A connector housing includes a housing main body and a latch arm having a latch arm main body and a latch portion protruding from the latch arm main body. The latch arm main body is formed of a first material, extends like a cantilever from the housing main body, and is elastically deformable with respect to the housing main body. The latch portion is formed of a second material having a higher rigidity than the first material and latches with a latched member. A transition region between the first material and the second material has a continuously changing mixing ratio between the first material and the second material.

A present application relates to a dispensing component for use with an urn liner. The dispensing component includes a spout formed of a polyethylene material and a flexible tube formed of a thermoplastic elastomer material. The spout and tube are formed together as a single component in a mold by co-injection of the polyethylene material and the thermoplastic elastomer material.

A deployment system for a self expanding stent includes a catheter assembly with a tip attached to a distal end segment of an elongate tube. The tip includes a proximal portion molecularly joined to a distal portion, which has a lower durometer hardness than the proximal portion. The proximal portion includes an anchor surface in contact with the distal portion, and oriented perpendicular to a central axis of the elongate tube. The elongate tube may be formed from a thermosetting polyimide, and the overmolded tip may be made from two different colored and different hardnesses of polyether block amide material. The tip is overmolded onto an untreated external surface of the elongate tube.

A deployment system for a self expanding stent includes a catheter assembly with a tip attached to a distal end segment of an elongate tube. The tip includes a proximal portion molecularly joined to a distal portion, which has a lower durometer hardness than the proximal portion. The proximal portion includes an anchor surface in contact with the distal portion, and oriented perpendicular to a central axis of the elongate tube. The elongate tube may be formed from a thermosetting polyimide, and the overmolded tip may be made from two different colored and different hardnesses of polyether block amide material. The tip is overmolded onto an untreated external surface of the elongate tube.

A deployment system for a self expanding stent includes a catheter assembly with a tip attached to a distal end segment of an elongate tube. The tip includes a proximal portion molecularly joined to a distal portion, which has a lower durometer hardness than the proximal portion. The proximal portion includes an anchor surface in contact with the distal portion, and oriented perpendicular to a central axis of the elongate tube. The elongate tube may be formed from a thermosetting polyimide, and the overmolded tip may be made from two different colored and different hardnesses of polyether block amide material. The tip is overmolded onto an untreated external surface of the elongate tube.

A secondary molding component includes: a first molding portion that has a base portion and a projecting portion projecting from an outer surface of the base portion and is made of resin; and a second molding portion that has a bonded portion bonded to a circumference of the projecting portion and is made of resin, in which the projecting portion has a fused portion that is fused with a part of the bonded portion at an end opposite to the base portion, and an interface between the projecting portion and the bonded portion has a portion that is formed so as to vertically stand from the base portion.

A trim component for a vehicle interior configured to provide an opening for deployment of an airbag is disclosed. The component may comprise a weakened substrate and insert to direct deployment of the airbag. The insert may comprise a film formed from a polypropylene composition and may be secured between an airbag chute and the substrate. The film may be bonded to the substrate. The chute may be welded to the film and the substrate. The polypropylene composition may comprise polypropylene, an elastomer and polyethylene. The chute may be formed from a thermoplastic polyolefin material. A weakened portion of the insert and a weakened portion of the substrate may be formed concurrently. Thermoplastic polypropylene material may be injected into a mold at a temperature to form the substrate and melt the film in order to bond the film to the substrate.

A method for manufacturing a multicomponent injection-molded part is provided. A first plastic component is manufactured with the aid of a first injection molding step, and a second plastic component is at least partially injection-molded onto or over the first plastic component with the aid of a second injection molding step, so that a material composite is formed with the two plastic components. At least one part of an edge area along the parting line between the two plastic components is heated by means of a heat source for the purpose of sealing the two plastic components to each other in the edge area.

An insulated drinking vessel, e.g., a wine glass, and a method of making the same is disclosed. The drinking vessel basically comprises an outer vessel, an inner vessel and a ring. The inner and outer vessels each include a sidewall. The sidewalls are spaced apart. At least one of the outer vessel, the inner vessel and the ring are pre-molded to form an integral structure having a vestige of a molding gate used to mold the integral structure. At least one of the inner and outer vessels and the ring is molded in situ on the integral structure to cause portions thereof to melt and intermingle to form a non-superficial homogenous joint, with the ring forming the rim or lip of the insulated drinking vessel.

An insulated drinking vessel, e.g., a wine glass, and a method of making the same is disclosed. The drinking vessel basically comprises an outer vessel, an inner vessel and a ring. The inner and outer vessels each include a sidewall. The sidewalls are spaced apart. At least one of the outer vessel, the inner vessel and the ring are pre-molded to form an integral structure having a vestige of a molding gate used to mold the integral structure. At least one of the inner and outer vessels and the ring is molded in situ on the integral structure to cause portions thereof to melt and intermingle to form a non-superficial homogenous joint, with the ring forming the rim or lip of the insulated drinking vessel.