Touch screen dielectric separators

Computer graphics processing and selective visual display system – Display peripheral interface input device – Touch panel

Reexamination Certificate

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Details

C178S018010, C178S018030, C178S018050, C338S114000, C338S115000, C427S066000, C427S164000

Reexamination Certificate

active

06611256

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates generally to an improved touch screen or touch panel assembly for a contact input system, and more particularly, to a touch screen having a uniform pattern of reticulated, non-hemispherical, spaced and uniformly raised projections disposed thereon for maintaining appropriate separation between opposed electrically resistive coatings present on the inner surfaces of the substrate and its coverlay assembly. In accordance with the steps involved in forming the raised projections (separators), the raised projections created in the process are not only highly adherent and coherent with good durability, but are also formed in a uniformly spaced reticulated pattern, and raised to a uniform height so as to provide uniform spacing between the substrate and flexible coverlay. Accordingly, the present invention improves the lifetime and performance of contact input systems by improving the mechanical, electrical and optical properties of the screen while reducing the reflectivity of the substrate surface as well. The touch screens of the present invention have improved performance due to the features of the steps involved in the process of creating the projections which are formed of a discrete, uniform, and reliable height and spacing and also are highly adherent to the substrate surface. Thus, the gap created and maintained between the opposed electrically resistive coatings is reliably constant due to the rugged nature of the projections.
Contact input systems have been in use for a wide variety of applications, including in particular, computer graphics, computer-aided design and manufacturing systems, as well as for a variety of other applications including control panels for moderately and highly complex process machinery, scientific instruments, and the like. Because of the highly desirable optical properties of touch screen systems fabricated pursuant to the present invention, other applications including those requiring uniform optical clarity and low reflectivity are made possible, including, for example, signature recognition, palm recognition/rejection, and the like.
These screens typically employ a base or substrate with the inner surface having a coating thereon of uniform resistivity. The screens typically employ a transparent flexible coverlay film with the inner surface having a coating thereon of uniform electrical conductivity/resistivity. These touch screen assemblies further have electrodes positioned about the periphery, with these electrodes being more electrically conductive than the resistive surfaces. In order to avoid anomalies in the electrical output, frequently referred to as “bowing”, the electrodes may have configurations which are arcuately formed in order to linearize the output and eliminate or reduce signal anomalies. In use, the surface of the coverlay film may be touched by any object exerting pressure against the surface, such as by means of an operator's finger, a stylus, or by other suitable means, thereby creating a combination of electrical signals at the peripheral electrodes which are unique to the specific location of the applied pressure. Typically, the X-Y coordinates may be determined by evaluating the output signals obtained from the electrically resistive coatings forming part of the system.
In the processing steps and in a number of typical applications, it is desired that the touch screen substrates have limited or low reflectivity. Surface reflection is ordinarily determined as a function of the surface properties of the substrate and coverlay film, with the optical properties of the coverlay typically being more predictable and more easily controlled than those of the substrate. The process of the present invention enhances the properties of the substrate.
SUMMARY OF THE INVENTION
The present invention comprises a process for preparing improved touch screen or touch panel devices with desirable optical and electrical properties. Among the features which result in the improved properties are the utilization of a highly desirable photoresist along with improved processing techniques. In particular, the preferred substrate material is glass, with glass substrates suitable for this application being commercially available. The selected photoresist is one which can be laminated under heat and pressure to become adherently bonded to the substrate surface, with the photoresist, as applied during the process, having and utilizing a release film backing component. This technique enables and facilitates the creation of a highly adherent layer of photoresist which is uniform in its consistency and photoresponse, as well as in its final overall thickness. In order to prepare the substrate, it is pre-baked prior to application of the photoresist layer, with this step being undertaken in order to pre-heat the substrate to better facilitate the laminating step which is next in the operation. It has been found that this step improves the quality, uniformity, and durability of the finished product. Photoresist is attached or applied as a layer to the heated glass substrate to create a laminate pre-form. In the laminating operation, heated air-actuated rubber nip rolls are utilized in order to create a uniform and desirable laminate. The photoresist layer of the laminate is then masked and moved to a UV exposure station where the photoresist is exposed, with the exposed laminate thereafter being moved to a developing staging and/or developer station. Following the develop operation, the resist coating is converted to the pattern of mechanically durable reticulated projections, with the laminate then being moved to a wash/dry station where bonding adhesives are applied to the substrate edges. Thereafter perimeter electrodes and the flexible plastic film are bonded to the treated surface of the substrate and the touch screen is complete.
In the individual steps included in the process or operation, it has been found that:
(a) The substrate pre-bake operation effectively pre-heats the substrate so as to provide a better bond between the surface of the substrate and the photoresist layer;
(b) The photoresist layer more readily flows when subjected to the nip rolls in the laminator station;
(c) The utilization of heated rolls in the laminator operation further enhances the bonding and flow characteristics of the photoresist layer, thereby enhancing the durability and uniformity of the finished product.
Thus, the steps of substrate pre-heating, the use of heated nip rolls, and the use of a photoresist layer with a backing film are all instrumental in the enhancement of the overall optical, electrical and mechanical properties of the finished touch screen or panel component.
Therefore, it is a primary object of the present invention to provide an improved process for the preparation of touch screen assemblies, with the improved process of the present invention resulting in touch screens which exhibit enhanced optical, electrical and mechanical characteristics, including a significant enhancement of lifetime and a reduction in surface reflectivity from the substrate.
It is a further object of the present invention to provide an improved touch screen which is produced by a series of operations or steps in a process in order to create a uniform pattern of reticulated spaced projections with rugged mechanical properties, and which are of a uniform height, the projections being utilized as spacer elements between opposed electrically resistive coatings.


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