Claims
- 1. A shock absorber for use in a printing process where compression is desired but displacement is not, situated between a printing plate and a plate cylinder surface to compensate for variations in thickness, height, and centricity of the cylinder and plate, the shock absorber comprising:an elastomeric body constructed of an elastomeric material for attachment to the surface of a plate cylinder; said elastomeric body being made of a predetermined durometer; said elastomeric body including a support base having a top surface and a plurality of raised protrusions formed of said elastomeric material; said protrusions each having a predetermined height to fit between a printing plate and plate cylinder during printing and a predetermined cross-sectional shape and spaced apart a predetermined distance forming a void between adjacent protrusions such that a compression between the printing plate and the plate cylinder surface on said elastomeric body will result in a predetermined displacement of said protrusions to compensate for variations in the plate cylinder and plate operation to improve printing quality; and each said protrusion being continuous along said support base, and having substantially the same length as said support base, each said protrusion surrounding and being continuous around said cylinder leaving the path of least resistance lateral to the side of the geometric shape of each protrusion during compression.
- 2. The shock absorber as in claim 1 wherein each said protrusion is continuous around said cylinder in the cylinder's rotational direction.
- 3. The shock absorber as in claim 1, wherein said voids between said continuous protrusions of said elastomeric material constitute displacement zones of a predetermined cross-sectional area and volume providing desired resilient response to pressure applied between said plate cylinder and said plate on said elastomeric body.
- 4. The shock absorber as in claim 1, wherein said elastomeric body includes a plurality of raised protrusions, each protrusion separated by a void between adjacent protrusions a protrusion displacement cross-sectional area between 5 percent to 95 percent relative to the total cross-sectional area of each protrusion plus an adjacent void area.
- 5. The shock absorber as in claim 1, including:said elastomeric body including an array of raised protrusions are continuous in length around the cylinder in the print direction leaving the path of least resistance lateral to the side of the geometric shape of each protrusion during compression.
- 6. The shock absorber as in claim 1, wherein each said protrusion includes:a substantially flat top surface substantially parallel to the top surface of said support base; a pair of tapered sidewalls converging at said protrusion top surface; and a protrusion bottom surface.
- 7. The shock absorber in claim 1, wherein said support base is comprised of a dimensionally stable layer of flexible elastomeric material.
- 8. The shock absorber in claim 7, wherein said dimensionally stable layer of flexible material is any polyester material.
- 9. The shock absorber in claim 7, wherein said dimensionally stable layer of flexible material is any metallic material.
- 10. The shock absorber in claim 1, wherein each said protrusion is comprised of the same durometer, resilience or modulus.
- 11. The shock absorber of claim 1, wherein said shock absorber is adapted to be manufactured on or adhered to the back of said printing plate so that said shock absorber becomes integral with said printing plate.
- 12. The shock absorber of claim 1, wherein said shock absorber is adaptable to be manufactured as a layer of a sleeve or on said cylinder and becomes an intricate part of said cylinder.
- 13. The shock absorber of claim 1, wherein said protrusions and said support base are both extruded from a single piece of said elastomeric material.
- 14. The shock absorber of claim 1, wherein said support base is exposed between said protrusions when said protrusions are less than 0.020 inches in height.
- 15. The shock absorber of claim 1, said height of said raised protrusions being 0.020 inches or greater, an additional foundation layer to increase overall thickness covering said support base under and/or surrounding the protrusions, for preventing the support base from being exposed between said protrusions and altering the characteristics of said shock absorber.
- 16. The shock absorber of claim 15, wherein said foundation layer has the same durometer as said attached support base.
- 17. The shock absorber of claim 15, wherein said foundation layer has a different durometer then than said attached support base.
- 18. A shock absorber for use in a printing process where compression is desired but displacement is not, situated between a printing plate and a plate cylinder surface to compensate for variations in thickness, height, and centricity of the cylinder and plate, the shock absorber comprising:an elastomeric body constructed of an elastomeric material for attachment to the surface of a plate cylinder; said elastomeric body being made of a predetermined durometer; said elastomeric body including a support base having a top surface and a plurality of raised protrusions formed of said elastomeric material; said protrusions each having a predetermined height to fit between a printing plate and plate cylinder during printing and cross-sectional shape and spaced apart a predetermined distance forming a void between adjacent protrusions such that a compression between the printing plate and the plate cylinder surface on said elastomeric body will result in a predetermined displacement of said protrusions to compensate for variations in the plate cylinder and plate operation to improve printing quality; and each said protrusion being continuous along said support base, and having substantially the same length as said support base, each said protrusion surrounding and being continuous around said cylinder leaving the path of least resistance lateral to the side of the geometric shape of each protrusion during compression; and wherein said protrusions are comprised of a plurality of layered materials, each of a different durometer, resilience or modulus.
- 19. A shock absorber for use in a printing process where compression is desired but displacement is not, situated between a printing plate and a plate cylinder surface to compensate for variations in thickness, height and centricity of the cylinder and plate, the shock absorber comprising:an elastomeric body constructed of an elastomeric material for attachment to the surface of a plate cylinder; said elastomeric body being made of a predetermined durometer; said elastomeric body including a support base having a top surface and a plurality of raised protrusions formed of said elastomeric material; said protrusions having a predetermined height and cross-sectional shape and spaced apart a predetermined distance such that a compression between the printing plate and the plate cylinder surface on said elastomeric body will result in a predetermined displacement of said protrusions to compensate for variations in the plate cylinder and plate operation to improve printing quality; each said protrusion being continuous along said support base, and having substantially the same length as said support base, each said protrusion surrounding and being continuous around said cylinder leaving the path of least resistance lateral to the side of the geometric shape of each protrusion during compression; and each said protusion is comprised of a different durometer, resilience or modulus.
- 20. A method of enhancing the image quality and efficiency of a printing process employing a plate cylinder and a printing plate to compensate for height and centricity errors without substantially increasing printing pressure comprising the steps of:providing a printing plate cylinder and an elastomeric body for attachment to the surface of a plate cylinder, said elastomeric body being made of a predetermined durometer, said elastomeric body including a support base and a plurality of raised protrusions formed of said elastomeric material, said protrusions having a predetermined height to fit between said plate cylinder and a printing plate during printing and a predetermined cross-sectional shape longitudinally disposed in the rotational direction of the plate cylinder and spaced apart a predetermined distance such that a compression between said printing plate and the plate cylinder surface on said elastomeric body resulting in a predetermined displacement of said protrusions to compensate for variations in the plate cylinder and plate operation to improve printing quality, each said protrusion being continuous along said support base, and having substantially the same length as said support base, each said protrusion surrounding and being continuous around the plate cylinder in the plate cylinder's rotational direction leaving the path of least resistance lateral to the side of the geometric shape of each protrusion during compression.
Parent Case Info
This application is a continuation-in part of U.S. patent application Ser. No. 09/334,847, filed Jun. 16, 1999.
US Referenced Citations (14)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09/334847 |
Jun 1999 |
US |
Child |
09/883878 |
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US |