초록 ▼

A brake lever assembly for actuating a hydraulic disc brake system is shown and described. The brake lever assembly provides two-stage braking by operatively connecting a lever to first and second pistons contained in a master cylinder. The first and second pistons are operatively connected to one a

A brake lever assembly for actuating a hydraulic disc brake system is shown and described. The brake lever assembly provides two-stage braking by operatively connecting a lever to first and second pistons contained in a master cylinder. The first and second pistons are operatively connected to one another such that they move together until the first piston reaches a threshold distance from a top end of the master cylinder, after which the second piston moves with respect to the first piston.

대표청구항 ▼

What is claimed is: 1. A master cylinder assembly comprising: a master cylinder having a length defining an axis, a top end and a bottom end, the master cylinder further defining a threshold distance along the axis from the top end of the master cylinder; a first piston disposed in and movable with

What is claimed is: 1. A master cylinder assembly comprising: a master cylinder having a length defining an axis, a top end and a bottom end, the master cylinder further defining a threshold distance along the axis from the top end of the master cylinder; a first piston disposed in and movable within the master cylinder, the first piston defining a distance along tie axis from the top end of the master cylinder; and a second piston disposed in and movable within the master cylinder, the second piston being operatively connected to the first piston; wherein when the distance from the first piston to the top end of the master cylinder is at least the threshhold distance, the second piston is movable with respect to the first piston, and wherein the second piston has a first piston engagement surface, the first piston has a second piston engagement surface, and the second piston engagement surface abuttingly engages the first piston engagement surface when the distance from the first piston to the top end of the master cylinder is less than the threshold distance. 2. A master cylinder assembly comprising: a master cylinder having a length defining an axis, a top end and a bottom end, the master cylinder further defining a threshold distance along the axis from the top end of the master cylinder; a first piston disposed in and movable within the master cylinder, the first piston defining a distance along the axis from the top end of the master cylinder; and a second piston disposed in and movable within the master cylinder, the second piston being operatively connected to the first piston; wherein when the distance from the first piston to the top end of the master cylinder is at least the threshold distance, the second piston is movable with respect to the first piston, and wherein the master cylinder further comprises a first fluid containing region having a fluid outlet; the first piston, second piston, and master cylinder define a second fluid containing region, and when the distance from the first piston to the top end of the master cylinder is less than the threshold distance, the first fluid containing region is in fluid communication with the second fluid containing region. 3. The master cylinder assembly of claim 2, wherein when the distance from the first piston to the top end of the master cylinder is at least the threshold distance, the first fluid containing region is substantially not in fluid communication with the second fluid containing region. 4. The master cylinder assembly of claim 3, wherein the second fluid containing region contains a fluid, and when the distance from the first piston to the top end of the master cylinder is it least the threshold distance, the fluid in the second fluid containing region biases the first piston toward the top end of the master cylinder. 5. The master cylinder assembly of claim 4, further comprising a coupling member for operatively connecting the second piston to a bicycle brake lever, wherein the coupling member is biased away from the first piston. 6. A master cylinder assembly comprising: a master cylinder having a top end, a bottom end, and a length, the master cylinder further defining a first movement region along a first portion of its length; a master piston assembly, comprising first and second pistons, the first and second pistons being disposed in and movable within the master cylinder; and a first biasing device positioned between the top end of the master cylinder and the first piston, wherein the first biasing device is configured to bias the first piston away from the top end of the master cylinder; wherein when the master piston assembly is located within the first movement region, the first piston is movable together with the second piston and when the master piston assembly is at least partially outside of the first movement region, the second piston is movable with respect to the first piston, wherein the master piston assembly is movable within the first movement region before the master piston assembly is movable outside of the first movement region. 7. A master cylinder assembly comprising: a master cylinder having a top end, a bottom end, and a length, the master cylinder further defining a first movement region along a first portion of its length, wherein the master cylinder further comprises a first lengthwise region along a second portion of its length having a first cross-sectional area, and a second lengthwise region along a third portion of its length having a second cross-sectional area, and the first cross-sectional area is greater than the second cross-sectional area, and wherein the first and second lengthwise regions are shaped to cooperatively define a projecting lip; a master piston assembly comprising first and second pistons, the first and second pistons being disposed in and movable within the master cylinder; wherein when the master piston assembly is located within the first movement region, the first piston is movable together with the second piston and when the master piston assembly is at least partially outside of the first movement region, the second piston is movable with respect to the first piston, wherein the master piston assembly is movable within the first movement region before the master piston assembly is movable outside of the first movement region, and a first biasing device positioned between the top end of the master cylinder and the first piston, wherein the first biasing device is configured to bias the first piston away from the top end of the cylinder. 8. A master cylinder assembly comprising: a master cylinder having a top end, a bottom end, and a length, the master cylinder further defining a first movement region along a first portion of its length wherein the master cylinder further comprises a first lengthwise region along a second portion of its length having a first cross-sectional area, and a second lengthwise region along a third portion of its length having a second cross-sectional area, and the first cross-sectional area is greater than the second cross-sectional area, and wherein the first and second lengthwise regions are shaped to cooperatively define a projecting lip, wherein the master cylinder further comprises a fluid passage for transmitting fluid from the first lengthwise region to the second lengthwise region; and a master piston assembly, comprising first and second pistons, the first and second pistons being disposed in and movable within the master cylinder; wherein when the master piston assembly is located within the first movement region, the first piston is movable together with the second piston and when the master piston assembly is at least partially outside of the first movement region, the second piston is movable with respect to the first piston, wherein the master piston assembly is movable within the first movement region before the master piston assembly is movable outside at the first movement region. 9. A master cylinder assembly comprising: a master cylinder having a top end, a bottom end, and a length, the master cylinder further defining a first movement region along a first portion at its length; and a master piston assembly, comprising first and second pistons, the first and second pistons being disposed in and movable within the master cylinder; wherein when the master piston assembly is located within the first movement region, the first piston is movable together with the second piston and when the master piston assembly is at least partialy outside of the first movement region, the second piston is movable with respect to the first piston, wherein the master piston assembly is movable within the first movement region before the master piston assembly is movable outside of the first movement region, and wherein the second piston has a first piston engagement surface, the first piston has a second piston engagement surface, and the second piston engagement surface abuttingly engages the first piston engagement surface when the master piston assembly is within the first movement region. 10. A hydraulic brake lever system, comprising: a lever having a range of travel comprising a first region followed by a second region; a master cylinder assembly having hydraulic fluid contained therein and a fluid exit port, the lever being operatively connected to the master cylinder assembly; wherein when the lever is in the first region, moving the lever a distance delivers a first volume of hydraulic fluid from the exit port, when the lever is in the second region, moving the lever the distance delivers a second volume of hydraulic fluid from the exit port, and the first volume is greater than the second volume. 11. A method of operating a master cylinder assembly comprising a master cylinder having a top and a bottom, first and second pistons disposed in the master cylinder, and a projecting lip defined in the master cylinder at a point between the top and bottom, the method comprising the steps of moving the first and second pistons together within the master cylinder, engaging one of the first and second pistons with the projecting lip, and then moving one of the first and second pistons with respect to the other of the first and second pistons.