Analysis of the force distribution of gondola

What is the analysis of the force distribution of the electric gondola.

The front beam of the  gondola is located on the front bracket of the suspension mechanism, and the connection between the saddle and the front beam of the front bracket is two M14 bolts. The support of the lifting part of the front bracket is still supported by two M14 bolts. The front beam and the front bracket If the two M14 bolts can bear the force evenly, then look forward from the load-bearing chain. There is no problem on the entire force chain of the electric gondola, but it is limited by the machining accuracy. The actual force of the bolts at these two places is only the load carried by one bolt of M14. Due to the connection between the safety rope and the gondola frame, the ropes are all arranged with a diameter of not less than φ13mm through the length of the steel rope. It is the use of the safety rope that guarantees the stability of the gondola.

We use the wire rope to get out of the bottom of the hanging basket and the safety rope is locked. There is a lifting amount of no more than 1m per card. If the electric hanging basket comes off from the load-bearing steel rope or steel chain link, the safety rope will be used to hang the crane. The role of the basket. If reinforced chain rods are used as load-bearing suspension rods, first hang the safety rope and reinforced chain rods on the fixed roof pick beam, then hang the inverted chain on the upper and lower parts of the reinforced chain rods to hang the hanging basket, Use the chain to lift. Because of the limited chain travel, the chain needs to be reversed multiple times during the lifting process, and the chain is manually raised and lowered by this relay.