1. Mechanical principle
Load-bearing capacity: The design of Double J Metal Hook must first ensure that it has sufficient load-bearing capacity. Through reasonable material selection and structural design, it can withstand the predetermined load and ensure safety in hoisting operations.
Stability: The shape and size design of the hook body should ensure stability during hoisting to avoid dangerous situations such as rollover or falling off.
2. Material selection
High-strength materials: Select high-strength, wear-resistant and corrosion-resistant materials to manufacture Double J Metal Hook, such as carbon steel and stainless steel. These materials can ensure that the hook body is not easily deformed or damaged during long-term use.
Galvanizing: In order to improve the corrosion resistance and service life of the hook body, Double J Metal Hook is usually galvanized. The galvanized layer can effectively prevent the hook body from being damaged by environmental factors such as oxidation and corrosion.
3. Functional requirements
Easy to connect: The design of Double J Metal Hook should be easy to connect with hoisting ropes, chains and other connectors to ensure convenience and efficiency in hoisting operations.
Easy to operate: The shape and size of the hook should be designed to facilitate the operator's operation, such as easy insertion, extraction, rotation, etc.
4. Safety considerations
Safety locking mechanism: In some special Double J Metal Hook designs, a safety locking mechanism will be equipped to prevent the hook from accidentally opening or falling off during the hoisting process.
Preventing misoperation: The design of the hook should be able to prevent the operator from misoperating, such as setting up anti-misoperation structures or signs.
5. Durability
Wear-resistant design: The contact surface of the hook is usually treated with wear resistance to increase its service life and reduce wear.
Anti-fatigue design: Through reasonable structural design and material selection, the Double J Metal Hook can resist fatigue damage in long-term hoisting operations.