KR102525791B1 - Ess(energy storage system) safety inspection apparatus and the inspection method using the same - Google Patents

Abstract

The present invention is a safety inspection device for an energy storage device, comprising: a charging device (12) for charging an energy storage device (13) by receiving input power (11); a first coil unit 21 supplying and detecting a signal to the (+) terminal of the energy storage device 13; a second coil unit 22 supplying and detecting a signal to the (-) terminal of the energy storage device 13; a vertical coil unit 23 for detecting a signal in a vertical direction of an outer case of the energy storage device 13; a horizontal coil unit 24 for detecting a signal in a horizontal direction of an outer case of the energy storage device 13; a signal supply and detection unit 31 of the first coil unit 21 supplying and detecting a signal of the first coil unit 21; a signal supply and detection unit 32 of the second coil unit 22 supplying and detecting a signal of the second coil unit 22; a signal supply and detection unit 33 of the vertical coil unit 23 for supplying and detecting signals of the vertical coil unit 23; a signal supply and detection unit 34 of the horizontal coil unit 24 for supplying and detecting signals of the horizontal coil unit 24; Information obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 a main controller 35 that remotely detects; The main control unit 35 proposes a safety inspection device for an energy storage device, characterized in that the safety of the energy storage device is inspected based on the detection state of the signal.

Description

Energy storage device safety inspection device and inspection method using the same

The present invention relates to an energy storage device safety inspection device and an inspection method using the same, and in particular, the safety of a lithium-ion battery can be quickly detected in real time and transmitted to a manager's terminal (or smart phone) to determine the safety of the energy storage device. It relates to an inspection device and inspection method for improving safety.

Recently, DC current, which is the output of new and renewable energy such as solar cells, wind power generation, and fuel cells, is stored, and batteries for electric vehicles and mobility are energy storage devices (ESS: Energy Storage System), which fundamentally improves its safety and Various studies are being conducted to prevent fire and explosion of the energy storage system (ESS).

As related prior literature, Korean Patent Registration No. 10-1104535 (published on January 11, 2012, hereinafter referred to as [Patent Document 1]) discloses a monitoring device and method for at least one energy storage capacitor in a safety system. . In [Patent Document 1], in order to monitor the energy storage capacitor, a transformer to monitor the internal resistance (ESR) of the energy storage capacitor; The transformer charges the at least one energy storage capacitor to a first voltage value above the vehicle battery voltage, wherein the transformer is connected to a microcontroller such that the at least one energy storage capacitor is pulsed by the transformer as a function of a signal from the microcontroller. may be charged to a second voltage value in a manner such that a peak value rectifier for sensing the second voltage value is provided, the voltage passing through the peak value rectifier drops to a third voltage value after pulsed charging, and an internal resistance proposed a monitoring device characterized in that the function of the voltage difference between the second and third voltage values is determined by the microcontroller.

Republic of Korea Patent Registration No. 10-1270798 (published on June 05, 2013, hereinafter referred to as [Patent Document 2]) discloses a battery management system (BMS) inspection device for an energy storage system (ESS). In [Patent Document 2], an apparatus for inspecting a battery management system for an energy storage system includes a voltage multimeter; current multimeter; power supply; auxiliary power supply; a temperature board for applying virtual temperature data; an input/output board connecting contacts between the battery management system and the auxiliary power supply; graphical user interface (GUI); Suggested is a battery management system inspection device for an energy storage system, characterized in that it is configured to include a main board that controls to perform the battery management system inspection.

Republic of Korea Patent Registration No. 10-1822800 (published on January 26, 2018, hereinafter referred to as [Patent Document 3]) discloses an energy storage device inspection device. In [Patent Document 3], an electrode unit including an electrode pair electrically connected to power supply terminals of an energy storage device; power supply; voltage measurement unit; a control unit determining a defect in the energy storage element; The power supply unit supplies the DC voltage to the energy storage element during a first period set by the control unit, and supplies the DC voltage during a second period different from the first period. did

In [Patent Document 1] to [Patent Document 3], there is a limitation in that it is difficult to detect the state of the energy storage device in real time on a non-contact basis.

Republic of Korea Patent Registration No. 10-1104535, Publication Date January 11, 2012 Republic of Korea Patent Registration No. 10-1270798, Publication Date June 05, 2013 Republic of Korea Patent Registration No. 10-1822800, Publication Date January 26, 2018

The present invention is to propose a proposed energy storage system (ESS) safety inspection device and an inspection method using the same. The biggest problem of the existing energy storage system (ESS) is that fire and explosion are dangerous. In particular, the energy storage device has a fundamental disadvantage of causing an explosion and fire in the worst case due to its safety problem. A signal may be supplied through a specific coil part among some of the horizontal coil units, and a signal is detected in the remaining coil units except for the specific coil unit. An object to be solved is to propose an inspection device and inspection method for inspecting the stability of an energy storage device based on the detected signal.

In order to solve the above problems, the present invention provides a safety inspection device for an energy storage device, comprising: a charging device 12 for charging the energy storage device 13 by receiving input power 11; a first coil unit 21 supplying and detecting a signal to the (+) terminal of the energy storage device 13; a second coil unit 22 supplying and detecting a signal to the (-) terminal of the energy storage device 13; a vertical coil unit 23 for detecting a signal in a vertical direction of an outer case of the energy storage device 13; a horizontal coil unit 24 for detecting a signal in a horizontal direction of an outer case of the energy storage device 13; a signal supply and detection unit 31 of the first coil unit 21 supplying and detecting a signal of the first coil unit 21; a signal supply and detection unit 32 of the second coil unit 22 supplying and detecting a signal of the second coil unit 22; a signal supply and detection unit 33 of the vertical coil unit 23 for supplying and detecting signals of the vertical coil unit 23; a signal supply and detection unit 34 of the horizontal coil unit 24 for supplying and detecting signals of the horizontal coil unit 24; Information obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 a main controller 35 that remotely detects; The main control unit 35 uses a safety inspection device for an energy storage device, which is characterized in that it checks the safety of the energy storage device based on the detection state of the signal, as a solution to the problem.

First, the safety of the energy storage device can be checked in real time based on a non-contact method, second, the state of the energy storage device is checked based on the impedance according to the injection frequency of the energy storage device, and third, energy storage If an abnormality occurs in the device, an alarm can be transmitted wirelessly to the manager's personal terminal or smart phone. Fourth, the variable frequency can be changed from high frequency to low frequency or By injecting while varying from low frequency to high frequency, it has a synergistic effect of inspecting the safety of the energy storage device, which can accurately evaluate the stability of the energy storage device.

1 is a safety inspection device for a proposed commercial power-based energy storage device.
2 is a safety inspection device for a proposed solar cell-based energy storage device.
3 is a detailed configuration diagram of the proposed energy storage device signal injection and detection system.
4 is a detailed configuration diagram of the proposed first and second coil units.
5 is a detailed configuration diagram of the proposed vertical and horizontal coil units.
6 is a waveform diagram of a frequency injected into a coil unit.

The present invention has been described with reference to the accompanying drawings for preferred embodiments. However, the embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below, and those of ordinary skill in the art can It is provided for complete explanation.

1 shows a proposed commercial power-based energy storage device safety test device. The commercial power-based energy storage device includes a charging device 12 that generates DC output by receiving AC power from an input power source 11 and energy storage that receives DC output from the charging device 12 and stores electrical energy. It consists of a device (13). The energy storage device 13 may have problems with fire and explosion due to a recent serious safety crisis. In the present invention, it is a technical goal to monitor this in real time and secure safety, and the energy storage device safety inspection device 10 supplies and detects a signal to the (+) terminal of the energy storage device 13. A coil unit 21 is located, a second coil unit 22 for supplying and detecting a signal to the (-) terminal of the energy storage device 13 is located, and the outer case of the energy storage device 13 A vertical coil unit 23 for detecting signals in the vertical direction is disposed, and a horizontal coil unit 24 for detecting signals in the horizontal direction of the outer case of the energy storage device 13 is disposed. . There is a signal supply and detection unit 31 of the first coil unit 21 for supplying and detecting a signal of the first coil unit 21, and a signal supplying and detecting unit 31 for supplying and detecting a signal of the second coil unit 22. There is a signal supply and detection unit 32 of the second coil unit 22, and a signal supply and detection unit 33 of the vertical coil unit 23 that supplies and detects a signal of the vertical coil unit 23, There is a signal supply and detection unit 34 of the horizontal coil unit 24 that supplies and detects signals of the horizontal coil unit 24 . In addition, the signals obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 A main control unit 35 for remotely detecting information is arranged. The main control unit 35 plays a role like a central server, comprehensively manages the acquired data, and comprehensively checks the current safety state based on the impedance analysis of the energy storage device. The main control unit 35 inspects the safety of the energy storage device 13 in real time and transmits it to a personal terminal or smart phone 36, and detects an abnormality of the energy storage device 13 When this is confirmed, it is characterized in that an alarm is transmitted to the personal terminal or smart phone (Smart Phone) (36).

2 shows a proposed solar cell-based energy storage device safety inspection device. The solar cell 14-based energy storage device receives the output of the solar cell 14 and generates a direct current output from the charging device 12 and receives the direct current output of the charging device 12 to store electrical energy. It consists of an energy storage device (13). The energy storage device 13 may have problems with fire and explosion due to a recent serious safety crisis. In the present invention, it is a technical goal to monitor this in real time and secure safety, and the energy storage device safety inspection device 10 supplies and detects a signal to the (+) terminal of the energy storage device 13. A coil unit 21 is located, and a second coil unit 22 for supplying and detecting a signal to the (-) terminal of the energy storage device 13 is located. A vertical coil unit 23 for detecting signals in the vertical direction is disposed, and a horizontal coil unit 24 for detecting signals in the horizontal direction of the outer case of the energy storage device 13 is disposed. . There is a signal supply and detection unit 31 of the first coil unit 21 for supplying and detecting a signal of the first coil unit 21, and a signal supplying and detecting unit 31 for supplying and detecting a signal of the second coil unit 22. There is a signal supply and detection unit 32 of the second coil unit 22, and a signal supply and detection unit 33 of the vertical coil unit 23 that supplies and detects a signal of the vertical coil unit 23, There is a signal supply and detection unit 34 of the horizontal coil unit 24 that supplies and detects signals of the horizontal coil unit 24 . In addition, the signals obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 A main control unit 35 for remotely detecting information is arranged. The main control unit 35 plays a role like a central server, comprehensively manages the acquired data, and comprehensively checks the current safety state based on the impedance analysis of the energy storage device. The main control unit 35 inspects the safety of the energy storage device 13 in real time and transmits it to a personal terminal or smart phone 36, and detects an abnormality of the energy storage device 13 When this is confirmed It is characterized in that an alarm is transmitted to the personal terminal or smart phone (Smart Phone) 36

Above all, the energy storage device safety inspection device is characterized in that it can secure the stability even in the energy storage device 13 based on various renewable energy sources such as solar cells, wind power generation, and fuel cells.

3 shows a detailed configuration diagram of the proposed energy storage device signal injection and detection system. Supplying a variable frequency signal to the first coil unit 21, the second coil unit 22, the vertical coil unit 23 and the horizontal coil unit 24 in the safety inspection device of the energy storage device First to fourth switches (S1 to S4) are disposed. When the first switch S1 and the second switch S2 of the first to fourth switches S1 to S4 are turned on, the third switch S3 and the fourth switch S4 are When the third switch (S3) and the fourth switch (S4) are turned on, the first switch (S1) and the second switch (S2) are turned off. Complementary operation that becomes a turn-off is a technical feature. Through this, a variable frequency of tens of Hz to hundreds of kHz can be supplied to the specific coil unit. In general, low frequencies propagate farther, and high frequencies propagate short distances. To detect signals generated from the first coil unit 21, the second coil unit 22, the vertical coil unit 23 and the horizontal coil unit 24 in the safety inspection device of the energy storage device A signal detection comparator 37 connected to both ends of the first coil part 21, the second coil part 22, the vertical coil part 23, and the horizontal coil part 24 is disposed, and the signal detection comparator 37 is disposed. It is characterized by a signal injection and detection controller 38 that constantly determines the safety of the energy storage device based on the signal to the detection comparator 37. The signal injection and detection controller 38 communicates with the main controller 35 wirelessly. The main control unit is in the signal supply and detection units 45, 46 and 47 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23 and the horizontal coil unit 24. Based on the detected signal, the safety of the energy storage device 13 can be inspected in real time, and the central server capable of analyzing whether an abnormality occurs in the energy storage device 13 function, and defines a state below a certain level in the energy storage device 13 as an abnormal state and transmits this information to the manager's personal terminal or smart phone 36 It is the biggest technical feature.

4 shows a detailed configuration diagram of the proposed first and second coil units. FIG. 4(a) shows the proposed first and second coil units laid out, and FIG. 4(b) forms a coil unit by connecting the first connection part and the second connection part of the proposed first and second coil parts. it did It is essential to easily arrange the first and second coil parts 21 and 22 at (+) and (-) terminals of the energy storage device 13 above all else. To this end, it is necessary to easily install the first and second coil parts 21 and 22, and in the present invention, for this purpose, the coil band part 43 with an insulated coil, the first connection part 41, and the second connection part (42) is characteristic. A connection pin 44 is disposed at the second connection part 43, and the connection pin 44 forms a coil through being connected (coupled) with the first connection part 41.

By connecting the connection pin 44 of the second connection part 42 to the first connection part 41, a circular coil part as shown in FIG. 4(b) can be formed, and the first and second connection parts By connecting the first and second signal injection and detection controllers 31 and 32 through the signal supply and detection connection 45 on one side of (41 and 42), the coil can be stored in energy very easily. Characterized in that it can be placed on the (+) and (-) terminals of the device (13).

5 shows a detailed configuration diagram of the proposed vertical and horizontal coil units. FIG. 5(a) is a spread of the proposed vertical and horizontal coil units, and FIG. 5(b) shows a rectangular coil unit formed by connecting the first and second connectors of the proposed vertical and horizontal coil units. will be. Above all, it is essential to easily arrange the vertical and horizontal coil units 23 and 24 in vertical and horizontal directions on the outer case of the energy storage device 13 . For this purpose, it is necessary to easily install the vertical and horizontal coil parts 23 and 24, and in the present invention, for this purpose, the coil band part 43 with an insulated coil, the first connection part 41, and the second connection part 42 ) is characteristic. A connection pin 44 is disposed at the second connection part 43, and the connection pin 44 forms a coil through being connected (coupled) with the first connection part 41.

By connecting the connection pin 44 of the second connection part 42 to the first connection part 41, a square coil part as shown in FIG. 5(b) can be formed, and the first and second connection parts By connecting the vertical and horizontal signal injection and detection controllers 33 and 34 through signal supply and detection connections on one side of (41 and 42), the coil is very easily connected to the energy storage device 13. It is characterized in that it can be placed in an outer case.

6 shows a waveform diagram of a frequency injected into a coil unit. 6(a) shows frequency injection from high frequency to low frequency based on a sine wave, and FIG. 6(b) shows low frequency based on a sine wave. 6 (c) injects a frequency from a high frequency to a low frequency based on a square wave, and FIG. 6 (d) shows a square wave. It represents frequency injection from low frequency to high frequency based on square wave. The frequency is characterized by injecting a variable frequency from a minimum of tens of Hz to a maximum of hundreds of kHz, and is based on a sine wave as shown in FIGS. 6 (a) and (b), or in FIG. 6 (c), It can be based on a square wave as shown in (d), and is characterized in that values of resistance, inductance, and capacitance can be measured at a specific frequency through a variable frequency as described above. Therefore, injection while changing the variable frequency from high frequency to low frequency or from low frequency to high frequency is the biggest technical feature. In this way, the stability of the energy storage device is accurately evaluated through the variable frequency sine wave or square wave, and in particular, the impedance can be more accurately calculated than the sine wave in the square wave. has an effect.

Therefore, the present invention is a safety inspection device for an energy storage device, comprising: a charging device 12 for charging the energy storage device 13 by receiving an output of an input power source 11; a first coil unit 21 supplying and detecting a signal to the (+) terminal of the energy storage device 13; a second coil unit 22 supplying and detecting a signal to the (-) terminal of the energy storage device 13; a vertical coil unit 23 for detecting a signal in a vertical direction of an outer case of the energy storage device 13; a horizontal coil unit 24 for detecting a signal in a horizontal direction of an outer case of the energy storage device 13; a signal supply and detection unit 31 of the first coil unit 21 supplying and detecting a signal of the first coil unit 21; a signal supply and detection unit 32 of the second coil unit 22 supplying and detecting a signal of the second coil unit 22; a signal supply and detection unit 33 of the vertical coil unit 23 for supplying and detecting signals of the vertical coil unit 23; a signal supply and detection unit 34 of the horizontal coil unit 24 for supplying and detecting signals of the horizontal coil unit 24; Information obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 a main controller 35 that remotely detects; The main controller 35 intends to propose a safety inspection device for an energy storage device characterized in that the safety of the energy storage device is inspected based on the detection state of the signal.

In addition, in the safety inspection method of the energy storage device according to the present invention, a charging device 12 for charging the energy storage device 13 by receiving the output of the input power source 11 is located, and the charging device 12 A first step of supplying a signal to the first coil unit 21 of the energy storage device 13 that receives the output and stores electrical energy; A second step of detecting a signal from the second coil unit 22 of the energy storage device 13; A third step of detecting a signal from the vertical coil unit 23 of the energy storage device 13; A fourth step of detecting a signal from the horizontal coil unit 24 of the energy storage device 13; A fifth step of wirelessly transferring signals detected by the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 to the main control unit 35; A sixth step of determining, by the main controller 35, stability of the energy storage device 13 based on the signal; The main control unit 35 is to propose a safety inspection method of an energy storage device characterized by a seventh step of inspecting the safety of the energy storage device in real time and transmitting it to a personal terminal or smart phone.

The above description is merely an example of the technical idea of the present invention, and the present invention can be applied to a safety inspection device for an energy storage device and an inspection method using the same by various modifications to those skilled in the art, However, it should be recognized that the scope of technology that can be easily modified technically also belongs to the scope of this patent.

10: Energy storage device safety inspection device
11: input power
12: charging device
13: energy storage system (ESS)
14: Solar Panel (PV Panel)
21: first coil part
22: second coil unit
23: vertical coil unit
24: horizontal coil part
31: first coil unit signal supply and detection unit
32: second coil unit signal supply and detection unit
33: Signal supply and detection unit of the vertical coil unit
34: signal supply and detection unit of horizontal coil unit
35: main control unit
36: personal terminal or smart phone
37: signal detection comparator
38: signal injection and detection controller
41: first connection part
42: second connection part
43: coil band part
44: connection pin
45: signal supply and detection connection
S1: first switch
S2: second switch
S3: 3rd switch
S4: 4th switch
Vin: internal power

Claims (6)

In the safety inspection device of the energy storage device,
a charging device 12 for charging the energy storage device 13 by receiving input power 11;
a first coil unit 21 supplying and detecting a signal to the (+) terminal of the energy storage device 13;
a second coil unit 22 supplying and detecting a signal to the (-) terminal of the energy storage device 13;
a vertical coil unit 23 for detecting a signal in a vertical direction of an outer case of the energy storage device 13;
a horizontal coil unit 24 for detecting a signal in a horizontal direction of an outer case of the energy storage device 13;
a signal supply and detection unit 31 of the first coil unit 21 supplying and detecting a signal of the first coil unit 21;
a signal supply and detection unit 32 of the second coil unit 22 supplying and detecting a signal of the second coil unit 22;
a signal supply and detection unit 33 of the vertical coil unit 23 for supplying and detecting signals of the vertical coil unit 23;
a signal supply and detection unit 34 of the horizontal coil unit 24 for supplying and detecting signals of the horizontal coil unit 24;
Information obtained from the signal supply and detection units 31, 32, 33, and 34 of the first coil unit 21, the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 A main control unit 35 that remotely detects; includes,
The main controller 35 checks the safety of the energy storage device based on the detection state of the signal. According to claim 1
Supplying a variable frequency signal to the first coil unit 21, the second coil unit 22, the vertical coil unit 23 and the horizontal coil unit 24 in the safety inspection device of the energy storage device first to fourth switches (S1 to S4) for;
When the first switch S1 and the second switch S2 of the first to fourth switches S1 to S4 are turned on, the third switch S3 and the fourth switch S4 are It turns off (Turn-off);
When the third switch S3 and the fourth switch S4 are turned on, the first switch S1 and the second switch S2 are turned off. Safety Inspection Device for Energy Storage Devices According to claim 2
In the first coil part 21, the second coil part 22, the vertical coil part 23 and the horizontal coil part 24, based on the square wave (Square Wave), high frequency to low frequency ( A safety inspection device for an energy storage device, characterized in that the stability is determined based on the impedance value of the energy storage device through injection at a variable frequency with a low frequency) According to claim 1,
To detect signals generated in the first coil unit 21, the second coil unit 22, the vertical coil unit 23 and the horizontal coil unit 24 in the safety inspection device of the energy storage device Characterized in that it further comprises a signal detection comparator 37 connected to both ends of the first coil part 21, the second coil part 22, the vertical coil part 23 and the horizontal coil part 24. Safety Inspection Device for Energy Storage Devices According to claim 1,
The main controller 35 checks the safety of the energy storage device 13 in real time and transmits it to a personal terminal or smart phone;
When an abnormality of the energy storage device 13 is confirmed, an alarm is transmitted to the personal terminal or smart phone, characterized in that the safety inspection device of the energy storage device In the safety inspection method of the energy storage device,
The charging device 12 for charging the energy storage device 13 by receiving the input power 11 is located, and the charging device 12 receives the output and stores the electrical energy of the energy storage device 13. A first step of supplying a signal to the first coil unit 21;
A second step of detecting a signal from the second coil unit 22 of the energy storage device 13;
A third step of detecting a signal from the vertical coil unit 23 of the energy storage device 13;
A fourth step of detecting a signal from the horizontal coil unit 24 of the energy storage device 13;
A fifth step of wirelessly transferring signals detected by the second coil unit 22, the vertical coil unit 23, and the horizontal coil unit 24 to the main control unit 35;
A sixth step of determining, by the main controller 35, stability of the energy storage device 13 based on the signal;
The main control unit 35 inspects the safety of the energy storage device in real time and transmits it to a personal terminal or smart phone.

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