This application makes reference to, incorporates the same herein, and claims all benefits accruing under 35 U.S.C.ยง119 from an application for PLASMA DISPLAY APPARATUS earlier filed in the Korean Intellectual Property Office on the 28th of Jun. 2005 and there duly assigned Serial No. 10-2005-0056057.
1. Technical Field
The present invention relates to a plasma display apparatus and, more particularly, to a plasma display apparatus having reduced weight.
2. Related Art
Flat panel display apparatuses using liquid crystal displays or plasma display panels are widely used to display images. In particular, plasma display apparatuses can be used to provide a large screen with superior characteristics in terms of image quality, thickness, weight, and viewing angle, and are easily fabricated.
In general, a plasma display apparatus includes a plasma display panel, a chassis, and a circuit unit. When the size of the plasma display panel is increased, the size of the chassis supporting the plasma display panel must also be increased. However, since the chassis is generally formed of aluminum, the weight of the chassis greatly increases when the size of the chassis increases, and thus, productivity when fabricating the chassis is degraded and fabrication costs of the chassis increase.
The present invention provides a plasma display apparatus having a reduced weight.
The present invention also provides a plasma display apparatus having a circuit unit with improved grounding stability.
The present invention further provides a plasma display apparatus having a structure with improved heat dissipation of the plasma display panel.
According to an aspect of the present invention, a plasma display apparatus comprises: a plasma display panel; and a chassis which is formed of plastic, and which is disposed on a rear portion of the plasma display panel to support the plasma display panel.
A more complete appreciation of the invention, and many of the attendant advantages thereof, will be readily apparent as the same becomes better understood by reference to the following detailed description when considered in conjunction with the accompanying drawings in which like reference symbols indicate the same or similar components, wherein:
Referring to
A chassis 120 is disposed on a rear portion of the plasma display panel 110 to support the plasma display panel 110. The chassis 120 is preferably formed of a plastic material, for example, polystyrene, acrylonitrile-butadiene-styrene (ABS), or poly butylenes terephthalate (PBT). The polystyrene may be high impact polystyrene (HIPS). Since plastic is generally lighter than metal, and since the chassis can be fabricated in various sizes and shapes through an injection molding process using the plastic, manufacturing efficiency for fabricating the chassis can be improved greatly.
In prior plasma display apparatuses, a process of forcibly inserting an additional boss into the chassis to support a circuit board has been required. Therefore, the number of processes and the rate of defect has been large, and thus fabrication costs have been too large.
In contrast, as shown in
A grounding member 170 is disposed between the plasma display panel 110 and the chassis 120. More specifically, the grounding member 170 is attached to a front surface 120b of the chassis 120 (see
A thermal conductive sheet 161 is disposed between the plasma display panel 110 and the chassis 120. A first surface 167a of the thermal conductive sheet 167 is fixed to the rear panel 112 of the plasma display panel 110 by an adhesive agent (not shown), and a second surface 167b of the thermal conductive sheet 167 is separated by a predetermined distance from the grounding member 170 and the chassis 120. The thermal conductive sheet 167 diffuses the heat transmitted from the plasma display panel 110, or performs a thermal exchange with the air between the grounding member 170 and the plasma display panel 110 so as to dissipate the heat.
The plasma display panel 110 and the grounding member 170 are fixed to each other by dual-adhesive tapes 163. However, holes corresponding to the dual-adhesive tapes 163 may be formed in the grounding member 170 in order to couple the plasma display panel 110 directly to the chassis 120 with the dual-adhesive tapes 163.
A circuit unit 140 is disposed on a rear portion of the chassis 120. The circuit unit 140 includes a plurality of substrates 141 for driving the plasma display panel 110. The substrates 141 are separated by a predetermined distance from the chassis base 120 by bosses 195 having screw threads formed on inner circumferential surfaces 195a (see
Referring to
As also shown in
The circuit unit 140 transmits electric signals to the plasma display panel 110 through signal transmission members, for example, flexible printed cables (FPCs), tape carrier packages (TCPs), or chip on films (COFs). In the present embodiment, the signal transmission members disposed on upper and lower portions of the chassis 120 (see
A cover member (not shown) may surround the TCPs 181, on which electronic devices 182 are mounted. The cover member dissipates heat generated by the electronic devices 182 to the outside, and prevents damage to the TCPs 181.
Hereinafter, characteristics of the plasma display apparatus 200 which are identical to those of the plasma display apparatus 100 will not be described.
Referring to
A chassis 220 is disposed on a rear portion of the plasma display panel 210 to support the plasma display panel 210. The chassis 220 may be formed of a plastic, for example, polystyrene, acrylonitrile-butadiene-styrene (ABS), or polybutylenes terephthalate (PBT). The polystyrene may be high impact polystyrene (HIPS). Since the chassis 220 is formed of plastic, the weight of the chassis 220 is reduced, manufacturing efficiency is improved, and fabrication costs of the chassis 220 are reduced. A circuit unit 240 is disposed on a rear portion of the chassis 220, and holes 220a are formed in portions of the chassis 220 corresponding to the circuit unit 240. The weight of the chassis 220 is reduced by forming the cut portions 220a.
Referring to
The circuit unit 240 includes a plurality of substrates 241 for driving the plasma display panel 210. The substrates 241 are supported by bosses 295 having screw threads on inner circumferential surfaces 295a thereof. Circuit lines (not shown) for processing electric signals are formed on the substrates 241, and electronic devices 245 are mounted on the circuit lines. Penetration holes 241b, into which screws 290 which will be screwed into the bosses 295 are inserted, are formed in the substrates 241. A grounding portion 241a surrounding at least one of the penetration holes 241b is formed on each of the substrates 241, and the grounding portions 241a are electrically connected to the circuit line supplying the ground potential. Since the screws 290 are inserted into the penetration holes 241b so as to electrically connect the grounding portion 241a to the grounding member 270, grounding stability of the circuit unit 240 is improved.
The circuit unit 240 transmits electric signals to the plasma display panel 210 via signal transmission members, such as TCPs 281 and FPCs 283. Electronic devices 282 are mounted on the TCPs 281, and a cover member (not shown) can cover the electronic devices 282.
A thermal conductive sheet 267 is disposed between the plasma display panel 210 and the chassis 220. A first surface 267a of the thermal conductive sheet 267 is fixed to the rear panel 212 of the plasma display panel 210 by an adhesive agent (not shown), and a second surface 267b of the thermal conductive sheet 267 is separated by a predetermined distance from the grounding member 270 and the chassis 220. As described above, since the holes 220a are formed in the chassis 220 so as to correspond to the substrates 241, the amount of air flowing across the second surface 267b of the thermal conductive sheet 267 is increased due to the cut portions 220a. Therefore, the air can flow sufficiently, and thus, heat dissipation through the thermal conductive sheet is improved. Moreover, since the increased airflow occurs around the substrates 241, the heat from the substrates 241 and the electronic devices 245 mounted on the substrates 241 is dissipated sufficiently.
In the plasma display apparatus of the present invention, since the chassis is formed of plastic, the weight of the chassis is reduced. In addition, since the chassis has holes formed therein, the weight of the plasma display apparatus is further reduced. Therefore, even when the plasma display apparatus is enlarged, problems caused by weight increase are prevented. In addition, the amount of materials used to fabricate the chassis is reduced, and thus, fabrication costs are lowered.
In addition, the grounding unit of the circuit unit is electrically connected to the grounding member, and thus, the grounding stability of the circuit unit is greatly improved.
Since the air can sufficiently flow to the thermal conductive sheet due to the presence of holes in the chassis, the heat generated by the plasma display panel and the circuit unit is dissipated sufficiently.
While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention as defined by the following claims.
Number | Date | Country | Kind |
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10-2005-0056057 | Jun 2005 | KR | national |