Single Girder Aluminum Alloy Rail Crane
The single girder aluminum alloy rail crane is a kind of lifting equipment made of aluminum alloy materials. It has the characteristics of light weight and high strength. It consists of a single beam spanning the working area. A lifting mechanism is installed above the beam, which can realize functions such as lifting, transverse movement and positioning of goods.
Composition structure:
● The high-strength anodized aluminum alloy rail can be combined into different forms such as linear, curved, and circular as needed to realize linear or curved transportation of materials.
● The electric or pneumatic chain hoist is the lifting mechanism of the crane and can walk on the rail to lift and move materials.
● The trolley operating mechanism is the lateral moving mechanism of the crane, which can drive the rail to run along the rails suspended from the workshop structure or roof.
● The feeder is the power supply device of the crane, which can provide power to the rail and hoist.
● The electrical device is the control device of the crane, which can control various parts of the crane through buttons, remote control or automation system.
Main feature:
● The use of aluminum alloy materials greatly reduces the weight of the crane, thus improving the overall operating efficiency.
● Excellent strength and rigidity make the crane have high load-bearing capacity and stability.
● It has good corrosion resistance and can be used for a long time in humid and corrosive environments. It is suitable for chemical industry, food processing and other industries.
● The design can be customized according to the needs of the work area, and a variety of working modes and functions can be achieved.
● Good wear resistance and corrosion resistance, not easily affected by the external environment, reducing equipment maintenance and upkeep costs.
Single girder aluminum alloy rail crane can be widely used in automobile, electronics, food, pharmaceutical, machinery, chemical and other industries to improve production efficiency and safety.