How Does Compression Connector Work?
Compression connectors are used to join or terminate electrical conductors. They are designed to form a reliable and secure electrical connection between two wires or cables, preventing them from getting damaged or disconnected. So, how does a compression connector work? In this article, we will explore the different components of a compression connector and how they create a reliable and long-lasting electrical connection.
Components of a Compression Connector.
A compression connector comprises of the following components:
1. Cable or Wire - The electrical conductors that need to be joined.
2. Connector Body - The housing that protects the conductor and provides a secure grip.
3. Compression Ring - Pushed over the wire strands and compressed onto the conductor by the compression tool.
4. Compression Tool - Squeezes the compression ring onto the conductor to form a secure and reliable connection.
How it Works.
When you use a compression connector, the compression ring sits between the cable and the connector body. Upon compression, the connector body squeezes the tapered edges of the ring which constricts the surface area of the wire and pressure builds up. This action engages the conductor’s wire strands with the secured connector body, making electrical contact from the connector body to the wire.
The ring then forms a watertight seal around the wire, providing a reliable and immovable connection that is resistant to or can withstand vibration and torque. The compression tool does not pierce the wire insulation or damage the wire strand. Instead, it ensures that it has the right amount of compression so that the wire has full electrical contact with the connector body.
The Benefits.
Compression connectors offer numerous benefits of using compression connectors to terminate wires instead of crimping, soldering or using push-in terminals. Compression connectors offer:
1. Reliability - Compression connectors provide a high-quality connection that spans a long time.
2. Longevity - Compression connectors can last up to 50 years or more because of their resistance to temperature variation, corrosion, and harsh weather conditions.
3. Safety - Compression connectors offer high electrical continuity and are immune to shock hazard, keeping people around them safe.
4. Versatility - They can be used on a wide range of electrical conductors (from copper to aluminum) which saves time and money.
Conclusion.
In conclusion, compression connectors are an easy-to-use, versatile solution for electrical connections that require long-term reliability. They offer superior electrical conductivity, resistance to temperature fluctuations and corrosion. Their watertight construction also makes them dust-proof and moisture-proof. So, if you're looking for a reliable compression connector supplier, please contact us and we will be happy to help you choose the right connector that meets your requirement.
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