Bump stopper cap
First Claim
1. A bump stopper cap attached by press fit to a tip of a cylinder main body of a shock absorber in which a piston rod moves forward and backward with respect to said cylinder main body in accordance with expansion and contraction of a suspension spring, comprising:
- a circular-cylinder portion which covers an outer circumference surface of the tip of said cylinder main body,a top board portion which is continuously formed from a nib of said circular-cylinder portion, has a seating surface which is seated on a cylinder main body nib surface and a collision surface which collides with a bump stopper, and receives a load from said bump stopper, and said cylinder main body nib surface is a nib of said cylinder main body and extends around said piston rod, andan interference portion, which squeezes said outer circumference surface of said cylinder main body inward in a radial direction, formed in an inner circumference surface of said circular-cylinder portion,wherein;
said interference portion is formed in a region of the circular-cylinder portion that is a predetermined distance away from said seating surface in an axial direction of said circular-cylinder portion so that the interference portion is spaced apart from and does not reach said seating surface, andthe bump stopper cap further comprises a non-interference region that is a cylindrical region formed in said circular-cylinder portion at a region between an upper end of the interference portion and the seating surface so as to be between the interference portion and the seating surface, and at least one aperture extending through the circular-cylinder portion is formed in the non-interference region.
1 Assignment
0 Petitions
Accused Products
Abstract
The endurance of a bump stopper cap is improved by preventing a clearance from being generated between a back face of a top board portion of the bump stopper cap and a nib surface of a cylinder main body. A non-interference region in which a rib is not formed is disposed on the top side of a circular-cylinder portion of the bump stopper cap, and an interference region where the rib is formed is disposed on the opening side from this non-interference region. Since the non-interference region can be deformed freely in association with the deformation of the interference region when the bump stopper cap is pressed fit at the nib of the cylinder main body, a seating surface which is the back face of the top board portion can be properly seated on the nib surface of the cylinder main body.
12 Citations
2 Claims
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1. A bump stopper cap attached by press fit to a tip of a cylinder main body of a shock absorber in which a piston rod moves forward and backward with respect to said cylinder main body in accordance with expansion and contraction of a suspension spring, comprising:
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a circular-cylinder portion which covers an outer circumference surface of the tip of said cylinder main body, a top board portion which is continuously formed from a nib of said circular-cylinder portion, has a seating surface which is seated on a cylinder main body nib surface and a collision surface which collides with a bump stopper, and receives a load from said bump stopper, and said cylinder main body nib surface is a nib of said cylinder main body and extends around said piston rod, and an interference portion, which squeezes said outer circumference surface of said cylinder main body inward in a radial direction, formed in an inner circumference surface of said circular-cylinder portion, wherein; said interference portion is formed in a region of the circular-cylinder portion that is a predetermined distance away from said seating surface in an axial direction of said circular-cylinder portion so that the interference portion is spaced apart from and does not reach said seating surface, and the bump stopper cap further comprises a non-interference region that is a cylindrical region formed in said circular-cylinder portion at a region between an upper end of the interference portion and the seating surface so as to be between the interference portion and the seating surface, and at least one aperture extending through the circular-cylinder portion is formed in the non-interference region. - View Dependent Claims (2)
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Specification