In embodiments of the present invention, hinge mechanisms for use in a portable computing device having a base and a lid are presented, the hinge mechanism including: a base link pivotally connected with a base such that the base link rotates about a first axis of rotation, the base link being in sl
In embodiments of the present invention, hinge mechanisms for use in a portable computing device having a base and a lid are presented, the hinge mechanism including: a base link pivotally connected with a base such that the base link rotates about a first axis of rotation, the base link being in sliding communication with a lid; a lid link pivotally connected with the lid such that the lid link rotates about a second axis of rotation, the lid link being in sliding communication with the base; and a center pin pivotally connecting the base link with the lid link such that the base link and the lid link rotate about a third axis of rotation wherein the base link, the lid link, and the center pin cooperatively function to translate the lid over at least two planes of motion with respect to the base.
대표청구항▼
What is claimed is: 1. A portable computing device comprising a base, a lid and a hinge mechanism, the base including at least a keyboard disposed at a top surface of the base, the hinge mechanism comprising: a base link pivotally connected with the base such that the base link rotates about a firs
What is claimed is: 1. A portable computing device comprising a base, a lid and a hinge mechanism, the base including at least a keyboard disposed at a top surface of the base, the hinge mechanism comprising: a base link pivotally connected with the base such that the base link rotates about a first axis of rotation, the base link being in sliding communication with the lid; a lid link pivotally connected with the lid such that the lid link rotates about a second axis of rotation, the lid link being in sliding communication with the base; and a center pin pivotally connecting the base link with the lid link such that the base link and the lid link rotate about a third axis of rotation wherein the base link, the lid link, and the center pin cooperatively function to translate the lid over at least two planes of motion with respect to the base, wherein a first rotation of the lid with respect to the base is associated with a maximum horizontal translation of the lid with respect to the base, the maximum horizontal translation of the lid with respect to the base being larger than any other horizontal translation of the lid with respect to the base with the base being coupled with the lid by the hinge mechanism, the first rotation being measured from a closed position of the lid with respect to the base, the keyboard being hidden when the lid is in the closed position with respect to the base, the keyboard being revealed when the lid is not in the closed position with respect to the base, a second rotation of the lid with respect to the base is associated with a maximum vertical translation of the lid above the top surface of the base, the maximum vertical translation of the lid with respect to the base being larger than any other vertical translation of the lid with respect to the base with the base being coupled with the lid by the hinge mechanism, the second rotation being measured from the closed position of the lid with respect to the base, and the first rotation of the lid with respect to the base is larger than the second rotation of the lid with respect to the base. 2. The portable computing device of claim 1 further comprising: a base slider pin rigidly attached with the base link, the lid configured to slidingly receive the base slider pin; and a lid slider pin rigidly attached with the lid link, the base configured to slidingly receive the lid slider pin. 3. The portable computing device of claim 1 wherein the base link is pivotally connected with the base by a base pin configured such that the base pin is rigidly connected with the base link and wherein the lid link is pivotally connected with the lid by a lid pin configured such that the lid pin is rigidly connected with the lid link. 4. The portable computing device of claim 3 further comprising a friction element that is provided with the base such that a frictional force may be applied to the base pin. 5. The portable computing device of claim 4 wherein the frictional force is configured to provide linear friction over a lid rotation of approximately 0 to 120 degrees. 6. The portable computing device of claim 1 wherein the lid includes a computing device display, the computing device display being hidden when the lid is in the closed position with respect to the base, the computing device display being revealed when the lid is not in the closed position with respect to the base. 7. A portable computing device, comprising: a base, the base including at least a keyboard disposed at a top surface of the base; a lid; and a hinge mechanism coupled with the base and the lid and arranged to translate the lid vertically and horizontally with respect to the base while the lid pivotally rotates with respect to the base, wherein the lid includes a slide way configured to limit translation of the lid, a first rotation of the lid with respect to the base is associated with a positive y-translation of the lid with respect to the top surface of the base along a virtual v-axis that is perpendicular to the top surface of the base, the first rotation being measured from a closed position of the lid with respect to the base, the keyboard being hidden when the lid is in the closed position with respect to the base, the keyboard being revealed when the lid is not in the closed position with respect to the base, a second rotation of the lid with respect to the base is associated with a negative y-translation of the lid with respect to the top surface of the base alone the virtual y-axis, the second rotation being measured from the closed position of the lid with respect to the base, and the top surface of the base is associated with zero v-translation of the lid with respect to the top surface of the base, the lid being configured to have the zero y-translation when the lid is in the closed position with respect to the base. 8. The portable computing device of claim 7 wherein the hinge mechanism comprises: a base slider pin rigidly attached with the base link, the lid configured to slidingly receive the base slider pin; and a lid slider pin rigidly attached with the lid link, the base configured to slidingly receive the lid slider pin. 9. The portable computing device of claim 8 wherein the base link is pivotally connected with the base by a base pin configured such that the base pin is rigidly connected with the base link and wherein the lid link is pivotally connected with the lid by a lid pin configured such that the lid pin is rigidly connected with the lid link. 10. The portable computing device of claim 9 further comprising a friction element that is provided with the base such that a frictional force may be applied to the base pin. 11. The portable computing device of claim 10 wherein the frictional force is configured to provide linear friction over a lid rotation of approximately 0 to 120 degrees. 12. The portable computing device of claim 7 wherein the lid includes a computing device display, the computing device display being hidden when the lid is in the closed position with respect to the base, the computing device display being revealed when the lid is not in the closed position with respect to the base. 13. The portable computing device of claim 7 the base slider pin translates over any of the paths selected from the group consisting of: straight path, semi-arcuate path, and arcuate path. 14. The portable computing device of claim 7 the lid slider pin translates over any of the paths selected from the group consisting of: straight path, semi-arcuate path, and arcuate path. 15. A hinge mechanism coupling a first piece to a second piece, the first piece including at least a computer component disposed at a top surface of the first piece, the hinge mechanism comprising: a first link pivotally connected with the first piece such that the first link rotates about a first axis of rotation, the first link being in sliding communication with the second piece; a second link pivotally connected with the second piece such that the second link rotates about a second axis of rotation, the second link being in sliding communication with the first piece; a center pin pivotally connecting the first link with the second link such that the first link and the second link rotate about a third axis of rotation wherein the first link, the second link, and the center pin cooperatively function to translate the second piece over at least two planes of motion with respect to the first piece; a first piece slider pin rigidly attached with the first link, the second piece configured to slidingly receive the first piece slider pin; and a second piece slider pin rigidly attached with the second link, the first piece configured to slidingly receive the second piece slider pin, wherein a first rotation of the second piece with respect to the first piece is associated with a positive y-translation of the second piece with respect to the top surface of the first piece along a virtual y-axis that is perpendicular to the top surface of the first piece, the first rotation being measured from a closed position of the second piece with respect to the first piece, the computer component being hidden when the second piece is in the closed position with respect to the first piece, the computer component being revealed when the second piece is not in the closed position with respect to the first piece, a second rotation of the second piece with respect to the first piece is associated with a negative y-translation of the second piece with respect to the top surface of the first piece alone the virtual y-axis, the second rotation being measured from the closed position of the second piece with respect to the first piece, the top surface of the first piece is associated with zero y-translation of the second piece with respect to the top surface of the first piece, the second piece being configured to have the zero v-translation when the second piece is in the closed position with respect to the first piece, and the second rotation of the second piece with respect to the first piece is larger than the first rotation of the second piece with respect to the first piece. 16. The hinge mechanism of claim 15 wherein the first link is pivotally connected with the first piece by a first piece pin configured such that the first piece pin is rigidly connected with the first link and wherein the second link is pivotally connected with the second piece by a second piece pin configured such that the second piece pin is rigidly connected with the second link. 17. The hinge mechanism of claim 16 further comprising a friction element that is provided with the first piece such that a frictional force may be applied to the first piece pin. 18. The hinge mechanism of claim 17 wherein the frictional force is configured to provide linear friction over a second piece rotation of approximately 0 to 120 degrees. 19. The hinge mechanism of claim 15 wherein at least one of the first link and the second link remains a same shape whenever the second piece is translated relative to the first piece. 20. The hinge mechanism of claim 15 wherein the first link and the second link are directly connected only by the center pin.
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