Item Description
2XZ Collection Rotary Vane Vacuum Pump
2XZ vacuum pump is of double-phase immediate coupling construction, whose procedure overall performance is made up of high-pressure phase and minimal-force stage. Its suction port connects vacuum equipment and assists to consumption or drain the fuel in the container throughout operation. When the gear is in vacuum, the drain valve of high-pressure phase will shut, then, the gasoline suctioned by high-force phase will be transferred to the CZPT phase, afterwards, the gas will be suctioned and drained by means of the CZPT phase, so that the tools can get specified vacuum. The technological parameter of the pump is 6*102.
2XZ vacuum pump is coupled with motor, which is higher-speed and tiny and compact and handy for versatile operation. Our company also manufactures unique steel blade, which is to be utilised as the fore pump of diffusion pump, the accent of precise instruments or to be utilised in labs, pharmaceutical industry, meals packing and electronic business.
2XZ rotary Vane Vacuum Pumps Sequence
Application & Features
1. Tiny dimensions, lower sound.
two. The huge oil tank helps prevent the oil temperature from heading up and delays the shifting revolution of vacuum oil.
Mode | 2XZ- .5 | 2XZ-1 | 2XZ-2 | 2XZ-4 | 2XZ-8 | 2XZ-15 |
suction velocity(L/S) | .5 | one | 2 | 4 | 8 | 15 |
lowest pressure≤(Pa) | six.0×10 -2 | six.0×10 -two | six.0×10 -2 | 6.0×10 -2 | six.0×10 -2 | 6.0×10 -2 |
rotary speed(rpm) | 1400 | 1400 | 1400 | 1400 | 1400 | 1400 |
motor powe(kw) | .eighteen | .25 | .37 | .fifty five | one.1 | two.2 |
Dimension of suction port(mm) | sixteen | sixteen/6 | twenty five/twelve/6 | 25/12/6 | 40/25 | 40/twenty five |
Package & Supply:
Manufacturing facility:
Certification:
The suction produced by regenerative blowers is utilized in a variety of industrial applications. They contain a non-getting in contact with, quick rotating impeller, so they are wear and servicing free of charge. There are two annular unbiased facet passages together the casing on equally sides of the impeller.