Cause: The working principle of lead-acid batteries caused
The person who understands the Battery understands that the charging and discharging process of the lead-acid battery is a process of electrochemical reaction. When charged, lead sulfate forms lead oxide, and when discharged, lead oxide is reduced to lead sulfate. Lead sulfate is a substance that is very easy to crystallize. When the lead concentration in the electrolytic solution of the battery is too high or the static lead time is too long, small crystals will form, and these small crystals will attract the surrounding lead sulfate, just like Snowballs form large inertial crystals. After being charged, the crystallized lead sulfate can not only be reduced to lead oxide, but also deposited on the electrode plate, resulting in a decrease in the working area of ​​the electrode plate. This phenomenon is called vulcanization. At this time, the battery capacity will gradually decline until it cannot be used. When a large amount of lead sulfate is accumulated, the lead particles are also attracted to form a lead branch, and the lead bridging between the positive and negative electrode plates causes a short circuit in the battery. If there is a gap in the surface of the plate or in the sealed plastic case, the crystal of lead sulfate will accumulate in these gaps and cause expansion tension, eventually causing the plates to break off or the housing to rupture, causing physical damage to the irreparable battery. Therefore, the main mechanism leading to failure and damage of lead-acid batteries is that the battery itself cannot avoid vulcanization.
Treatment method: use a particle digital program-controlled repair instrument to remove vulcanization
Beijing Guoda Lianchuang Science and Technology Development Co., Ltd. uses the latest particle digital program control technology and international frontier theory, combined with the actual principles of lead-acid batteries, developed a new high-tech product "particles digital program-controlled repair instrument" that can make the sulfide battery back to life. It overcomes the defects of poor pulse recovery, short maintenance time, and the inability to adjust the ratio of the two lead dioxides. This technology is also a pioneering work in the history of battery repair and is at the forefront of today's repair industry. The particle digital program-controlled repair technology uses a microcomputer control module to automatically track and emit particles, emits particle beams to battery plates and sulfur compounds, and automatically detects the internal resistance of each battery, the size of sulfuric acid crystal particles, and the programmed programming of crystallization to eliminate vulcanization and crystallization. And promote the dissolution of large crystalline particles. Microcomputer control module can automatically adjust the ratio of two α. β lead dioxide to 1:1.25, only when α. β dioxide ratio reaches 1:1.25, the battery will show good performance, unique ion adsorption function, let The deionized active material is automatically restored. The technology uses a combination of detection methods to accurately determine the battery capacity and aging. The use of advanced particle-wave repair technology utilizes digital programmable particle-wave sweeping, scanning frequency and particle wave changes to find the resonance frequency of the lead sulfate crystal and generate particle waves (lossless repair) to generate resonance without damaging the electrode plate. It is converted into the most stable lead sulfate molecule, which is then micro-programmed and repaired so that it gradually decomposes and desorbs from the battery plate, and is converted into a free state and enters the electrolyte. Restored to the initial state of the battery by the authoritative department to detect the repair rate of 95%. As a result, the use of lead-acid batteries that are damaged due to vulcanization can be achieved. The technology also has several technical functions, including horizontal capacity enhancement, analog charging, micropore temperature balance, shock replenishment and so on.
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