KR102666289B1 - Lead-acid battery capable of preventing electrolyte leakage - Google Patents

Abstract

The present invention relates to a lead-acid battery capable of preventing electrolyte leakage, and more specifically, when the head of the lead-acid battery is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid injection port due to buoyancy, This relates to a lead-acid battery capable of preventing electrolyte leakage by preventing the electrolyte stored in the lead-acid battery cell from leaking out through the cover liquid inlet and into the vent hole.

Description

Lead-acid battery capable of preventing electrolyte leakage}

The present invention relates to a lead-acid battery capable of preventing electrolyte leakage, and more specifically, when the head of the lead-acid battery is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid injection port due to buoyancy, This relates to a lead-acid battery capable of preventing electrolyte leakage by preventing the electrolyte stored in the lead-acid battery cell from leaking out through the cover liquid inlet and into the vent hole.

A lead acid battery supplies charged electricity by discharging, and the charging and discharging process is repeated for a permitted number of times, so it is a secondary battery or storage battery (hereinafter referred to as 'lead acid battery') that can be reused repeatedly. It is said.)

Lead-acid batteries are classified into various types depending on the materials used for the anode, cathode, and electrolyte (hereinafter referred to as 'electrolyte'), and those that use lead for the electrodes and sulfuric acid as the electrolyte are classified as lead-acid batteries. .

The electrodes of a lead-acid battery are largely divided into positive and negative electrode plates and poles, and are stored or housed in a case, including a separator that physically and electrically separates each electrode, and an electrolyte. Hydrogen generated during the charging and discharging process is stored in the case. It is common to provide a gas exhaust port in a sealed case to discharge gas generated by evaporation of gas and electrolyte.

For example, a lead acid battery operates on the principle of repeating discharging and charging through a reversible chemical reaction of PbO2 + H2SO4 ↔ PbSO4 + 2H2O. The generated electricity is discharged and output, and the input electricity is charged and stored.

Lead acid batteries use a chemical reaction in which electrodes made of lead dioxide (PbO2) and an electrolyte containing sulfuric acid (H2SO4) change into lead sulfate (PbSO4) and water (H2O). When it changes to H2O), it generates and releases electricity, and when it is charged, the reverse substitution process is repeated.

Whenever this chemical reaction proceeds, heat is generated inside the lead acid battery, causing some of the electrolyte to evaporate and at the same time, a small amount of hydrogen gas is generated, so the generated gas must be discharged to the outside to prevent explosion.

In addition, lead-acid batteries for vehicles are exposed to vibration and tilt that occur while the vehicle is moving, and at this time, electrolyte must be prevented from leaking to the outside through the gas exhaust port.

The technology for discharging the gas generated inside a lead acid battery to the outside according to the prior art is 'Emission structure of evaporative gas of automobile battery' of Patent Application No. 10-2000-72402 (2000 Dec. 01) and Patent Application No. 10-2008. -There is ‘Vent plug for nickel-hydrogen battery’ in No. 20115 (2008 05 29).

Meanwhile, as the functions of vehicles are becoming more diverse and specialized, a variety of special lead acid batteries are being developed to withstand specific environments.

Accordingly, there was a need to improve battery defects, vehicle damage and short circuits, and corrosion of bonnets and other major parts that occur by preventing electrolyte leakage due to tilting of the battery.

Accordingly, the present invention proposes an electrolyte leak prevention structure for lead acid batteries.

Republic of Korea Patent Application No. 10-2000-72402 Republic of Korea Patent Publication No. 10-1220485

Therefore, the present invention was devised to solve the above conventional problems,

The purpose of the present invention is that when the cell of a lead acid battery is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid inlet due to buoyancy to block the cover liquid inlet, so that the electrolyte stored in the cell of the lead acid battery is discharged into the cover. The aim is to provide a lead acid battery that can prevent electrolyte leakage by preventing electrolyte leakage through the liquid injection port into the vent hole.

In order to achieve the problem to be solved by the present invention, a lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention,

A lead acid battery is configured to include a plurality of rotatable liquid leak prevention units 100 that are attached to the upper walls of the cells 110, which form the precursor of the lead acid battery, with hinges 120 and block the cover liquid inlet formed on the upper side. When the cell is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover fluid injection port due to buoyancy and blocks the cover fluid injection port, so that the electrolyte stored in the cell of the lead acid battery flows out through the cover fluid injection port and into the vent hole. By preventing this from happening, the problem of the present invention is solved.

The lead acid battery capable of preventing electrolyte leakage according to the present invention,

When the head of a lead-acid battery is tilted and the level of electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid inlet due to buoyancy, blocking the cover filler, so that the electrolyte stored in the head of the lead-acid battery vents through the cover filler. By providing the effect of preventing leakage alone, it not only prevents performance and quality deterioration, but also fundamentally blocks corrosion of the vehicle.

Figure 1 is an example diagram showing the upper cover of a typical lead acid battery showing the location of the vent hole and the horizontal portion.
Figure 2 is an exemplary diagram showing the movement path of the sulfuric acid solution stored inside a lead acid battery.
Figure 3 is a conceptual diagram showing the phenomenon of electrolyte leaking when a conventional lead acid battery is tilted.
Figure 4 is a conceptual diagram briefly showing a lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention.
Figure 5 is a conceptual diagram showing a process in which the rotating liquid leak prevention unit rotates in the direction of the cover liquid inlet to block the cover liquid inlet when the lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention is tilted.

A lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention,

A lead acid battery is configured to include a plurality of rotatable liquid leak prevention units 100 that are attached to the upper walls of the cells 110, which form the precursor of the lead acid battery, with hinges 120 and block the cover liquid inlet formed on the upper side. When the cell is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover fluid injection port due to buoyancy and blocks the cover fluid injection port, so that the electrolyte stored in the cell of the lead acid battery flows out through the cover fluid injection port and into the vent hole. It is characterized by preventing it from happening.

At this time, based on the center of the lead acid battery,

In the case of cells located on the left, the rotary leakage prevention part 100 is formed on the left wall when viewed from the front,

In the case of cells located on the right side, the rotatable leak prevention portion 100 is formed on the right wall when viewed from the front.

At this time, the rotary leak prevention unit 100 is,

It is characterized in that it is made of any one of low-density rubber, low-density PET, low-density silicone, and low-density corrugated cardboard so that it can be rotated 90 degrees by buoyancy when the level of the electrolyte rises as it is tilted.

At this time, in normal times, the rotating liquid leak prevention unit 100 does not seal the cover liquid injection port, so that vaporized sulfuric acid gas can be discharged to the outside, thereby preventing the explosion of the lead acid battery.

Hereinafter, a lead acid battery capable of preventing electrolyte leakage according to the present invention will be described in detail through examples.

Figure 1 is an example diagram showing the upper cover of a typical lead acid battery showing the location of the vent hole and the horizontal portion.

Figure 2 is an exemplary diagram showing the movement path of the sulfuric acid solution stored inside a lead acid battery.

As shown in Figures 1 and 2, the vent hole of the lead acid battery is located in the upper cover 40.

At this time, if the electrolyte stored inside the lead acid battery, for example, sulfuric acid solution, increases in inert materials on the electrode plates due to long-term use, the performance of the lead acid battery is greatly reduced and heat is generated.

As a result, sulfuric acid gas may be generated through the vent hole (20) on the side of the upper cover, and the gas may leak out as H ₂ O and H ₂ SO ₄ coexisting in the electrolyte react by heat.

In severe cases, a sulfur gas odor may be emitted to the outside, and when such sulfuric acid gas is generated, the gas may even occur in the lead-acid battery, and in severe cases, sulfuric acid leakage may occur, which may affect the performance of the lead-acid battery. and can have a significant impact on stability.

In particular, if the lead acid battery is tilted by about 90 to 180 degrees and maintained in the tilted state for a certain period of time, the sulfuric acid solution inside may leak out.

Therefore, in the present invention, when the cell of a lead-acid battery is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid inlet due to buoyancy to block the cover liquid inlet, so that the electrolyte stored in the cell of the lead-acid battery flows into the cover. By preventing liquid from leaking into the vent hole through the injection port, it not only prevents performance and quality deterioration, but also fundamentally blocks corrosion of the vehicle.

Figure 3 is a conceptual diagram showing the phenomenon of electrolyte leaking when a conventional lead acid battery is tilted.

As shown in Figure 3, in the case of a conventional lead-acid battery, when it is tilted by an external impact, the electrolyte moves toward the cover liquid injection port and leaks out through the vent hole through the liquid injection port. .

Therefore, electrolyte leakage caused battery failure, vehicle damage and short circuit, and corrosion of the bonnet and other major parts.

Figure 4 is a conceptual diagram briefly showing a lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention.

Figure 5 is a conceptual diagram showing a process in which the rotating liquid leak prevention unit rotates in the direction of the cover liquid inlet to block the cover liquid inlet when the lead acid battery capable of preventing electrolyte leakage according to an embodiment of the present invention is tilted.

The present invention was disclosed to solve the problem of Figure 3, and as shown in Figures 4 and 5, the lead acid battery capable of preventing electrolyte leakage is,

It is composed of a plurality of rotatable leak-proof parts 100 that are each attached to the upper wall of the cells 110, which form the precursor of a lead acid battery, with a hinge (or hinge portion) and block the cover liquid inlet formed on the upper side. will be.

In other words, the cells forming the precursor are each formed with a cell storage area for storing the cells. In the example of the present invention, six cell storage areas are formed, and a rotary leakage prevention part is installed on the upper wall of each cell storage area. (100) is formed, and a hinge (or hinge portion) is formed on one side of the upper side to enable rotation.

Therefore, as shown in Figure 5, when the head of the lead-acid battery is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover liquid inlet due to buoyancy to block the cover liquid inlet, thereby preventing the head of the lead-acid battery. This is to prevent the stored electrolyte from leaking into the vent hole through the cover liquid injection port (130).

In addition, as shown in Figure 4, based on the center of the lead acid battery,

In the case of cells located on the left, the rotary leakage prevention part 100 is formed on the left wall when viewed from the front,

In the case of cells located on the right side, the rotatable leak prevention portion 100 is formed on the right wall when viewed from the front.

Therefore, when tilted to the left, leakage of electrolyte concentrated to the left can be quickly prevented, and when tilted to the right, leakage of electrolyte concentrated to the right can be quickly prevented.

In other words, it is designed to quickly and efficiently prevent electrolyte leakage no matter which direction it is tilted.

And, the rotary leak prevention unit 100,

It is characterized in that it is made of any one of low-density rubber, low-density PET, low-density silicone, and low-density corrugated cardboard so that it can be rotated 90 degrees by buoyancy when the level of the electrolyte rises as it is tilted.

In other words, it is made of a low-density material to enable smooth rotation due to buoyancy when the level of the electrolyte rises.

For example, by forming it with low-density rubber, low-density PET, low-density silicon, and low-density corrugated cardboard, rapid rotation is possible.

In addition, through the above configuration, the rotating liquid leak prevention unit 100 does not seal the cover liquid injection port in normal times, so that vaporized sulfuric acid gas can be discharged to the outside, thereby preventing the explosion of the lead acid battery. Do it as

That is, as shown in FIG. 5, since the rotary leak prevention part 100 is normally formed vertically until it is tilted, it does not block the cover liquid injection port, so the vaporized sulfuric acid gas can be discharged to the outside through the vent hole. By being able to do so, it becomes possible to prevent the explosion of lead acid batteries.

In the following, a test was conducted to check whether tear fluid leaked externally.

To prevent lead acid battery leakage, a tilt test was conducted using a conventional product and a lead acid battery (improved product) capable of preventing electrolyte leakage according to the SAEJ3060 vehicle battery standard.

Table 1 below shows that after charging a lead acid battery with a capacity of 35AH for 5 hours at a constant current of 20 hours (35Ah/20Hr = 1.75A), waiting for 12 hours, fixing the battery on a tilt tester and measuring it at an angle of 0 to 90 degrees. This is the result of a repeated experiment over 4 hours.

As a result of the above test, there should be no leakage.

As a result of the test, it was confirmed that leakage due to tilt was prevented through the improved product compared to the conventional product.

division Conventional products improvement tilt result leakage clear

In conclusion, the present invention is that when the cell of a lead acid battery is tilted and the level of the electrolyte rises, the rotating liquid leakage prevention part rotates in the direction of the cover liquid inlet due to buoyancy to block the cover liquid inlet, so that the electrolyte stored in the cell of the lead acid battery is By preventing liquid from leaking into the vent hole through the cover inlet, it not only prevents performance and quality deterioration, but also prevents corrosion of the vehicle at its source.

In general, when the explosion-proof filter is wet due to sulfuric acid leakage due to tilting inside the lead acid battery, the sulfuric acid leaks into the vent hole.

To improve this, the device structure of the present invention was developed.

By applying the device of the present invention as described above, there is an effect of significantly reducing battery defects due to leakage, vehicle damage and short circuits, and corrosion of the bonnet and other major parts.

Those skilled in the art to which the present invention pertains as described above will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. Therefore, the embodiments described above should be understood in all respects as illustrative and not limiting.

100: Rotating leak prevention unit
120: hinge

Claims (4)

In a lead acid battery capable of preventing electrolyte leakage,
The lead acid battery is configured to include a plurality of rotating liquid leak prevention units 100 that are attached to the upper walls of the cells 110, which form the precursor of the lead acid battery, with hinges 120 and block the cover liquid filling port formed on the upper side. When the cell is tilted and the level of the electrolyte rises, the rotating liquid leak prevention part rotates in the direction of the cover fluid inlet due to buoyancy and blocks the cover fill port, so that the electrolyte stored in the cell of the lead acid battery flows out through the cover inlet into the vent hole. It is characterized by preventing the occurrence of
Based on the center of the lead acid battery,
In the case of cells located on the left, the rotary leakage prevention part 100 is formed on the left wall when viewed from the front,
In the case of cells located on the right, the rotary leakage prevention part 100 is formed on the right wall when viewed from the front,
The rotary leak prevention unit 100,
It is characterized in that it is made of any one of low-density rubber, low-density PET, low-density silicone, and low-density corrugated cardboard so that it can rotate 90 degrees by buoyancy when the level of the electrolyte rises as it tilts.
A lead-acid battery capable of preventing electrolyte leakage, characterized in that the rotating liquid leak prevention unit 100 does not seal the cover liquid inlet in normal times, allowing vaporized sulfuric acid gas to be discharged to the outside, thereby preventing explosion of the lead-acid battery. .

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