Optical: systems and elements – Single channel simultaneously to or from plural channels – By surface composed of lenticular elements
Reexamination Certificate
1999-07-22
2004-06-15
Mack, Ricky (Department: 2873)
Optical: systems and elements
Single channel simultaneously to or from plural channels
By surface composed of lenticular elements
C359S619000
Reexamination Certificate
active
06751024
ABSTRACT:
This invention relates generally to optical systems and more particularly to a lenticular optical system through which various composite images can be viewed.
Lenticular lenses are well known for use in optical systems to produce various types of unique optical effects. The known lenticular lens systems generally include a transparent sheet having a plane surface on one side thereof and on the other side, a series of parallel longitudinal ridges creating a multi-lenticular system of convex lenses. A print sheet or medium is generally disposed at the back of the lens adjacent to or on the plain surface. The print sheet contains at least two alternate series of spaced image lines, each series of image lines constituting a dissection or breakup of a master picture. The two series of image lines are so optically related with respect to the lens elements as to be alternately visible upon positional changes of the viewer with respect to the lenses. When viewed from one position, the first series of image lines are visible so as to display the first composite picture. When viewed from a second position, the second series of line are visible so as to display the second composite picture.
The same lenticular system can also be utilized to produce a three-dimensional picture effect. In forming such effects, the two images respectively constitute a right eye view of an object and a left eye view of the same object in normal visual parallax. The lenticular lenses are placed to be along a line perpendicular to an imaginary line drawn through the two pupils of the eyes of the viewer. In this manner, the convex lenses provide the desired optical effect to divert light rays from the image lines making up the right eye elements of the picture into the right eye of the viewer and, in the same way, the left eye elements of the picture into left eye of the viewer, thereby creating the illusion of three-dimensional vision in the viewer's mind.
A major drawback of existing lenticular lens systems, such as those disclosed in my prior U.S. Pat. Nos. 4,541,727 and 4,034,555, is the fact that neither image can be placed at varying distances beneath the lens and be viewed successfully, nor is it possible to place a three-dimensional object beneath the lens sheet at varying distances and be viewed. Thus, the applications of existing lenticular lens systems are restricted. Such capability of placing an object or image beneath the first composite image would greatly expand the applications to which the system could be used.
Another drawback of existing lenticular lens systems is the fact that materials that are sufficiently thin enough for packaging and other large-scale commercial uses cannot be made using the most economical printing technologies. In traditional lenticular lens material, the thickness is the same dimension as the focal length, which is approximately three times the radius of curvature of the lens. With the limits of quality consistent mass printing, in the order of being able to print lenticular material in the order of 100 lenticules/inch, the lens material thickness is greater than 0.017 in. thick. In addition, where the object is to grab viewers' attention as they walk past, the traditional lens materials change too quickly for use as our two-phase system of image to see-through. The traditional materials change several times with too short a view of each phase. Another drawback of the known technique for fabricating lenticular lens is the inability to economically register the print lines to the lenses with the required critical parallel alignment.
A significant commercial use for materials with a dynamic change in views from an opaque picture view to a view of the interior contents is in packaging, and particularly the mass beverage and snack food packaging market. Surveys show that over 80 percent of consumers make their final purchasing decisions in the store. In beverage and snack food marketing, with a crowded field of products, it is essential to “catch the eye” of the consumer. There is a current need for an improved lenticular system in which a juxtaposition of advertising images and actual three-dimensional product within creates an enhanced visual attraction.
Lenticular optical system that create 3-D images and images which change with changes in viewing position have been produced for many years by printing pictures on sheets which are laminated to lenticular lens sheets. The lens sheets are injection molded, extruded, and embossed. The embossing has been typically done with a spiral engraving of the cylinder. This creates a skew of the emboss lines, which makes it extremely difficult to align the lenticular ridges parallel to the print lines. It is essential that the image lines be parallel to the ridges lines for 3-D and even more critical for image-to-see-through animation systems. This parallel relationship must be maintained in order to keep the ‘see-through’ slits open for a clear view of the objects beyond the plane of the lens sheet. If the lines and lens ridge are not mutually parallel, the image will not be capable of changing in a clear left-right, or up-down animation. Instead, the image would change in the form of diagonal bands diminishing in size with further misalignment of the parallel.
It is a general object of the present invention to provide an improved lenticular optical system and an improved process for fabricating such a system.
It is an object of the present invention to provide a lenticular optical system in which a composite image is viewable from one angle and an object or image placed at a selected distance between the composite image is viewable form a second angle.
It is a further object of the present invention to provide a lenticular optical system which provides a first composite image which can be viewed through lenticular lenses wherein the first composite image is formed of a plurality of spaced apart parallel strips with transparent stripes therebetween.
Still a further object of the present invention is to provide a lenticular optical system through which at least two composite pictures can be viewed and wherein an object will be viewed at a third angle.
Another object of the present invention is to provide a lenticular-type optical system which permits the placement of an object image at a plurality of preselected distances beneath a composite image for viewing at different angles.
Yet another object of the present invention is to provide an optical system in which one composite picture may be viewed from one angle and a three-dimensional object may be viewed from another angle.
Another object of the present invention is to provide a lenticular optical system which permits independent replacement of each composite image.
Another object of the invention is to provide optical systems which permit production of thin materials which are particularly useful for packaging.
Still another object of the present invention is to provide a multiple container packaging having an area having a lenticular lens system permitting the view of a first composite picture along one viewing direction and a second composite image, the actual individual containers within the outer package at another viewing angle.
Still another object of the present invention is to provide an array of packages with lenticular image to see-through portions which create a continuum of moving images.
Still another object of the present invention is to provide container labels having an area of lenticular lens system permitting view of two or more sets of information in a limited area, permitting the view of composite graphic information from certain directions of view and the contents of the containers from other viewing directions.
Another object of the present invention is to provide a process for fabricating a lenticular optical system in which the required accurate alignment for the quality control necessary for the economical printing of the large quantities needed for packaged goods and other commercial printing is achieved.
Another object of the invention is t
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