A discharge member used for discharging contents accommodated in a container includes: an attachment part to be attached to the container; and a tubular part that is formed into a tubular shape, through which the contents from the container pass, the tubular part being provided with a tubular member in which a functional resin layer is disposed as an intermediate layer inside in a radial direction. The functional resin layer provided to the tubular member is disposed closer to the outer circumferential surface among the outer circumferential surface and the inner circumferential surface of the tubular member.

An injection mold and an injection molding method are provided. The injection mold includes a housing and a cover. The housing is provided with a mold cavity. The mold cavity is configured to accommodate a power module. The cover is provided with a plurality of vias. The cover is detachably connected to the housing. The cover is located in the mold cavity and locates the power module jointly with the housing. The plurality of vias are configured to match a plurality of pins of the power module. In this application, the cover is disposed, and the cover is provided with the vias for pins to pass through. By using covers with different arrangement manners of vias, a same set of injection molds can be compatible with power modules of a same series that have different locations of pins. Arrangement manners of vias on different covers are different.

In a method for producing a housing of an electronic module, a lead with a bondable lead surface is injection molded with a plastic in a plastic injection mold such as to leave at least a part of each bondable lead surface from being injection molded and to form the lead with a pin recess which passes through the plastic and has a lead recess in the lead and which is sealed on opposing sides by a stamp component and a matrix component of the injection molded tool when the injection molded tool is closed, with the stamp component and the matrix component being injection-molded after the injection molded tool is closed. An electrically conductive pin element is inserted into the pin recess such as to guide the pin element through the lead recess of the pin recess.

Described is a mould (1) for making a temporary prosthetic component for a knee in an operating room comprising: a first half-mould (10); a second half-mould (20) which can be coupled to the first half-mould (10) for forming a moulding chamber (C) for a temporary prosthetic component made of medical cement; and elements (30) for fixing the first half-mould (10) to the second half-mould (20). Each fixing element (30) has a rod (31) configured for connecting the first half-mould (10) to the second half-mould (20) and defining a weakness neck (32) configured to allow a facilitated breakage of the rod (31).

A liftgate structure having a structural inner panel with an outside surface and an inner surface having a lower perimeter surface area extending across substantially the entire width of the structural inner panel. The structural inner panel includes a wiper motor housing recess formed on the inner surface. A plurality of brackets are connected to the outside surface of the structural inner panel, where each of the brackets has at least one friendly hole. The liftgate structure further includes a tether having 2 ends each having at least one over molded retainer for connecting the tether to a wiper motor housing positioned within the wiper motor housing recess of the structural inner panel. Additionally the tether is positioned through each of the at least one friendly holes of the plurality of brackets.

An apparatus and a method for manufacturing a reactor capable of preventing a core from being cracked due to a resin pressure during molding are provided. An apparatus for manufacturing a reactor provided with a core includes a mold with a cavity for housing the core. The mold includes a core support pin brought into contact with the core and configured to support the core against a resin pressure during molding. Resin flow paths during molding includes an inner flow path passing through inside the core and an outer flow path passing through outside the core. The core support pin is disposed at a position where a width of the inner flow path is greater than a width of the outer flow path.

An injection molding one-piece cutting board (2) comprises two pre-molding wear-resistant chopping plates (21) spaced apart from each other in parallel. Two holding holes (211) of the two chopping plates (21) are respectively press-fitted at an upper side and a lower side of a positioning block (31) arranged inside an injection molding mold (3). Two open groove portions (32) of the mold (3) are respectively arranged corresponding to an upper side of one chopping plate (21) and a lower side of the other chopping plate (21). A cover groove portion (33) of the mold (3) is surrounded the peripherals of the two chopping plates (21). A plastic material is injected into a space defined between the two chopping plates (21) and then filled with the plastic material to form a middle thickness support (22) and the cover groove portion (33) to form a frame (23).

In a bus bar unit in which a plurality of bus bars are formed by insert molding and arranged in an axial direction of a stator, each bus bar includes: a main body portion extending in a circumferential direction of the stator; a through hole formed in the main body portion, into which a support pin for supporting the main body portion of another bus bar is inserted in the axial direction of the stator during insert molding; and a projecting portion provided on a side portion of the main body portion in alignment with the through hole so as to increase a sectional area of the main body portion.

The present invention is intended to provide a manufacturing method of an insert molded article that makes it possible to manufacture efficiently the insert molded article including a metallic insert, an inside member made of a synthetic resin and covering a portion of the insert, and an outside member made of a synthetic resin different from the material of the inside member and covering a portion of the inside member using general molding machines, not a dedicated two-color molding machine.

General molding machines are used to manufacture the insert molded article formed by injection molding of a resin part in twice. An insert core 7 is used in common in primary molding using a primary molding die C1 and in a secondary molding using a secondary molding die. A round shaft 7C of the insert core 7 is fitted into an internal hole 2C of an insert 2 to form a coupled body 10 in which the insert 2 and the insert core 7 are coupled together. The coupled body 10 is used in common at the primary molding step and the secondary molding step.

A main body portion is disposed at a regular position by inserting a protrusion into an engaging portion formed in a leg portion of the main body portion in accordance with a forward movement of a sliding mold including the protrusion. Then, an injection molding mold is completely closed to cause at least a part of a mold surface of the sliding mold to come into contact with the main body portion.