Stock material or miscellaneous articles – Structurally defined web or sheet – Including fastener for attaching to external surface
Reexamination Certificate
2001-02-13
2004-05-11
Thomas, Alexander S. (Department: 1772)
Stock material or miscellaneous articles
Structurally defined web or sheet
Including fastener for attaching to external surface
C428S099000, C428S119000, C024S442000, C024S451000
Reexamination Certificate
active
06733860
ABSTRACT:
The invention involves a fastening part, especially for the foaming of cushion parts in the manufacture of vehicle seats, with adhesive elements on the one side to link with corresponding adhesive elements of another fastening part forming a fastening and with one connecting element in the nature of a fastening medium on the other side of the fastening part for the making of a connection with the respective foam material. The invention also involves a process for the manufacture of a fastening part to that effect as well as a device for the application of the process.
Fastening parts in a general form are known through EP 0 612 485, whereby the fastening part is laid in a foam form so that the bonding agent, in the form of loop elements on the backside of the adhesive closure part, comes into contact with the pertinent foam material, so as to produce a firm bond with it. The opposite front side of the adhesive closure part has adhesive elements in the form of bonding hooks, adhesives heads, mushroom-shaped bodies, or the like, which are protected from the penetration of foam material, for example, as described in the European document, in that they are surrounded, on their entire surface, by an uncrosslinked thermoplastic. If after the foaming process in the mold and the removal of the foamed part, the cover is removed, the adhesive elements are free and can later be joined with adhesive elements of another adhesive closure part, for example, in the form of a loop strip, with the formation of a common adhesive closure.
In this way, it is possible to affix, for example, upholstery covering materials on the foamed upholstery parts of a vehicle seat or an airplane seat or to join rotating components, for example, in the form of grinding wheels with tool rests, to traditional grinders and apparatuses. The aforementioned foam material can definitely be thinly liquid, as a function of the object to be formed, and have viscosities which are in the range of water or below. It has become evident that when using looping or noose-like material as a bonding agent or even when using a nappy cloth or the like, the nooses, which are, in fact, open, are not completely penetrated by the foam material, but rather form a kind of barrier for it, which inhibits the penetration of the foam material. In the subsequent hardening or baking process for the foam material, there are voids then—that is, gaslike hollow occlusions, which work against a firm bonding between the adhesive closure part and the foam material, at the transition sites between the looping material and the foam. As a result of such reduced strength of the bonding between the fastening parts and foam material in particular in continuous stress it comes to a loosening of the connection and the fastening part pulls apart from the foam material, which in all leads to the unusability of the entire component, for example in the shape of a vehicle seat or grinding wheel adapter.
A general fastening part is known through EP-A-0809 952, which is composed of a biologically degradable synthetic material. In the known solution, the individual adhesive elements are formed of neighboring facing double-hook elements each of which has a reinforcing rib on the side facing the band-like fastening part. On the other side of the fastening part as a connecting element, a medium is arranged in the form of a water-soluble resin-like material, which after penetration of water forms a kind of separate adhesive layer on the fastening material, without thereby putting into question the biodegradability of the entire fastening. The application of an independent adhesive layer as an adhesive medium on the side of the fastening part turned away from the adhesive elements is also the object of EP-A-0754 416. In this known solution, the adhesive application as an adhesive medium to that end occurs through a coating process. It has been shown, however, that independently of the selection of adhesive no good connection comes into being between the fastening part and the foam material and that in particular in the subsequent stressing of the foam material it comes to a pulling apart and hence to a loosening of the connection between the fastening part and the foam material.
Based on this state of the art, the invention has the function of further improving a fastening part so that a more secure and high-strength connection is achieved between the fastening part and the respective foam material that is used. Furthermore the invention has the function of making available a process for the manufacture of a fastening part to that end as well as a device for the application of this process. A task to this end is resolved by a fastening part with the features of claim 1, a process with the features of claim 3, and a device with the features of claim 5.
Because the adhesive medium is fluorine in accordance with the characterizing part of claim 1, it comes to a high-strength connection between the fastening part so treated and the respective foam material, which is detachable only with difficulty, so that the result is also a long-lasting secure connection between the fastening part and the later foam body. Through the adhesive medium that penetrates into the fastening part and is incorporated into this part, a surface-selective chemical reaction is produced on the fastening part that leads to good connection values with the foam material. In contrast to the known solutions, the adhesive medium is not applied separately to the fastening material as a kind of adhesive layer but is a laid-in component of the fastening.
For a specialist in the area of fastening and foaming technology, it is surprising that through the introduction of a gaseous adhesive medium on the fastening part he can achieve a better link with the foam material than by means of the known looped materials or through the usual adhesives that are expensive and hence cost-intensive in production and in which the loops, for example, spatially penetrate and push forward far into the foam material. Instead of a mechanical hooking of looped or noose-like material with the foam, an adhesion to the foam material is produced by means of the individually introduced adhesiveness medium during its production with heat and pressure, which leads to higher strength values with the desired bonding.
If fluorine is used as the gaseous adhesiveness medium to be introduced, preferably with adhesive closure parts made of polyolefin material, the hydrogen atoms fixed on the polyolefin surface are replaced by fluorine atoms. This substitution reaction takes place at room temperature. A starting or initial reaction is not required. The hydrocarbons, which are then partially fluorinated on the surface, behave completely different from the previous base material of the adhesive closure part. As a result of its high electronegativity, the fluorine atom tries to fill its outer electron shell. To this end, electrons are drawn away from adjacent carbon and hydrogen atoms. Therefore, one speaks of an induced polarity, which with the main base, constitutes the good adhesion with the foam material, preferably made of polyurethane foam.
An advantage of the fluorine treatment is a process-reliable adhesion with all polyolefins with an otherwise low surface tension, wherein there is a uniform penetration with the fluorine material, so that complicated configurations and surfaces, including back cuts, hollow spaces, interior surfaces, or the like, also obtain a fluorine treatment which favors adhesion. In order to attain as good as possible bonding values for the foam material, one has to take care that there is a sufficient number of polar fractions, wherein with polyolefin materials, polar fractions of 40 mN/m
2
and more are attained.
With the method in accordance with the invention for the production of a closure part with the previously designated features, the fluorine is applied in a nitrogen atmosphere, wherein the introduction of fluorine, continuously or discontinuously—with a moving or stationary adhesive closure part—can be effectiv
Gottlieb Binder GmbH & Co.
Smith , Gambrell & Russell, LLP
Thomas Alexander S.
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