Pneumatic Components
part#
description
manufacturer
4895360
hand lever VAOH-F8-14-H9-A for mechanical actuation of ball valves VZBD, closing. Length: 182 mm, Type of actuation: manual, Assembly position: Any, Width across flats: 14 mm, Corrosion resistance classification CRC: 3 - High corrosion stress
customer-12
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8004898
supply plate VABF-L1-18-P3A4-G14-T1 Authorisation: (* c CSA us (OL), * c UL us - Recognized (OL)), Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Product weight: 41 g, Materials note: Conforms to RoHS
customer-12
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4414806
selector valve VHEF-EST-M32-M-N18 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 750 l/min, Operating pressure MPa: -0,095 - 1 MPa
customer-12
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8000327
electrical adapter SASC-P4-A-M8-S Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Materials note: Conforms to RoHS, Material housing: PA-reinforced, Material connector housing: (* Brass, * Nickel plated)
customer-12
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4727328
sub-base VABS-S7-BE-B-N14-V14-A Assembly position: Any, Pilot air supply: Internal, Operating pressure: 2 - 8 bar, Flow rate Kv ventilation: 2,2 m3/h, Flow rate Kv exhaust: 8,6 m3/h
customer-12
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541667
plate MPL-TC-3-18 Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Materials note: Conforms to RoHS
customer-12
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5105631
plug socket with cable SIM-M12-8GD-15-PU Conforms to standard: (* DIN 47100, * EN 61076-2-101), Cable identification: Without inscription label holder, Electrical connection 1, function: Field device side, Electrical connection 1, design: Round, Electrica
customer-12
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8029139
solenoid coil VACN-N-A1-1-EX4-A for armature system FN, connection pattern type A, to EN 175 301, 24 V DC, intrinsically safe. Type of actuation: electrical, Assembly position: Any, Duty cycle: 100 %, Required current consumption: >: 27 mA, Insulation cl
customer-12
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8026433
supply plate VABF-B10-30-P1-G38 Operating pressure: -0,9 - 10 bar, Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Max. tightening torque: 6 Nm, Product weight: 40 g, Mounting type: with through hole
customer-12
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8026337
foot mounting VAME-B10-30-A Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Max. tightening torque: 0,6 Nm, Materials note: Conforms to RoHS, Material bracket: (* Steel, * Galvanised)
customer-12
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8022877
solenoid coil VACN-H1-A1-1 for 14 mm armature tube, connection pattern type A, to EN 175 301, 24 V DC. Assembly position: Any, Switching position indicator: No, Min. pickup time: 12 ms, Duty cycle: 100 %, Power factor cos {phi}: 0,7
customer-12
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8029144
solenoid coil VACN-N-A1-... for armature system FN, connection pattern type A, to EN 175 301, 24 V DC. Type of actuation: electrical, Assembly position: Any, Duty cycle: 100 %, Insulation class: F, Enamelled wire insulation class: F
customer-12
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8046903
proportional pressure regulator VEAA-L-3-D9-Q4-V1-1R1 Valve function: 3-way proportional-pressure regulator, Type of piloting: direct, Type of reset: mechanical spring, Type of actuation: electrical, Assembly position: Any
customer-12
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8046905
proportional pressure regulator VEAA-L-3-D11-Q4-V1-1R1 Valve function: 3-way proportional-pressure regulator, Type of piloting: direct, Type of reset: mechanical spring, Type of actuation: electrical, Assembly position: Any
customer-12
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525226
blanking plate MHAP3-BP-3 For MHA3-P...-HC/TC and MHP3-P...-HC/TC connection and manifold blocks Corrosion resistance classification CRC: 2 - Moderate corrosion stress, Ambient temperature: -10 - 80 °C, Mounting method for sub-base: with through hole, Mat
customer-12
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8046892
proportional pressure regulator VEAA-B-3-D2-F-V1-1R1 Valve function: 3-way proportional-pressure regulator, Type of piloting: direct, Type of reset: mechanical spring, Type of actuation: electrical, Assembly position: Any
customer-12
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8046893
proportional pressure regulator VEAA-B-3-D2-F-A4-1R1 Valve function: 3-way proportional-pressure regulator, Type of piloting: direct, Type of reset: mechanical spring, Type of actuation: electrical, Assembly position: Any
customer-12
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547049
socket head screw M3X45-8.8-VS-100 for valve on in-line valve manifold. Corrosion resistance classification CRC: 1 - Low corrosion stress, Materials note: Conforms to RoHS, Material screws: (* Steel, * Galvanised)
customer-12
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8049048
vacuum generator OVEL-10-H-15-PQ-VQ6-UA-C-A-V1B-H3 Nominal size, Laval nozzle: 0,95 mm, Grid dimension: 15 mm, Design, silencer: open, Assembly position: Any, Ejector characteristic: (* High vacuum, * Standard)
customer-12
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8059807
solenoid coil VACF-B-K1-1-20-EX4-M Assembly position: Any, Switching position indicator: No, Min. pickup time: 10 ms, Duty cycle: 100 %, Characteristic coil data: 24 V DC: 4.36 W
customer-12
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Pneumatic Components
General Guide & Overview
Pneumatic components are essential parts of a pneumatic system that utilizes compressed air to control movements and perform various tasks in industries such as manufacturing, construction, and automation. These components are designed to optimize automation and control and are favored by many industries for their cost-effectiveness and reliability.
Industrial pneumatic systems typically consist of a compressor, receiver, valves, and actuators. The compressor converts the air into compressed air, which is then stored in a receiver. Valves control the direction and flow of the air, while actuators are responsible for the required movement of the system.
Additionally, air preparation components such as filters, regulators, and lubricators play a crucial role in maintaining the performance and longevity of the pneumatic system.
Understanding the functions and applications of pneumatic components is key to harnessing the power of pneumatic systems effectively. In this guide, we will explore the various components of a pneumatic system and their functions, providing you with a comprehensive overview.
Advantages and Limitations of Pneumatic Systems
Pneumatic systems offer several advantages that make them popular in various industries. These include simplicity of design and control, reliability, and safety.
One of the key advantages of pneumatic systems is their simplicity. They can be easily designed and operated using standard components, making them cost-effective and efficient. This makes them a popular choice for industries that require automated processes.
Pneumatic systems are also known for their reliability. They can continue to function even if there is a loss of electrical power, ensuring uninterrupted operation. This is especially important in critical applications, where downtime can be costly and disruptive.
Additionally, pneumatic systems are considered safe to use. They are less prone to shock damage compared to hydraulic systems, reducing the risk of accidents. They also have a low risk of fire, making them suitable for applications where fire hazards are a concern.
However, it's significant to note that pneumatic systems also have limitations that need to be taken into account. One limitation is that they are prone to leakage. Air can escape from the system, leading to a decrease in performance and efficiency. Regular maintenance checks are necessary to detect and address any leakage issues in order to prevent potential problems.
Pneumatic systems also require maintenance and repairs to ensure their optimal functioning. Before any repairs, the system needs to be depressurized correctly to avoid accidents. Temperature and vibration changes can affect the performance of pneumatic systems, so it's important to consider these factors and take appropriate measures.
Components and Design of a Pneumatic System
A pneumatic system is composed of several essential components that work together to optimize its performance. The key components of a pneumatic system include an air compressor that converts the air into compressed air, an air tank that stores the compressed air, and an air filter that removes contaminants from the air before it enters the system.
To ensure stable and controlled operation, a regulator is used to adjust and maintain the desired pressure of the air within the system. Additionally, a lubricator is employed to provide lubrication, reducing friction and wear on the components, thus prolonging their lifespan.
The control valve is responsible for controlling the flow of air within the system, allowing for precision and flexibility in the movement of the actuators. These actuators, which can be in the form of cylinders or motors, convert the compressed air into mechanical movement, enabling the system to perform the desired tasks.
In designing a pneumatic system, careful consideration must be given to the arrangement and placement of these components. Proper positioning ensures an efficient and logical flow of air, reducing energy loss and optimizing performance. By strategically positioning the components, operators can achieve smooth operation and enhance the system's overall effectiveness.
FAQ
What are pneumatic components?
Pneumatic components are essential parts of a pneumatic system that utilize compressed air to control movements and perform various tasks in industries such as manufacturing, construction, and automation.
What are the main components of a pneumatic system?
The main components of a pneumatic system include an air compressor, an air tank, an air filter, a regulator, a lubricator, control valves, and actuators.
What are the advantages of pneumatic systems?
Pneumatic systems offer advantages such as simplicity of design and control, reliability, and safety. They are easy to design and operate, even without electrical power, and are less prone to shock damage and fire.
What are the limitations of pneumatic systems?
Pneumatic systems can be prone to leakage and require regular maintenance checks. The system needs to be depressurized correctly before repairs, and temperature and vibration changes can affect its performance.