Mold for producing a panel assembly comprising a panel and a gasket, which gasket is adhered to the panel, and extends along at least a portion of the periphery thereof, the mold comprising a first mold part and a second mold part that are formed such that the panel can been closed thereby forming a closed cavity the inner boundaries of which are formed by a first mold surface, a second mold surface and the periphery of the panel, and wherein the second mold part comprises a resilient lip extending along the periphery, the resilient lip being provided for being displaced by an applicator device to provide access to the closed cavity.

A manufacturing method of a molded photosensitive assembly of an array imaging module includes the steps of providing an enclosing element at a mold engaging surface of a first mold body of a mold; receiving the circuit board in the mold and positioning between the first mold body and a second mold body; introducing a fluid state mold material into the closed mold to fill the mold cavity and enclose the electronic elements; solidifying the mold material in the mold cavity and forming a molded base integrated with the circuit board and the electronic elements; and separating the first mold body and the second mold body and obtaining a molded photosensitive assembly which is an integrated body of the circuit board, the electronic elements.

A method for manufacturing a sealing element with a rectangular shape. The sealing element has a first and a second direction of extension as well as two or more openings. The method is technically simpler and more cost-effective than known manufacturing methods since the sealing element is formed by an injection molding process or a compression molding process in an unwound mold, after which a cylindrical end contour is formed. A sealing element produced through the method and its use are also described.

A connector terminal includes a press-fit terminal and a shaft portion, the connector terminal being fabricated of a single metal sheet, the shaft portion having a lateral cross section having a size entirely covering therewith a lateral cross section of the press-fit terminal when viewed in an axial direction of the connector terminal, the shaft portion having surfaces extending in the axial direction at an entire circumference thereof, the lateral cross section of the shaft portion being identical in shape with a lateral cross section of a terminal space of a die used for fabricating a housing for the press-fit terminal, the press-fit terminal being fit into the terminal space when the housing is molded with resin.

A connector terminal includes a press-fit terminal and a shaft portion, the connector terminal being fabricated of a single metal sheet, the shaft portion having a lateral cross section having a size entirely covering therewith a lateral cross section of the press-fit terminal when viewed in an axial direction of the connector terminal, the shaft portion having surfaces extending in the axial direction at an entire circumference thereof, the lateral cross section of the shaft portion being identical in shape with a lateral cross section of a terminal space of a die used for fabricating a housing for the press-fit terminal, the press-fit terminal being fit into the terminal space when the housing is molded with resin.

A connector including a body, an adjacent pair of first terminals, a second terminal next to one of the first terminals, a third terminal next to the other first terminal, and a fourth terminal. The body holds the terminals at least partially and includes a first recess, a second recess, and a first separating portion therebetween. The first and third terminals each have a portion exposed through the first recess. The fourth terminal has a portion exposed through the second recess. The second terminal includes an exposed portion and an unexposed portion. The unexposed portion includes an area on one side in the first direction of a part in the second direction of the second terminal and is covered with the body. The exposed portion includes an area on the other side in the first direction of the part of the second terminal and is exposed through the first recess.

A heat exchanger includes a core portion, a pair of header tanks, and an elastically-deformable sealing member. The header tanks are arranged on both end sides of the core portion. The header tank includes a core plate and a resin tank body, which define a tank space. The sealing member is disposed at an end part of the tank body located adjacent to the core plate. The sealing member has a loop shape to enclose the tank space when viewed from the core portion and is formed integrally with the end part of the tank body. The end part of the tank body includes a protrusion portion at least one of inward and outward of the sealing member. The protrusion portion encloses the tank space when viewed from the core portion and projects from the end part of the tank body toward the core plate.

Pipe joints and more particularly circular push-on type pipe joints including a flexible gasket having both hard and soft portions and where the soft portion overlaps a flange and an inner curved section of the hard portion.

A tool (1000) includes a mold defining a cavity (1002). The cavity can be for receiving a glass layer (402). A floating core insert (1001) can be placed in the cavity to apply a preloading force against a first major face of the glass layer, preclude an overmolding operation on the first major face, and allow overmolding only on minor faces of the glass layer when polymeric material (1100) is injected into runners (1018,1019,1020) of the tool.

A unit cell injection mold for fabricating a unit cell of a fuel cell, in which an integrated frame of the unit cell formed by injecting a polymer resin onto an insert, in which a membrane electrode assembly and a gas diffusion layer are integrated, is formed, the unit cell injection mold includes an upper mold, a lower mold engaged with the upper mold to define an inner space between the lower mold and the upper mold, the inner space including an injection area into which the insert is accommodated and an insert area into which the polymer resin is injected to form the frame, and elastic protrusions formed from an elastic material, the elastic protrusions being disposed on the upper mold and the lower mold to face each other, wherein the elastic protrusions clamp the insert to divide the inner space into the insert area and the injection area to prevent the polymer resin from entering the insert area.