Lithium-ion battery solutions from QSLIFT
There are several energy solutions available when choosing an electric forklift.Lithium-ion batteries have become an increasingly popular power source. Lithium-ion batteries deliver maximum power all the time, regardless of how much charge is left, unlike lead- acid batteries where less charge affects speed and lifting capacity.
Advantages:
1.High Energy Density
The lithium-ion battery packs found in our forklifts have DOUBLE the energy density of a lead-acid battery that has the same dimensions. The voltage supply is also stable throughout the energy discharge. Both of these lead to longer run times for the end-user.
2. Efficiency
The Lithium-ion forklifts take 2 hours to fully charge compared to charging a lead-acid battery truck for 8-10 hours and allowing it to cool down for another 8-10 hours. The lithium-ion technology also allows for the trucks to run in three-shift environments thanks to opportunity charging. This allows the end-user to continuously run the forklifts for three shifts if they charge the battery during their breaks. The only way a lead-acid truck is able to run three shifts is by having three batteries and switching them out between shifts.
3. Maintainance Free
Lithium-ion battery packs do not require the manual maintenance that lead-acid battery packs do. For example, lithium-ion batteries do not need to be watered or have acid level checks performed. Because of this, our lithium-ion battery packs are virtually maintenance-free.
4.Beneficial to the Environment
Lithium-ion batteries do not release harmful emissions into the environment, use acid, and have twice the service life when compared to lead-acid powered forklifts. They are also substantially more efficient when charging and discharging and are completely recyclable. Because of this, lithium-ion batteries are extremely beneficial to the environment.
5.With safety Lithium Iron Phosphate Chemistry
The battery packs were designed to use Lithium Iron Phosphate (LiFePO4) chemistry. This chemistry has been proven to be both the safest and most energy-efficient chemistry currently found in lithium-ion technology. The chemistry is also stable and won’t react with the environment if the casing were to be punctured. Lithium Iron Phosphate chemistry ensures a safer operating environment.
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