JPH10241728A - Electrolyte for storage battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrolyte which cause no pollution at the time of dumping by extracting water, contained within the growth process of a plant, from the plant, and using extracted vegetable monomolecular water as a storage battery electrolyte. SOLUTION: Water, existing within the growth process of a plant, is extracted by an organic solvent such as alcohol or by pressurization or decompression or water, which emanates from the leaf and stem, etc., of the plant, is collected naturally or half-forcibly. A solution 1, composed of vegetable monomolecular water thus obtained, is stored in a vessel 2 to be adopted as an electrolyte, and positive and negative electrodes 3a and 3b composed of lead dioxide and lead respectively, are provided oppositely in the solution 1 to be adopted as a storage battery. Moreover, the powder, etc., of a mineral having a far-infrared radiation wavelength such as tourmaline, granite, diamond, quartz crystal, pearl and sodium alginate may be added to the vegetable monomolecular water. This provides an electrolyte for prolonging the long life time of a storage battery.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolyte for a storage battery which can be used repeatedly by charging.

[0002]

2. Description of the Related Art Sulfuric acid is generally used for storage batteries, and inorganic mineral acids are used for others. As the former sulfuric acid, 27% by volume and 38% by weight diluted sulfuric acid having a specific gravity of 1.28 at 20 ° C. is used. When used in storage batteries, the sulfuric acid in the electrolyte is combined with the plates by discharging, and both plates become lead sulfate, and the hydrogen content of the sulfuric acid combines with the oxygen in the anode plate to form water and make sulfuric acid thin. Discharge decreases. When the discharge decreases, the function cannot be sufficiently exhibited, so that the battery is charged to recover the performance.

[0003]

As described above, since the discharging / charging is used many times, each part does not always perform its function sufficiently, and the life of the storage battery is shortened by various accidents. In addition, when the battery is aged and discarded, the harmful metals such as the electrodes as well as the electrolytic solution are dissolved, so that the disposal process may cause pollution.

[0004]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned disadvantages and to provide an electrolyte for a storage battery capable of prolonging the life of the storage battery and minimizing the cause of pollution at the time of disposal. Things. Extract the water present in the growth process of the plant from the plant with an organic solvent such as alcohol or by applying pressure and pressure, or collect the water emanating from the leaf stem of the plant naturally or semi-forcedly. The plant monomolecular water that is to be used alone or in the plant monomolecular water
Natural stones such as granite, diamond, crystal, pearl, etc., ceramics, shells, corals, etc., mixed with powdered or granular or tablet additives of minerals having far-infrared wavelengths, or plant-based It is obtained by adding sodium alginate to molecular water and adding the above-mentioned additives, and further adding an additive or the like to vegetable monomolecular water by adding an enzyme.

[0005]

[Function] When used as an electrolyte, vegetable monomolecular water does not oxidize the metal surface, so it always activates the electrode. In addition, self-renewal is carried out more strongly by additives, and discharge is performed permanently, so it will not be charged forever. And the waste liquid does not cause pollution.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. (Embodiment 1) In the drawing, reference numeral 1 denotes a solution composed of plant monomolecular water extracted from a plant by pressurizing water existing in a growing process of the plant, and is provided in a container 2 as an electrolytic solution. 3
Is an electrode, which is composed of an anode 3a made of lead dioxide and a cathode 3b made of lead, and provided in the vegetable monomolecular water 1 so as to face each other. In use, the surface of the electrode 3 is not oxidized by the solution 1 composed of vegetable monomolecular water, so that self-renewal is maintained and discharge is maintained forever, and waste liquid does not cause pollution.

(Embodiment 2) This embodiment is almost the same as Embodiment 1, and only different parts will be described. In the figure, reference numeral 4 denotes a solution obtained by adding an additive consisting of natural stone of tourmaline and a powder of a mineral having a far-infrared wavelength to ceramic, which is provided in the container 2 as an electrolytic solution. In use, in addition to the properties of vegetable monomolecular water, the addition of minerals having a far-infrared wavelength activates self-renewal to make the discharge permanent, and the waste liquid does not cause pollution.

(Embodiment 3) In the drawing, reference numeral 5 denotes a solution in which sodium alginate is added to a vegetable aqueous solution and the above-mentioned additives are further added thereto. The solution is provided in the container 2 as an electrolytic solution. Reference numeral 6 denotes an electrode, which is made of a metal such as aluminum, iron, or titanium, together with the anode 6a and the cathode 6b, and is opposed to the solution 5. When used, self-regeneration is activated by the solution 5 and charging is not required. In the case of disposal, not only the waste liquid but also the electrodes do not cause pollution.

[0009]

As described above, the present invention relates to a method for preparing a metal surface by using a plant monomolecular water alone or by adding an additive, and further adding sodium alginate and performing an addition treatment with an enzyme. This is an invention which is very excellent in industrial use because it has features such as suppressing self-regeneration by oxidizing, activating self-regeneration, sustaining discharge and using without charging, and preventing waste liquid from causing pollution.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of Embodiment 1 of the present invention.

FIG. 2 is a schematic diagram of Embodiment 2 of the present invention.

FIG. 3 is a schematic diagram of Embodiment 3 of the present invention.

[Explanation of symbols]

 1 solution 2 container 3 electrode 3a anode 3b cathode 4 solution 5 solution 6 electrode 6a anode 6b cathode

Claims (3)

[Claims] 1. Extraction of water present in the growth process of a plant with an organic solvent such as alcohol, or by pressurization and decompression, or spontaneously or half of water emanating from a leaf stem of a plant. An electrolyte solution for a storage battery, wherein the solution is a plant monomolecular water solution that is forcibly collected. 2. Powder or granules or tablets of minerals having a far-infrared wavelength such as natural stones such as tourmaline, granite, diamond, quartz, pearl, etc., in plant monomolecular water, ceramics, shells, corals, etc. The electrolytic solution for a storage battery according to claim 1, which is a solution to which an additive in the form of a solid is added. 3. A solution for a storage battery according to claim 1, wherein said solution is obtained by adding sodium alginate to a plant monomolecular water and further adding an additive in the form of powder, granules or tablets of a mineral having a far-infrared wavelength. Electrolyte.