KR20050111925A - Plasma display device - Google Patents

Abstract

Plasma display device according to the invention, the plasma display panel; A heat dissipation plate disposed in parallel with the plasma display panel and attached to one surface of the plasma display panel opposite to the plasma display panel; And at least one mounting member attached to the other surface of the heat dissipation plate to mount the driving circuit board.

Description

Plasma Display Device {PLASMA DISPLAY DEVICE}

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

As is known, a plasma display device generates a plasma by gas discharge and displays an image using the plasma (hereinafter referred to as a 'PDP'), a chassis base supporting the PDP, and the chassis. It includes a driving circuit board mounted on the opposite side of the PDP of the base and connected to the discharge sustaining electrode and the address electrode located inside the PDP through a flexible printed circuit and a connector.

In large terms, since the PDP is composed of two glass substrates, the mechanical rigidity is weak. For this reason, the chassis base made of metal with larger mechanical rigidity than glass is used so that PDP may maintain mechanically stable rigidity.

In addition to the function of maintaining the rigidity of the PDP as described above, the chassis base is referred to as the support function of the driving circuit board, the heat sink function of the PDP, and the electromagnetic interference (EMI). ) It is in charge of grounding function.

A PDP is attached to the front of the chassis base and a driving circuit board is mounted to the rear of the chassis base so that the chassis base achieves the above functions.

Since this PDP is made of glass, it is difficult to process the screw holes in the PDP for screwing the chassis base and the double-sided tape is used to attach the PDP to the front of the chassis base. A boss is formed on the rear surface of the chassis base, and the driving circuit board is screwed to the boss.

As described above, US Pat. No. 5,971,566 may be used as a technique for attaching the PDP to the front surface of the chassis base. The technique uses a heat conducting member between the PDP and the chassis base, and heat from the PDP is transferred through the heat conducting member. It is configured to transmit to the chassis base and radiate heat from the chassis base.

As described above, the chassis base has a holding function such as attaching the PDP and supporting the driving circuit board in addition to the heat dissipation action of the PDP. In this case, in order to firmly perform the holding action while maintaining the rigidity of the PDP, the chassis base Should have strong mechanical rigidity against bending and torsion.

Since the chassis base is made of a metal material having good thermal conductivity, the chassis base is effective in maintaining heat radiation of the PDP and maintaining rigidity of the PDP, but has a problem of increasing the weight of the entire PDP device. Therefore, in the case of the PDP device, which is recently developed as a large model, the weight of the whole device may be increased, which may result in a difficult application of the wall mount.

Accordingly, an object of the present invention is to solve the above problems, and an object thereof is to provide a plasma display device that reduces the weight of an entire device while improving heat dissipation performance of a PDP.

Plasma display device according to the present invention for achieving the above object, the plasma display panel; A heat dissipation plate disposed in parallel with the plasma display panel and attached to one surface of the plasma display panel opposite to the plasma display panel; And at least one mounting member attached to the other surface of the heat dissipation plate to mount the driving circuit board.

In the plasma display device according to the present invention, the heat dissipation plate may be formed of an aluminum material having thermal conductivity and attached to the plasma display panel by an acrylic adhesive.

In addition, in the plasma display device according to the present invention, the mount member is protrudingly formed on both side ends of the main body portion substantially attached to the heat dissipation plate and parallel to each other in a vertical direction of the heat dissipation plate to drive the drive. It may be provided with a support for supporting a circuit board. In this case, a plurality of screw grooves may be formed in the support part along the longitudinal direction thereof.

In the plasma display device according to the present invention, the mount member may be formed of a synthetic resin material and attached to the heat dissipation plate by a double-sided tape.

In addition, in the plasma display device according to the present invention, an air passage may be formed between the driving circuit board and the main body.

The plasma display apparatus according to the present invention may form at least one opening exposing the heat dissipation plate in the main body.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

1 is an exploded perspective view of a plasma display device according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the combined configuration of FIG.

1 and 2, the plasma display apparatus 100 according to an exemplary embodiment of the present invention basically attaches a plasma display panel 2 (hereinafter referred to as a 'PDP') and a rear surface of the PDP 2. And a heat dissipation plate 3 for dissipating heat generated from the PDP 2 and a mounting member 4 attached to the heat dissipation plate 3 to mount and support the plurality of driving circuit boards 5. have.

The PDP 2 generates an image by exciting phosphors by vacuum ultraviolet rays caused by gas discharge therein. The PDP 2 has a shape of a substantially rectangular shape (a wide rectangle having a pair of long sides and a pair of short sides). Appears in shape. Since the present invention relates to the coupling relationship between the PDP 11 and other components, a detailed volume description of the PDP 11 is omitted here. In the drawing, one surface of the PDP 2 to which the heat dissipation plate 3 is attached is defined as a rear surface, and a surface opposite to the surface to which the heat dissipation plate 3 is attached is defined as a front surface.

The heat dissipation plate 3 according to the present embodiment is formed of an aluminum material having thermal conductivity, and is in close contact with the entire rear surface of the PDP 2 to receive and dissipate heat generated from the PDP 2 and to dissipate the PDP 2. It is desirable to cushion the external shock and vibration applied to the. In addition, it is important that the heat dissipation plate 3 smoothly conducts heat conduction in the plane and thickness directions of the PDP 2, and if such a function is possible, two or more plates may be provided in one PDP 2, It may be formed of more than one material and applied.

The heat dissipation plate 3 is attached to the entire rear surface of the PDP 2 by the first coupling part 6, and the heat dissipation plate 3 and the PDP 2 are firmly attached to the first coupling part 6. An adhesive material, such as an acrylic adhesive, having an adhesive strength enough to bond can be used.

As described above, the plasma display apparatus 100 according to the present embodiment includes a heat dissipation plate 3 made of aluminum as a means for dissipating heat generated from the PDP 2. Heat dissipation characteristics of the display device are improved by receiving heat generated from the heat dissipation and dispersing the heat effectively in the thickness direction and the planar direction.

In the plasma display apparatus 100, the mounting member 4 for mounting the driving circuit board 5 is attached to the surface opposite to the surface on which the PDP 2 of the heat dissipation plate 3 is attached at predetermined intervals. do. The reason why the mounting members 4 are spaced apart from each other with respect to the surface of the heat dissipation plate 3 is that the surface of the heat dissipation plate 3 is partially exposed to the atmosphere through the above-described space to radiate heat of the PDP 2. This is to increase the efficiency. The mount member 4 has a structural strength sufficient to maintain the rigidity of the heat dissipation plate 3 and to support and support the driving circuit board 5, and may substantially reduce the weight of the entire apparatus 100. Is formed. Furthermore, the mount member 4 is formed of a material having a conductive property for effectively dissipating heat generated from the PDP 2 and the driving circuit board 5 and for EMI grounding.

To this end, the mount member 4 is made of a synthetic resin material having unique properties as described above, for example, ABS, PS, SAN, PC, or PBT-based polymer material, and the injection process or the extrusion process using such a material. It can be easily molded through. The mounting member 4 is attached to the heat dissipation plate 3 by the second coupling part 7, and the second coupling part 7 is interposed between the mounting member 4 and the heat dissipation plate 3. Double-sided adhesive tapes having an adhesive strength enough to firmly bond them can be used.

Specifically, the mounting member 4 according to the present embodiment is formed integrally with the body portion 4a and the body portion 4a which is substantially attached to the surface of the heat dissipation plate 3 to couple the driving circuit board 5. The support part 4b is provided.

The main body portion 4a is a portion attached to the heat dissipation plate 3 by the second coupling portion 7 described above, and forms at least one opening 4c that partially exposes the attachment surface of the heat dissipation plate 3. have. The openings 4c may be formed in two or more numbers, and the number of these openings may be varied in various ways depending on the total area of the main body 4a. As described above, the mount member 4 having the opening 4c in the main body portion 4a has a structure in which the driving circuit board 5 can be coupled to and support the driving circuit board 5, so that the driving circuit board ( 5) This is an example of a shape with one part removed except the minimum part necessary to support it. In addition, as the mount member 4 forms an opening 4c in the main body 4a, a part of the surface of the heat dissipation plate 3 may be exposed to the atmosphere to improve the heat dissipation effect of the PDP 2. Can be.

And the support part 4b of the mount member 4 is integrally provided in the both ends of the main-body part 4a so that it may mutually parallel along the short side direction of the PDP 2, and from the both-side end the thickness direction of the main-body part 4a Is formed to protrude. The support portion 4b is formed with a plurality of screw grooves 4d for mounting the drive circuit board 5 using the screws 9. The driving circuit board 5 is provided with a plurality of fastening holes 5a communicating with the plurality of screw grooves 4d at positions corresponding to the screw grooves 4d of the support portion 4b.

As described above, the mount member 4 according to the present embodiment includes a support portion 4b protruding from both side ends of the main body portion 4a in the thickness direction thereof. An air passage 8 can be formed between the 5 and the main body 4a. The air passage 8 may be formed in the short side direction of the PDP 2 with the driving circuit board 5 on one side and the main body 4a on the opposite side thereof. This smoothes the air flow between the drive circuit board 5 and the main body 4a, causing natural convection.

In assembling the plasma display device 100 of the present invention configured as described above, one surface of the heat dissipation plate 3 is attached to the rear surface of the PDP 2, and the mount member (on the other side of the heat dissipation plate 3). 4) The drive circuit board 5 is coupled to the support portion 4b of the mount member 4 by using the screw 9 in the attached state. The assembly operation of the apparatus 100 is completed by assembling the front cabinet (not shown) and the heat dissipation plate 3 and then assembling the back cover (not shown) and the heat dissipation plate 3 integrally. . At this time, the coupling structure of the heat dissipation plate 3 and the mounting member 4 may attach the mounting member 3 with the driving circuit board 5 to the heat dissipation plate 4, Productivity can be improved by reducing the number of assembly operations.

Therefore, the device 100 is a heat dissipation of a thin thickness that can replace the binder and the heat dissipation unit, unlike the conventional plasma display device that combines the PDP and the chassis base with a heat conductive member interposed therebetween by using a binder such as a double-sided tape. Since the plate 3 is attached to the PDP 2, the whole device is easy to manufacture, and the heat dissipation plate 3 receives heat generated from the PDP 2 in the thickness direction and the planar direction. By dissipating one heat effectively, the heat dissipation characteristics of the plasma display device are improved.

In the device 100, the mounting member 4 made of a lightweight material mounts the driving circuit board 5, maintains the rigidity of the PDP 2 and the heat dissipation plate 3, and the driving circuit board 5 and the like. Since it can satisfy the conventional chassis base function of not only dissipating the generated heat but also grounding the EMI, the weight of the entire device can be remarkably reduced unlike the conventional method.

Furthermore, the plasma display apparatus 100 according to the present embodiment forms openings 4c for partially exposing the heat dissipation plate 3 in the mounting member 4 and the air between the mounting member 3 and the driving circuit board 5. By forming the air passage 8 which facilitates the flow, heat generated in the PDP 2 and the driving circuit board 5 can be easily dispersed / discharged. In other words, while heat generated from the PDP 2 is distributed through the heat dissipation plate 3, the heat generated from the driving circuit board 5 is transferred to the air passage 8 through the opening 4c. As it is transmitted to the air passage 8, the convection phenomenon formed in the air passage 8 maximizes the heat dissipation efficiency of the PDP 2 and the driving circuit boards 5.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

According to the plasma display device according to the present invention, the heat dissipation plate that can replace the conventional binder and the heat transfer member and a lightweight mounting member that satisfies the functions of the conventional chassis base, so that the weight of the entire device is remarkably increased Can be reduced. Therefore, it is possible to further improve the reliability of the product, there is an effect that it is easy to apply a large model for the wall hanging in accordance with the trend of large size of the device.

In addition, according to the plasma display device according to the present invention, the air circuit is formed between the mounting members by mounting the driving circuit board, thereby further improving the heat dissipation characteristics of the PDP and the driving circuit board.

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

2 is a cross-sectional view of the combined configuration of FIG.

Claims (7)

A plasma display panel; A heat dissipation plate disposed in parallel with the plasma display panel and attached to one surface of the plasma display panel opposite to the plasma display panel; And At least one mounting member attached to the other surface of the heat dissipation plate to mount the driving circuit board; Plasma display device comprising a. The method of claim 1, The heat dissipation plate is formed of an aluminum material having thermal conductivity, and is attached to the plasma display panel by an acrylic adhesive. The method of claim 1, The mount member includes a main body portion substantially attached to the heat dissipation plate, and a support portion protruding from both end portions of the main body portion so as to be parallel to each other in a vertical direction of the heat dissipation plate to support the driving circuit board. Device. The method of claim 3, wherein And the mount member is formed of a synthetic resin material and attached to the heat dissipation plate by double-sided tape. The method of claim 3, wherein And a plurality of screw grooves formed along the longitudinal direction of the support part. The method of claim 3, wherein And an air passage formed between the driving circuit board and the main body. The method of claim 6, And at least one opening for exposing the heat dissipation plate to the main body.