KR20130005307U - Improved storage battery - Google Patents

Abstract

The present invention improves charging importability and recharging efficiency by increasing the internal current density, and it is possible to check the internal state by using the battery precursor made of transparent material. It aims to provide. To this end, the present invention is a container containing an electrolyte; A plurality of positive electrode plates installed inside the container; A negative electrode plate provided between the positive electrode plates; (+) Terminal portions connected in parallel through the plurality of (+) electrode plates and connecting portions, and extending a predetermined length upwardly; (-) Terminal portions connected in parallel via the plurality of (-) electrode plates and connected to each other and extending a predetermined length upwardly; A cover part installed at an upper part of the container to seal the inside thereof and having a through hole formed to protrude through the (+) terminal part and the (-) terminal part; Sealing ring to be fitted and sealed between the outer circumference of the (+) terminal portion and the (-) terminal portion and the inner circumference of the through hole; And an epoxy sealing between the (+) terminal portion and the (-) terminal portion and the through hole. Therefore, the present invention has an advantage of increasing the internal current density of the battery and improving the charging importability of allowing the battery to be quickly charged in a constant discharge state and charging efficiency due to low current.

Description

Improved Storage Battery {IMPROVED STORAGE BATTERY}

The present invention relates to a battery, which increases the internal current density to improve charging importability, recharging efficiency, and checks the internal state by using a battery precursor made of a transparent material. It relates to an improved storage battery that can be.

Storage batteries, which are widely used as a general energy source in modern society, are also called secondary batteries because they reversibly react as a battery capable of repeating charging and discharging reactions.

Although lead-acid and alkaline batteries are used, lead-acid batteries are generally used, and they consist of a positive electrode, an electrolyte, an electrolytic cell, and a separator (separator) composed of reversible positive and negative electrode active materials. Use the change of electrolytic energy when

The phenomenon that draws current from the anode to the cathode by connecting the positive and negative electrodes is called discharge. Charging is the process of storing electrical energy as chemical energy by causing a chemical reaction to flow the current from the outside to the reverse direction.

On the other hand, the storage battery is installed in a route marker device such as a lighthouse or a buoy is used to guide the ship sailing the sea.

These route markers are classified into fixed and floating type, and the fixed route markers are installed on the seabed and are suitable for route markers because there is no change due to the difference between tides, but they are not suitable for installation in deep waters.

In addition, the floating route marker device is a mechanically advantageous structure because the installation cost is low and the resistance to external force is low due to the floating. In this case, the floating type is fixed and connected to the floor by a chain, and in this case, a solar panel is installed to charge and discharge the power generated by the solar cell and then use it. .

1 and 2 illustrate a battery structure according to the prior art, a positive electrode plate being an alloy of lead and antimony while sandwiching an insulating plate 3 in an inner space 2 of a container 1 of an FRP material. (4) 4 sheets and 5 negative pole plates (8) are arranged in sequence, and the protrusion (5) of the end of the positive pole plate (4) is partially connected to the outside in a state of being joined by a connecting piece (6). Is connected to the exposed terminal (7), and the end protrusion (9) of the negative pole plate (8) is connected to the terminal (11) which is partially exposed to the outside in the state coupled to the connecting piece (10) The terminals 7 and 11 are connected to the solar cell 12 and the light emitting lamp 13 by a bolting method, and the filling liquid is filled in the space 2 of the container 1. The filling liquid is replenished through the refill port 14, and spacers 15 are provided on both sides of the container 1 to allow the pole plates 4 and 8 to freely swing. It is configured to form a sealing layer (16) with a sealing compound (pitch) in the upper opening of the container (1).

However, in the conventional storage battery as described above, it is difficult to arbitrarily expand the size of the container 1, and the number of the pole plates 4 and 8 is small so that the current density is low, so that charging by low current is not smoothly performed. have.

That is, it is configured to receive the charging power from the solar cell module due to the characteristics of the location where the storage battery is installed, but it is difficult to generate power by the sun, or the amount of salt water or algae excretion attached to the solar cell module is sufficient to generate power. If this is not done, the over-discharge phenomenon occurs in the battery, and thus there is a problem in that the work of periodically re-installing the battery after collecting and forcibly charging the battery with insufficient charge amount is performed.

In addition, the conventional storage battery has a problem in that it is not possible to check whether the short-circuit or dropout inside the storage battery is caused due to the shaking caused by the wave because it does not check the inside of the battery.

In addition, in the conventional battery, the (+) and (-) terminals 7 and 11 are installed by welding with the connecting pieces 6 and 10 connected to the pole plates 4 and 8 inside the battery. In the process of connecting the (10) and (+) and (-) terminals (7) and (11) by welding, the perforation due to welding immature (or poor) occurs in the sealing compound sealing layer 16. There is a problem that the internal electrolyte (charge) is leaked to deteriorate the performance of the storage battery, resulting in poor charging.

The present invention improves charging importability and recharging efficiency by increasing the internal current density, and it is possible to check the internal state by using the battery precursor made of transparent material. It aims to provide.

The present invention is a container containing an electrolyte; A plurality of positive electrode plates installed inside the container; A negative electrode plate provided between the positive electrode plates; (+) Terminal portions connected in parallel through the plurality of (+) electrode plates and connecting portions, and extending a predetermined length upwardly; (-) Terminal portions connected in parallel via the plurality of (-) electrode plates and connected to each other and extending a predetermined length upwardly; A cover part installed at an upper part of the container to seal the inside thereof and having a through hole formed to protrude through the (+) terminal part and the (-) terminal part; Sealing ring to be fitted and sealed between the outer circumference of the (+) terminal portion and the (-) terminal portion and the inner circumference of the through hole; And an epoxy sealing between the (+) terminal portion and the (-) terminal portion and the through hole.

In addition, the container according to the present invention is characterized in that formed of a polycarbonate resin of a transparent material.

In addition, the (+) electrode plate according to the present invention is characterized in that at least eight or more.

In addition, the (-) electrode plate according to the present invention is characterized in that at least nine or more.

In addition, the electrode plate according to the present invention is characterized in that the thickness ranges from 3.5mm to 6.5mm.

The present invention has an advantage of increasing the internal current density of the battery to improve the charging importability that the battery can be quickly charged in a constant discharge state, and the charging efficiency due to low current.

In addition, the present invention has an advantage that can easily provide early detection and maintenance of disconnection and dropout by checking the internal state through the battery precursor of the transparent material.

In addition, the present invention improves the coupling structure of the terminal to block the leakage of the electrolyte caused by the coupling failure during manufacturing, there is an advantage that can improve the performance and reliability of the battery.

1 is a cross-sectional view showing the structure of a storage battery according to the prior art.
2 is a partial perspective view showing an internal configuration of a storage battery according to the prior art.
3 is a cross-sectional view showing the structure of an improved storage battery according to the present invention.
Figure 4 is an exploded perspective view showing the configuration of the improved storage battery according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the improved storage battery according to the present invention.

3 is a cross-sectional view showing the structure of the improved storage battery according to the present invention, Figure 4 is an exploded perspective view showing the configuration of the improved storage battery according to the present invention.

As shown in FIGS. 3 and 4, the storage battery 100 according to the present invention includes a container 110, an electrode part 120, a cover part 130, a sealing ring 140, and an epoxy 150. It is configured to include.

The container 110 is a rectangular member having an upper portion open and a receiving space therein. The container 110 has an electrolyte solution and an electrode portion 120 therein, and the electrode portion 120 is disposed inside the container 110. Spacers 111 are installed to prevent rocking.

In addition, the container 110 is formed of a polycarbonate resin of a transparent material so that the durability and lightness and the state of the electrode unit 120 stored therein and whether or not the active material is dropped, it is formed of a transparent polycarbonate resin, excellent durability FRP It may be formed using a resin, and preferably formed of a polycarbonate resin.

The electrode part 120 includes a plurality of positive electrode plates 121, a connection part 122, a positive terminal part 123, a plurality of negative electrode plates 124, and a connection part 125. And a (-) terminal portion 126.

The (+) electrode plate 121 is provided with eight electrode plates of a predetermined size in the range of 3.5mm to 6.5mm thickness in parallel to increase the current density, so that the deep activation of the electrode plate can be made quickly, the low current of In order to recharge, charging importability and recharging efficiency are improved.

The connection part 122 is coupled to the upper surface of the plurality of (+) electrode plate 121 installed in parallel by welding or the like so that the (+) electrode plate 121 may be fixed while maintaining a constant interval.

The (+) terminal part 123 is a cylindrical metal member, and is configured to protrude a predetermined length in the upward direction through the cover part 130 at an upper side of the connection part 122 (+) of the storage battery 100. The terminal may be directly connected to a solar cell module (not shown) or a light emitting device (not shown).

The negative electrode plate 124 includes nine electrode plates of a predetermined size having a thickness ranging from 3.5 mm to 6.5 mm so that the core plate can be quickly activated with the insulating member interposed therebetween. By sequentially intersecting with the plate 121 to increase the current density, the charging importability and recharging efficiency are improved even at low current charging.

The connection part 125 is coupled to the upper surface of the plurality of (-) electrode plate 124 installed in parallel by welding or the like so that the (-) electrode plate 124 may be fixed at a constant interval.

The (-) terminal portion 126 is a cylindrical metal member, is configured to protrude a predetermined length in the upward direction through the cover portion 130 on the upper side of the connecting portion 125 (-) of the storage battery 100 The terminal may be directly connected to a solar cell module (not shown) or a light emitting device (not shown).

The cover part 130 is installed on the upper part of the container 110 to seal the inside of the container 110, and a plurality of (+) terminal parts 123 and (-) terminal parts 126 to protrude through. Through holes 131 are formed.

The sealing ring 140 is forced between the outer periphery of the (+) terminal portion 123 and the inner periphery of the through hole 131, and the outer periphery of the (-) terminal portion 126 and the inner periphery of the through hole 131. It is fitted to seal the (+) terminal portion 123 and the through-hole 131, the (-) terminal portion 126 and the through-hole 131, and is preferably a rubber (O) ring. .

The epoxy 150 seals between the (+) terminal part 123 and the (-) terminal part 126 and the through hole 131 protruding through the through hole 131 of the cover part 130 to prevent the container from the outside. At the same time to block the foreign matter flow into the interior of the 110 to prevent the electrolyte from leaking from the inside of the container 110 to the outside.

Therefore, by configuring eight (+) electrode plate 123 and nine (-) electrode plate 126, charging importability and recharging efficiency can be improved even when charging by low current, and using thin electrode plate Therefore, the deep activation can be made quickly, so that the penetration and diffusion of the electrolyte can be made quickly.

As described above, it has been described with reference to the preferred embodiment of the present invention, but those skilled in the art various modifications of the present invention without departing from the spirit and scope of the present invention described in the utility model registration claims below And can be changed.

In the course of describing the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intention or custom of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

100: storage battery 110: container
111 spacer 120 electrode portion
121: (+) electrode plate 122: connection portion
123: (+) terminal portion 124: (-) electrode plate
125: connection part 126: (-) terminal part
130: cover 131: through hole
140: sealing ring 150: epoxy

Claims (5)

A container containing an electrolyte solution;
A plurality of positive electrode plates installed inside the container;
A negative electrode plate provided between the positive electrode plates;
(+) Terminal portions connected in parallel through the plurality of (+) electrode plates and connecting portions, and extending a predetermined length upwardly;
(-) Terminal portions connected in parallel via the plurality of (-) electrode plates and connected to each other and extending a predetermined length upwardly;
A cover part installed at an upper part of the container to seal the inside thereof and having a through hole formed to protrude through the (+) terminal part and the (-) terminal part;
Sealing ring to be fitted and sealed between the outer circumference of the (+) terminal portion and the (-) terminal portion and the inner circumference of the through hole; And
An improved storage battery comprising the epoxy sealing the (+) terminal portion and the (-) terminal portion and the through-holes. The method of claim 1,
The container is an improved storage battery, characterized in that formed of a polycarbonate resin of a transparent material. The method of claim 1,
An improved storage battery, characterized in that at least eight (+) electrode plate. The method of claim 1,
The improved storage battery, characterized in that at least nine (-) electrode plate. The method according to claim 3 or 4,
The electrode plate is an improved type battery, characterized in that the thickness ranges from 3.5mm to 6.5mm.

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