The invention relates to the technical field of hoisters, in particular to an intelligent hoister control positioning method and system, parameter setting is adjusted through a control system module, upper limit points A and B, lower limit points C and D and the running speed corresponding to each point are set, when a servo motor runs upwards to the point B, the highest running speed is reduced to the set speed of the point B, and the speed of the servo motor is reduced to the set speed of the point B; when the servo motor continues to run upwards to the point A, the servo motor can be set to stop or slow, when the servo motor runs downwards at the point A or the point B, the speed is not limited, when the servo motor runs downwards to the point C, the highest running speed is reduced to the set speed of the point C, when the servo motor continues to run downwards to the point D, the servo motor can be set to stop or slow, and when the servo motor runs downwards to the point D, the speed is not limited. And during upward operation, the speed is not limited, and a grounding rebound mechanism is triggered through the weight data variation and the comparison position. Therefore, the impact of the load on mechanical limiting and the ground can be prevented, and the device is suitable for diversified and efficient production.
本发明涉及提升机技术领域,具体涉及一种智能提升机控制定位方法以及定位系统,通过控制系统模块调整参数设置,设定上限位A点、B点,下限位C点、D点,以及每点所对应的运行速度,当伺服电机向上运行到B点时,最高运行速度降到设定的B点速度,当继续向上运行到A点时,可以设定为停止或更慢,当伺服电机在A点或B点时,向下运行时,速度不会受限,当伺服电机向下运行到C点时,最高运行速度降到设定的C点速度,当继续向下运行到D点时,可以设定为停止或更慢,当伺服电机在C点或D点时,向上运行时,速度也不会受限,并通过重量数据变化量以及对比位置来触发触地反弹机制。由此可防止负载对机械限位及地面冲击,适用多元化、高效生产。
Intelligent elevator control positioning method and positioning system
一种智能提升机控制定位方法以及定位系统
2024-09-06
Patent
Electronic Resource
Chinese
IPC: | B66C Krane , CRANES |
ELEVATOR POSITIONING SYSTEM AND METHOD CONTROLLING SUCH ELEVATOR POSITIONING SYSTEM
European Patent Office | 2022
|