HES 10790022 Hes Fp:852m-605 Electric Strike
When you need a fail-secure electric strike that integrates cleanly into mortise lockset applications without compromising fire-rated door assemblies, the HES 10790022 delivers. This field-proven strike handles the mechanical stresses of high-cycle commercial environments while maintaining the holding force required for true access control—eliminating the weak point that undermines many perimeter security designs.
Key Features
- Fail-secure operation keeps doors locked during power loss, maintaining security protocols during emergencies or system failures
- Mortise lockset compatibility designed specifically for the dimensional and operational requirements of mortise lock hardware
- Durable metal construction withstands repeated daily use in high-traffic commercial environments without mechanical degradation
- Field-reversible for right- or left-hand applications, reducing inventory requirements and simplifying installation planning
- Low-profile faceplate design integrates flush with standard frames for clean aesthetics and minimal projection into door clearance zones
- Standard voltage operation compatible with common access control power supplies and control panels
- Designed for surface mounting to hollow metal frames with standard preparation dimensions
The 10790022 addresses a critical integration challenge: matching electric strike behavior to the mechanical operation of mortise locksets. Unlike cylindrical lock applications where latchbolts follow predictable paths, mortise locks present unique geometries and throw distances. This strike accommodates those requirements while maintaining the holding force necessary for perimeter doors, stairwell access, and other security-critical openings where mechanical bypass cannot be tolerated.
Installation integrates with standard access control architectures—wire to your panel's relay outputs, configure fail-secure logic, and the strike operates in lockstep with card readers, keypads, or biometric devices. The field-reversible design means you can adapt to site conditions during rough-in without ordering hand-specific hardware. For integrators managing multi-building campuses or phased rollouts, this flexibility reduces truck rolls and eliminates the delays caused by incorrect handing specifications. The result is a mechanical locking point that responds reliably to electronic commands while maintaining the life-safety compliance required in fire-rated openings.
