Product Overview
The Atlas Lifting and Rigging ALH 3/4 Ton Lever Chain Hoist with Overload Protection is engineered to offer unmatched lifting capability and safety in a compact design. Perfect for a range of applications, this hoist is a must-have tool for professionals and DIY enthusiasts alike, ensuring that you can tackle heavy lifting tasks with confidence.
With a capacity of 0.8 tons (1,600 lbs) and a 5-foot lift height, the ALH-008-05-OP is designed to operate effectively in confined spaces while providing robust and reliable performance. The integrated mechanical overload protection system acts as a safeguard against exceeding the hoist's rated capacity, ensuring safety is always prioritized during use. Constructed from heavy-duty materials, this hoist remains durable even in the toughest conditions, making it an indispensable choice for rigging, construction, and other demanding tasks.
- 0.8-Ton Capacity with Overload Protection: Mechanical slip clutch prevents overload lifting, ensuring safety during operation.
- 5-Foot Lift Height: Ideal for precise lifting in confined areas, offering versatility in various environments.
- Heavy-Duty Steel Construction: Built to withstand tough operating conditions, ensuring longevity and reliability.
- Heat-treated Alloy Steel Load Chain: Provides enhanced strength and corrosion resistance, guaranteeing durability.
- Ergonomic Lever Handle: Features a comfortable grip for improved control and ease of use during operation.
- Quick-Change Load Direction: Facilitates easy switching between lifting and lowering, increasing efficiency.
- Forged Steel Swivel Hooks with Safety Latches: Offer secure and flexible rigging with 360° rotation capability for diverse applications.
Crafted for professionals who demand both power and precision, the Atlas ALH-008-05-OP lever hoist integrates state-of-the-art safety features, ensuring effective performance without compromising operator peace of mind. Durable, reliable, and compact, this hoist is your ultimate partner for efficient lifting solutions in various light-duty scenarios.