Patent ID: 7410034
Filing Date: 2008-08-12
Classification: F16D

Abstract:
1. A brake assembly for a vehicle having a drum that is rotatable about an axis with an inner cylindrical surface thereon that defines a braking surface for first and second friction members respectively located on first and second brake shoes that are moved by an actuation member from positions of rest against first and second radial abutments on a disc into frictional engagement with the braking surface to effect a brake application, said first brake shoe having a first arcuate channel that is retained on a first plurality of guides such that a first end thereon is aligned with the actuation member and the first radial abutment and a second end thereon is aligned with an adjuster assembly, said second brake shoe having a second arcuate channel that is retained on a second plurality of guides such that a first end thereon is aligned with the actuation member and the second radial abutment and a second end thereon that is aligned with the adjuster assembly, spring means connected to said first and second arcuate channels for urging the first ends thereon into engagement with the actuation member and the second ends thereon into engagement with the adjuster assembly, said actuation member on receipt of an input force acting on the first end of the first arcuate channel and the first end of the second arcuate channel and moving the first end of the first channel away from the first radial abutment and the first end of the second channel away from the second radial abutments to bring a leading edge of one of said first and second friction members thereon into frictional engagement with the braking surface causing the first and second brake shoes to rotate with the drum and return the first end of the arcuate channel of a trailing edge to engagement with its corresponding radial abutment to resist the rotation of the drum during a brake application, said first and second plurality of guides being characterized by resilient engagement with the first and second arcuate channels while maintaining the first and second friction surfaces thereon in axial alignment with the braking surface and attenuating of any vibration of the first and second brake shoes with respect to the drum that may occur with movement of the vehicle over a rough road to reduce the creation of noise caused by such vibration, said resilient engagement of said first and second plurality of guides with the first and second arcuate channels permits radial movement of the first and second friction surfaces during a brake application, said first and second guides includes a plurality of clips each of which have a substantially rectangular shape with a first end and a second end, said first end having a flat surface that defines a base while the second end has a U-shape defined by parallel first second sides separated by a spacer with said first side being offset from the base by a distance such that a channel may radially move thereon without engaging the disc, said base of each clip having an opening with a projection that extends there from with the base being secured to the disc by a fixing member that extends through the opening while the projection is mated with an indentation in the disc such that the second end of each clip of the plurality of clips is aligned along a radial plane with respect to the axis of the drum and said first and second parallel sides of each clip have a raised surface that engages a corresponding channel in point contact, said point contact reducing the transmission of vibration between a brake shoe and the disc and yet maintain radial alignment between the friction members on a brake shoe and the braking surface.