What are the benefits of a counterbalance forklift?
Save on fuel costs
Choose an electric counterbalance forklift if you’re worried about fuel costs. Electric counterbalance forklifts only need electricity to recharge the battery.
Extra safe
The counterbalance means that the forklift remains stable when carrying heavy loads. They significantly reduce the risk of toppling over, making it safer for your operators and staff.
Long lifespan
High-quality counterbalance forklifts have a long lifespan and won’t require frequent maintenance to keep in safe, working condition. Just a few small checks and procedures like replacing the engine oil will be enough to keep your truck safe and functional for years to come.
Versatile
Counterbalance forklifts are available in electric, gas and diesel variants, making them suitable for various applications. They can also be fitted with a wide selection of attachments, including clamps, rotators and carpet poles.
1. Pedal distributing of best angle
The electric 4 wheel counterbalance forklift truck is equipped with a surrounding type seat which is an ergonomic design. It allows for waist adjustment and helps the operator maintain proper driving posture.
2. Larger gradeability
The gradeability can be up to 15%. The climbing speed can be up to 4km/h even when fully loaded.
3. Cruising ability
The durable battery and improved performance and efficiency allocation can greatly increase the cruising ability of the forklift truck which means that the working period can be increased by 10%.
4. Faster moving speed
Fully loaded speed can be up to 14km/h.
5. High intensity overhead guard
The overhead guard is made of an irregular polygonal extruded material which delivers good compressive resistance and impact resistance in order to ensure the intensity of the overhead guard. Meanwhile, it can protect the driver from being hurt by falling materials.
6. High position steering node
The lateral moving is highly stable to reduce rollover.
7. Superior noise reduction technology
The reasonable distribution and design of the noise reduction technology effectively quiets the forklift.
8. Fully AC system
This truck has superior performance control. The motor is always maintenance free.
9. The battery can be loaded and unloaded at the side so that the time of changing battery can be effectively reduced and the working efficiency can be improved, especially for the working condition with higher working intensity. There are optional batteries such as FAAM and GS.
10. 70% of the truck adopts molded components which can ensure the reliability of the whole truck.
Technical data | ||||||||||
Manufacrurer | ANH | |||||||||
S.N | Description | Model | ||||||||
FE20 | FE25 | FE30 | FE35 | |||||||
Specification | 1.1 | Power Supply | Electric | Electric | Electric | Electric | ||||
1.2 | Operation type | Sitting on | Sitting on | Sitting on | Sitting on | |||||
1.3 | Rated load capacity | G | kg | 2000 | 2500 | 3000 | 3500 | |||
1.4 | Load center | C | mm | 500 | 500 | 500 | 500 | |||
1.5 | Front overhang | X | mm | 460 | 460 | 474 | 479 | |||
1.6 | Wheel Base | L1 | mm | 1520 | 1520 | 1620 | 1620 | |||
2.1 | Total weight | kg | 3700 | 4180 | 5100 | 5350 | ||||
2.2 | Axle | Load(Front/Rear) | kg | 5016/684 | 5920/760 | 7290/810 | 7965/885 | |||
2.3 | Unload(Front/Rear) | kg | 1628/2072 | 1780/2400 | 2450/2650 | 2420/2930 | ||||
Tyres/Chassis | 3.1 | Tyres | Pneumatic | Pneumatic | Pneumatic | Pneumatic | ||||
3.2 | Tyres | Front Tyres | 23×9-10-16PR | 23×9-10-16PR | 23×9-10-16PR | 23×10-12 | ||||
3.3 | Rear tyres | 18×7-8-14PR | 18×7-8-14PR | 18×7-8-14PR | 18×7-8-14 | |||||
3.4 | Tyres quantity | Front tyres(x=Drive tyres) | 2x | 2x | 2x | 2x | ||||
3.5 | Rear tyres | 2 | 2 | 2 | 2 | |||||
3.6 | Front Wheel distance-Front | W1 | mm | 1039 | 1039 | 1039 | 1057 | |||
3.7 | Wheel distance-Rear | W2 | mm | 989 | 989 | 989 | 989 | |||
Height | 4.1 | Tilting(Front/Rear) | α/β | Grad | 5/10 | 5/10 | 5/10 | 5/10 | ||
4.2 | Lifting height | H | mm | 3000 | 3000 | 3000 | 3000 | |||
4.3 | Free lift height | H1 | mm | 150 | 150 | 155 | 160 | |||
4.4 | Mast height | Mast closed | H2 | mm | 2055 | 2055 | 2055 | 2175 | ||
4.5 | Mast extended | H3 | mm | 3973 | 3973 | 4067 | 4072 | |||
4.6 | Overhead guard height | H4 | mm | 2140 | 2140 | 2140 | 2140 | |||
4.7 | Seat height | H5 | mm | 1100 | 1100 | 1100 | 1100 | |||
4.8 | Hitch pin height | H6 | mm | 290 | 290 | 290 | 290 | |||
4.9 | Overall length | With fork | L | mm | 3414 | 3414 | 3540 | 3545 | ||
4.10 | Without fork | L’ | mm | 2344 | 2344 | 2470 | 2475 | |||
4.11 | Overall width | with Dashboard width | W | mm | 1265 | 1265 | 1265 | 1300 | ||
4.12 | Chassis width | W’ | mm | 1190 | 1190 | 1190 | 1190 | |||
4.13 | Fork size(Length×width×thickness) | l×w×t | mm | 1070×120×40 | 1070×120×40 | 1070×125×45 | 1070×125×50 | |||
4.14 | Fork carriage standard | ISO2328 2A | ISO2328 2A | ISO2328 3A | ISO2328 3A | |||||
4.15 | Fork carriage width | W3 | mm | 1040 | 1040 | 1100 | 1100 | |||
4.16 | Fork width | Min | W4 | mm | 240 | 240 | 250 | 250 | ||
4.17 | Max | W5 | mm | 1040 | 1040 | 1100 | 1100 | |||
4.18 | Ground clearance | Mast | Unload/Load | H7 | mm | 125/110 | 125/110 | 125/110 | 125/110 | |
4.19 | Chassis width | Middle of Chassis | H8 | mm | 120 | 120 | 120 | 120 | ||
4.20 | Aisle width | 1000×1200 pallet horizontal ways | AST | mm | 3745 | 3745 | 3975 | 3980 | ||
4.21 | 800×1200 pallet horizontal ways | AST | mm | 3945 | 3945 | 4160 | 4165 | |||
4.22 | Turning Radidus | Min inside | Wa | mm | 2090 | 2090 | 2210 | 2210 | ||
4.23 | Min outside | r | mm | 110 | 110 | 110 | 110 | |||
Performance | 5.1 | Max Drive speed(Unload) | km/h | 15 | 15 | 15 | 15 | |||
5.2 | Max Lift speed(Loaded) | mm/s | 250 | 250 | 250 | 250 | ||||
5.3 | Lowering speed(Load/Unload) | mm/s | ≤600 | ≤600 | ≤600 | ≤600 | ||||
5.4 | Gradeability(Load/unload) | % | 15 | 15 | 15 | 15 | ||||
5.5 | Max pulling force for hook(load) | N | 14000 | 18000 | 23000 | 23000 | ||||
5.6 | Braking type | Hydraulic | Hydraulic | Hydraulic | Hydraulic | |||||
5.7 | Parking type | Mechanical | Mechanical | Mechanical | Mechanical | |||||
Electric Parts | 6.1 | Driving motor | kW | 12AC | 12AC | 15AC | 15AC | |||
6.2 | Lifting motor | kW | 12AC | 12AC | 12AC | 12AC | ||||
6.3 | Battery voltage/capacity | V/Ah | 48/500 | 48/500 | 80/500 | 80/500 | ||||
6.4 | Battery weight | kg | 930 | 930 | 1510 | 1510 | ||||
6.5 | Battery box size(Length×width×height) | l×b×h | mm | 970×570×730 | 970×570×730 | 970×670×730 | 970×670×730 | |||
6.6 | Energy consumption | 5.0 | 5.8 | 6.5 | ||||||
6.7 | Min battery weight | kg | 740 | 740 | 1200 | 1200 | ||||
6.8 | Max battery weight | kg | 1075 | 1075 | 1550 | 1550 | ||||
Others | 6.1 | Controller type | MOSFET/AC | MOSFET/AC | MOSFET/AC | MOSFET/AC | ||||
6.2 | Controller brand | ZAPI | ZAPI | ZAPI | ZAPI | |||||
6.3 | Controller model | ACE2 | ACE2 | ACE3+ACE2 | ACE3+ACE2 | |||||
6.4 | Hydraulic pressure | Mpa | 17.5 | 17.5 | 20 | 20 | ||||
6.6 | Noise | dB | 72 | 72 | 72 | 72 | ||||
6.8 | Hydraulic oil amount | liter | 28 | 28 | 38 | 38 |
Advantages of Counterbalance Forklifts
Lift a Wide Range of Weights
Counterbalance forklifts are the most common type of forklift with units designed and engineered to safely lift a wide range of weights ranging from 1.8T up to 48T.
The larger the lift capacity of the forklift the larger the size of the unit as the in-built counterbalance must be large enough to offset the weight of the loads being picked up by the tynes and prevent the units from tipping over.
Different Fuel Types
Another advantage of counterbalance forklifts is there are a variety of fuel types available to power them.
Fuel types include:
- LPG
- Petrol
- Diesel
- Battery Electric
The different fuel types available allow the unit to be customised to a particular application such as a diesel powered counterbalance forklift offers the necessary high power to lift and maneuver large heavy loads such as containers, whilst battery electric counterbalance forklifts are ideal for operating indoors where ventilation maybe a problem as they don’t emit any toxic emissions.
Increased Versatility with Added Attachments
Counterbalance forklifts add extra versatility to an operation as they can be fitted with a wide variety of attachments.
Attachments such as the examples below allow a counterbalance forklift to complete tasks it normally wouldn’t normally be able to complete thus increasing the units versatility.
- Clamps such as bale or paper rolls allow counterbalance forklifts to safely pick-up and lift baled or irregular shaped loads including cotton, wool bales or rolls of paper that can’t be picked-up or lifted using standard tynes
- Rotators and Bin Tippers allow counterbalance forklifts to pick-up, rotate and tip industrial bins safely and efficiently
- Carpet Poles are an attachment that fits over a counterbalance forklifts standard tynes and allows for long lengths of carpet, textiles or materials to be wrapped around the central pole for easy and safe transport.
Indoor and Outdoor Operation
Counterbalance forklifts can be fitted with a variety of different tyre options including non-marking, pneumatic, cushion and solid.
Depending on the application the best tyre option needs to be selected, for instance a forklift operating indoors in a warehouse may have non-marking tyres fitted so it doesn’t leave any marks on the warehouse floor during operations.
For counterbalance forklifts that operate outdoors pneumatic tyres may be fitted as they are heavy-duty, have deep treads in long lasting rubber that can withstand the harsher conditions of working outdoors across all.
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