A nozzle apparatus for use in an injection mold comprising a relatively massive body, having a central passageway extending axially therethrough, and a counterbore connecting therewith, having threads formed therein, and having a nozzle tip member, having threads at one end whereby the same may be threaded into said counterbore, and having a central passageway communicating with the central passageway in the body portion, and having at least one opening at its other end, for ejection of plastic therefrom, said body and said nozzle tip member being formed of a good heat conductive material, and a housing shell adapted to fit around said body portion and at least a portion of said nozzle tip member, and, support means formed integrally with said housing, for supporting said housing and said main body portion and said nozzle tip member therein in position.
This invention relates to a multi-cavity injection molding system in which a number of nozzles are fixed to a common manifold, and valve gating is provided by actuating the manifold and the nozzles together. A pair of hydraulically actuated pistons are mounted to drive the manifold and nozzles between a retracted open position and a forward closed position. Each nozzle has a truncated tip on the forward end portion which seats in a gate in the closed position. Pressurized melt flows through a melt passage which branches in the manifold and extends through each nozzle to a melt receiving space around the forward end portion. A circumferential sealing and locating flange prevents the leakage of melt from this space as the nozzle reciprocates.
An electrically operated heating element for a hot-runner tool has a heat conductor and is positioned in a hot runner and in runners that derive from the heat conductor and lead to a series of outflow channels 8 from the hot-runner tool. The heat conductor is a flat body with tongues on the side toward the outflow apertures, each tongue extending to the vicinity of one outflow aperture.
An electrically operated heating element for a hot-runner tool has a heat conductor and is positioned in a hot runner and in runners that derive from the heat conductor and lead to a series of outflow channels 8 from the hot-runner tool. The heat conductor is a flat body with tongues on the side toward the outflow apertures, each tongue extending to the vicinity of one outflow aperture.
The process and apparatus includes a die assembly having a die cavity defined therein and an inlet port in the die assembly communicating with the die cavity. An injection nozzle is provided for delivering molten synthetic resin to the die cavity through the inlet port having an opening aligned with the inlet port and a thermally insulating sleeve positioned around the injection nozzle having an elastically yieldable component and a rigid component.
A hot runner nozzle for heating and directing a melt stream to a mold cavity. The nozzle includes a heated nozzle body having a longitudinal flow passageway with a tapered tip at a downstream end thereof. The tip has a plurality of internal transition passageways communicating between said longitudinal passageway outwardly through a side of the tip. The tip is formed with a plurality of external laminar flow passageways each communicating with a respective internal tip passageway and extending longitudinally in a downstream direction along the tapered tip for imparting a laminar flow to the melt stream as it approaches and is directed through the mold cavity gate.
