Flexible sleeve, gas spring assembly and method

The invention claimed is: 1. A gas spring assembly comprising: a first end member; a second end member disposed in longitudinally-spaced relation to said first end member such that a longitudinal axis is formed therebetween, said second end member including an end wall, a side wall projecting longitudinally from said end wall in a direction toward said first end member, and a retainment ridge projecting radially outward from said side wall, said retainment ridge including a shoulder surface disposed in facing relation to said end wall and an outer edge having an outer cross-sectional dimension; a flexible sleeve operatively connected between said first and second end members and at least partially defining a spring chamber therebetween, said flexible sleeve including a flexible wall and an annular reinforcement member, said flexible sleeve extending circumferentially about said longitudinal axis and axially between opposing first and second ends, said annular reinforcement member being substantially-fully embedded within said flexible wall adjacent said second end and including an inner cross-sectional dimension, said flexible wall including an inside surface portion at least partially defining said spring chamber, an outside surface portion facing opposite said inside surface portion and an end surface portion disposed between said inside and outside surface portions adjacent said second end, said first end secured to said first end member such that a substantially fluid-tight seal is formed therebetween, said second end received along said side wall of said second end member such that said inside surface portion of said flexible wall is disposed toward said shoulder surface of said retainment ridge, said outside surface portion of said flexible wall is disposed in abutting engagement with said end wall and said end surface portion forms a substantially fluid-tight seal with said side wall of said second end member; and, at least one retainment element separate from said second end member and said flexible sleeve, said at least one retainment element disposed between said shoulder surface of said retainment ridge and said inside surface portion of said flexible wall, said at least one retainment element including an inner cross-sectional dimension and an outer cross-sectional dimension, said inner cross-sectional dimension of said at least one retainment element being less than said outer cross-sectional dimension of said retainment ridge, and said outer cross-sectional dimension of said at least one retainment element being greater than said inner cross-sectional dimension of said annular reinforcement member. 2. A gas spring assembly according to claim 1 , wherein said retainment ridge includes an outer edge having a cross-sectional dimension, and said at least one retainment element includes an inner cross-sectional dimension and an outer cross-sectional dimension, said inner cross-sectional dimension being less than said cross-sectional dimension of said outer edge of said retainment ridge and said outer cross-sectional dimension being greater than said cross-sectional dimension of said outer edge of said retainment ridge. 3. A gas spring assembly according to claim 1 , wherein said annular reinforcement member includes a circumferential axis extending about said longitudinal axis, and said at least one retainment element can function to provide resistance to shear forces acting through said flexible wall in a longitudinal direction and provide resistance to rotation of said flexible wall about said circumferential axis of said annular reinforcement member. 4. A gas spring assembly according to claim 1 , wherein said at least one retainment element is an endless annular ring. 5. A gas spring assembly according to claim 1 , wherein said at least one retainment element is a split ring having an approximately annular shape with first and second end surfaces disposed in facing relation to one another. 6. A gas spring assembly according to claim 1 , wherein said at least one retainment element has a cross-sectional shape that is one of approximately rectangular, approximately circular, approximately oval, approximately square, approximately trapezoidal and approximately parallelogram. 7. A gas spring assembly according to claim 6 , wherein said at least one retainment element includes an inner edge surface at least partially defining a passage through said at least one retainment element, and an outer edge surface at least partially defining an outer periphery of said at least one retainment element. 8. A gas spring assembly according to claim 6 , wherein said at least one retainment element includes a first element surface disposed in facing relation to said shoulder surface of said retainment ridge of said second end member, a second element surface opposite said first element surface and disposed in facing relation with said inside surface of said flexible wall. 9. A gas spring assembly according to claim 8 further comprising a flowed-material joint extending between and operatively connecting said at least one retainment element with one of said inside surface of said flexible wall and said shoulder surface of said retainment ridge of said second end member. 10. A gas spring assembly dimensioned for securement between associated sprung and unsprung masses, said gas spring assembly comprising: an flexible sleeve having a longitudinal axis and extending longitudinally between opposing first and second ends to at least partially define a spring chamber, said flexible sleeve including: a flexible wall extending circumferentially about said longitudinal axis and including an inside surface portion at least partially defining said spring chamber, an outside surface portion facing opposite said inside surface portion, and an end surface portion operatively connecting said inside and outside surface portions along said second end; and, an annular reinforcement member substantially-fully embedded within said flexible wall adjacent said second end, said annular reinforcement member including an inner cross-sectional dimension; a first end member extending across said first end of said flexible sleeve and secured thereto such that a substantially fluid-tight seal is formed therebetween; a second end member disposed in longitudinally-spaced relation to said first end member and secured across said second end of said flexible sleeve such that a substantially fluid-tight seal is formed therebetween, said second end member including: an end wall oriented transverse to said longitudinal axis; an outer side wall extending longitudinally from along said end wall; an inner side wall projecting longitudinally from said end wall in a direction opposite said outer side wall; and, a retainment ridge projecting radially outward from along said inner side wall, said retainment ridge including a shoulder surface disposed in facing relation to said end wall and an outer edge having an outer cross-sectional dimension; and, a retainment element separate from said second end member and said flexible sleeve, said retainment element disposed between said shoulder surface of said retainment ridge and said inside surface portion of said flexible wall, said retainment element including an inner cross-sectional dimension and an outer cross-sectional dimension with said inner cross-sectional dimension of said retainment element being less than said outer cross-sectional dimension of said retainment ridge, and said outer cross-sectional dimension of said retainment element being greater than said inner cross-sectional dimension of said annular reinforcement member. 11. A gas spring assembly according to claim 10 , wherein said ret