Belt conveyor modules, with their long stroke, high speed, and strong adaptability, have been widely
applied in the two core sub-sectors of new energy lithium batteries and photovoltaics, adapting to the
special operating conditions of automated production lines in these industries:
I. Core Application Scenarios
1. Lithium Battery Manufacturing: GLTH series belt conveyor modules can be used in electrode cutting and
winding processes, achieving a positioning accuracy of ±0.005mm and increasing production efficiency by 2
0%. Long-stroke belt conveyor modules can cover large-span workstations of 3-4 meters, replacing screw
modules to achieve stable long-distance transport of cells and modules, avoiding the problems of sagging
and high splicing costs associated with long-stroke screw modules, and meeting the 24-hour continuous
operation requirements of lithium battery production lines.
2. Photovoltaic Manufacturing: LGCW belt conveyor modules can be used in silicon wafer sorting equipment,
with operating speeds up to 1.5m/s, increasing capacity by 40%. In processes such as module lamination,
stringing, and testing, specially modified polyurethane belt conveyor modules can withstand high tempera
tures and are anti-static, preventing scratches on battery cells, reducing breakage rates, and improving prod
uction line yield. 3. New Energy Vehicle Supporting Scenarios: In long-distance conveyor stations on autom
otive assembly lines, belt conveyor modules can achieve stable conveying of single-segment lengths of up
to 10 meters at speeds up to 2 m/s. No intermediate support structures are required, resulting in a 30% cost
reduction compared to screw conveyor modules. This meets the transportation needs of large components
in new energy vehicles.
II. Industry-Specific Technical Requirements: The new energy industry has specific requirements for belt
conveyor modules: they must possess a cleanliness level of Class 10 or higher to prevent dust contaminati
on of battery cells and photovoltaic panels; some special operating conditions involving dust and gases
require the use of explosion-proof motors meeting the Ex d IIB T4 Gb explosion-proof rating; and they must
support customized adjustments for strokes from 0.5m to 20m and loads from 5kg to 500kg to adapt to the
production needs of different specifications of new energy products.
