Key-input mechanisms are disclosed. An example mechanism includes an arced, resilient keycap, the arc of the keycap having a first central arc angle when un-pressed. The keycap is configured to, when pressed, deform so as to have a second central arc angle, the first central arc angle being greater
Key-input mechanisms are disclosed. An example mechanism includes an arced, resilient keycap, the arc of the keycap having a first central arc angle when un-pressed. The keycap is configured to, when pressed, deform so as to have a second central arc angle, the first central arc angle being greater than the second central arc angle. The keycap is further configured to, when released after being pressed, return to its un-pressed shape having the first central arc angle. The key input mechanism further includes a switch disposed under the keycap. The switch is configured to, when the keycap is pressed, electrically couple two or more circuit traces to indicate a keystroke for the key input mechanism. The switch is further configured to, when the keycap is released, electrically decouple the two or more circuit traces to indicate that the keystroke for the key input mechanism is complete.
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1. A key input mechanism for use in a keyboard input device, the key input mechanism comprising: a keycap including: a first cylindrical edge;a second cylindrical edge parallel to the first cylindrical edge, the first cylindrical edge and the second cylindrical edge being configured to facilitate se
1. A key input mechanism for use in a keyboard input device, the key input mechanism comprising: a keycap including: a first cylindrical edge;a second cylindrical edge parallel to the first cylindrical edge, the first cylindrical edge and the second cylindrical edge being configured to facilitate securing of the keycap to the keyboard input device;an arced portion extending between the first cylindrical edge and the second cylindrical edge, such that the first cylindrical edge is disposed at a first end of the arced portion and the second cylindrical edge is disposed at a second end of the arced portion, the arced portion of the keycap defining an upper surface of the key input mechanism and having a first central arc angle when un-pressed, the arced portion having a thickness that is less a thickness of the first cylindrical edge and less than a thickness of the second cylindrical edge,the keycap being configured to: when pressed, deform so as to have a second central arc angle, the first central arc angle being greater than the second central arc angle; andwhen released after being pressed, return to its un-pressed shape having the first central arc angle; anda switch disposed under the keycap, the switch being configured to: when the keycap is pressed, electrically couple two or more circuit traces to indicate a keystroke for the key input mechanism; andwhen the keycap is released, electrically decouple the two or more circuit traces to indicate that the keystroke for the key input mechanism is complete. 2. The key input mechanism of claim 1, wherein the keycap is configured to operate as a leaf spring when pressed and released. 3. The key input mechanism of claim 1, wherein the keycap is formed from one of polycarbonate/acrylonitrile butadiene styrene (PC/ABS), hardened steel, nylon, rubber and thermoplastic polyurethane (TPU). 4. The key input mechanism of claim 1, wherein the keycap is formed from at least one of polycarbonate/acrylonitrile butadiene styrene (PC/ABS), hardened steel, nylon, rubber and thermoplastic polyurethane (TPU). 5. The key input mechanism of claim 1, wherein the switch comprises a dome switch. 6. The key input mechanism of claim 5, wherein the dome switch comprises one of a metal dome switch, a polyester dome switch and a silicone dome switch. 7. The key input mechanism of claim 6, wherein the dome switch is plated with one or more of nickel, silver and gold. 8. The key input mechanism of claim 6, wherein the dome switch is coated with graphite. 9. The key input mechanism of claim 1, wherein, when the keycap is pressed, the first cylindrical edge of the keycap remains in a fixed position and the second cylindrical edge of the keycap moves away from the first cylindrical edge. 10. The key input mechanism of claim 1, wherein, when the keycap is pressed, the first cylindrical edge of the keycap and the second cylindrical edge of the keycap remain in respective fixed positions. 11. A keyboard input device, the keyboard input device comprising: a plurality of key input mechanisms, each key input mechanism comprising: a keycap including:a first cylindrical edge;a second cylindrical edge parallel to the first cylindrical edge, the first cylindrical edge and the second cylindrical edge being configured to facilitate securing of the keycap to a surface of the keyboard input device; an arced portion extending between the first cylindrical edge and the second cylindrical edge, such that the first cylindrical edge is disposed at a first end of the arced portion and the second cylindrical edge is disposed at a second end of the arced portion, the arced portion of the keycap defining an upper surface of the key input mechanism and having a first central arc angle when un-pressed, the arced portion having a thickness that is less a thickness of the first cylindrical edge and less than a thickness of the second cylindrical edge,the keycap being configured to: when pressed, deform so as to have a second central arc angle, the first central arc angle being greater than the second central arc angle; andwhen released after being pressed, return to its un-pressed shape having the first central arc angle; anda switch disposed under the keycap, the switch being configured to: when the keycap is pressed, electrically couple two or more circuit traces to indicate a keystroke for the key input mechanism; andwhen the keycap is released, electrically decouple the two or more circuit traces to indicate that the keystroke for the key input mechanism is complete. 12. The keyboard input device of claim 11, wherein at least one of the key input mechanisms comprises a plurality of redundant switches disposed under its respective keycap. 13. The keyboard input device of claim 11, wherein the respective keycaps for each key input mechanism are configured to operate as leaf springs when pressed and released. 14. The keyboard input device of claim 11, wherein the respective switches each comprise a dome switch. 15. The keyboard input device of claim 11, wherein, when a respective keycap of a given key input mechanism is pressed, the first cylindrical edge of the respective keycap remains in a fixed position and the second cylindrical edge of the respective keycap slides in a direction away from the first cylindrical edge. 16. The keyboard input device of claim 11, wherein, when a respective keycap of a given key input mechanism is pressed, the first cylindrical edge and the second cylindrical edge of the respective keycap remain in respective fixed positions. 17. A computing device comprising: a keyboard input device, the keyboard input device including: a plurality of key input mechanisms, each key input mechanism comprising: a keycap including:a first cylindrical edge;a second cylindrical edge parallel to the first cylindrical edge, the first cylindrical edge and the second cylindrical edge being configured to facilitate securing of the keycap to a surface of the keyboard input device; an arced portion extending between the first cylindrical edge and the second cylindrical edge, such that the first cylindrical edge is disposed at a first end of the arced portion and the second cylindrical edge is disposed at a second end of the arced portion, the arced portion of the keycap defining an upper surface of the key input mechanism and having a first central arc angle when un-pressed, the arced portion having a thickness that is less a thickness of the first cylindrical edge and less than a thickness of the second cylindrical edge,the keycap being configured to: when pressed, deform so as to have a second central arc angle, the first central arc angle being greater than the second central arc angle; andwhen released after being pressed, return to its un-pressed shape having the first central arc angle; anda switch disposed under the keycap, the switch being configured to: when the keycap is pressed, electrically couple two or more circuit traces to indicate a keystroke for the key input mechanism; andwhen the keycap is released, electrically decouple the two or more circuit traces to indicate that the keystroke for the key input mechanism is complete. 18. The computing device of claim 17, wherein the computing device comprises one of a laptop computing device and a netbook computing device. 19. The computing device of claim 17, wherein the keycaps are formed using at least one of insert molding and lamination. 20. The computing device of claim 17, wherein the respective keycaps for each key input mechanism are configured to operate as respective leaf springs when pressed and released.
Palmowski David (3368 Pleasant Valley Rd. Syracuse NY 13215), Keypad structure including switches with external metal dome like spring operating members.
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