Franchi AFFINITY 3 Sporting | Precision Semi-Automatic Shotgun for Clay Shooting
The Franchi AFFINITY 3 Sporting is the ultimate semi-automatic shotgun designed for competitive shooters who demand precision and performance. Chambered in 12-gauge, this shotgun is ideal for sporting clays, trap, and skeet shooting, offering a smooth and reliable shooting experience.
At the heart of the AFFINITY 3 Sporting is Franchi’s proven inertia-driven system, delivering flawless cycling of loads from light to heavy. With minimal recoil and quick follow-up shots, you’ll maintain control and focus during competitions. The system is also easy to maintain, ensuring reliability through long sessions of intensive shooting.
Designed specifically for clay sports, the AFFINITY 3 Sporting comes with an extended barrel (30 inches) that enhances accuracy and improves shot patterns. The extended choke tubes allow for customization and greater adaptability across various shooting distances and target presentations.
The ergonomically designed stock ensures a comfortable grip, while the adjustable comb lets you fine-tune the shotgun to your preferences for a tailored fit. A fiber optic front sight helps shooters maintain target focus under different lighting conditions.
Weighing in at 7.2 lbs, the AFFINITY 3 Sporting balances agility with stability, making it easier to swing and track fast-moving clays. Whether you’re a seasoned shooter or aiming to improve your score, this shotgun will enhance your performance on the range.
Key Features:
- Inertia-Driven System: Reliable cycling for smooth shooting, even during rapid fire.
- 30-Inch Barrel: Increased accuracy and shot pattern control, ideal for competitive shooting.
- Extended Choke Tubes: Allows for fine-tuning performance based on the shooting environment.
- Adjustable Comb: Customize the fit for personalized comfort and improved shooting posture.
- Ergonomic Stock: Ensures maximum comfort and control for long shooting sessions.
- Fiber Optic Front Sight: Enhances target acquisition and focus in varying light conditions.
