Ejector with built-in push-in fitting for valve direct mounting type Essential item to convey workpieces. The Vacuum Generator, creating vacuum by use of compressed air, can be used to convey materials in combination with a Vacuum Pad .
A type integrated with a mechanical vacuum switch is available. Essential item to convey workpieces. The Vacuum Generator, creating vacuum by use of compressed air, can be used to convey materials in combination with a Vacuum Pad .
Essential item to convey workpieces. The Vacuum Generator, creating vacuum by use of compressed air, can be used to convey materials in combination with a Vacuum Pad .
Ejector can be mounted directly to the pad holder of the vacuum pad. Essential item to convey workpieces. The Vacuum Generator, creating vacuum by use of compressed air, can be used to convey materials in combination with a Vacuum Pad .
Integration of ejector and blow-off (vacuum break) functions. Switchover from vacuum generation to blow-off air is possible by applying or stopping supply air to ejector. Ejector is equipped with blow-off (vacuum breaking) air function. Compared with the conventional single stand-alone type ejector, reliable blow-off(vacuum break) is possible.
Suction Flow Rate(Nozzle Diameter):100L/min[ANR] (φ2.0 mm), 150L/min[ANR](φ2.5 mm), 200L/min[ANR](φ2.8 mm).
Multi-stage nozzle ejector that high vacuum level and large suction flow rate can be obtained with low (0.35MPa) supply pressure. 3 vacuum ports enable easy distribution. Recommended for vacuum packaging, defoaming and deaeration as well as work adsorption transportation. Best suited for large and heavy or porous workpiece in automobile industry and packaging industry, etc.
Adopting multi layered structure. Multi-stage nozzle ejector with large suction flow rate. Multi-stage nozzle ejector with stackable construction, ensuring a high vacuum of -94 kPa and a large suction flow of up to 1,110 l/min[ANR]. Securing high vacuum and large flow rate. By adoption of multi-stage nozzle and multi-layer structure, suction flow can be secured approx. 2.2times(on average) larger than air consumption.
The suction port and the exhaust port are located in straight line which make it possible to carry works in one line. The works are sucked in from the suction port and pass through the inside of vacuum generator, which enables conveyance of works through a tube.