A tool for overmoulding and/or backmoulding a curved glass body is proposed, the tool having a first surface for supporting the curved glass body. The tool comprises a plurality of pins, the pins each having a first end face at a first end of the pins, and at least one section of the first surface being formed by the first end faces of the pins. The pins are mounted to be displaceable in their longitudinal direction so that at least the section of the first surface can be adapted to a contour of the curved glass body.

A vehicle decoration part is arranged in a pillar sheet metal and/or a window frame of a vehicle and includes a decoration body and a decoration film attached to surface(s) of the decoration body, wherein the material of the decoration body is metal, and the material of the decoration film is flexible material and forms decoration surface. The vehicle decoration part possesses stable performance and can meet the user's requirements of different appearances. When the vehicle decoration part is applied to a vehicle window glass assembly, bad appearance caused by bumping or scraping in molding process and daily use process can be avoided. The molding device and the manufacturing process of the vehicle window glass assembly are easy to realize, economical in cost and wide in application prospect.

The subject invention includes a fixed window assembly for a vehicle comprising a fixed glass, a trim portion having a polymeric base and a decorative member bonded to the polymeric base. An encapsulation is coupled to the fixed glass and the polymeric base to mount the trim portion in a spaced and adjacent position relative to the fixed glass. A method of manufacturing is also provided using first and second molding apparatuses. Polymeric material is injected into a first mold cavity of the first molding apparatus to form the polymeric base bonded to the decorative member. Polymeric material is injected into a second mold cavity of the second molding apparatus to form the encapsulation coupled to the fixed glass and simultaneously coupled to the polymeric base to mount the trim portion in an adjacent position to the fixed glass.

There are provided a lens member, a method of manufacturing the lens member, a communication module, a lens array, and a light-source module, the lens member including a ready-made glass lens added with a mounting portion having a reference face as a plane for reference when the glass lens is mounted on a substrate. A lens member includes a glass ball lens to which sphericity processing has been previously performed, and a resin mounting portion 13 disposed on the glass ball lens. The mounting portion is molded by flowing the resin in a flowable state into a die including the glass ball lens disposed therein. The mounting portion includes a reference face that abuts on a mounting face in a case where the glass ball lens is surface-mounted, provided thereto.

An assembly is formed by an insert and an overmolding device including a lower mold part and an upper mold part that are movable with respect to one another between an open position, which is suitable for the arrangement and removal of a glass pane and of the insert to be overmolded, and a closed position, in which the two mold parts delimit at least one cavity for injection of the overmolding material, wherein the lower part includes a receiving housing that is designed, on account of having a complementary shape to a referencing member of the insert, to form a stop for the member in a direction of insertion of the insert, and to immobilize the member along a vertical axis.

The present invention relates to a processing method for coating glass container with silicone rubber and a glass container coated with silicone rubber by the processing method. The processing method comprises: cleaning a glass container body and performing a first drying treatment; brushing or spraying a primer on a surface of a part of the glass container body, wherein the surface of the part of the glass container body is to be coated with silicone rubber; performing a second drying treatment on the glass container body, and then cooling the glass container body to a room temperature; putting the glass container body into a mold cavity of a mold, injecting the liquid silicone rubber into the mold cavity, and vulcanizing the liquid silicone rubber for 200 to 300 seconds; opening the mold and letting the mold sliding out, and taking out the glass container coated with the silicone rubber layer.

A method for manufacturing a molded vehicle trim element including the following steps: (i) providing a carrier plate in a mold for injection molding including a mobile core of the mold and cavity of the mold to give the final shape of the vehicle trim element, (ii) providing a glass panel in the mold having at least a first region to be bent, (iii) cold bending the glass panel inside the mold in a requested shape, (iv) injecting a soft material to form the vehicle trim element made of bent carrier plate and glass panel fixed together via the molding material, and (v) removing the vehicle trim element from the mold.

A glass plate with a resin frame for a vehicle window, includes a glass plate; a resin frame disposed on a peripheral edge area of the glass plate; and a decorative molding disposed on the resin frame; wherein the resin frame is molded to the glass plate and the decorative molding as one unit; and wherein a spacer is disposed between the resin frame and the decorative molding, the spacer being solid at room temperature.

A process for producing a glass plate with a resin frame disposed on a peripheral edge portion, and the glass plate is configured to be mounted to a vehicle, includes using a mold to clamp a portion of the glass plate adjacent to the peripheral edge portion to form a cavity space between an inner surface of the mold and the peripheral edge portion of the glass plate; placing a hollow molding in the mold to be apart from the glass plate and to expose at least a portion of the hollow molding to the cavity space, the hollow molding including a hollow portion and having a support member placed into the hollow portion; injecting a resin material into the cavity space, and solidifying the resin material to form a base member, wherein the hollow molding, the base member and the glass plate are unified.

When an exterior portion is provided on an exterior surface of an extrusion-molded portion of a sealing member having the extrusion-molded portion and a mold-formed portion, while appearance is made favorable, the exterior portion is inhibited from being damaged. A glass run 20 includes an upper glass run edge 20a which is extrusion-molded, a rear connecting part 20f which is molded integrally with one end portion of the upper glass run edge 20a, and an exterior portion 29 provided on an exterior surface of the upper glass run edge 20a. A surface Si of the rear connecting part 20g on an outside of a passenger compartment is located further outside than a surface of the exterior portion.