KR102580196B1 - Thermal runaway detection device that can be applied to VRLA batteries for UPS - Google Patents

Abstract

The present invention relates to a thermal runaway detection device that can be applied to VRLA batteries for UPS, and more specifically, to a VRLA battery used as an emergency power supply (UPS) in a telephone office or data center, when floating and charging. Heat that can be applied to VRLA batteries for UPS to enable users to easily recognize product abnormalities such as thermal runaway by forming a rotating fan and whistle part in the vent hole to easily check the amount of gas emissions visually and audibly. It is about a congestion detection device.

Description

Thermal runaway detection device that can be applied to VRLA batteries for UPS}

The present invention relates to a thermal runaway detection device that can be applied to VRLA batteries for UPS, and more specifically, to a VRLA battery used as an emergency power supply (UPS) in a telephone office or data center, when floating and charging. Heat that can be applied to VRLA batteries for UPS to enable users to easily recognize product abnormalities such as thermal runaway by forming a rotating fan and whistle part in the vent hole to easily check the amount of gas emissions visually and audibly. It is about a congestion detection device.

According to the conventional configuration of VRLA batteries used as emergency power supplies (UPS) in telephone offices and data centers, most automatic gas fire extinguishing devices are used to extinguish fires in the event of a fire. In addition to maximizing the fire extinguishing function of the fire extinguishing device, dust prevention and Since it is not built in a sealed form to maintain temperature and humidity, or does not control the exhaust device, it is difficult to prevent explosion due to the generation of combustible gas in the battery.

Therefore, it is necessary to take immediate action upon detection of flammable gas.

Meanwhile, fires of unknown origin have occurred frequently in energy storage devices recently, and accordingly, measures and systems to strengthen safety at the government level are being financed and researched, and foreign standard-setting organizations such as NFPA are also conducting active research by analyzing various causes. In reality, research and related inventions on strengthening the stability of energy storage devices using lithium secondary batteries are needed.

To explain more specifically, emergency power supply devices used in telephone offices and data centers are installed and operated to provide normal services to customers even when electricity supply is cut off in the relevant jurisdiction due to natural disaster or excessive power usage.

A typical power supply device connects 200 to 1,000 VRLA batteries simultaneously to form one group, and maintains a fully charged state for immediate electricity supply in an emergency.

In order to maintain a fully charged state, the battery is floating charged at a certain voltage. Under normal circumstances, no gas is generated, but if the battery electrolyte moisture content falls below 85% due to defective battery units or prolonged use, gas is generated due to water decomposition. This increases rapidly, and the battery voltage and temperature increase rapidly.

This phenomenon is called thermal runaway.

In a system where multiple products are connected, when a problem occurs in one or more products, the charging voltage of normal products excluding the problematic battery is lowered, which can cause capacity deterioration and early termination of product life due to sulfation. do.

Additionally, in order to find problematic batteries in the system, the voltage and resistance of each product must be measured, which requires a lot of time and manpower.

Therefore, there is a need for technology that can easily check the instantaneous gas emissions visually and audibly.

Republic of Korea Public Patent No. 10-2021-0058155

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

The purpose of the present invention is to form a rotating fan and whistle part in the vent hole that can easily check the amount of gas emissions visually and audibly when floating charging a VRLA battery used as an emergency power supply (UPS) in a telephone office or data center. The purpose is to easily recognize product abnormalities such as heating runaway.

In order to achieve the problem to be solved by the present invention, a thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention is,

Discharging means 100 having a vent hole 150 formed on the upper side; and

A rotating shaft 200 connected to a discharge means on one side and formed at a certain length so that the other side penetrates the vent hole; and

A rotating fan 250 formed on the rotating shaft and rotated by gas passing through the vent hole; and

A whistle-type cover plate 300 formed on the upper side of the rotating fan to prevent damage to the rotating fan located inside, and forming a whistle part 400 on one side; and

The problem of the present invention is solved by including a whistle part 400, which is formed on one side of the whistle-type cover plate and generates a sound when the gas passing through the rotating fan is discharged to the outside.

The thermal runaway detection device applicable to the VRLA battery for UPS according to the present invention is,

When floating charging a VRLA battery used as an emergency power supply (UPS) in a telephone office or data center, a rotating fan and whistle part are formed in the vent hole to easily check the instantaneous gas emissions visually and audibly, preventing the user from experiencing thermal runaway. By making it easy to recognize product abnormalities, users can detect the product early and disconnect it from the battery system in the event of thermal runaway, preventing the problem from spreading to other products in the battery system and increasing the overall battery system lifespan. This provides the effect of reducing operating costs.

Figure 1 is a cross-sectional view of a thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention mounted on the discharge means 100 in which the vent hole 150 is formed.
Figure 2 is a plan view showing an example in which the rotating fan 250 of a thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention is rotated by discharged gas.

A thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention,

Discharging means 100 having a vent hole 150 formed on the upper side; and

A rotating shaft 200 connected to a discharge means on one side and formed at a certain length so that the other side penetrates the vent hole; and

A rotating fan 250 formed on the rotating shaft and rotated by gas passing through the vent hole; and

A whistle-type cover plate 300 formed on the upper side of the rotating fan to prevent damage to the rotating fan located inside, and forming a whistle part 400 on one side; and

It is characterized in that it is configured to include; a whistle part 400 formed on one side of the whistle-type cover plate to generate a sound when the gas that has passed through the rotating fan is discharged to the outside.

At this time, the whistle unit 400,

A lower whistle frame 410 formed with one side horizontally to a certain length on one vertical portion 310 forming the whistle-type cover plate 300; and

It is comprised of an upper whistle frame 420, one side of which is formed horizontally to a certain length on the other vertical part 310 of the whistle-type cover plate 300,

The lower whistle frame 410 and the upper whistle frame 420 are engaged to form a gap, so that sound is generated when gas passing through the rotating fan passes through the gap.

At this time, the rotating fan 250 is,

It is characterized by alternately forming different colors on the blades so that the rotation speed of the fan can be visually checked.

At this time, the color is alternately white and red, so that when the rotation speed increases, it appears red, allowing quick confirmation that a problem has occurred.

At this time, the whistle-type cover plate 300 is,

It is characterized by being made of a transparent material so that the rotation speed of the rotating fan formed on the lower side can be visually confirmed.

The thermal runaway detection device of the present invention,

By using the sound generated by the whistle unit 400, the area where the problem occurred in the battery room is limited, and the rotation speed of the rotating fan 250 can be visually confirmed, thereby specifying the product in which the problem occurred. When thermal runaway occurs in a product, the user can prevent the problem from spreading to other products in the UPS system by separating the specific product from the UPS system.

Hereinafter, the thermal runaway detection device applicable to the VRLA battery for UPS according to the present invention will be described in detail through an example.

Figure 1 is a cross-sectional view of a thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention mounted on the discharge means 100 in which the vent hole 150 is formed.

Figure 2 is a plan view showing an example in which the rotating fan 250 of a thermal runaway detection device applicable to VRLA batteries for UPS according to an embodiment of the present invention is rotated by discharged gas.

As shown in FIG. 1, the thermal runaway detection device applicable to the VRLA battery for UPS according to the present invention includes an discharge means 100, a rotating shaft 200, a rotating fan 250, and a whistle-type cover plate 300. ), and is composed of a whistle unit 400.

To explain specifically, VRLA batteries for UPS generally include a discharge means 100 with a vent hole 150 formed on the upper side.

Since the configuration of the discharge means configured with the vent hole is a technology widely known to those skilled in the art, the purpose to be solved by the present invention can be easily understood even if detailed description is omitted.

At this time, a discharge means is connected to the rotating shaft 200 on one side, and the other side is formed to have a certain length so as to penetrate the vent hole.

Then, a rotating fan 250 is formed on the rotating shaft so that it is rotated by the gas passing through the vent hole.

In other words, when a thermal runaway phenomenon occurs, excessively generated gas escapes from the vent hole of the battery at high speed and rotates the rotating fan.

At this time, according to an additional aspect, the rotating fan 250,

It is characterized by alternately forming different colors on the blades so that the rotation speed of the fan can be visually checked.

In other words, as the rotation speed of the fan increases, the rotation speed of the fan can be visually confirmed by alternately painting the fan with different colors.

At this time, in order to check the rotation speed more clearly, the colors are alternately white and red.

Therefore, the faster the rotation speed, the more red it appears, allowing you to quickly confirm that a problem has occurred.

Meanwhile, according to an additional aspect, damage to the rotating fan located inside is prevented by forming a whistle-type cover plate 300 as shown in FIG. 1 on the upper side of the rotating fan.

At this time, a whistle part 400 is formed on one side of the whistle-type cover plate 300.

Specifically, the whistle-type cover plate 300,

It is characterized by being made of a transparent material so that the rotation speed of the rotating fan formed on the lower side can be visually confirmed.

That is, in the case of the cover plate, since it is formed on the upper side of the discharge means 100, it is made of a transparent material so that the rotation speed of the rotating fan on the lower side can be visually confirmed.

At this time, by forming a whistle part 400 on one side of the whistle-type cover plate, a sound is generated when the gas passing through the rotating fan is discharged to the outside.

In other words, by providing a whistle structure, when gas flows in, it is notified with a beeping sound.

In order to perform the above function, the whistle unit 400,

A lower whistle frame 410 formed with one side horizontally to a certain length on one vertical portion 310 forming the whistle-type cover plate 300; and

It is configured to include an upper whistle frame 420 whose one side is formed horizontally to a certain length on the other vertical part 310 forming the whistle-type cover plate 300.

That is, the lower whistle frame 410 is formed with one side horizontally and of a certain length on one vertical portion 310 forming the whistle-type cover plate 300.

In addition, an upper whistle frame 420 is formed with one side horizontally and of a certain length on the other vertical portion 310 forming the whistle-type cover plate 300.

At this time, as shown in FIG. 1, the lower whistle frame 410 and the upper whistle frame 420 are meshed to form a gap, so that when the gas passing through the rotating fan passes through the gap, It is characterized by the generation of sound.

That is, since a gap is formed between the lower whistle frame 410 and the upper whistle frame 420, gas passes through the gap, and sound is generated as the gas passes.

Ultimately, the thermal runaway detection device of the present invention,

By using the sound generated by the whistle unit 400, the area where the problem occurred in the battery room is limited, and the rotation speed of the rotating fan 250 can be visually confirmed, thereby specifying the product in which the problem occurred. When thermal runaway occurs in a product, the user can isolate the specific product from the UPS system, thereby preventing the problem from spreading to other products in the UPS system.

In conclusion, the present invention forms a rotating fan and whistle part in the vent hole that allows the instantaneous gas emission amount to be easily checked visually and audibly when floating charging a VRLA battery used as an emergency power supply (UPS) in a telephone office or data center. By enabling users to easily recognize product abnormalities such as thermal runaway, when thermal runaway occurs, users can detect the product early and disconnect it from the battery system, preventing the problem from spreading to other products in the battery system. This provides the effect of reducing operating costs by increasing the overall battery system lifespan.

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: Discharge means
200: rotation axis
250: Rotating fan
300: Whistle type cover plate
400: Whistle part

Claims (5)

In the thermal runaway detection device applicable to VRLA batteries for UPS,
Discharging means 100 having a vent hole 150 formed on the upper side; and
A rotating shaft 200 connected to a discharge means on one side and formed at a certain length so that the other side penetrates the vent hole; and
A rotating fan 250 formed on the rotating shaft and rotated by gas passing through the vent hole; and
A whistle-type cover plate (300) formed on the upper side of the rotating fan to prevent damage to the rotating fan located inside, and forming a whistle part (400) on one side. Thermal runaway detection device applicable to VRLA batteries.
According to clause 1,
VRLA for UPS, characterized in that it further includes a whistle part (400) formed on one side of the whistle-type cover plate and generating a sound when the gas that has passed through the rotating fan is discharged to the outside. A thermal runaway detection device applicable to batteries.
According to clause 1,
The rotating fan 250,
A thermal runaway detection device applicable to VRLA batteries for UPS, characterized in that the blades are alternately colored in different colors so that the rotation speed of the fan can be visually checked.
According to clause 1,
The thermal runaway detection device,
By using the sound generated by the whistle unit 400, the problem area in the battery room can be defined, and the rotation speed of the rotating fan 250 can be visually confirmed, allowing the product with the problem to be identified. A thermal runaway detection device applicable to VRLA batteries for UPS, characterized in that:
According to clause 4,
The thermal runaway detection device,
Applicable to VRLA batteries for UPS, which is characterized in that when thermal runaway occurs in a specific product, the user can prevent the problem from spreading to other products in the UPS system by separating the specific product from the UPS system. A thermal runaway detection device that can.