초록 ▼

A braking device is provided for an in-line skate where the braking device selectively alters the motion of the in-line skate depending upon the angulation of the in-line skate relative to a surface. As a user angulates or tilts the in-line skate, the braking device increasingly engages the surface

A braking device is provided for an in-line skate where the braking device selectively alters the motion of the in-line skate depending upon the angulation of the in-line skate relative to a surface. As a user angulates or tilts the in-line skate, the braking device increasingly engages the surface to provide a braking force to alter the motion of the in-line skate.

대표청구항 ▼

1. An in-line skate assembly, comprising: a frame having a plurality of receivers each having a proximate end and a distal end;a spring cap positioned in each of said plurality of receivers at said proximate end of each receiver;a sliding collar positioned in each of said plurality of receivers, whe

1. An in-line skate assembly, comprising: a frame having a plurality of receivers each having a proximate end and a distal end;a spring cap positioned in each of said plurality of receivers at said proximate end of each receiver;a sliding collar positioned in each of said plurality of receivers, wherein an outwardly extending flange is disposed on a proximate surface on each of said sliding collars, and wherein a distal surface on each of said sliding collars includes an aperture;a ball positioned in each of said sliding collars, wherein at least a portion of said ball is exposed through said aperture on each of said sliding collars;a locator disk positioned within each of said sliding collars and located on a side of said ball opposite said aperture on each of said sliding collars;a spring positioned in each of said plurality of receivers, said spring having a first end and a second end, wherein said first end of said spring interfaces with each said spring cap, wherein said spring extends into said sliding collar, and wherein said second end of said spring interfaces with said locator disk such that said spring exerts a force on said locator disk, which in turn exerts a frictional force on said ball, which biases a portion said ball against said distal surface of said sliding collar;a retainer with an inwardly extending flange on a distal surface of said retainer, wherein said retainer operatively interconnects to each of said plurality of receivers;wherein each of said sliding collars has a first position of use wherein said inwardly extending flange of said retainer is selectively engaged with said outward extending flange of said sliding collar; andwherein each of said sliding collars has a second position of use wherein said ball is in contact with a surface and said ball is forced into each of said plurality of receivers. 2. The assembly of claim 1, wherein said plurality of receivers is six receivers, and wherein three receivers are disposed on a first side of said frame, and three receivers are disposed on a second side of said frame, wherein said first side and second side of said frame are substantially parallel. 3. The assembly of claim 1, further comprising: a shield selectively interconnected to said frame, said shield having a substantially planar shape extending substantially coplanar with at least one longitudinal axis of said plurality of receivers, and said shield disposed proximate at least one of said plurality of receivers, wherein said shield generally protects at least one of said plurality of receivers against lateral interference. 4. The assembly of claim 1, wherein said locator disk comprises an indention that corresponds to said ball to provide greater surface area contact between said locator disk and said ball, wherein when said ball engages a surface and said ball rotates, a frictional force is generated between said locator disk and said ball. 5. The assembly of claim 1, said frame comprising: a horizontal extension having a top surface and a bottom surface;a first vertical extension descending from said bottom surface of said horizontal extension, and a second vertical extension descending from said bottom surface of said horizontal extension;wherein said first vertical extension is substantially parallel to said second vertical extension, wherein said first vertical extension has a first outer surface that faces away from said second vertical extension, and wherein said first and second vertical extensions are substantially perpendicular to said horizontal extension; andwherein said plurality of receivers are at least partially disposed on said first outer surface. 6. The assembly of claim 5, wherein said first vertical extension comprises a first aperture, and said second vertical extension comprises a second aperture, wherein a wheel axle is disposed in said first and second apertures, and a wheel is disposed about said wheel axle, and said wheel is at least partially disposed between first and second vertical extensions. 7. The assembly of claim 5, wherein said plurality of receivers is disposed at an angle relative to said first vertical extension. 8. The assembly of claim 7, wherein said angle is approximately 33.75 degrees. 9. An in-line skate assembly, comprising: a frame having a plurality of receivers having a proximate end and a distal end, said distal end of each of said plurality of receivers having an inwardly facing flange that forms an aperture;a friction-generating means disposed in each of said plurality of receivers at said distal end of said receivers, wherein at least a portion of said friction-generating means is exposed through said aperture of said inwardly facing flange of each of said plurality of receivers; anda biasing means disposed between said proximate end of each of said plurality of receivers and said friction-generating means of each of said plurality of receivers, wherein said biasing means communicates with said friction-generating means and produces a continuous force against said friction-generating means of each of said plurality of receivers. 10. The assembly of claim 9, further comprising a plurality of friction-generating disks disposed between said each of said biasing means and said friction-generating means, wherein engagement of one of said friction-generating means causes said biasing means associated with the engaged friction-generating means to generate a force against said friction-generating disk, wherein friction generated between said engaged friction-generating means and friction-generating disk slows longitudinal movement of said frame. 11. The assembly of claim 9, further comprising a protection means disposed relative to said plurality of receivers. 12. The assembly of claim 9, further comprising a retaining means disposed on said distal end of each of said plurality of receivers, said retaining means secures said friction-generating means in each of said plurality of receivers, wherein said retaining means allows said friction-generating means to pass through said retaining means to engage a surface. 13. An in-line skate assembly, comprising: a frame having a plurality of receivers each having a proximate end and a distal end;a sliding collar positioned in each of said plurality of receivers, wherein an outwardly extending flange is disposed on a proximate surface on each of said sliding collars, and wherein a distal surface on each of said sliding collars includes an aperture;a ball positioned in each of said sliding collars, wherein at least a portion of said ball is exposed through said aperture on each of said sliding collars;a spring positioned in each of said plurality of receivers, said spring having a first end and a second end, wherein said first end of said spring communicates with each said ball, wherein said spring extends into said sliding collar, and wherein said spring exerts a force on said ball, which biases a portion said ball against said distal surface of said sliding collar; anda retainer with an inwardly extending flange on a distal surface of said retainer, wherein said retainer operatively interconnects to each of said plurality of receivers, said inwardly extending flange selectively engages said outward extending flange of said sliding collar. 14. The assembly of claim 13, wherein said plurality of receivers is six receivers, and wherein three receivers are disposed on a first side of said frame, and three receivers are disposed on a second side of said frame, wherein said first side and second side of said frame are substantially parallel.