Customized High Temperature Resistant Rail Transfer Cart - Vacuum Furnace Mold Handling New Scheme
Large metallurgical enterprises have long faced the problem of mold loading and unloading in vacuum furnace workshops: the ultra - high temperature of over 1000°C in the furnace makes traditional equipment vulnerable, and manual handling is inefficient and poses a risk of scalding.
Aiming at this pain point, our company has designed this safety sliding line powered rail transfer cart for it to create a fully automated loading and unloading system.
The size of the rail transfer cart is about 8000×5000×2500mm. It adopts a box girder cast steel frame, and the three - layer modular structure is precisely adapted to the vacuum furnace operation scene:
The bottom rail transfer cart realizes unlimited distance power supply through a sliding contact line and a current collector. The cast steel wheels and high - temperature resistant cable drag chain ensure stable lateral movement under high temperature and heavy load.
The middle extension rail can flexibly adjust the stroke of 1.5m through a hydraulic lifting rod, flexibly scheduling the use range of the transfer cart.
The upper traction trolley is equipped with a wireless remote control system, which is controlled by intelligent coding. Through rail docking, the mold docking accuracy reaches ±2mm.
Special customized accessories directly hit the customer's pain points:
The LED display realizes human - machine isolation and status monitoring, reducing 90% of manual intervention.
The design of the automatic tractor and the extended table supports the rapid loading and unloading of 5 - ton molds, increasing the efficiency by 3 times.
Adaptability Summary
Through the design of "unlimited power supply + modular structure", this rail transfer cart has the characteristics of heavy load, high temperature resistance and intelligence, and is especially suitable for:
Extreme high - temperature scenarios such as vacuum furnaces and smelting furnaces.
Handling of molds/heavy workpieces requiring high - precision positioning.
Intelligent workshops pursuing unmanned upgrades.
