Plastic and nonmetallic article shaping or treating: processes – Mechanical shaping or molding to form or reform shaped article – Reshaping running or indefinite-length work
Reexamination Certificate
2002-03-05
2004-06-15
Eashoo, Mark (Department: 1732)
Plastic and nonmetallic article shaping or treating: processes
Mechanical shaping or molding to form or reform shaped article
Reshaping running or indefinite-length work
C264S293000, C425S385000
Reexamination Certificate
active
06749791
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a method for producing a surface for an object having a base structure with two types of projections. Projections of a similar type are arranged adjacent one another. The first type of projections contact one another without spacing. The second type of projections are arranged on the projections of the first type. Furthermore, the present invention relates to a device for execution of the method as well as to the surface itself and its use.
BACKGROUND OF THE INVENTION
DE 35 24 653 C2 discloses surfaces in the form of embossed, biaxially laid out foils forming an apertured grid-like cloth as an article with openings and webs. Its elevated areas are rounded off and deformed, each as a sort of projection, forming a web component part incorporated within the cloth structure. The manufacture of apertured netted cloths by embossment of a foil of thermoplastic polymers using such a known solution leads to improved properties regarding its grip and, with corresponding subsequent treatment, leads to reduction of undesirable shiny effects of the material.
EP 0 772 514 B1 discloses self-cleaning surfaces of articles which have a synthetic surface structure having projections and recesses. The spacing between the projections is in the range of 5 to 200 micrometers. The height of the projections is in the range of 5 to 100 micrometers. In addition, at least the projecting parts are of hydrophobic polymers or other materials which are made permanently hydrophobic. The projections cannot be loosened and peeled off by water or by water with detergents added thereto.
The known solution shows a surface with these projections for repelling contaminants, whereby a simulated lotus-petal structure is synthetically constructed. It is known that it is not contaminated because of the capacity of the structure for self-cleaning. Even commercial adhesives are removable from the biological structure. Despite remarkable results with regard to a self-cleaning effect, such known surfaces can be used only in a limited manner, since either the range of materials which can be used in the production is greatly limited or the surface must be treated by further processing for the purpose of making it hydrophobic, which is costly. Also, the known surface can be produced only at high cost, while incurring considerable complications. For production of the known surface, coating methods or shaping methods are provided using high-grade mesh screens, which are costly and difficult to produce. Also, in practice, it has been shown that such synthetically produced surfaces with ‘lotus effect’ often do not produce the desired results.
PCT/WO 93/01047 discloses a surface having a deeply embossed, thermoplastic film. This film surface includes a plurality of macroscopic cells as first projections, which are connected by the areas extending between these adjacent macroscopic cells. The macroscopic cells have a depth of 0.635 to 3.8 mm. In addition, the thermoplastic film incorporates a plurality of microscopic indentations, which construct a fortuitously distributed sandblast pattern on the film, with a spacing between 1.25 and 7.35 micrometers. These microscopic indentations form a second type of projection, which projections have an opposite orientation to the projections of the first type. The projections are arranged according to types separated from one another on opposite sides of the surface. Such known surfaces, usually in the form of polyolefin foils, such as surfaces of polyethylene, are particularly used in those cases, with projections of a raised area extending between them. In particular, requirements are set on such cloth material relating to esthetic or visual sense-perceptions, in other words for use in the field of linings of clothing or in hygienic or sanitary areas. Also, the surfaces have no dirt-repelling properties, so that a self-cleaning effect is not demonstrable in this case.
EP 0 933 388 A2 discloses a structured surface with hydrophobic and/or oil-resistant properties with low surface charges. The known surfaces have high boundary or rim angles with water and are cleaned with water only with difficulty and therefore include a self-cleaning effect. In order to attain this structure surface, a synthetically producible base structure is provided with two different types of projections. A type of smaller projections are mounted on a superstructure in the form of projections of large dimensions mounted and in direct contact adjacent to one another. For the production of the known projections and the superstructure as an another type of projections, these projections either simultaneously or in sequence are mechanically impressed or embossed into the surface material, etched in by lithographic method or obtained by shaping processing by means of applied or casting technology. With the mechanical imprinting or embossing method, it is worked from the reverse side forward on the surface, which then on its opposite side shapes out the aforementioned two types of projections. With etching of the structure into the surface material, the damage resulting from the etching medium is to be calculated at least in part. With the surface shaping method, first of all the relevant projection structure is applied on the surface by means of an application roll applied to the surface material. The last method is expensive and cost-intensive and does not guarantee that, dependent upon the stress, the structure mounted thereon in this manner does not become detached from the base material. The known casting, imprinting or embossing, etching and surface application methods are therefore not suitable in large-scale measure to make available the production of large quantities of structured surfaces.
SUMMARY OF THE INVENTION
Objects of the present invention are to provide an improved method for the production of synthetic surfaces having two different types of projections, so that they can be made at lower cost, and reasonably large volumes of surfaces can be made available by use of finishing techniques, with the surface particularly having a very good repelling capacity for contaminants.
Another object of the present invention is to provide a surface produced according to the method and the device, as well as its use.
The foregoing objects are basically obtained by a method for producing a self-cleaning hydrophilic surface on an article, comprising the steps of supplying hydrophilic plastic material to a structure and shaping roll having a first type of recesses and a second type of recesses, and continuously producing first and second types of projections on a common side of a base structure facing away from the article. The projections are produced with the projections of a similar type being adjacent one another, with adjacent projections of the first type contacting one another without spacing and with the second type of projections on the projections of the first type, and are produced from the plastic material penetrating into the first and second types of recesses which correspond to the first and second types of projections, respectively, as a foil or strip material.
With the method of shaping out by means of a structure and shaping roll having recesses to shape out the convex projections, the dirt-repelling surface can be made uniformly and cost effectively in large quantities by use of manufacturing technology.
Preferably the structure and shaping roll are configured so that, particularly with use of a backing roll, a shaping gap is formed, through which the synthetic material passes. Dependent upon the width and the diameter of the structure and shaping roll, the desired surfaces can be produced in any desired length and width. Insofar as the backing roll is configured as a shaping roll with a structure comparable to that of the structure and shaping roll, the desired microscopic surface structure can be produced on both sides. The synthetically producible base structure then penetrates into the surface of the structure and shaping roll for its shaping, and
Schulte Axel
Tuma Jan
Eashoo Mark
Gottlieb Binder GmbH & Co.
Roylance Abrams Berdo & Goodman LLP
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