1. An injection molding system comprising:

a mold comprising a first mold half and a second mold half movable in an axial direction relative to each other between a first open position, and a second closed position in which the first mold half and the second mold half together provide a molding cavity (1133);

a mold stack comprising a plurality of components that are associated with the first and second mold halves to co-operatively define said molding cavity (1133) when said first and second mold halves are in said closed position;

a stripper assembly operable to eject a molded article from the mold; said stripper assembly comprising first and second slides (1112, 2112, 3112, 4112, 5112); said first and second slides (1 112, 2112, 3112, 4112, 5112) being movable laterally relative to each other between an open position when said first and second mold halves are in said open position and a closed position when said first and second mold halves are in said closed position;

a first split mold insert (1114, 2114, 3114, 4114, 5114) inter-connected to said first slide (1112, 2112, 3112, 4112, 5112);

a second split mold insert (1114, 2114, 3114, 4114, 5114) inter-connected to said second slide (1112, 2112, 3112, 4112, 5112);

said system being operable such that when said first and second slides (1112, 2112, 3112, 4112, 5112) are in said closed position, said first and second split mold inserts (1 114, 2114, 3114, 4114, 5114) form at least a portion of said molding cavity (1112, 2112, 3112, 4112, 5112);

said system being operable such that such during operation of said injection molding system, said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (11 12, 21 12, 31 12, 41 12, 51 12) and said second split mold insert (1114, 2114, 3114, 4114, 5114) being movable relative to said second slide (1112, 2112, 3112, 4112, 5112).

2. A system as claimed in claim 1 wherein said system is operable such that said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) and said second split mold insert (1114, 2114, 3114, 4114, 5114) being movable relative to said second slide (1112, 2112, 3112, 4112, 5112) while said first mold half and said second mold half are moving from said open position to said closed position, to facilitate alignment of at least one component of said mold stack that is adjacent to at least one of said first and second split mold inserts (1114, 2114, 3114, 4114, 5114).

A system as claimed in claims 1 or 2 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) in an axial direction and said second split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said second slide (1112, 2112, 3112, 4112, 5112) in an axial direction.

A system as claimed in claims 1, 2 or 3 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) in a longitudinal direction and said second split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said second slide (1112, 2112, 3112, 4112, 5112) in a longitudinal direction.

A system as claimed in any one of claims 1 to 4, wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) in a transverse direction and said second split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said second slide (1112, 2112, 3112, 4112, 5112) in a transverse direction.

A system as claimed in any one of claims 1 to 5 wherein said first split mold insert (2114, 4114, 5114) is directly connected and mounted to said first slide (2112, 4112, 5112) and wherein said second split mold insert (2114, 4114, 5114) is directly connected and mounted to said second slide (2112, 4112, 5112), such that during operation of said injection molding system, said first split mold insert (2114, 4114, 5114) is movable relative to said respective first slide (2112, 4112, 51 12) and said second split mold insert (2114, 4114, 5114) being movable relative to said second slide (2112, 4112, 5112).

7. A system as claimed in any one of claims 1 to 3, wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) in a radial direction and said second split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said second slide in a radial direction (1112, 21 12, 3112, 4112, 5112).

8. A system as claimed in any one of claims 1 to 5, said system further comprising a first support device (1113, 3113) operable to support said first split mold insert (1114, 31 14), said first support device (1113, 3113) being fixedly connected to said first slide (1112,

3112) , and said system further comprising a second support device (11 13, 3113) operable to support said second split mold insert (1114, 3114), said second support device (1113,

3113) being fixedly connected to said second slide (1112, 3112);

such that during operation of said injection molding system, said first split mold insert (1114, 3114) is movable relative to said first support device (1113, 3113) and said first slide (1112, 3112) and said second split mold insert (1114, 3114) is movable relative to said second support device (1113, 3113) and said second slide (1112, 3112).

9. A system as claimed in any one of claims 1 to 8 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) comprises a first neck ring half (1114, 2114, 3114, 4114, 5114) and said second split mold insert (1114, 2114, 3114, 4114, 5114) comprises a second neck ring half (1114, 2114, 3114, 4114, 5114).

10. A system as claimed in any one of claims 1 to 5 wherein said first split mold insert (3114) comprises a first neck ring half portion and a first body portion and said second split mold insert (3114) comprises a second neck ring half portion and a second body portion.

1 1. A system as claimed in any one of claims 1 to 5, or claims 7 to 10, further comprising:

a first holder (1113, 3113) operable for holding said first split mold insert (1114,

3114) and permitting movement of said first split mold insert (1114, 3114) relative to said first holder (1113, 3113) during use of said system, said first holder (1113, 3113) fixedly connecting said first split mold insert (1114, 3114) to said first slide (1112, 3112); a second holder (1113, 3113) operable for holding said second split mold insert (1114, 3114) and permitting movement of said second split mold insert (1114, 3114) relative to said second holder (1113, 3113) during use of said system, said second holder (1113, 3113) fixedly connecting said second split mold insert (1114, 3114) to said second slide (1112, 3112).

12. A system as claimed in claim 11 wherein said first split mold insert (1114, 3114) is held within an opening (1109, 3109) of said first holder (1113, 3113) by a first retainer mechanism (1136, 3136); and said second mold split insert (1114, 3114) is held within an opening (1109, 3109) of said second holder (1113, 3113) by a second retainer mechanism (1136, 3136).

13. A system as claimed in claim 12 wherein said first retainer mechanism (1136, 3136) comprises a first retainer plate held within a recess (1125, 3125) of said first holder (11 13, 3113) and said first retainer plate is positioned at a distance from an engaging surface of said first split mold insert (1114, 3114) to allow said first spilt mold insert (1114, 3114) limited movement within said opening (1109, 3109) of said first holder (1113, 3113).

14. A system as claimed in claim 13 wherein said second retainer mechanism (1136, 3136) comprises a second retainer plate held within a recess (1125, 3125) of said second holder (1113, 31 13) and said second retainer plate is positioned at a distance from an engaging surface of said second split mold insert (1114, 3114) to allow said second spilt mold insert (1114, 3114) limited movement within said opening (1 109, 3109) of said second holder (1113, 3113).

15. An apparatus as claimed in claim 13 further comprising a resilient member (1124) positioned between said surface of said first holder (1 113, 3113) defining said opening (1109, 3109) of said first holder (1113, 3113) and said first split mold insert (1114, 3114) and said resilient member (1124) being operable to push against said first split mold insert (1114, 3114) to urge said first split mold insert (1114, 3114) in a direction outwards from said opening (1109, 3109) in said first holder (1113, 3113).

16. An apparatus as claimed in claim 15 further comprising a first resilient member (1124) positioned between said surface of said first holder (1 113, 3113) defining said opening (1109, 3109) of said first holder (1113, 3113), and said first split mold insert (1 114, 3114) and being operable to push against said first split mold insert (1114, 3114) to urge said split mold insert (1114, 3114) in a direction outwards from said opening (1109, 3109) in said first holder (1109, 3109); and further comprising a second resilient member (1109, 3109) positioned between said surface of said second holder (1113, 3113) defining said opening (1109, 3109) in said second holder (1113, 3113), and said second split mold insert (1114, 3114) and being operable to push against said second split mold insert (1114, 3114) to urge said second split mold insert (1114, 3114) in a direction outwards from said opening (1109, 3109) in said second holder (1113, 3113).

17. An apparatus as claimed in claims 13, 14, 15 or 16, wherein said first split mold insert (1114, 3114) has an outward facing surface (1132, 3132) that is generally semi-cylindrical in shape and said opening (1109, 3109) of in said first holder (1113, 3113) is generally semi-cylindrical in shape.

18. An apparatus as claimed in claims 17, wherein said second split mold insert (1114, 3114) has an outward facing surface (1132, 3132) that is generally semi-cylindrical in shape and said opening (1109, 3109) of in said second holder (1 113, 3113) is generally semi- cylindrical in shape.

19. An apparatus as claimed in any one of claims 1 to 18 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has an alignment interface surface (1126, 1127, 3127) operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective first slide to assist in aligning components of said mold stack.

20. An apparatus as claimed in claim 19 wherein said second split mold insert (1114, 2114, 3114, 4114, 5114) has an alignment interface surface (1126, 1127, 3127) operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said second split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective second slide to assist in aligning components of said mold stack.

21. A system as claimed in claim 19 wherein said engaging component of said mold stack is a mold insert (1114, 2114, 3114, 4114, 5114) located adjacent to said first split mold insert (1114, 2114, 3114, 4114, 5114).

22. A system as claimed in claim 20 wherein said engaging components of said mold stack are one or more mold inserts (1114, 2114, 3114, 4114, 5114) located adjacent to said first split mold insert (1114, 2114, 3114, 4114, 5114) and said second split mold insert (1114, 2114, 3114, 4114, 5114).

23. A system as claimed in claim 19 wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

24. A system as claimed in any one of claims 20 to 22 wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack, and wherein said alignment interface surface of said second split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack.

25. An apparatus as claimed in any one of claims 1 to 18 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said upper and lower alignment interface surfaces of said first split mold insert engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said first split insert to move relative to said respective first slide to assist in aligning components of said mold stack.

26. An apparatus as claimed in any one of claims 1 to 25 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) and said second spilt mold insert (1114, 2114, 3114, 4114, 5114) each have an inner surface (1135, 3135) that is generally semi-cylindrical in shape.

27. A system as claimed claim 6, wherein said first split mold insert (2114, 4114, 5114) is movable relative to said respective first slide (2112, 4112, 5112) in a radial direction and said second split mold insert (2114, 4114, 5112) is movable relative to said second slide (2112, 4114, 5112) in a radial direction.

28. A system as claimed in claim 6 wherein said first split mold insert (2114, 4114, 5114) comprises a first neck ring half and said second split mold insert (2114, 4114, 5114) comprises a second neck ring half.

29. A system as claimed in any one of claims 6, 27 or 28, wherein said first split mold insert (2114, 4114) is held within an opening (2109, 4109) of said first slide (2112, 4112) by a first retainer mechanism (2136, 4111); and said second mold split insert (2114, 4114) is held within an opening (2109, 4109) of said second slide (2112, 4112) by a second retainer mechanism (2136, 4111).

30. A system as claimed in claim 29 wherein said first retainer mechanism (2136) comprises a first retainer plate held within a recess (2125) of said first slide (2112) and said first retainer plate having a surface that is positioned at a distance from an engaging surface of said first split mold insert (2114) to allow said first spilt mold insert (2114) limited movement within said opening (2109) of said first slide (2112).

31. A system as claimed in claim 30 wherein said second retainer mechanism (2136) comprises a second retainer plate held within a recess (2125) of said second slide (2112) and said second retainer plate is positioned at a distance from an engaging surface of said second split mold insert (2114) to allow said second spilt mold insert (2114) limited movement within said opening (2109) of said second slide (2112).

32. An apparatus as claimed in claim 29 further comprising a resilient member (2124) positioned between slider (2112) and said first split mold insert (2114) and being operable to push against said first split mold insert (21 14) to urge said first split mold insert (2114) in a direction outwards from said opening in said first slider (2112).

33. An apparatus as claimed in claim 29 further comprising a first resilient member (2124, 5199) positioned between said first slider (2112, 5112) and said first split mold insert (2114) and being operable to push against said first split mold insert (2114, 5114) to urge said split mold insert (2114, 5114) in a direction outwards from said opening (2109, 5195) in said first slider (2114, 5114); and further comprising a second resilient member (2124, 5199) positioned between said second slider (2112, 5112) and said second split mold insert (2114, 5114) and being operable to push against said second split mold insert (2114, 5114) to urge said second split mold insert (2114, 5114) in a direction outwards from said opening (2109, 5195) in said second slider (2112, 5112).

34. An apparatus as claimed in any one of claims 6 or 27 to 33, wherein said first split mold insert (2114, 4114) has an outer surface that is generally semi-cylindrical in shape and said opening (2109, 4109) of in said first slide (2112, 4112) is generally semi-cylindrical in shape.

35. An apparatus as claimed in claim 34 wherein when said first split mold insert (2114, 4114) is received in an opening (2109, 4109) in said first slide (2112, 4112), a space is provided between the outer surface of said first split mold insert (2114, 4114) and a surface of said first slide defining said opening (2109, 4109) in said first slide (2112, 4112), such that during operation of said injection molding system, said first split mold insert (2114, 4114) is movable relative to said respective first slide (2112, 4112).

36. An apparatus as claimed in claims 34 or 35, wherein said second split mold insert (2114, 4114) has an outer surface that is generally semi-cylindrical in shape and said opening (2109, 4109) of in said second slide (2112, 4112) is generally semi-cylindrical in shape.

37. An apparatus as claimed in claim 36 wherein when said second split mold insert (2114, 4114) is received in an opening (2109, 4109) in said second slide (2112, 41 12), a space is provided between the outer surface of said second split mold insert (2114, 4114) and a surface of said second slide (2112, 4112) defining said opening (2109, 4109) in said second slide (2112, 4112), such that during operation of said injection molding system, said second split mold insert (2114, 4114) is movable relative to said respective second slide (2112, 4112).

38. A system as claimed in claim 6 wherein:

said first split mold insert (4114) comprises a flange portion (4114a) and a generally semi-cylindrical portion (4114b);

said second split mold insert (4114a) comprises a flange portion (4114a) and a generally semi-cylindrical portion (4114b);

said first slide (4112) comprises a platform recess portion (4106) and a generally semi-cylindrical opening portion (4109);

said second slide (4112) comprises a platform recess portion (4106) and a generally semi-cylindrical opening portion (4109);

said flange portion (4114a) of said first split mold insert (4114) being receivable in said platform recess portion (4106) of said first slide (4112) and said semi-cylindrical portion (4114b) of said first split mold insert (4114) being receivable in said semi- cylindrical opening (4109) of said first slide (4112); said flange portion (4114a) of said second split mold insert (4114) being receivable in said platform recess portion (4106) of said second slide (4112) and said semi-cylindrical portion (4114b) of said second split mold insert (4114) being receivable in said semi- cylindrical opening (4109) of said second slide (4112).

39. A system as claimed in claim 38 wherein said first split mold insert (4114) is held within an opening (4109) of said first slide (4112) by a first retainer mechanism (4111); and said second mold split insert (4114) is held within an opening (4109) of said second slide (4112) by a second retainer mechanism (4111).

40. A system as claimed in claim 36 wherein said first retainer mechanism (4111) comprises at least one retainer member (411 1) having an upper head portion (4111a), a lower disc portion (4111b) and a shaft portion (4111c), said retainer member (4111) being receivable within an opening in said slider (41 12), said retainer member (4111) being rotatable about its longitudinal axis between: (a) a first position in which head portion (4111a) of said retainer member (41 11) is oriented in a transverse direction and (b) a second position in which the head portion (411 lb) of said retainer member (4111) is oriented in a longitudinal direction such that when the retainer member (4111) is in the first position, the head portion (4111a) does not block the flange portion (4114a) of the first split mold insert (4114) from passing into the platform recess (4106) such that the flange portion (4114a) of the first split mold insert (4114) may be received into and rest on the platform (4106b) of the first slide (4112).

41. A system as claimed in claim 40 wherein when said retainer member (4111) is in said second position, the head portion (41 11a) will retain said first spilt mold insert (41114).

42. A system as claimed in any one of claims 1 to 7, wherein said first split mold insert (5114) is inter-connected to said first slide (5112) by a first retainer mechanism (5192); and said second mold split insert (5114) is inter-connected to said second slide (5112) by a second retainer mechanism (5192).

43. A system as claimed in claim 42 wherein said first retainer mechanism (5192) comprises a retainer member (5111) and a corresponding insert member (5191);

said retainer member (5111) comprising an upper head portion (5111a) and a shaft portion (5111b);

said insert member (5191) comprising a body portion (5191b) and a flange portion (5191a), and an opening (5191c) extending through said body portion (5191b) and said flange portion (5191a) of said insert member (5191);

said first split mold insert (5114) having a vertically oriented opening (5109) there through;

said first slide (5112) having a vertically oriented opening (5195) there through and being axially aligned with said vertically oriented opening (5195) through said first slide (5112); said opening (5195) through said first slide (5112) having a recessed platform (5196) therein;

said recessed platform (5196) of said opening (5195) in said first slide (5112) having a depth configured to position the flange portion (5191a) of said insert member (5191) such that a gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (5111b) of said retainer member (5111) is received through the opening (5191c) in said insert member (5191), and said shaft portion (511 lb) of the retainer member (5111) and the insert member (5191) are both received in the opening (5195) through the first slide (5112), such that in operation, the first split mold insert (5114) is movable a limited axial distance relative to said first slide (5112).

44. A system as claimed in claim 43 wherein said first retainer mechanism (5192) comprises first and second retainer members (5111) and corresponding first and second insert members (5191);

each said first and second retainer member (5111) comprising an upper head portion (511 1a) and a shaft portion (511 lb);

each said first and second insert member (5191) comprising a body portion (5191b) and a flange portion (5191a), and an opening (5191c) extending through said body portion (5191b) and said flange portion (5191a) of said insert member (5191); said first split mold insert (5114) having first and second vertically oriented openings (5109) there through;

said first slide (5112) having first and second vertically oriented openings (5195) there through and being axially aligned with a respective first and second said vertically oriented opening (5195) through said first slide (5112); said first and second openings (5195) through said first slide (5112) each having a recessed platform (5196) therein;

said recessed platform (5196) of said first opening (5195) in said first slide (5112) having a depth configured to position the flange portion (5191a) of said first insert member (5191) such that a first gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (5111b) of said first retainer member (5111) is received through the opening (5191c) in said first insert member (5191), and said shaft portion (51 1 lb) of the first retainer member

(5111) and the first insert member (5191) are both received in the opening (5195) through the first slide (5112),

said recessed platform (5196) of said second opening (5195) in said first slide

(5112) having a depth configured to position the flange portion (5191a) of said second insert member (5191) such that a first gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (5111b) of said second retainer member (5111) is received through the opening (5191c) in said second insert member (5191), and said shaft portion (511 lb) of the second retainer member (5111) and the second insert member (5191) are both received in the opening (5195) through the first slide (5112), such that in operation, the first split mold insert (5114) is movable a limited axial distance relative to said first slide (5112).

A system as claimed in any one of claims 1 to 44 wherein said mold stack comprises a cavity insert (5106) and wherein said system further comprises a cavity insert compensation mechanism operable to provide relative movement of said cavity insert while said first mold half (5114) and said second mold half (5114) are moving from said open position to said closed position, to facilitate alignment of said cavity insert (5106) of said mold stack.

46. A system as claimed in any one of claims 1 to 45 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) is mounted for movement in an opening in said first support device (1113, 2112, 3113, 41 12, 5112).

47. A system as claimed in claim 46 wherein said second split mold insert (1114, 3114) is mounted for movement in an opening in said second support device (1 113, 3113).

48. A split mold insert apparatus operable for connection to a slide of an injection molding system, said slide operable for lateral movement, said spilt mold insert apparatus comprising:

a split mold insert (1114, 2114, 3114, 4114, 5114) comprising a body having an inner surface configured in use to form a surface of part of mold cavity for forming at least part of a neck region of an article;

a support device (1113, 2112, 31 13, 4112, 5112) operable to support said split mold insert (1114, 2114, 3114, 4114, 5114);

said split mold insert apparatus being configured and operable such during operation of said injection molding system, said split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said support device (1113, 2112, 3113, 4112, 5112).

49. An apparatus as claimed in claim 48 wherein in use of said injection molding system, said split mold insert apparatus is operable such that said split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said support device (1113, 2112, 3113, 41 12, 5112) to facilitate alignment of at least one component of a mold stack that is adjacent to said split mold insert (1114, 2114, 3114, 4114, 5114).

50. An apparatus as claimed in claims 48 or 49 wherein said split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said support device (1113, 2112, 3113, 4112, 5112) in an axial direction.

51. An apparatus as claimed in claims 48, 49 or 50 wherein said split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said support device (1113, 2112, 3113, 4112, 5112) in a longitudinal direction.

52. An apparatus as claimed in any one of claims 48 to 51, wherein said split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective support device (1113, 2112, 3113, 4112, 5112) in a transverse direction.

53. An apparatus as claimed in any one of claims 48 to 52 wherein said support device is a slide (2112, 4112, 5112) of a stripper assembly of an injection molding system.

54. An apparatus as claimed in claim 53 wherein said split mold insert (2114, 4114, 5114) is directly connected to said slide (2112, 4112, 5112) such that during operation of said injection molding system, said split mold insert (2114, 4114, 5114) is movable relative to said slide (2112, 4112, 5112).

55. An apparatus as claimed in any one of claims 48 to 54, wherein said split mold insert (1114, 2114, 3114, 4114) has an outer surface that is generally semi-cylindrical in shape.

56. An apparatus as claimed in claim 55 wherein said support device (1113, 2112, 3113, 4112) has an opening (1109, 2109, 3109, 4109) that is generally semi-cylindrical in shape and is configured such that said split mold insert (1114, 2114, 3114, 4114) can be at least partially received within said opening of said support device (1113, 2112, 3113, 4112).

57. An apparatus as claimed in any one of claims 48 to 56 wherein said split mold insert (1 114, 2114, 3114, 4114, 5114) has an inner surface that is generally semi-cylindrical in shape.

58. A system as claimed in any one of claims 46 to 57 wherein said split mold insert (1114, 2114, 3114, 4114, 5114) is mounted for movement in an opening in said support device (1113, 2112, 3113, 4112, 5112).

59. An apparatus as claimed in any one of claims 46 to 58 wherein said split mold insert (1 114, 2114, 3114, 4114, 5114) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of a mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective first slide (1112, 2112, 3112, 4112, 5112) to assist in aligning components of said mold stack.

A system as claimed in claim 59 wherein said engaging component of said mold stack is a mold insert located adjacent to said split mold insert (1114, 2114, 3114, 4114, 5114).

A system as claimed in claims 59 or 60 wherein said alignment interface surface of said split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

An apparatus as claimed in any one of claims 59, 60 or 61 wherein said split mold insert (1114, 2114, 3114, 4114, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said split mold insert (1114, 2114, 3114, 4114, 5114) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein during operation of said injection molding system, said upper and lower alignment interface surfaces of said split mold insert (1114, 2114, 3114, 4114, 5114) engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said split mold insert (1114, 2114, 3114, 4114, 5114) to move relative to assist in aligning components of said mold stack.

An injection molding system comprising:

a mold comprising a first mold half and a second mold half movable relative to each other between a first open position, and a second closed position in which the first mold half and the second mold half together provide a molding cavity (1133);

a mold stack comprising a plurality of components that are associated with the first and second mold halves to co-operatively define said molding cavity (1113) when said first and second mold halves are in said closed position; a stripper assembly operable to eject a molded article from the mold;

said stripper assembly comprising first and second slides (1112, 2112, 3113, 4112, 5112); said first and second slides (1 112, 2112, 3113, 4112, 5112) being movable laterally relative to each other between an open position when said first and second mold halves are in said open position and a closed position when said first and second mold halves are in said closed position;

a first split mold insert (1114, 2114, 3114, 4114, 5114) inter-connected to said first slide (1112, 2112, 3112, 4112, 5112);

a second split mold insert (1114, 2114, 3114, 4114, 5114) inter-connected to said second slide (1112, 2112, 3112, 4112, 5112);

said system being operable such that when said first and second slides (1112, 2112,

3113, 4112, 5112) are in said closed position, said first and second split mold inserts (1 114, 2114, 3114, 4114, 5114) form at least a portion of said molding cavity (1133);

said system being operable such that during operation of said injection molding system when said first and second mold halves are moving to said closed position, said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) and said second split mold insert (1114, 2114, 3114, 4114, 5114) being movable relative to said second slide (1112, 2112, 3112, 4112, 5112) to facilitate alignment of at least one component of said mold stack that is adjacent to at least one of said first and second split mold inserts (1114, 2114, 3114, 4114, 5114).

64. An apparatus as claimed in claim 63, wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said injection molding system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114,

3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective first slide to assist in aligning components of said mold stack.

65. An apparatus as claimed in claim 64 wherein said second split mold insert (1114, 2114, 3114, 4114, 5114) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said second split mold insert engages with said interface surface of said engaging component of said mold stack to cause said second split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective second slide to assist in aligning components of said mold stack.

A system as claimed in claims 64 or 65, wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

A system as claimed in claim 66 wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack, and wherein said alignment interface surface of said second split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack.

An apparatus as claimed in claim 64 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said upper and lower alignment interface surfaces of said first split mold insert (1114, 2114, 3114, 4114, 5114) engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said first split insert to move relative to said respective first slide (1112, 2112, 3112, 4112, 5112) to assist in aligning components of said mold stack.

received by the International Bureau on 03 October 2018 (03.10.2018)

1. An injection molding system comprising:

a mold comprising a first mold half and a second mold half movable in an axial direction relative to each other between a first open position, and a second closed position in which the first mold half and the second mold half together provide a molding cavity (1133);

a mold stack comprising a plurality of components that are associated with the first and second mold halves to co-operatively define said molding cavity (1 133) when said first and second mold halves are in said closed position;

a stripper assembly operable to eject a molded article from the mold; said stripper assembly comprising first and second slides (1112, 2112, 3112, 4112, 51 12); said first and second slides (1 1 12, 2112, 3112, 41 12, 51 12) being movable laterally relative to each other between an open position when said first and second mold halves are in said open position and a closed position when said first and second mold halves are in said closed position;

a first split mold insert (1114, 2114, 31 14, 4114, 51 14) inter-connected to said first slide (11 12, 21 12, 31 12, 4112, 51 12);

a second split mold insert (1114, 2114, 31 14, 4114, 5114) inter-connected to said second slide (1112, 21 12, 3112, 41 12, 51 12);

said system being operable such that when said first and second slides (1 1 12, 2112, 31 12, 4112, 112) are in said closed position, said first and second split mold inserts (1114, 2114, 31 14, 4114, 5114) form at least a portion of said molding cavity (1112, 2112, 3112, 4112, 5112);

said system being operable such that such during operation of said injection molding system, said first split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said respective first slide (1 1 12, 2112, 3112, 4112, 5112) and said second split mold insert (1114, 2114, 3114, 4114, 5114) being movable relative to said second slide (11 12, 21 12, 3112, 41 12, 51 12).

2. A system as claimed in claim 1 wherein said system is operable such that said first split mold insert (1114, 2114, 31 14, 41 14, 51 14) is movable relative to said respective first slide (1112, 2112, 3112, 41 12, 5112) and said second split mold insert (1114, 2114, 3114, 4114, 5114) being movable relative to said second slide (1112, 21 12, 31 12, 4112, 5112) while said first mold half and said second mold half are moving from said open position to said closed position, to facilitate alignment of at least one component of said mold stack that is adjacent to at least one of said first and second split mold inserts (1114, 2114, 3114, 4114, 5114).

3. A system as claimed in claims 1 or 2 wherein said first split mold insert (1114, 2114, 31 14, 4114, 5114) is movable relative to said respective first slide (1112, 2112, 3112, 4112, 5112) in an axial direction and said second split mold insert (1114, 2114, 3114, 4114, 5114) is movable relative to said second slide (1112, 2112, 3112, 4112, 5112) in an axial direction.

4. A system as claimed in claims 1, 2 or 3 wherein said first split mold insert (1114, 2114, 31 14, 4114, 51 14) is movable relative to said respective first slide (11 12, 2112, 31 12, 4112, 1 12) in a longitudinal direction and said second split mold insert (1 1 14, 2114, 31 14, 41 14, 5114) is movable relative to said second slide (1112, 21 12, 3112, 4112, 5112) in a longitudinal direction.

5. A system as claimed in any one of claims 1 to 4, wherein said first split mold insert (1 114, 2114, 31 14, 4114, 5114) is movable relative to said respective first slide (1 1 12, 21 12, 31 12, 41 12, 51 12) in a transverse direction and said second split mold insert (1 1 14, 21 14, 31 14, 4114, 51 14) is movable relative to said second slide (11 12, 21 12, 3112, 4112, 51 12) in a transverse direction.

6. A system as claimed in any one of claims 1 to 5 wherein said first split mold insert (2114, 4114, 5114) is directly connected and mounted to said first slide (2112, 4112, 5112) and wherein said second split mold insert (2114, 4114, 51 14) is directly connected and mounted to said second slide (21 12, 4112, 51 12), such that during operation of said injection molding system, said first split mold insert (2114, 41 14, 5114) is movable relative to said respective first slide (21 12, 41 12, 5112) and said second split mold insert (2114, 41 14, 114) being movable relative to said second slide (21 12, 41 12, 51 12).

7. A system as claimed in any one of claims 1 to 3, wherein said first split mold insert (1114, 2114, 31 14, 41 14, 51 14) is movable relative to said respective first slide (11 12, 2112, 31 12, 4112, 5112) in a radial direction and said second split mold insert (1114, 2114, 31 14, 4114, 5114) is movable relative to said second slide in a radial direction (1 112, 2112, 31 12, 4112, 5112).

8. A system as claimed in any one of claims 1 to 5, said system further comprising a first support device (11 13, 31 13) operable to support said first split mold insert (1 1 14, 31 14), said first support device (1113, 3113) being fixedly connected to said first slide (1 1 12, 3112), and said system further comprising a second support device (1113, 3113) operable to support said second split mold insert (1 1 14, 31 14), said second support device (1 1 13, 31 13) being fixedly connected to said second slide (1112, 31 12);

such that during operation of said injection molding system, said first split mold insert (1114, 31 14) is movable relative to said first support device (11 13, 31 13) and said first slide (11 12, 3112) and said second split mold insert (1114, 3114) is movable relative to said second support device (1113, 3113) and said second slide (1 112, 31 12).

9. A system as claimed in any one of claims 1 to 8 wherein said first split mold insert (1 114, 2114, 3114, 41 14, 51 14) comprises a first neck ring half (1114, 2114, 31 14, 4114, 5114) and said second split mold insert (1114, 21 14, 3114, 4114, 5114) comprises a second neck ring half (1 1 14, 2114, 31 14, 41 14, 5114).

10. A system as claimed in any one of claims 1 to 5 wherein said first split mold insert (3114) comprises a first neck ring half portion and a first body portion and said second split mold insert (3114) comprises a second neck ring half portion and a second body portion.

1 1. A system as claimed in any one of claims 1 to 5, or claims 7 to 10, further comprising:

a first holder (1113, 3113) operable for holding said first split mold insert (1114, 3114) and permitting movement of said first split mold insert (1 114, 3114) relative to said first holder (11 13, 31 13) during use of said system, said first holder (1 1 13, 3113) fixedly connecting said first split mold insert (1 114, 31 14) to said first slide (1 1 12, 3112); a second holder (1113, 31 13) operable for holding said second split mold insert (1 114, 3114) and permitting movement of said second split mold insert (1114, 3114) relative to said second holder (1 1 13, 31 13) during use of said system, said second holder (1113, 3113) fixedly connecting said second split mold insert (1114, 3114) to said second slide (1112, 3112).

12. A system as claimed in claim 11 wherein said first split mold insert (1114, 31 14) is held within an opening (1109, 3109) of said first holder (11 13, 3113) by a first retainer mechanism (1 136, 3136); and said second mold split insert (1114, 3114) is held within an opening (1 109, 3109) of said second holder (11 13, 31 13) by a second retainer mechanism (1 136, 3136).

13. A system as claimed in claim 12 wherein said first retainer mechanism (1136, 3136) comprises a first retainer plate held within a recess (1 125, 3125) of said first holder (1113, 3113) and said first retainer plate is positioned at a distance from an engaging surface of said first split mold insert (1114, 3114) to allow said first spilt mold insert (1114, 3114) limited movement within said opening (1 109, 3109) of said first holder (1 113, 3113).

14. A system as claimed in claim 13 wherein said second retainer mechanism (1136, 3136) comprises a second retainer plate held within a recess (1125, 3125) of said second holder (1113, 3113) and said second retainer plate is positioned at a distance from an engaging surface of said second split mold insert (1114, 31 14) to allow said second spilt mold insert (11 14, 3114) limited movement within said opening (1 109, 3109) of said second holder (1113, 3113).

1 . A system as claimed in claim 13 further comprising a resilient member (1 124) positioned between said surface of said first holder (1113, 31 13) defining said opening (1109, 3109) of said first holder (11 13, 31 13) and said first split mold insert (1 114, 3114) and said resilient member (1124) being operable to push against said first split mold insert (1 114, 31 14) to urge said first split mold insert (1114, 3114) in a direction outwards from said opening ( 1 109, 3109) in said first holder (1113, 31 13).

16. A system as claimed in claim 15 further comprising a first resilient member (1 124) positioned between said surface of said first holder (1 1 13, 31 13) defining said opening (1 109, 3109) of said first holder (11 13, 3113), and said first split mold insert (1 1 14, 31 14) and being operable to push against said first split mold insert (1 114, 3114) to urge said split mold insert (1114, 3114) in a direction outwards from said opening (1109, 3109) in said first holder (1109, 3109); and further comprising a second resilient member (1 109, 3109) positioned between said surface of said second holder (1113, 3113) defining said opening (1109, 3109) in said second holder (1113, 31 13), and said second split mold insert (1 114, 3114) and being operable to push against said second split mold insert (1114, 31 14) to urge said second split mold insert (1114, 31 14) in a direction outwards from said opening (1109, 3109) in said second holder (1 113, 3113).

17. A system as claimed in claims 13, 14, 15 or 16, wherein said first split mold insert (1 1 14, 3114) has an outward facing surface (1132, 3132) that is generally semi-cylindrical in shape and said opening (1 109, 3109) of said first holder (11 13, 3113) is generally semi-cylindrical in shape.

18. A system as claimed in claims 17, wherein said second split mold insert (1 1 14, 31 14) has an outward facing surface (1 132, 3132) that is generally semi-cylindrical in shape and said opening (1109, 3109) of said second holder (1 113, 3113) is generally semi-cylindrical in shape.

1 . A system as claimed in any one of claims 1 to 18 wherein said first split mold insert (1 114, 2114, 3114, 4114, 5114) has an alignment interface surface (1126, 1127, 3127) operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 31 14, 4114, 51 14) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (11 14, 21 14, 3114, 4114, 1 14) to move relative to said respective first slide to assist in aligning components of said mold stack.

20. A system as claimed in claim 19 wherein said second split mold insert (1114, 2114, 31 14, 41 14, 5114) has an alignment interface surface (1126, 1127, 3127) operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said second split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective second slide to assist in aligning components of said mold stack.

21. A system as claimed in claim 19 wherein said engaging component of said mold stack is a mold insert (1 1 14, 2114, 3114, 41 14, 5114) located adjacent to said first split mold insert (1 1 14, 2114, 31 14, 4114, 5114).

22. A system as claimed in claim 20 wherein said engaging components of said mold stack are one or more mold inserts (11 14, 2114, 3114, 4114, 5114) located adjacent to said first split mold insert (1114, 2114, 31 14, 41 14, 5114) and said second split mold insert (1114, 2114, 31 14, 4114, 51 14).

23. A system as claimed in claim 19 wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

24. A system as claimed in any one of claims 20 to 22 wherein said alignment interface surface of said first split mold insert (1 1 14, 2114, 31 14, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack, and wherein said alignment interface surface of said second split mold insert (1 1 14, 2114, 31 14, 41 14, 51 14) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack.

25. A system as claimed in any one of claims 1 to 18 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said first split mold insert (11 14, 2114, 3114, 41 14, 51 14) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said upper and lower alignment interface surfaces of said first split mold insert engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said first split insert to move relative to said respective first slide to assist in aligning components of said mold stack.

26. A system as claimed in any one of claims 1 to 25 wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) and said second spilt mold insert (1114, 2114, 3114, 4114, 5114) each have an inner surface (1 135, 3135) that is generally semi-cylindrical in shape.

27. A system as claimed claim 6, wherein said first split mold insert (2114, 41 14, 5114) is movable relative to said respective first slide (21 12, 41 12, 51 12) in a radial direction and said second split mold insert (2114, 41 14, 5112) is movable relative to said second slide (2112, 41 14, 112) in a radial direction.

28. A system as claimed in claim 6 wherein said first split mold insert (2114, 4114, 51 14) comprises a first neck ring half and said second split mold insert (2114, 4114, 51 14) comprises a second neck ring half.

29. A system as claimed in any one of claims 6, 27 or 28, wherein said first split mold insert (21 14, 4114) is held within an opening (2109, 4109) of said first slide (2 12, 41 12) by a first retainer mechanism (2136, 411 1); and said second mold split insert (21 14, 4114) is held within an opening (2109, 4109) of said second slide (21 12, 41 12) by a second retainer mechanism (2136, 41 1 1).

30. A system as claimed in claim 29 wherein said first retainer mechanism (2136) comprises a first retainer plate held within a recess (2125) of said first slide (2112) and said first retainer plate having a surface that is positioned at a distance from an engaging surface of said first split mold insert (2114) to allow said first spilt mold insert (2114) limited movement within said opening (2109) of said first slide (21 12).

31. A system as claimed in claim 30 wherein said second retainer mechanism (2136) comprises a second retainer plate held within a recess (2125) of said second slide (21 12) and said second retainer plate is positioned at a distance from an engaging surface of said second split mold insert (2114) to allow said second spilt mold insert (2114) limited movement within said opening (2109) of said second slide (2112).

32. A system as claimed in claim 29 further comprising a resilient member (2124) positioned between said first slide (2112) and said first split mold insert (2114) and being operable to push against said first split mold insert (2114) to urge said first split mold insert (2114) in a direction outwards from said opening in said first slide (2112).

33. A system as claimed in claim 29 further comprising a first resilient member (2124, 5199) positioned between said first slide (2112, 5112) and said first split mold insert (2114) and being operable to push against said first split mold insert (2114, 5114) to urge said split mold insert (2114, 5114) in a direction outwards from said opening (2109, 5195) in said first slide (2112, 5112); and further comprising a second resilient member (2124, 5199) positioned between said second slide (21 12, 51 12) and said second split mold insert (2114, 51 14) and being operable to push against said second split mold insert (2114, 5114) to urge said second split mold insert (2114, 5114) in a direction outwards from said opening (2109, 5195) in said second slide (2112, 1 12).

34. A system as claimed in any one of claims 6 or 27 to 33, wherein said first split mold insert (21 14, 4114) has an outer surface that is generally semi-cylindrical in shape and said opening (2109, 4109) of said first slide (21 12, 41 12) is generally semi-cylindrical in shape.

35. A system as claimed in claim 34 wherein when said first split mold insert (2114, 4114) is received in an opening (2109, 4109) in said first slide (2112, 4112), a space is provided between the outer surface of said first split mold insert (21 14, 41 14) and a surface of said first slide defining said opening (2109, 4109) in said first slide (2112, 4112), such that during operation of said injection molding system, said first split mold insert (2114, 4114) is movable relative to said respective first slide (21 12, 41 12).

36. A system as claimed in claims 34 or 35, wherein said second split mold insert (2114, 4114) has an outer surface that is generally semi-cylindrical in shape and said opening (2109, 4109) of said second slide (2112, 4112) is generally semi-cylindrical in shape.

37. A system as claimed in claim 36 wherein when said second split mold insert (21 14, 41 14) is received in an opening (2109, 4109) in said second slide (21 12, 4112), a space is provided between the outer surface of said second split mold insert (2114, 4114) and a surface of said second slide (2112, 41 12) defining said opening (2109, 4109) in said second slide (21 12, 41 12), such that during operation of said injection molding system, said second split mold insert (21 14, 4114) is movable relative to said respective second slide (2112, 41 12).

38. A system as claimed in claim 6 wherein:

said first split mold insert (4114) comprises a flange portion (41 14a) and a generally semi -cylindrical portion (41 14b);

said second split mold insert (41 14a) comprises a flange portion (41 14a) and a generally semi-cylindrical portion (4114b);

said first slide (41 12) comprises a platform recess portion (4106) and a generally semi-cylindrical opening portion (4109);

said second slide (4112) comprises a platform recess portion (4106) and a generally semi-cylindrical opening portion (4109);

said flange portion (41 14a) of said first split mold insert (4114) being receivable in said platform recess portion (4106) of said first slide (41 12) and said semi-cylindrical portion (4114b) of said first split mold insert (4114) being receivable in said semi- cylindrical opening (4109) of said first slide (4112); said flange portion (41 14a) of said second split mold insert (41 14) being receivable in said platform recess portion (4106) of said second slide (4112) and said semi-cylindrical portion (41 14b) of said second split mold insert (4114) being receivable in said semi- cylindrical opening (4109) of said second slide (4112).

39. A system as claimed in claim 38 wherein said first split mold insert (41 14) is held within an opening (4109) of said first slide (4112) by a first retainer mechanism (41 1 1); and said second mold split insert (41 14) is held within an opening (4109) of said second slide (4112) by a second retainer mechanism (411 1).

40. A system as claimed in claim 36 wherein said first retainer mechanism (4111) comprises at least one retainer member (4111) having an upper head portion (4111a), a lower disc portion (41 1 1b) and a shaft portion (411 lc), said retainer member (41 11) being receivable within an opening in said slider (4112), said retainer member (41 1 1) being rotatable about its longitudinal axis between: (a) a first position in which head portion (4111a) of said retainer member (4111) is oriented in a transverse direction and (b) a second position in which the head portion (411 lb) of said retainer member (41 1 1) is oriented in a longitudinal direction such that when the retainer member (41 1 1) is in the first position, the head portion (41 11a) does not block the flange portion (4114a) of the first split mold insert (4114) from passing into the platform recess (4106) such that the flange portion (41 14a) of the first split mold insert (4114) may be received into and rest on the platform (4106b) of the first slide (4112).

41. A system as claimed in claim 40 wherein when said retainer member (4111) is in said second position, the head portion (4111a) will retain said first spilt mold insert (41 1 14).

42. A system as claimed in any one of claims 1 to 7, wherein said first split mold insert (51 14) is inter-connected to said first slide (5112) by a first retainer mechanism (5192); and said second mold split insert (51 14) is inter-connected to said second slide (51 12) by a second retainer mechanism ( 192).

43. A system as claimed in claim 42 wherein said first retainer mechanism (5192) comprises a retainer member (51 1 1) and a corresponding insert member (5191);

said retainer member (51 11) comprising an upper head portion (51 11a) and a shaft portion (511 lb);

said insert member (5191) comprising a body portion (5191b) and a flange portion (5191a), and an opening (5191c) extending through said body portion (5191b) and said flange portion (5191a) of said insert member (5191);

said first split mold insert (5114) having a vertically oriented opening (5109) there through;

said first slide (5112) having a vertically oriented opening (5195) there through and being axially aligned with said vertically oriented opening (5195) through said first slide (5112); said opening (5195) through said first slide (51 12) having a recessed platform (5196) therein;

said recessed platform (5196) of said opening (5195) in said first slide (5112) having a depth configured to position the flange portion (5191a) of said insert member (5191) such that a gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (51 1 lb) of said retainer member (51 1 1) is received through the opening (5191c) in said insert member (5191), and said shaft portion (51 11 b) of the retainer member (511 1) and the insert member (5191) are both received in the opening (5195) through the first slide (5112), such that in operation, the first split mold insert (5114) is movable a limited axial distance relative to said first slide (51 12).

44. A system as claimed in claim 43 wherein said first retainer mechanism (5192) comprises first and second retainer members (51 1 1) and corresponding first and second insert members (5191);

each said first and second retainer member (51 1 1) comprising an upper head portion (51 1 1a) and a shaft portion (511 1b);

each said first and second insert member (5191) comprising a body portion (5191b) and a flange portion (5191a), and an opening (5191c) extending through said body portion (5191b) and said flange portion (5191 a) of said insert member (5191); said first split mold insert (51 14) having first and second vertically oriented openings (5109) there through;

said first slide (51 12) having first and second vertically oriented openings (5195) there through and being axially aligned with a respective first and second said vertically oriented opening (5195) through said first slide (5112); said first and second openings (5195) through said first slide (5112) each having a recessed platform (5196) therein;

said recessed platform (5196) of said first opening (5195) in said first slide (5112) having a depth configured to position the flange portion (5191a) of said first insert member (5191) such that a first gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (511 lb) of said first retainer member (511 1) is received through the opening (5191c) in said first insert member (5191), and said shaft portion (5111b) of the first retainer member

(5111) and the first insert member ( 191) are both received in the opening (5195) through the first slide (51 12),

said recessed platform (5196) of said second opening (5195) in said first slide

(5112) having a depth configured to position the flange portion (5191a) of said second insert member (5191) such that a first gap is formed between a lower surface of the flange portion (5191a) and the upward facing surface of the recessed platform (5196), when the shaft portion (5111b) of said second retainer member (51 1 1) is received through the opening (5191c) in said second insert member (5191), and said shaft portion (511 lb) of the second retainer member (5111) and the second insert member (5191) are both received in the opening (5195) through the first slide (5112), such that in operation, the first split mold insert (51 14) is movable a limited axial distance relative to said first slide (5112).

A system as claimed in any one of claims 1 to 44 wherein said mold stack comprises a cavity insert ( 106) and wherein said system further comprises a cavity insert compensation mechanism operable to provide relative movement of said cavity insert while said first mold half (5114) and said second mold half (5114) are moving from said open position to said closed position, to facilitate alignment of said cavity insert (5106) of said mold stack.

46. A system as claimed in any one of claims 1 to 45 wherein said first split mold insert (1 1 14, 2114, 3114, 4114, 5114) is mounted for movement in an opening in said first support device (1113, 21 12, 31 13, 41 12, 5112).

47. A system as claimed in claim 46 wherein said second split mold insert (1114, 31 14) is mounted for movement in an opening in said second support device (11 13, 31 13).

48. A split mold insert apparatus operable for connection to a slide of an injection molding system, said slide operable for lateral movement, said spilt mold insert apparatus comprising:

a split mold insert (1114, 2114, 3114, 4114, 5114) comprising a body having an inner surface configured in use to form a surface of part of mold cavity for forming at least part of a neck region of an article;

a support device (1113, 21 12, 3113, 4112, 5112) operable to support said split mold insert (1 114, 2114, 3114, 4114, 51 14);

said split mold insert apparatus being configured and operable such during operation of said injection molding system, said split mold insert (1114, 2114, 31 14, 4114, 1 14) is movable relative to said support device (1 1 13, 2112, 3113, 41 12, 51 12).

49. An apparatus as claimed in claim 48 wherein in use of said injection molding system, said split mold insert apparatus is operable such that said split mold insert (1114, 2114, 31 14, 41 14, 51 14) is movable relative to said support device (1113, 2112, 3113, 4112, 51 12) to facilitate alignment of at least one component of a mold stack that is adjacent to said split mold insert (1114, 2114, 3114, 4114, 51 14).

50. An apparatus as claimed in claims 48 or 49 wherein said split mold insert (1114, 21 14, 31 14, 41 14, 5114) is movable relative to said support device (1 1 13, 2112, 31 13, 41 12, 51 12) in an axial direction.

51. An apparatus as claimed in claims 48, 49 or 50 wherein said split mold insert (1 114, 21 14, 31 14, 41 14, 5114) is movable relative to said support device (1 1 13, 2112, 31 13, 41 12, 51 12) in a longitudinal direction.

52. An apparatus as claimed in any one of claims 48 to 51, wherein said split mold insert (11 14, 21 14, 3114, 4114, 5114) is movable relative to said respective support device (11 13, 21 12, 3113, 4112, 5112) in a transverse direction.

53. An apparatus as claimed in any one of claims 48 to 52 wherein said support device is a slide (2112, 4112, 5112) of a stripper assembly of an injection molding system.

54. An apparatus as claimed in claim 53 wherein said split mold insert (2114, 41 14, 5114) is directly connected to said slide (21 12, 41 12, 5112) such that during operation of said injection molding system, said split mold insert (21 14, 41 14, 51 14) is movable relative to said slide (2112, 4112, 51 12).

55. An apparatus as claimed in any one of claims 48 to 54, wherein said split mold insert (1 1 14, 21 14, 31 14, 4114) has an outer surface that is generally semi-cylindrical in shape.

56. An apparatus as claimed in claim 55 wherein said support device (1113, 2112, 3113, 41 12) has an opening (1109, 2109, 3109, 4109) that is generally semi-cylindrical in shape and is configured such that said split mold insert (1 1 14, 2114, 3114, 41 14) can be at least partially received within said opening of said support device (1113, 21 12, 31 13, 4112).

57. An apparatus as claimed in any one of claims 48 to 56 wherein said split mold insert (1 1 14, 2114, 3114, 4114, 5114) has an inner surface that is generally semi -cylindrical in shape.

58. An apparatus as claimed in any one of claims 46 to 57 wherein said split mold insert (1114, 21 14, 31 14, 41 14, 51 14) is mounted for movement in an opening in said support device (1 1 13, 2112, 3113, 41 12, 51 12).

59. An apparatus as claimed in any one of claims 46 to 58 wherein said split mold insert (1 1 14, 21 14, 3114, 41 14, 5114) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of a mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114, 3114, 4114, 5114) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (1114, 2114, 3114, 4114, 5114) to move relative to said respective first slide (1 1 12, 2112, 3112, 4112, 5112) to assist in aligning components of said mold stack.

60. An apparatus as claimed in claim 59 wherein said engaging component of said mold stack is a mold insert located adjacent to said split mold insert (11 14, 2114, 3114, 4114, 5114).

61. An apparatus as claimed in claims 59 or 60 wherein said alignment interface surface of said split mold insert (1114, 2114, 3114, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

62. An apparatus as claimed in any one of claims 59, 60 or 61 wherein said split mold insert (1 114, 2114, 3114, 41 14, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said split mold insert (1114, 2114, 3114, 4114, 5114) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein during operation of said injection molding system, said upper and lower alignment interface surfaces of said split mold insert (1 114, 2114, 3114, 4114, 51 14) engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said split mold insert (1 1 14, 21 14, 1 14, 41 14, 5114) to move relative to assist in aligning components of said mold stack.

63. An injection molding system comprising:

a mold comprising a first mold half and a second mold half movable relative to each other between a first open position, and a second closed position in which the first mold half and the second mold half together provide a molding cavity (1 133);

a mold stack comprising a plurality of components that are associated with the first and second mold halves to co-operatively define said molding cavity (1 1 13) when said first and second mold halves are in said closed position; a stripper assembly operable to eject a molded article from the mold; said stripper assembly comprising first and second slides (11 12, 2112, 3113, 41 12, 51 12); said first and second slides (1 1 12, 21 12, 31 13, 4112, 51 12) being movable laterally relative to each other between an open position when said first and second mold halves are in said open position and a closed position when said first and second mold halves are in said closed position;

a first split mold insert (1114, 21 14, 3114, 4114, 51 14) inter-connected to said first slide (11 12, 2112, 31 12, 4112, 5112);

a second split mold insert (11 14, 2114, 31 14, 4114, 5114) inter-connected to said second slide (1 1 12, 21 12, 31 12, 4112, 51 12);

said system being operable such that when said first and second slides (1 1 12, 21 12,

3113, 4112, 5112) are in said closed position, said first and second split mold inserts (1114, 21 14, 3114, 4114, 51 14) form at least a portion of said molding cavity (1133);

said system being operable such that during operation of said injection molding system when said first and second mold halves are moving to said closed position, said first split mold insert (1114, 2114, 3114, 41 14, 5114) is movable relative to said respective first slide (1112, 21 12, 3112, 4112, 51 12) and said second split mold insert (1114, 21 14, 31 14, 41 14, 51 14) being movable relative to said second slide (1 1 12, 21 12, 31 12, 41 12, 5112) to facilitate alignment of at least one component of said mold stack that is adjacent to at least one of said first and second split mold inserts (1 1 14, 21 14, 31 14, 41 14, 5114).

64. An apparatus as claimed in claim 63, wherein said first split mold insert (11 14, 21 14, 31 14, 4114, 51 14) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said injection molding system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said first split mold insert (1114, 2114,

31 14, 41 14, 51 14) engages with said interface surface of said engaging component of said mold stack to cause said first split insert (1 1 14, 21 14, 3114, 41 14, 5114) to move relative to said respective first slide to assist in aligning components of said mold stack.

65. An apparatus as claimed in claim 64 wherein said second split mold insert (1 1 14, 21 14, 31 14, 41 14, 5114) has an alignment interface surface operable to engage an alignment interface surface of an engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said alignment interface surface of said second split mold insert engages with said interface surface of said engaging component of said mold stack to cause said second split insert (1114, 2114, 3114, 41 14, 5114) to move relative to said respective second slide to assist in aligning components of said mold stack.

66. A system as claimed in claims 64 or 65, wherein said alignment interface surface of said first split mold insert (1114, 21 14, 31 14, 4114, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of said engaging component of said mold stack.

67. A system as claimed in claim 66 wherein said alignment interface surface of said first split mold insert (1114, 2114, 3114, 41 14, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack, and wherein said alignment interface surface of said second split mold insert (1114, 2114, 3114, 41 14, 5114) is a tapered alignment interface surface operable to engage a tapered alignment interface surface of an engaging component of said mold stack.

68. An apparatus as claimed in claim 64 wherein said first split mold insert (1 1 14, 21 14, 3114, 4114, 5114) has an upper alignment interface surface operable to engage an alignment interface surface of an upper engaging component of said mold stack, and wherein said first split mold insert (1114, 2114, 3114, 4114, 5114) has a lower alignment interface surface operable to engage an alignment interface surface of a lower engaging component of said mold stack, wherein said system being configured and operable such that such during operation of said injection molding system, said upper and lower alignment interface surfaces of said first split mold insert (1 114, 21 14, 3114, 41 14, 5114) engage respectively with said interface surfaces of said upper and lower engaging components of said mold stack to cause said first split insert to move relative to said respective first slide (1112, 2112, 31 12, 41 12, 5112) to assist in aligning components of said mold stack.