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China proveedor Mecánica de doble etapa de alta Effctive Rotary Vane Bomba de vacío motor de la bomba de vacío

Descripción del producto

Mechanical Double Stage High Effctive Rotary Vane Vacuum Pump
 

2XZ series rotary vane mini vacuum pump belongs to 2 stages direct connection structure rotary vane vacuum pump, which can be used independently or as the pre-pump for booster pump, diffusion pump, molecular pump and titanium pump. It is usually used for electronic devices produce, vacuum drying, filtration, welding, metal smelting, etc.

Main Features

Small size, Light weight, Low noise, No oil returning, No pollution, Energy saving, Beautiful appearance, Low prices, Easy to use.

Modelo 2XZ-0.5 2XZ-1 2XZ-2 2XZ-4
Exhausting speed(L/S) 0.5 1 2 4
Ultimate vacuum(Pa) Gas Ballast Off  6*10-2
Gas Ballast on 1.33
Rotary speed(rpm) 1400
Working voltage (V) 220 220/380 220/380 220/380
Motor power(KW) 0.18 0.25 0.37 0.55
Inlet dia.(mm) Φ13 Φ13 Φ20 Φ20
Oil capacity(L) 0.42 0.4 0.48 0.55
Temp. rise of oil pump(ºC) ≯50
Size L(mm) 435 460 478 518
W(mm) 125 125 148 148
H(mm) 256 256 277 277
Weight(kg) 13 14 20 22
Noise(db) ≯60
Vibration reference number(u) ≯80

Our Service

 

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Oil or Not: Oil
Structure: Rotary Vacuum Pump
Exhauster Method: Positive Displacement Pump
Vacuum Degree: High Vacuum
Work Function: Mainsuction Pump
Working Conditions: Dry
Personalización:
Disponible

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bomba de vacío

¿Pueden utilizarse las bombas de vacío en el sector aeroespacial?

Las bombas de vacío tienen diversas aplicaciones en el sector aeroespacial. He aquí una explicación detallada:

Las bombas de vacío desempeñan un papel crucial en varias áreas de la industria aeroespacial, ya que sirven de apoyo a diversos procesos y sistemas. Algunas de las aplicaciones clave de las bombas de vacío en el sector aeroespacial son:

1. Cámaras de simulación espacial: Las bombas de vacío se utilizan en cámaras de simulación espacial para reproducir las condiciones de baja presión que se experimentan en el espacio exterior. Estas cámaras se utilizan para probar y validar el rendimiento y la funcionalidad de los componentes y sistemas aeroespaciales en condiciones espaciales simuladas. Las bombas de vacío crean y mantienen el entorno de vacío necesario dentro de estas cámaras, lo que permite a ingenieros y científicos evaluar el comportamiento y la respuesta de los equipos aeroespaciales en condiciones similares a las del espacio.

2. Gestión del propulsante: En los sistemas de propulsión espacial, las bombas de vacío se emplean para la gestión de propulsantes. Ayudan en la transferencia, circulación y presurización de propulsantes, como combustibles líquidos para cohetes o fluidos criogénicos, tanto en vehículos de lanzamiento como en naves espaciales. Las bombas de vacío ayudan a crear los diferenciales de presión necesarios para el flujo y el control de los propulsores, garantizando un funcionamiento eficaz y fiable de los sistemas de propulsión.

3. Sistemas de control ambiental: Las bombas de vacío se utilizan en los sistemas de control ambiental de aeronaves y naves espaciales. Estos sistemas son responsables de mantener las condiciones atmosféricas deseadas, incluyendo la temperatura, la humedad y la presión de la cabina, para garantizar la comodidad, la seguridad y el bienestar de los miembros de la tripulación y los pasajeros. Las bombas de vacío se utilizan para regular y controlar la presión de la cabina, facilitando la circulación de aire fresco y manteniendo la calidad del aire deseada dentro de la aeronave o nave espacial.

4. Tecnología de satélites: Las bombas de vacío tienen numerosas aplicaciones en la tecnología de satélites. Se utilizan en la fabricación y comprobación de componentes de satélites, como sensores, detectores y dispositivos electrónicos. Las bombas de vacío ayudan a crear las condiciones de vacío necesarias para la deposición de películas finas, el tratamiento de superficies y los procesos de prueba, garantizando el rendimiento y la fiabilidad de los equipos de los satélites. Además, las bombas de vacío se emplean en los sistemas de propulsión de satélites para gestionar los propulsores y proporcionar empuje para las maniobras orbitales.

5. Aviónica e instrumentación: Las bombas de vacío intervienen en la producción y ensayo de sistemas de aviónica e instrumentación utilizados en aplicaciones aeroespaciales. Facilitan procesos como la deposición de películas finas, la encapsulación al vacío y el secado al vacío, garantizando la integridad y funcionalidad de los componentes y circuitos electrónicos. Las bombas de vacío también se utilizan en pruebas de fugas al vacío, donde ayudan a crear un entorno de vacío para detectar y localizar fugas en sistemas y componentes aeroespaciales.

6. Pruebas a gran altitud: Las bombas de vacío se utilizan en instalaciones de ensayo a gran altitud para simular las condiciones de baja presión que se dan a gran altitud. Estas instalaciones de ensayo se emplean para evaluar el rendimiento y la funcionalidad de equipos aeroespaciales, como motores, materiales y estructuras, en condiciones simuladas de gran altitud. Las bombas de vacío crean y controlan el entorno de baja presión necesario, lo que permite a los ingenieros e investigadores evaluar el comportamiento y la respuesta de los sistemas aeroespaciales en escenarios de gran altitud.

7. Pruebas de motores de cohetes: Las bombas de vacío son cruciales en las instalaciones de pruebas de motores de cohetes. Se utilizan para evacuar y mantener las condiciones de vacío en las cámaras o toberas de prueba de motores durante las pruebas de motores de cohetes. Al crear un entorno de vacío, estas bombas simulan las condiciones que experimentan los motores de cohetes en el vacío del espacio, lo que permite realizar pruebas y evaluaciones precisas del rendimiento, los niveles de empuje y la eficiencia de los motores.

Es importante tener en cuenta que las aplicaciones aeroespaciales suelen requerir bombas de vacío especializadas capaces de cumplir requisitos estrictos, como alta fiabilidad, baja desgasificación, compatibilidad con propulsores o fluidos criogénicos y resistencia a temperaturas y presiones extremas.

En resumen, las bombas de vacío se utilizan ampliamente en el sector aeroespacial para una amplia gama de aplicaciones, como cámaras de simulación espacial, gestión de propulsantes, sistemas de control medioambiental, tecnología de satélites, aviónica e instrumentación, pruebas a gran altitud y pruebas de motores de cohetes. Contribuyen al desarrollo, las pruebas y el funcionamiento de los equipos aeroespaciales, garantizando un rendimiento, una fiabilidad y una seguridad óptimos.

bomba de vacío

What Is the Role of Vacuum Pumps in Pharmaceutical Manufacturing?

Vacuum pumps play a crucial role in various aspects of pharmaceutical manufacturing. Here’s a detailed explanation:

Vacuum pumps are extensively used in pharmaceutical manufacturing processes to support a range of critical operations. Some of the key roles of vacuum pumps in pharmaceutical manufacturing include:

1. Drying and Evaporation: Vacuum pumps are employed in drying and evaporation processes within the pharmaceutical industry. They facilitate the removal of moisture or solvents from pharmaceutical products or intermediates. Vacuum drying chambers or evaporators utilize vacuum pumps to create low-pressure conditions, which lower the boiling points of liquids, allowing them to evaporate at lower temperatures. By applying vacuum, moisture or solvents can be efficiently removed from substances such as active pharmaceutical ingredients (APIs), granules, powders, or coatings, ensuring the desired product quality and stability.

2. Filtration and Filtrate Recovery: Vacuum pumps are used in filtration processes for the separation of solid-liquid mixtures. Vacuum filtration systems typically employ a filter medium, such as filter paper or membranes, to retain solids while allowing the liquid portion to pass through. By applying vacuum to the filtration apparatus, the liquid is drawn through the filter medium, leaving behind the solids. Vacuum pumps facilitate efficient filtration, speeding up the process and improving product quality. Additionally, vacuum pumps can aid in filtrate recovery by collecting and transferring the filtrate for further processing or reuse.

3. Distillation and Purification: Vacuum pumps are essential in distillation and purification processes within the pharmaceutical industry. Distillation involves the separation of liquid mixtures based on their different boiling points. By creating a vacuum environment, vacuum pumps lower the boiling points of the components, allowing them to vaporize and separate more easily. This enables efficient separation and purification of pharmaceutical compounds, including the removal of impurities or the isolation of specific components. Vacuum pumps are utilized in various distillation setups, such as rotary evaporators or thin film evaporators, to achieve precise control over the distillation conditions.

4. Freeze Drying (Lyophilization): Vacuum pumps are integral to the freeze drying process, also known as lyophilization. Lyophilization is a dehydration technique that involves the removal of water or solvents from pharmaceutical products while preserving their structure and integrity. Vacuum pumps create a low-pressure environment in freeze drying chambers, allowing the frozen product to undergo sublimation. During sublimation, the frozen water or solvent directly transitions from the solid phase to the vapor phase, bypassing the liquid phase. Vacuum pumps facilitate efficient and controlled sublimation, leading to the production of stable, shelf-stable pharmaceutical products with extended shelf life.

5. Tablet and Capsule Manufacturing: Vacuum pumps are utilized in tablet and capsule manufacturing processes. They are involved in the creation of vacuum within tablet presses or capsule filling machines. By applying vacuum, the air is removed from the die cavity or capsule cavity, allowing for the precise filling of powders or granules. Vacuum pumps contribute to the production of uniform and well-formed tablets or capsules by ensuring accurate dosing and minimizing air entrapment, which can affect the final product quality.

6. Sterilization and Decontamination: Vacuum pumps are employed in sterilization and decontamination processes within the pharmaceutical industry. Autoclaves and sterilizers utilize vacuum pumps to create a vacuum environment before introducing steam or chemical sterilants. By removing air or gases from the chamber, vacuum pumps assist in achieving effective sterilization or decontamination by enhancing the penetration and distribution of sterilants. Vacuum pumps also aid in the removal of sterilants and residues after the sterilization process is complete.

It’s important to note that different types of vacuum pumps, such as rotary vane pumps, dry screw pumps, or liquid ring pumps, may be utilized in pharmaceutical manufacturing depending on the specific requirements of the process and the compatibility with pharmaceutical products.

In summary, vacuum pumps play a vital role in various stages of pharmaceutical manufacturing, including drying and evaporation, filtration and filtrate recovery, distillation and purification, freeze drying (lyophilization), tablet and capsule manufacturing, as well as sterilization and decontamination. By enabling efficient and controlled processes, vacuum pumps contribute to the production of high-quality pharmaceutical products, ensuring the desired characteristics, stability, and safety.

bomba de vacío

How Are Vacuum Pumps Different from Air Compressors?

Vacuum pumps and air compressors are both mechanical devices used to manipulate air and gas, but they serve opposite purposes. Here’s a detailed explanation of their differences:

1. Function:

– Vacuum Pumps: Vacuum pumps are designed to remove or reduce the pressure within a closed system, creating a vacuum or low-pressure environment. They extract air or gas from a chamber, creating suction or negative pressure.

– Air Compressors: Air compressors, on the other hand, are used to increase the pressure of air or gas. They take in ambient air or gas and compress it, resulting in higher pressure and a compacted volume of air or gas.

2. Pressure Range:

– Vacuum Pumps: Vacuum pumps are capable of generating pressures below atmospheric pressure or absolute zero pressure. The pressure range typically extends into the negative range, expressed in units such as torr or pascal.

– Air Compressors: Air compressors, on the contrary, operate in the positive pressure range. They increase the pressure above atmospheric pressure, typically measured in units like pounds per square inch (psi) or bar.

3. Applications:

– Vacuum Pumps: Vacuum pumps have various applications where the creation of a vacuum or low-pressure environment is required. They are used in processes such as vacuum distillation, vacuum drying, vacuum packaging, and vacuum filtration. They are also essential in scientific research, semiconductor manufacturing, medical suction devices, and many other industries.

– Air Compressors: Air compressors find applications where compressed air or gas at high pressure is needed. They are used in pneumatic tools, manufacturing processes, air conditioning systems, power generation, and inflating tires. Compressed air is versatile and can be employed in numerous industrial and commercial applications.

4. Design and Mechanism:

– Vacuum Pumps: Vacuum pumps are designed to create a vacuum by removing air or gas from a closed system. They may use mechanisms such as positive displacement, entrapment, or momentum transfer to achieve the desired vacuum level. Examples of vacuum pump types include rotary vane pumps, diaphragm pumps, and diffusion pumps.

– Air Compressors: Air compressors are engineered to compress air or gas, increasing its pressure and decreasing its volume. They use mechanisms like reciprocating pistons, rotary screws, or centrifugal force to compress the air or gas. Common types of air compressors include reciprocating compressors, rotary screw compressors, and centrifugal compressors.

5. Direction of Air/Gas Flow:

– Vacuum Pumps: Vacuum pumps draw air or gas into the pump and then expel it from the system, creating a vacuum within the chamber or system being evacuated.

– Air Compressors: Air compressors take in ambient air or gas and compress it, increasing its pressure and storing it in a tank or delivering it directly to the desired application.

While vacuum pumps and air compressors have different functions and operate under distinct pressure ranges, they are both vital in various industries and applications. Vacuum pumps create and maintain a vacuum or low-pressure environment, while air compressors compress air or gas to higher pressures for different uses and processes.

China proveedor Mecánica de doble etapa de alta Effctive Rotary Vane Bomba de vacío motor de la bomba de vacío China proveedor Mecánica de doble etapa de alta Effctive Rotary Vane Bomba de vacío motor de la bomba de vacío
editor by CX 2024-02-14

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