CN203367448U - Repeatable oxygen charging battery - Google Patents

Repeatable oxygen charging battery Download PDF

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Publication number
CN203367448U
CN203367448U CN 201220555624 CN201220555624U CN203367448U CN 203367448 U CN203367448 U CN 203367448U CN 201220555624 CN201220555624 CN 201220555624 CN 201220555624 U CN201220555624 U CN 201220555624U CN 203367448 U CN203367448 U CN 203367448U
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China
Prior art keywords
oxygen
battery cover
liquid
battery
nickel rod
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Expired - Fee Related
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CN 201220555624
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Chinese (zh)
Inventor
沈熙
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Individual
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Individual
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Abstract

A repeatable oxygen charging battery shell is made of copper and a battery cover which are tightly connected through a welding seam. An approximately vacuum isolation area is arranged below the battery cover. The nickel rod passes through the hole in the battery cover, and the lower end of the nickel rod is connected with the mixing zone and the negative electrode, but is isolated from the liquid chamber. Raw materials are added through the oxygen charging holes for recycling. The nickel rod can be detached for reuse. The valve controls the response speed to control the output voltage.

Description

Repeatable oxygen charging battery
Technical Field
The repeatable oxygen charging battery relates to a portable power generation device, in particular to a reusable oxygen charging battery which can be added with raw materials for repeated use.
Background
Batteries are generally classified into disposable batteries and rechargeable batteries. The main disposable batteries include zinc-manganese batteries (containing zinc and manganese dioxide), zinc-mercury batteries (containing zinc and mercury oxide), lithium batteries and the like. The main rechargeable batteries include cadmium-nickel, iron-nickel, zinc-silver, zinc-air, lithium-iron sulfide, lead-acid batteries, and the like. The zinc-manganese battery and the zinc-mercury battery are used most in daily life, and the mercury (Hg) and the cadmium (Cd) are mainly used for polluting the batteries. Due to the use of a large amount of batteries, pollution and waste caused by the use of the batteries have great negative effects on the production and life of people.
Disclosure of Invention
In order to deal with the pollution and waste caused by the use of the battery, the environment-friendly level of the battery is improved. The device provides a repeatable oxygen charging battery device which can charge liquid into a fixed container as an electrode by compressing oxygen.
The device utilizes the principle of differential aeration corrosion to lead the oxygen contents of the two parts to generate great difference, thereby leading a loop to discharge when the metal is corroded. Energy conservation and high efficiency, and simultaneously achieves the effect of environmental protection. The oxygen charging battery can be filled with liquid oxygen to solve the problem of small electric quantity, and can also utilize oxygen in the air to achieve the purpose of energy saving.
According to this principle, a high-efficiency battery can be manufactured. Due to the uneven distribution of oxygen on the metal surface. The metal half-immersed in water has a high oxygen concentration at the metal immersion surface because the diffusion path of oxygen is short, and has a long oxygen diffusion path and a low oxygen concentration inside the water. From the Nerst equation: o is 2 +2H 2 O+4e - =40H - Can obtain
Figure DEST_PATH_GSB0000113627580000011
It can be seen that in O 2 Concentration (corresponding to P (O) 2 ) Larger sites, corresponding to larger values of the electrode potential, oxygen is more available for electrons; to O 2 Concentration (corresponding to P (O) 2 ) A smaller portion of the skin is not covered by the skin,
Figure DEST_PATH_GSB0000113627580000012
(O 2 /OH - ) Has a small algebraic value of O 2 It is more difficult to obtain electrons. Thus, a concentration cell is formed due to the difference in oxygen concentration.
The technical scheme adopted by the device is as follows: in a high-strength two-compartment container, water and liquid oxygen are sequentially filled, and the two compartments can be communicated to regulate the concentration of oxygen. A nickel rod was inserted into the container, and this was used as a cathode. The other end of the nickel rod is an anode.
The shell is made of copper and is tightly connected with the battery cover through a welding seam, an approximately vacuum isolation area is arranged below the battery cover, the nickel rod passes through a middle hole of the battery cover, the lower end of the nickel rod is connected with the mixing area and the negative electrode but is isolated from the liquid chamber, and the raw material is liquid oxygen which is added through an oxygenation hole.
The raw material liquid oxygen is filled into the liquid chamber capable of containing high-pressure liquid through the oxygen filling hole.
The nickel rod can be disassembled and replaced for reuse.
And adding a valve on the wall surface between the liquid chamber and the mixing zone to control the reactant liquid oxygen to enter the mixing zone for reaction.
The device has the advantages of small volume, light weight and convenient carrying, and can overcome the problems of small electric quantity, large pollution and serious waste of the existing battery.
Drawings
The present invention will be further explained with reference to the drawings and examples.
The figure is a structural view of the apparatus. The device comprises a positive electrode 1, a battery cover 2, a nickel rod 3, an isolation region 4, a shell 5, a liquid chamber 6, a negative electrode 7 and a mixing region 8.
Detailed Description
The embodiment of the battery device is as follows: the shell (5) of the device is made of copper and is tightly connected with the battery cover (2) through a welding seam. An approximately vacuum isolation area (4) is arranged below the battery cover (2). The nickel rod (3) passes through the middle hole, and the lower end of the nickel rod is connected with the mixing zone (8) and the negative electrode (7) but is separated from the liquid zone (6). Raw materials are added through the oxygen charging holes (9). To increase the voltage range, valves may be added in the liquid zone (6) and the mixing zone (8) to control the amount of feed to the reaction zone.

Claims (4)

1. The utility model provides a repeated formula battery of oxygenating, includes anodal, negative pole, battery cover, nickel stick, shell, isolation region, liquid chamber, mixing region, oxygenate the hole, characterized by: the shell is made of copper and is tightly connected with the battery cover through a welding seam, an approximately vacuum isolation area is arranged below the battery cover, the nickel rod passes through a middle hole of the battery cover, the lower end of the nickel rod is connected with the mixing area and the negative electrode but is isolated from the liquid chamber, and the raw material is liquid oxygen which is added through an oxygenation hole.
2. The rechargeable oxygen cell as claimed in claim 1, wherein: the raw material liquid oxygen can be charged into the liquid chamber capable of holding the high-pressure liquid through the oxygen charging hole.
3. The rechargeable oxygen cell as claimed in claim 1, wherein: the nickel rod can be disassembled.
4. The rechargeable oxygen cell as claimed in claim 1, wherein: a valve may be added between the liquid chamber and the mixing zone to control the reactant liquid oxygen to enter the mixing zone for reaction.
CN 201220555624 2012-10-23 2012-10-23 Repeatable oxygen charging battery Expired - Fee Related CN203367448U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220555624 CN203367448U (en) 2012-10-23 2012-10-23 Repeatable oxygen charging battery

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220555624 CN203367448U (en) 2012-10-23 2012-10-23 Repeatable oxygen charging battery

Publications (1)

Publication Number Publication Date
CN203367448U true CN203367448U (en) 2013-12-25

Family

ID=49815168

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220555624 Expired - Fee Related CN203367448U (en) 2012-10-23 2012-10-23 Repeatable oxygen charging battery

Country Status (1)

Country Link
CN (1) CN203367448U (en)

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20131225

Termination date: 20141023

EXPY Termination of patent right or utility model