Portable computers almost universally have a top cover that pivots to open or close over a base unit. The top cover typically houses a flat-panel display, and the base unit has a keyboard and, many times, some form of pointing device.
In most cases, the flat-panel display is supported in the top cover by securing it to a plastic back or rear portion of the top cover. Usually, the flat-panel display has four or more holes around its periphery; bolts extend orthogonally to the face of the display, through the holes, to engage bosses, which are integral with the back. The plastic back is typically structural in nature, being manufactured from a rigid plastic. When connected together, the flat-panel display and the plastic back provide necessary rigidity to the top cover.
The selection of the flat-panel display in portable computers is generally driven by two competing concerns. On one hand, with the availability of ever-larger flat-panel displays, there is a desire to incorporate those displays into newer portable computer designs. Running contrary to this, however, is the desire to limit the overall dimensions of the computers to enhance their portability. For example, it is common to design portable computers with outside dimensions limited to approximately 8Ć11ā³. These dimensions are characteristic of notebook-sized computers.
Various innovations have come about to increase the active or viewing area of the flat-panel display as a proportion of the total surface area of the top cover to obtain larger displays without increasing the computer's overall dimensions. For example, it is known to fold the driving and other peripheral circuitry around to the back of the flat-panel display. This results in a display panel whose surface area is almost entirely active except for the width of the metal rim that holds the display together and the bolt holes that are used to attach the flat-panel display to the plastic back.
The problem with prior art configurations is the fact that they fail to recognize that the size of the top cover need not be large enough to accommodate the bolt holes. According to the present invention, the flat-panel display is provided with fixtures in the display's sidewalls to provide for its support by lateral mounting members. The advantage of this approach, in which the bolt holes are essentially rotated around to the sides of the flat-panel display, is the reduction in the portion of the portable computer's top cover that is not an active display. In practice, this results in an increase of six millimeters or more in the size display that may be housed in the same-sized top cover.
In specific embodiments, the lateral mounting members comprise bolts that engage bosses in the flat-panel display.
Further reductions in the inactive portions of the top cover may be achieved by extending the ends of the display's fluorescent back-light beyond or through the metal rim that surrounds the display. This allows the rim to be even thinner.
Also according to the invention, in order to accommodate the lateral mounting of the flat-panel display, metal brackets are used. These brackets extend from the base unit hinges and cradle the display. This adds torsional rigidity, but also removes the requirement that the back must be structural. As a result, the back can simply be a thin, molded cosmetic rear cover for the computer's top cover.
In specific embodiments, the lateral mounting members, or bolts, pass through the brackets and the plastic back to engage the bosses, thus binding the elements to each other.
The above and other features of the invention including various novel details of construction and combinations of parts, and other advantages, will now be more particularly described with reference to the accompanying drawings and pointed out in the claims. It will be understood that the particular method and device embodying the invention are shown by way of illustration and not as a limitation of the invention. The principles and features of this invention may be employed in various and numerous embodiments without departing from the scope of the invention.
In the accompanying drawings, reference characters refer to the same parts throughout the different views. The drawings are not necessarily to scale; emphasis has instead been placed upon illustrating the principles of the invention. Of the drawings:
The overall dimensions of the particular embodiment illustrated when closed are about 8.5 inches wide by 12 inches long, which dimensions also apply to the top cover 100 and base unit 12 separately. The total closed height is over two inches, with the height of the top cover 100 being approximately 0.5 inches.
The unique characteristics of the present invention are evident in the ratio between the total surface area of the top cover 100 and the surface area of the active or viewable area of the display 114. The active area of the display 114 illustrated is 14.1 inches, diagonally. Consequently, it consumes over 90% of the top cover's total area.
In many prior art designs, the back 118 of the top cover 100 provided significant structural support to the back cover. This fact was evident by the existence of spines or ridges, which are integral with the back, that added rigidity. It is also common to bolt the display 114 to the back by placing bosses in the back during molding. In the present embodiment, only the sidewalls 130, 132 of the back 118 contribute to the back's bending rigidity, and the back overall has little torsional rigidity.
Rigidity, especially torsional, is added to the top cover 100 by right and left metal brackets 122, 124 that are located in the back. The proximal portion of each bracket 122, 124 connects to respective right and left hinge elements 126, 128 that are adapted to cooperate with corresponding hinge elements in the base unit 12. The brackets 122, 124 are each aligned against respective sidewalls 130, 132 of the back 118. The cross-section of each bracket is essentially āLā-shaped, the shorter legs 134, 136 extending orthogonally away from the planar inner surface of the back 118 and abutting the back's sidewalls 130, 132. Two holes 138, 140 in each bracket are sized to accommodate bolts 148, 150, two millimeters in diameter, and the holes 138, 140 align with corresponding holes 142, 144 through the sidewalls 130, 132 of the back 118. Preferably, the outer surfaces of the back's sidewalls 130, 132 have slight depressions 146 to recess heads of the bolts 148, 150.
The flat-panel display 114 (not shown) comprises a large active area 152 that is defined by the transparent top window of the display 114. The top window is clamped to the panel's plastic back (not shown in this figure) by a metal rim 154 that extends around the display's circumference, defining the display's bottom (180), left (181), top (182), and right (183) sidewalls 180-183. Holes 156, 158, formed in the metal rim 154, align with the holes 138, 140 in the brackets and back when the display is installed. The four bolts 148, 150 extend through the back 118, brackets 122, 124 to engage bosses held in the display 114 (not shown) behind the metal rim 154.
A plastic bezel 160 snap fits over the display onto the back. The bezel's rim extends inward hiding the display's metal rim 154.
According to the present invention, circular cut-outs 166 are formed in the metal rim 154 to allow the ends of the fluorescent back-light 168 to extend slightly beyond the outer surface of the metal rim 154. As a result, the overall width of the display is no wider than the critical length of the fluorescent back-light 168. In effect, twice the thickness of the metal rim 154, since cut-outs 166 are provided for both ends of the back-light 168, is removed from the overall width of the display 114 without any loss in active area 152. Defined another way, the inactive portions on both sides of the display 114 are each decreased by the thickness of the metal rim 154 by enabling the ends of the back-light 168 to extend beyond the metal rim.
In other embodiments of the invention, the bolts 148, 150 may be replaced with pins that extend through the back 118 and brackets 122, 124 to engage non-threaded holes in the sidewalls 180-183 of the display 114, possibly using an interference fit. Alternatively, these pins could be integral with the metal brackets 122, 124. In this latter case, it may be desirable to have the display 114 to snap fit with the pins, to facilitate the manufacturing process.
In still another embodiment, pins extend outward from the display 114, possibly integral with the metal rim 154 to engage the brackets 122, 124 with an arrangement. This configuration has an advantage, because there is no need to accommodate holes in the display, which could affect the display's electrical design.
In still other embodiments, mounting could be accomplished off of the top and bottom sidewalls 180, 182 of the display 114. In this case, lateral mounting members that cooperate with these sidewalls would be used to replace the mounting fixtures on the right and left sidewalls 181, 183, or in addition to those fixtures.
While this invention has been particularly shown and described with references to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
This application is a continuation of application Ser. No. 11/006,135, filed Dec. 6, 2004, which is a divisional of application Ser. No. 08/822,438, filed Mar. 21, 1997, now U.S. Pat. No. 6,838,810, issued Jan. 4, 2005.
Number | Date | Country | |
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Parent | 08822438 | Mar 1997 | US |
Child | 11006135 | Dec 2004 | US |
Number | Date | Country | |
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Parent | 11006135 | Dec 2004 | US |
Child | 11417322 | May 2006 | US |