JP3226500U - Metal tape for extending battery life and improving function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a metal tape capable of extending the life of a storage battery by suppressing oxidative deterioration of electrodes and electrolytes. SOLUTION: Resonating electromagnetic waves of 32 to 38 terahertz for 2 hours or more under a temperature condition of 20°C to 90°C on a metal tape containing a lot of free electrons such as aluminum, stainless steel, copper and titanium. Then, the metal tape 8 is used as a transfer radiator of the resonance electromagnetic wave 9. By attaching this metal tape to a storage battery, hydrogen bonds of the electrolyte solution 2 are broken and hydrogen ions 6 and electrons 7 are released, and oxidative deterioration of the electrodes 3 and 4 and the electrolyte solution is suppressed to extend the life of the storage battery. And improve the function. [Selection diagram] Figure 1

Description

The present invention extends the life of a storage battery by attaching a metal tape containing a large amount of free electrons such as aluminum, stainless steel, copper, titanium, etc., which is a transfer oscillator of resonance electromagnetic waves of 32 to 38 terahertz, to the storage battery. There is provided a metal tape for extending the life of a storage battery and improving its function, which can improve the above function.

Conventionally, a method of adding a substance having an effect of suppressing sulfation to an electrolytic solution has been proposed in order to extend the life of a lead acid battery.

Also, a device has been proposed in which a material that emits electromagnetic waves in a radiation region is attached to an electrode portion of a storage battery to activate the active material, thereby improving charging efficiency and extending the life of the storage battery.
Japanese Patent Laid-Open No. 2008-84804 JP-A-8-162147

Means for solving the problems

There are various types of storage batteries such as reacting active materials at electrodes or moving ions between electrodes in an electrolyte solution in which electrolyte is dissolved, but basically, redox reaction due to ionization tendency of metal is performed. It is used to charge and discharge.

In the lead-acid battery that is most often used, due to the sulfation phenomenon, a hard lump of lead oxide adheres to the negative electrode, the surface area of the negative electrode decreases, and lead dioxide of the anode falls off, resulting in a decrease in charge/discharge efficiency.

In addition, any type of storage battery has a problem that when it is used for a long period of time, the electrodes and the electrolytic solution are oxidized and deteriorated, and the charge and discharge efficiency is deteriorated.

Effect of devising

In order to solve such a problem, the present inventor uses a resonance electromagnetic wave of 32 to 38 terahertz to separate the hydrogen bonds of various substances including water and smooth the scattering of electrons by the resonance action. Was discovered and came to make the present invention.

In the present invention, the charging time can be shortened by breaking the hydrogen bond of the electrolytic solution by the resonance electromagnetic wave of 32 to 38 terahertz and releasing hydrogen ions and electrons to the electrolytic solution.

Further, when the metal tape for extending the life and improving the function of the present invention is attached to a storage battery and repeatedly charged and discharged, the deterioration of the electrode such as sulfation and the oxidative deterioration of the active material in the electrolytic solution are suppressed, which is effective. It is possible to increase the discharge amount and extend the life of the storage battery.

According to the present invention, it is possible to easily extend the life of a storage battery at low cost by extending the life of the storage battery which is a transfer oscillating body of resonance electromagnetic waves of 32 to 38 terahertz and attaching a metal tape for improving the function to the storage battery at low cost. Can be improved.

When the metal tape according to the present invention is used to extend the life of the storage battery and improve its function, the resonance electromagnetic wave of 32 to 38 terahertz emitted from the metal tape separates the hydrogen bond of the electrolytic solution and separates hydrogen ions and electrons. Discharge into electrolyte.

The hydrogen ions and electrons released into the electrolytic solution act to shorten the charging time during charging of the storage battery and to extend the discharging time or the use time during discharging.

Further, the electrons released by the separation of hydrogen ions reduce the oxidant adhering to the electrode due to the reduction effect and suppress the oxidative deterioration of the electrolyte of the electrolytic solution.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a vertical sectional view showing the concept of charging the metal tape for extending the life and improving the function of the storage battery of the present invention.
FIG. 2 is a vertical sectional view showing the concept of the discharging action of the metal tape for extending the life and improving the function of the storage battery of the present invention.

As shown in FIG. 1, the metal tape 8 for extending the life and improving the function of the storage battery of the present invention is attached to the body case 1 of the storage battery.

As the metal tape 8, a metal mainly containing a large amount of free electrons such as aluminum, stainless steel, titanium and copper is used as a tape-shaped resonant electromagnetic wave transfer member, and a method of attaching it to the storage battery case 1 is simple. In addition, it is also possible to use ceramics or ores that radiate the resonance electromagnetic wave 9 of 32 to 38 terahertz.

A resonance electromagnetic wave 9 of 32 to 38 terahertz is radiated from the metal tape 8, the hydrogen bond of the electrolytic solution 2 is broken, and the cations 6 and the electrons 7 are released to the electrolytic solution to assist charging during charging work. The charging time is shortened and the power supply required for charging is also reduced.

Further, during the discharge work for supplying power to the load, the cations 6 and the electrons 7 released into the electrolytic solution 2 prolong the discharge time or the use time.

Further, the electrons 7 emitted by the separation of hydrogen bond reduce the oxidizing substance attached to the electrode by the reduction effect, suppress the oxidative deterioration of the electrolyte of the electrolytic solution 2, and extend the life of the storage battery.

In addition, the metal tape 8 for extending the life and improving the function of the storage battery of the present invention can modify the electricity charged in the storage battery by suppressing the scattering of electrons, and the resistance due to the thermal vibration of the electricity emitted from the storage battery. Can be reduced and harmful electromagnetic interference can be suppressed.

When the battery life extension and function improving metal tape of the present invention was attached to the storage battery of the rechargeable vacuum cleaner equipped with the lithium ion battery, it was confirmed that the charging time was shortened and the usage time was extended by 30% or more.

Also, when the metal tape of the present invention was attached to the storage battery of the tablet terminal equipped with the lithium-ion battery and charged, the discharge time was confirmed to be extended by about 15%.

Industrially available fields

INDUSTRIAL APPLICABILITY The present invention can improve the charge/discharge efficiency of a storage battery, which is an indispensable element for the spread of electric vehicles, the spread of renewable energy, and the spread of smart grids, and can extend the life of the storage battery. it can.

1 shows a longitudinal section of the concept of charging action of a metal tape for extending the life and improving the function of a storage battery of the present invention. 1 shows a longitudinal section of the concept of discharge action of a metal tape for extending the life and improving the function of a storage battery according to the present invention.

1 Body case 2 Electrolyte 3 Anode 4 Cathode 5 Power supply 6 Active material cation 7 Electron 8 Metal tape for extending battery life and improving function 9 Resonance electromagnetic wave 10 Load

Claims (1)

By irradiating a resonant electromagnetic wave of 32 to 38 terahertz for 2 hours or more under a temperature condition of 20° C. to 90° C. onto a metal tape containing a large amount of free electrons such as aluminum, stainless steel, copper or titanium, the metal A metal tape for extending the life and improving the function of a storage battery, wherein the tape serves as a transfer radiator of the resonance electromagnetic wave.