Spring devices – Vehicle – Comprising compressible fluid
Reexamination Certificate
2000-06-13
2001-07-24
Schwartz, Christopher P. (Department: 3613)
Spring devices
Vehicle
Comprising compressible fluid
C267S064240
Reexamination Certificate
active
06264178
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to molded air sleeves. More particularly, the present invention relates to a method of construction and manufacturing of molded air sleeves to achieve a desired construction at the end of the air sleeve.
BACKGROUND OF THE INVENTION
Air sleeves have a rubber innerliner, two plies of cord fabric, and a rubber cover. These sleeves see their greatest commercial usage in the automotive helper spring market by being mounted as air springs on shock absorbers and struts. Other uses include truck cab suspension springs, truck driver seat springs, automobile air springs, and a variety of industrial air springs.
The air sleeves are manufactured with a variety of ends, but these ends fall into two basic constructions: those with the ending of the cord plies exposed to the air (usually a cut end), and those where the endings of the cord plies must be completely encased in rubber, called a ‘sealed end’. For sealed end sleeves, enclosing the cord endings in rubber is very important if the end of the sleeve is exposed to the high pressure air chamber of the air spring, where exposed cord ply ends may lead to sleeve failure due to high pressure air entering the exposed cord endings and migrating into the body of the air sleeve.
Another common requirement for air sleeves is that the cord ply endings be within 0.20″ or less (5.1 mm or less) of the sealed end of the part. This requirement relates to the air shock manufacturer's need to avoid excess material beyond the end of the crimp fastener, the need to crimp very near the end of the part, and the need to have a good crimp which requires the cord plies to end very near the end of the sleeve.
However, in manufacturing air sleeves with sealed ends, several issues may arise. First, some sealed end air sleeves require not only that the cord endings be placed within 0.20″ or less (5.1 mm or less) of the end of the part, but also require a chamfered angle on the end of the part of typically 30° to 60°, which reduces the thickness of the end of the part by up to 50%. The combined requirement for cords to be adjacent to the end and the chamfered shape can make it very difficult to reliably seal the cord endings during the molding process because of the loss of covering rubber due to the chamfer.
Secondly, if the molding process uses an inflatable bladder on one side of the part and a metal mold on the other side of the part, significant movement of the end areas of the air sleeve as the bladder inflates can occur. This can lead to the cord endings drifting toward one surface of the part, while the elastomer is soft and flowing. This may result in unreliable sealing of the cord endings.
Thirdly, some air sleeve must be provided with a firm or stiff end to the part. This goal may be difficult to achieve if a sealed end, or a sealed and chamfered end is also required. The lack of cords extending completely to the end of the part reduces the stiffness, and chamfering significantly reduces stiffness.
SUMMARY OF THE INVENTION
The present invention is directed towards an air sleeve. The air sleeve has a tubular shape with opposing sleeve ends. At least one reinforcing ply extends from one sleeve end to the opposing sleeve end; the reinforcing ply has cords encapsulated in a ply coat compound and at least one end of the reinforcing ply terminates in one air sleeve end. According to the present invention, a reinforcement means is spaced from the end of the reinforcing ply by a distance greater than the ply coat compound.
The reinforcement means is selected from the group consisting of fiber loaded elastomer, woven fabric ply, knitted fabric ply, spun-bonded ply, and cord reinforced ply. When the reinforcement means is a fiber loaded rubber, the elastomer is comprised of 1.5 to 6 phr (parts per hundred rubber) of chopped fibers. The fibers have a nominal length of about {fraction (1/16)}inch to ¼inch (1.5 mm to 6.5 mm).
In another aspect of the disclosed invention, both opposing ends of the air sleeve are provided with the reinforcement means.
Also disclosed in the present invention is a method of forming an air sleeve to achieve the desired air sleeve described above.
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patent: 5954316 (1999-09-01), Voss
Frye Jeffrey Mark
Schisler Robert Charles
Woodlee James Edwin
Krawczyk Nancy T.
Schwartz Christopher P.
The Goodyear Tire & Rubber Company
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