There is provided a mold stack (100). The mold stack comprises a cavity insert (110) configured to define a portion of a molding cavity (108) for defining a body portion of a preform to be molded therein, the cavity insert (110) positionable, in use, within a bore (113) in a cavity plate (114) in a
There is provided a mold stack (100). The mold stack comprises a cavity insert (110) configured to define a portion of a molding cavity (108) for defining a body portion of a preform to be molded therein, the cavity insert (110) positionable, in use, within a bore (113) in a cavity plate (114) in a loose fit arrangement, allowing for a degree of float, in a lateral direction, of the cavity insert (110) relative to the cavity plate (114).
대표청구항▼
1. A mold stack comprising: a cavity insert configured to define a portion of a molding cavity for defining a body portion of a preform to be molded therein, the cavity insert positionable, in use, within a bore in a cavity plate in a loose fit arrangement, allowing for a degree of float, in a later
1. A mold stack comprising: a cavity insert configured to define a portion of a molding cavity for defining a body portion of a preform to be molded therein, the cavity insert positionable, in use, within a bore in a cavity plate in a loose fit arrangement, allowing for a degree of float, in a lateral direction, of the cavity insert relative to the cavity plate;a flange insert, positionable in use and at least partially within the bore in the cavity plate in association with the cavity insert, the flange insert is coupled to the cavity plate with a floating retainer structure, whereby the flange insert is provided with a degree of float;the flange insert includes a flange member, the flange member projecting away from a mold face (114a) of the cavity plate, the flange member projects into a space between the bore and a portion of the cavity insert, the flange member is sandwiched in-between the cavity insert and the walls of the bore in a pocket defined in the cavity plate;the flange insert is positionable, in use, in-between the cavity insert and the bore;the mold stack further includes a split mold insert that includes at least a split mold insert pair;during initial stages of mold closing, the flange insert aligns with the split mold inserts along a first interface and through an alignment process the flange insert is able to move laterally whereby the cavity insert and a gate insert move and align therewith as a whole. 2. The mold stack of claim 1, wherein a length of the flange member is selected such that the insertion of the flange member into the bore allows for preventing of the tilt of the flange insert relative to the cavity insert. 3. The mold stack of claim 1, wherein the flange insert is coupled to the cavity plate via a flexible retainer structure. 4. The mold stack of claim 1, further comprising a gate insert. 5. The mold stack of claim 4, wherein all of the cavity insert, the flange insert and the gate insert are implemented as compensating stack inserts. 6. The mold stack of claim 1, wherein the cavity insert comprises a first cavity portion and a second cavity portion. 7. The mold stack of claim 6, where one of the first cavity insert portion and the second cavity insert portion is provided with an interface seat and the other one is provided with a cavity insert end portion configured to be positionable within one another. 8. The mold stack of claim 1, wherein the flexible retainer structure comprises a screw that is positionable through a screw seat that in turn is positionable within a bore defined within the flange insert, the screw, the screw seat and a threaded bore defined in the cavity plate are so sized to allow the flange insert a degree of float within boundaries of a gap defined between the flexible retainer structure and the cavity plate. 9. The mold stack of claim 8, wherein the size of the gap defined between the flexible retainer structure and the cavity plate can be between 0.005 mm and 0.04 mm.
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이 특허에 인용된 특허 (12)
Lausenhammer, Manfred, Cavity insert film flow cooling.
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