Le bloc de grue is an unsung hero of the lifting world. Nestled at the end of the hoist ropes or chain, this deceptively simple-looking assembly is the critical link between your crane and the load. Choosing the right type isn’t just about efficiency; it’s paramount for safety and operational success. But with various designs available, how do you know which bloc de grue is right for your application? Let’s break down the main types.
Description: The most basic type, featuring one sheave (pulley wheel) and a single hook.
Function: Designed for straightforward lifts with a single part of line. The rope runs over the sheave and directly to the winch drum.
Applications: Ideal for lighter loads, simple hoists, jib cranes, or situations where minimal height loss is critical. Often seen on monorails or smaller electric chain hoists.
Advantages: Compact, lightweight, simple design, cost-effective, minimal headroom required.
Disadvantages: Limited mechanical advantage (no reeving multiplier), suitable only for lighter capacities.
Description: The workhorse of the industry. Features multiple sheaves (typically 2, 3, 4, 6, or more) arranged in a frame, with a central hook. The rope is “reeved” through the sheaves multiple times.
Function: Provide significant mechanical advantage. The number of “parts of line” (the number of rope segments supporting the load) is determined by how the rope is threaded through the block’s sheaves and the crane’s upper sheaves (the fixed block). More parts of line mean the hoist motor/drum bears less force to lift the same weight, allowing lifting of heavier loads with a smaller motor/rope.
Applications: Extremely versatile. Used on virtually all types of cranes (overhead bridge cranes, gantry cranes, tower cranes, mobile cranes) for medium to very heavy lifting. The number of sheaves is chosen based on the required load capacity and the desired lifting speed/hoist power.
Advantages: High mechanical advantage, suitable for heavy loads, widely available, various configurations.
Disadvantages: Larger and heavier than single sheave blocks, require more headroom, reeving can be more complex.
Description: Incorporate a bearing mechanism between the hook and the block frame, allowing the hook (and attached load) to rotate freely 360 degrees.
Function: Prevents the load from inducing twist into the hoist ropes when it naturally wants to spin. This is crucial for loads that are unbalanced, long, or prone to rotation (like pipes, machinery, or fabricated structures).
Applications: Lifting long beams, pipes, coils, pre-cast concrete elements, machinery, or any load susceptible to twisting. Essential for preventing dangerous rope spin-up and uncontrolled load rotation.
Advantages: Enhances load control and stability, reduces rope wear from twisting, improves safety during rotation-critical lifts.
Disadvantages: More complex and expensive than fixed hook blocks, requires periodic bearing maintenance.
Description: Le grue is rigidly fixed to the block frame and cannot rotate independently.
Function: Provides a stable, non-rotating connection point. Relies on the natural twist of the hoist ropes or external tag lines to control load rotation if needed.
Applications: Lifting balanced loads unlikely to spin (like palletized goods, containers, balanced machinery bases), or in systems specifically designed to manage rotation via other means. Commonly found on many standard multi-sheave blocks.
Advantages: Simpler design, generally more robust and lower cost than swivel types, less maintenance.
Disadvantages: Unsuitable for loads prone to twisting, can cause dangerous rope spin-up if the load rotates unexpectedly.
Description: Designed for unique or demanding applications.
Examples:
Foundry Hooks/Blocks: Heavily heat-shielded and constructed with materials resistant to radiant heat and splashes, often with larger throat openings.
High-Capacity Blocks: Engineered for extreme loads (hundreds or thousands of tons), featuring massive sheaves, specialized bearings, and reinforced frames.
Low-Headroom Blocks: Designed with a very compact profile (Par exemple, using side plates instead of top/bottom plates) to maximize lift height in constrained spaces.
Twin Hook Blocks: Feature grue double on a single block, allowing for balanced lifting of longer loads or simultaneous handling of multiple items (within strict load distribution limits).
Electrically Rotating Hook Blocks: Incorporate a motorized gear drive for powered rotation, offering precise load positioning control.
Load Capacity (SWL – Safe Working Load): MUST exceed the maximum intended load, including rigging weight. Never exceed the rated capacity stamped on the block.
Number of Sheaves & Reeving: Dictates the mechanical advantage and compatibility with your crane’s hoist system (rope size, drum capacity, required parts of line).
Headroom: The physical height of the block impacts how high you can lift the load within your crane’s available hook height.
Rotation Requirement: Does the load need to rotate freely (swivel block), be prevented from rotating (anti-rotation), or be power-rotated? Choose accordingly.
Environment: Consider heat (foundry), corrosion (marine/chemical), abrasion, or explosive atmospheres. Select appropriate materials, coatings, or specialized designs.
Hook Size & Ouverture de la gorge: Must accommodate the slings, shackles, or lifting devices you plan to use and fit around the load.
Conformité: Ensure the block meets relevant safety standards (Par exemple, ASME B30.10, OSHA regulations, CMAA specs).
Always inspect your bloc de grue thoroughly before every use. Look for cracks, déformation, excessive wear on sheaves or hooks, damaged bearings (in swivel blocks), cassé Latch de sécurité à crochet de grue, or missing/corroded capacity tags. Regular preventive maintenance and professional inspections according to the manufacturer’s guidelines and regulations are non-negotiable for safe operation.
From the simple single sheave to complex multi-sheave rotating giants, the right bloc de grue is fundamental to safe and efficient lifting. Understanding the different types – single, multi-sheave, swivel, anti-rotation, and specialty blocks – empowers you to make the correct selection for your specific crane and lifting task. Prioritize capacity, functionality, environment, and above all, safety. When in doubt, consult with crane and rigging specialists to ensure you have the optimal bloc de grue for the job.
Nous apprécions vos commentaires! Veuillez remplir le formulaire ci-dessous afin que nous puissions adapter nos services à vos besoins spécifiques.
Cliquez sur le bouton pour obtenir des informations et des citations de produits sur WhatsApp.
Obtenez un devis
Dernières commentaires