초록 ▼

Valve gated injection molding apparatus having several valve pins (62) extending through each heated nozzle (12) driven by a common actuating mechanism (70). A valve bushing (100) is seated in the front end (96) of each heated nozzle (12). A central melt bore (50) in each heated nozzle (12) splits

Valve gated injection molding apparatus having several valve pins (62) extending through each heated nozzle (12) driven by a common actuating mechanism (70). A valve bushing (100) is seated in the front end (96) of each heated nozzle (12). A central melt bore (50) in each heated nozzle (12) splits in the valve bushing (100) near the front end of the heated nozzle (12) from where the melt flows around each of the valve pins (62) to the gates (66).

대표청구항 ▼

The embodiments of the invention in which an exclusive property or privilege is claimed is defined as follows: 1. In a multi-cavity valve gated injection molding apparatus having at least one heated nozzle (12) extending forwardly into a well (14) in a cooled mold (16) with an insulative air space

The embodiments of the invention in which an exclusive property or privilege is claimed is defined as follows: 1. In a multi-cavity valve gated injection molding apparatus having at least one heated nozzle (12) extending forwardly into a well (14) in a cooled mold (16) with an insulative air space (60) extending between the at least one heated nozzle (12) and the surrounding cooled mold (16), the at least one heated nozzle (12) having a rear end (38), a front end (96) and a plurality of equally spaced valve pin bores (64) extending therethrough from the rear end (38) to the front end (96), a corresponding plurality of elongated valve pins (62) each received in one of the valve pin bores (64) through the at least one heated nozzle (12), and a valve pin actuating mechanism (70) connected to the valve pins (62) to simultaneously reciprocate the valve pins (62) between at least an open position and a closed position, the improvement further comprising; (a) the at least one heated nozzle (12) having a melt bore (50) extending therethrough from a central inlet (52) at the rear end (38), (b) a valve bushing (100) seated in a recessed seat (102) in the front end (96) of the at least one heated nozzle (12), the valve bushing (100) having a rear end (106), a front end (108), a plurality of equally spaced valve pin bores (104) extending therethrough from the rear end (106) to the front end (108) in alignment with the valve pin bores (64) through the at least one heated nozzle (12), and a melt bore (116) extending therethrough from the rear end (106) to the front end (108), the melt bore (116) having a plurality of front portions (118) and central rear portion (120) extending from the rear end (106) in alignment with the melt bore (50) through the at least one heated nozzle (12), each front portion (118) extending from the central rear portion (120) diagonally outwardly to each join one of the valve pin bores (104) adjacent the front end (108) of the valve bushing (100), (c) a retaining ring (122) seated in the recessed seat (102) in the front end (96) of the at least one heated nozzle (12) adjacent the front end (108) of the valve bushing (100), the retaining ring (122) having a rear end (126), a front end (130) and a plurality of openings (128) extending therethrough from the rear end (126) to the front end (130), each opening (128) extending in alignment with one of the valve pin bores (104) through the valve bushing (100), (d) a plurality of elongated hollow nozzle inserts (132), each retainably seated in one of the openings (128) through the retaining ring (122) with a front portion (140) extending forwardly from the retaining ring (122) in alignment with a gate (66) leading to a cavity (68), each nozzle insert (132) having a rear end (138), a front end (146), and a central bore (144) extending therethrough from the rear end (138) to the front end (146) to receive one of the valve pins (62) therein, with a space (147) extending around the valve pin (62) to convey melt from one of the diagonal front portions (118) of the melt bore (116) through the valve bushing (100) to the aligned gate (66), and (e) a nozzle seal (124) removably mounted at the front end (96) of the at least one heated nozzle (12) bridging the insulative air space (60) between the at least one heated nozzle (12) and the cooled mold (16), locating the front end (96) of the at least one nozzle (12), and retaining the valve bushing (100), the retaining ring (122), and the nozzle inserts (132) in place. 2. Injection molding apparatus as claimed in claim 1 wherein the retaining ring (122) has a shoulder (158) and the nozzle seal (124) has a shoulder (156) which abuts against the shoulder (158) of the retaining ring (122) to retain the valve bushing (100), retaining ring (122) and the nozzle inserts (132) in place. 3. Injection molding apparatus as claimed in claim 2 wherein each nozzle insert (132) has a shoulder (134) and each opening (128) extending through the retaining ring (122) has a shoulder (136) which abuts against the shoulder (134) of the nozzle insert (132) extending therethrough to retain the nozzle insert (132) in place. 4. Injection molding apparatus as claimed in claim 3 wherein the nozzle seal (124) has a sealing and alignment flange portion (160) extending forwardly to fit into a matching cylindrical portion (162) of the well (14) in the mold (16) extending around the gates (66) to align the front end (96) of the at least one heated nozzle (12) and prevent leakage of melt into the insulative air space (60) between the at least one heated nozzle (12) and the surrounding cooled mold (16). 5. Injection molding apparatus as claimed in claim 4 wherein the recessed seat (102) in the front end (96) of the at least one heated nozzle (12) has a threaded portion (154) and the nozzle seal (124) has a rear portion (150) with a threaded outer surface (152) which screws into the threaded portion (154) of the recessed seat (102). 6. Injection molding apparatus as claimed in claim 5 wherein there are three valve pins (62), and three aligned valve pin bores (64) extending through the at least one heated nozzle (12), three valve pin bores (104) extending through the valve bushing (100), and three nozzle inserts (132) seated in three openings (128) through the retaining ring (122). 7. Injection molding apparatus as claimed in claim 6 wherein the valve pin actuating mechanism comprises a hydraulically actuated piston (72) in a cylinder (76) seated in the cooled mold (16), the piston (72) being connected to the valve pins (62) received in the valve pin bores (64) through the at least one heated nozzle (12). id="INS-S-00002" date="20071204" 8. A nozzle assembly for an injection molding apparatus comprising: a heated nozzle having a melt bore extending therethrough; a nozzle insert having a central bore, said nozzle insert disposed at a front end of said heated nozzle; a retaining ring seated in a recessed seat in the front end of said heated nozzle, the retaining ring having a rear end, a front end, and an opening extending therethrough to receive said nozzle insert; and a nozzle seal coupled to the front end of said heated nozzle, said nozzle seal retaining the retaining ring and the nozzle insert in place. id="INS-S-00002" id="INS-S-00003" date="20071204" 9. The nozzle assembly of claim 8, wherein said nozzle seal is removably engaged to the front end of said heated nozzle. id="INS-S-00003" id="INS-S-00004" date="20071204" 10. The nozzle assembly of claim 9, wherein said nozzle seal is threadably engaged to the front end of said heated nozzle. id="INS-S-00004" id="INS-S-00005" date="20071204" 11. The nozzle assembly of claim 8, further comprising: a plurality of said nozzle inserts; and a bushing disposed in the recessed seat of said heated nozzle, wherein a front end of said bushing is disposed adjacent a rear end of said nozzle inserts. id="INS-S-00005" id="INS-S-00006" date="20071204" 12. The nozzle assembly of claim 11, further comprising: a plurality of valve pin bores extending through said heated nozzle; a corresponding plurality of elongated valve pins each received in one of said valve pin bores; and a valve pin actuating mechanism coupled to said valve pins to simultaneously reciprocate said valve pins between at least an open position and a closed position. id="INS-S-00006" id="INS-S-00007" date="20071204" 13. The nozzle assembly of claim 12, wherein the central bores of said plurality of nozzle inserts align with said plurality of valve pin bores extending through said heated nozzle, and said valve pins extend into the central bores at least when said valve pins are in the closed position. id="INS-S-00007" id="INS-S-00008" date="20071204" 14. The nozzle assembly of claim 11, wherein said bushing includes a melt bore extending therethrough from a rear end of said bushing to the front end of said bushing, the melt bore of said bushing having a plurality of front portions and central rear portion extending from the rear end in alignment with the melt bore of said heated nozzle, each front portion extending from the central rear portion diagonally outwardly to join the respective central bore of said nozzle inserts. id="INS-S-00008" id="INS-S-00009" date="20071204" 15. The nozzle assembly of claim 14, wherein said retaining ring is a unitary piece having a plurality of openings, each of said plurality of nozzle inserts disposed in a respective opening of said retaining ring. id="INS-S-00009" id="INS-S-00010" date="20071204" 16. The nozzle assembly of claim 8, further comprising a plurality of said nozzle inserts, each of said nozzle inserts disposed at the front end of said heated nozzle, wherein said retaining ring is a unitary piece with a plurality of openings, each of said plurality of nozzle inserts disposed in a respective opening of said retaining ring. id="INS-S-00010" id="INS-S-00011" date="20071204" 17. The nozzle assembly of claim 8, wherein said retaining ring has a shoulder and said nozzle seal has a shoulder which abuts against the shoulder of said retaining ring to retain said retaining ring and said nozzle insert in place. id="INS-S-00011" id="INS-S-00012" date="20071204" 18. The nozzle assembly of claim 17, wherein said nozzle insert has a shoulder and the opening extending through said retaining ring has a shoulder which abuts against the shoulder of said nozzle insert extending therethrough to retain said nozzle insert in place. id="INS-S-00012" id="INS-S-00013" date="20071204" 19. An injection molding apparatus comprising: a melt distribution manifold including a melt passage; a heated nozzle having a melt bore extending therethrough, the melt bore being aligned with the melt passage of said melt distribution manifold; a nozzle insert having a central bore, said nozzle insert disposed at a front end of said heated nozzle; a retaining ring seated in a recessed seat in the front end of said heated nozzle, the retaining ring having a rear end, a front end, and an opening extending therethrough to receive said nozzle insert; and a nozzle seal coupled to the front end of said heated nozzle, said nozzle seal retaining the retaining ring and the nozzle insert in place. id="INS-S-00013" id="INS-S-00014" date="20071204" 20. An injection molding apparatus comprising: a mold including a gate leading to a cavity; a heated nozzle having a melt bore extending therethrough; a nozzle insert having a central bore, said nozzle insert disposed at a front end of said heated nozzle, the central bore being aligned with the gate of said mold; a retaining ring seated in a recessed seat in the front end of said heated nozzle, the retaining ring having a rear end, a front end, and an opening extending therethrough to receive said nozzle insert; and a nozzle seal coupled to the front end of said heated nozzle, said nozzle seal retaining the retaining ring and the nozzle insert in place. id="INS-S-00014"