The present invention will now be described, by way of example, with reference to the accompanying drawings, in which:
Referring to
In a first exemplary method for forming a CCR, cleaning element 14 is cut from sheet stock (not shown) to a length equal to the circumference of core 12 and is formed into a tube having an inner diameter equal to the outer diameter of the core, the ends 24 of the cut sheet being secured to each other in a seam 26 by, for example, adhesives or laser welding. The tube is then slid onto core 12 and secured thereupon by adhesives 20, which may be emplaced on the core and tube surfaces prior to introduction of the tube onto the core.
In a second exemplary method, a length of sheet stock longer than the circumference of the core is wrapped tightly around the core with the ends overlapping. A razor knife or other sharp instrument is then used to cut the wrapped sheet stock in the overlapping region to produce, after end discards, a cleaning element of length exactly equal to the circumference of the core. The cleaning element is then attached to the core surface as by adhesives 20, with the free ends abutting. The joint 26 between the two free ends may be smoothed by application of a liquid material, preferably a monomer of the polymer forming polymeric outer layer 18, which monomer may then be polymerized or otherwise hardened in known fashion.
Referring to
CCB 32 is formed by attaching a belt-shaped polymer-coated flexible cleaning element 44 to one surface of a flexible structural belt 46 of a desired length. As in forming a CCR, adhesives 48 are applied to cleaning element 44 and to structural belt 46, and an optional resilient layer 50 also may be included between cleaning element 44 and structural belt 46. Structural belt 46 may comprise, for example, a toothed belt having a smooth outer surface.
Cleaning element 44 comprises a flexible substrate 52 that may be formed of a sheet of metal, for example, aluminum, or a sheet of plastic, for example, polyethylene terephthalate. Flexible substrate 52 is provided with a low durometer polymeric layer 54 having triboelectric properties, similar or identical to outer layer 18 described above for a CCR. In fact, the flexible sheet stock used for forming CCR 10 generally may also be used for forming CCB 32. Closing and sealing joint 26 of butt ends 24 is the same as for forming a CCR.
Note that a significant advantage of forming a CCB in accordance with the present method is that long belts may easily be formed by employing sequential sections of cleaning element 44.
In a preferred method for forming a CCB in accordance with the invention, the structural belt 46 is positioned in use configuration and the cleaning element 44 is cut and fastened to the belt in this position. This procedure accommodates the difference in overall length imposed by laminating the cleaning element to the outside of an endless loop and therefore prevents delaminating stresses in passing the CCB 32 around rollers 38.
A currently preferred cleaning element sheet stock for forming either a CCR 10 or a CCB 32 is Twinlock® material, available from Polymount Corporation in 0.060″ and 0.020″ thickness. This material has a tacky surface layer comprising a photopolymer which is UV cross-linkable. Joints are sealable with liquid photopolymer. Isopropanol or Twinlock cleaner may be used to clean and tack-up the surface; other solvents are not advisable and may enter the joint and cause delamination of the substrate from the roller surface. Cleaning with water presents no problem. Minimum diameter of a roller, either a core for forming a CCR or a roller for conveying a CCB, is about 3″.
While the invention has been described by reference to various specific embodiments, it should be understood that numerous changes may be made within the spirit and scope of the inventive concepts described. Accordingly, it is intended that the invention not be limited to the described embodiments, but will have full scope defined by the language of the following claims.
This application draws priority from a pending U.S. Provisional Patent Application, Ser. No. 60/813,188, filed Jun 13, 2006.
Number | Date | Country | |
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60813188 | Jun 2006 | US |