Product
The Continuous Strike USL BD25-2-267ERQH/31R-M-B001 SKG2 Right is a multipoint lock strike designed for right-hand door configurations, offering reliable security and compatibility with multipoint locking systems.
Specifications
- Engineered for right-hand door applications, ensuring precise alignment with multipoint lock mechanisms
- Meets SKG2 certification standards, confirming compliance with recognized security and burglar resistance requirements
- Continuous strike design provides extended engagement along the door frame, distributing locking force across multiple points
- Compatible with USL BD25-2-267ERQH/31R-M-B001 multipoint lock series
- Constructed to withstand repeated mechanical stress associated with daily door operation
Usage
Install this continuous strike into the door frame to receive the locking bolts of a compatible USL multipoint lock. The right-hand configuration ensures correct bolt alignment. Once fitted, it works in conjunction with the multipoint lock to secure the door at multiple points simultaneously, enhancing overall door security.
FAQ
- Is this strike compatible with all multipoint locks? — No. It is specifically designed for use with the USL BD25-2-267ERQH/31R-M-B001 multipoint lock series and should be matched accordingly.
- What does SKG2 certification mean? — SKG2 is a recognized security certification indicating the product meets defined standards for resistance against forced entry attempts.
- Is this strike suitable for left-hand doors? — No. This model is configured for right-hand door applications only. A separate left-hand version would be required for opposite-hand doors.
- What is a continuous strike? — A continuous strike runs along the door frame to engage multiple locking points simultaneously, distributing force and improving overall door security compared to individual strikes.
- Can this strike be installed without professional assistance? — While installation is straightforward for experienced fitters, professional installation is recommended to ensure correct alignment and optimal security performance.
mvm-dt-2026-03