The invention relates to a high-pressure mixing, dosing and recirculation head for injection or casting reaction molding, said high-pressure mixing, dosing and recirculation head comprising a head body, a mixing chamber, obtained in the head body wherein a valve element or mixing valve slides and in fluid communication with a supply duct, and a self-cleaning element comprising a scraping portion, said self-cleaning element being structured to slide in said supply duct, as well as comprising an apparatus for controlling and commanding mixing, supply and recirculation comprising a plurality of sensors and transducers mounted on board of the head body and of the components parts of the head connected thereto to detect and transform representative physical quantities of at least one operational status of said high-pressure mixing, dosing and recirculation head into electrical signals and an electronic control and storing system adapted to synchronously control and scan said sensors and transducers and adapted to receive and process said electrical signals indicative of said at least one operational status, at the beginning and during the operational phases of said high-pressure mixing, dosing and recirculation head to compare them with each other and with electrical signals representative of a predetermined reference operational status. The invention also relates to a high-pressure mixing, dosing and recirculation method for injection or casting reaction molding.

An artificial fishing lure, and a method of constructing the same, the fishing lure including a translucent polymer body, and a separately formed insert member at least partially embedded in the polymer body, the insert member being less translucent that the polymer body and formed to mimic a physical trauma in the fishing lure.

Disclosed herein is a method for manufacturing a rotor, the method including an injection process of injecting a bonded magnet material into a cavity of a molding die generating a magnetic field in the cavity so that the bonded magnet material is poured into each of the magnet slots in the rotor core set in the cavity through one of openings of each magnet slot, wherein the molding die used in the injection process has gates which respectively open at positions corresponding to regions, each of which ensures a view from the one of openings to the other opening of the magnet slot along an axial center of the rotor core.

Disclosed herein is a process for producing marbled moldings, where a first molding compound and at least one further molding compound are injected from an injection unit of a screw injection molding machine into an injection mold, where the injection unit includes a barrel, a screw having a screw tip and a nozzle where the screw is rotatable and is disposed in the barrel so as to be movable between a forward position and a backward position, with a smaller distance between the screw tip and the nozzle in the forward position than in the backward position, and where the first molding compound includes a first polymer compound and a first colorant, and the at least one further molding compound includes a further polymer compound and optionally at least one further colorant.

Further disclosed herein is an apparatus for production of marbled moldings, and a process for producing the apparatus.

Plasticizing unit for a molding machine with an injection cylinder and an axially movable plasticizing screw arranged in the injection cylinder, wherein a filter device for filtering plasticized material, in particular plasticized plastic, is provided, which is or can be arranged axially movable in the injection cylinder.

Provided are an injection molding machine and an injection molding method. An injection molding machine includes: a plasticizing unit which rotates a screw to plasticize a molding material inside a plastication cylinder, and an injection unit. The injection unit has: a plunger reciprocally moving inside an injection chamber, and an injection driving device reciprocally moving the plunger. By driving the injection driving device to move the plunger backward and forward inside the injection chamber, and driving a rotary driving device to alternately rotate the screw in a normal rotation direction and a reverse rotation direction, the molding material is controlled to reciprocate between the plastication cylinder and the injection chamber.

An injection molding machine capable of changing the position of the supply hole of the resin material in a cylinder as appropriate is provided. An injection molding machine according to one aspect of the present disclosure includes: a supply hole through which a resin material is supplied to an inside of a cylinder, the supply hole being formed in a side wall part of the cylinder; and a closing part that, when a torpedo piston moves to a side of an other end part of the cylinder in order to plasticize the resin material, moves together with the torpedo piston and closes the supply hole.

A molding apparatus and method operation for making a molded part are provided. The molding apparatus includes a mold core extending between a generally flat lower surface and an upper surface defining a runner, a fan gate, and a part cavity for forming the molded part. The mold core includes an inner surface defining a plunger cavity extending into the mold core from the upper surface and having a uniform cross-section parallel to the upper surface and open to the gate. A plunger is slidably disposed within the plunger cavity for pulling material from the gate into the plunger cavity. A first pin extends through a first bore in the mold core to move the plunger within the plunger cavity. A hydraulic cylinder interacts with an ejector plate to move the first pin. A second pin also extends through the mold core and is movable perpendicular to the upper surface.

The present invention relates to a spacer for high pressure mixing head comprising a control cylinder flange, a head body flange, and a plurality of uprights adapted to interconnect the control cylinder flange and the head body flange. At least one of the plurality of uprights comprises at least one deformation detection sensor applied at at least one available deformation surface thereof and adapted to detect longitudinal deformations and/or transversal deformations of the at least one of the plurality of uprights. The present invention also relates to a related mixing and dosing head and to a related apparatus.

The present invention provides a melter that can improve melting efficiency compared to prior arts and an injection apparatus with improved injection efficiency. A melter according to the present invention includes a through hole, one opening of the through hole is an inflow port and the other opening is an outflow port, an inner wall surface of the through hole is formed of an inclined surface so that the opening becomes narrower from the inflow port to the outflow port of the through hole, an opening width of the inflow port is 4.1 mm to 10 mm and an opening width of the outflow port is 1.0 mm to 4.5 mm.