초록 ▼

A selectively deployable cupholder that incorporates the best aspects of the static and active component cupholder designs, composed of stationary cylindrical component and a movable cylindrical component that is telescopically nested within the stationary cylindrical component. When the movable cyl

A selectively deployable cupholder that incorporates the best aspects of the static and active component cupholder designs, composed of stationary cylindrical component and a movable cylindrical component that is telescopically nested within the stationary cylindrical component. When the movable cylindrical component is in an undeployed state, whereat it is fully nested with respect to the stationary cylindrical component, a low vertical profile is provided, suitable for drawer applications. When the movable cylindrical component is in a deployed state, whereat it is fully telescopically raised relative to the stationary cylindrical component, the cupholder receives beverage containers with a stable support as is required for the automotive driving environment.

대표청구항 ▼

1. A selectively deployable cupholder, comprising:a stationary cylindrical component having a stationary cylindrical wall defining an inner wall surface, a plurality of tracks being formed in said inner wall surface, a floor being connected to said stationary cylindrical wall at a lower end thereof;

1. A selectively deployable cupholder, comprising:a stationary cylindrical component having a stationary cylindrical wall defining an inner wall surface, a plurality of tracks being formed in said inner wall surface, a floor being connected to said stationary cylindrical wall at a lower end thereof; anda movable cylindrical component having a movable cylindrical wall defining an outer wall surface, said movable cylindrical component being telescopically nested with respect to said stationary cylindrical component, a plurality of bosses emanating from said outer wall surface, one boss for each track, respectively;wherein each said boss is received in a respective said track such that said plurality of tracks guide telescopic movement of the movable cylindrical component with respect to the stationary cylindrical component between an undeployed state and a deployed state; andwherein said stationary cylindrical wall has an upper end and the opposite lower end; wherein said cupholder further comprises:an upper detent formed in each said track adjacent said upper end, respectively; anda lower detent formed in each said track adjacent said lower end, respectively;wherein each said upper detent receives a respective said boss to thereby define said deployed state, and wherein each said lower detent receives a respective said boss to thereby define said undeployed state;wherein each said tack is helically oriented, wherein each said track extends between substantially said upper end and said lower end of said stationary cylindrical wall;wherein said movable cylindrical wall has a lower end, wherein said plurality of bosses are located adjacent said lower end of said movable cylindrical wall; andwherein each said upper detent comprises a first concavity of a respective said track carried on a respective upper resilient arm formed in said stationary cylindrical wall; and wherein each said lower detent comprises a second concavity of a respective said track carried on a respective lower resilient arm formed in said floor. 2. The cupholder of claim 1, wherein said plurality of bosses comprises three bosses substantially equidistantly distributed circumferentially on said outer wall surface of said movable cylindrical wall. 3. A selectively deployable cupholder and trim component, comprising:a stationary cylindrical component having a stationary cylindrical wall defining an inner wall surface, a plurality of tracks being formed in said inner wall surface, a floor being connected to said stationary cylindrical wall at a lower end thereof;a movable cylindrical component having a movable cylindrical wall defining an outer wall surface, said movable cylindrical component being telescopically nested with respect to said stationary cylindrical component, a plurality of bosses emanating from said outer wall surface, one boss for each track, respectively; anda trim component connected to said stationary cylindrical wall;wherein each said boss is received in a respective said track such that said plurality of tracks guide telescopic movement of the movable cylindrical component with respect to the stationary cylindrical component between an undeployed state and a deployed state; andwherein said stationary cylindrical wall has an upper end and the opposite lower end, wherein said cupholder further comprises:an upper detent formed in each said track adjacent said upper end, respectively; anda lower detent formed in each said track adjacent said lower end, respectively;wherein each said upper detent receives a respective said boss to thereby define said deployed state, and wherein each said lower detent receives a respective said boss to thereby define said undeployed state;wherein each said track is helically oriented, wherein each said track extends between substantially said upper end and said lower end of said stationary cylindrical wall;wherein said movable cylindrical wall has a lower end, wherein said plurality of bosses are located adjacent s aid lower end of said movable cylindrical wall; andwherein each said upper detent comprises a first semi-circular concavity of a respective said track formed in said stationary cylindrical walls; and wherein each said lower detent comprises a second semi-circular concavity of a respective said track formed adjacent said floor. 4. The cupholder and trim component of claim 3, wherein said plurality of bosses comprises three bosses substantially equidistantly distributed circumferentially on said outer wall surface of said movable cylindrical wall. 5. The cupholder of claim 4, wherein said stationary cylindrical component is removably interfaced with respect to said trim component. 6. The cupholder of claim 4, wherein said trim component is a slidable drawer. 7. The cupholder and trim component of claim 3, wherein each said boss is carried on a respective resilient arm connected with said movable cylindrical wall. 8. The cupholder of claim 7, wherein said plurality of bosses comprises three bosses substantially equidistantly distributed circumferentially on said outer wall surface of said movable cylindrical wall. 9. The cupholder of claim 8, wherein said stationary cylindrical component is removably interfaced with respect to said trim component. 10. The cupholder of claim 8, wherein said trim component is a slidable drawer. 11. A selectively deployable cupholder and trim component, comprising:a cupholder comprising:a stationary cylindrical component having a stationary cylindrical wall defining an inner wall surface, a plurality of tracks being formed in said inner wall surface, a floor being connected to said stationary cylindrical wall at a lower end thereof; anda movable cylindrical component having a movable cylindrical wall defining an outer wall surface, said movable cylindrical component being telescopically nested with respect to said stationary cylindrical component, a plurality of bosses emanating from said outer wall surface, one boss for each track, respectively;wherein each said boss is received in a respective said track such that said plurality of tracks guide telescopic movement of the movable cylindrical component with respect to the stationary cylindrical component between an undeployed state and a deployed state;wherein said stationary cylindrical wall has an upper end and the opposite lower end; wherein said cupholder further comprises:an upper detent formed in each said track adjacent said upper end, respectively; anda lower detent formed in each said track adjacent said lower end, respectively;wherein each said upper detent receives a respective said boss to thereby define said deployed state, and wherein each said lower detent receives a respective said boss to thereby define said undeployed state;a trim component; anda resilient lock interface between said trim component and said stationary cylindrical component which selectively connects said cup holder to said trim component such that said stationary cylindrical component is nonrotatable with respect to said trim component, wherein said resilient lock interface is resiliently deformable to selectively release the connection of said cup holder with respect to said trim component. 12. The cupholder and trim component of claim 11, wherein said trim component is a slidable drawer. 13. The cupholder and trim component of claim 11, wherein each said upper detent comprises a first concavity of a respective said track carried on a respective upper resilient arm formed in said stationary cylindrical wall; and wherein each said lower detent comprises a second concavity of a respective said track carried on a respective lower resilient arm formed in said floor.