CV020812
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV030812
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV041012
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV051012
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV061212
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV081416
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV101616
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV121816
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV142006
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV162206
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
CV202606
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made....
Brass bushing with an inner O’ring to prevent air loss when the vacuum is being made. With clamping tolerance. Incorporates a thread allowing removal of the bushing if needed.
JV030200
Silicone seal to prevent air loss from the parting line.
Silicone seal to prevent air loss from the parting line.
Silicone seal to prevent air loss from the parting line.
JV050200
Silicone seal to prevent air loss from the parting line.
Silicone seal to prevent air loss from the parting line.
Silicone seal to prevent air loss from the parting line.
LV483610
Helps venting the mold cavity and the pneumatic ejection of the plastic part (allows air passing in both directions).Maximize performance installing at the end of the plastic flow.Supplied with 6 covers for maintenance purposes.Designed to work with VB and SV systems.
Helps venting the mold cavity and the pneumatic ejection of the plastic part (allows...
Helps venting the mold cavity and the pneumatic ejection of the plastic part (allows air passing in both directions).Maximize performance installing at the end of the plastic...
NP030908
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
NP050908
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
NP061108
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
NP081108
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
Non-rotating head for ejector pins.
NR061208
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple...
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
NR081408
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple...
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
NR101608
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple...
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
NR122008
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple...
Base for the tubular stepless that allows the pin to be fixed so it cannot turn. Simple to assemble and adjust.
PH130000-250
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH130000-330
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH130000-500
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH150000-250
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH150000-330
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH150000-500
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH160000-250
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH160000-330
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH160000-500
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH180000-250
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH180000-330
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PH180000-500
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
Hardened ejectors with a simple retention method to minimize costs through reduced...
Hardened ejectors with a simple retention method to minimize costs through reduced stock requirements in different diameters.
PT182403
Both of them are used to open the air valve to create a faster vacuum. Directly connected to the Vacuumjet unit through a circuit in the plate.
Both of them are used to open the air valve to create a faster vacuum. Directly...
Both of them are used to open the air valve to create a faster vacuum. Directly connected to the Vacuumjet unit through a circuit in the plate.
PT183803
Both of them are used to open the air valve to create a faster vacuum. Directly connected to the Vacuumjet unit through a circuit in the plate.
Both of them are used to open the air valve to create a faster vacuum. Directly...
Both of them are used to open the air valve to create a faster vacuum. Directly connected to the Vacuumjet unit through a circuit in the plate.
SV605253
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same channel.4 different Vacuum levels can be settled (-600 / -700 / -800 / -900mbar). Internal Electrovalve enable opening / closing of CUMSA Vacuum Valve. Allows automatic production.
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same...
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same channel.4 different Vacuum levels can be settled (-600 / -700 / -800 / -900mbar). Internal...
TV141650
Allows connection of the main units to the ejection pin circuits, through different plates without air loss. Several units can be connected together to suit different needs.
Allows connection of the main units to the ejection pin circuits, through different...
Allows connection of the main units to the ejection pin circuits, through different plates without air loss. Several units can be connected together to suit different needs.
TV141675
Allows connection of the main units to the ejection pin circuits, through different plates without air loss. Several units can be connected together to suit different needs.
Allows connection of the main units to the ejection pin circuits, through different...
Allows connection of the main units to the ejection pin circuits, through different plates without air loss. Several units can be connected together to suit different needs.
VB607638
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same channel. Vacuum is produced throughout the injection process. Blow-off is produced during the ejection process.
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same...
This unit is able to create the Vacuum (60L/min) and blow-off (6bar) through the same channel. Vacuum is produced throughout the injection process. Blow-off is produced during...
VG523016
This unit itself, extracts the air from the cavity through the ejector pins. Can be used to add more vacuuming power to the VJ (if needed). Also can be installed with the VM, to control the vacuum level.
This unit itself, extracts the air from the cavity through the ejector pins. Can be...
This unit itself, extracts the air from the cavity through the ejector pins. Can be used to add more vacuuming power to the VJ (if needed). Also can be installed with the VM, to...
VJ600000
Compact unit that creates a vacuum leading to negative pressure in the cavity. Only 6 Bars of air pressure from the injection machine needed. The vacuum can be made thru the clearance of the ejector pins and/or an air valve.
Compact unit that creates a vacuum leading to negative pressure in the cavity. Only 6...
Compact unit that creates a vacuum leading to negative pressure in the cavity. Only 6 Bars of air pressure from the injection machine needed. The vacuum can be made thru the...
VM503032
This unit allows to control the vacuum level in the cavity. Should be combined with the VJ or VG.
This unit allows to control the vacuum level in the cavity. Should be combined with the...
This unit allows to control the vacuum level in the cavity. Should be combined with the VJ or VG.
VP060527-150
Ejector pins with spiral venting, that increase the vacuuming rather than regular ejector pins. Adjustment to be made from the back to maintain the spiral intact.
Ejector pins with spiral venting, that increase the vacuuming rather than regular...
Ejector pins with spiral venting, that increase the vacuuming rather than regular ejector pins. Adjustment to be made from the back to maintain the spiral intact.
VP060527-250
Ejector pins with spiral venting, that increase the vacuuming rather than regular ejector pins. Adjustment to be made from the back to maintain the spiral intact.
Ejector pins with spiral venting, that increase the vacuuming rather than regular...
Ejector pins with spiral venting, that increase the vacuuming rather than regular ejector pins. Adjustment to be made from the back to maintain the spiral intact.