A real-time monitoring device for the terminal load of a hoist skip

By using a real-time monitoring device for the terminal load of the skip in the hoist, and employing dual monitoring of hydraulic and mechanical weighing components, the problem of the inability to monitor the weight of ore in the skip in real time has been solved, ensuring the safety and reliability of the hoisting process.

CN224449950UActive Publication Date: 2026-07-03SHANDONG GOLD MINING XINHUI

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG GOLD MINING XINHUI
Filing Date
2025-07-21
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In existing technologies, when using skips in mining production, the existing technologies cannot monitor the weight of the ore inside the skip in real time, and safety cannot be monitored or guaranteed in real time.

Method used

A real-time monitoring device for the terminal load of a hoist skip is adopted, including a hydraulic monitoring component and a mechanical weighing component. Dual monitoring is achieved through hydraulic sensors and infrared sensors to ensure real-time monitoring and safety of the ore weight in the skip.

Benefits of technology

It enables real-time monitoring of the weight of ore in the skip, avoiding overloading and ore leakage, and improving the safety and reliability of the hoisting process.

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Abstract

A real-time monitoring device for the terminal load of a skip hoist, relating to the technical field of skip hoisting devices, solves the problem in existing technologies where the weight of ore inside the skip cannot be monitored in real time, thus compromising safety. The device includes a hoist, comprising a frame with a drive device, a drive sprocket, and a driven sprocket rotatably connected to it. A skip assembly is connected to the hoisting chain. The skip assembly includes a skip body and a suspension frame, the suspension frame being hinged to the hoisting chain. A suspension cylinder is installed between the suspension frame and the skip body, with its two ends hinged to both the suspension frame and the skip body. A monitoring piston is slidably connected inside the suspension cylinder, and a hydraulic pressure monitoring component is located beside the suspension cylinder. A mechanical weighing component is also installed at the bottom of the skip body. The beneficial effect is that dual monitoring via the hydraulic pressure monitoring component and the mechanical weighing component ensures the safety of the hoisting process.
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