JP2002289262A - Lithium secondary battery monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To remotely monitor the condition of lithium secondary batteries. SOLUTION: A lithium secondary battery is installed each of installation points A-D. A control server 100 is installed for from the installation points. Condition monitoring sensors 4a-4b detect the condition of the lithium secondary batteries 2a-2b, and a monitoring device 10 determines abnormality of the lithium secondary batteries 2a-2c is abnormal. An operation controller 20 cools the lithium secondary batteries 2a-2c, breaks the circuit, extinguishes a fire depending on the abnormality determination. Each data is sent to control server 100. The control server 100 remotely monitors the lithium secondary batteries 2a-2c based on the received data. Additionally, in case of abnormality, the operation controller 20 takes measures for operation, such as circuit breaking, based on instruction from the control server 100.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitoring system for a lithium secondary battery, which is devised so that the behavior and abnormality of the lithium secondary battery can be monitored from a remote place.

[0002]

2. Description of the Related Art Lithium secondary batteries have been developed and spread as high energy density batteries. This lithium secondary battery is not limited to a small and small-capacity battery for electronic devices, but also a large-sized and large-capacity battery for emergency power supply facilities and power storage in factories and hospitals, or for powering electric vehicles. Is being developed.

FIG. 2 shows a large box-shaped lithium secondary battery 01.
It indicates 0. In FIG. 2, 01 is a container, 02
Is a positive electrode, 03 is a negative electrode, 04 is a separator, 05 is a positive electrode terminal, 06 is a negative electrode terminal, and 07 is a safety valve. In the lithium secondary battery 010, the container 01 is filled with an electrolyte (not shown) of the inducing material. Usually, a plurality of such lithium secondary batteries 010 are used in series / parallel connection.

In the lithium secondary battery 010, if the pressure inside the battery rises due to a short circuit or the like, the battery may be damaged. For example, if a short circuit occurs for any reason,
The short-circuit portion generates heat, and the heat decomposes and gasifies the electrolytic solution. As a result, the pressure in the container 01 that hermetically accommodates the electrode plates and the like increases, and when the pressure is equal to or higher than a predetermined value,
The safety valve 07 is opened to release the pressure. However, when the rising pressure is large and the pressure rises rapidly, there is a possibility that the battery explodes or peripheral devices are damaged by the explosion of the battery.

[0005] As described above, the lithium secondary battery has a risk of explosion and needs to be monitored. For this reason, at present, the voltage and current of the lithium secondary battery are monitored to detect the abnormality, and safety measures are taken by opening a safety valve provided in the container when the abnormality occurs. As a safety measure in the event of an abnormality, the circuit is cut off or the fire is extinguished with a fire extinguisher.

[0006]

By the way, conventionally,
The state of the lithium secondary battery was monitored for each installation point (factory or hospital) of the lithium secondary battery. However, remote monitoring was not performed at a location remote from the installation point.

[0007]

SUMMARY OF THE INVENTION In view of the above prior art, the present invention monitors the operation state of lithium secondary batteries installed at a plurality of installation points at a location remote from the installation points of lithium secondary batteries. An object of the present invention is to provide a monitoring system for a lithium secondary battery that can be used.

[0008]

According to the structure of the present invention, which solves the above-mentioned problems, at each installation point where a lithium secondary battery is installed, a state detection sensor for detecting the state of the lithium secondary battery, a monitoring device, , While an operation controller is provided, a management server is provided at a position distant from the installation point, and the monitoring device determines abnormality of the lithium secondary battery from the state of the lithium secondary battery detected by the state detection sensor. In addition, the operation controller takes an operation countermeasure for the lithium secondary battery in which the abnormality has occurred in response to the abnormality of the lithium secondary battery determined by the monitoring device, and also measures the state of the lithium secondary battery and the lithium secondary battery. When the abnormality of the secondary battery and the type of operation countermeasure are sent to the management server, and the management server remotely monitors the lithium secondary battery from the state of the received lithium secondary battery, To, on the basis of the type of abnormal operation corrective action state lithium secondary battery of a lithium secondary battery, the operating measure measures the operation controller is done by and judging whether there was appropriate.

In the configuration of the present invention, the monitoring device also monitors charge / discharge characteristics of each lithium secondary battery, determines abnormality of the lithium secondary battery including the charge / discharge characteristics, and controls the operation control. The device also sends the charge / discharge characteristics to the management server, and the management server remotely monitors the lithium secondary battery based on the sent charge / discharge characteristics.

[0010] In the configuration of the present invention, the monitoring device also monitors the temperature in the battery room in which each lithium secondary battery is installed, and determines abnormality of the lithium secondary battery including the temperature in the battery room. The operation controller also sends the temperature in the battery room to the management server, and the management server remotely monitors the lithium secondary battery based on the sent temperature in the battery room.

[0011] In the configuration of the present invention, the management server may include:
When it is determined that the operation countermeasure performed by the operation controller is not appropriate, an appropriate operation countermeasure is sent to the operation controller, and the operation controller transmits the operation countermeasure sent from the management server. The method is performed on a lithium secondary battery.

[0012] In the configuration of the present invention, the management server may include:
The criterion for determining an abnormality of the monitoring device can be changed.

In the configuration of the present invention, the operation countermeasures by the operation controller may include cooling the failed lithium secondary battery or stopping charging / discharging of the failed lithium secondary battery. Or activating a fire extinguisher that extinguishes the lithium secondary battery.

[0014] In the configuration of the present invention, the management server may include:
When the lithium secondary battery at one installation point cannot be charged or discharged due to a failure, operation of another installation point is performed so that power is supplied from the lithium secondary battery at another installation point to one installation point. It is characterized by sending a command to the controller.

[0015]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 shows a lithium secondary battery monitoring system according to an embodiment of the present invention. In the figure, installation points A, B, C, D... Are places where lithium secondary batteries are installed, such as hospitals and factories. In the present invention, the state of the lithium secondary batteries installed at the plurality of installation points is collectively monitored by the management server 100 installed at a position distant from the installation point A or the like. . The management server 100 is installed in a management company or the like where a manager who monitors and maintains the lithium secondary battery is resident.

Each of the installation points A, B, C, D,... Is provided with a lithium secondary battery, but the installation mode is substantially the same. The installation point A will be described as a representative.

A plurality of lithium secondary batteries 2a, 2b, 2c,... Are installed in the battery room 1 at the installation point A. Charges and discharges are performed on the lithium secondary batteries 2a, 2b, 2c,... By the charge / discharge devices 3a, 3b, 3c,. Each of the charge / discharge devices 3a, 3b, 3c and the like is connected to a positive / negative terminal for charging and a positive / negative terminal for discharging.

Each of the lithium secondary batteries 2a, 2b, 2c
Are provided with state detection sensors 4a, 4b, 4c,... For detecting the state of the lithium secondary battery. As the state detection sensors 4a, 4b, 4c, etc., a temperature sensor for detecting the temperature of the lithium secondary battery, a pressure sensor for detecting the internal pressure, and a strain sensor (strain for detecting the distortion of the container of the lithium secondary battery) Gauges, etc.) and optical fiber strain sensors. These state detection sensors 4a and the like may be provided individually for the lithium secondary batteries, or may be provided for each module in which a plurality of lithium secondary batteries are set. When the module is installed for each module, the distortion detects the distortion of the module frame and the distortion between the lithium secondary batteries of the module.

In the battery chamber 1, a fire extinguisher 5, a temperature sensor 6, and coolers 7a, 7b, 7c,... The coolers 7a, 7b, 7c, etc., which have not been installed in conventional facilities, are provided with lithium secondary batteries 2a, 2c.
When the temperatures of b and 2c are overheated, the lithium secondary batteries 2a, 2b and 2c are individually cooled by water cooling, gas cooling or the like.

At the installation point A, a monitoring device 10 and an operation controller 20 are installed outside the battery room 1.

In the monitoring system for a lithium secondary battery having such a configuration, the following operation is performed.

The state detection sensors 4a, 4b, 4c individually detect the state (temperature, pressure, strain) of the lithium secondary batteries 2a, 2b, 2c, and output state detection signals S _4a , S _4b , S _4c.
And sends it to the monitoring device 10.

The charge / discharge devices 3a, 3b, 3c send charge / discharge characteristic signals S _3a , S _3b , S _3c indicating charge / discharge characteristics of the respective lithium secondary batteries 2a, 2b, 2c to the monitoring device 10. The temperature sensor 6 outputs a temperature detection signal S indicating the temperature in the battery chamber 1.
₆ is sent to the monitoring device 10.

In the monitoring device 10, the received state detection signals S _4a , S _4b , S _4c and the charge / discharge characteristic signals S _3a , S _3b , S _3c.
And the temperature detection signal S _6, the lithium secondary battery 2a,
The states of 2b and 2c are determined. Then, the determination state is compared with a preset reference state, and the lithium secondary battery 2 is compared.
a, 2b, 2c are determined to be normal or abnormal,
When it is determined that there is an abnormality, determination of an abnormal location, determination of an abnormal state, and determination of an abnormal level are performed.

The monitoring device 10 detects an abnormal location, Abnormal condition,
And sends a determination signal S ₁₀ with abnormal levels as information to the operation control unit 20, the state detection signal S _4a, S _4b, S _4c
Also, the charge / discharge characteristic signals S _3a , S _3b , S _{3c and the} temperature detection signal S ₆ are sent to the operation controller 20.

In operation controller 20, received judgment signal S
_{From 10} , the presence or absence of an abnormality,
Recognize the abnormal state and level. When it is recognized that the specific lithium secondary battery is abnormal, an operation countermeasure is performed on the specific lithium secondary battery according to the abnormal level.

For example, when it is determined that the lithium secondary battery 2a is abnormal, the following operation is performed according to the abnormal level. (1) When the lithium secondary battery 2a has a slight abnormality (when the pressure, temperature, and distortion are slightly higher than normal), the cooler 7a is operated to cool the lithium secondary battery 2a. Let it. (2) Further, when the lithium secondary battery 2a is abnormal (when the pressure, temperature, and strain are higher than normal and approach a dangerous state), the operation of the charger / discharger 3a is stopped to shut off the circuit. To stop charging and discharging of the lithium secondary battery 2a. (3) Furthermore, when the lithium secondary battery 2a is extremely abnormal (when the lithium secondary battery overheats, explodes, or smokes due to internal short circuit, etc., the pressure, temperature, or distortion exceeds the dangerous state), all charging and discharging are performed. The operation of the electric appliances 3a to 3c is stopped, the circuit is cut off, and the charging and discharging of all the lithium secondary batteries 2a to 2c are stopped. If necessary, the fire extinguisher 5 is operated to extinguish the fire. The fire extinguisher 5 performs a digestion operation by discharging a large amount of water into the battery compartment 1. The same operation is performed when another lithium secondary battery is abnormal.

The operation controller 20 also outputs a temperature detection signal S ₆
When it is recognized that the temperature in the battery chamber 1 has reached an abnormal temperature based on the above, the fire extinguisher 5 is operated. Thereby, fire can be extinguished when the lithium secondary battery abnormally overheats and the temperature in the battery chamber 1 becomes high.

The operation controller 20 sends state detection signals S _4a , S _4b , S ₄ to the management server 100 installed remotely.
_4c , the charge / discharge characteristic signals S _3a , S _3b , S _3c, and the determination signal S
10, a temperature detection signal S6, went to abnormal operation measures (or cooling by the cooler, and the circuit breaker, digestion with extinguishers) the operation corrective action signal S ₂₀ indicating a letter.

The management server 100 receives the state detection signals S _4a ,
From S _4b , S _4c and charge / discharge characteristic signals S _3a , S _3b , S _3c, each lithium secondary battery 2a, 2b, 2
The situation can be confirmed by remotely monitoring the behavior of c. For this reason, it is possible to determine whether it is necessary to perform maintenance, inspection, repair, or component replacement according to the operation. Based on this determination, before a failure occurs, the administrator can go to the installation point A and perform maintenance and inspection, repair, and component replacement. By doing this,
Failure of the lithium secondary battery can be prevented beforehand, the life can be prolonged, and safety is improved. In addition, by performing such maintenance and monitoring, there is no need for an administrator at each installation point A or the like.

The management server 100 sends the status detection signal S
_4a , _S4b , _S4c and charge / discharge characteristic signals _S3a , _S3b , S4
And _3c, a determination signal S10, a temperature detection signal S6, on the basis of the operation corrective action signal S _20, the operation measures measures the operation controller 20 was carried out to see if was appropriate. If it is determined that the operation countermeasure performed by the operation controller 20 is inappropriate, the management server 100 sends a higher-level operation countermeasure signal S ₁₀₀ indicating an appropriate operation countermeasure to the operation controller 20. Send.

The operation controller 20 receives the upper operating corrective action signal S _100, performs the operation corrective action indicated by the upper driver corrective action signal S _100. For example, the operation controller 20
If in the case of self-determination was allowed to cool and determined to be minor anomalies, receives the upper operating corrective action signal S ₁₀₀ that the circuit breaker, the higher the operating corrective action signal S
Cut off the circuit according to ₁₀₀ .

Further, the management server 100
The level (reference) of the reference state set in advance can be changed remotely.

The management server 100 can also perform power interchange control so that power is interchanged among the installation points A, B, C, and D. For example, when the lithium secondary battery at the installation point A has caused a serious accident and extinguished, and the lithium secondary battery cannot be used, the operation controllers at the other installation points B, C, and D are not controlled. , And issues a command to supply power to the installation point A.
Then, the operation controllers at the other installation points B, C, and D perform discharge control and transmit the discharged power to the installation point A. By doing so, even if a serious accident occurs, power can be received from another installation point, and power can be secured.

The transmission and reception of signals between the operation controller 20 and the management server 100 are performed via the Internet, a telephone line,
Various communication means such as wireless communication and wired communication can be used.

[0037]

As described above in detail with the embodiments, according to the present invention, at each installation point where a lithium secondary battery is installed, a state detection sensor for detecting the state of the lithium secondary battery, While having a monitoring device and an operation controller, a management server is provided at a position distant from the installation point, and the monitoring device detects abnormality of the lithium secondary battery from the state of the lithium secondary battery detected by the state detection sensor. The operation controller determines the operation of the lithium secondary battery in which the abnormality has occurred according to the abnormality of the lithium secondary battery determined by the monitoring device, and measures the state of the lithium secondary battery and the lithium secondary battery. The battery abnormality and the type of operation countermeasure are sent to the management server, and the management server remotely monitors the lithium secondary battery based on the status of the received lithium secondary battery, Based on the type of abnormal operation corrective action state lithium secondary battery of the next cell, it determines whether the operation controller has performed operation corrective action was appropriate. In this case, the monitoring device also monitors the charge / discharge characteristics of each lithium secondary battery, determines the abnormality of the lithium secondary battery including the charge / discharge characteristics, and the operation controller also sends the charge / discharge characteristics to the management server. The sending and management server remotely monitors the lithium secondary batteries based on the charge / discharge characteristics sent thereto, and the monitoring device also monitors the temperature in the battery room where each lithium secondary battery is installed. In addition to determining the temperature of the lithium secondary battery, including the temperature, the operation controller sends the temperature inside the battery room to the management server, and the management server remotely monitors the lithium secondary battery based on the received temperature inside the battery room. I did it.

With such a configuration, in the present invention,
The management server can remotely monitor the lithium secondary battery at each installation point, and can remotely determine whether the operation countermeasures taken at each installation point in the event of a failure were appropriate.

In the present invention, when the management server determines that the operation countermeasure performed by the operation controller is not appropriate, the management server sends an appropriate operation countermeasure to the operation controller, and the operation controller transmits the operation control to the management server. Take the operation measures sent from the company for the lithium secondary battery. For this reason, more appropriate operation countermeasures can be taken, and safety is improved.

Further, according to the present invention, the management server can change the criterion for judging the abnormality of the monitoring device, and can optimally set and change the criterion remotely.

According to the present invention, the operation countermeasures by the operation controller include cooling the failed lithium secondary battery, stopping charging / discharging of the failed lithium secondary battery, or Activating a fire extinguisher that extinguishes a lithium secondary battery, whereby optimal measures can be taken in response to a failure.

According to the present invention, when the charging / discharging of the lithium secondary battery at one installation point becomes impossible due to a failure, the management server supplies power from the lithium secondary battery at another installation point to the one installation point. Command was sent to the operation controller at another installation point to supply Therefore, even if a failure occurs, power is supplied from another installation point, and there is no power failure.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a monitoring system for a lithium secondary battery according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a lithium secondary battery with a part cut away.

[Explanation of symbols]

A, B, C, D Installation point 1 Battery room 2a-2c Lithium secondary battery 3a-3c Charge / discharge device 4a-4c State detection sensor 5 Fire extinguisher 6 Temperature sensor 7a-7c Cooler 10 Monitoring device 20 Operation controller S _3a to S _3c discharge characteristics signal S _4a to S _4c state detection signal S ₆ the temperature detection signal S ₁₀ the determination signal S ₂₀ operation corrective action signal S ₁₀₀ upper driver corrective action signal

 ────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Tsutomu Hashimoto 5-717-1, Fukahori-cho, Nagasaki-shi, Nagasaki F-term in Nagasaki Laboratory, Mitsubishi Heavy Industries, Ltd. (Reference) 5H030 AA10 FF22 FF41 5H031 AA00 CC05 KK00

Claims (7)

[Claims] At each of the installation points where a lithium secondary battery is installed, a state detection sensor for detecting the state of the lithium secondary battery, a monitoring device, and an operation controller are provided. Has a management server, the monitoring device determines an abnormality of the lithium secondary battery from the state of the lithium secondary battery detected by the state detection sensor, the operation controller, lithium operation determined by the monitoring device In addition to taking operation countermeasures for the lithium secondary battery in which an abnormality has occurred in accordance with the abnormality of the secondary battery, the state of the lithium secondary battery, the abnormality of the lithium secondary battery, and the type of the operation countermeasures are transmitted to the management server. The management server remotely monitors the state of the lithium secondary battery from the state of the received lithium secondary battery, and transmits the state of the lithium secondary battery and the state of the lithium secondary battery. A monitoring system for a lithium secondary battery, comprising: determining whether or not an operation countermeasure performed by the operation controller is appropriate based on an abnormality and a type of the operation countermeasure. 2. The monitoring device according to claim 1, wherein the monitoring device also monitors charge / discharge characteristics of each lithium secondary battery, determines abnormality of the lithium secondary battery including charge / discharge characteristics, and controls the operation control. A monitoring system for a lithium secondary battery, wherein the device also sends charge / discharge characteristics to the management server, and the management server remotely monitors the lithium secondary battery based on the received charge / discharge characteristics. 3. The monitoring device according to claim 1, wherein the monitoring device also monitors the temperature in the battery room in which each lithium secondary battery is installed, and determines the abnormality of the lithium secondary battery including the temperature in the battery room. Wherein the operation controller also sends the temperature in the battery room to the management server, and the management server remotely monitors the lithium secondary battery from the sent temperature in the battery room. system. 4. The operation controller according to claim 1, wherein when the management server determines that the operation countermeasure performed by the operation controller is not appropriate, the management server performs an appropriate operation countermeasure on the operation controller. Wherein the operation controller performs operation countermeasures sent from the management server on the lithium secondary battery. 5. The monitoring system for a lithium secondary battery according to claim 1, wherein the management server can change a criterion for determining an abnormality of the monitoring device. 6. The operation countermeasure according to claim 1, wherein the operation countermeasure by the operation controller is to cool the failed lithium secondary battery or to operate the failed lithium secondary battery. A lithium secondary battery monitoring system, which stops charging and discharging of a secondary battery or activates a fire extinguisher that extinguishes a lithium secondary battery. 7. The management server according to claim 1, wherein when the lithium secondary battery at one installation point cannot be charged / discharged due to a failure, the management server determines that the lithium secondary battery at the other installation point is not charged. A monitoring system for a lithium secondary battery, wherein a command is sent to an operation controller at another installation point so as to supply power from the secondary battery to one installation point.