KR102651295B1 - Lead acid battery leakage prevention valve cap - Google Patents

Abstract

The present invention relates to a leak-proof valve cap for a lead acid battery. More specifically, a PP structure (specific gravity 0.91) lower than the electrolyte specific gravity (1.3) of the product is inserted into the valve cap of an AGM lead acid battery, so that the electrolyte flows into the valve cap. This relates to a lead-acid battery leak-proof valve cap that structurally prevents electrolyte from leaking out by blocking the vent hole by moving due to the difference in specific gravity.
By applying the structure of the present invention equally to the inside of the cap (no valve) of an MF lead acid battery with electrolyte fluidity, it provides the advantage of preventing electrolyte from leaking out.

Description

Lead acid battery leakage prevention valve cap}

The present invention relates to a leak-proof valve cap for a lead acid battery. More specifically, a PP structure (specific gravity 0.91) lower than the electrolyte specific gravity (1.3) of the product is inserted into the valve cap of an AGM lead acid battery, so that the electrolyte flows into the valve cap. This relates to a lead-acid battery leak-proof valve cap that structurally prevents electrolyte from leaking out by blocking the vent hole by moving due to the difference in specific gravity.

A lead acid battery is a secondary battery that can be charged and discharged through oxidation and reduction reactions between two electrode plates made of lead and lead oxide and sulfuric acid, which is an electrolyte.

A typical lead acid battery includes a plurality of electrode plates (positive and negative electrodes) arranged alternately and a separator that isolates the adjacent electrode plates, and the space other than the electrode plates and the separator is filled with sulfuric acid as an electrolyte.

As the lead acid battery described above has developed over a long period of time, it has acquired high reliability and stability that satisfies many of the characteristics required as a secondary battery, and is applied to various fields at an affordable price while showing a high degree of systematic technological completion.

Nevertheless, lead acid batteries have the inconvenience of having to periodically replenish water because the performance of the battery deteriorates as the water in the electrolyte decomposes during use. To solve this shortcoming, research is being conducted to seal lead acid batteries. there is.

As a result, the VRLA (Valve Regulated Lead Acid) battery, a type of sealed lead acid battery, was developed. The VRLA storage battery uses a special separator called Absorbent Glass Mat (AGM) that has the function of absorbing electrolyte, It has design differences such as application of high compression of the electrode plates and low resistance, and also has operational differences in that hydrogen gas and oxygen gas generated by water decomposition of the electrolyte during overcharging are reduced to the inside of the storage battery through a gas recombination reaction. .

In the case of sealed lead acid batteries such as VRLA storage batteries, when overcharging occurs, the electrolyte is electrolyzed and hydrogen gas and oxygen gas are generated, increasing the internal pressure of the battery. The pressure increase due to the generation of these gases reduces battery performance. Of course, this carries the risk of causing the battery case to explode.

Accordingly, there is a need to develop a means to regulate the internal pressure of the storage battery by discharging the gas generated inside the storage battery to the outside and simultaneously preventing the inflow of external air.

Conventional vent caps have a problem in that they require a lot of cost and time to manufacture because they have a body in which an insert and a valve are connected to each other.

On the other hand, AGM lead acid batteries do not have fluidity because the electrolyte is moistened in the separator (glass mat), but liquid droplets (vapor) generated internally during charging are concentrated at the bottom of the valve cap, resulting in partial electrolyte fluidity.

If these products are tilted more than 90 degrees during the vehicle battery installation process or in actual vehicle situations, the inflow of electrolyte exceeds the opening pressure of the valve cap, causing electrolyte to leak out through the gas vent inside the cap.

Therefore, when the electrolyte flows into the valve cap, a leak-proof valve cap for a lead acid battery was proposed to structurally prevent the electrolyte from leaking out by blocking the vent hole by moving due to the difference in specific gravity.

Republic of Korea Patent Publication No. 10-0627037

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

The purpose of the present invention is to insert a PP structure (specific gravity 0.91) lower than the electrolyte specific gravity (1.3) of the product inside the valve cap of an AGM lead acid battery, so that when the electrolyte flows into the valve cap, the vent hole is opened by movement due to the difference in specific gravity. The aim is to provide a lead acid battery leak-proof valve cap to structurally prevent electrolyte from leaking out.

In order to achieve the problem to be solved by the present invention, the lead acid battery leak-proof valve cap according to an embodiment of the present invention is,

A lower valve cap portion 100 having an internal space and a gas inlet hole 110 formed on the lower side; and

A vent hole 200 formed in the central portion of the lower valve cap portion 100 to discharge gas to the outside; and

It is located between the vent hole 200 and the gas inlet hole 110, and when the electrolyte flows in through the gas inlet hole 110, it moves in the direction of the vent hole 200 to block the vent hole. 300), the problem of the present invention is solved.

Through the lead acid battery leak-proof valve cap of the present invention, a PP structure (specific gravity 0.91) lower than the product's electrolyte specific gravity (1.3) is inserted into the AGM lead acid battery valve cap, so that when the electrolyte flows into the valve cap, the specific gravity difference This provides the effect of structurally preventing external outflow of electrolyte by blocking the vent hole.

By applying the structure of the present invention equally to the inside of the cap (no valve) of an MF lead acid battery with electrolyte fluidity, it provides the advantage of preventing electrolyte from leaking out.

1 is an internal front view of a lead acid battery leak-proof valve cap according to an embodiment of the present invention.
Figure 2 is an exemplary diagram showing an example in which the vent hole is blocked by a structure when the leak-proof valve cap of a lead acid battery according to an embodiment of the present invention is tilted at 90 degrees and electrolyte flows in.

A lead acid battery leak-proof valve cap according to an embodiment of the present invention,

A lower valve cap portion 100 having an internal space and a gas inlet hole 110 formed on the lower side; and

A vent hole 200 formed in the central portion of the lower valve cap portion 100 to discharge gas to the outside; and

It is located between the vent hole 200 and the gas inlet hole 110, and when the electrolyte flows in through the gas inlet hole 110, it moves in the direction of the vent hole 200 to block the vent hole. 300);

At this time, the leak prevention unit 300 is,

A circular leak-proof body 310 having a diameter smaller than the inner space diameter of the lower valve cap portion 100 and larger than the diameter of the vent hole 200;

A leak-proof protrusion 320 formed to protrude from the central portion of the leak-proof body 310 to block the vent hole and prevent the electrolyte from leaking out.

It is characterized by being configured to include a gas discharge hole portion 330 for providing gas flowing in through the gas inlet hole 110 to the vent hole 200.

At this time, the leak prevention unit 300 is,

A moving protrusion 340 is formed along the lower circumference of the leak-prevention body 310 to a certain length and supports the movement of the leak-prevention body 310 in the vent hole direction when electrolyte flows in. Do it as

At this time, the leak prevention unit 300 is,

Characterized by a structure having a specific gravity lower than that of the electrolyte,

The structure is,

It is characterized by being made of PP material.

At this time, when constructing the vertical guide rod 350 formed vertically below the vent hole, the vertical guide rod insertion hole 360 is formed in the center of the leakage-prevention protrusion 320, so that the vertical guide rod 350 ) is characterized in that the leak prevention part 300 serves as a guide that can move left and right along the line.

Hereinafter, the leak-proof valve cap for a lead acid battery according to the present invention will be described in detail through examples.

1 is an internal front view of a lead acid battery leak-proof valve cap according to an embodiment of the present invention.

Figure 2 is an exemplary diagram showing an example in which the vent hole is blocked by a structure when the leak-proof valve cap of a lead acid battery according to an embodiment of the present invention is tilted at 90 degrees and electrolyte flows in.

As shown in FIG. 1, the leak-proof valve cap for a lead acid battery according to the present invention is largely comprised of a lower valve cap portion 100, a vent hole 200, and a leak-prevention portion 300.

To explain in detail, the lower valve cap part 100 has an internal space and is characterized by a gas inlet hole 110 formed on the lower side.

At this time, as shown in Figure 1, the shape of the internal space is characterized by having a long sphere shape.

Therefore, when gas is introduced, it flows quickly through a narrow passage and provides the advantage of quickly reaching the vent hole.

At this time, a vent hole 200 is formed in the central portion of the lower valve cap portion 100 to discharge the gas flowing in through the gas inlet hole 110 to the outside.

At this time, the leakage prevention part 300 of the present invention is located between the vent hole 200 and the gas inlet hole 110, so that when the electrolyte flows in through the gas inlet hole 110, it flows in the direction of the vent hole 200. It moves and performs the function of blocking the vent hole.

In other words, gas is normally discharged naturally through the vent hole, but when electrolyte flows in, it moves in the direction of the vent hole and blocks the vent hole, preventing the electrolyte from being discharged to the outside.

In order to provide the above functions, the leakage prevention unit 300,

A circular leak-proof body 310 having a diameter smaller than the inner space diameter of the lower valve cap portion 100 and larger than the diameter of the vent hole 200;

A leak-proof protrusion 320 formed to protrude from the central portion of the leak-proof body 310 to block the vent hole and prevent the electrolyte from leaking out.

It is characterized by being configured to include a gas discharge hole portion 330 for providing gas flowing in through the gas inlet hole 110 to the vent hole 200.

As shown in FIG. 1, the circular leak-proof body 310 has a diameter smaller than the inner space diameter of the lower valve cap portion 100 and larger than the diameter of the vent hole 200.

Therefore, when it is tilted up and down or 90 degrees along the wall of the internal space, it moves left and right.

In addition, the leak-prevention protrusion 320 is formed to protrude from the central portion of the leak-prevention body 310 and functions to prevent the electrolyte from leaking out by blocking the vent hole.

For example, if the vent hole is 10 mm, the leak-prevention protrusion is formed at a certain height with a diameter slightly smaller than this.

In addition, a plurality of gas discharge holes 330 are formed at regular intervals to provide gas flowing in through the lower gas inlet hole 110 to the vent hole 200.

Meanwhile, as shown in Figures 1 and 2, the leakage prevention unit 300,

A moving protrusion 340 is formed along the lower circumference of the leak-prevention body 310 to a certain length and supports the movement of the leak-prevention body 310 in the vent hole direction when electrolyte flows in. Do it as

That is, the movable protrusion 340 is formed along the lower circumference of the leak-proof body 310 to a certain length to support the movement of the leak-proof body 310 in the vent hole direction when the electrolyte flows.

For example, when moving, it is possible to eliminate the phenomenon of moving at an angle.

Meanwhile, the leakage prevention unit 300,

Characterized by a structure having a specific gravity lower than that of the electrolyte,

The structure is,

It is characterized by being made of PP material.

Generally, the specific gravity of the electrolyte is around 1.3, so it is necessary to provide a structure with a lower specific gravity.

Therefore, the structure called the leakage prevention part is manufactured using PP material with a specific gravity of 0.91.

In the end, a PP structure (specific gravity 0.91) lower than the product's electrolyte specific gravity (1.3) was inserted inside the AGM lead acid battery valve cap to block the vent hole by moving due to the difference in specific gravity when the electrolyte flows into the valve cap. Structurally, it prevents the electrolyte from leaking out.

In addition, according to an additional aspect, when constructing the vertical guide rod 350 formed vertically below the vent hole, the vertical guide rod insertion hole 360 is formed at the center of the leakage prevention protrusion 320. , It is characterized in that the leak prevention part 300 serves as a guide that can move left and right along the vertical guide rod 350.

As shown in FIG. 2, a vertical guide rod 350 is formed vertically below the vent hole. At this time, a vertical guide rod insertion hole 360 is formed at the center of the leakage prevention protrusion 320, The liquid leak prevention part 300 serves as a guide that can move left and right along the vertical guide rod 350.

In other words, by configuring the vertical guide rod 350, when moving left and right, the leak prevention part 300 serves as a guide to smoothly move left and right along the vertical guide rod 350.

Through the above configuration, a PP structure (specific gravity 0.91) lower than the product's electrolyte specific gravity (1.3) is inserted inside the AGM lead acid battery valve cap, and when the electrolyte flows into the valve cap, the vent moves due to the difference in specific gravity. By blocking the hole, it provides the effect of structurally preventing electrolyte from leaking out.

By applying the structure of the present invention equally to the inside of the cap (no valve) of an MF lead acid battery with electrolyte fluidity, it provides the advantage of preventing electrolyte from leaking out.

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: lower valve cap part
200: vent hole
300: Leakage prevention unit

Claims (4)

In the lead acid battery leak-proof valve cap,
A lower valve cap portion 100 having an internal space and a gas inlet hole 110 formed on the lower side; and
A vent hole 200 formed in the central portion of the lower valve cap portion 100 to discharge gas to the outside; and
It is located between the vent hole 200 and the gas inlet hole 110, and when the electrolyte flows in through the gas inlet hole 110, it moves in the direction of the vent hole 200 to block the vent hole. 300); characterized in that it includes,
The leakage prevention unit 300,
A circular leak-proof body 310 having a diameter smaller than the inner space diameter of the lower valve cap portion 100 and larger than the diameter of the vent hole 200;
A leak-proof protrusion 320 formed to protrude from the central portion of the leak-proof body 310 to block the vent hole and prevent the electrolyte from leaking out.
A gas discharge hole 330 for providing gas flowing in through the gas inlet hole 110 to the vent hole 200;
A moving protrusion 340 is formed along the lower circumference of the leak-proof body 310 to a certain length and supports the movement of the leak-proof body 310 in the vent hole direction when the electrolyte flows. And
When constructing the vertical guide rod 350 formed vertically below the vent hole, the vertical guide rod insertion hole 360 is formed in the center of the leakage-prevention protrusion 320, thereby forming the vertical guide rod 350. It is characterized in that the leak prevention part 300 serves as a guide that can move left and right,
The leakage prevention unit 300,
Characterized by a structure having a specific gravity lower than that of the electrolyte,
The structure is,
A lead acid battery leak-proof valve cap characterized by being made of PP material.


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