On-site Issues:
For the purposes of production monitoring and sales accounting, the cement plant has high requirements for the measurement accuracy of belt scales and requires the measurement data to be uploaded for remote viewing by leaders. Given the slightly steep inclination angle of the on-site belt conveyor, based on the production process, material characteristics, and customer needs, the company developed a single high-precision belt scale product solution for the customer.
Installation and Commissioning:
The installation of two M1 high-precision belt scales proceeded smoothly, with the installation and wiring of both belt scales completed quickly. The instruments were installed using a hanging method. Since the on-site belt had not yet been installed, on-site commissioning was not possible at that time. After communicating with the person in charge of the customer's production site, the after-sales engineer decided to train the relevant personnel first. The personnel were already able to operate, use, debug, and calibrate the belt scales. After the on-site belt was installed, remote video guidance would be provided for on-site commissioning.
Product Advantages:
The high-precision belt scale adopts a modular combined structure with a simple scale frame and no redundant movable mechanical parts. It is also very lightweight, making installation, debugging, and maintenance simple and convenient, and eliminating the need for daily cleaning and other maintenance tasks. The M1 high-precision belt scale is equipped with four high-precision load cells, exhibiting good repeatability, non-linearity, and hysteresis, as well as strong anti-interference capabilities, enabling it to achieve high-precision measurement accuracy and meet the application requirements of steep-inclination conveyors.
Customer Feedback:
The after-sales service was prompt, and the after-sales personnel were highly professional. Currently, the final commissioning of the two belt scales has been completed. Based on the on-site application results, they demonstrate high accuracy, minimal zero-point fluctuations, and simple and convenient operation, as evidenced by the ability of on-site operators to quickly and accurately complete debugging.
