This Q43-1200 alligator scrap metal shear is suitable for working in the small and medium scaled metal processing factory, steel plant, scrap metal recycling place, etc. Popular among the customers from South Africa, this product has been ordered for times continuously by them.
In general, the hydraulic drive facilitates the automation of the machine. Depending on diversified control valves and especially the combination of hydraulic and electrical control, this alligator shear easily accomplishes complicated automatic working cycle. Additionally, the machine is operated through buttons with manual material feeding and automatic shearing. If you want learn more about this product, our specialized sales team will help you sincerely.
Press Scrap Force
Length Of Blade
Scrap Be cutted
Size of scrap be cutted
This Q43 series alligator shear is mostly applied in the metal recycled processing plant, disassembling field of scraped vehicles, smelting and casting fields and other industries. It is able to process the steel section in different shape and diversified waste structural metal like round steel, square steel, angle iron, I steel, plate steel and steel pipe into the qualified furnace charge through cold cutting. Added with appropriate devices, our product can work as the length shearing equipment for small sized steel section in rolling mill.
In the standard structure of the alligator shear, the mainframe and the hydraulic station are separated. Therein, the main frame is composed of cutting blade holder, blade moving bracket driven by shearing cylinder, holding plate driven by holding cylinder, adjusting device and so on. As for the small nonstandard machine, the mainframe and the hydraulic can be integrated together as customers require. Moreover, the clamping cylinder can be removed depending on the cutting conditions. Operation Mode
Special design is in consistent with customers' needs. This machine can apply manual feeding device, manual shearing system for single cutting or automatic continuous cutting system.