KR102666288B1 - Main body for lead-acid battery including double leakage prevention structure - Google Patents

Abstract

The present invention relates to a main body for a lead acid battery including a double leakage prevention structure. More specifically, the electrolyte leakage prevention structure 350 for the cap primarily prevents electrolyte leakage, and the electrolyte leakage prevention maze portion 400 is used to prevent electrolyte leakage. In order to prevent electrolyte leakage secondarily, in case of severe tilt or large vibration, the electrolyte can only leak to the outside through the double leakage prevention structure, thereby preventing property damage. It relates to a main body for a lead acid battery including a leak-proof structure.

Description

Main body for lead-acid battery including double leakage prevention structure}

The present invention relates to a main body for a lead acid battery including a double leakage prevention structure. More specifically, the electrolyte leakage prevention structure 350 for the cap primarily prevents electrolyte leakage, and the electrolyte leakage prevention labyrinth portion 400 is used to prevent electrolyte leakage. In order to prevent electrolyte leakage secondarily, in case of severe tilt or large vibration, the electrolyte can only leak to the outside through the double leakage prevention structure, thereby preventing property damage. It relates to a main body for a lead acid battery including a leak-proof structure.

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 a main body for a lead acid battery including a double leakage prevention structure.

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 to prevent electrolyte leakage primarily through the cap electrolyte leakage prevention structure 350 and secondarily through the electrolyte leakage prevention maze portion 400 to prevent electrolyte leakage when the tilt is severe or The purpose is to prevent property damage by allowing the electrolyte to leak to the outside only through the double leak prevention structure when a large vibration occurs.

In order to achieve the problem to be solved by the present invention, a main body for a lead acid battery including a double leakage prevention structure according to an embodiment of the present invention,

A screw groove portion 200 formed at regular intervals on one side of the cover 100; and

A cap portion 300 that has threads 310 formed along its outer surface and can be coupled to the screw groove by turning;

The problem of the present invention is solved by including a maze portion 400 for preventing electrolyte leakage, which is formed in a zigzag shape at regular intervals on one side of the screw groove portion 200 to form an electrolyte leakage path 50. .

The main body for a lead acid battery including a double leakage prevention structure according to the present invention,

Electrolyte leakage is primarily prevented through the electrolyte leakage prevention structure for the cap (350), and electrolyte leakage is prevented secondarily through the electrolyte leakage prevention labyrinth portion (400), preventing excessive tilt or large vibration. In this case, the electrolyte can only leak to the outside through the double leak prevention structure, thereby providing the effect of preventing property damage.

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 a perspective view of a main body for a lead acid battery including a double leakage prevention structure according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of a main body for a lead acid battery including a double leakage prevention structure according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of the electrolyte leak prevention structure for the cap of the main body for a lead acid battery including a double leak prevention structure according to an embodiment of the present invention.

The main body for a lead acid battery including a double leak-proof structure according to an embodiment of the present invention,

A screw groove portion 200 formed at regular intervals on one side of the cover 100; and

A cap portion 300 that has threads 310 formed along its outer surface and can be coupled to the screw groove by turning;

It is characterized by comprising a maze portion 400 for preventing electrolyte leakage, which is formed in a zigzag shape at regular intervals on one side of the screw groove portion 200 to form an electrolyte leakage path 50.

At this time, the cap portion 300 is,

It is characterized by providing an electrolyte leakage path 70 for the cap in a zigzag shape by forming an electrolyte leakage prevention structure 350 for the cap inside.

In addition, the cap electrolyte leak prevention structure 350 is,

An internal space 351 formed of a certain size; and

A first horizontal portion 352 formed horizontally to a certain length at a certain location in the inner space; and

A first vertical part 353 formed perpendicularly to a certain length on both sides of the first horizontal part; and

Each of the first vertical parts is formed to have a certain length perpendicularly at a certain distance apart from each other, and the upper end is connected to the second horizontal part and the lower end is formed to be spaced apart from the first horizontal part at a certain distance so that the tear fluid moves. A second vertical portion 354 forming a gap that can be opened; and

A second horizontal part 355 is formed horizontally to a certain length, the lower surface of which is in contact with one side of each second vertical part, and a gas discharge hole 370 is formed in the central part. It is characterized by

Meanwhile, according to an additional aspect, an acid-resistant rubber O-ring portion 500 is formed between the screw groove portion 200 and the cap portion 300 to reduce the gap between the screw groove portion and the cap portion when the cap portion is rotated and coupled to the screw groove portion. It is characterized by being preventable.

At this time, the main body for the lead acid battery of the present invention,

By preventing electrolyte leakage primarily through the cap electrolyte leakage prevention structure 350 and secondarily preventing electrolyte leakage through the electrolyte leakage prevention maze part 400, a double leakage prevention function can be performed. It is characterized by having

In addition, the cap portion 300,

By forming a gas discharge hole 370 on the upper side, sulfuric acid gas can be discharged to prevent explosion of the lead acid battery.

In addition, the main body for the lead acid battery,

By performing a double leak prevention function, it is characterized by preventing evaporation of moisture in the electrolyte stored inside the main body, thereby preventing liquid depletion, which is the cause of the end of life.

Hereinafter, a main body for a lead acid battery including a double leakage prevention structure according to the present invention will be described in detail through an example.

Figure 1 is a diagram showing the top cover and lid of a typical lead acid battery, and is an example diagram showing the movement path of electrolyte leakage.

As shown in Figure 1, the vent hole of the lead acid battery is located in the top cover.

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 on the side of the upper cover. This may occur when H ₂ O and H ₂ SO ₄ coexisting in the electrolyte react by heat, causing the gas to leak out.

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, electrolyte leakage is primarily prevented through the cap electrolyte leakage prevention structure 350, and electrolyte leakage is prevented secondarily through the electrolyte leakage prevention maze portion 400, so that when the tilt is severe or When a large vibration occurs, the electrolyte can only leak to the outside through the double leakage prevention structure, thereby providing a structure that prevents property damage.

Figure 2 is a perspective view of a main body for a lead acid battery including a double leakage prevention structure according to an embodiment of the present invention.

Figure 3 is a cross-sectional view of a main body for a lead acid battery including a double leakage prevention structure according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the electrolyte leak prevention structure for the cap of the main body for a lead acid battery including a double leak prevention structure according to an embodiment of the present invention.

As shown in Figure 2, the main body for a lead acid battery including a double leakage prevention structure,

A screw groove portion 200 formed at regular intervals on one side of the cover 100; and

A cap portion 300 that has threads 310 formed along its outer surface and can be coupled to the screw groove by turning;

It is characterized by comprising a maze portion 400 for preventing electrolyte leakage, which is formed in a zigzag shape at regular intervals on one side of the screw groove portion 200 to form an electrolyte leakage path 50.

To explain specifically, the screw grooves 200 are formed at regular intervals on one side of the cover 100. As shown in FIG. 2, three or more are formed at regular intervals on the upper side of the cover. , the corresponding area is covered by the upper cover 150.

At this time, the cap portion 300, in which threads 310 are formed along the outer surface, is rotated and coupled to the thread groove.

And, by forming an electrolyte leak prevention maze portion 400 in a zigzag shape at regular intervals on one side of the screw groove portion 200, an electrolyte leak path 50 is formed.

In this way, the rapid leakage of the electrolyte can be delayed by the maze structure.

The maze portion for preventing electrolyte leakage is formed between the partition walls formed between the screw grooves. For example, a first horizontal protrusion is formed horizontally on one partition and a position is spaced apart from the first horizontal protrusion at a predetermined distance. In this way, a second horizontal protrusion is formed horizontally on the other partition.

If a large number are formed in this way, a zigzag-shaped maze for preventing electrolyte leakage is formed.

In addition, as shown in FIG. 3, the cap portion 300,

By forming an electrolyte leak prevention structure 350 for the cap inside, an electrolyte leak path 70 for the cap in a zigzag shape is provided.

Therefore, the main body for the lead acid battery,

By preventing electrolyte leakage primarily through the cap electrolyte leakage prevention structure 350 and secondarily preventing electrolyte leakage through the electrolyte leakage prevention maze part 400, a double leakage prevention function can be performed. It will exist.

In other words, if the double leak prevention structure as described above is provided, when electrolyte leaks from the liquid injection port, the path from the liquid injection port to the vent hole is made into a labyrinth structure, thereby reducing the backflow speed of the electrolyte when the lead acid battery is tilted or vibrates. This provides the effect that can be delayed as much as possible.

In other words, a labyrinth tear fluid movement path is provided to provide a structure that is more difficult to move than the conventional general vent path structure.

Therefore, the main body for the lead acid battery,

By performing a double leak prevention function, it prevents evaporation of moisture from the electrolyte stored inside the main body, providing the effect of preventing liquid depletion, which is the cause of the end of life.

Meanwhile, the cap electrolyte leak prevention structure 350 is,

An internal space 351 formed of a certain size; and

A first horizontal portion 352 formed horizontally to a certain length at a certain location in the inner space; and

A first vertical part 353 formed perpendicularly to a certain length on both sides of the first horizontal part; and

Each of the first vertical parts is formed to have a certain length perpendicular to the position spaced apart from each other at a certain distance, and the upper end is connected to the second horizontal part and the lower end is formed to be spaced apart from the first horizontal part at a certain distance so that the tear fluid moves. a second vertical portion 354 forming a gap that can be

A second horizontal portion 355 is formed horizontally to a certain length, the lower surface of which is in contact with one side of each second vertical portion, and a gas discharge hole portion 370 is formed in the central portion. It is characterized by

Specifically, as shown in FIG. 4, the internal space 351 is formed with a certain size.

At this time, a first horizontal portion 352 is formed horizontally at a certain length at a certain location in the interior space, for example, at the center of the interior space.

In addition, first vertical parts 353 are formed perpendicularly to a certain length on both sides of the first horizontal part.

In addition, second vertical parts 354 are formed perpendicularly to a certain length at positions spaced apart from each of the first vertical parts by a certain distance.

At this time, the upper end of each second vertical part is connected to the second horizontal part, and the lower end is spaced apart from the first horizontal part at a certain distance to form a gap through which tear fluid can move.

In addition, the second horizontal portion 355 is formed horizontally to a certain length, and the lower surface is in contact with one side of each second vertical portion, and a gas discharge hole portion 370 is formed in the central portion.

Therefore, with the above components, it is possible to provide an electrolyte leakage path 70 for the cap in a zigzag shape as shown in FIG. 4.

In addition, when the cap part 300 is configured as above, a gas discharge hole part 370 is formed on the upper side, so that sulfuric acid gas can be discharged under normal conditions, thereby preventing the explosion of the lead acid battery.

Meanwhile, according to an additional aspect, as shown in FIG. 3, when an acid-resistant rubber O-ring portion 500 is formed between the screw groove portion 200 and the cap portion 300 and the cap portion is rotated and coupled to the screw groove portion. This provides the effect of preventing clearance between the screw groove portion and the cap portion.

When a gap occurs, the electrolyte leaks through the gap, shortening the maze's path and making it easily exposed to the outside. Therefore, the rubber O-ring part is formed as described above, and the reason it is acid-resistant is because it is corroded by sulfuric acid. This is to prevent damage or damage.

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 an improved product having a lead acid battery body including the double leak prevention structure of the present invention 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 tilting it within the range of 90 to 180 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 prevents the explosion of a lead-acid battery by preventing the leakage of the dilute sulfuric acid solution (electrolyte) inside the battery when the lead-acid battery is tilted, and by allowing the sulfuric acid gas normally generated inside to be discharged. It provides an effective effect.

When the body of the present invention as described above is applied to a lead acid battery, there is an effect of greatly reducing battery defects due to leakage, vehicle damage and short circuit, and corrosion of the bonnet and other major parts.

Through the present invention, electrolyte leakage is primarily prevented through the cap electrolyte leakage prevention structure 350, and electrolyte leakage is prevented secondarily through the electrolyte leakage prevention labyrinth portion 400, so that when the tilt is severe or When a large vibration occurs, the electrolyte can only leak to the outside through the double leakage prevention structure, thereby preventing property damage.

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: cover
200: Screw groove part
300: Cap part
400: Maze part to prevent electrolyte leakage

Claims (5)

In the main body for a lead acid battery including a double leak-proof structure,
A screw groove portion 200 formed at regular intervals on one side of the cover 100; and
A cap portion 300 that has threads 310 formed along its outer surface and can be coupled to the screw groove by turning;
It is configured to include a maze portion 400 for preventing electrolyte leakage, which is formed in a zigzag shape at regular intervals on one side of the screw groove portion 200 to form an electrolyte leakage path 50,
The cap portion 300 is,
It is characterized by providing an electrolyte leakage path 70 for the cap in a zigzag shape by forming an electrolyte leakage prevention structure 350 for the cap inside,
The cap electrolyte leak prevention structure 350 is,
An internal space 351 formed of a certain size; and
A first horizontal portion 352 formed horizontally to a certain length at a certain location in the inner space; and
A first vertical part 353 formed perpendicularly to a certain length on both sides of the first horizontal part; and
Each of the first vertical parts is formed to have a certain length perpendicular to the position spaced apart from each other at a certain distance, and the upper end is connected to the second horizontal part and the lower end is formed to be spaced apart from the first horizontal part at a certain distance so that the tear fluid moves. a second vertical portion 354 forming a gap that can be
A second horizontal portion 355 is formed horizontally to a certain length, the lower surface of which is in contact with one side of each second vertical portion, and a gas discharge hole portion 370 is formed in the central portion. Characterized by
An acid-resistant rubber O-ring portion 500 is formed between the screw groove portion 200 and the cap portion 300 to prevent clearance between the screw groove portion and the cap portion when the cap portion is rotated and coupled to the screw groove portion. ,
The main body for the lead acid battery,
By preventing electrolyte leakage primarily through the cap electrolyte leakage prevention structure 350 and secondarily preventing electrolyte leakage through the electrolyte leakage prevention maze part 400, a double leakage prevention function can be performed. It is characterized by having,
The main body for the lead acid battery,
By performing a double leak prevention function, it is characterized by preventing evaporation of moisture in the electrolyte stored inside the main body and preventing liquid depletion, which is the cause of the end of life.
The cap portion 300 is,
A main body for a lead-acid battery including a double leak-proof structure, which prevents the explosion of the lead-acid battery by forming a gas discharge hole 370 on the upper side to allow sulfuric acid gas to be discharged.
delete delete delete delete