# cable gland > device designed to attach and secure the end of a cable to the equipment **Wikidata**: [Q12855](https://www.wikidata.org/wiki/Q12855) **Wikipedia**: [English](https://en.wikipedia.org/wiki/Cable_gland) **Source**: https://4ort.xyz/entity/cable-gland ## Summary A cable gland is a device designed to attach and secure the end of a cable to equipment. It serves as both a connector and strain relief mechanism, ensuring proper cable termination and protection. Cable glands are classified as electronic components and are essential for maintaining secure electrical connections. ## Key Facts - Instance of: electronic component and connector - Aliases: fitting, strain relief, gland, cable connector, entrada de cable, Гермоввод, Кабельный сальник - Wikipedia title: Cable gland - Commons category: Cable glands - Wikidata description: device designed to attach and secure the end of a cable to the equipment - Available in 9 Wikipedia languages: commons, cs, de, en, fa, hu, nl, ru, sv - Freebase ID: /m/0b6mfns - Quora topic: Cable-Gland - Image available at: https://commons.wikimedia.org/wiki/Special:FilePath/Presse-etoupe.jpg - Related to electronic components with 58 sitelink count - Microsoft Academic ID (discontinued): 110925319 ## FAQs ### Q: What is the primary function of a cable gland? A: A cable gland attaches and secures the end of a cable to equipment, providing both mechanical support and electrical connection. It prevents cable pull-out and protects against environmental factors. ### Q: What are the different names for cable glands? A: Cable glands are also known as fittings, strain reliefs, glands, cable connectors, entrada de cable, Гермоввод, and Кабельный сальник in various languages and contexts. ### Q: Where can I find images of cable glands? A: Images of cable glands are available on Wikimedia Commons at https://commons.wikimedia.org/wiki/Special:FilePath/Presse-etoupe.jpg and in the Cable glands category. ## Why It Matters Cable glands play a critical role in electrical and electronic systems by providing secure cable termination and strain relief. Without proper cable glands, connections would be vulnerable to mechanical stress, environmental damage, and potential failure. These devices ensure the longevity and reliability of electrical installations in industrial, commercial, and residential applications. Cable glands protect against dust, moisture, and other contaminants while maintaining proper grounding and bonding. Their importance spans across multiple industries including manufacturing, telecommunications, energy, and construction, where secure cable management is essential for safety and operational efficiency. ## Notable For - Serves as both a mechanical connector and strain relief device - Available in multiple language variants and international standards - Classified as both an electronic component and connector - Provides environmental protection for cable terminations - Essential for industrial and commercial electrical installations ## Body ### Technical Classification Cable glands are classified as electronic components within the broader category of connectors. They represent a fundamental building block in electronic systems, designed to affect the physical and electrical properties of cable connections. ### Design and Function The primary design purpose of a cable gland is to provide a secure mechanical attachment point for cables while offering strain relief. This dual functionality prevents cable damage from tension, vibration, and environmental factors. The device creates a sealed connection that protects internal conductors from moisture, dust, and other contaminants. ### International Presence Cable glands have established a significant international presence, with documentation and resources available in nine different Wikipedia languages. This widespread availability indicates their universal importance across different regions and industries. The device is known by various names in different languages, reflecting its global adoption. ### Related Technologies As an electronic component, cable glands are closely related to other discrete devices that affect electron flow and field properties. They work in conjunction with various electrical systems and are often specified alongside other connection hardware in technical documentation and installation guides. ### Documentation and Resources The device has substantial documentation available through multiple channels, including Wikimedia Commons for images, Quora for community discussions, and various language-specific Wikipedia entries. This comprehensive documentation network supports proper selection, installation, and maintenance of cable glands across different applications. ## References 1. Freebase Data Dumps. 2013 2. [OpenAlex](https://docs.openalex.org/download-snapshot/snapshot-data-format)