A method is provided of producing a component part for a motor vehicle. That method includes the steps of molding a first portion of an integral body from a chrome-platable material and molding a second portion of the integral body from a molded-in-color, non-platable material. This is followed by the applying of a chrome plate layer to the chrome-platable material. A component part or exterior grille made without masking and painting steps is also disclosed.

A process for manufacturing a motor vehicle part, wherein the part is produced by molding a filled thermoplastic material, the part thus molded is subsequently reinforced by positioning locally and at the surface of the part at least one reinforcing element including strips of unidirectional continuous fibers, the strips being deposited non-continuously on the part in at least one stress concentration zone.

An opening system for a container comprising a packaging material having an outside and an inside. An injection molded opening element, wherein the injection molded opening element is attached to the inside of the packaging material at a first point, and extends from the inside of the packaging material and through to the outside of the packaging material. And, wherein the injection molded opening element is attached to the outside of the packaging material at a second point and extends a distance from the second point for opening the container.

Various processes for creating mirrored features are discussed herein as well as devices that include the mirrored features. One embodiment includes a button having a transparent layer and an opaque layer coupled to the transparent layer. A portion of the transparent layer extends through the opaque layer so that the portion of the transparent layer is flush with a back surface of the opaque layer and generally has a shape of a desired feature. The button also includes a reflective object positioned so that it may be seen through the transparent layer.

The present invention discloses a method of manufacturing a housing and an electronic device. The method comprises the following steps: preparing a mold according to a predetermined shape of the housing, wherein the mold comprises at least one moving die and at least one fixed die, a first texture structure is formed on the inner surface of the mold, and the first texture structure comprises a plurality of projections arranged in a first arrangement, and a groove recesses inwardly is formed between any two adjacent projections, and the groove is formed by etching and removing a part of the moving die and/or the fixed die by the laser engraving method; closing the moving die and the fixed die, and heating the mold to a predetermined mold temperature; and injecting a raw material in a melting state into the mold cavity of the mold; retaining a pressure of the raw material in the mold cavity of the mold; cooling the mold; opening the mold to complete the housing. The housing made of the first material exhibits a second material effect in visual and/or tactile senses.

A system for producing at least one three-dimensional element on a visible face of an external part element of a timepiece implementing this process, the system including a mould formed by the reversible assembly of a first part and a second part configured to receive a support plate of the external part element, the mould including at least one cavity formed by associating the first part including at least one impression with the visible face of the external part element, each cavity helping produce a blank of the three-dimensional element from an over-moulding by injecting injectable material onto the visible face, and a device for applying a coating onto the blank over-moulded on the visible face of the external part element helping finalise this blank of the three-dimensional element.

Generally, a system for use in a robotic surgical system may be used to determine an attachment state between a tool driver, sterile adapter, and surgical tool of the system. The system may include sensors used to generate attachment data corresponding to the attachment state. The attachment state may be used to control operation of the tool driver and surgical tool. In some variations, one or more of the attachment states may be visually output to an operator using one or more of the tool driver, sterile adapter, and surgical tool. In some variations, the tool driver and surgical tool may include electronic communication devices configured to be in close proximity when the surgical tool is attached to the sterile adapter and tool driver.

A component for a vehicle comprises two or more first members each formed of a plateable resin and defining a front surface, wherein the front surfaces of the first members (i) are spaced apart from each other such that they appear discontinuous and (ii) collectively correspond to an outer surface of the component, a second member formed of a non-plateable resin and connected to each of the first members and a chrome plating applied to one or more exposed surfaces of each of the first members. A method of manufacturing the component involves utilizing one or more molds and removing a non-plated component comprising the first members and the second member from one of the one or more molds, attaching the non-plated component to a plating rack, such as via a permanent or temporary conductive circuit, and then performing the chrome plating.

An articulated tip part suitable for an endoscope, where the articulated tip part includes a distal end segment, a proximal end segment and a number of intermediate segments arranged between the distal end segment and the proximal end segment, the segments being joined together to form an articulated assembly of segments, a passage running along the length of the articulated tip part, and a bending element, the bending element being fastened to at least two segments and being arranged along a path which is essentially parallel to a centerline of the articulated tip part.

A polymer workpiece is described. The workpiece has an upper main surface, a lower main surface, an injection-mold separating surface and a flow attack edge surface. The flow attack edge surface is formed in the region between the injection-mold separating surface and the lower main surface as a planar surface with an angle α with respect to the injection-mold separating surface of 20° to 70°, and/or deviates by an amount a from 0.0 mm to 0.5 mm from the planar surface.