A plasticizing screw for a molding machine, includes a base element which is stretched along a longitudinal axis and a screw tip which is connected to the base element, and the screw tip is located after the base element. A return flow shut-off device includes a first anterior limit stop, a second posterior limit stop, and a shut-off ring movable in a limited manner between the two limit stops along the longitudinal axis. The first, anterior limit stop comprises a first limit stop surface facing towards the base element and the shut-off ring. The shut-off ring comprises a ring-shaped screw tip abutting surface facing towards the first, anterior limit stop. The screw tip abutting surface is formed rotationally symmetric around the longitudinal axis, and the first limit stop surface comprises a convex curvature facing towards the shut-off ring.

A plasticizing screw for a molding machine, includes a base element which is stretched along a longitudinal axis and a screw tip which is connected to the base element, and the screw tip is located after the base element. A return flow shut-off device includes a first anterior limit stop, a second posterior limit stop, and a shut-off ring movable in a limited manner between the two limit stops along the longitudinal axis. The first, anterior limit stop comprises a first limit stop surface facing towards the base element and the shut-off ring. The shut-off ring comprises a ring-shaped screw tip abutting surface facing towards the first, anterior limit stop. The screw tip abutting surface is formed rotationally symmetric around the longitudinal axis, and the first limit stop surface comprises a convex curvature facing towards the shut-off ring.

Methods, devices, and systems are provided for the encapsulation of electronic devices. The encapsulation includes positioning an electronic device in a cavity of a mold, and screen or stencil printing an encapsulant, in a liquid form, around the flexible electronic device. The mold is of a sufficient thickness to allow the encapsulant to completely cover electronic components mounted on a first surface of the electronic device.

An injection device includes a heating cylinder (27), a screw (29) placed in the heating cylinder (27) so as to be rotatable and movable in an axial direction, an injection stage (50) supporting the heating cylinder (27), and a material introducing member (40) unit that supplies a resin material to the heating cylinder (27). The material introducing member (40) includes a first heat medium passage through which a heat medium having undergone a temperature control passes, and is fitted in a vertical hole (57) formed in the injection stage (50) from an upper side. The material introducing member (40) includes a cylindrical portion (42) that extends along the vertical hole (57). A heat insulating air layer (68) with a predetermined thickness is ensured between an outer circumference of the cylindrical portion (42) and a surface of the vertical hole (57). A lower part of the cylindrical portion (42) is in contact with the heating cylinder (27).

A plasticizing unit is provided for an injection unit of an injection moulding machine with a support element arranged beneath the cylinder and connected therewith. To simplify adjusting of the nozzle centre, a fixing element surrounds the end of the support element facing away from the cylinder such that a distance is present between the fixing element and the support element. Several adjusting elements are provided, to produce a force-fitting and/or form-fitting connection between the fixing element and the support element to adjust the position of the support element relative to the fixing element in a plane orthogonally to the cylinder axis. The plasticizing unit can be clamped in and out with its fixing element in a clamping- and positioning system connected with the machine bed. On changeover of the plasticizing unit, an adjusting of the nozzle centre, which has been carried out once, is retained.

A modular barrel and screw assembly for use in injection molding including a barrel having a barrel body, a separate barrel injection portion and a separate barrel end cap, with the barrel end cap being removably connected to the barrel injection portion and the barrel injection portion being removably connected to the barrel body, and a screw assembly having a screw tip assembly removably connected to a screw portion, wherein an injection chamber having a shot volume is defined by the barrel injection portion, the barrel end cap and the screw tip assembly. The modular barrel and screw assembly enables servicing of the barrel injection portion, barrel end cap and/or screw tip assembly without requiring removal of the barrel body, and enables use of a plurality of alternative corresponding separate barrel injection portions, separate barrel end caps and tip assemblies that provide a plurality of different shot volumes.

A modular barrel and screw assembly for use in injection molding including a barrel having a barrel body, a separate barrel injection portion and a separate barrel end cap, with the barrel end cap being removably connected to the barrel injection portion and the barrel injection portion being removably connected to the barrel body, and a screw assembly having a screw tip assembly removably connected to a screw portion, wherein an injection chamber having a shot volume is defined by the barrel injection portion, the barrel end cap and the screw tip assembly. The modular barrel and screw assembly enables servicing of the barrel injection portion, barrel end cap and/or screw tip assembly without requiring removal of the barrel body, and enables use of a plurality of alternative corresponding separate barrel injection portions, separate barrel end caps and tip assemblies that provide a plurality of different shot volumes.

Injection molding plastic parts includes furnishing resin material to a screw barrel having a rotatable screw therewithin, rotating the screw to work the resin material into a molten state, furnishing additive such as liquid color or another additive to the screw barrel interior at a first rate during screw rotation and driving the screw longitudinally from a first position to a second position to force an additive-resin material mixture resulting from screw rotation into a mold while furnishing additive with resin to the screw barrel interior at a second additive addition rate.

A control device for an injection molding machine including a cylinder into which a resin is supplied, and a screw that moves forward and rearward and rotates inside the cylinder, includes a suck back control unit that sucks back the screw based on a predetermined suck back speed and a suck back distance or a suck back time period, a pressure acquisition unit that acquires a pressure of the resin, a calculation unit which calculates a compensation amount of the suck back speed, based on a difference between the pressure of the resin at a time when sucking back is completed and a predetermined target pressure, and a speed determination unit that newly determines the suck back speed based on the compensation amount.

A control device for an injection molding machine including a cylinder into which a resin is supplied, and a screw that moves forward and rearward and rotates inside the cylinder, includes a suck back control unit that sucks back the screw based on a predetermined suck back speed and a suck back distance or a suck back time period, a pressure acquisition unit that acquires a pressure of the resin, a calculation unit which calculates a compensation amount of the suck back speed, based on a difference between the pressure of the resin at a time when sucking back is completed and a predetermined target pressure, and a speed determination unit that newly determines the suck back speed based on the compensation amount.