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Pneumatic Tubing
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UCS080050CG120MA2
AirTAC UCS080050CG120MA2 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear green , 12 meter, One end is 30cm and the other end is 10cm, With female-male coupling
AirTAC
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UCS080050CG120MC3
AirTAC UCS080050CG120MC3 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear green , 12 meter, Both of the tubes of the couplings are 0cm, With male-male coupling
AirTAC
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UCS080050CG150MA1
AirTAC UCS080050CG150MA1 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear green , 15 meter, One end is 30cm and the other end is 10cm, Without coupling
AirTAC
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UCS080050CG150MA2
AirTAC UCS080050CG150MA2 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear green , 15 meter, One end is 30cm and the other end is 10cm, With female-male coupling
AirTAC
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UCS080050CY090MA3
AirTAC UCS080050CY090MA3 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear yellow , 9 meter, One end is 30cm and the other end is 10cm, With male-male coupling
AirTAC
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UCS080050CY090MB3
AirTAC UCS080050CY090MB3 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear yellow , 9 meter, Both fo the tubes of the couplings are 10cm, With male-male coupling
AirTAC
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UCS080050CY120MA1
AirTAC UCS080050CY120MA1 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear yellow , 12 meter, One end is 30cm and the other end is 10cm, Without coupling
AirTAC
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UCS080050CY120MC2
AirTAC UCS080050CY120MC2 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear yellow , 12 meter, Both of the tubes of the couplings are 0cm, With female-male coupling
AirTAC
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UCS080050CY150MA3
AirTAC UCS080050CY150MA3 - Recoil Polyurethane Tube (Ester Base) ,8 mm OD, 5 mm ID, Clear yellow , 15 meter, One end is 30cm and the other end is 10cm, With male-male coupling
AirTAC
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UCS120080C060MC2
AirTAC UCS120080C060MC2 - Recoil Polyurethane Tube (Ester Base) ,12 mm OD, 8 mm ID, Clear , 6 meter, Both of the tubes of the couplings are 0cm, With female-male coupling
AirTAC
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UCS120080C090MA2
AirTAC UCS120080C090MA2 - Recoil Polyurethane Tube (Ester Base) ,12 mm OD, 8 mm ID, Clear , 9 meter, One end is 30cm and the other end is 10cm, With female-male coupling
AirTAC
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UE95A032020020MC
AirTAC UE95A032020020MC - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Clear , 20 meter
AirTAC
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UE95A032020020MCR
AirTAC UE95A032020020MCR - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Clear red , 20 meter
AirTAC
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UE95A032020020MGE
AirTAC UE95A032020020MGE - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Orange , 20 meter
AirTAC
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UE95A032020020MY
AirTAC UE95A032020020MY - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Yellow , 20 meter
AirTAC
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UE95A032020100MC
AirTAC UE95A032020100MC - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Clear , 100 meter
AirTAC
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UE95A032020100MCG
AirTAC UE95A032020100MCG - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Clear green , 100 meter
AirTAC
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UE95A032020100MGE
AirTAC UE95A032020100MGE - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Orange , 100 meter
AirTAC
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UE95A032020100MWH
AirTAC UE95A032020100MWH - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, White , 100 meter
AirTAC
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UE95A032020100MY
AirTAC UE95A032020100MY - Metric Size Polyurethane Tubing (Ether Base) ,3.2 mm OD, 2 mm ID, Yellow , 100 meter
AirTAC
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Pneumatic Tubing
General Guide & Overview
Pneumatic tubing is an essential component of pneumatic systems, which use pressurized air or gas to create mechanical motion. It is used in a wide range of industries, including automation, manufacturing, automotive, and more.
Pneumatic tubing is responsible for carrying compressed air from one component to another within the system.
Pneumatic tubing is typically made from durable and flexible materials like polyurethane and polyamide. Tubing comes in various lengths, diameters, and flexibility options to suit different applications.
Choosing the right pneumatic tubing involves considering factors like operating pressure, tubing size and length, environment, connection type, flexibility, and material compatibility.
Types of Pneumatic Tubing
When it comes to pneumatic systems, having the right tubing is essential for optimal performance. There are several types of pneumatic tubing available, each designed to meet specific application requirements. Let's explore some of the most common types:
Polyurethane Tubing
Polyurethane tubing is a popular choice due to its durability and flexibility. It is resistant to wear, moisture, and chemicals, making it ideal for rugged environments.
Fluororesin Tubing
For applications where corrosion resistance is crucial, fluororesin tubing is the go-to option. It is compatible with acids, bases, and ultrapure water, ensuring long-lasting performance in harsh conditions.
Polyolefin Tubing
If you're looking for lightweight and cost-effective tubing for low-pressure applications, polyolefin tubing is an excellent choice. It offers ease of installation and versatility.
Spark-Resistant Tubing
In environments where sparks are present, such as spot welders, spark-resistant tubing is essential to minimize the risk of fires. It provides an added layer of safety and peace of mind.
Wear-Resistant Tubing
When sliding motion causes abrasion, wear-resistant tubing comes to the rescue. It helps prolong the lifespan of the tubing and minimizes the need for frequent replacements.
Polyethylene Tubing
Polyethylene tubing is known for its resistance to environmental stress cracking and excellent chemical resistance. It is a reliable choice for various applications.
Moisture Control Tubing
In pneumatic systems, condensation can be a challenge. Moisture control tubing helps prevent the buildup of moisture, ensuring consistent and reliable performance.
Choosing the right type of tubing is crucial to ensure that your pneumatic system operates efficiently and effectively. Consider the specific requirements of your application, such as durability, resistance to wear and chemicals, and environmental conditions, before selecting the appropriate tubing. By making an informed decision, you can maximize the performance and lifespan of your pneumatic system.
Pneumatic Tube Systems: How They Work and Their Components
Pneumatic tube systems, also known as pneumatic transport systems, revolutionize the transportation of small items or documents within facilities. These systems utilize compressed air to swiftly move objects through a network of tubes, ensuring efficient and speedy delivery.
The pneumatic tube system consists of several essential components that work together seamlessly. Let's explore the key components and their roles:
1. Carriers
The carriers act as secure containers that house the objects or documents being transported. Equipped with closure flaps, they ensure the safe and protected delivery of the items. These carriers come in various sizes and designs, tailored to accommodate different types of objects.
2. Stations
Stations serve as the terminals of the pneumatic tube system, where carriers are sent and received. These stations are equipped with ports and user interface panels to facilitate easy loading and unloading of carriers. The stations also provide necessary instructions and feedback to the users, ensuring seamless operation.
3. Diverters
At intersections within the tube system, diverters are strategically placed to alter the direction of carriers. They ensure smooth and efficient transportation, especially when multiple routes are required. Diverters play a crucial role in guiding carriers to their destination accurately.
4. Blowers
Blowers are responsible for creating a pressure difference within the pneumatic tube system. By generating compressed air or gas flow, blowers propel the carriers through the network of tubes. This propulsion mechanism ensures rapid and reliable transportation.
Understanding the components and operation of a pneumatic tube system is vital for achieving efficient and rapid item transportation. By utilizing carriers, stations, diverters, and blowers, these systems revolutionize logistics and contribute to enhanced productivity in various industries.
Pneumatic tubing is a crucial component in pneumatic systems, facilitating the efficient transportation of compressed air to various components. When selecting the right tubing, it is essential to consider factors such as operating pressure, size, length, environment, and material compatibility. By understanding the different types of pneumatic tubing available, including polyurethane, fluororesin, polyolefin, spark-resistant, wear-resistant, polyethylene, and moisture control tubing, businesses can choose the most suitable option for their specific applications.
In addition to pneumatic tubing, pneumatic tube systems offer a convenient and rapid method for transporting small items or documents through a network of tubes using compressed air. These systems consist of components like carriers, stations, diverters, and blowers. Carriers securely transport objects or documents, while stations serve as terminals equipped with ports and user interface panels for sending and receiving carriers. Diverters guide carriers at intersections, ensuring efficient routing, and blowers create the necessary pressure difference to propel carriers through the tube system.
By comprehending the operation and components of pneumatic tube systems, businesses across various industries can enhance efficiency and productivity. Whether it's in automation, manufacturing, automotive, or other sectors, pneumatic tubing and tube systems enable seamless and reliable pneumatic transport, contributing to smoother operations and improved workflow.
FAQ
What is pneumatic tubing used for?
Pneumatic tubing is used to carry compressed air from one component to another within a pneumatic system. It is commonly used in automation, manufacturing, automotive, and other industries.
What factors should be considered when choosing pneumatic tubing?
Factors to consider when choosing pneumatic tubing include operating pressure, tubing size and length, environment, connection type, flexibility, and material compatibility.
What are the different types of pneumatic tubing?
The different types of pneumatic tubing include polyurethane tubing, fluororesin tubing, polyolefin tubing, spark-resistant tubing, wear-resistant tubing, polyethylene tubing, and moisture control tubing.
What are the advantages of polyurethane tubing?
Polyurethane tubing is known for its durability, flexibility, and resistance to wear, moisture, and chemicals.
What are the advantages of fluororesin tubing?
Fluororesin tubing offers exceptional corrosion resistance and is compatible with acids, bases, and ultrapure water.
What are the advantages of polyolefin tubing?
Polyolefin tubing is lightweight and inexpensive, making it suitable for low-pressure applications.
What are the advantages of spark-resistant tubing?
Spark-resistant tubing is designed to reduce the risk of fires in environments with sparks, such as spot welders.
What are the advantages of wear-resistant tubing?
Wear-resistant tubing is used to minimize abrasion caused by sliding motion.
What are the advantages of polyethylene tubing?
Polyethylene tubing is resistant to environmental stress cracking and offers excellent chemical resistance.
What are the advantages of moisture control tubing?
Moisture control tubing helps prevent condensation within pneumatic systems.
How do pneumatic tube systems work?
Pneumatic tube systems, also known as pneumatic transport systems, transport small items or documents through a network of tubes using compressed air. Carriers are sent and received at stations equipped with ports and user interface panels, and blowers create a pressure difference to propel carriers through the tube system. Diverters are used at intersections to alter the direction of carriers when multiple routes are required.
What are the major components of a pneumatic tube system?
The major components of a pneumatic tube system include carriers, stations, diverters, and blowers. Carriers are containers that transport objects or documents, stations are terminals where carriers are sent and received, diverters are used at intersections to alter carrier direction, and blowers create the pressure difference to propel carriers through the tubes.