C-type NiMH explosion-proof battery: safe protection, excellent performance

In today's industrial field, safety is always the top priority. Especially in flammable and explosive environments, the safety of equipment cannot be ignored. Shenzhen Better Power Battery Co., Ltd., with its profound technical accumulation and innovative spirit, has launched a C-type nickel-hydrogen explosion-proof battery designed specifically for explosion-proof equipment. This battery not only inherits many advantages of nickel-hydrogen batteries, but also has a comprehensive upgrade in safety, becoming a reliable energy solution in high-risk environments.

• Advantages and characteristics of C-type NiMH explosion-proof batteries

(I) Excellent safety performance

1. Explosion-proof design: The Bettery C-type NiMH explosion-proof battery adopts a special explosion-proof structure. It has passed strict air tightness and pressure resistance tests to ensure that there will be no external explosion caused by chemical reactions inside the battery in flammable and explosive environments. Its shell can withstand rapid changes in internal pressure and can effectively isolate danger even in extreme cases.
2. Fire-retardant material: The battery shell is made of fire-retardant material, which can effectively prevent the spread of fire and protect the safety of equipment and personnel even in high temperature or flame environments.
3. Overcurrent protection: The built-in overcurrent protection device can automatically detect and cut off abnormal current to prevent safety hazards caused by short circuit or overload.
4. Temperature monitoring: Equipped with an advanced temperature monitoring system, it monitors the internal temperature of the battery in real time. Once the safety threshold is exceeded, the protection mechanism is automatically activated to ensure that the battery is always in a safe state.

(II) Efficient and stable energy output

1. High energy density: C-type NiMH explosion-proof batteries still have high energy density while ensuring safety, and can provide long-lasting and stable power support for explosion-proof equipment. Compared with traditional batteries, its energy density has increased by about 30%, and it can store more power in the same volume.
2. High current discharge capability: In response to the high power requirements of explosion-proof equipment, Bettery C-type NiMH explosion-proof batteries have excellent high current discharge performance. Even when running at high load, it can maintain a stable voltage output to ensure the normal operation of the equipment.
3. Low self-discharge rate: The self-discharge rate of this battery is extremely low, and even if it is idle for a long time, the power loss is extremely small. This is crucial for explosion-proof equipment that requires long-term backup to ensure that the equipment is always on standby.

(III) Long life and high reliability

1. Long cycle life: The cycle life of C-type NiMH explosion-proof batteries can reach 500-1000 times, which is much higher than that of ordinary batteries. This means that in industrial environments with frequent charging and discharging, the battery life is longer, reducing replacement costs.
2. High and low temperature resistance: Bettery C-type NiMH explosion-proof batteries can work stably in a wide temperature range of -20℃ to 60℃, and can maintain performance even in extreme environments. This provides a reliable energy guarantee for explosion-proof equipment operating in complex industrial environments.
3. Durability test: After rigorous durability testing, including environmental simulation tests such as vibration, impact, and salt spray, it ensures that the battery can operate stably under various harsh conditions and has extremely high reliability.

• Application fields of C-type NiMH explosion-proof batteries

(I) Explosion-proof intercom

1. In flammable and explosive environments such as petrochemicals and mining, explosion-proof walkie-talkies are an important tool for workers to communicate. Bettery C-type nickel-hydrogen explosion-proof batteries can provide stable power support for explosion-proof walkie-talkies, ensuring that communication equipment does not fail at critical moments. Its low self-discharge rate and long cycle life allow the walkie-talkie to be used at any time even if it is idle for a long time, ensuring the safety of personnel.

(II) Explosion-proof lamps

1. In dangerous environments, explosion-proof lamps are essential safety equipment. F-type nickel-metal hydride explosion-proof batteries can provide long-lasting and stable lighting for explosion-proof lamps. Their high energy density and high current discharge capacity ensure that the lamps can work for a long time even in high brightness mode. At the same time, the battery's safety design can effectively prevent safety accidents caused by battery failure and provide reliable lighting protection for workers.

(III) Explosion-proof handheld terminal

1. In industrial sites, explosion-proof handheld terminals are used for data collection, equipment inspection, and other tasks. Bettery F-type nickel-hydrogen explosion-proof batteries can provide efficient and stable power support for these devices, ensuring the normal operation of the equipment in complex environments. Its long life and low self-discharge rate reduce the maintenance and replacement frequency of equipment and improve work efficiency.

(IV) Explosion-proof handheld terminal

1. In high-risk places such as petrochemicals and coal mines, explosion-proof monitoring equipment is used to monitor on-site conditions in real time to ensure safety. F-type nickel-hydrogen explosion-proof batteries can provide reliable power support for monitoring equipment. Its high and low temperature resistance and long cycle life ensure that monitoring equipment can operate stably in various environments, providing strong protection for safety monitoring.

(V) Explosion-proof robot

1. With the development of industrial automation, explosion-proof robots are increasingly used in hazardous environments. Bettery F-type nickel-metal hydride explosion-proof batteries can provide efficient and stable power for explosion-proof robots. Their large current discharge capacity and long cycle life ensure that the robots can maintain good performance even in high-intensity operations. At the same time, the battery's safety design can effectively prevent safety accidents caused by battery failures, providing reliable protection for the operation of robots in high-risk environments.

• Conclusion

In the explosion-proof field, energy safety has never been a multiple-choice question, but a must-answer question. Shenzhen Bettery Battery Co., Ltd. uses F-type nickel-hydrogen batteries as a pen and innovative technology to write a high-scoring answer sheet - it not only continues the genetic advantages of nickel-hydrogen batteries with zero memory effect and wide temperature range adaptability, but also redefines the performance upper limit of explosion-proof batteries through high energy density architecture and multiple safety protections.
From the dark depths of underground mines to the high-risk environment of petrochemical plants, Bettery F-type nickel-hydrogen batteries are becoming the silent guardians behind explosion-proof equipment with the concept of "safety is the norm, long-term is the standard". We believe that true technological innovation is never limited to the improvement of parameter tables, but to ensure that every milliampere-hour of energy can be safely released at critical moments and the mission must be accomplished.
In the future, Bettery will continue to deepen the boundaries of nickel-hydrogen technology and explore more possibilities of explosion-proof energy with global partners - because a safe world requires smarter energy.