Optics: eye examining – vision testing and correcting – Spectacles and eyeglasses – Ophthalmic lenses or blanks
Reexamination Certificate
1998-11-23
2001-01-09
Sugarman, Scott J. (Department: 2873)
Optics: eye examining, vision testing and correcting
Spectacles and eyeglasses
Ophthalmic lenses or blanks
C351S172000, C351S177000
Reexamination Certificate
active
06170952
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed to corrective lenses for use with spectacles, such as eyeglasses or sunglasses. The corrective lenses of the present invention include magnifying lenses, as well as lenses for correction of other types of vision deficiencies. Specifically, the present invention is directed to injection-molded elastomeric (such as aliphatic polyurethane) press-on lenses and eyeglasses or spectacles embodying the same, wherein the lenses are of optical clarity and can be adhered to sunglasses, safety glasses, sports goggles, eyeglasses or other plano lenses by virtue of their autogenous adhesive properties, that is, adherence between the sunglass or other plano lenses and the lenses of the present invention is effected by molecular surface adhesion between the lenses of the invention and the sunglass or other plano lens to which it is adhered, without the use of mechanical means for retaining the corrective lens on the surface of the base lens.
BACKGROUND OF THE INVENTION
Many people require more than one pair of corrective eyeglasses, depending on the circumstances they find themselves in. For example, many middle aged people are far-sighted. This means that they have little difficulty seeing objects at a distance, but have considerable difficulty seeing objects up close. These individuals have difficulty seeing print in a book clearly enough to read, so they need some sort of corrective lenses or magnifying glass in order to read. When such an individual is outside in the sun and wearing sunglasses, a practical problem arises if that individual wishes to read a book: he or she must purchase a pair of prescription sunglasses or endure the sun without the benefit of sunglasses. This practical problem is experienced by people needing prescription glasses for other purposes as well, such as myopia. The purchase of a second pair of prescription glasses is expensive and involves the further practical problem of carrying around an additional pair of prescription lenses (i.e., the prescription sunglasses). The present invention addresses this problem by providing a means for converting a pair of spectacles, such as sunglasses, safety glasses, sports goggles or eyeglasses, into corrective and/or magnifying lenses, or for altering the corrective and/or magnifying properties of a pair of eyeglasses.
Many attempts have been made at simplifying the spectacle needs of people who wear corrective lenses, whether they wear corrective lenses at all times or only on occasion for specific tasks. For example, one attempt to solve the problem of having to purchase and carry two pairs of prescription eyewear at the same time is to wear contact lenses. The contact lenses can be prescription lenses and thus the wearer need carry only a single pair of tinted eyewear for use as sunglasses or can wear safety glasses with contacts. However, many people have difficulty wearing contact lenses, and many of those who do wear contact lenses find them irritating at times, particularly in bright sunlight and windy weather. Additionally, many people find that contact lenses require substantial efforts to insert, remove, and clean.
Another alternative to carrying two or more pairs of spectacles has been to use a pair of prescription eyeglasses that are tinted in such a way that there is a minor tint when the ambient light is relatively low, and a more severe tint as the ambient light becomes brighter. This approach is disadvantageous, because such eyeglasses are relatively expensive and the tint of the lenses may change at times when it is not desirable for it to change.
Yet another attempt to resolve the need for two pairs of corrective eyewear is to use “clip-on” or “snap-in” tinted lenses in connection with a pair of clear prescription eyeglasses. Clip-on lenses may be attached to a pair of eyeglasses by a clip, typically located at the center of the clip-on lenses. The clip may attach over the nosepiece of the eyeglasses. Sometimes the clip snaps over the sides of each of a pair of separate lenses formed to the shape of specific eyeglasses for which they are provided. In another variation, a tinted lens is snapped into a circumferential groove inboard of the clear lens. And in yet another attempt to solve the problem, clear prescription lenses are hung, hinged or otherwise detachably mounted inboard of a pair of conventional sunglass lenses. Typically, some additional structure, is added to the sunglass frames for holding a prescription lens or pair of lenses behind the sunglass lenses. In one species, the frames themselves are modified with threads to receive a “screwed-in” prescription lens for each lens of the sunglasses.
Despite these various efforts to develop a functional and comfortable “clip-on” lens, clip-on lenses can be disadvantageous because they result in less than desirable optics, typically through an inability to control the spacing and angular relationship between the sunglass lens and its clear lens with any precision or degree of stability, are heavy and tend to cause the eyeglasses to slip, and because they are often cosmetically unattractive.
Additional efforts have been made to resolve the issues presented when more than a single pair of spectacles is required for particular circumstances, or as circumstances change. Recently, 3M Company has provided on die cut sheets small “half-lens” shaped magnifiers cut from relatively flat vinyl stock and which employ a molded in Fresnel type grating for an optical magnification effect. These 3M lenses suffer from optical aberrations and poor performance, especially when adhered to the panes of a pair of spectacles. In addition, the magnifying power of the Fresnel material does not adapt well to bending and is not readily adaptable to prescription configurations.
Efforts have also been made to resolve the problems associated with adapting a pair of spectacles to correct a person's vision. For example, U.S. Pat. No. 3,628,854 of Jampolsky, dated Dec. 21, 1971, for “FLEXIBLE FRESNEL REFRACTING MEMBRANE ADHERED TO OPHTHALMIC LENS” (hereinafter “Jampolsky '854 patent”), and U.S. Pat. No. 4,079,160 to Philipson, dated Mar. 14, 1978 and entitled “ABRASION-RESISTANT OPTICAL ELEMENT” (hereinafter “Philipson '160 patent”) attempt to address these issues. Whereas the first of these references recognized the fact that certain polymers possess autogenous adhesive properties which enable membranes thereof to be stuck by mere finger pressure to the surface of an optical lens, it did not contemplate lenses which are injection molded from self-adherent polymeric material and which are characterized by truly optical corrective or enlargement properties, so that a magnifying or reader-type set of eyeglasses, or a set of eyeglasses embodying corrective lenses, could be produced by the simple pressed-on adherence of the lens to the surface of a sunglass lens or other simple plano lens having no correction itself, to provide simply and expediently, a set of “reader” glasses or glasses comprising corrective lens elements in a most facile and economic manner. The polymeric membrane described in the Jampolsky '854 patent is of vinyl butyrate, of which thicknesses in excess of one-sixteenth of an inch are not recommended, and the most significant disclosure of this patent is clearly the presence of a Fresnel refracting surface which refracts light rays transmitted through an ophthalmic lens and the membrane of Jampolsky to the eye, in a manner enabling diagnosis and treatment of a disorder of the eye.
The Philipson '160 patent, although employing an aliphatic polyurethane, among many different polymeric substrates which are disclosed as being utilizable for the production of a hard abrasion-resistant coating on optical surfaces, as present in a pair of eyeglasses or sunglasses, did not contemplate or suggest the production of a press-on lens having truly optical or magnification characteristics from such type of polymer or any other. The Philipson patent thus relates to a hard protective lens coating.
In addi
Bernheiser Charles A.
Burns Dennis L.
La Haye Peter G.
Christensen O'Connor Johnson & Kindness PLLC
Neoptx, Inc.
Sugarman Scott J.
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