ANILOX CLEANING BLANKET

Abstract

An anilox cleaning blanket. The anilox cleaning blanket may be installed on a plate cylinder of a printing system to clean an anilox roll. The blanket is made of a substrate. An adhesive layer is disposed on an upper surface of the substrate. A plurality of microfibers having a positive charge are adhered to the substrate by the adhesive layer. The microfibers engage with and clean the surface of the anilox roll.

Claims

1. An anilox cleaning blanket comprising: a substrate comprising an upper surface; an adhesive layer disposed on the upper surface of the substrate; a plurality of microfibers adhered to the substrate by the adhesive layer; a hook coupled to a leading edge of the anilox cleaning blanket; and at least one of a magnet, a polyester tape, and a filmed adhesive adhered to a lower surface of the anilox cleaning blanket adjacent to a trailing edge of the anilox cleaning blanket.

2. The anilox cleaning blanket of claim 1, wherein the plurality of microfibers are perpendicular relative to the upper surface of the substrate at a point where the respective fiber is attached to the substrate.

3. The anilox cleaning blanket of claim 1, wherein the plurality of microfibers are positively charged.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 is a schematic side elevation view of an embodiment of the present invention;

[0012] FIG. 2 is an enlarged detail side elevation view shown partly in cross section of an embodiment of the present invention;

[0013] FIG. 3 is a bottom perspective view of an embodiment of the present invention;

[0014] FIG. 4 is a side view of an embodiment of the present invention;

[0015] FIG. 5 is a bottom view of an embodiment of the present invention;

[0016] FIG. 6 is a perspective view of an embodiment of the present invention, shown in use;

[0017] FIG. 7 is a perspective view of an embodiment of the present invention;

[0018] FIG. 8 is a detail perspective view of an embodiment of the present invention; and

[0019] FIG. 9 is a side view of an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0020] The following detailed description is of the best currently contemplated modes of carrying out exemplary embodiments of the invention. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles of the invention, since the scope of the invention is best defined by the appended claims.

[0021] The present invention includes an anilox roll cleaning blanket composite. The anilox cleaning blanket of the present invention mounts on a plate cylinder with U style fast lock strip single faced tape, MATTHEWS?, BOBST?, EVOL?, or HAMADA? locking strips or adhesive. The cleaning blanket of the present invention incorporates a hybrid composite, sustainable (soy based or conventional polyol urethane foam), efficient, ergonomic, reusable, renewable and can be incinerated. The anilox roll cleaning blanket composite varies in size and can be as thin as about 0.045 inches up to as thick as about 0.350 inches.

[0022] Fibers are electrostatically charged and secured to a flexible backing material woven or non-woven (substrate/scrim) with an adhesive. The fibers may be substantially parallel relative to one another due to the electrostatic charge. These fibers stand at a 90 degree angle (+/?2 degrees) as it relates to the substrate. From this point the material is cast with a proprietary urethane foam. The backside of the foam has a natural skin. The composite may allow for a polyester film (or skin) is laid in and secured to the backside of the composite.

[0023] The composite blanket top surface material is compatible with various cleaning solvents and water. The foam layer is compressible, resilient and has a resistance to absorbing chemicals that contain high alkalinity levels as well as resistant to EG, ME, MPH, and SH. The foam layer does not compromise the anilox cell or gravure cell. The present invention may be sold in roll form or in sheet form.

[0024] Referring to FIGS. 1 and 9, the present invention includes an anilox cleaning blanket 30. The anilox cleaning blanket 30 may be installed on a plate cylinder 46 of a printing system to clean an anilox roll. The blanket 30 is made of a substrate 22. An adhesive layer 24 is disposed on an upper surface of the substrate 22. A plurality of microfibers 28 having a positive charge are adhered to the substrate 22 by the adhesive layer 24. The microfibers 28 engage with and clean the surface of the anilox roll.

[0025] Due to the charge, the plurality of microfibers 28 are perpendicular relative to the upper surface of the substrate 22 at a point where the respective fiber is attached to the substrate 22. The plurality of microfibers 28 is a plurality of flocked fibers made of nylon, acrylic, polyester, suede, plastic, or a combination thereof. In an embodiment, a fiber diameter of the micro-fibers 28 is approximately between about 5 to about 40 denier. Since one anilox roll cell is approximately 100 microns, the mechanical action of the relative rotation of the anilox roll, combined with foam compression, and the plate cylinder 46 or the micro-fiber cleaning roll may force the micro-fibers 28 into the cells to remove dried ink within. A micro-fiber height of the micro-fibers 28 may be chosen to trade-off stiffness, penetrating depth, and to maximize contact. In an embodiment, the micro-fibers 28 have a micro-fiber height at about 0.038 inches up to about and 0.35 inches.

[0026] The substrate 22 of the present invention may include a woven or non-woven fabric layer having an upper surface and a lower surface. The adhesive layer 24 may include a urethane, a water based adhesive, a solvent based adhesive, a two part epoxy or other two part system, a hot melt, a glue, cement, mucilage, paste, or any substance that binds the microfibers 28 to the substrate 22.

[0027] The present invention may further include a foam layer 23 having an upper surface and a lower surface. The substrate 22 is applied or coupled to a lower surface of the substrate 22. The foam layer 23 may be an open-cell foam or a closed-cell foam. For example, the foam layer 23 may include quantum foam, polyurethane foam (foam rubber/elastomer), XPS foam, polystyrene, phenolic, or any other manufactured foam.

[0028] In certain embodiments, the anilox cleaning blanket 30 may be mounted to a mounting plate but is not necessary as the scrim (substrate) in the aforementioned paragraphs acts as the dimensionally stable base. The mounting plate may be made of polyvinyl chloride (PVC), polyethylene terephthalate (PET), or other dimensionally stable substrate. The mounting plate may include a surface area that is larger than the anilox cleaning blanket 30 to fully secure it. In an embodiment, the mounting plate is stiffer than the anilox cleaning blanket 30 and may include a curved shape. Accordingly, in some embodiments, when including the mounting plate, the anilox cleaning blanket 30 is naturally curved to cylinder shape by the curve of the mounting plate. The anilox cleaning blanket 30 used with the mounting plate may be used for bigger circumference 86, 66, 50 and 24 rolls.

[0029] The anilox cleaning blanket 30 may be installed on a plate cylinder 46 of a printing system to clean an anilox roll. Leading and trailing edges of the anilox cleaning blanket 30 may be connected to the anilox roll by connectors 34, 36, 40, such as fast lock system (hooks 36, U style fast lock strip single faced tape, filmed adhesive, MATTHEWS?, BOBST?, EVOL? or HAMADA? locking strips), tension bands 40, sleeves, adhesives, magnets 34 and the like. For example, the anilox roll cleaning blanket 30 has a lower surface 32, a leading edge, and a trailing edge opposite the leading edge. A plurality of magnets 34 or adhesives may be adhered to the lower surface 32 of the anilox roll cleaning blanket adjacent to the trailing edge. Alternatively, a solvent resistant tape or other adhesives may replace the magnets 34. A hook 36 is coupled to the leading edge of the anilox roll cleaning blanket 30. The hook 36 secures the leading edge of the anilox roll cleaning blanket 30 to a first groove 48 the plate cylinder 46 and the magnets 34 or adhesives secures the trailing edge of the anilox roll cleaning blanket 30 to a surface of the plate cylinder 46. Alternatively, tension bands 40 may be coupled to the trailing edge. The tension bands 40 may be made of an elastic material having a ridged hook 42 coupled at a distal end. The hook 36 secures to the first groove 48 and the ridge hook 42 of the tension band 40 secures to a second groove 48 of the plate cylinder 46.

[0030] Once the anilox cleaning blanket 30 is installed, the printing system may then be run, as if a print job was being run, to permit the anilox cleaning blanket 30 to come into contact with the anilox roll as they rotate. A detergent cleaner may be used in substitution for the ink to further assist the cleaning action. As the rolls turn, micro-fibers 28 on the surface of the anilox cleaning blanket 30 come into contact with the cells of the anilox roll and scour out dried ink.

[0031] The anilox cleaning blanket 30 may be made using the following process. The substrate 22 is provided. The adhesive layer 24 is applied to the upper surface of the substrate 22. The plurality of microfibers 28 are electrostatically charged and then delivered to the adhesive layer 24 on the substrate 22. Since the plurality of microfibers 28 are charged, the microfibers 28 are parallel relative to one another and perpendicular relative to the upper surface of the substrate 22 at a point where the respective fiber 28 is attached to the substrate 22.

[0032] A machine 10 is used to charge the microfibers 28 and then attach the microfibers 28 to the substrate 22. The machine 10 may include a hopper 16 for dispensing the microfibers 28 to the substrate 28. A conveyor 32 conveys the substrate 22 beneath the hopper 16 to receive the microfibers 28. The hopper 16 may further include a positive electrode grid 18 disposed above the conveyor 32. A grounded electrode 20 may be disposed beneath the conveyor 32. The microfibers 28 are positively charged while falling from the hopper 16 by the positive electrode grid 18 and the grounded electrode 20. The charged microfibers 28 then adhere to the adhesive layer 24 on the substrate 22. Excess microfibers 28 that do not adhere to the substrate 22 are then removed by a vacuum 12 and a suction column 14 disposed above the conveyor 32 and downstream of the hopper 16.

[0033] It should be understood, of course, that the foregoing relates to exemplary embodiments of the invention and that modifications may be made without departing from the spirit and scope of the invention as set forth in the following claims.