Heat-exchange panel for portable computer

A portable computer with a base and keyboard with a pivotal lid assembly containing both a visual display panel and a parallel mounted central processing unit circuit board, as well as coplanar memory and visual display driving circuitry. The lid assembly is provided with front and rear clam shell covers with the front cover holding a bezel around the visual display (an LCD), and the front also provides the supports for the circuit boards in spaced, parallel relation to both the LCD and the rear cover, so when the lid is open and generally vertical, air blows by convection through lower vent holes in the covers, over both sides of the boards, and exits through upper vent holes.

BACKGROUND OF THE INVENTION 
Over recent years there has been widespread development of personal 
computers, and the industry has experienced a rather dramatic increase in 
the design, development and sale of computers which are portable. These 
portable computers are not significantly larger than small portable 
typewriters, and contain their own built-in central processing unit, 
memory, hard drive, disk drives, keyboard, display and carrying handle. 
The keyboard usually projects forwardly from a base and the display is 
typically a liquid crystal display contained on one side of a panel or lid 
which folds down flat on the upper surface of the keyboard to serve as a 
cover to protect the keyboard and display during storage and travel. 
It is desirable that the display panel, including the hinging hardware, 
fold flush with the upper surface of the keyboard, and this is usually 
accomplished by accommodating the display panel with a recess into which 
the upper surface of the keyboard fits. 
Because the base, in the past, houses the disk drives, hard drive, power 
supply, battery pack, optional component boards, and circuit boards for 
the CPU (central processing unit), memory and display driver, the optimum 
space allocation within the base was a problem and dictated that the 
various circuit boards be stacked usually parallel to one another within 
the base either horizontally or vertically. This layering of circuit 
boards within the base requires the removal of the boards individually for 
inspection and testing, and more importantly provides an obstruction to 
ventilation air flowing through the base. 
It is a primary object of the present invention to provide a portable 
computer that ameliorates the problems noted above in housing circuit 
boards in the computer base. 
SUMMARY OF THE PRESENT INVENTION 
In accordance with the present invention, a portable computer with a base 
and keyboard is provided with a pivotal lid assembly containing both a 
visual display panel and a parallel mounted central processing unit 
circuit board, as well as coplanar memory and visual display driving 
circuitry. 
Since the CPU, i.e. central processing unit, is almost always circuit board 
mounted, as are the computer memory, and visual display drive, the lid 
assembly being similarly planar and large in two dimensional area, 
provides an extremely convenient location for these components. The 
location of the CPU board, sometimes referred to as a "mother board", in 
the lid assembly behind the visual display, as well as the other circuitry 
noted, besides physical convenience, provides more efficient board 
cooling, enables direct, simple access to all circuitry by removing a rear 
lid cover without removing any circuit boards, and importantly frees the 
base for space needed for the drives and additional option boards. 
Toward these ends, the present lid assembly is provided with front and rear 
clam shell covers with the front cover holding a bezel around the visual 
display (an LCD in this instance), and the front also provides the 
supports for the circuit boards in spaced, single planar relation to both 
the LCD and the rear cover, so that when the lid is open and generally 
vertical, air flows by convection through lower vent holes in the covers, 
over both sides of the boards, and exits through upper vent holes 
providing a superior heat-exchange temperature control for the circuitry 
on the boards. 
Other objects and advantages of the present invention will appear more 
clearly from the following detailed description.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring to the drawings, and particularly FIGS. 1 and 2, a portable 
computer 10 is illustrated according to the present invention and is seen 
to generally include a transversely elongated base 11, a keyboard assembly 
13, and a lid assembly 14 pivotally mounted on base 11. The lid assembly 
14 is selectively locked over the keyboard assembly 13 by side latch 
assemblies 17 mounted on the opposite sides of lid assembly 14. 
The base 11 houses a disk drive 16, a hard drive, power supply, battery 
pack, and optional board slots for other features such as modems and 
memory expansion. 
The lid assembly 14, according to the present invention, generally includes 
a front cover 18 having a bezel 19 together supporting an LCD display 20, 
a rear cover 21 arranged in clam-shell fashion with cover 18, a CPU board 
22, and an LCD drive board 24 (see FIGS. 7 and 9). 
As seen in FIGS. 3, 5, 6, 7 and 9, the forward cover 18 has a pair of 
downwardly projecting spaced flanges 26 and 27 that each have a bearing 
assembly 29 (FIG. 7) pivotally mounted on pivot rod 31 carried by base 11, 
and in this way the lid assembly 14 is pivotally mounted on base 11. 
Front cover 18 has a forward wall 34 that holds bezel 19 in position, top 
and bottom walls 35 and 36 and side walls 37 and 38. 
As seen in FIGS. 3, 6 and 7, bottom wall 36 has a downwardly angled central 
portion 40 with two spaced rows of rectangular vent apertures 42 and 43 
therein. There is also a row of apertures 44 in front cover top wall 35, 
as seen clearly in FIGS. 5 and 7. 
Rear cover 21 is fastened to front cover 18 by four fasteners (not shown), 
the lower two at locations 45 and 46 illustrated in FIG. 3, and the other 
two are at the top of the covers, and rear cover 21 is seen to include a 
flat rear wall 47, top and bottom walls 48 and 49, and side walls 51 and 
52. 
As seen in FIG. 6, bottom wall 49 of the rear cover 21 is cut out at 54 to 
receive the downwardly angled portion 40 of the front cover bottom wall 
36. 
Viewing FIGS. 5 and 7, the rear cover 21 has a first row of rectangular 
apertures 60 at the juncture of top wall 48 and rear wall 47, a second row 
of rectangular apertures 61 near the top of rear wall 47, and third, 
fourth, fifth and sixth rows of rectangular apertures 63, 64, 65 and 66 
(also see FIG. 4), near the bottom of rear wall 47. 
Viewing FIG. 8, the two circuit boards mounted in lid assembly 14, namely, 
CPU board 22 and video display driver board 24, are both mounted to the 
front cover 18 by a plurality of fasteners 70 extending through the boards 
into integral threaded fastener posts such as indicated at 71 and 72 in 
FIG. 9 that extend upwardly from front cover forward wall 34. Posts 71 and 
72 have a sufficient length so that the circuit boards 22 and 24 and their 
components are spaced a substantial distance from both the LCD display 20 
and the rear wall 47 of rear cover 21. 
It should be understood that the CPU board 22 and driver board 24 are shown 
somewhat diagramatically in the drawings, and particularly in FIG. 8, and 
in actuality, additional chips and circuitry would virtually fill the 
boards but have been eliminated solely for drawing simplicity. 
As seen in FIG. 8, board 22 would typically carry a terminal connector 76 
accessing the keyboard 13 and the components in base 11 through a ribbon 
cable, 77, an on-board battery 78, a plurality of microprocessor chips 
such as indicated at 79, and banks of memory chips 80 illustrated in 
abbreviated form. Similarly, the LCD driver board 24 would include memory 
decoding and driving image producing circuitry inputted from the CPU board 
22 through releasable connector 82 and outputted to the LCD display 20 
through a connector 83 and a ribbon cable 84. 
As seen in FIG. 7, air flows upwardly through the lid assembly 14, as 
indicated by the arrows through apertures 42, 43, 63, 64, 65 and 66, 
across both the front and rear sides of the boards 22 and 24 and exits at 
the upper end of the covers through apertures 44, 60 and 61, thereby 
providing efficient heat-exchange cooling of the circuit boards by 
convection since, of course, the lid assembly 14 when open and in 
operation is in a generally vertical position taking advantage of the 
natural upward heated air flow.