JP6080200B2 - Storage device, storage amount calculation device, storage battery control method, and program - Google Patents

Description

  The present invention relates to a power storage device, a power storage amount calculation device, a storage battery control method, and a program.

  In general, a storage battery is often used as a power source for an electronic device. And it is important for the user of an electronic device to detect the electrical storage amount of a storage battery accurately. For example, Patent Document 1 describes that in an information terminal having a data storage device such as a hard disk, the storage battery voltage is calculated by measuring the voltage of the storage battery after the access to the data storage device is completed. Yes.

JP 2006-208321 A

  In recent years, the use of storage batteries has expanded beyond the power source of electronic devices. And the amount of electrical storage of a storage battery is also calculated by integrating | accumulating each of the electric current charged from a storage battery, and the electric current discharged from a storage battery. On the other hand, the standby time of the storage battery may become longer. In such a case, the present inventor considered that in the method of calculating the storage amount by integrating the charge / discharge amount of the storage battery, an error occurs in the storage amount due to natural discharge or the like.

  An object of the present invention is to provide a power storage device, a power storage amount calculation device, a storage battery control method, and a program that can accurately calculate the power storage amount of the storage battery even when the standby time is long.

According to the present invention, a power storage device comprising:
A storage battery,
An input / output terminal for connecting the storage battery to the outside of the power storage device;
First storage charge amount updating means for updating a storage amount of the storage battery using a current flowing through the input / output terminal;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
An update timing setting means for performing the input to the second storage amount update means when a standby time which is a time during which no current flows through the input / output terminal is equal to or longer than a predetermined time;
With
The update timing setting means is provided with a power storage device that sets the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery .

According to the present invention, the first storage amount update means for updating the storage amount of the storage battery using the current flowing through the input / output terminal that connects the storage battery to the outside;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
An update timing setting means for performing the input to the second storage amount update means when a standby time which is a time during which no current flows through the input / output terminal is equal to or longer than a predetermined time;
With
The update timing setting means is provided with a storage amount calculation device that sets the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery. .

According to the present invention, the step of updating the storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside ;
When there is an input to the effect that correcting the previous SL storage amount, and updating the storage amount based on the voltage of the storage battery,
Performing the input when a standby time, which is a time during which no current flows through the input / output terminal, is equal to or longer than a predetermined time;
There is provided a method for controlling a storage battery , comprising: setting the preset time by using a product of the temperature of the storage battery or the temperature around the storage battery and the humidity around the storage battery.

According to the present invention, there is provided a program for causing a computer to function as a device that calculates a storage amount of a storage battery,
In the computer,
A first storage amount update function for updating a storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside;
A second storage amount update function for updating the storage amount based on the voltage of the storage battery when there is an input to correct the storage amount;
An update timing setting function for performing the input to the second storage amount update means when a standby time, which is a time during which no current flows through the input / output terminal, is equal to or longer than a predetermined time;
It was given,
The update timing setting function is provided with a program for setting the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery .

  According to the present invention, even if the standby time of the power storage device becomes long, the power storage amount of the storage battery can be calculated with high accuracy.

It is a figure which shows the structure of the electrical storage apparatus which concerns on 1st Embodiment. It is a figure which shows the structure of the electrical storage apparatus which concerns on 2nd Embodiment. It is a figure which shows the structure of the electrical storage apparatus which concerns on 3rd Embodiment. It is a figure which shows the structure of the electrical storage apparatus which concerns on 4th Embodiment. It is a figure which shows the structure of the electrical storage apparatus which concerns on 5th Embodiment. It is a figure which shows the structure of the electric power supply system which concerns on 6th Embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same reference numerals are given to the same components, and the description will be omitted as appropriate.

  In the following description, each component of the storage amount calculation device 140 is not a hardware unit configuration but a functional unit block. Each component of the storage amount calculation device 140 includes a CPU, a memory of a computer, a program that realizes the components of this figure loaded in the memory, a storage medium such as a hard disk that stores the program, and a network connection interface. It is realized by any combination of hardware and software. There are various modifications of the implementation method and apparatus.

(First embodiment)
FIG. 1 is a diagram illustrating a configuration of a power storage device 10 according to the first embodiment. The power storage device 10 according to the present embodiment includes a storage battery 110, an input / output terminal 150, a first power storage amount update unit 142, and a second power storage amount update unit 144. The input / output terminal 150 connects the storage battery 110 to the outside of the power storage device 10. The first charged amount update unit 142 updates the charged amount of the storage battery 110 using the current flowing through the input / output terminal 150. When there is an input indicating that the storage amount of storage battery 110 should be corrected, second storage amount update unit 144 updates the storage amount of storage battery 110 based on the voltage of storage battery 110. The amount of power storage is, for example, SOC (State Of Charge).

  The storage battery 110 is, for example, a lithium ion battery, but may be another storage battery. The storage battery 110 may be an assembled battery in which a plurality of battery cells are connected in series. Furthermore, the storage battery 110 may be a battery in which a plurality of the assembled batteries are connected in parallel. When power is supplied from the storage battery 110 to the outside, a current flows outside the power storage device 10 via the input / output terminal 150. When charging the storage battery 110, power is supplied from the input / output terminal 150 to the storage battery 110.

  In the present embodiment, the storage amount calculation device 140 further includes a storage amount storage unit 146. The storage amount storage unit 146 stores the storage amount of the storage battery 110.

  The power storage device 10 includes a current detection unit 120. The current detection unit 120 detects the magnitude and direction of the current flowing through the input / output terminal 150. The detection value of the current detection unit 120 is output to the first storage amount update unit 142. The first storage amount update unit 142 calculates the increase / decrease amount of the storage amount of the storage battery 110 by integrating the detection value of the current detection unit 120, and the storage amount storage unit 146 stores the increase / decrease amount using the calculated increase / decrease amount. The amount of stored electricity is updated.

  The power storage device 10 includes a voltage detection unit 130. The voltage detection unit 130 detects the voltage of the storage battery 110. The detection value of the voltage detection unit 130 is output to the second storage amount update unit 144. The second storage amount update unit 144 stores data for converting the voltage of the storage battery 110 into the storage amount of the storage battery 110. This data may be a function or a table. And the 2nd electrical storage amount update part 144 converts the voltage value which the voltage detection part 130 output into the electrical storage amount of the storage battery 110 using this data. And the 2nd electrical storage amount update part 144 updates the electrical storage amount memory | storage part 146 by overwriting the information which the electrical storage amount storage part 146 has recorded with the electrical storage amount obtained by conversion.

  According to the present embodiment, the second storage amount update unit 144 updates the storage amount of the storage battery 110 based on the voltage of the storage battery 110 when there is an input indicating that the storage amount of the storage battery 110 should be corrected. For this reason, when the standby time of the storage battery 110, that is, when the current does not flow through the input / output terminal 150 becomes longer, this input is performed to update the storage amount of the storage battery 110 based on the voltage of the storage battery 110. can do. Therefore, even if the standby time of the storage battery 110 becomes long, the amount of power stored in the storage battery 110 can be calculated with high accuracy.

(Second Embodiment)
FIG. 2 is a diagram illustrating a configuration of the power storage device 10 according to the second embodiment. The power storage device 10 according to the present embodiment has the same configuration as that of the power storage device 10 according to the first embodiment, except that an update timing determination unit 143, a display unit 160, and a display control unit 162 are provided. doing.

  The update timing determination unit 143 determines whether the storage battery 110 is on standby based on the detection value of the current detection unit 120. For example, when the detection value of the current detection unit 120 is 0 (that is, the detection limit or less), the update timing determination unit 143 determines that the storage battery 110 is not charged or discharged, that is, is in a standby state. . And the update timing determination part 143 outputs to the 2nd electrical storage amount update part 144, when the continuation time of the standby time of the storage battery 110 becomes more than predetermined time (threshold value). When there is an input from the update timing determination unit 143, the second storage amount update unit 144 updates the storage amount of the storage battery 110 stored in the storage amount storage unit 146.

  The predetermined time in the update timing determination unit 143 is, for example, 24 hours or more, preferably 48 hours or more.

  The display unit 160 is a device that displays information related to the power storage device 10, for example, the amount of stored power. The display control unit 162 controls the display on the display unit 160. The display control unit 162 also serves as a warning unit. Specifically, when the second storage amount update unit 144 updates the storage amount storage unit 146, the display control unit 162 notifies the display unit 160 of a warning signal when the difference between the storage amounts before and after the update is greater than or equal to a reference value. Is output. When receiving the warning signal from the display control unit 162, the display unit 160 displays the warning information.

  Also according to this embodiment, the same effect as that of the first embodiment can be obtained. Moreover, the update timing determination part 143 operates the 2nd electrical storage amount update part 144, when the duration of the standby | waiting time of the storage battery 110 becomes more than predetermined. For this reason, even if the user (or manager) of the power storage device 10 does not perform input, the second power storage amount update unit 144 can be operated to update the power storage amount storage unit 146.

  In addition, when the second storage amount update unit 144 updates the storage amount storage unit 146, the display control unit 162 displays warning information on the display unit 160 when the difference between the storage amounts before and after the update is equal to or greater than the reference value. . When the difference in the storage amount by the second storage amount update unit 144 is greater than or equal to the reference value, the storage battery 110 may be deteriorated. For this reason, the user (or manager) of the power storage device 10 can be notified that the storage battery 110 may be deteriorated. This notification may not be performed by the display control unit 162. For example, the power storage device 10 may transmit a warning mail to a user or administrator of the power storage device 10 via an external communication interface (not shown). The difference between the storage amounts before and after the update is calculated by the second storage amount update unit 144, for example. Then, when the difference is greater than or equal to the reference value, the second storage amount update unit 144 may output that fact to the display control unit 162.

(Third embodiment)
FIG. 3 is a diagram illustrating a configuration of the power storage device 10 according to the third embodiment. The power storage device 10 according to the present embodiment has the same configuration as that of the power storage device 10 according to the second embodiment, except for the following points.

  First, the power storage device 10 includes a thermometer 132. The thermometer 132 measures the temperature of the storage battery 110 or the temperature around the storage battery 110. And the update timing determination part 143 can determine the threshold value of the standby time of the storage battery 110 based on the detection result of the thermometer 132. For example, the update timing determination unit 143 decreases the standby time threshold of the storage battery 110 as the detection value of the thermometer 132 increases.

  The power storage device 10 includes a hygrometer 134. The hygrometer 134 measures the humidity around the storage battery 110. And the update timing determination part 143 can determine the threshold value of the standby time of the storage battery 110 using the product of the detected value of the thermometer 132 and the detected value of the hygrometer 134, for example. For example, the update timing determination unit 143 decreases the standby time threshold of the storage battery 110 as the product of the detection value of the thermometer 132 and the detection value of the hygrometer 134 increases. Further, the update timing determination unit 143 may calculate the threshold value using a table. In this case, for example, the table stores a threshold value of the standby time for each combination of the detection value of the thermometer 132 and the detection value of the hygrometer 134.

  And the update timing determination part 143 operates the 2nd electrical storage amount update part 144, when the standby time of the storage battery 110 exceeds this threshold value.

  According to this embodiment, the same effect as that of the second embodiment can be obtained. In addition, depending on the type of storage battery 110, the decrease in the amount of stored electricity increases as the temperature of the storage battery 110 increases. In the present embodiment, the update timing determination unit 143 can determine a threshold value for the standby time of the storage battery 110 based on the detection value of the thermometer 132. For this reason, the amount of electricity stored in the storage battery 110 can be measured with higher accuracy.

  Further, depending on the type of the storage battery 110, as the humidity of the storage battery 110 increases, the amount of stored power increases. In the present embodiment, the update timing determination unit 143 can determine a threshold value for the standby time of the storage battery 110 based on the product of the detection value of the thermometer 132 and the detection value of the hygrometer 134. For this reason, the amount of electricity stored in the storage battery 110 can be measured with higher accuracy.

(Fourth embodiment)
FIG. 4 is a diagram illustrating a configuration of the power storage device 10 according to the fourth embodiment. The power storage device 10 according to the present embodiment has the same configuration as that of the power storage device 10 according to the first embodiment except that the power storage device 10 includes an input unit 164.

  A user or administrator of the power storage device 10 operates the input unit 164 when the second power storage amount update unit 144 is to be operated. When the operation is performed, the input unit 164 outputs a signal indicating that to the second storage amount update unit 144. When the input from the input unit 164 is performed, the second storage amount update unit 144 updates the storage amount of the storage battery 110 based on the detection value of the voltage detection unit 130. The input unit 164 may be a button or a touch panel.

  Also according to this embodiment, the same effect as that of the first embodiment can be obtained. In addition, the amount of power stored in the power storage device 10 can be updated at a timing desired by the user or administrator of the power storage device 10.

(Fifth embodiment)
FIG. 5 is a diagram illustrating a configuration of the power storage device 10 according to the fifth embodiment. The power storage device 10 according to the present embodiment has the same configuration as that of the power storage device 10 according to the second embodiment except that the power storage device 10 includes an input unit 166.

  In the present embodiment, the user or administrator of the power storage device 10 inputs a threshold value for the standby time of the storage battery 110 into the input unit 166. This threshold value is stored in the update timing determination unit 143. Then, the update timing determination unit 143 causes the second storage amount update unit 144 to update the storage amount when the standby time of the storage battery 110 exceeds the threshold value input to the input unit 166.

  According to this embodiment, the same effect as that of the second embodiment can be obtained. In addition, the user or administrator of the power storage device 10 can set the threshold value of the standby time of the storage battery 110 to a desired value.

(Sixth embodiment)
FIG. 6 is a diagram illustrating a configuration of a power supply system according to the sixth embodiment. The power supply system according to the present embodiment includes a plurality of power storage devices 10. Each power storage device 10 has the configuration shown in any of the first to fifth embodiments.

  The plurality of power storage devices 10 are each connected to the grid power network 200 via the control device 12. The control device 12 has, for example, a PCS (Power Conversion System) and controls charging / discharging of the power storage device 10. One power storage device 10 may be connected to one control device 12, or a plurality of power storage devices 10 may be connected to one control device 12. Moreover, the control apparatus 12 may be connected to the charger of the electric vehicle, for example.

  The grid power network 200 is further connected with at least one renewable energy power source 210. The renewable energy power source 210 is, for example, a solar power generation system, but may be another power generation system such as a wind power generation system. The amount of power generated by the renewable energy power source 210 is transmitted to the management device 220. The amount of power stored in the power storage device 10 is also transmitted to the management device 220. The control device 12 is connected to the management device 220.

  The amount of power generated by the renewable energy power source 210 varies depending on environmental factors. For this reason, when the ratio of the amount of power supplied from the renewable energy power source 210 in the grid power network 200 increases (for example, 20% or more on average), the voltage of the grid power network 200 becomes unstable. On the other hand, the management device 220 stabilizes the voltage of the grid power network 200 by controlling charging / discharging of the power storage device 10 via the control device 12.

  Here, when the actual power storage amount of the power storage device 10 is less than the power storage amount of the power storage device 10 managed by the management device 220, the power supplied from the power storage device 10 to the system power network 200 is insufficient. There is a possibility that the voltage of the power network 200 is not sufficiently stabilized. In the present embodiment, since the power storage device 10 has the configuration shown in any of the first to fifth embodiments, the amount of power stored in the power storage device 10 transmitted from the power storage device 10 to the management device 220 is Have high accuracy. Therefore, the case where the electric power of the system | strain power network 200 is not stabilized can be decreased.

As mentioned above, although embodiment of this invention was described with reference to drawings, these are the illustrations of this invention, Various structures other than the above are also employable.
A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.
1. A power storage device,
A storage battery,
An input / output terminal for connecting the storage battery to the outside of the power storage device;
First storage charge amount updating means for updating a storage amount of the storage battery using a current flowing through the input / output terminal;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
A power storage device comprising:
2. 1. In the electricity storage device described in
A power storage device comprising update timing setting means for performing the input to the second power storage amount update means when a standby time, which is a time during which no current flows through the input / output terminal, is equal to or longer than a predetermined time .
3. 2. In the electricity storage device described in
The said update timing setting means is an electrical storage apparatus which sets the said predetermined time using the temperature of the said storage battery or the temperature around the said storage battery.
4). 3. In the electricity storage device described in
The said update timing setting means is an electrical storage apparatus which sets the said predetermined time using the product of the said temperature and the humidity around the said storage battery.
5. 2. ~ 4. In the power storage device according to any one of
The power storage device, wherein the predetermined time is 24 hours or more.
6). 1. In the electricity storage device described in
The input is a power storage device that is an input from a user.
7). 1. ~ 6. In the power storage device according to any one of
An electricity storage device further comprising warning means for calculating a difference between the amount of electricity stored after update by the second amount of electricity update means and the amount of electricity stored before update, and outputting a warning signal when the difference is greater than or equal to a reference value.
8). First storage charge amount updating means for updating a storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
A storage amount calculation device comprising:
9. Based on the voltage of the storage battery when there is an input to update the storage amount of the storage battery using current flowing through an input / output terminal that connects the storage battery to the outside, and to correct the storage amount A storage battery control method for updating a storage amount.
10. A program for causing a computer to function as a device for calculating a storage amount of a storage battery,
In the computer,
A first storage amount update function for updating a storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside;
A second storage amount update function for updating the storage amount based on the voltage of the storage battery when there is an input to correct the storage amount;
A program to give

DESCRIPTION OF SYMBOLS 10 Power storage device 110 Storage battery 12 Control device 120 Current detection unit 130 Voltage detection unit 132 Thermometer 134 Hygrometer 140 Storage amount calculation device 142 First storage amount update unit 143 Update timing determination unit 144 Second storage amount update unit 146 Storage amount storage Unit 150 input / output terminal 160 display unit 162 display control unit 164 input unit 166 input unit 200 system power network 210 renewable energy power source 220 management device

Claims (7)

A power storage device,
A storage battery,
An input / output terminal for connecting the storage battery to the outside of the power storage device;
First storage charge amount updating means for updating a storage amount of the storage battery using a current flowing through the input / output terminal;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
An update timing setting means for performing the input to the second storage amount update means when a standby time which is a time during which no current flows through the input / output terminal is equal to or longer than a predetermined time;
With
The power storage device, wherein the update timing setting means sets the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery . The power storage device according to claim 1 ,
The power storage device, wherein the predetermined time is 24 hours or more. The power storage device according to claim 1,
The input is a power storage device that is an input from a user. In the electrical storage apparatus as described in any one of Claims 1-3 ,
An electricity storage device further comprising warning means for calculating a difference between the amount of electricity stored after update by the second amount of electricity update means and the amount of electricity stored before update, and outputting a warning signal when the difference is greater than or equal to a reference value. First storage charge amount updating means for updating a storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside;
Second power storage amount updating means for updating the power storage amount based on a voltage of the storage battery when there is an input to correct the power storage amount;
An update timing setting means for performing the input to the second storage amount update means when a standby time which is a time during which no current flows through the input / output terminal is equal to or longer than a predetermined time;
With
The storage timing calculation device , wherein the update timing setting means sets the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery . Updating the storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside ;
When there is an input to the effect that correcting the previous SL storage amount, and updating the storage amount based on the voltage of the storage battery,
Performing the input when a standby time, which is a time during which no current flows through the input / output terminal, is equal to or longer than a predetermined time;
A method for controlling a storage battery , comprising: setting the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery. A program for causing a computer to function as a device for calculating a storage amount of a storage battery,
In the computer,
A first storage amount update function for updating a storage amount of the storage battery using a current flowing through an input / output terminal that connects the storage battery to the outside;
A second storage amount update function for updating the storage amount based on the voltage of the storage battery when there is an input to correct the storage amount;
An update timing setting function for performing the input to the second storage amount update function when a standby time, which is a time during which no current flows through the input / output terminal, is equal to or longer than a predetermined time;
It was given,
The update timing setting function is a program that sets the predetermined time using a product of a temperature of the storage battery or a temperature around the storage battery and a humidity around the storage battery .

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