The maglev tubo blower is a kind of centrifugal blower using magnetic levitation bearings.root air blower Its main structure is that the blower impeller is directly installed on the extension end of the motor shaft, and the rotor is suspended on middle of the magnetic bearing, it does not need to connect with the speed increaser and coupling, and directly driven by a high-speed motor.This blower is a kind of single-stage high speed centrifugal blower which speed is controlled by a frequency converter.chilled air blower
The air enters into the three-dimensional flow impeller which is directly driven by the high-speed permanent magnet synchronous motor, and generates kinetic energy driven by the high-speed rotating impeller. Part of the kinetic energy is converted into pressure potential energy in the diffuser and the volute flow channel, also the flow direction is changed, and finally passes through the exhaust pipe network,then enters into customers process system.
RAETTS standard type air bearing blowers,chilled air blower
This type of Konrad series small air blowers are designed for the application site which don’t need PLC control system,the air blower only runs seperately,don’t need to connect with customers central control system.This design of the root air blower will help customers to save the cost while it meets the customer’s air flow and air pressure requirements.Applications of this industrial air blower are including:industrial wastewater treatment plant,municipal wastewater treatment plant,landfill leachate treatment,aquaculture,fish farming and so on.
24 months warranty for the whole root air blower
root air blower compact size,small footprint,lower noise no more than 75dB,easy maintenance
root air blower Product packing information:1pcs/package
Origin information:made in China
RAETTS maglev turbo air blowers,chilled air blower
Selection parameters table
RAETTS maglev turbo blower technique data sheet | |||||||||||||
Blower type | picture | Product Model | Type | Motor power | Air flow | Pressure | Pressure | Outlet diameter(DN) | Dimension | Weight | |||
(HP) | (kW) | (m³/min) | (mmAq) | (kPa) | (mm) | W(mm) | L(mm) | H(mm) | (kg) | ||||
RAETTS maglev turbo blower | CXPL50-04 | single stage impeller | 50 | 37 | 48 | 4000 | 40 | 150 | 850 | 1750 | 1640 | 750 | |
CXPL50-06 | 34 | 6000 | 60 | ||||||||||
CXPL50-08 | 28 | 8000 | 80 | ||||||||||
CXPL50-10 | 22 | 10000 | 100 | ||||||||||
CXPL50-12 | 19 | 12000 | 120 | ||||||||||
CXPL75-04 | 75 | 55 | 75 | 4000 | 40 | 200 | 1000 | 1830 | 1740 | 850 | |||
CXPL75-06 | 51 | 6000 | 60 | ||||||||||
CXPL75-08 | 42 | 8000 | 80 | ||||||||||
CXPL75-10 | 33 | 10000 | 100 | ||||||||||
CXPL75-12 | 29 | 12000 | 120 | ||||||||||
CXPL100-04 | 100 | 75 | 100 | 4000 | 40 | 736 | |||||||
CXPL100-06 | 70 | 6000 | 60 | ||||||||||
CXPL100-08 | 55 | 8000 | 80 | ||||||||||
CXPL100-10 | 45 | 10000 | 100 | ||||||||||
CXPL100-12 | 40 | 12000 | 120 | ||||||||||
CXPL125-04 | 125 | 95 | 120 | 4000 | 40 | 250 | 1100 | 1950 | 1870 | 1035 | |||
CXPL125-06 | 82 | 6000 | 60 | ||||||||||
CXPL125-08 | 70 | 8000 | 80 | ||||||||||
CXPL125-10 | 58 | 10000 | 100 | ||||||||||
CXPL125-12 | 50 | 12000 | 120 | ||||||||||
CXPL150-04 | 150 | 110 | 130 | 4000 | 40 | 1040 | |||||||
CXPL150-06 | 105 | 6000 | 60 | ||||||||||
CXPL150-08 | 84 | 8000 | 80 | ||||||||||
CXPL150-10 | 70 | 10000 | 100 | ||||||||||
CXPL150-12 | 58 | 12000 | 120 | ||||||||||
CXPL200-04 | 200 | 150 | 200 | 4000 | 40 | 300 | 1100 | 2050 | 1870 | 1130 | |||
CXPL200-06 | 140 | 6000 | 60 | ||||||||||
CXPL200-08 | 110 | 8000 | 80 | ||||||||||
CXPL200-10 | 95 | 10000 | 100 | ||||||||||
CXPL200-12 | 80 | 12000 | 120 | ||||||||||
RAETTS maglev turbo blower | CXPL250-04 | single stage impeller | 250 | 185 | 245 | 4000 | 40 | 300 | 1100 | 2050 | 1870 | 1080 | |
CXPL250-06 | 160 | 6000 | 60 | ||||||||||
CXPL250-08 | 135 | 8000 | 80 | ||||||||||
CXPL250-10 | 115 | 10000 | 100 | ||||||||||
CXPL250-12 | 98 | 12000 | 120 | ||||||||||
CXPL300-04 | 300 | 220 | 290 | 4000 | 40 | 400 | 1305 | 2380 | 2580 | 1600 | |||
CXPL300-06 | 210 | 6000 | 60 | ||||||||||
CXPL300-08 | 164 | 8000 | 80 | ||||||||||
CXPL300-10 | 133 | 10000 | 100 | ||||||||||
CXPL300-12 | 115 | 12000 | 120 | 1305 | 2480 | 2670 | 1650 | ||||||
CXPL400-04 | 400 | 300 | 400 | 4000 | 40 | 500 | 1305 | 2480 | 2670 | 1650 | |||
CXPL400-06 | 272 | 6000 | 60 | ||||||||||
CXPL400-08 | 216 | 8000 | 80 | 400 | 1400 | 2550 | 2665 | 1650 | |||||
CXPL400-10 | 185 | 10000 | 100 | 1305 | 2480 | 2670 | 1650 | ||||||
CXPL400-12 | 160 | 12000 | 120 | ||||||||||
RAETTS maglev turbo blower | CXPL450-04 | double stage impeller | 450 | 350 | 450 | 4000 | 40 | 500 | 2000 | 2630 | 3310 | 3000 | |
CXPL450-06 | 303 | 6000 | 60 | ||||||||||
CXPL450-08 | 233 | 8000 | 80 | ||||||||||
CXPL450-10 | 198 | 10000 | 100 | ||||||||||
CXPL450-12 | 175 | 12000 | 120 | ||||||||||
CXPL500-04 | 500 | 375 | 470 | 4000 | 40 | ||||||||
CXPL500-06 | 328 | 6000 | 60 | ||||||||||
CXPL500-08 | 254 | 8000 | 80 | ||||||||||
CXPL500-10 | 212 | 10000 | 100 | ||||||||||
CXPL500-12 | 183 | 12000 | 120 | ||||||||||
CXPL600-04 | 600 | 450 | 566 | 4000 | 40 | ||||||||
CXPL600-06 | 397 | 6000 | 60 | ||||||||||
CXPL600-08 | 311 | 8000 | 80 | ||||||||||
CXPL600-10 | 260 | 10000 | 100 | ||||||||||
CXPL600-12 | 225 | 12000 | 120 | ||||||||||
RAETTS maglev turbo compressor | CXPLC50-15 | two-stage compression | 50 | 37 | 15 | 15000 | 150 | 125 | 700/760 | 1600/1770 | 1600/1590 | 530 | |
CXPLC50-20 | 12 | 20000 | 200 | ||||||||||
CXPLC75-15 | 75 | 55 | 21 | 15000 | 150 | 200 | 950 | 1830 | 1740 | 735 | |||
CXPLC75-20 | 18 | 20000 | 200 | ||||||||||
CXPLC100-15 | 100 | 75 | 32 | 15000 | 150 | 1000 | 1830 | 1740 | |||||
CXPLC100-20 | 28.5 | 20000 | 200 | ||||||||||
CXPLC150-15 | 150 | 110 | 51 | 15000 | 150 | 250 | 1250 | 2450 | 2160 | 1630 | |||
CXPLC150-20 | 42 | 20000 | 200 | ||||||||||
CXPLC200-15 | 200 | 150 | 69 | 15000 | 150 | 250 | |||||||
CXPLC200-20 | 58 | 20000 | 200 | 1250 | 2450 | 2160 | 1820 | ||||||
CXPLC250-20 | 250 | 185 | 45 | 200 | 250 | 1250 | 2450 | 2160 | 1820 | ||||
CXPLC300-15 | 300 | 220 | 96 | 15000 | 150 | 250 | 1250 | 2450 | 2160 | 1600 | |||
CXPLC300-20 | 88 | 20000 | 200 | ||||||||||
CXPLC400-15 | 400 | 300 | 140 | 15000 | 150 | 350 | 1450 | 3010 | 2600 | 2000 | |||
CXPLC400-20 | 121 | 20000 | 200 | ||||||||||
CXPLC400-30 | 89 | 300 | 300 | 1450 | 3010 | 2600 | 2200 |
Air blower-An Ultimate FAQ Guide:
2.What are the key factors to consider when selecting an air blower for industrial use?
3.About root air blower patent
4.What Key Features Should You Look for in an Air Blower?
5.How does an root air blower work?
6.About root air blower R&D capabilities
7.About root air blower production management system
8.About root air blower overseas warehouse
9.About root air blower quality system
10.About root air blower technology
11.About root air blower raw materials
12.How to Properly Maintain and Extend the Lifespan of Your Air Blower?
13.About root air blower MOQ
14.What is the operating voltage of the air blower?
15.What are the different types of root air blower available in the market?
16.What Are the Common Noise Levels Associated with Different root air blower Models?
17.About root air blower inventory
18.How Can an Air Blower Benefit Your Home or Industry?
19.What material is used for the outer shell of the air blower?
20.What are the maintenance requirements for an root air blower?
21.How to choose the right root air blower for your specific needs?
22.About the scale of root air blower factory
23.What are the common applications of an root air blower?
24.What is the operating temperature range of the air blower?
25.About root air blower payment method
1.About root air blower raw material procurement system
RAETTS uses ERP management system to manage the suppliers and follow the raw materials production state.
2.What are the key factors to consider when selecting an air blower for industrial use?
The decision to choose an air blower for industrial use can depend on many factors. Here are the key factors that should be considered:
Power: Air blowers come with various power ratings, ranging from 0.2 kW to 25 kW, depending on the application. Choosing the right amount of power will help ensure optimal performance of the blower.
Design: The design of an air blower varies according to the application it is meant for. Depending on the need, choosing the right type of blower will help to ensure efficient and productive use.
Connectivity: Air blowers can be connected in several ways. Selecting the correct air blower with the right type of connection like plug type, air-cooled/water-cooled systems, or through a flexible hose is essential.
Durability: Air blowers come in different materials, some of which are cooler and stronger than others. Choosing the right material to suit the job requirements will ensure that the air blower has a longer service life.
Energy Efficiency: It is important to look for air blowers that have the best energy efficiency ratings. A blower with a high rating will consume less electricity and help reduce operational costs.
3.About root air blower patent
RAETTS won 5 Patents for invention, 18 Patents for utility models,3 Design patents +2 software copyrights,Dozens of patents under application,and formulated 1 Industrial standard and 2 Technical standards.
4.What Key Features Should You Look for in an Air Blower?
1. CFM: Make sure that the air blower you choose has the correct CFM (Cubic Feet per Minute) ratings to meet your needs.
2. Power: If you need to move air quickly and efficiently, look for an air blower with a higher power output.
3. Portability: If you need to take your air blower to different sites, choose one with built-in portability and handles.
4. Safety Features: Ensure the air blower has built-in safety features such as an automatic shut-off in case of overheating.
5. Price: Consider your budget when searching for an air blower as prices can range from a few dollars to several hundred.
5.How does an root air blower work?
The main structure of the air blower is including motor,shaft,bearing and impeller.When the motor is running,it will drive the shaft to run,then shaft drive bearing to run,then bearing drive the impeller to run.After the impeller runs,it will generate a vacuum area surrounding the impeller and suck the surrounding air inside.Then the air will be compressed by the impeller and discharged outside.
6.About root air blower R&D capabilities
RAETTS R&D team has more than 20 people,the chief team leader worked for BYD before,and the technique of whole team is supported by Xi’an Jiaotong University.
7.About root air blower production management system
RAETTS use 6S system to manage the production,we also have enviromental management system certificate ISO14001:2015 and occupational health and safety management ISO45001:2018
8.About root air blower overseas warehouse
RAETTS is cooperating with global distributors,some distributors has stock or sample in their warehouse.For now,RAETTS has Germany factory warehouse,and we are building the USA warehouse.
9.About root air blower quality system
RAETTS has quality management system certificate ISO9001:2015 and enviromental management system certificate ISO14001:2015.
10.About root air blower technology
RAETTS air bearing blower technology is originated from South Korea and maglev turbo blower technology is originated from Germany.RAETTS also have R&D team from Xi’an Jiaotong University.
11.About root air blower raw materials
RAETTS air blower impeller in made of aluminum alloy,enclosure material is carbon steel,rotor material is cast iron.If customers need other special materials,we can also customized according to customers requirements.
12.How to Properly Maintain and Extend the Lifespan of Your Air Blower?
Your air blower is an important machine that helps regulate the air you take in and the quality of air your environment receives. Properly keeping it functioning properly will not only help extend its lifespan significantly but also the useful life of other equipment around it. To help properly maintain your air blower and increase its longevity, follow these tips:
1. Clean the Intake.
Regularly check the intake filter and clean it using a damp cloth or vacuum cleaner. This will help ensure that dust and particles don’t build up and clog the engine.
2. Check for Foreign Objects.
Periodically check for any foreign objects inside and around the air blower. This can help you avoid any mishaps and keep your machine running smoothly.
3. Inspect the Interior.
It is important to occasionally disassemble the air blower and inspect the interior for any broken or worn-out parts. This will help you detect any potential problems and allow you to repair them before they can affect the machine’s performance.
4. Regularly Maintain and Service.
Regularly service and maintain your air blower by making sure all lubricants and fluids are replenished and parts are replaced if needed. This will ensure that all parts are functioning as they should, helping keep the machine working at its peak performance.
By following these steps, you can help ensure your air blower runs properly and prevent any potential problems that may lead to it needing replacement or repairs sooner than it should. With regular maintenance and care, your air blower can be in tip-top condition and have a longer lifespan.
13.About root air blower MOQ
Normally our MOQ for air blower is 1 set
14.What is the operating voltage of the air blower?
The operating voltage of an air blower typically depends on its size and power output. Most air blowers are designed to run on either 110V or 220V AC power. For example, a larger blower with more power may require a 220V power source while a smaller blower with less power may only need 110V. Additionally, it is important to note that many air blowers have both 110V and 220V models, and the user should choose the right model to match the existing power infrastructure of the given application.
15.What are the different types of root air blower available in the market?
For the industrial air blower,normally it is including side channel blower(also called ring blower),roots blower(also called lobe blower),single-stage centrifugal blower,multi-stage centrifugal blower,air foil bearing blowers and maglev turbo blowers.
16.What Are the Common Noise Levels Associated with Different root air blower Models?
The noise levels associated with different air blower models depend largely on the size and operating speed of the blower. Smaller blowers tend to be quieter than larger ones. Generally, blowers with higher operating speeds will produce more noise than those running at lower speeds.
Centrifugal blowers tend to be the loudest of the three main types of air blowers. An air blower model with a 2-5 horsepower rating typically produces between 60 and 85 dB(A). Larger models with 5-10 horsepower ratings can usually produce between 75 and 100 dB(A).
Axial flow blowers are typically quieter, with an air blower model with a 2-5 horsepower rating usually producing between 50 and 75 dB(A). Models with 5-10 horsepower ratings usually produce between 65 and 90 dB(A).
Regenerative blowers are the quietest of the three main types of air blowers. An air blower model with a 2-5 horsepower rating usually produces between 45 and 70 dB(A). Models with 5-10 horsepower ratings usually produce between 55 and 85 dB(A).
It is important to note that noise levels associated with air blower models can vary significantly based on the design of the blower, the efficiency of the motor, and the environment in which it is operating. For instance, more efficient motors tend to generate less noise, and the noise levels generated by a blower can increase when it is operated in an environment with poor ventilation.
17.About root air blower inventory
For air bearing blower and maglev turbo blower,RAETTS doesn’t make stock,only produce air blower according to customers order(since different application site may need different designs).For high speed centrifugal blower,RAETTS makes stock.
18.How Can an Air Blower Benefit Your Home or Industry?
An air blower is a mechanical device used to generate a flow of air or gas at high pressure. It works by using a motor to drive an impeller or fan, which creates a stream of air that can be directed towards a specific area. Air blowers can have a wide variety of applications, and they can greatly benefit both homes and industries in many ways. Here are some of the main benefits of using an air blower:
1. Ventilation and Cooling:
One of the primary benefits of an air blower is its ability to provide ventilation and cooling. In homes, air blowers can be used to circulate air and improve the overall air quality, which can be especially beneficial for those with respiratory issues or allergies. In industries, air blowers are often used to cool down machinery, preventing overheating and minimizing downtime.
2. Drying and Dehumidifying:
Air blowers can also be used to dry out damp or humid areas in both homes and industries. In homes, they can be used to dry out wet carpets, floors, and furniture after cleaning or flooding. In industries, they can help to reduce the humidity levels, which can not only improve the working conditions for employees but also prevent damage to equipment and products.
3. Dust and Debris Removal:
Air blowers can be used to blow away dust and debris on surfaces, making them useful for both homes and industries. They can be used to clean off surfaces such as floors, furniture, and machinery, making them especially useful in factories and workshops where dust and debris can accumulate quickly.
4. Aeration:
In industries such as wastewater treatment, air blowers are used to provide aeration, which is the process of introducing air into a liquid to increase oxygen levels. This promotes the growth of helpful microorganisms that help to break down organic matter and purify the water.
5. Pneumatic Conveying:
Air blowers are often used in industries for pneumatic conveying, which is the process of moving materials such as powders, granules, and pellets through pipelines using air or gas. This is a cost-effective and efficient way to transport materials, and it is commonly used in industries such as food processing, chemical processing, and pharmaceuticals.
6. Process Cooling:
In industries such as manufacturing and food processing, air blowers are used to provide process cooling, which involves blowing air onto a product or a specific area to cool it down. This is essential for maintaining the quality of products and preventing damage caused by high temperatures.
In conclusion, an air blower can greatly benefit both homes and industries by providing ventilation, cooling, drying, dehumidifying, dust removal, aeration, and process cooling. They are versatile and can be used in various applications, making them an essential tool for many different industries. If you are considering investing in an air blower, be sure to research the different types and models available to find the best one for your specific needs.
19.What material is used for the outer shell of the air blower?
The outer shell of an air blower is typically made of a variety of materials, depending on its intended use. For example, some air blowers are designed specifically for a particular environment and require a specific shell material to protect it from corrosion and wear.
For instance, a commercial air blower used in the automotive industry might be made from stainless steel or other metals that can withstand extreme temperatures, while a laboratory air blower used for scientific experiments may be made out of aluminum.
For applications where an air blower is expected to operate in outdoor or wet conditions, polyester or heavy duty polyvinyl chloride (PVC) is usually the shell material of choice. These synthetic materials are waterproof, durable, and resistant to corrosion, making them a popular choice for protecting air blowers that are exposed to the elements.
For long life, air blowers made with a plastic shell are often reinforced with aluminum or steel to ensure a rigid, lightweight housing. Plastic also provides insulation against heat and sound, making it a great choice for air blowers that will be used in high-noise areas.
Finally, some air blowers feature housings made from a composite material, which combines plastic and metal together to offer a lightweight, yet rugged construction. This combination makes a composite shell ideal for air blowers that are required to operate in wild environments or under extreme conditions.
Regardless of whether a air blower features a metal, plastic, or composite shell, all of these materials offer protection for the delicate components within, helping to ensure reliable performance in any environment.
20.What are the maintenance requirements for an root air blower?
Different types of air blowers have different maintenance requirements,for traditional roots blower,end users need to add oil for lubrication,replace the ball bearing and change the air inlet filter periodically.But for turbo blower,the maintenance is quite easy and convenient,end users only need to change the air inlet filters 1-3 months.
21.How to choose the right root air blower for your specific needs?
General speaking,we will do model selection of air blower according to customer’s required air flow,air pressure,application,installation altitude,suction media.
22.About the scale of root air blower factory
For now,RAETTS has 3 factory:
Ganzhou standard product production base:30000m2;
Dongguan R&D product production base:20000m2;
Germany production base:2000m2;
23.What are the common applications of an root air blower?
The air blower can be applied for wastewater treatment aeration,pneumatic conveying,sandblaster,combustion support,galvanization,air knife drying,aquaculture oxygenation,fish farming,etc.
24.What is the operating temperature range of the air blower?
The operating temperature range of an air blower varies depending on the type and size of the blower. Generally, air blowers can operate at temperatures ranging from 40°F (4.4°C) to 250°F (121°C).
Smaller air blowers, such as those found in computers and electronic systems, operate within a much smaller temperature range. These systems typically run between 0°F and 140°F (-17.7°C and 60°C).
Large air blowers, such as those used in industrial or commercial settings, have a much wider operating temperature range. These systems can handle temperatures up to 500°F (260°C). At these temperatures, it is critical to monitor both the air blower and the actual output to ensure the system is not overworking or underperforming.
When designing an air blower system, it is important to select components that are rated for the particular operating temperature ranges. Components made out of materials that can withstand high temperatures, such as nickel-plated brass or stainless steel, are typically best suited for long-term use.
Since air blowers are intended for use in various temperature extremes, it is important to account for any potential changes during operation. Increases in air temperature can lead to decreased performance, while decreases in air temperature can result in decreased output.
Furthermore, all air blowers should be operated within a safe range of temperature to avoid any potential damage to the blower or the surrounding environment. For this reason, regular monitoring of the system should always be conducted to ensure the health and safety of everyone involved.
25.About root air blower payment method
RAETTS accept payment by T/T(30% advance payment,70% before shipment)