JP6790704B2 - Power storage device - Google Patents

Description

The present invention relates to a power storage device.

Various types of secondary batteries, such as lead batteries and lithium-ion batteries, have different characteristics. Therefore, for example, when a lithium ion battery is charged by a charging device corresponding to a lead battery, the relay or the lithium ion battery in the power storage device may fail due to an overcurrent. Therefore, the secondary battery needs to be charged by the charging device corresponding to the secondary battery.

As related techniques, the techniques described in Patent Documents 1 to 3 are known.

Japanese Unexamined Patent Publication No. 10-229648 Japanese Unexamined Patent Publication No. 2016-03539 Japanese Unexamined Patent Publication No. 01-260370

However, if the connector of the charging device has the same shape regardless of the type of the secondary battery, the unsupported charging device may be connected to the power storage device, and the secondary battery may be charged by the unsupported charging device. ..

Specifically, for example, a power storage device including a lithium ion battery and a charging device compatible with the lithium ion battery each include a power line connector and a communication line connector. On the other hand, the power storage device including the lead battery and the charging device compatible with the lead battery each include a power line connector, but do not have a communication line connector. Therefore, even if the power line connector of the power storage device including the lithium ion battery is connected to the power line connector of the charging device compatible with the lead battery, if the communication line connector of the power storage device is not connected, the lithium ion battery is a lead battery. Not charged by compatible charging device.

However, with the communication line connector of the power storage device including the lithium-ion battery connected to the communication line connector of the load device or charging device compatible with the lithium-ion battery, the power line connector of the power storage device is the power line connector of the charging device compatible with the lead battery. There can be cases where it is connected to. In such a case, since the power line connector and the communication line connector of the power storage device including the lithium ion battery are in the connected state, the lithium ion battery may be charged by the charging device compatible with the lead battery.

An object of one aspect of the present invention is to provide a power storage device capable of preventing the secondary battery from being charged when an uncorresponding charging device is connected to the power storage device.

The power storage device according to one embodiment of the present invention includes a secondary battery, a power line connector for connecting to the secondary battery through a power line, a module switch installed on the power line, and a connection detection line to one terminal of the secondary battery. Includes a connection detection line connector connected through and a control unit. The control unit turns on the module switch when it detects that the signal output via the power line connector is input via the connection detection line connector. Further, the control unit turns off the module switch when it does not detect that the signal output via the power line connector is input via the connection detection line connector.

According to the power storage device according to one embodiment, it is possible to prevent the secondary battery from being charged when an unsupported charging device is connected to the power storage device.

It is a figure which shows the structural example of the power storage device and the corresponding load device, or a charging device according to 1st Embodiment. It is explanatory drawing in the case of connecting the charging device which is not corresponding to the power storage device to the power storage device according to 1st Embodiment. It is a figure which shows the structural example of the power storage device and the corresponding load device, or the charging device according to 2nd Embodiment.

Hereinafter, embodiments will be described in detail based on the drawings.
<First Embodiment>
FIG. 1 is a diagram showing a configuration example of a power storage device according to the first embodiment and a corresponding load device or charging device. As shown in FIG. 1, the power storage device 1 includes a secondary battery 11, a control unit 12, a communication circuit 13, a module switch 14, a power supply 15, a power line connector 16, and a communication line connector 17. Further, the power storage device 1 further includes a connection detection line connector 18, a backflow prevention diode D, a first detection resistor R _D1 (first resistor), and a second detection resistor R _D2 (second resistor). The load device 2 (or charging device 2) corresponding to the power storage device 1 includes a load 21 (or power conversion device 21), a communication circuit 22, a power line connector 23, a communication line connector 24, and a connection detection line connector 25. .. The load device 2 is a vehicle such as an electric vehicle, a hybrid vehicle, and an electric forklift, and the load 21 is, for example, an inverter circuit and an electric motor. Further, the charging device 2 is a charging device corresponding to the secondary battery 11, and the power conversion device 21 is, for example, an inverter circuit.

The secondary battery 11 is a secondary battery in which the power storage device 1 including the secondary battery 11 includes a power line connector 16 and a communication line connector 17, and is, for example, a lithium ion battery.
The power line connector 16 is a connector for the secondary battery 11 in the power storage device 1 to discharge to the load device 2 and the charging device 2 to charge the secondary battery 11. Power line connector 16 is connected to the secondary battery 11 via the power line _{L EP,} to connect the power line _{L EP} of the power storage device 1 side to the power line _{L EP} load devices 2 (or the charging apparatus 2) side. Power line _{L EP} includes a high power line _{L EPH} predetermined potential, and a low potential power line _{L EPL.}

The communication line connector 17 is a connector for the power storage device 1 to communicate information regarding discharge (or charging) of the secondary battery 11 with the load device 2 (or charging device 2). Communication line connector 17 is connected to the communication circuit 13 through the communication line L _C, to connect the communication line L _C of the power storage device 1 side to the load device 2 (or the charging device 2) communication line side L _C.

The control unit 12 is, for example, a processor such as a CPU (Central Processing Unit), an FPGA (Field Programmable Gate Array), or a PLD (Programmable Logic Device). The control unit 12 controls the operation of the entire power storage device 1. For example, the control unit 12 turns on the module switch 14 when it detects that the current (signal) output from the secondary battery 11 via the power line connector 16 is input via the connection detection line connector 18. Further, the control unit 12 turns off the module switch 14 when it does not detect that the current (signal) output from the secondary battery 11 via the power line connector 16 is input via the connection detection line connector 18.

Connection detection line connector 18, (in the example shown in FIG. 1, the negative terminal) one terminal of the secondary battery 11 is a connector for connecting through the connection detection line L _D to. Connection detection line connector 18 connects the connection detecting line L _D of the power storage device 1 side to the connection detection line L _D of the load device 2 (or the charging apparatus 2) side.

It is desirable that the connection detection line connector 18 is physically integrally formed with the power line connector 16 or the communication line connector 17. In that case, since the power line connectors 16 and 23 can be generalized, it is desirable that the connection detection line connector 18 is physically integrally formed with the communication line connector 17. If the connection detection line connector 18 is integrally formed with the power line connector 16 or the communication line connector 17, the work time for connecting the connectors can be shortened.

Module switch 14 is a switch provided in the power line L _EP between the secondary battery 11 and the power line connector 16. The module switch 14 may be, for example, a mechanical relay or a semiconductor relay.

When the power storage device 1 is connected to the load device 2 (or the charging device 2) via the communication line connector 17, the communication circuit 13 cooperates with the control unit 12 to transmit the status information of the secondary battery 11 and the like to the communication line. L _C through communicating with the communication circuit 22 of the load device 2 (or the charging device 2).

The power source 15 is a power source for the control unit 12 and the communication circuit 13, and generates a desired electric power based on the output electric power from the secondary battery 11. Note that, unlike the configuration shown in FIG. 1, the power supply of the communication circuit 13 may be a power supply provided separately from the power supply of the control unit 12, and the power supply provided separately is an insulated power supply. May be good. If an isolated power supply is provided separately, it is possible to prevent the output current from the secondary battery 11 from returning to the secondary battery 11 via the communication circuit 13 when the module switch 14 is turned off.

First detection resistor _{R D1} and the second detection resistor _{R D2} is placed in series with the connection detection line _{L D.} Specifically, in the connection detection line L _D, one terminal of the first sense resistor R _D1 is connected to the connection detection line connector 18, the other terminal of the first sense resistor R _D1, the second It is connected to one terminal of the detection resistor R _D2 . The other terminal of the second detection resistor R _D2 is connected to one terminal (negative electrode terminal) of the secondary battery 11 via the backflow prevention diode D. The first detection resistor R _D1 and the second detection resistor R _D2 are part of a detection circuit that detects whether or not the signal output via the power line connector 16 is input via the connection detection line connector 18. Configure. Depending on the embodiment, the backflow prevention diode D may not be provided.

The voltage divided by the first detection resistor R _D1 and the second detection resistor R _D2 is input to the control unit 12. The control unit 12 may perform AD (Analog to Digital) conversion of the input voltage.

As described above, the load device 2 (or charging device 2) includes the power line connector 23, the communication line connector 24, and the connection detection line connector 25. The charging device 2 is a charging device compatible with the secondary battery 11, for example, a charging device compatible with a lithium ion battery. The power line connector 23 is a connector connected to the power line connector 16 on the power storage device 1 side, and the communication line connector 24 is a connector connected to the communication line connector 17 on the power storage device 1 side. The communication circuit 13 and 22 is connected a communication line connector 17 and 24, and through the communication line _{L C.} Further, the connection detection line connector 25 is a connector connected to the connection detection line connector 18 on the power storage device 1 side. Then, one of the load device 2 (or the charging apparatus 2) side of the connection detecting line L _D is connected to the connection detecting line connector 25, the other connection detection line L _D is the load device 2 (or the charging apparatus 2) side high It is connected to the potential power line _LEPH .

On the other hand, the charging device that does not correspond to the power storage device 1 does not include at least the connection detection line connector 25. For example, as shown in FIG. 2, the non-compliant charging device 3 includes the power line connector 23, but does not include the communication line connector 24 and the connection detection line connector 25. FIG. 2 is an explanatory diagram in the case where a charging device that is not compatible with the power storage device is connected to the power storage device according to the first embodiment. The non-compliant charging device 3 is a charging device that is not compatible with the secondary battery 11, and is, for example, a charging device compatible with a lead battery.

Therefore, when the charging device 2 (or the load device 2) is connected to the power storage device 1, the current (signal) output from the secondary battery 11 flows through the following path. That is, when the power line connectors 16 and 23 and the connection detection line connectors 18 and 25 are connected to each other in addition to the communication line connectors 17 and 24, the current (signal) flows through the following path. In the power storage device 1, the current (signal) flows in the route of the other terminal (positive electrode terminal) of the secondary battery 11 → the high potential power line _LEPH → the power line connector 16. Then, the load device 2 (or the charging apparatus 2), a current (signal) flows in the path of the power line connector 23 → the high-potential power line L _EPH → connection detection line L _D → connection detecting line connector 25. Further, in the power storage device 1, the current (signal) is transmitted from the connection detection line connector 18 → the first detection resistor R _D1 → the second detection resistor R _D2 → the backflow prevention diode D → one terminal (negative electrode) of the secondary battery 11. It flows through a route called (terminal).

When the current (signal) output from the secondary battery 11 flows through the path as described above, the value of the voltage divided by the first detection resistor R _D1 and the second detection resistor R _D2 becomes It becomes equal to or more than a preset predetermined value. As a result, the control unit 12 detects that the signal output via the power line connector 16 is input via the connection detection line connector 18. Therefore, the control unit 12 turns on the module switch 14. When the module switch 14 is turned on, when the load device 2 is connected to the power storage device 1, the secondary battery 11 discharges the load 21. Further, when the charging device 2 is connected to the power storage device 1, the secondary battery 11 is charged by the power conversion device 21.

On the other hand, when a charging device that is not compatible with the power storage device 1 is connected to the power storage device 1, the current (signal) output from the secondary battery 11 does not flow in the above-mentioned path. For example, as shown in FIG. 2, the non-compliant charging device 3 does not include the connection detection line connector 25. Therefore, even if the power line connector 23 of the non-compliant charging device 3 is connected to the power line connector 16, the connection detection line connector 18 is not connected. Therefore, the current (signal) output from the secondary battery 11 does not flow in the path as described above.

Further, even if the connection detection line connector 18 is connected, if the power line connector 23 of the non-compliant charging device 3 is connected to the power line connector 16, the current (signal) output from the secondary battery 11 is described above. It does not flow by the route like. For example, the communication line connector 24 and the connection detection line connector 25 of the load device 2 (or the charging device 2) are connected to the communication line connector 17 and the connection detection line connector 18, respectively, and the power line connector 23 of the non-compliant charging device 3 is the power line connector. Even if it is connected to 16, no current (signal) flows. This is because, provided in connection detecting line connector 25 is different from device power line connector 23, and no current flows (signal) a path of the power line connector 23 → the high-potential power line L _EPH → connection detection line L _D → connection detecting line connector 25 Because.

When no current flows through the path described above, the value of the voltage divided by the first detection resistor R _D1 and the second detection resistor R _D2 is less than a preset predetermined value (for example, 0 [V]]. )become. As a result, the control unit 12 does not detect that the signal output via the power line connector 16 is input via the connection detection line connector 18. Therefore, the control unit 12 turns off the module switch 14 (maintains the off state). When the module switch 14 is in the off state, the secondary battery 11 is not charged by the charging device (for example, the non-compatible charging device 3) connected to the power line connector 16.

As described above, according to the power storage device according to the first embodiment, it is possible to prevent the secondary battery from being charged when an unsupported charging device is connected to the power storage device.

<Second embodiment>
FIG. 3 is a diagram showing a configuration example of a power storage device and a corresponding load device or charging device according to the second embodiment. In FIG. 3, the same components as those shown in FIG. 1 are designated by the same reference reference numerals as those shown in FIG.

3, power storage device 4, in addition to the components of the power storage device 1 (Figure 1) comprises, further comprising a detection switch S _D installed in the connection detection line L _D. The control unit 12 turns on the module switch 14 by detecting that the signal output via the power line connector 16 is input via the connection detection line connector 18. Further, when the control unit 12 detects that the module switch 14 is turned off after the module switch 14 is turned on, the control unit 12 turns off the detection switch _SD .

The cause of turning off the module switch 14 after it is turned on may be any cause including the failure of the module switch 14. When the module switch 14 is turned off for some reason, even if the power line connector 23 of the charging device (for example, the non-compatible charging device 3) that does not support the secondary battery 11 is connected to the power line connector 16, the charging device There is no risk that the secondary battery 11 will be charged. Therefore, the control unit 12 turns off the detection switch _SD to stop the energization of the secondary battery 11 to the detection circuit including the first detection resistor R _D1 and the second detection resistor R _D2 .

Therefore, according to the power storage device according to the second embodiment, the same effect as that of the power storage device according to the first embodiment can be obtained, and the power consumption for connection detection can be reduced.

The present invention is not limited to the above embodiments, and various improvements and changes can be made without departing from the gist of the present invention.

1, 4 Power storage device 11 Secondary battery 12 Control unit 13 Communication circuit 14 Module switch 15 Power supply 16 Power line connector 17 Communication line connector 18 Connection detection line connector D Backflow prevention diode R _D1 First detection resistor R _D2 Second detection resistor _SD detection switch 2 Load device (or charging device)
21 Load (or power converter)
22 Communication circuit 23 power line connector 24 communication line connector 25 connection detecting line connector _{L EP} power line _{L EPH} high potential power line _{L EPL} low potential power line _{L C} communication line _{L D} connection detection line 3 non-compliant charger

Claims (4)

With a secondary battery
A power line connector that connects to the secondary battery through a power line,
The module switch installed on the power line and
A connection detection line connector that connects to one terminal of the secondary battery through a connection detection line,
When it is detected that the signal output via the power line connector is input via the connection detection line connector, the module switch is turned on, and the signal output via the power line connector is the connection detection line connector. A power storage device including a control unit that turns off the module switch when it does not detect that an input has been made via. The power storage device according to claim 1.
Further including a first resistor and a second resistor installed in series with the connection detection line,
The control unit turns on the module switch when the values of the voltage divided by the first resistor and the second resistor are equal to or higher than a predetermined value, and the first resistor and the second resistor are used. A power storage device that turns off the module switch when the value of the voltage divided by is less than a predetermined value. The power storage device according to claim 1 or 2.
Further including a detection switch installed on the connection detection line,
The control unit is a power storage device that turns off the detection switch when it detects that the module switch has been turned off after turning on the module switch. The power storage device according to any one of claims 1 to 3.
It also includes a communication line connector that connects to the communication circuit through the communication line.
The connection detection line connector is a power storage device integrally formed with the communication line connector.

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