In a resistance film type touch panel (8), an upper electrode sheet (1) having upper electrodes (111) on one face of a flexible transparent film (9) and a hard coat layer (12) on the other face of the film, and a lower electrode sheet (2) having lower electrodes (121) confronting to the upper electrodes on one face of a glass substrate (10) are arranged to face each other via a distance formed by spacers (13) between the upper electrodes and the lower electrodes confronting the upper electrodes, and respective peripheries of the upper electrodes and the lower electrodes confronting the upper electrodes are bonded by an adhesive layer (3), with the transparent film and the hard coat layer being fused at respective end parts thereby constituting a compressive stress layer (10a) at a surface layer part of each side end face of the glass substrate.

A laminated film contains a base film having a conductive layer on one side thereof and a layer obtained by curing a curable phosphazene composition coated on the other side thereof. The laminated film is suitable for use in a touch panel having a switching function when pressing an operating section of the touch panel, the operating section being made from the cured layer of the phosphazene composition. The laminated film has a remarkably balanced combination of the properties, i.e., adhesion, surface hardness and appearance on the coat surface (shrinkage upon curing).

A transparent membrane switch assembly (10) and mounting means (118) for mounting the assembly (10) to a cathode ray tube (CRT) (68) are disclosed. The assembly (10, 10') is comprised of two layers (12, 16) of transparent film having spaced-apart parallel double fineline conductors (20) deposited on the internal surfaces (14, 18) of both layers (12, 16). The mounting means (118) comprise extension (114) protruding from the perimeter (116) of at least one of the layers of film, and a patch of a coupled fastening assembly (120) attached to each extension (114). Each fastening assembly comprises two separable parts, an outer surface (124) of one part being attachable to a side surface of a CRT when the switch assembly is registered with the CRT face.

A spherically shaped membrane switch assembly (10) for attaching to generally spherical surfaces such as cathode ray tubes (12) is disclosed. Also disclosed are a method and apparatus for forming layers of flexible film used in the assembly 10. The assembly is comprised of two layers (20, 22) of transparent film having spaced-apart conductors (28) on the internal surfaces (24, 26) of both layers (20, 22). The internal surfaces (24, 26) are separated by spacing means (32), the spacing means (32) being discontinuous at the switch sites (30). The conductors (28) on the two layers (20, 22) cross and are spaced apart at the switch sites (30). The layers of the assembly (10) are spherically formed to the same radius as the spherical surface on which the assembly (10) is to be mounted. The assembly layers are formed by placing at least one film layer between two parallel retaining layers (122, 124) of thermoplastic film. The retaining layers (122. 124) are held between convex and concave surfaces while heat is applied to at least one of the retaining layers until the assembly layer attains the desired spherical shape. The assembly (10) mounts flush to the spherical surface and conforms uniformly to its surface thus reducing distortion and parallax.