Adjustable Bicycle Seat Post Assembly
First Claim
1. An adjustable height bicycle seat post assembly comprising:
- an outer seat tube;
an inner seat post telescopically slidably received in said outer seat tube for moving a bicycle seat between raised and lowered conditions;
a latch member movable between an unlatched position in which said outer seat tube and said inner seat post are freely telescopically slidable relative to one another and a latched position in which said inner seat post is fixed in one of at least two height-adjusted positions relative to said outer seat tube;
a remote actuator selectively movable between actuated and unactuated positions;
a flexible motion transmitting cable operatively connecting said remote actuator and said latch member for moving said latch member toward said unlatched position in response to movement of said remote actuator toward said actuated position; and
a lost motion coupling for functionally decoupling said remote actuator from said latch member in response to a dominant shearing load between said inner seat post and said outer seat tube trapping said latch member in said latched position and for automatically recoupling said remote actuator to said latch member when the dominant shearing load falls below a predetermined limit, whereby said lost motion coupling enables said remote actuator to be moved to said actuated position while said latch remains trapped in said latched position without damaging said cable and also permitting an operator to deploy said remote actuator at any convenient time prior to a desired change in seat height.
1 Assignment
0 Petitions
Accused Products
Abstract
An adjustable-height bicycle seat post assembly comprises a hollow seat post for supporting a bicycle seat slidably on plastic guides or shims inside a hollow tube. The hollow tube clamps into the frame of a bicycle. A mainspring forces the post upward, but a locking mechanism interconnects the post with the tube in various fixed positions relative to the tube. The locking mechanism includes a housing, which supports a plunger for reciprocating movement into and out of engagement with holes on the post. The locking mechanism is affixed to the outside of the tube to bear shearing forces on the plunger. An endcap on the locking mechanism and a topcap on the tube protect the assembly from foreign debris. The locking mechanism may be manipulated remotely using a magnetic switch assembly or manually using a mechanical assembly. A lost motion coupling is integrated into the locking mechanism and/or actuator assembly to enable the remote actuator to be moved or deployed while the latch remains trapped under the influence of a dominant shear load. The lost motion coupling is also effective to allow an operator to deploy the remote actuator at any convenient time prior to a desired change in seat height.
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Citations
38 Claims
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1. An adjustable height bicycle seat post assembly comprising:
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an outer seat tube;
an inner seat post telescopically slidably received in said outer seat tube for moving a bicycle seat between raised and lowered conditions;
a latch member movable between an unlatched position in which said outer seat tube and said inner seat post are freely telescopically slidable relative to one another and a latched position in which said inner seat post is fixed in one of at least two height-adjusted positions relative to said outer seat tube;
a remote actuator selectively movable between actuated and unactuated positions;
a flexible motion transmitting cable operatively connecting said remote actuator and said latch member for moving said latch member toward said unlatched position in response to movement of said remote actuator toward said actuated position; and
a lost motion coupling for functionally decoupling said remote actuator from said latch member in response to a dominant shearing load between said inner seat post and said outer seat tube trapping said latch member in said latched position and for automatically recoupling said remote actuator to said latch member when the dominant shearing load falls below a predetermined limit, whereby said lost motion coupling enables said remote actuator to be moved to said actuated position while said latch remains trapped in said latched position without damaging said cable and also permitting an operator to deploy said remote actuator at any convenient time prior to a desired change in seat height. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A bicycle assembly having an on-the-fly adjustable height seat, said assembly comprising:
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a frame;
at least two wheels rotatably supported in said frame for rolling engagement with the ground;
a handlebar movably supported in said frame and steerably connected to at least one of said wheels;
a seat for supporting a rider;
an outer seat tube;
an inner seat post telescopically received in said outer seat tube and relatively movable between fully retracted and fully extended positions, one of said inner seat post and said outer seat tube connected to said seat and movable therewith;
a latch member movable between an unlatched position in which said outer seat tube and said inner seat post are freely telescopically slidable relative to one another and a latched position in which said inner seat post is fixed in one of at least two height-adjusted positions relative to said outer seat tube;
a remote actuator disposed on said handlebar and selectively movable between actuated and unactuated positions;
a flexible motion transmitting cable operatively connecting said remote actuator and said latch member for moving said latch member toward said unlatched position in response to movement of said remote actuator toward said actuated position; and
a lost motion coupling for functionally decoupling said remote actuator from said latch member in response to a dominant shearing load between said inner seat post and said outer seat tube trapping said latch member in said latched position and for automatically recoupling said remote actuator to said latch member when the dominant shearing load falls below a predetermined limit, whereby said lost motion coupling enables said remote actuator to be moved to said actuated position while said latch remains trapped in said latched position without damaging said cable and also permitting an operator to deploy said remote actuator to a desired change in seat height. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
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33. A method for selectively moving a bicycle seat between at least two positions of height adjustment while the bicycle is being ridden, said method comprising the steps of:
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providing a bicycle having a seat;
providing an adjustable seat post support comprising upper and lower telescopic members;
supporting the seat on the upper member for sliding movement between at least two height-adjusted positions;
providing a latch member movable between an unlatched position in which the upper and lower members are freely telescopically moveable relative to one another and a latched position in which the upper and lower members are locked relative to one another;
providing a remote actuator moveable between actuated and unactuated positions;
urging the latch member toward the unlatched position in response to movement of the remote actuator toward the actuated position;
trapping the latch member in the latched position by applying a dominant shearing load between the upper and lower members;
moving the remote actuator completely to its actuated position while the latch member remains trapped in its latched position and then automatically withdrawing the latch member toward its unlatched position in response to a decrease in the shear loading between the upper and lower members. - View Dependent Claims (34, 35, 36, 37, 38)
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Specification