The 80 V / 271 Ah Li-Ion battery supplies the electric motors with energy and also improves your company's carbon footprint. The battery technology of the forklift truck provides many advantages. For example, a lithium-ion battery is more powerful than the frequently used lead-acid batteries. The energy density is many times higher, which leads to an increased runtime. In addition, the charging performance is much better. Thus, the charging of the powerful Li-Ion battery takes just 2.7 h. Another advantage is the low maintenance intensity. While lead-acid batteries require regular filling with distilled water, this is not necessary with lithium-ion batteries. Accordingly, with this battery technology you save both time and a costly and additional aquamatic system, which would also be prone to errors.
The 80 V / 271 Ah Li-Ion battery supplies the electric motors with energy and also improves your company's carbon footprint. The battery technology of the forklift truck provides many advantages. For example, a lithium-ion battery is more powerful than the frequently used lead-acid batteries. The energy density is many times higher, which leads to an increased runtime. In addition, the charging performance is much better. Thus, the charging of the powerful Li-Ion battery takes just 2.7 h. Another advantage is the low maintenance intensity. While lead-acid batteries require regular filling with distilled water, this is not necessary with lithium-ion batteries. Accordingly, with this battery technology you save both time and a costly and additional aquamatic system, which would also be prone to errors.
Use the latest battery technology, with the high-quality GSE35/5 and its powerful Li-Ion battery.
The robust front loader, also called counterbalance loader, gets its counterweight from the battery block. Both the motor and the battery are installed under the driver's seat to save space, thus creating the required low centre of gravity for ideal stability while lifting heavy loads. Goods up to 7,716 lbs are easily moved from A to B at a maximum speed of 8.7 mph. The electric forklift can be used loaded up to a gradient of 13 - 15 %.
The electronic drive is not only very quiet, but also energy-saving. The forklift is charged using the external 80 V, 100 A charger supplied. A complete charge of the electric forklift truck takes about 2.7 h. The current battery charge level can be easily read directly from the charger.
A 32 A / 380 V power socket is required for charging. The charger is connected to the forklift truck using the REMA320 adapter supplied. For fire safety reasons, it is important that the charger is stored on a non-combustible surface at all times (e.g. steel floor or concrete).
Thanks to the power-saving LED headlights and signal lights, working in darker hall areas is also possible.
Due to the electric drive and the small dimensions (48.86 in x 144.17 in x 97.05 - 234.61 in), the forklift truck is perfectly suited for indoor use, as it is emission-free and very quiet. Nevertheless, it is also at home outdoors to bring goods and merchandise safely to their destination.
It makes everyday work easier when loading and unloading trucks, containers and transporting goods.
The compact 3-fold telescopic mast stores goods steplessly up to a lifting height of 188.98 in. It extends in 3 steps with mast heights between 97.05 - 234.61 in. The small size of the vehicle with the telescopic mast retracted also makes it perfect for unloading inside a 40-foot high cube sea freight container.
Thanks to the rear steering, the GSE35/5 impresses with a small turning radius of 93.7 in, making it easier to work in confined spaces, such as between rows of racks. The travel path requires a minimum width of 159.94 in. The power steering integrated as standard enables the forklift truck to be manoeuvred with minimum effort.
Compared to conventional electric trucks with lead-acid batteries, the lithium-ion battery of the GSE35/5 offers many advantages. The charging time, for example, is much shorter. The charging efficiency is also much better. In addition, the number of possible charging cycles until the battery block is taken out of service and thus the service life increases considerably when a lithium-ion battery is used. The lithium-ion battery of the electric forklift truck also has a particularly high energy density. This is why the service life is also particularly long.
Another great advantage is that Li-Ion batteries are maintenance-free. This means that there is no need for the time-consuming filling of distilled water, which either costs a lot of time or requires an additional aquamatic system.
Entering the operator's cab is ergonomically designed, and with a non-slip step and grab handle, attention has also been paid to maximum safety in the design.
Lifting, lowering and tilting the forks is user-friendly via the levers next to the steering column. The width of the forks is adjusted manually on the fork mast. This makes the electric forklift truck an all-rounder that can be used for much more than just Euro pallets.
The steering wheel, with a diameter of 17.72 in, is equipped with a rotary knob for easy operation in confined spaces. The cabin can be easily adapted to the driver: Height-adjustable steering unit and the forward and rearward adjustable position of the driver's seat.
The seat belt, which is required by law, ensures safety while driving.
Also a plus in terms of safety: the all-round view via the curved rear-view mirror and the rear handle with horn function. The latter contributes to a stable sitting posture when reversing and ensures more driving comfort and safety. The arched shape of the canopy and grille struts with the right angle improves visibility upwards to the load. The display next to the steering column shows the battery level, speed and hour meter. The electric forklift is safely parked with the ratchet handbrake.
The weight of the forklift is evenly distributed on the 4 pneumatic rubber wheels. The front wheels (23X9-10-16PR) are larger than the rear wheels (18X7-8-14PR), which are controlled by the rear steering.
Notes:
There is no shopping basket discount for this article. The 10% reduction is already included in the price.
The forklift truck does not have road approval with the listed equipment. Such approval can be obtained by retrofitting the reflective coating, a warning bar and acceptance by an official testing authority.
Please inform yourself about the relevant regulations in the state of use before you operate the device. The user is responsible for initial operation and for selecting the appropriate personnel for this purpose.
The cost of a forklift battery varies wildly depending on the type of battery. For a lead-acid forklift battery, the cost is $2000-$6000. When using a lithium forkliftlithium forklift battery, the cost is $17,000-$20,000 per battery. However, while the prices may vary wildly, they do not represent the actual cost of owning either type of battery.
Determining the actual forklift battery cost requires understanding various aspects of the different types of batteries. A wise manager will carefully examine the underlying cost of owning either type before deciding. Here is the actual cost of a forklift battery.
In any warehouse operation, the significant cost is labor, measured in time. When you purchase a lead acid battery, you significantly increase the actual forklift battery cost. Lead-acid batteries require tons of man-hours per year per battery to ensure they operate correctly.
Additionally, each battery can only be used for around 8 hours. It must then be placed in a special storage area to charge and cool down for 16 hours. A warehouse that operates 24/7 would mean at least three lead-acid batteries per forklift daily to ensure 24-hour operation. Additionally, they would have to purchase extra batteries when some needed to be taken offline for maintenance.
That means more paperwork and a dedicated team to keep track of the charging, changes, and maintenance.
Lead acid batteries used in forklifts are massive. Consequently, the warehouse manager must sacrifice some storage space to accommodate the numerous lead-acid batteries. Additionally, the warehouse manager has to modify the storage space where the lead-acid batteries will be placed.
According to guidelines by the Canadian Center for Occupational Health and Safety, lead-acid battery charging areas must meet an extensive list of requirements. All of these requirements incur additional costs. It also requires specialized equipment to monitor and secure the lead acid batteries.
Another cost is the occupational risk associated with lead-acid batteries. These batteries contain liquids that are highly corrosive and airborne. If one of these massive batteries spills its content, the warehouse must shut down operations as the spill is cleaned. That would incur an additional time cost for the warehouse.
The initial lead-acid forklift battery cost is relatively low. However, these batteries can only handle up to 1500 cycles if adequately maintained. It means that every 2-3 years, the warehouse manager will have to order a fresh batch of these massive batteries. Also, they will have to incur an extra cost to dispose of the used batteries.
We have examined the actual forklift battery cost of lead-acid batteries. Here is a summary of how much it costs to use lithium batteries in the forklift.
One of the most significant advantages for a warehouse manager when using lithium batteries is the space they save. Unlike lead-acid, lithium batteries do not need special modifications to the storage space. They are also light and more compact, which means they occupy significantly less space.
One of the significant benefits of lithium batteries is the fast charging. When paired with the correct charger, a lithium charge can reach full capacity in about two hours. That comes with the benefit of opportunity-charging, which means workers can charge them during breaks.
Since the batteries do not have to be removed for charging, you do not require a separate crew to handle the charging and swapping of these batteries. Lithium batteries can be charged during 30-minute breaks by workers throughout the day, ensuring that the forklifts operate 24 hours a day.
A hidden forklift battery cost when using lead-acid batteries is energy wastage. A standard lead-acid battery is only around 75% efficient. It means you lose around 25% of all power purchased to charge the batteries.
In comparison, a lithium battery can be up to 99% efficient. It means that when you switch from lead-acid to lithium, you will immediately notice a double-digit reduction in your energy bill. Over time, those costs can add up, ensuring that it will cost less to own lithium batteries.
According to OSHA data, most lead-acid battery accidents occur during swaps or watering. By eliminating them, you eliminate a significant hazard from the warehouse. These batteries contain sulfuric acid, where even a tiny spill can lead to significant incidents at the workplace.
The batteries also carry an inherent risk of explosion. This is especially so if the charging area is not adequately ventilated. OSHA rules require that warehouses install hydrogen sensors and take various other measures to ensure the safety of workers.
If you operate in a cold or freezing warehouse, the actual forklift battery cost of using lead-acid batteries will become immediately apparent. Lead-acid batteries can lose up to 35% of their capacity at temperatures near freezing point. The result is that battery changes become more frequent. Additionally, it means you require more energy to charge the batteries. With a lithium battery, cold temperatures do not significantly impact performance. As such, you will save time and money on energy bills by using lithium batteries.
In the long run, installing lithium batteries will reduce the downtime for forklift operators. They no longer have to make detours to swap out batteries. Instead, they can focus on the core mission of the warehouse, which is to move goods from one point to another efficiently.
One of the many benefits of installing lithium batteries is that it improves a company’s competitiveness. While a company must keep short-term costs down, managers must also consider long-term competitiveness.
If it takes them twice as long to process goods at their warehouse, they will eventually lose out to the competition based on speed alone. In the highly competitive business world, short-term costs must always be weighed against long-term viability. In this scenario, failing to make the necessary upgrades now would mean they lose a significant portion of their potential market share.
Yes. For instance, ROYPOW offers a line of LiFePO4 Forklift Batteries that can be easily connected to an existing forklift. These batteries can handle up to 3500 charging cycles and have a 10-year lifespan, with a 5-year warranty. They are fitted with a top-of-the-line battery management system designed to ensure the optimal operation of the battery throughout its life.
As a warehouse manager, going lithium could be the wisest investment in the long-term future of an operation you ever make. It is an investment in reducing the overall forklift battery cost by looking closely at the actual cost of each type of battery. Within the lifespan of the battery, users of lithium batteries will recoup their entire investment. The in-built technologies of lithium technology are too great of an advantage to pass up.
Why choose RoyPow LiFePO4 batteries for material handling equipment
Lithium ion forklift battery vs lead acid, which one is better?
Are Lithium Phosphate Batteries Better Than Ternary Lithium Batteries?
Use the latest battery technology, with the high-quality GSE35/5 and its powerful Li-Ion battery.
The robust front loader, also called counterbalance loader, gets its counterweight from the battery block. Both the motor and the battery are installed under the driver's seat to save space, thus creating the required low centre of gravity for ideal stability while lifting heavy loads. Goods up to 7,716 lbs are easily moved from A to B at a maximum speed of 8.7 mph. The electric forklift can be used loaded up to a gradient of 13 - 15 %.
The electronic drive is not only very quiet, but also energy-saving. The forklift is charged using the external 80 V, 100 A charger supplied. A complete charge of the electric forklift truck takes about 2.7 h. The current battery charge level can be easily read directly from the charger.
A 32 A / 380 V power socket is required for charging. The charger is connected to the forklift truck using the REMA320 adapter supplied. For fire safety reasons, it is important that the charger is stored on a non-combustible surface at all times (e.g. steel floor or concrete).
Thanks to the power-saving LED headlights and signal lights, working in darker hall areas is also possible.
Due to the electric drive and the small dimensions (48.86 in x 144.17 in x 97.05 - 234.61 in), the forklift truck is perfectly suited for indoor use, as it is emission-free and very quiet. Nevertheless, it is also at home outdoors to bring goods and merchandise safely to their destination.
It makes everyday work easier when loading and unloading trucks, containers and transporting goods.
The compact 3-fold telescopic mast stores goods steplessly up to a lifting height of 188.98 in. It extends in 3 steps with mast heights between 97.05 - 234.61 in. The small size of the vehicle with the telescopic mast retracted also makes it perfect for unloading inside a 40-foot high cube sea freight container.
Thanks to the rear steering, the GSE35/5 impresses with a small turning radius of 93.7 in, making it easier to work in confined spaces, such as between rows of racks. The travel path requires a minimum width of 159.94 in. The power steering integrated as standard enables the forklift truck to be manoeuvred with minimum effort.
Compared to conventional electric trucks with lead-acid batteries, the lithium-ion battery of the GSE35/5 offers many advantages. The charging time, for example, is much shorter. The charging efficiency is also much better. In addition, the number of possible charging cycles until the battery block is taken out of service and thus the service life increases considerably when a lithium-ion battery is used. The lithium-ion battery of the electric forklift truck also has a particularly high energy density. This is why the service life is also particularly long.
Another great advantage is that Li-Ion batteries are maintenance-free. This means that there is no need for the time-consuming filling of distilled water, which either costs a lot of time or requires an additional aquamatic system.
Entering the operator's cab is ergonomically designed, and with a non-slip step and grab handle, attention has also been paid to maximum safety in the design.
Lifting, lowering and tilting the forks is user-friendly via the levers next to the steering column. The width of the forks is adjusted manually on the fork mast. This makes the electric forklift truck an all-rounder that can be used for much more than just Euro pallets.
The steering wheel, with a diameter of 17.72 in, is equipped with a rotary knob for easy operation in confined spaces. The cabin can be easily adapted to the driver: Height-adjustable steering unit and the forward and rearward adjustable position of the driver's seat.
The seat belt, which is required by law, ensures safety while driving.
Also a plus in terms of safety: the all-round view via the curved rear-view mirror and the rear handle with horn function. The latter contributes to a stable sitting posture when reversing and ensures more driving comfort and safety. The arched shape of the canopy and grille struts with the right angle improves visibility upwards to the load. The display next to the steering column shows the battery level, speed and hour meter. The electric forklift is safely parked with the ratchet handbrake.
The weight of the forklift is evenly distributed on the 4 pneumatic rubber wheels. The front wheels (23X9-10-16PR) are larger than the rear wheels (18X7-8-14PR), which are controlled by the rear steering.
Notes:
There is no shopping basket discount for this article. The 10% reduction is already included in the price.
The forklift truck does not have road approval with the listed equipment. Such approval can be obtained by retrofitting the reflective coating, a warning bar and acceptance by an official testing authority.
Please inform yourself about the relevant regulations in the state of use before you operate the device. The user is responsible for initial operation and for selecting the appropriate personnel for this purpose.
The cost of a forklift battery varies wildly depending on the type of battery. For a lead-acid forklift battery, the cost is $2000-$6000. When using a lithium forklift battery, the cost is $17,000-$20,000 per battery. However, while the prices may vary wildly, they do not represent the actual cost of owning either type of battery.
Determining the actual forklift battery cost requires understanding various aspects of the different types of batteries. A wise manager will carefully examine the underlying cost of owning either type before deciding. Here is the actual cost of a forklift battery.
In any warehouse operation, the significant cost is labor, measured in time. When you purchase a lead acid battery, you significantly increase the actual forklift battery cost. Lead-acid batteries require tons of man-hours per year per battery to ensure they operate correctly.
Additionally, each battery can only be used for around 8 hours. It must then be placed in a special storage area to charge and cool down for 16 hours. A warehouse that operates 24/7 would mean at least three lead-acid batteries per forklift daily to ensure 24-hour operation. Additionally, they would have to purchase extra batteries when some needed to be taken offline for maintenance.
The company is the world’s best lithium forklift battery companies supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.
That means more paperwork and a dedicated team to keep track of the charging, changes, and maintenance.
Lead acid batteries used in forklifts are massive. Consequently, the warehouse manager must sacrifice some storage space to accommodate the numerous lead-acid batteries. Additionally, the warehouse manager has to modify the storage space where the lead-acid batteries will be placed.
According to guidelines by the Canadian Center for Occupational Health and Safety, lead-acid battery charging areas must meet an extensive list of requirements. All of these requirements incur additional costs. It also requires specialized equipment to monitor and secure the lead acid batteries.
Another cost is the occupational risk associated with lead-acid batteries. These batteries contain liquids that are highly corrosive and airborne. If one of these massive batteries spills its content, the warehouse must shut down operations as the spill is cleaned. That would incur an additional time cost for the warehouse.
The initial lead-acid forklift battery cost is relatively low. However, these batteries can only handle up to 1500 cycles if adequately maintained. It means that every 2-3 years, the warehouse manager will have to order a fresh batch of these massive batteries. Also, they will have to incur an extra cost to dispose of the used batteries.
We have examined the actual forklift battery cost of lead-acid batteries. Here is a summary of how much it costs to use lithium batteries in the forklift.
One of the most significant advantages for a warehouse manager when using lithium batteries is the space they save. Unlike lead-acid, lithium batteries do not need special modifications to the storage space. They are also light and more compact, which means they occupy significantly less space.
One of the significant benefits of lithium batteries is the fast charging. When paired with the correct charger, a lithium charge can reach full capacity in about two hours. That comes with the benefit of opportunity-charging, which means workers can charge them during breaks.
Since the batteries do not have to be removed for charging, you do not require a separate crew to handle the charging and swapping of these batteries. Lithium batteries can be charged during 30-minute breaks by workers throughout the day, ensuring that the forklifts operate 24 hours a day.
A hidden forklift battery cost when using lead-acid batteries is energy wastage. A standard lead-acid battery is only around 75% efficient. It means you lose around 25% of all power purchased to charge the batteries.
In comparison, a lithium battery can be up to 99% efficient. It means that when you switch from lead-acid to lithium, you will immediately notice a double-digit reduction in your energy bill. Over time, those costs can add up, ensuring that it will cost less to own lithium batteries.
According to OSHA data, most lead-acid battery accidents occur during swaps or watering. By eliminating them, you eliminate a significant hazard from the warehouse. These batteries contain sulfuric acid, where even a tiny spill can lead to significant incidents at the workplace.
The batteries also carry an inherent risk of explosion. This is especially so if the charging area is not adequately ventilated. OSHA rules require that warehouses install hydrogen sensors and take various other measures to ensure the safety of workers.
If you operate in a cold or freezing warehouse, the actual forklift battery cost of using lead-acid batteries will become immediately apparent. Lead-acid batteries can lose up to 35% of their capacity at temperatures near freezing point. The result is that battery changes become more frequent. Additionally, it means you require more energy to charge the batteries. With a lithium battery, cold temperatures do not significantly impact performance. As such, you will save time and money on energy bills by using lithium batteries.
In the long run, installing lithium batteries will reduce the downtime for forklift operators. They no longer have to make detours to swap out batteries. Instead, they can focus on the core mission of the warehouse, which is to move goods from one point to another efficiently.
One of the many benefits of installing lithium batteries is that it improves a company’s competitiveness. While a company must keep short-term costs down, managers must also consider long-term competitiveness.
If it takes them twice as long to process goods at their warehouse, they will eventually lose out to the competition based on speed alone. In the highly competitive business world, short-term costs must always be weighed against long-term viability. In this scenario, failing to make the necessary upgrades now would mean they lose a significant portion of their potential market share.
Yes. For instance, ROYPOW offers a line of LiFePO4 Forklift Batteries that can be easily connected to an existing forklift. These batteries can handle up to 3500 charging cycles and have a 10-year lifespan, with a 5-year warranty. They are fitted with a top-of-the-line battery management system designed to ensure the optimal operation of the battery throughout its life.
As a warehouse manager, going lithium could be the wisest investment in the long-term future of an operation you ever make. It is an investment in reducing the overall forklift battery cost by looking closely at the actual cost of each type of battery. Within the lifespan of the battery, users of lithium batteries will recoup their entire investment. The in-built technologies of lithium technology are too great of an advantage to pass up.
Why choose RoyPow LiFePO4 batteries for material handling equipment
Lithium ion forklift battery vs lead acid, which one is better?
Are Lithium Phosphate Batteries Better Than Ternary Lithium Batteries?
For more lithium ion 100ah batteryinformation, please contact us. We will provide professional answers.