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The HZC-130 Bearing Inner Diameter Automatic Measuring Instrument is a specialized tool designed for precise measurement and classification of bearing inner diameters. It plays a crucial role in the inspection process, helping to build and manage a comprehensive bearing database. After measuring the inner diameter, the instrument performs precision-level sorting, stores data, displays results, and supports online data upload, enabling intelligent inventory management. This system not only improves accuracy but also enhances efficiency in bearing maintenance and repair processes.
The device is equipped with a conveyor line that streamlines operations, reducing manual effort and increasing productivity. The conveyor system includes a sturdy frame, a triple-speed chain drive, loading trays, and an advanced electrical control system. Its simple design ensures ease of use and reliable performance, making it ideal for industrial environments where speed and accuracy are essential.
In an intelligent bearing access system, the operation follows key principles to optimize warehouse management. First, the "first in, first out" principle ensures that older bearings are used before newer ones, preventing long-term storage issues. Second, the "shortest path" rule helps minimize travel distance during storage and retrieval, improving operational speed. Additionally, the system provides real-time inventory updates, ensuring that production is not disrupted due to stock shortages or delays.
The system is built around a three-dimensional library shelf, supported by a stacker and an integrated control system. This structure allows for efficient space utilization and automated handling of bearings. The shelves are constructed using high-quality standard profiles, arranged in two rows with a central tunnel for the stacker to move freely. The surface is coated for durability and protection against wear.
The roadway stacker serves as the core component of the intelligent bearing access system. Available in single-column and double-column designs, it can operate on straight, curved, or transfer routes. The stacker is composed of structural columns, beams, a load platform, a fork drive mechanism, frequency converter, laser positioning system, infrared communication components, guide rails, and a sliding contact line. These features ensure smooth, accurate, and efficient movement of bearings within the storage system.
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