KR102444125B1 - Apparatus and method for detecting battery module sweelling - Google Patents

Abstract

In the method for detecting sweating of a battery module according to an embodiment of the present invention, a battery state checking step of confirming which state the battery module is in a charging/discharging/rest state, the battery module before the cooling fan operates A first temperature measuring step of measuring the internal / external temperature of the cooling fan operating step of operating the cooling fan for a predetermined period based on the state of the battery module and the temperature of the battery module measured in the first temperature measuring step, After performing the cooling fan operation step, the battery module measured in the second temperature measuring step of measuring the temperature of the battery module and the temperature of the battery module measured in the first temperature measuring step and the second temperature measuring step It may be configured to include a swelling determination step of determining the swelling of the battery module based on the temperature of

Description

Apparatus and method for detecting swelling of a battery module

The present invention relates to an apparatus and method for detecting swelling of a battery module.

More specifically, it relates to an apparatus and method for detecting swelling of a battery module based on a temperature sensor without a flow meter.

Due to the rapid increase in the use of fossil fuels, the demand for the use of alternative energy or clean energy is increasing.

Currently, a battery is a typical example of an electrochemical device using such electrochemical energy, and its use area is gradually expanding.

In recent years, as technology development and demand for portable devices such as portable computers, portable phones, and cameras increase, the demand for batteries as an energy source is rapidly increasing. A lot of research has been done on a lithium battery having a low self-discharge rate, and it has also been commercialized and widely used.

In particular, the pouch-type battery has excellent product applicability because it can change the structure of various shapes according to customer needs, and is advantageous for small-volume production of various types compared to batteries using a battery case in the form of a metal can.

However, the pouch-type lithium ion battery swells due to the gas generated during decomposition of the electrolyte inside the battery, which is called electrolyte swelling. Since decomposition of the electrolyte is accelerated at a high temperature, the swelling phenomenon is accelerated when the battery is left at a high temperature. This is because, when the temperature of the battery increases, the electrolyte decomposes or a side reaction occurs to generate gases such as carbon dioxide or carbon monoxide, thereby increasing the thickness of the battery.

If the battery in which the swelling has occurred is continuously used as described above, the lifespan and stability of the battery may be affected.

Meanwhile, as a prior art for detecting swelling of a battery, there is a technique for detecting swelling of a battery module by mounting a separate pressure sensor on the battery module.

In another prior art, a flow meter for measuring the flow rate of a cooling fan for cooling the battery is mounted, and based on the flow rate measured by the flow meter, it is determined whether the battery module has swelled.

However, in these conventional technologies, since a separate element (pressure sensor or flow meter) is mounted on the battery module, the cost increases, and the use of the internal space of the battery module is not efficient.

Therefore, the present invention proposes a method of detecting swelling of a battery module without mounting a separate device.

Japanese Laid-Open Patent Publication JP 2012-110129 A

The present invention provides a method for determining whether a battery module has swollen without mounting a separate device.

More specifically, a method of determining whether a battery module has swollen based on a temperature change of the battery module is provided.

In the method for detecting sweating of a battery module according to an embodiment of the present invention, a battery state checking step of confirming which state the battery module is in a charging/discharging/rest state, the battery module before the cooling fan operates A first temperature measuring step of measuring the internal / external temperature of the cooling fan operating step of operating the cooling fan for a predetermined period based on the state of the battery module and the temperature of the battery module measured in the first temperature measuring step, After performing the cooling fan operation step, the battery module measured in the second temperature measuring step of measuring the temperature of the battery module and the temperature of the battery module measured in the first temperature measuring step and the second temperature measuring step It may be configured to include a swelling determination step of determining the swelling of the battery module based on the temperature of

The first temperature measuring step may include: a first external temperature measuring step of measuring an external temperature of the battery module before the cooling fan operation, a second internal temperature measuring step of measuring an internal temperature of the battery module before the cooling fan operation; and, the second temperature measuring step may include a second internal temperature measuring step of measuring the internal temperature of the battery module after performing the cooling fan operation step.

In the cooling fan operation step, when the battery module is in the idle state and the external temperature of the battery module and the internal temperature of the battery module measured in the first temperature measuring step are equal to or higher than a preset cooling fan operating temperature, the cooling fan is turned on to the predetermined can be operated for a period of

The predetermined period for operating the cooling fan may be set according to the external temperature of the battery module, the internal temperature of the battery module, and the target temperature of the battery module measured in the first temperature measuring step.

In the determining of swelling, when the temperature difference between the target temperature of the battery module and the temperature of the battery module measured in the second temperature measuring step is within a preset temperature range after performing the cooling fan operation step, swelling When it is determined that there is no temperature difference between the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measurement step is out of a preset temperature range, it may be determined that there is swelling.

According to another embodiment of the present invention, there is provided a method for detecting swaging of a battery module, a battery state checking step of confirming which state the battery module is in a charging/discharging/rest state, and the battery before the cooling fan operates. A temperature measuring step of measuring the temperature of the module, a cooling fan operating step of operating a cooling fan based on the state of the battery module and the temperature of the battery module measured in the temperature measuring step, a cooling fan operating in the cooling fan operating step It may be configured to include a swelling determination step of determining the swelling of the battery module based on the period.

In the cooling fan operation step, when the battery module is in an idle state, and the external temperature of the battery module and the internal temperature of the battery module measured in the temperature measuring step are equal to or greater than a preset cooling fan operating temperature, the temperature of the battery module is set to a preset The cooling fan may be operated until a target temperature of

In the determining of swelling, when a period in which the cooling fan operates until the temperature of the battery module reaches a predetermined target temperature exceeds a predetermined reference period, it is determined that there is swelling, and the When the period for operating the cooling fan until the temperature of the battery module reaches a predetermined temperature is less than or equal to a predetermined reference period, it may be determined that there is no swelling.

The ESS device for performing the battery module swelling detection method according to an embodiment of the present invention includes a BMS (control unit), a plurality of battery modules, a cooling fan for cooling the plurality of battery modules, the BMS, a cooling fan, and a plurality of batteries A case in which the module is mounted, an external temperature measuring unit for measuring the external temperature of the case, and an internal temperature measuring unit for measuring the internal temperature of the case, the BMS, the plurality of battery modules charging, discharging, A battery status check module for determining which state is in a rest state, a cooling fan control module for controlling the cooling fan, a swelling determination module for determining whether the plurality of battery modules have swollen, and the plurality of battery modules. A controller for charging, discharging, and balancing may be configured to include a memory in which control reference data of the BMS is stored.

The cooling fan control module may operate the cooling fans for a predetermined period when the plurality of battery modules are in an idle state and the internal temperature is equal to or greater than a predetermined cooling fan operation reference temperature.

The predetermined period for operating the cooling fan is set according to the external temperature of the ESS, the internal temperature of the ESS, and the target temperature of the ESS measured before the cooling fan is operated, and the swelling determination module is measured after the cooling fan is operated If the difference between the internal temperature of the ESS and the target temperature of the ESS is within a preset temperature range, it is determined that there is no swelling, and the difference between the internal temperature of the ESS and the target temperature of the ESS measured after the cooling fan is operated is the preset temperature If it is out of range, it can be judged that there is swelling.

Meanwhile, the cooling fan control module operates the cooling fan until the ESS reaches a target temperature when the ESS is in the idle state and the internal temperature of the ESS is equal to or higher than a predetermined cooling fan operation reference temperature, and the cooling fan may be transmitted to the swelling determination module.

The swelling determination module is configured to determine that there is swelling when a period in which the cooling fan operates until the temperature of the ESS reaches a predetermined temperature exceeds a predetermined reference period, and When the period for operating the cooling fan until the temperature reaches a predetermined temperature is less than or equal to a predetermined reference period, it may be determined that there is no swelling.

According to the present invention, it is possible to simply determine whether the battery module has swollen without mounting a separate device.

In addition, since the present invention does not mount a separate device, the manufacturing cost of the battery module can be lowered, and the internal space of the battery module can be efficiently utilized.

1 is a flowchart of a method for detecting swelling of a battery module according to an embodiment of the present invention.
2 is a flowchart of a method for detecting swelling of a battery module according to another embodiment of the present invention.
3 is a block diagram of an apparatus for detecting swelling of a battery module according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

Throughout the specification, when a part is “connected” to another part, it includes not only the case where it is “directly connected” but also the case where it is “electrically connected” with another element interposed therebetween. . Also, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. As used throughout this specification, the term “step for” or “step for” does not mean “step for”.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

1. A method for detecting swelling of a battery module according to an embodiment of the present invention.

1 is a flowchart of a method for detecting swelling of a battery module according to an embodiment of the present invention.

Hereinafter, a method for detecting swelling of a battery module according to an embodiment of the present invention will be described with reference to FIG. 1 .

The battery module swelling detection method according to an embodiment of the present invention operates the cooling fan of the battery module for a predetermined time and detects the swelling of the battery module based on how much the temperature of the battery module decreases during the cooling fan operation period. a way to detect

The battery module swelling detection method of the present invention may be performed according to the following procedure.

1-1 Battery module status check step (S110)

The method for detecting swelling of a battery module according to an embodiment of the present invention starts with the battery state checking step (S110) of confirming the state of the battery module.

Specifically, the method for detecting swelling of the battery module according to an embodiment of the present invention may be performed only when the battery module is in the idle state. Because the method for detecting swelling of the battery module according to an embodiment of the present invention is performed based on the temperature value of the battery module measured by measuring the temperature of the battery module, when the battery module is charged or discharged, the temperature of the battery module This is because the exact swelling state cannot be measured because .

On the other hand, if it is confirmed that the battery module is in the idle state in the battery state checking step (S110), the next first temperature measurement step (S120) is performed; otherwise, the procedure ends.

1-2 first temperature measurement step (S120)

On the other hand, the first temperature measuring step (S120), the first external temperature measuring step of measuring the external temperature of the battery module before the cooling fan operation, the first internal temperature measuring step of measuring the internal temperature of the battery module before the cooling fan operation may be included.

The reason for measuring the external temperature and the internal temperature of the battery module in this way is that, even if the internal temperature of the battery module and the operating period of the cooling fan are the same, the internal temperature change of the battery module varies according to the external temperature of the battery module. .

Meanwhile, in the first temperature measuring step ( S120 ), a value for determining whether a cooling fan operation is necessary or a cooling fan operation is possible in the next cooling fan operation step ( S130 ) is used as a factor for determining a period for operating the cooling fan.

1-3 cooling fan operation step (S130)

Meanwhile, in the cooling fan operation step S130 , it may be determined whether the cooling fan needs to be operated and whether the operation is possible based on the first temperature measurement step S120 .

Specifically, when the internal temperature of the battery module measured in the first temperature measuring step S120 is equal to or greater than the preset cooling fan operating temperature, the cooling fan may be operated for a predetermined period to cool the battery module.

When the operating temperature of the cooling fan is higher than the preset operating temperature, the battery module must be cooled using a cooling fan to prevent swelling of the battery module.

Meanwhile, the preset cooling fan operating temperature is a value set so that the internal temperature of the battery module does not rise above a predetermined temperature, and the temperature value determined for each specification of the battery module may be different.

Meanwhile, the predetermined period for operating the cooling fan may be set according to an external temperature of the battery module, an internal temperature of the battery module, and a target temperature of the battery module. Specifically, the cooling temperature by the cooling fan is measured through experiments on various external and internal temperatures and target temperatures, and the cooling fan according to the external temperature, internal temperature, and target temperature of the battery module is used using the table organized. You can set the operating period.

For example, when trying to lower the internal temperature of a currently high-temperature (60 degrees) battery module to a target temperature (30 degrees), if the external temperature is low (10 degrees), even if the cooling fan is operated for a short period (10 minutes) , the target temperature (30 degrees) can be reached, but when the external temperature is high (25 degrees), the cooling fan must be operated for a long period (25 minutes) to reach the target temperature (30 degrees).

In other words, when both the external temperature of the battery module and the internal temperature of the battery module are high, the cooling fan must be operated for a longer period of time than when the external temperature of the battery module is low and the internal temperature of the battery module is high. The target temperature can be reached.

On the other hand, the numerical value described in the above example is only a numerical value arbitrarily designated to help the understanding of the invention, and may be different from the numerical value applied and used in the actual product.

1-4 second temperature measurement step (S140)

On the other hand, the second temperature measuring step ( S140 ) is a step of measuring the temperature of the battery module immediately after the above-described cooling fan operation step ( S130 ) is performed.

Meanwhile, in the second temperature measuring step, only the temperature inside the battery module may be measured. This is because factors used for determining swelling in the swelling determination step S150 of the present invention are the temperature immediately after the cooling fan is operated and the target temperature of the battery module.

1-5 swelling determination step (S150)

Meanwhile, in the swelling determination step ( S150 ), after the cooling fan operates for the predetermined period, the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measurement step are based on the battery It is a step to determine whether the module is swelling.

More specifically, when the difference between the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measuring step S140 is within a preset temperature range, it may be determined that the battery module does not have swelling.

Conversely, when the difference between the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measuring step S140 is out of a preset temperature range, it may be determined that the battery module has swelling.

The reason for this determination is that, when there is no swelling in the battery module, when the cooling fan operates for the predetermined period, a constant flow rate passes between the battery modules and the temperature of the battery module drops to the target temperature for a predetermined period. However, if there is swelling in the battery module, even if the cooling fan operates for the predetermined period, the flow rate is reduced in the portion where the swelling occurs, so that the temperature of the battery module cannot drop to the target temperature during the predetermined period. principle is used.

In other words, when swelling occurs in the battery module, since the flow rate generated by the cooling fan is reduced, it is possible to determine whether the battery module has swollen by using the fact that the battery module is not cooled to the target temperature.

Meanwhile, the temperature sensor used in the battery module swelling method according to an embodiment of the present invention may use a temperature sensor mounted on a general battery module.

Meanwhile, the method for detecting swelling of a battery module according to an embodiment of the present invention further includes a notification step of notifying that there is swelling when it is determined that there is swelling in the battery module as a result of performing the above-described procedure. In the notification step, a visual effect (light) or an auditory effect (sound) may be used to inform the user of whether the swelling has occurred.

2. A method for detecting swelling of a battery module according to another embodiment of the present invention.

2 is a flowchart illustrating a method for detecting swelling of a battery module according to another embodiment of the present invention.

Hereinafter, a method for detecting swelling of a battery module according to another embodiment of the present invention will be described with reference to FIG. 2 .

A battery module swelling detection method according to another embodiment of the present invention is a method of operating a cooling fan until the battery module reaches a preset temperature, and detecting the swelling of the battery module based on the period during which the cooling fan operates.

2-1 Battery status check step (S210)

A method for detecting swelling of a battery module according to another embodiment of the present invention starts with the battery state checking step ( S210 ) of confirming the state of the battery module.

Specifically, the method for detecting swelling of the battery module according to another embodiment of the present invention may be performed only when the battery module is in the idle state. Because, the method for detecting swelling of the battery module according to another embodiment of the present invention is performed based on the temperature value of the battery module measured by measuring the temperature of the battery module. Because the temperature changes, it is not possible to accurately measure the swelling state.

On the other hand, if it is confirmed that the battery module is in the idle state in the battery state checking step (S210), the next temperature measurement step (S220) is performed; otherwise, the procedure ends.

2-2 Temperature measurement step (S220)

Meanwhile, the temperature measuring step S220 may include an external temperature measuring step of measuring the external temperature of the battery module before the cooling fan operation and an internal temperature measuring step of measuring the internal temperature of the battery module before the cooling fan operation. .

The reason for measuring the external temperature and the internal temperature of the battery module in this way is that, even if the internal temperature of the battery module and the operating period of the cooling fan are the same, the internal temperature change of the battery module varies according to the external temperature of the battery module. .

Meanwhile, in the first temperature measuring step ( S120 ), a value for determining whether a cooling fan operation is necessary or a cooling fan operation is possible in the next cooling fan operation step ( S130 ) is used as a factor for determining a period for operating the cooling fan.

2-3 Cooling fan operation step (S230)

Meanwhile, in the cooling fan operation step S230 , it may be determined whether the cooling fan needs to be operated and whether the operation is possible based on the temperature measurement step S220 .

Specifically, when the internal temperature of the battery module measured in the temperature measuring step (S220) is equal to or greater than the preset cooling fan operating temperature, the cooling fan is operated until the temperature of the battery module reaches the target temperature to cool the battery module. can Then, a period in which the cooling fan operates until the temperature of the battery module reaches a target temperature is measured.

Meanwhile, the period during which the cooling fan operates until the temperature of the battery module reaches the target temperature may vary depending on the external temperature of the battery module, the internal temperature of the battery module, and the target temperature of the battery module.

On the other hand, when the battery module has a predetermined cooling fan operating temperature or higher, the battery module must be cooled using a cooling fan to prevent swelling of the battery module.

The preset cooling fan operating temperature is a value set so that the internal temperature of the battery module does not rise above a predetermined temperature, and the temperature value determined for each specification of the battery module may be different.

2-4 swelling determination step (S240)

Meanwhile, the swelling determination step ( S240 ) may be determined based on the period during which the cooling fan operates measured in the cooling fan operation step ( S230 ).

More specifically, when the period in which the cooling fan operates until the temperature of the battery module reaches a predetermined temperature exceeds a predetermined reference period, it is determined that there is swelling, and the temperature of the battery module When the period for operating the cooling fan until the temperature reaches a predetermined temperature is less than or equal to a predetermined reference period, it may be determined that there is no swelling.

The principle of the battery module swelling detection method according to another embodiment of the present invention is that when there is no swelling in the battery module, when the cooling fan is operated, a constant flow rate passes between the battery modules and the temperature of the battery module falls to the target temperature. It may be the same as the period obtained through this repeated experiment, but if there is swelling in the battery module, the flow rate will decrease at the part where the swelling occurs, so the period during which the temperature of the battery module drops to the target temperature is the same as the period obtained through the repeated experiment. It uses the principle of being longer than the period.

For example, when trying to lower the internal temperature of a currently high-temperature (60 degrees) battery module to a target temperature (30 degrees), if the external temperature is low (10 degrees), even if the cooling fan is operated for a short period (10 minutes) , the target temperature (30 degrees) can be reached, but when the external temperature is high (25 degrees), the cooling fan must be operated for a long period (25 minutes) to reach the target temperature (30 degrees).

In other words, when swelling occurs in the battery module, since the flow rate generated by the cooling fan is reduced, it is possible to determine whether the battery module has swollen by using the lengthened period for cooling the battery module to the target temperature. .

On the other hand, the numerical value described in the above example is only a numerical value arbitrarily designated to help the understanding of the invention, and may be different from the numerical value applied and used in the actual product.

On the other hand, the temperature sensor used in the battery module swelling method according to another embodiment of the present invention may not require a separate element for temperature measurement when a temperature sensor mounted on a general battery module is used.

Meanwhile, the method for detecting swelling of a battery module according to another embodiment of the present invention may further include a notification step of notifying that there is swelling when it is determined that there is swelling in the battery module by the above-described method. In the notification step, it is possible to inform whether the swelling has occurred through a visual effect (light) or an auditory effect (sound).

3. ESS device for performing the battery module swelling detection method according to an embodiment of the present invention.

Hereinafter, an ESS device for performing the battery module swelling detection method according to an embodiment of the present invention will be described.

The ESS device for performing the battery module swelling detection method according to an embodiment of the present invention may include the following configuration.

3-1 BMS (control unit) (100)

The BMS 100 is a control unit that manages the entire ESS device, and manages charging, discharging, charging capacity, temperature, and the like. And the BMS (control unit) 100 may be configured to include the following components.

3-1-1 Battery Status Check Module (110)

The battery state checking module 110 may be a module for confirming which state among the charging, discharging, and idle states of the battery modules 200 constituting the ESS device.

3-1-2 Cooling Fan Control Module (120)

The cooling fan control module 120 may control the operation of the cooling fan 300 according to the external temperature, internal temperature, and target temperature of the ESS. Specifically, the cooling fan control module 120 may set a period for operating the cooling fan according to the external temperature of the ESS device, the internal temperature of the ESS device, and the target temperature when the ESS device is in the idle state. In addition, the cooling fan may be operated until the internal temperature of the ESS device reaches the target temperature, and a swelling determination module that describes a period during which the cooling fan operates until the internal temperature of the ESS device reaches the target temperature. can be sent to

3-1-3 swelling determination module 130

The swelling determination module 130 determines whether the battery module 200 constituting the ESS device has swollen. The first method for determining whether the battery module 200 has swollen is that the cooling fan 300 is If the difference between the ESS internal temperature and the ESS target temperature is within a predetermined range after operating for a period of time, it is determined that there is no swelling, and after the cooling fan operates for a predetermined period, the ESS internal temperature and the ESS target temperature When the difference with ? is out of a predetermined range, it may be determined that there is swelling.

The second method measures the period in which the cooling fan 300 operates until the internal temperature of the ESS reaches the ESS target temperature, and when the period in which the cooling fan 300 operates is less than a predetermined period It is determined that there is no swelling, and when the period during which the cooling fan 300 operates exceeds a predetermined period, it may be determined that there is swelling.

In the first method, when swelling occurs in the battery module, the flow rate generated by the cooling fan is reduced, so it is determined whether the battery module has swollen using the principle that the battery module is not cooled to the target temperature for a set period. can

On the other hand, in the second method, when swelling occurs in the battery module, the flow rate generated by the cooling fan decreases, so the swelling of the battery module is increased by using the principle that the period required for cooling the battery module to the target temperature is lengthened. It can be judged whether

Meanwhile, the swelling determination module 130 may determine swelling by using one or more of the first method and the second method.

3-1-4 Controller(140)

On the other hand, the controller 140 is a configuration that performs a function of controlling each detailed configuration constituting the ESS device, and basically performs charge, discharge, and balancing control, and additionally adjusts the output of the ESS based on the current temperature of the ESS, etc. can be performed.

3-1-5 Memory(150)

Meanwhile, the memory 150 includes a table in which the cooling fan 300 operating time according to the cooling fan operation reference temperature, the ESS external temperature, the ESS internal temperature and the target temperature at which the cooling fan 300 should be operated, is stored, and a target temperature. and control reference data including the range of the temperature difference within the ESS after the operation of the cooling fan 300 and the like may be stored.

3-2 Battery Module (200)

The battery module 200 may be configured to substantially supply power from the ESS device, and a plurality of battery modules 200 may be connected in series and in parallel. In addition, the battery module 200 may be in a charging, discharging, or resting state under the control of the BMS 100 .

3-3 Cooling Fan (300)

The cooling fan 300 may be configured so that the battery module 200 is not continuously exposed to a high temperature state by operating when the internal temperature of the ESS is equal to or higher than a preset cooling fan operating temperature.

On the other hand, the position where the cooling fan is mounted may be installed at a position where it is easy to cool the battery module 200 . For example, it is mounted inside the case 400 to cool the battery module 200 by introducing external air into the case 400, or it is mounted on the outside of the case 400 to draw the air inside the case 400 to the outside. It is possible to cool the battery module 200 by taking out.

3-4 cases(400)

The case 400 is a space in which the above-described BMS, battery module, and the like are mounted, and may protect the mounted BMS and battery module from external impact.

3-5 Internal temperature measuring unit (500)

The internal temperature measuring unit 500 measures the internal temperature of the ESS device and transmits it to the BMS and the cooling fan control module 120 , and the ESS internal temperature transmitted to the cooling fan control module 120 is the cooling fan It can be used as a factor for setting the operation period of 300 .

3-6 External Temperature Measuring Unit (600)

The external temperature measuring unit 600 measures the external temperature of the ESS device and transmits it to the BMS and the cooling fan control module 120 , and the ESS external temperature transmitted to the cooling fan control module 120 is the cooling fan It can be used as a factor for setting the operation period of 300 .

On the other hand, when the ESS device performing the battery module swelling detection method according to the embodiment of the present invention configured including the above-described components determines that there is swelling, the swelling determination module 130 informs the outside of the swelling. It may be configured to further include a notification unit.

Meanwhile, the notification unit may notify the user of whether swelling has occurred in one or more of a visual method (expression of characters using LEDs, etc. or different colors) or an audible method (beep sound).

On the other hand, although the technical idea of the present invention has been described in detail according to the above embodiments, it should be noted that the above embodiments are for description and not for limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical spirit of the present invention.

100: BMS
200: battery module
300: cooling fan
400: case
500: internal temperature measurement unit
600: external temperature measurement unit

Claims (15)

A method for detecting swelling of a battery module, the method comprising:
a battery state checking step of confirming whether the battery module is in a charging/discharging/rest state;
a first temperature measurement step of measuring an internal temperature and an external temperature of the battery module before the cooling fan operates;
a cooling fan operating step of operating a cooling fan for a predetermined period based on the state of the battery module and the temperature of the battery module measured in the first temperature measuring step;
a second temperature measurement step of measuring an internal temperature of the battery module after performing the cooling fan operation step; and
a swelling determination step of determining the swelling of the battery module based on the temperature of the battery module measured in the first temperature measuring step and the temperature of the battery module measured in the second temperature measuring step;
Battery module swelling detection method comprising a.
The method according to claim 1,
The cooling fan operation step,
operating the cooling fan for the predetermined period when the battery module is in the idle state and the internal temperature of the battery module measured in the first temperature measurement step is equal to or greater than a predetermined cooling fan operating temperature;
Battery module swelling detection method, characterized in that.
3. The method according to claim 2,
A predetermined period for operating the cooling fan,
The battery module swelling detection method, characterized in that set according to the external temperature of the battery module, the internal temperature of the battery module, and the target temperature of the battery module measured in the first temperature measuring step.
4. The method of claim 3,
In the cooling fan operation step, a predetermined period for operating the cooling fan,
when the measured external temperature is relatively low, set to a shorter period than when the measured external temperature is relatively high;
Battery module swelling detection method characterized.
4. The method of claim 3,
The swelling determination step is,
After performing the cooling fan operation step,
If the difference between the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measuring step is within a preset temperature range, it is determined that there is no swelling,
When the difference between the target temperature of the battery module and the temperature difference of the battery module measured in the second temperature measuring step is out of a preset temperature range, it is determined that there is swelling.
A method for detecting swelling of a battery module, the method comprising:
a battery state checking step of confirming whether the battery module is in a charging/discharging/rest state;
a temperature measuring step of measuring the internal temperature of the battery module before the cooling fan operates;
a cooling fan operation step of operating a cooling fan based on the internal temperature of the battery module measured in the state and temperature measurement step of the battery module;
a swelling determination step of determining swelling of the battery module based on a period during which the cooling fan operates in the cooling fan operation step;
Battery module swelling detection method comprising a.
7. The method of claim 6,
The cooling fan operation step,
When the battery module is in the idle state and the internal temperature of the battery module measured in the temperature measuring step is equal to or higher than the preset cooling fan operating temperature, the cooling fan is operated until the internal temperature of the battery module reaches the preset target temperature. make it,
and measuring a period in which the cooling fan operates until the internal temperature of the battery module reaches the predetermined target temperature.
8. The method of claim 7,
The temperature measuring step further measures the external temperature of the battery module together with the internal temperature measurement of the battery module,
The swelling determination step is,
If the measured period during which the cooling fan operates exceeds a predetermined reference period, it is determined that there is swelling,
If the measured period for operating the cooling fan is less than or equal to a predetermined reference period, it is determined that there is no swelling,
In the swelling determination step,
The preset reference time may be set to a shorter period when the measured external temperature is relatively low than when the measured external temperature is relatively high;
Battery module swelling detection method, characterized in that.
BMS (control unit);
a plurality of battery modules;
a cooling fan for cooling the plurality of battery modules;
a case in which the BMS, a cooling fan, and a plurality of battery modules are mounted;
an external temperature measuring unit for measuring the external temperature of the case;
an internal temperature measuring unit for measuring the internal temperature of the case;
It consists of
The BMS is
a battery status check module for checking whether the plurality of battery modules are in a state of charging, discharging, and rest;
a cooling fan control module for controlling the cooling fan;
a swelling determination module for determining whether the plurality of battery modules have swollen;
a controller for charging, discharging, and balancing the plurality of battery modules;
a memory in which control reference data of the BMS is stored;
ESS device, characterized in that it comprises a.
10. The method of claim 9,
The cooling fan control module,
The ESS device, characterized in that when the plurality of battery modules are in the idle state and the internal temperature is equal to or higher than a predetermined cooling fan operation reference temperature, the cooling fan is operated for a predetermined period.
11. The method of claim 10,
A predetermined period for operating the cooling fan,
It is set according to the external temperature of the ESS measured before the cooling fan operation, the internal temperature of the ESS and the target temperature of the ESS,
The swelling determination module,
If the difference between the internal temperature of the ESS measured after the cooling fan operation and the target temperature of the ESS is within a preset temperature range, it is determined that there is no swelling,
ESS device, characterized in that when the difference between the internal temperature of the ESS and the target temperature of the ESS measured after the cooling fan operation is out of a preset temperature range, it is determined that there is swelling.
12. The method of claim 11,
The cooling fan control module,
When the ESS is in the idle state and the internal temperature of the ESS is equal to or higher than a predetermined cooling fan operation reference temperature, the cooling fan is operated until the ESS reaches the target temperature, and the operating period of the cooling fan is set to the swelling determination module ESS device, characterized in that it transmits.
13. The method of claim 12,
The swelling determination module,
If the period during which the cooling fan operates until the temperature of the ESS reaches a predetermined temperature exceeds a predetermined reference period, it is determined that there is swelling,
The ESS device, characterized in that when the period for operating the cooling fan until the temperature of the ESS reaches a predetermined temperature is less than or equal to a predetermined reference period, it is determined that there is no swelling. 12. The method of claim 11,
A predetermined period for operating the cooling fan,
when the measured external temperature is relatively low, set to a shorter period than when the measured external temperature is relatively high;
ESS device, characterized in that.
14. The method of claim 13,
The preset reference period is
when the measured external temperature is relatively low, set to a shorter period than when the measured external temperature is relatively high;
ESS device, characterized in that.

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