Abstract:The metric dot push-in connectors are suitable for...
These connectors are designed to provide a secure and leak-free connection in pneumatic systems, making them ideal for air and gas applications. However, they can also be used with certain types of fluids, such as water or oil, depending on the specific connector and application requirements.
Metric dot push-in connectors are specifically designed to connect metric-sized tubing, typically ranging from 4mm to 16mm in diameter. They provide a quick and simple method for connecting and disconnecting tubes, without the need for tools or additional accessories.
The functioning of a metric dot push-in connector is relatively simple. When inserting the tube into the connector, the collet inside the body of the connector compresses around the outside of the tube, creating a tight seal. The release ring on the outside of the connector is then pushed inwards, allowing the collet to release its grip on the tube, thus facilitating disconnection.
One of the key features of metric dot push-in connectors is their ease of use. They enable quick and effortless connections, saving time and effort during installation or maintenance. This makes them a popular choice in various industries, including automotive, manufacturing, and food and beverage.
Furthermore, metric dot push-in connectors offer excellent versatility and flexibility. They can be used with a wide range of tubing materials, including polyurethane, nylon, and other thermoplastic or fluoropolymer tubes commonly used in pneumatic systems. This compatibility with different tubing materials makes them suitable for diverse applications.
The seal created by metric dot push-in connectors helps to prevent leakage and maintain system efficiency. The connectors are designed to withstand high pressures, ensuring reliable and durable connections even in demanding applications. They can typically withstand pressures up to 10 bar or more, depending on the connector design and tubing size.
It's worth noting that the compatibility of metric dot push-in connectors with fluids depends on factors such as the material of the connector, the fluid properties, and the temperature and pressure conditions. Certain fluids, such as aggressive chemicals or high-temperature liquids, may require specialized connectors that are specifically designed to handle those conditions.