JP3109505U - Micro-electric power supply battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power supply battery for micro-electricity that generates electric power by a potential difference between metals.
SOLUTION: A cylindrical main body having an opening at one end, an Al-Mg alloy electrode and a copper electrode provided at a sealed end of the main body, one end extending outward and the other end extending into the main body A micro-electric power supply battery comprising an opening at one end and a cylindrical water supply container coupled to the opening end of the main body,
A thread is provided outside the opening end of the main body, a water absorption block and a sealing ring are fitted inside, respectively, and the inside is filled with activated carbon.
Provided inside the open end of the water supply container is a screw thread that engages with the thread of the main body, and the inside is filled with water,
A guide plate located between the Al—Mg alloy electrode and the copper electrode is provided outside the sealed end of the main body.
[Selection] Figure 2

Description

The present invention particularly relates to a micro-electric power supply battery that generates electric power by a potential difference between metals.

General power is provided by wind power, nuclear power, solar energy or batteries, etc., and zinc / copper electrodes, which are low pollution, are often used as batteries, which also provide power due to the potential difference of metals. Is.

However, since the battery having the zinc / copper electrode uses saline as an electrolyte, it has the following problems.
1. During the chemical reaction process, impurities are likely to be generated in the saline solution, thus reducing the power supply effect of the battery.
2. Since the replenishment of the electrolyte is troublesome, once the power supply effect of the battery is reduced, it is very inconvenient.
3. Use of saline as an electrolyte adversely affects the service life of electrodes made of zinc and copper, so the service life of the battery cannot be improved.

Accordingly, the present invention has been devised, and an object thereof is to provide a micro-electric power supply battery that generates electric power due to a potential difference between metals.

The invention of claim 1 of the present application includes a cylindrical main body having an opening at one end, an electrode provided at a sealed end of the main body, one end extending outward, and the other end extending into the main body, and one end A micro-electric power supply battery comprising an opening and a cylindrical water supply container coupled to the opening end of the main body,
A thread is provided outside the opening end of the main body, a water absorption block and a sealing ring are fitted inside, respectively, and the inside is filled with activated carbon.
Provided inside the open end of the water supply container is a screw thread that engages with the thread of the main body, and the inside is filled with water,
A power supply battery for microelectricity, characterized in that a guide plate located outside the sealed end of the main body is provided; and
The device according to claim 2 of the present application provides the micro-electric power supply battery according to claim 1, wherein the electrodes are an Al—Mg alloy electrode and a copper electrode, respectively.

The present invention solves the above-described problems, and has a cylindrical main body and a water supply container that are coupled to each other, and one end extends to the outside at the sealed end of the main body and the other end extends to the inside of the main body. Al-Mg alloy electrode and copper electrode are provided, the inside is filled with activated carbon, the water absorption block and the sealing ring are provided inside the open end of the main body, the water supply container is filled with water, and the potential difference of the electrode Electric power can be generated.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following Example is only what showed the preferred embodiment of this invention, and the technical scope of this invention is not limited to the following Example itself at all.

FIG. 1 is an exploded perspective view of a micro-electric power supply battery according to the present invention, FIG. 2 is a cross-sectional view of the micro-electric power supply battery according to the present invention, and FIG. 3 is a micro-electric power according to the present invention. FIG. 4 is an exploded perspective view showing a use state of the supply battery, and FIG. 4 is a cross-sectional view showing a state where the guide plate of the power supply battery for microelectricity according to the present invention is in contact with the wall of the socket.

As shown in FIG. 1 and FIG. 2, a micro-electric power supply battery according to the present invention is provided at a cylindrical main body (10) having an opening at one end and a sealed end of the main body (10), one end being an outer side. And an Al-Mg alloy electrode (13) and a copper electrode (14) with the other end extending into the main body (10), an opening at one end, and an open end of the main body (10) And a cylindrical water supply container (20).

A screw thread (100) is provided outside the opening end of the main body (10), and a water absorption block (15) and a sealing ring (16) are fitted inside, respectively, and activated carbon ( 11) is charged.

Inside the open end of the water supply container (20), there is provided a screw thread (200) that is screwed with the screw thread (100) of the main body (10), and water (21) is inside the water supply container (20). Charged.

A guide plate (17) positioned between the Al-Mg alloy electrode (13) and the copper electrode (14) is provided outside the sealed end of the main body (10).

When combining the micro-electric power supply battery according to the present invention, first, the main body (10) having the Al-Mg alloy electrode (13) and the copper electrode (14) is filled with activated carbon (11), and the water absorption block ( 15) and the sealing ring (16) are sequentially driven into the opening end of the main body, thereby positioning the activated carbon (11) inside the main body (10).

Next, water (21) is filled inside the water supply container (20), and the water supply container (20) filled with the water (21) is joined to the main body (10) by screwing of the threads (100) (200). To do.

Since it has a water absorption block (15) inside the open end of the main body (10), water (21) inside the water supply container (20) is transferred to activated carbon (11) inside the main body (10) by capillary action, Moreover, by using the activated carbon (11) containing water (13) as an electrolytic solution, it is possible to discharge by the potential difference between the Al-Mg alloy electrode (13) and the copper electrode (14).

Further, since the water (21) inside the water supply container (20) does not directly contact the electrode, it is not contaminated and has an effect of extending the service life of the battery.

When activated carbon (11) containing water (21) is used as the electrolyte, a voltage of about 1.5 volts can be generated due to the potential difference between the electrodes. After the water (21) in the water supply container (20) has been used up, the water supply container (20) is removed from the main body (10) and filled with water (21) again, and then only combined with the main body (10). The battery can be easily reused.

Further, as shown in FIG. 3, since the guide plate (17) is provided outside the sealed end of the main body (10), the Al-Mg alloy electrode (13) and the copper electrode (14) of the battery are correctly connected to the socket (30 ) And the battery Al-Mg alloy electrode (13) and the copper electrode (14) are about to be inserted into the wrong insertion slot (31) as shown in FIG. In this case, the Al-Mg alloy electrode (13) and the copper electrode (14) cannot be inserted into the erroneous insertion port (31) because the guide plate (17) contacts the wall of the socket (30).

Since the present invention has the above-described configuration, it has a cylindrical main body and a water supply container that are coupled to each other, and one end extends to the outside at the sealed end of the main body, and the other end extends to the inside of the main body. Alloy electrode and copper electrode are provided, inside is filled with activated carbon, water absorption block and sealing ring are provided inside the open end of the main body, water is filled inside the water supply container, and power is generated by the potential difference of the electrode can do.

It is a disassembled perspective view of the power supply battery for micro electricity according to the present invention. 1 is a cross-sectional view of a micropower power supply battery according to the present invention. It is a disassembled perspective view which shows the use condition of the power supply battery for micro electricity amount concerning this invention. It is sectional drawing which shows the state in which the guide plate of the electric power supply battery for microelectricity which concerns on this invention contacts the wall of a socket.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Main body 100 Screw thread 11 Activated carbon 13 Al-Mg alloy electrode 14 Copper electrode 15 Water absorption block 16 Seal ring 17 Guide plate 20 Water supply container 200 Screw thread 21 Water 30 Socket 31 Insertion hole

Claims (2)

A cylindrical main body having an opening at one end, an electrode provided at a sealed end of the main body, one end extending outward and the other end extending into the main body, an opening at one end, and an opening of the main body A micro-electric power supply battery comprising a cylindrical water supply container coupled to an end,
A thread is provided outside the opening end of the main body, a water absorption block and a sealing ring are fitted inside, respectively, and the inside is filled with activated carbon.
Provided inside the open end of the water supply container is a screw thread that engages with the thread of the main body, and the inside is filled with water,
A power supply battery for microelectricity, characterized in that a guide plate is provided outside the sealed end of the main body. 2. The micro-electric power supply battery according to claim 1, wherein the electrodes are an Al-Mg alloy electrode and a copper electrode, respectively.

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