The workshop pillar mounted jib crane is a common lifting equipment and is widely used in industrial production and logistics fields. It consists of a column, a swing arm, a hook, a pulley block and other parts, and can be lifted, lowered and rotated electrically or hydraulically. This kind of crane can easily transport, load and unload materials in the workshop, improve production efficiency and reduce the labor intensity of workers.
Composition structure
● Column: It is the support structure of the pillar mounted jib crane, which is usually fixed vertically on the ground. It provides support and stability to the entire system and is responsible for bearing the weight of the boom and load.
● Jib Arm: It is a horizontal arm extending from the main column and is responsible for carrying the lifting mechanism and load. The length and configuration of the cantilever will be determined based on the specific job requirements and design.
● Electric Hoist: A hoisting mechanism mounted on a jib for lifting, lowering and traversing loads. It typically includes components such as electric motors, gear systems, brakes, and control systems.
● Slewing Mechanism: Allows the boom to swivel in the horizontal direction, thereby expanding the working range. This can be manual or electric, depending on the specific design and requirements.
● Control System: Used to control the movement of the electric hoist, including lifting, lowering, traversing and rotating functions. Control systems can be manual or automated, depending on the complexity of the equipment and the needs of the user.
Product advantages
● The structure is relatively simple and the connections between the components are compact, making it highly stable and reliable.
● It can be controlled by remote control or operating console, and the operation is simple and convenient, and easy to master.
● It is suitable for various working environments and material handling needs, and can achieve efficient and fast material handling and loading and unloading in the workshop.
● The use of advanced safety control technology can effectively avoid safety accidents caused by operating errors or equipment failures.
Design Features
● The columns are usually welded with H-shaped steel or steel pipes with high strength and good stability, and are anti-corrosion treated according to actual needs.
● When designing the swing arm, factors such as length, cross-sectional size, and bending angle need to be considered to ensure that it can stably carry heavy objects during lifting and rotation.
● When designing the hook, factors such as the material, cross-sectional size, and connection method of the hook need to be considered to ensure that it can safely and reliably carry heavy objects during use.
● When designing a pulley set, factors such as the material, size, and bearing type of the pulley need to be considered to ensure that it can rotate smoothly during use.
● The safety control design uses high-precision sensors and intelligent control systems to achieve precise control and adjustment and improve work efficiency and safety.