GK310-LS Electric Strike

SKU: GK310-LS

£44.21 ex VAT

GK310-LS Electric Strike (ANSI Style)

Versatile Electric Strike for Access Control & Door Entry Systems

The GK310-LS Electric Strike is a reliable and flexible locking solution designed for a wide range of access control, door entry, and electronic locking applications. Manufactured in a standard ANSI-style format, it provides excellent compatibility with a variety of doors, frames, and locking systems, making it an ideal choice for both new installations and retrofit projects.

Operating on 12V DC, the GK310-LS offers selectable fail-safe and fail-secure modes, allowing installers to configure the strike to meet specific security, safety, and fire compliance requirements. This flexibility makes it suitable for commercial buildings, offices, schools, healthcare facilities, residential developments, and other controlled access environments.

Supplied with both long and short faceplates, the GK310-LS provides added installation versatility, enabling it to accommodate a wide range of door and frame configurations straight out of the box. Its robust construction ensures reliable daily operation and long-term performance, even in demanding environments.

Whether used with access control systems, keypads, intercoms, proximity readers, or electronic locking systems, the GK310-LS delivers dependable door release performance and enhanced security.

Key Features

  • ANSI-style electric strike design
  • 12V DC operation
  • Selectable fail-safe or fail-secure functionality
  • Supplied with long and short faceplates
  • Suitable for a wide range of door and frame types
  • Compatible with access control and door entry systems
  • Reliable and durable construction
  • Easy installation and setup
  • Ideal for commercial and residential applications

The GK310-LS Electric Strike offers a practical, adaptable, and cost-effective solution for modern access control installations, providing dependable security and flexible installation options for a wide variety of door applications.