A touch device comprises a housing, a touch sensor and a circuit board. The housing has an inner space and an opening. The touch sensor is arranged in the inner space, and comprises a substrate, first metal pads and a sensing layer. The substrate is arranged in the inner space and corresponding to the shape of the housing. The sensing layer is arranged on the substrate and electrically connected to the first metal pads. The circuit board is arranged on the housing at a position adjacent to the opening, and comprises second metal pads facing towards the inner space and electrically connected to the first metal pads, respectively. The provided touch device can achieve full-screen touch control without the need for reserving a bezel to lay out wires.

A method is provided of producing and assembling a multi-part surface-mountable physical-activity lamina for use in aiding or supplementing a physical-activity in a physical-activity environment. There is a step a] of providing a first graphic design model of the lamina; and b] segmenting the first graphic design model into a plurality of graphic design model portions. A step c] follows of arranging the graphic design model portions into a more compact second graphic design defining a reduced surface area; and then d] the second graphic design being applied to a lamina substrate having another surface area. The lamina substrate is then separated into lamina elements corresponding to the graphic design model portions, followed by a step e] of assembling the lamina elements onto a mounting surface at a physical-activity environment to form the surface-mountable physical-activity lamina.

A composite preform including a preform and a plastic member in close contact with the outer surface of the preform is made by preparing the preform made of plastic material and arranging the plastic member to surround the outer surface of the preform. Subsequently, the composite preform is heated and inserted in a blow molding die and undergoes blow molding in the blow molding die, by which the preform and the plastic member of the composite preform are inflated integrally and a composite container is obtained.

Disclosed are methods (100) for preparing a laminate incorporable to a surface of an optical lens and methods (500) for incorporating the laminate on the surface of the optical lens. The laminate is prepared by laminating an optical film (202a, 202b), such as a polycarbonate film, on each side of a functional film using an adhesive that is capable of preventing optical defects in the laminates during a thermoforming process and an injection molding process. The adhesive has optimal thermomechanical properties that include that the optical film (202a, 202b) coated with said adhesive has a modulus by compression greater than 6×10.sup.6 Pa, and preferably greater than 2×10.sup.8 Pa at a temperature from about 130° C. to 150° C. The laminate is incorporated on the optical lens via thermoforming followed by injection molding with overmolding technology.

To provide a glass plate with resin frame and a method for producing a glass plate with resin frame, by which high gloss of a design surface with a color expressed by a decorative molding can be achieved.

A glass plate 10 with resin frame, which comprises a glass plate 12, a resin frame 14 provided on a peripheral portion of the glass plate 12, and a decorative molding 16 disposed on the resin frame 14, the resin frame 14 being formed integrally with the glass plate 12 and the decorative molding 16, wherein the decorative molding 16 is a transparent design film, and when the glass plate 10 with resin frame is attached to a vehicle, the decorative molding 16 is disposed on the vehicle exterior side.

An in-mold encapsulation and processes for its manufacture are disclosed, comprising two or more plastic molded parts and a coating, such that when the encapsulation is rotated 360° about an axis, the coating may be seen as applied to a portion of the outside surface of the molded parts at any degree about that axis. In embodiments, the molded parts comprise polycarbonate, and the coating composition comprises isocyanate reactive groups and a polyisocyanate. The encapsulation may comprise areas where the coating is not applied, even though only the coating and not any other adhesive or structure holds the plastic molded parts together.

The present invention provides an assembly comprising a thermally conductive thermoplastic polymer as a heat sink to provide thermal management for an electrical/electronic component and a reaction injection molded (RIM) polyurethane to replace the potting compound typically used in such assemblies. In addition to replacing the potting compound, the cured polyurethane forms the part, such as the base of the LED bulb, which heretofore has been a separate component, thus reducing the number of components and saving a production step.

Disclosed is a semi-finished lens that includes a blank formed in a first material having a first hardness, the blank having an outline, a first face and a second face configured to be surfaced so as to constitute a first optical face of the ophthalmic lens, and a top layer formed in a second material having a second hardness greater than the first hardness, the top layer having an outline, a first face and a second face, the second face of the top layer being arranged on the first face of the blank. The outline of the top layer is equal to or included in the outline of the blank, and satisfies to a predetermined dimensional selection criterion involving the final outline of the ophthalmic lens.

The present invention relates to a thermoplastic composite article and a method of making the same. The method of preparing a thermoplastic composite article provided by the present invention comprises the steps of: a) coating a coating composition on one surface of a thermoplastic composite substrate; and b) allowing the substrate coated with the coating composition to be thermoformed in a forming mold to obtain the thermoplastic composite article. Compared with the prior art, the method of preparing a thermoplastic composite article provided by the present invention reduces the production steps such as overmolding and multiple spraying, decreases the warpage risk of the thermoplastic composite article, and simplifies the production process, thereby effectively improving the production efficiency and yield rate, in addition, it is also environmentally friendly.

Disclosed are methods (100) for preparing a laminate incorporable to a surface of an optical lens and methods (500) for incorporating the laminate on the surface of the optical lens. The laminate is prepared by laminating an optical film (202a, 202b), such as a polycarbonate film, on each side of a functional film using an adhesive that is capable of preventing optical defects in the laminates during a thermoforming process and an injection molding process. The adhesive has optimal thermomechanical properties that include that the optical film (202a, 202b) coated with said adhesive has a modulus by compression greater than 6×10.sup.6 Pa, and preferably greater than 2×10.sup.8 Pa at a temperature from about 130° C. to 150° C. The laminate is incorporated on the optical lens via thermoforming followed by injection molding with overmolding technology.