The Unity Tactical AXON SURFRE/DBAL SYNC 7 is a high-performance remote switch designed for weapon-mounted lights and lasers, offering operators precise control in tactical environments. Constructed with a rugged housing, this switch is built to withstand harsh conditions while providing reliable operation. Its compact design allows for seamless integration onto M1913 rails or M-LOK systems using an optional mounting kit, making it versatile across various firearm setups. The AXON model incorporates feedback from professional end-users, resulting in an intuitive interface that emphasizes tactile differentiation between buttons to prevent operational errors in low-light or high-stress scenarios. The angled light button supports both momentary and constant activation, giving users flexibility depending on their tactical needs. The laser button is designed for momentary activation only, with an optional double-click feature support for constant laser operation, ensuring precise control over laser engagement. The SYNC models enhance functionality by allowing independent firing of laser and light functions, while standard models enable simultaneous activation. The switch’s ergonomic design ensures quick, confident operation without needing to visually confirm button positions, which is critical during rapid engagements. Unity Tactical’s AXON switch is a reliable upgrade for firearm setups requiring immediate access to light and laser controls, providing tactical advantage and operational efficiency in demanding scenarios.
Features:
- Compact and rugged housing designed for tactical use
- Mounts directly to M1913 Rail or M-LOK with optional kit
- Tactile differentiation between light and laser buttons for quick identification
- Light button supports both momentary and constant activation
- Laser button designed for momentary activation with optional double-click for continuous laser
- Independently fires light and laser on SYNC models, simultaneous on standard models
- Ergonomic design intended for rapid, confident operation in low-light and high-stress conditions
