Roots Vacuum Pump
| Cat | Products Name | Key Features | Price |
|---|---|---|---|
| VGE-RVP-001 | Roots Vacuum Pump-62m3h-5Pa-2.2kW | 62m³/h Speed; 5Pa Pressure; VG50 Inlet | |
| VGE-RVP-002 | Roots Vacuum Pump-80m3h-5Pa-2.2kW | 80m³/h Speed; 5Pa Pressure; VG50 Inlet | |
| VGE-RVP-003 | Roots Vacuum Pump-112m3h-5Pa-3.7kW | 112m³/h Speed; 5Pa Pressure; VG80 Inlet | |
| VGE-RVP-004 | Roots Vacuum Pump-126m3h-5Pa-3.7kW | 126m³/h Speed; 5Pa Pressure; VG80 Inlet | |
| VGE-RVP-005 | Roots Vacuum Pump-183m3h-5Pa-7.5kW | 183m³/h Speed; 5Pa Pressure; VG80 Inlet | |
| VGE-RVP-006 | Roots Vacuum Pump-237m3h-5Pa-7.5kW | 237m³/h Speed; 5Pa Pressure; VG80 Inlet | |
| VGE-RVP-007 | Roots Vacuum Pump-16m3h-3Pa-0.72kW | 16m³/h Speed; 3Pa Pressure; Air Cooling | |
| VGE-RVP-008 | Roots Vacuum Pump-30m3h-3Pa-0.72kW | 30m³/h Speed; 3Pa Pressure; Air Cooling | |
| VGE-RVP-009 | Roots Vacuum Pump-55m3h-3Pa-1.5kW-1Ph | 55m³/h Speed; 3Pa Pressure; Single Phase | |
| VGE-RVP-010 | Roots Vacuum Pump-55m3h-3Pa-1.5kW-3Ph | 55m³/h Speed; 3Pa Pressure; Three Phase |
High-Throughput Roots Vacuum Booster Technology
Industrial-scale vacuum processes require massive volumetric displacement that transcends the capabilities of primary backing pumps. AIMRSE Roots vacuum pumps, often referred to as vacuum boosters, are engineered to provide high-speed gas evacuation in the medium-vacuum regime ($10^{2}$ to $10^{-1}$ Pa). Utilizing a twin-lobe rotary geometry, these pumps function through kinetic displacement, significantly enhancing the effective pumping speed of an integrated vacuum skid.
The AIMRSE Roots architecture is defined by precision-timed, non-contacting rotors that operate with minimal internal clearances to maximize volumetric efficiency. By integrating advanced thermal management and overflow bypass protection, our Roots boosters ensure stable throughput during high-load cycles. These systems are the cornerstone of large-scale metallurgical furnaces, space simulation chambers, and chemical vapor deposition (CVD) platforms where rapid pump-down and high gas-load handling are non-negotiable.
Scale Your Vacuum Capacity
Consult with our engineering team to calculate the optimal compression ratio and booster-to-backing pump compatibility for your system.
Kinetic Displacement & Volumetric Optimization
Twin-Lobe Rotary Geometry
The core mechanism consists of two symmetrical, figure-eight rotors rotating synchronously in opposite directions. As the lobes pass the inlet port, a specific volume of gas is trapped and mechanically displaced toward the exhaust. The non-contacting design eliminates the need for internal lubrication in the pumping chamber, ensuring an oil-free process path and minimal mechanical wear.
Precision Timing & Volumetric Efficiency
Synchronization is maintained via high-precision helical timing gears, keeping rotor clearances within microns. This tight tolerance reduces gas back-leakage (internal slippage), which is critical for maintaining high compression ratios. The result is a consistent volumetric efficiency that allows the booster to multiply the pumping speed of the backing pump by a factor of 10 or more.
Automated Differential Bypass
To protect the motor and rotors from over-compression at high pressures, AIMRSE Roots pumps feature an integrated bypass (overflow) valve. This mechanism regulates the pressure differential between the inlet and outlet, allowing the pump to start simultaneously with the backing pump from atmospheric pressure, effectively shortening the overall pump-down cycle time.
The Advantages of AIMRSE
Engineered for high-volume throughput and industrial-scale stability.
Massive Throughput
Delivers exceptional pumping speeds in the medium vacuum range, ideal for large-volume industrial chambers.
Oil-Free Pumping
The non-contacting rotary design ensures a hydrocarbon-free gas path, preventing process contamination.
Low Energy Consumption
Optimized motor dynamics and reduced internal friction lead to lower power requirements per unit of volume displacement.
Integrated Reliability
Standardized flange interfaces and VFD compatibility allow for easy integration into complex multi-stage vacuum skids.
Standards & Industrial Compliance
AIMRSE Roots vacuum pumps are manufactured to meet the highest Global Engineering Standards for high-volume gas handling. Every unit is tested in accordance with ISO 21360-1 (Vacuum pumps — Standard methods for measuring performance-characteristics). Our mechanical tolerances and timing gear precision are verified to comply with DIN 28426. Furthermore, all units are CE Certified for electrical safety and comply with ISO 1609 for standard vacuum flange dimensions, ensuring seamless industrial interoperability.
Technical FAQ
Why does a Roots vacuum pump require a backing pump to operate?
What is the primary function of the integrated bypass (overflow) valve?
Can Roots pumps be used in processes involving condensable vapors or particles?
Related Products
Note: Our vacuum equipment is for research and industrial testing only. Industrial-grade components are fully rated for field deployment.
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