Segmented molding core system of an injection mold, a method of injection molding a hollow articles formed thereby

1 . A molding core system comprising a plurality of co-operable components manipulable between a first molding position at which the core system is fully deployed and a second position in which the core system is configured to axially retract and radially contract into a second drawing position, the outer shape of said core system being substantially complementary to the inner shape of the molded article. 2 . A molding core system comprising a plurality of co-operable components manipulable between a first molding position at which the core system is fully deployed and a second position in which the core system is configured to axially retract and radially contract into a second drawing position, wherein said core system comprises an axially displaceable core pin and at least one of at least radially displaceable core segments extending around the core pin, the outer shape of core system being substantially complementary to the inner shape of the molded article. 3 . The molding core system of claim 2 , wherein the core pin is displaceable in a first axial direction and at least one of the core segments is further configured for axial displacement in an opposite, second axial direction. 4 . The molding core system of claim 2 , wherein the at least one of the core segments is simultaneously displaced radially and axially in the second axial direction. 5 . The molding core system of claim 2 , wherein the system comprises a plurality of core segments. 6 . The molding core system of claim 2 , wherein the geometry of the outer shape has its largest diameter, substantially wider/longer than that of the opening of the article. 7 . The molding core system of claim 2 , wherein the core pin has a substantially constant radius along its length, between its cap and base. 8 . The molding core system of claim 2 , wherein the core pin is at least partially retractable from the core system in a first axial direction, parallel to the central axis of the core system. 9 . The molding core system of claim 2 , wherein the core pin is fully retractable from the core system, such that upon its axial retraction thereof, volumetric space occupied thereby remains void. 10 . The molding core system of claim 2 , wherein two or more of at least radially displaceable core segments extending around the central core comprise at least one group of dynamic segment members configured for radial displacement towards the central axis of the core system. 11 . The molding core system of claim 10 , wherein the number of groups can vary from 1 to n as long as the total volumetric space of at least n minus 1 group when radially displaced towards the central axis of the core system does not exceed the volumetric space of the core pin when axially retracted and wherein each group can comprise any number of segments maintaining the spatial relationship 12 . The molding core system of claim 10 , wherein at least one of the groups of the dynamic segment members is axially displacable in a direction opposite the axial direction of the core pin translation in the first axial direction. 13 . The molding core system of claim 1 , wherein the core segments comprise a first group of dynamic segment members and a second group of dynamic segment members, all substantially circumferentially extending around the core pin, wherein the outer surface of the core system, substantially conforming to the inner surface of the hollow article cavity and the first group of segment members are configured for radially translating in a direction towards the central axis of the core system, while the second group of dynamic segment members is configured for radially translating in a direction towards the central axis of the core system and further to axially translate in a direction opposite the direction of the retraction of the core pin. 14 . The molding core system of claim 13 , wherein the radial translation towards the axis and the axial translation of the second group is performed substantially concurrently in a combined motion where the first group moves faster than the second group. 15 . The molding core system of claim 1 , wherein the core pin and the core segments, form together a sphere segment having one base such that the core pin is cylindrical and the secondary core segments are segments of a spherical ring and extend circumferentially around the core pin, such that the central axis of the core and the sphere coincide. 16 . An injection mold comprising a segmented mold base having a mold cavity corresponding to an outer shape of at least part of the molded article and a mold cover having a cavity corresponding to the remainder of the outer shape of the article, the segmented mold base comprising radially slidable mold segments, the mold further comprising a core system comprising a plurality of co-operable components manipulable between a first molding position at which the core system is fully deployed and a second position in which the core system is configured to axially retract and radially contract into a second drawing position, the outer shape of core system being substantially complementary to the inner shape of the molded article. 17 . An injection mold comprising a segmented mold base having a mold cavity corresponding to an outer shape of at least part of the molded article and a mold cover having a cavity corresponding to the remainder of the outer shape of the article, the segmented mold base comprising radially slidable mold segments, the mold further comprises a core system comprising an axially displaceable core pin and at least one of at least radially displaceable core segments extending around the core pin, the outer shape of the core system being substantially complementary to the inner shape of the molded article. 18 . The injection mold of claim 16 wherein, the injection mold being operable in a first, injecting position, in which the core system is in a fully deployed configuration and the mold sliding segments form together a continuous inner surface of the mold cavity and a second position, in which the mold sliding segments are displaced radially and spaced apart and the core system is configured to progressively axially retract and radially contract into a second retracted position. 19 . (canceled) 20 . A method of injection molding a substantially hollow article having at least one opening substantially narrower than the articles largest width, comprising: providing a mold comprising a mold base, a mold cover, wherein the cavity extending within the mold base and the cover correspond to the outer surface of the article and a dynamic core system having a central longitudinal axis extending therethrough, the core system comprising at least an axially displacable core pin and at least one radially displaceable core segment, wherein the outer surface of the core system corresponds to the inner surface of the article; injecting a molten material into the mold wherein the core system is at its first operable position in which the core system is in a fully deployed position, where the mold cover is covering the mold base with the core system extending therebetween; releasing the cover of the mold base; translating the core system into a second position, in which the core system is configured to axially retract and radially contract into a second drawing position; and removing the article from the mold. 21 . The method of injection molding of claim 20 , wherein in the second position, the core pin is displaced axially substan