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　　Hook is a pickup device on the hoisting equipment. When lifting an object, the hook is connected to the heavy object. After the lifting equipment is started, the hook has the force to lift heavy objects, so that the heavy objects can be safely transported to the designated area. It is conceivable that if there are no hooks on the lifting equipment, there may be a big problem when connecting the lifting equipment to the heavy objects that need to be lifted. In addition, in lifting heavy objects, the hook needs to be combined with the rigging of the lifting accessories to make the lifting process safer.

　　Crane is a very useful lifting device. Its work mainly depends on the hook in the lifting accessories, and then the work purpose is achieved through the mechanical operation of the crane. But we know that there is a very important relationship between the hook and the heavy object, that is, the bearing capacity of the hook must vigorously increase the weight of the heavy object, which is also the limitation of the use of the hook. Let’s learn more about it below.

　　The larger bearing capacity of the hook during operation is called a dangerous point, that is, the larger bearing capacity of the hook.

　　In most cases, in order to ensure the safe operation of lifting machinery, the actual ultimate bearing capacity will be measured and measured before the hook is used. The following is an explanation of the bearing capacity of the hook.

　　In the operation of the crane, its safety of its use is related to the safety of employees' lives and property, and the ultimate bearing capacity of the crane hook is a key indicator.

　　In order to ensure the safety and reliability of cranes during operation, many countries have formulated relevant technical standards or regulations for the design, manufacturing and use of hooks.

　　As time goes by, the strength and safety of the hook mainly depend on theoretical calculations and verification of finite element values. There is a lack of good evaluation methods for the actual ultimate bearing capacity of determined hooks, especially large rated hooks.

　　So it is difficult to determine the actual ultimate bearing capacity and safety factor of this type of hook.

　　The bearing capacity of the hook is related to the performance of the equipment and the safety of the operator, so its performance indicators require corresponding tests before normal construction is carried out.

　　Hook is a pickup device on the hoisting equipment. When lifting an object, the hook is connected to the heavy object. After the lifting equipment is started, the hook has the force to lift heavy objects, so that the heavy objects can be safely transported to the designated area. It is conceivable that if there are no hooks on the lifting equipment, there may be a big problem when connecting the lifting equipment to the heavy objects that need to be lifted. In addition, in lifting heavy objects, the hook needs to be combined with the rigging of the lifting accessories to make the lifting process safer.

　　Crane is a very useful lifting device. Its work mainly depends on the hook in the lifting accessories, and then the work purpose is achieved through the mechanical operation of the crane. But we know that there is a very important relationship between the hook and the heavy object, that is, the bearing capacity of the hook must vigorously increase the weight of the heavy object, which is also the limitation of the use of the hook. Let’s learn more about it below.

　　The larger bearing capacity of the hook during operation is called a dangerous point, that is, the larger bearing capacity of the hook.

　　In most cases, in order to ensure the safe operation of lifting machinery, the actual ultimate bearing capacity will be measured and measured before the hook is used. The following is an explanation of the bearing capacity of the hook.

　　In the operation of the crane, its safety of its use is related to the safety of employees' lives and property, and the ultimate bearing capacity of the crane hook is a key indicator.

　　In order to ensure the safety and reliability of cranes during operation, many countries have formulated relevant technical standards or regulations for the design, manufacturing and use of hooks.

　　As time goes by, the strength and safety of the hook mainly depend on theoretical calculations and verification of finite element values. There is a lack of good evaluation methods for the actual ultimate bearing capacity of determined hooks, especially large rated hooks.

　　So it is difficult to determine the actual ultimate bearing capacity and safety factor of this type of hook.

　　The bearing capacity of the hook is related to the performance of the equipment and the safety of the operator, so its performance indicators require corresponding tests before normal construction is carried out.