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　　In container lifting operations, in order to reduce the sway of the container and improve the stability and safety of lifting, various anti-swing devices have emerged. The following are several common types of container slinging devices.

　　Mechanical anti-swing device is a relatively common type. Among them, a common one is a pulley-group anti-swing device. It converts the swing energy of the container into the stretching and contraction of the rope through the combination of pulleys and ropes, thereby achieving the effect of reducing shaking. Another type is a connecting rod anti-swing device, which uses the movement of the connecting rod mechanism to limit the swing amplitude of the container.

　　Hydraulic anti-shaking devices are also widely used. The reaction force is generated by the expansion and contraction of the hydraulic cylinder, which offsets the sway of the container. This device responds quickly and can adjust the anti-swing force in real time according to the container's swaying situation and control the swaying.

　　The electronic anti-shaking device uses sensors to detect information such as the sway angle and speed of the container, and then controls the relevant actuator through the control system to achieve anti-shaking. For example, some electronic anti-shaking devices can accurately adjust the posture of the spreader according to real-time data to achieve accurate anti-shaking.

　　In addition, there is a composite anti-shaking device that combines the advantages of multiple anti-shaking technologies. For example, combining mechanical structures with hydraulic systems, or integrating electronic controls with mechanical devices to achieve better anti-shaking effect.

　　Taking port lifting operation as an example, different types of anti-swing devices are suitable for different working conditions and lifting requirements. In large ports, due to heavy lifting tasks and high requirements for shaking reduction effects, electronic or composite shaking reduction devices are often used; in some small docks, mechanical shaking reduction devices with lower cost and simple maintenance may be selected.

　　In short, there are various types of anti-swing devices for container slings, and each type has its own characteristics and applicable scenarios. In practical applications, it is necessary to select a suitable anti-swing device according to the specific lifting needs and working environment to improve lifting efficiency and safety.

　　In container lifting operations, in order to reduce the sway of the container and improve the stability and safety of lifting, various anti-swing devices have emerged. The following are several common types of container slinging devices.

　　Mechanical anti-swing device is a relatively common type. Among them, a common one is a pulley-group anti-swing device. It converts the swing energy of the container into the stretching and contraction of the rope through the combination of pulleys and ropes, thereby achieving the effect of reducing shaking. Another type is a connecting rod anti-swing device, which uses the movement of the connecting rod mechanism to limit the swing amplitude of the container.

　　Hydraulic anti-shaking devices are also widely used. The reaction force is generated by the expansion and contraction of the hydraulic cylinder, which offsets the sway of the container. This device responds quickly and can adjust the anti-swing force in real time according to the container's swaying situation and control the swaying.

　　The electronic anti-shaking device uses sensors to detect information such as the sway angle and speed of the container, and then controls the relevant actuator through the control system to achieve anti-shaking. For example, some electronic anti-shaking devices can accurately adjust the posture of the spreader according to real-time data to achieve accurate anti-shaking.

　　In addition, there is a composite anti-shaking device that combines the advantages of multiple anti-shaking technologies. For example, combining mechanical structures with hydraulic systems, or integrating electronic controls with mechanical devices to achieve better anti-shaking effect.

　　Taking port lifting operation as an example, different types of anti-swing devices are suitable for different working conditions and lifting requirements. In large ports, due to heavy lifting tasks and high requirements for shaking reduction effects, electronic or composite shaking reduction devices are often used; in some small docks, mechanical shaking reduction devices with lower cost and simple maintenance may be selected.

　　In short, there are various types of anti-swing devices for container slings, and each type has its own characteristics and applicable scenarios. In practical applications, it is necessary to select a suitable anti-swing device according to the specific lifting needs and working environment to improve lifting efficiency and safety.