News

　　As an important part of lifting equipment, the structural design of the container lifting equipment directly affects the safety and efficiency of lifting operations. This article will analyze the key components and functions of the container sling from the perspective of structural design, and provide reference for lifting equipment manufacturers and users. The core structure of a container sling usually includes a hanger, a hook, a locking device and a control system. The hanging frame is the main part of the spreader, which acts as connecting the crane and the load. Its design needs to be considered strength and stiffness to ensure that it does not deform or break during lifting. For example, hanging frames made of high-strength alloy steel can withstand large loads and extend service life.

　　The hook is a component that directly contacts the load, and its design needs to meet a variety of lifting needs. Common types of hooks include single hooks, double hooks and rotary hooks. For example, the rotary hook can automatically adjust the angle during lifting, reduce load shaking and improve operational stability.

　　The locking device is a key component to ensure load safety. It fixes the load on the spreader mechanically or hydraulically to prevent it from falling off during lifting. For example, a hydraulic locking device can provide uniform clamping force to accommodate loads of different shapes and weights. The control system is the "brain" of the container spreader, which is responsible for coordinating the movement of each component. Modern container spreaders are usually equipped with intelligent control systems that can achieve remote operation and automatic adjustment. For example, by real-time monitoring of load status by sensors, the control system can automatically adjust the angle and locking force of the hook to improve the working accuracy. In addition, the structural design of the container spreader also needs to consider the convenience of maintenance and use. For example, the modular design makes disassembly and replaceable spreaders more convenient, reducing maintenance time and cost. In general, the structural design of the container spreader reflects the combination of strength, flexibility and intelligence. For lifting equipment manufacturers and users, understanding its structural characteristics and performance advantages will help better select and use container spreaders and improve the safety and efficiency of lifting operations.

　　As an important part of lifting equipment, the structural design of the container lifting equipment directly affects the safety and efficiency of lifting operations. This article will analyze the key components and functions of the container sling from the perspective of structural design, and provide reference for lifting equipment manufacturers and users. The core structure of a container sling usually includes a hanger, a hook, a locking device and a control system. The hanging frame is the main part of the spreader, which acts as connecting the crane and the load. Its design needs to be considered strength and stiffness to ensure that it does not deform or break during lifting. For example, hanging frames made of high-strength alloy steel can withstand large loads and extend service life.

　　The hook is a component that directly contacts the load, and its design needs to meet a variety of lifting needs. Common types of hooks include single hooks, double hooks and rotary hooks. For example, the rotary hook can automatically adjust the angle during lifting, reduce load shaking and improve operational stability.

　　The locking device is a key component to ensure load safety. It fixes the load on the spreader mechanically or hydraulically to prevent it from falling off during lifting. For example, a hydraulic locking device can provide uniform clamping force to accommodate loads of different shapes and weights. The control system is the "brain" of the container spreader, which is responsible for coordinating the movement of each component. Modern container spreaders are usually equipped with intelligent control systems that can achieve remote operation and automatic adjustment. For example, by real-time monitoring of load status by sensors, the control system can automatically adjust the angle and locking force of the hook to improve the working accuracy. In addition, the structural design of the container spreader also needs to consider the convenience of maintenance and use. For example, the modular design makes disassembly and replaceable spreaders more convenient, reducing maintenance time and cost. In general, the structural design of the container spreader reflects the combination of strength, flexibility and intelligence. For lifting equipment manufacturers and users, understanding its structural characteristics and performance advantages will help better select and use container spreaders and improve the safety and efficiency of lifting operations.