be formed of aluminum having good thermal conductivity and rigidity. The cover member 21 is fixed to the rear surface of the chassis base 13 with a screw or the like.

When the plasma display panel 10 is operating, heat is concentrated in the signal transmitting means 18, in particular the electronic elements 19. At this time, part of the heat generated in the electronic elements 19 is conducted to the cover member 21 and part is conducted to the support member 16 and the chassis base 13 is discharged to the outside.

In order to better conduct heat generated in the electronic elements 19 to the cover member 21, a thermal conductive sheet is inserted between the signal transmission means 18 and the cover member 21. However, when a force of a certain degree or more is applied to the plasma display module from the outside, the signal transmission means 18 is easily damaged. In addition, the electronic elements 19 do not come into contact with the chassis base 13 or the support member 16, and there is a problem in that the heat transfer effect from the electronic elements 19 to the chassis base 13 is lowered.

Furthermore, in order to slim down the plasma display apparatus 100, the electronic device 19 has a structure in which it is located at the lower end of the plasma display module. At this time, the screw is not directly coupled to the lower end of the plasma display module in which the electronic device 19 is located, and therefore, the electronic device 19 is the chassis base 13 or the support member 16 due to external force or thermal deformation of the support member 16. ), And the contact is not good because the heat dissipation efficiency is lowered.

In order to solve this problem, the present invention forms a finger 22 between the electronic element 19 and the cover member 21 to be in contact with the electronic elements 19. 1 to 3, the finger 22 may be bonded to the cover member 21 by a conductive double-sided tape 23.

Referring to FIG. 3, the bent portion 22a of the finger 22 bent to attach the double-sided tape 23 is bent toward the cover member 21 to contact the cover member 21, and the double-sided tape 23 is not attached thereto. One side 22b of the finger 22 may also be slightly bent to contact the cover member 21. Through this, the contact area between the finger 22 and the cover member 21 may be maximized to improve thermal conductivity from the electronic element 19 to the cover member 21.

However, the finger 22 may be formed in various structures. 4 to 6 show first to third modifications of this embodiment. The same reference numerals as in the above-described embodiment indicate the same members.

Referring to FIG. 4, the finger 32 is joined to the cover member 21 by screws. In this case, one or more screws may be used according to process characteristics.

Referring to Figure 5 it can be seen that the finger 42 and the cover member 21 are coupled in a crimping structure. One side of the finger 42 is bent to surround the end of the cover member 21, and then coupled by pressing.

Referring to FIG. 6, the finger 52 and the cover member 21 are joined by welding. In addition, the finger and the cover member 21 can be combined in various structures according to the conditions of the manufacturing process.

When the fingers 22, 32, 42, and 52 are formed, the structure may be extended to correspond to the lower end of the chassis base 13 and may be partially formed only in the portion where the electronic element 19 is located. 1 shows that the finger 22 is partially formed.

Fingers 22, 32, 42, and 52 are formed of an elastic material to allow electronic element 19 to contact chassis base 13 or support member 16 at a constant pressure. In addition, in order to easily transfer the heat generated from the electronic device 19 to the cover member 21, it is formed using a material having high thermal conductivity. Therefore, the finger 21 may be formed of a metal including beryllium, copper, copper, phosphor bronze, stainless, and the like, and may be plated for improving properties.

In the plasma display apparatus 100 according to the present invention, the electronic elements 19 are stable at a predetermined pressure with the chassis base 13 or the support member 16 by using the elastic fingers 22, 32, 42, and 52. Contact with. As a result, heat generated in the electronic element 19 can be easily conducted to the chassis base 13 and the support member 16. Further, the fingers 22, 32, 42, 52 are formed using a material having good thermal conductivity, and the fingers 22, 32, 42, 52 and the cover member 21 are thermally conductive double-sided tape 23, screws, and crimped. Coupled by structure, welding, or the like, heat generated in the electronic device 19 can be easily transferred to the cover member 21 through the fingers 22, 32, 42, and 52.

The plasma display device according to the present invention has the effect of improving the heat dissipation efficiency by forming a finger between the cover member and the signal transmission means to contact the electronic elements.

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 (10)

A plasma display panel for implementing an image; A circuit unit generating an electrical signal for driving the plasma display panel; A signal transmission means for transmitting a signal from the circuit unit to the plasma display panel, one side of which is connected to the circuit unit and the other side of which is connected to the plasma display panel and includes an electronic element; A cover member covering at least the electronic element; And And a finger fixed to the cover member and at least a portion of which contacts the elastic element while pushing the electronic element. According to claim 1, And the finger is fixed to the cover member by double-sided tape. According to claim 1, And the finger is fixed to the cover member by a screw. According to claim 1, Wherein one side of the finger is bent to cover one end of the cover member and is compressed and fixed to the cover member. According to claim 1, And the finger is fixed to the cover member by welding. According to claim 1, The finger is a plasma display device made of a material containing a metal. The method of claim 6, The finger is a plasma display device made of a material containing beryllium, copper, copper, phosphor bronze, stainless The method of claim 6, The finger is plated plasma display device. The method according to any one of claims 1 to 8, A chassis base disposed between the plasma display panel and the circuit part to support the plasma display panel and the circuit part; A bent portion is formed at an edge of the chassis base, and the electronic element is disposed to correspond to the bent portion, and the electronic element contacts the chassis base by the pressure of the finger. The method of claim 9, And a support member disposed between the cover member and the chassis base to support the electronic device.

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