Product Description
XD series vacuum pump
XD series vacuum pump is a single-stage rotary vane oil-sealed vacuum pump, which is 1 of main low and medium vacuum equipments. It can be used separately and be as forepump of vacuum pump, mechanical booster pump, and turbo molecular pump.
XD series vacuum pumps are available for low and medium vacuum fields, which are mainly used for pumping air and other dry gases rather than corrosive, toxic, flammable and explosive gases. Furthermore, they cannot pump the gases containing tiny particles or dust and cannot transport other small objects.
XD series vacuum pumps can work for long term in the well-ventilated room with ambient temperature of 5-30 ºC and with humidity ≤80%. In addition to the above applications, the XD series vacuum pumps can be available other applications, such as:
1. To increase the amount of the pumping gas and to improve the vacuum degree, please combine with Roots pumps to form a unit for this.
2. If pumping moist air or condensable gas, the condenser can be installed before the vacuum pump and the gas ballast valve is installed on the vacuum pump.
3. If pumping the gases containing dust particles, the dust filters can be installed in front of the vacuum pump.
4. If pumping the corrosive gases, the corrosion-proof gas filter can be installed in front of the vacuum pump.
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Parameters Model |
XD-571 | XD-040 | XD-063 | XD-100 | XD-160 | XD-202 | XD-250 | XD-302 |
|
Pumping rate (m³/h) |
20 | 40 | 63 | 100 | 160 | 202 | 250 | 302 |
|
PressureLimit (mbar) |
0.1~0.5 | 0.1~0.5 | 0.1~0.5 | 0.1~0.5 | 0.5 | 0.1 | 0.1 | 0.1 |
|
MotorPower (KW) |
0.75 (single phase0.9Kw | 1.5 | 2.2 | 3 | 4.5 | 4.5 | 5.5 | 7.5 |
|
Motor Speed (r/min) |
2880 | 1440 | 1440 | 1440 | 1440 | 1440 | 1440 | 1440 |
|
Noise (db) |
≤62 | ≤65 | ≤65 | ≤67 | ≤70 | ≤72 | ≤73 | ≤75 |
|
Allowable steam pressure (mbar) |
40 | 40 | 40 | 40 | 40 | 40 | 40 | 40 |
|
Working water steam (Kg/h) |
0.3 | 0.3 | 1 | 1.6 | 2.5 | 4 | 4.5 | 5 |
|
Working temperature (ºC) |
82 | 80 | 80 | 84 | 95 | 95 | 81 | 83 |
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Oil volume
(L) |
0.5 | 1 | 2 | 2 | 5 | 5 | 7 | 7 |
|
Weight
(kg) |
13 | 40 | 65 | 78 | 140 | 140 | 185 | 201 |
|
Air intake thread |
Rp3/4″ | Rp11/4″ | Rp11/4″ | Rp11/4″ | Rp2″ | Rp2″ | Rp2″ | Rp2″ |
|
Overall dimensions L*W*H |
650*300*280 | 650*300*280 | 650*430*295 | 720*430*295 | 85*50.5*44 | 85*50.5*44 | 98*56*44 | 101*56*44 |
Product’s Application
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| Warranty: | One Year |
|---|---|
| Oil or Not: | Oil |
| Structure: | Singel Stage |
| Exhauster Method: | Pumping Air |
| Vacuum Degree: | High Vacuum |
| Work Function: | Mainsuction Pump |
| Customization: |
Available
|
|
|---|
What Is the Role of Lubrication in Rotary Vane Pump Operation?
Lubrication plays a critical role in the operation of a rotary vane pump, ensuring its smooth and efficient performance. Here’s a detailed explanation of the role of lubrication in rotary vane pump operation:
– Friction Reduction: The primary function of lubrication is to reduce friction between moving parts within the pump. In a rotary vane pump, the vanes slide in and out of the rotor slots as the rotor rotates. Lubrication forms a thin film between the vanes and the rotor, reducing the friction and allowing smooth movement. This friction reduction minimizes wear and tear on the vanes and rotor, contributing to the longevity of the pump.
– Seal Enhancement: Lubrication also helps in creating a tight seal between the vanes and the pump housing. The lubricant fills any gaps or imperfections, ensuring proper sealing and preventing gas or fluid leakage. This is particularly important for achieving and maintaining the desired vacuum levels in the pump. Effective sealing enhances the pump’s efficiency and performance.
– Heat Dissipation: During operation, a rotary vane pump generates heat due to the friction and compression of gases or fluids. Lubrication helps in dissipating this heat by absorbing and carrying it away from the critical components of the pump. It prevents excessive heat buildup that can lead to component damage or reduced performance. Proper lubrication ensures that the pump operates within the desired temperature range.
– Wear Protection: The lubricant forms a protective layer on the surfaces of the vanes, rotor, and other moving parts. This layer acts as a barrier, minimizing direct metal-to-metal contact and reducing wear and tear. It helps prevent damage to the vanes and rotor caused by friction and ensures the longevity of these components. Lubrication also protects against corrosion and helps maintain the overall integrity of the pump.
– Noise Reduction: Lubrication contributes to noise reduction in a rotary vane pump. The smooth movement facilitated by the lubricant minimizes vibrations and eliminates or reduces unwanted noise generated during operation. This is particularly important in applications where low noise levels are desired, such as laboratory or medical settings.
– Performance Optimization: Proper lubrication is crucial for maintaining the pump’s performance and efficiency. It ensures that the pump operates with minimal resistance and energy loss, allowing it to achieve the desired vacuum levels or fluid flow rates effectively. Lubrication helps optimize the pump’s overall performance and contributes to its reliability and effectiveness in various applications.
It’s important to note that using the correct type of lubricant specified by the pump manufacturer is essential. Different rotary vane pumps may have specific lubrication requirements, including the type of lubricant and recommended lubrication intervals. Adhering to these guidelines ensures that the lubrication effectively fulfills its role and maintains the pump’s optimal operation.
Can Rotary Vane Pumps Create a Deep Vacuum?
Rotary vane pumps are capable of creating a vacuum, but the depth of the vacuum they can achieve is limited compared to other types of vacuum pumps. Here’s a detailed explanation:
Rotary vane pumps utilize a positive displacement mechanism to create a vacuum. As the rotor rotates, the vanes slide in and out of the rotor slots, creating expanding and contracting chambers. This action allows the pump to draw in gas or fluid from the inlet port and then expel it through the outlet port.
While rotary vane pumps can achieve relatively high vacuum levels, they are not typically designed to create extremely deep vacuums. The ultimate vacuum level that a rotary vane pump can achieve depends on several factors, including the specific pump design, the quality of the sealing surfaces, the lubrication system, and the operating conditions.
In general, rotary vane pumps can achieve vacuum levels in the range of a few millibars (thousandths of atmospheric pressure) or slightly lower. However, they may struggle to reach the ultra-high vacuum levels required in certain applications, such as semiconductor manufacturing or scientific research.
For applications that demand deeper vacuums, other types of pumps, such as turbomolecular pumps or cryogenic pumps, are typically employed. These pumps are specifically designed to operate in the high-vacuum or ultra-high-vacuum range and can achieve significantly lower pressures than rotary vane pumps.
It’s important to consider the specific requirements of your application when selecting a vacuum pump. If you need to create a deep vacuum, you may need to explore alternative pump technologies that are better suited to achieve the desired vacuum level.
In summary, while rotary vane pumps can create a vacuum, their capability to achieve deep vacuums is limited compared to specialized high-vacuum pumps. The ultimate vacuum level achievable with a rotary vane pump depends on various factors, and if ultra-high vacuum levels are required, alternative pump technologies should be considered.
editor by Dream 2024-05-07
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