KR20210006752A - Sulfuric acid leakage prevention device for lead acid battery - Google Patents

Abstract

The present invention relates to a device for preventing leakage of sulfuric acid for a lead-acid battery, and more particularly, to a device for preventing leakage of sulfuric acid for a lead-acid battery which is inserted into a cylindrical-shaped fixing part connected to a vent hole of the lead-acid battery so that the lead-acid battery is inclined by about 30 degrees to 180 degrees for a certain period of time, thereby preventing the internal sulfuric acid from leaking to the outside of the lead-acid battery when the tilted state is maintained. According to the present invention, when the lead-acid battery is tilted more than a certain angle, it is possible to prevent the explosion of the lead-acid battery by preventing the leakage of the dilute sulfuric acid inside the lead-acid battery, while allowing the sulfuric acid gas normally generated inside to be discharged.

Description

Sulfuric acid leakage prevention device for lead acid battery}

The present invention relates to an apparatus for preventing leakage of sulfuric acid for a lead acid battery, and more particularly, it is inserted into a fixing part molded in a cylindrical shape connected to a vent hole of the lead acid battery so that the lead acid battery is inclined by about 30 degrees to 180 degrees for a certain time. It relates to a sulfuric acid leakage prevention device for a lead acid battery that prevents the sulfuric acid solution from leaking to the outside when the inclined state is maintained.

Lead-acid batteries supply charged electricity by discharging, and because the process of charging and discharging is repeated for an allowed number of times, a secondary battery or storage battery that can be reused repeatedly (hereinafter referred to as'lead storage battery' It is called.).

Lead acid batteries are classified into various types according to the material used as the positive electrode, negative electrode, and electrolyte (hereinafter referred to as'electrolyte'), and the composition using lead as the electrode and sulfuric acid as the electrolyte is classified as a lead acid battery. .

Electrodes of lead acid batteries are largely divided into positive and negative electrode plates and poles, and contain separators and electrolytes that physically and electrically divide each electrode, and are stored or accommodated in the case, so they are built-in, and hydrogen generated during charging and discharging. In general, a gas exhaust port is provided in a sealed case in order to discharge gas generated by evaporation of gas and electrolyte.

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

A lead acid battery uses a chemical reaction in which an electrode plate made of lead dioxide (PbO2) and an electrolyte containing a sulfuric acid solution (H2SO4) change into lead sulfate (PbSO4) and water (H2O), and lead sulfate (PbSO4) and water ( When it changes to H2O), it generates and discharges electricity, and when it is charged, it repeats the reverse substitution.

Whenever such a chemical reaction is carried out, heat is generated inside the lead acid battery, so that some of the electrolyte is evaporated and a small amount of hydrogen gas is generated, so the generated gas must be discharged to the outside to prevent explosion.

In addition, vehicle lead acid batteries are exposed to vibrations and inclinations generated while the vehicle is moving without filtration, and at this time, the electrolyte must be prevented from leaking to the outside through a gas exhaust port.

The technology for discharging the gas generated from the inside of the lead acid battery to the outside is based on the prior art, and patent application No. 10-2000-72402 (2000 Dec 01) of'evaporative gas emission structure of automobile battery' and patent application No. 10-2008 There are'Bent Plugs for Nickel-Hydrogen Batteries' in 20115 (2008 05 29).

Meanwhile, as the functions of vehicles are diversified and specialized, a variety of special-purpose lead-acid batteries have been developed to withstand a specific environment.

Accordingly, it was necessary to improve the occurrence of battery defects, vehicle damage and short circuits, and corrosion of bonnets and other major parts, which are caused by preventing electrolyte leakage due to inclination of the battery.

Therefore, the present invention is to propose an apparatus for preventing leakage of sulfuric acid for a lead acid battery.

Korean Patent Application No. 10-2000-72402 Korean Patent Publication No. 10-1220485

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

An object of the present invention is to be inserted into a fixed part molded in a cylindrical shape connected to the vent hole of the lead acid battery, and when the lead acid battery is inclined by about 30 degrees to 180 degrees and maintained in an inclined state for a certain period of time, the internal sulfuric acid solution It is intended to prevent leakage to the outside.

Specifically, when the lead acid battery is inclined beyond a certain angle, it is possible to prevent the explosion of the lead acid battery by preventing the leakage of the dilute sulfuric acid solution inside and discharging the sulfuric acid gas generated inside. To be able to.

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

A horizontal portion 110 inserted into the fixing portion 10 formed in a cylindrical shape connected to the vent hole 20; And

A ball storage part 120 formed below the horizontal part and storing a ball therein; And

One side is coupled to the lower surface of the horizontal portion is formed obliquely horizontal portion cover plate 130; And

It is stored in the ball storage unit, by moving left and right according to the inclination to move the horizontal part cover plate up and down to block or open the horizontal part (140); by configuring, including, to solve the problem of the present invention.

The device for preventing leakage of sulfuric acid for a lead acid battery according to the present invention,

When the lead acid battery is inserted into a fixed part molded in a cylindrical shape connected to the vent hole of the lead acid battery, and the lead acid battery is inclined by about 30 degrees to 180 degrees and maintained in an inclined state for a certain period of time, the internal sulfuric acid liquid leaks out to the outside. It provides an effect of preventing.

In other words, if the lead acid battery is inclined beyond a certain angle, it is possible to prevent the explosion of the lead acid battery by preventing the dilute sulfuric acid solution from leaking out and discharging the sulfuric acid gas generated inside. It will provide an effect.

1 is an exemplary view showing an upper cover showing a location of a vent hole and a horizontal portion of a general lead acid battery.
2 is an exemplary view showing a movement path through which the sulfuric acid solution stored in the lead acid battery moves.
3 is a front view of an apparatus for preventing sulfuric acid leakage for a lead acid battery according to an embodiment of the present invention, FIG. 4 is a side view, FIG. 5 is a plan view, and FIG. 6 is a bottom view.
7 is an internal perspective front view of an apparatus for preventing sulfuric acid leakage for a lead acid battery according to an embodiment of the present invention, FIG. 8 is a side view, FIG. 9 is a plan view, and FIG. 10 is a bottom view.
11 is a view in which the ball is moved when the device for preventing sulfuric acid leakage for a lead acid battery is inclined in a horizontal state according to an embodiment of the present invention to move the horizontal part cover plate 130 upward to seal the horizontal part 110 It is an exemplary diagram.

An apparatus for preventing leakage of sulfuric acid for a lead acid battery according to an embodiment of the present invention,

A horizontal portion 110 inserted into the fixing portion 10 formed in a cylindrical shape connected to the vent hole 20; And

A ball storage part 120 formed below the horizontal part and storing a ball therein; And

One side is coupled to the lower surface of the horizontal portion is formed obliquely horizontal portion cover plate 130; And

It is stored in the ball storage unit, and moving left and right according to the inclination to move the horizontal portion cover plate up and down to block or open the horizontal portion (140); characterized in that it comprises a.

At this time, the ball 140,

It is located on one side of the ball storage unit 120 when it is in a horizontal state, and when the lead acid battery is inclined, it moves to the other side of the ball storage unit by gravity and moves the horizontal cover plate upward to block the horizontal part, It is characterized in that it prevents the leakage of dilute sulfuric acid stored inside the lead acid battery.

At this time, the horizontal part cover plate 130,

It is characterized in that it is formed of any one of rubber, PET, and silicone materials.

At this time, as usual, the horizontal portion cover plate 130 is formed obliquely on the lower surface of the horizontal portion, so that the vaporized sulfuric acid gas can be discharged to the outside without sealing the horizontal portion, thereby preventing the explosion of the lead acid battery. do.

At this time, the ball storage unit 120,

A first side wall portion 121 having an upper side connected to the horizontal portion 110 and a lower portion extending downwardly inclined toward one side; and

A second side wall portion 122 having an upper side connected to the horizontal portion 110 on the opposite side of the first side wall portion and extending downwardly inclined to the other side, and having a lower end longer than the lower end height of the first side wall portion; And

Two third side wall portions 123 whose upper sides are connected to the horizontal portion 110 and both sides are connected to the first side wall portion and the second side wall portion; And

The circumference is connected to the lower end of the first side wall part, the second side wall part, and the third side wall part to form a ball receiving space in which the ball 140 is accommodated, and the inclined bottom part ( 124); characterized in that it is configured to include.

Hereinafter, it will be described in detail through an embodiment of an apparatus for preventing leakage of sulfuric acid for a lead acid battery according to the present invention.

1 is an exemplary view showing an upper cover showing a location of a vent hole and a horizontal portion of a typical lead acid battery.

2 is an exemplary view showing a movement path through which the sulfuric acid solution stored in the lead acid battery moves.

1 to 2, the vent hole of the lead acid battery is located in the upper cover 50.

At this time, the electrolyte stored inside the lead acid battery, for example, sulfuric acid solution, generates heat because the performance of the lead acid battery is greatly reduced when an inert material increases in the electrode plate due to long-term use.

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

In severe cases, the smell of sulfur gas may occur outside, and when such sulfuric acid gas is generated, the occurrence of gas in the lead acid battery may even double inside the lead acid battery, and in severe cases, leakage of sulfuric acid liquid may occur. And can have a great influence on stability.

In particular, when the lead acid battery is inclined by about 30 degrees to 180 degrees and maintained in an inclined state for a certain period of time, a phenomenon in which an internal sulfuric acid solution is leaked to the outside may occur.

Therefore, in the present invention, by inserting the sulfuric acid leakage prevention device for a lead acid battery into a cylindrical molded fixing part connected to the vent hole of the lead acid battery, the lead acid battery is inclined by about 30 degrees to 180 degrees to maintain the inclined state for a certain time. When maintained, the sulfuric acid solution inside was prevented from leaking to the outside.

In addition, in normal times, the vaporized sulfuric acid gas can be discharged to the outside, thereby preventing the lead acid battery from exploding.

3 is a front view of an apparatus for preventing sulfuric acid leakage for a lead acid battery according to an embodiment of the present invention, FIG. 4 is a side view, FIG. 5 is a plan view, and FIG. 6 is a bottom view.

7 is an internal perspective front view of an apparatus for preventing sulfuric acid leakage for a lead acid battery according to an embodiment of the present invention, FIG. 8 is a side view, FIG. 9 is a plan view, and FIG. 10 is a bottom view.

11 is a view in which the ball is moved when the device for preventing sulfuric acid leakage for a lead acid battery is inclined in a horizontal state according to an embodiment of the present invention to move the horizontal part cover plate 130 upward to seal the horizontal part 110 It is an exemplary diagram.

In general, as shown in FIGS. 1 to 2, an upper cover 50 is formed on the upper part of the lead acid battery, and an external flame flows into the lead acid battery through the vent hole 20. Explosion-proof filter to block it will be installed.

The explosion-proof filter is defined as Flame Arrester.

At this time, the present inventors for preventing leakage of sulfuric acid for a lead acid battery is to be inserted into the fixing part 10 formed in a cylindrical shape connected to the vent hole.

3 to 10, the sulfuric acid leakage prevention device for a lead acid battery according to an embodiment of the present invention includes a horizontal part 110, a ball storage part 120, a horizontal part cover plate 130, and a ball 140. ) Will be included.

Specifically, the horizontal portion 110 is to be inserted into the fixing portion 10 formed in a cylindrical shape connected to the vent hole 20.

In order to be inserted into the fixing unit as described above, it will preferably have a circular shape.

Meanwhile, according to an additional aspect, the horizontal part 110 may constitute a ring-shaped outer frame so that sulfuric acid gas is discharged naturally in normal times, and a mesh net may be coupled to the inside of the outer frame.

Meanwhile, according to another additional aspect, the horizontal portion is a ring-shaped outer frame; And

It characterized in that it comprises a; Gore-Tex network coupled to the inner side of the outer frame.

The ring-shaped outer frame is intended to be inserted into the fixing portion 10, and the Gore-Tex network is intended to provide air permeability for discharging gas normally.

At this time, the Gore-Tex network is a functional Gore-Tex fiber manufactured by laminating (special bonding) a polyester fabric to a fabric laminated with a Gore-Tex membrane, which is a material of e-PTFE, to provide waterproof and breathable properties. It is characterized by being able to.

The above-described Gore-Tex is a thin film in which a large number of small holes are formed by heating and stretching a Teflon-based resin, and the Gore-Tex fabric is adhered to the 　 nylon 　 cloth.

A thin film (film) with more than 9 billion microscopic pores per square inch, water molecules cannot pass through these microscopic pores, but can escape into the water vapor molecules inside.

This function of Gore-Tex was introduced into the lead acid battery, and if it is tilted through it, the electrolyte cannot escape from the inside of the lead acid battery, and the vaporized sulfuric acid gas escapes to the outside to prevent leakage and allow the gas to escape. It is designed to prevent leakage first and secondly to prevent leakage.

As shown in FIG. 3, the ball holding part 120 is formed under the horizontal part, and holds the ball therein.

In this case, when the ball stored therein is maintained horizontally and tilted, it has the structure of FIGS. 3 to 10 so that it can be naturally moved by gravity.

Preferably, the ball storage unit 120,

A first side wall portion 121 having an upper side connected to the horizontal portion 110 and a lower portion extending downwardly inclined toward one side; and

A second side wall portion 122 having an upper side connected to the horizontal portion 110 on the opposite side of the first side wall portion and extending downwardly inclined to the other side, and having a lower end longer than the lower end height of the first side wall portion; And

Two third side wall portions 123 whose upper sides are connected to the horizontal portion 110 and both sides are connected to the first side wall portion and the second side wall portion; And

The circumference is connected to the lower end of the first side wall part, the second side wall part, and the third side wall part to form a ball receiving space in which the ball 140 is accommodated, and the inclined bottom part ( 124); characterized in that it is configured to include.

Specifically, the upper side of the first side wall part 121 is connected to the horizontal part 110 and the lower part of the first side wall part 121 extends downwardly inclined to one side.

In addition, the second side wall portion 122 has an upper side connected to the horizontal portion 110 on the opposite side of the first side wall portion, and the lower portion extends downwardly inclined to the other side, but the lower end is longer than the lower height of the first side wall portion. It is characterized by consisting of.

When the first side wall is formed to be longer than the lower height of the first side wall, the ball exists in a position as shown in FIG. 8 in a normal horizontal state.

In addition, the two third side wall portions 123 have an upper side connected to the horizontal portion 110, and both sides thereof are connected to a first side wall portion and a second side wall portion.

At this time, the inclined bottom portion 124 has a circumference connected to the lower end of the first side wall portion, the second side wall portion, and the third side wall portion to form a ball receiving space in which the ball 140 is accommodated. .

In addition, it will be formed to be inclined from one side toward the other side.

On the other hand, according to an additional aspect, the inclined bottom portion 124 is an outer frame; And

It characterized in that it comprises a; Gore-Tex network coupled to the inner side of the outer frame.

The outer frame above is to prevent the balls located inside from being exposed to the outside by external impact, and the Gore-Tex network provides ventilation for normal gas discharge and at the same time prevents the balls located inside from leaking to the outside. It is to do.

On the other hand, according to another additional aspect, the inclined bottom portion is characterized in that the ball outflow prevention member is formed at a predetermined interval at a predetermined interval.

That is, the balls are formed at regular intervals in order to prevent the phenomenon from leaking to the outside.

In addition, the horizontal portion cover plate 130 is formed obliquely by coupling one side to the lower surface of the horizontal portion.

That is, as shown in FIG. 8, when the horizontal portion cover plate is partially coupled to one side of the horizontal portion, it is formed obliquely.

Therefore, when the ball is inclined, the horizontal part is sealed by moving the horizontal part cover plate upward, as shown in FIG. 11, and the leakage of sulfuric acid is prevented from flowing out through the vent hole according to the inclination.

In addition, preferably the horizontal portion cover plate 130,

It is characterized in that it is formed of any one of rubber, PET, and silicone materials.

In addition, the ball 140 is stored in a ball storage unit, and moves left and right according to an inclination to move the horizontal part cover plate up and down to perform a function of blocking or opening the horizontal part.

As shown in FIG. 11, as the ball moves in a normal horizontal state, the ball moves in contact with the horizontal cover plate to move the horizontal cover plate upward to block the horizontal portion.

Specifically, the ball 140,

It is located on one side of the ball storage unit 120 when it is in a horizontal state, and when the lead acid battery is inclined, it moves to the other side of the ball storage unit by gravity and moves the horizontal cover plate upward to block the horizontal part, It is characterized in that it prevents the leakage of dilute sulfuric acid stored inside the lead acid battery.

At this time, as shown in FIG. 2, the generated sulfuric acid gas can generally escape through the vent hole on the opposite side.

On the other hand, preferably, the device of the present invention is used exclusively for a lead acid battery for a vehicle, and a lead acid battery in an environment charged and discharged in a lying state is not applicable because there is a risk of explosion.

In addition, since the horizontal portion cover plate 130 is formed obliquely on the lower surface of the horizontal portion in normal times, the vaporized sulfuric acid gas can be discharged to the outside without sealing the horizontal portion, thereby preventing the explosion of the lead acid battery. do.

In the following, a test was conducted to check whether the leakage was leaked outside.

In order to prevent leakage of lead acid batteries, an inclination test was conducted with a conventional product according to the SAEJ3060 vehicle battery standard and an improved product having a sulfuric acid leakage prevention device for a lead acid battery of the present invention.

Table 1 below shows a lead acid battery with a capacity of 35AH after charging for 5 hours at a constant current rate of 20 hours (35Ah/20Hr = 1.75A) for 5 hours, and after waiting for 12 hours, the storage battery is fixed in the tilt tester and within the range of 30 to 80 degrees. This is the result of repeated experiments for 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 inclination was prevented through improved products compared to conventional products.

division Conventional product Improvement Tilt result Leakage occurs clear

In conclusion, the present invention, as shown in Figure 11, when the lead acid battery is inclined more than a certain angle, while preventing the leakage of the dilute sulfuric acid liquid inside, while the sulfuric acid gas generated inside during normal discharge is discharged. This is to provide the effect of preventing the explosion of the lead acid battery.

The general explosion-proof filter is made of a porous material, and has a function of discharging the gas inside the battery to the outside, and preventing the explosion of the lead acid battery by introducing an external flame into the lead acid battery.

At this time, when the explosion-proof filter is wet due to the leakage of sulfuric acid due to the inclination inside the storage battery, the sulfuric acid solution leaks through the vent hole.

In order to improve this, the device structure of the present invention was developed.

Through the application of the device of the present invention as described above, there is an effect that can greatly reduce the occurrence of battery failure due to leakage, vehicle damage and short circuit, and corrosion of bonnets and other major parts.

Through the present invention, when the lead acid battery is inclined beyond a certain angle, the dilute sulfuric acid solution is prevented from leaking out and the sulfuric acid gas generated inside can be discharged to prevent the explosion of the lead acid battery. It provides the effect that can be done.

Those skilled in the art to which the present invention with the above contents pertains will be able to understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the embodiments described above are exemplified in all respects and should be understood as non-limiting.

110: horizontal part
120: ball storage unit
130: horizontal part cover plate
140: ball

Claims (4)

In the sulfuric acid leakage prevention device for lead acid batteries,
A horizontal portion 110 inserted into the fixing portion 10 formed in a cylindrical shape connected to the vent hole 20; And
A ball storage part 120 formed below the horizontal part and storing a ball therein; And
One side is coupled to the lower surface of the horizontal portion is formed obliquely horizontal portion cover plate 130; And
A ball 140 stored in the ball storage unit and configured to block or open the horizontal part by moving the horizontal part cover plate up and down by moving left and right according to the inclination; preventing leakage of sulfuric acid for a lead acid battery, characterized in that it comprises Device.
The method of claim 1,
The ball 140,
It is located on one side of the ball storage unit 120 when it is in a horizontal state, and when the lead acid battery is inclined, it moves to the other side of the ball storage unit by gravity and moves the horizontal cover plate upward to block the horizontal part, A device for preventing leakage of sulfuric acid for a lead acid battery, characterized in that it prevents the leakage of dilute sulfuric acid stored inside the lead acid battery. The method of claim 1,
The horizontal part cover plate 130,
A device for preventing leakage of sulfuric acid for a lead acid battery, characterized in that it is formed of any one of rubber, PET, and silicone.
The method of claim 1,
Lead, characterized in that the horizontal part cover plate 130 is formed obliquely on the lower surface of the horizontal part, so that the vaporized sulfuric acid gas can be discharged to the outside without sealing the horizontal part, thereby preventing the explosion of the lead acid battery. A device for preventing leakage of sulfuric acid for storage batteries.

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