Hawk Forklift 8PzS480 Battery 48V Hybrid Electric Forklift CPD15L-A1
15500 - 16000 /Bag
Min.Order:1 Bag
Beijing Lusheng Power Equipment Co., Ltd
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HAWKER | Hawk Forklift Battery
HAWKER | The traction battery produced by Hock Power Supply Co., Ltd. is currently technologically advanced and widely used in the industry. Many famous brand manufacturers, such as forklifts, locomotive tractors, electric cleaning vehicles, and electric tour buses, use HAWKERPZS traction batteries. Compliant with DIN standards, mainly equipped with European standard forklifts such as LINDE, HANGCHA, JUNGHEINRICH, HYSTER, BT, STILL, etc. Compliant with JIS/BS standards, mainly equipped with JIS/BS standard forklifts such as NICHIYU, TOYOTA, TCM, KOMATSU, SHINKO, NISSAN, etc.
Monomer structure
HAWKERPZS traction batteries use mature tubular positive electrode plate technology. The positive electrode plate adopts a die-casting grid, and the active substance is stored in a polyester material exhaust pipe; The negative electrode plate uses a reinforced plate type electrode plate. There are multiple micropores and a raised diaphragm on one side between the positive and negative plates. The battery cell shell is made of high impact and high-temperature resistant polypropylene material, and the shell cover adopts a heat sealing process to prevent electrolyte leakage.
Pole terminal
Each positive and negative terminal is cast with lead alloy and copper core terminals with internal threads. The combination of the pole and the compressed sealing ring can effectively prevent electrolyte leakage.
Battery single cell connection strip
The battery cells are connected using fully insulated halogen-free soft connection strips. The method of fixing the connection strip with bolts can make it simple and fast to remove individual units from the battery pack for maintenance or replacement.
safety valve
Each battery cell is equipped with a safety valve to prevent the gas generated during the charging process from escaping. The safety valve can be used to add pure water and measure the specific gravity of the electrolyte. The safety valve also has a baffle for the battery to prevent electrolyte surge. Battery cover
There is a design on the battery cover that allows for the installation of electrolyte agitation systems or temperature sensors after punching holes.
Hawkerpzs Aquatic centralized automatic water adding system
The Hawkerpzs Aquatic centralized automatic water adding system can complete the water addition of all battery cells in the battery pack from the center point of the battery system. The water safety valve of the system, as shown in the previous figure, can automatically maintain the optimal liquid level of the battery cell, while also allowing the gas generated during the charging process to escape and the operation of measuring the specific gravity of the electrolyte.
Electrolyte agitation system
The Hawkerpzs electrolyte circulation stirring system adopts the principle of air lifting and operates using a pipeline system installed on the battery. The diaphragm pump blows low-speed airflow into the battery, allowing the airflow to circulate within the battery casing. This system can effectively prevent electrolyte stratification and ensure charging optimization.
advantage
● Has higher capacity in the same external dimensions
● Higher discharge efficiency
● Longer running time and higher reliability
Effectively integrating DIN and BS standards from European standards in terms of capacity and size
HAWKERPZS traction battery with charged electrolyte stirring system
● Avoid electrolyte and temperature stratification during partial or full charging process
Optimize the acceptance process of charging the positive and negative plates of the battery, so as to ensure consistent load-bearing capacity of the positive and negative plates
Compared to traditional charging methods, it reduces charging time by 30% and energy consumption by 20%
● Avoid electrolyte and temperature stratification during partial or full charging process
Optimize the acceptance process of charging the positive and negative plates of the battery, so as to ensure consistent load-bearing capacity of the positive and negative plates
Compared to traditional charging methods, it reduces charging time by 30% and energy consumption by 20%