In some examples, a docking system includes a base, a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough, and projections extending upwardly from a surface of the base. The docking system further includes resilient bias
In some examples, a docking system includes a base, a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough, and projections extending upwardly from a surface of the base. The docking system further includes resilient bias elements to bias the deck at a raised position at which the upper surface of the deck extends at or above a height of each of the projections, where the deck is linearly movable from the raised position to a lowered position at which the projections extend through the apertures, the deck being linearly movable without being pivotably coupled to the base.
대표청구항▼
1. A docking system comprising: a base; a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough; projections extending upwardly from a surface of the base, the projections comprising: a computing device connector projection
1. A docking system comprising: a base; a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough; projections extending upwardly from a surface of the base, the projections comprising: a computing device connector projection having electrical contacts for electrically connecting the docking system to the computing device; and a computing device retainer projection configured to engage the computing device when resting upon the deck to retain the computing device relative to the deck; and resilient bias elements to bias the deck at a raised position at which the upper surface of the deck extends at or above a height of each of the projections, wherein the deck is linearly movable from the raised position to a lowered position at which the projections extend through the apertures, the deck being linearly movable without being pivotably coupled to the base, wherein the deck comprises a side skirt that covers an outer surface of the base when the deck is in the lowered position, such that the side skirt is outside the base, and the side skirt extends along all sides of the deck to conceal the projections when the deck is in the raised position. 2. The docking system of claim 1, wherein the side skirt covers the outer surface of the base when the deck is in the raised position. 3. The docking system of claim 1, wherein the upper surface of the deck has a same orientation in the raised position and the lowered position. 4. The docking system of claim 1, wherein a first resilient bias element of the bias elements is located proximate a rear of the base, and a second resilient bias element of the bias elements is located proximate a front of the base. 5. The docking system of claim 1, wherein the surface of the base from which the projections extend upwardly is an upper surface of the base. 6. The docking system of claim 1, wherein each of the resilient bias elements comprises a spring. 7. The docking system of claim 1, wherein the resilient bias elements cause the deck to float above the base with no pivotal coupling of the deck to the base. 8. The docking system of claim 1, wherein the upper surface of the deck omits any posts, bars, or catches carried by the deck and protruding above the upper surface. 9. The docking system of claim 1, wherein an entirety of the upper surface of the deck is flat. 10. A method of providing a docking system, comprising: providing a base; providing a deck having an upper surface to contact a computing device resting upon the deck, wherein the upper surface includes apertures therethrough; and extending projections upwardly from a surface of the base, the projections comprising: a computing device connector projection having electrical contacts for electrically connecting the docking system to the computing device; and a computing device retainer projection configured to engage the computing device when resting upon the deck to retain the computing device relative to the deck; supporting the deck using resilient bias elements to bias the deck at a raised position at which the upper surface of the deck extends at or above a height of each of the projections; arranging the deck to be linearly movable from the raised position to a lowered position at which the projections extend through the apertures, the deck being linearly movable without being pivotably coupled to the base; and providing a side skirt that extends downwardly from the deck, the side skirt covering an outer surface of the base when the deck is in the lowered position such that the side skirt is outside the base, and wherein the side skirt extends along all sides of the deck to conceal the projections when the deck is in the raised position. 11. The method of claim 10, wherein the side skirt covers the outer surface of the base when the deck is in the raised position. 12. The method of claim 10, wherein the upper surface of the deck has a same orientation in the raised position and the lowered position. 13. The method of claim 10, wherein a first resilient bias element of the bias elements is located proximate a rear of the base, and a second resilient bias element of the bias elements is located proximate a front of the base. 14. The method of claim 10, wherein each of the resilient bias elements comprises a spring. 15. The method of claim 10, wherein the upper surface of the deck omits any posts, bars, or catches carried by the deck and protruding above the upper surface. 16. The method of claim 10, wherein an entirety of the upper surface of the deck is flat.
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이 특허에 인용된 특허 (12)
Erler William F. ; O'Hagan Timothy P. ; Grzelak Keith D., Active cooling system for cradle of portable electronic devices.
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Helot Jacques H. ; Segura Jaime ; Lichtenwalter Guy ; Derocher Michael D. ; Steiger Gerald W. ; Muranami Masahiko, Docking station having a plurality of adapter trays for a plurality of portable computers.
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