The minimum leakage rate is 5.0E-13 Pa.m³/s. It is equipped with a 2.5 L/s molecular pump and an 8 L/s oil-free scroll vacuum pump or a 6 L/s oil-type rotary vane vacuum pump, and provides a variety of fore-stage pump options . It has high sensitivity and fast response. After supporting wireless remote control, it can better operate in a straight line of more than 100m . The APP connects to remote control via Bluetooth . It is a cart-type high-pumping speed vacuum leak detection helium mass spectrometer leak detector suitable for He4, He3 and H2 multi-gas detection .
TX280S Helium mass spectrometer leak detector
TX400H Helium-Leak-Detectors
TX280H Series Helium-Leak-Detectors
With claw vacuum pumps, two claw-shaped rotors turn in opposite direction inside the housing. Due to the shape of these claw rotors, the air or gas is sucked in, compressed and discharged. The claw rotors do not come into contact either with each other nor with the cylinder in which they are rotating. Tight clearances between the claw rotors and the housing optimise the internal seal and guarantee a consistently high pumping speed. A synchronisation gearbox ensures exact synchronisation of the claw rotors.Claw vacuum pumps are driven by a directly flange-mounted asynchronous motor, with an efficiency class IE2. Claw vacuum pumps are ideally suited to use with frequency-controlled drives. Claw vacuum pumps are available in a wide range of sizes.There are also variants for special applications such as dust and gas explosion protection, high steam contents, gas tightness and increased oxygen contents.
The impellers are mounted directly on the motor shaft for noncontact compression entirely without friction.Maximum operational reliability, even at high differential is ensured by the arrangement of the bearings outside the compression chamber. The gas it taken in though the inlet1.As it enters the side channel 2,the rotating impeller 3 imparts velocity to the gas in the direction of rotation.Centrifugal force in the impeller blades accelerates the gas outward and the pressure increase .Every rotation adds kinetic energy. Resulting in the further increase of the pressure along the side channel .The side channel narrow at the rotor,sweeping the gas off the impeller blades and discharging it though the outlet silencer 4 where it exits the side channel blower.
The minimum leakage rate is 5.0E-13 Pa.m³/s. It is equipped with a 2.5 L/s molecular pump and an 8 L/s oil-free scroll vacuum pump or a 6 L/s oil-type rotary vane vacuum pump, and provides a variety of fore-stage pump options . It has high sensitivity and fast response. After supporting wireless remote control, it can better operate in a straight line of more than 100m . The APP connects to remote control via Bluetooth . It is a cart-type high-pumping speed vacuum leak detection helium mass spectrometer leak detector suitable for He4, He3 and H2 multi-gas detection .
TX280S Helium mass spectrometer leak detector
TX400H Helium-Leak-Detectors
TX280H Series Helium-Leak-Detectors
With claw vacuum pumps, two claw-shaped rotors turn in opposite direction inside the housing. Due to the shape of these claw rotors, the air or gas is sucked in, compressed and discharged. The claw rotors do not come into contact either with each other nor with the cylinder in which they are rotating. Tight clearances between the claw rotors and the housing optimise the internal seal and guarantee a consistently high pumping speed. A synchronisation gearbox ensures exact synchronisation of the claw rotors.Claw vacuum pumps are driven by a directly flange-mounted asynchronous motor, with an efficiency class IE2. Claw vacuum pumps are ideally suited to use with frequency-controlled drives. Claw vacuum pumps are available in a wide range of sizes.There are also variants for special applications such as dust and gas explosion protection, high steam contents, gas tightness and increased oxygen contents.
The impellers are mounted directly on the motor shaft for noncontact compression entirely without friction.Maximum operational reliability, even at high differential is ensured by the arrangement of the bearings outside the compression chamber. The gas it taken in though the inlet1.As it enters the side channel 2,the rotating impeller 3 imparts velocity to the gas in the direction of rotation.Centrifugal force in the impeller blades accelerates the gas outward and the pressure increase .Every rotation adds kinetic energy. Resulting in the further increase of the pressure along the side channel .The side channel narrow at the rotor,sweeping the gas off the impeller blades and discharging it though the outlet silencer 4 where it exits the side channel blower.
