CN112039356A - Energy storage power supply and control method thereof - Google Patents

Abstract

The embodiment of the invention discloses an energy storage power supply and a control method thereof, wherein the energy storage power supply comprises: the battery module is used for storing electric energy or outputting the electric energy to the outside; the inverter module is electrically connected with the battery module and is used for converting the direct current of the battery module into alternating current; the positioning module is used for positioning the position of the energy storage power supply to generate the position information of the energy storage power supply; and the processor module is electrically connected with the inversion module and the positioning module and used for receiving the position information and controlling the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information. The energy storage power supply and the control method thereof provided by the embodiment of the invention can meet the voltage requirements of different countries in different regions and improve the convenience of the energy storage power supply.

Description

Energy storage power supply and control method thereof

Technical Field

The embodiment of the invention relates to the technology of energy storage power supplies, in particular to an energy storage power supply and a control method thereof.

Background

With the development of electronic technology, various electronic devices are developed endlessly, and the energy storage power supply for supplying power to the devices is also applied more and more widely. When a user carries the energy storage power supply to each country, the voltage and frequency output by the energy storage power supply are fixed, and local load equipment cannot be driven due to different voltages of a plurality of countries. Therefore, an energy storage power supply capable of adjusting output voltage and frequency is needed to ensure that the energy storage power supply can be normally used in various places.

At present, the conventional energy storage power supply is usually a fixed input/output power supply, and when a user carries the energy storage power supply from one country to another country, the energy storage power supply cannot be used by electric appliances in the local country, or electronic equipment carried by the user cannot be supplied with power by the local power supply, so that great inconvenience exists.

Disclosure of Invention

The embodiment of the invention provides an energy storage power supply and a control method thereof, which are used for meeting the voltage requirements of different countries in different regions and improving the use convenience of the energy storage power supply.

In a first aspect, an embodiment of the present invention provides an energy storage power supply, including:

the battery module is used for storing electric energy or outputting the electric energy to the outside;

the inverter module is electrically connected with the battery module and is used for converting the direct current of the battery module into alternating current;

the positioning module is used for positioning the position of the energy storage power supply to generate the position information of the energy storage power supply;

and the processor module is electrically connected with the inversion module and the positioning module and used for receiving the position information and controlling the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

Optionally, the energy storage power supply further includes a display module, the display module is electrically connected to the processor module, the processor module is configured to determine a country where the energy storage power supply is located according to the position information, send the country where the energy storage power supply is located to the display module, and send voltage and frequency information for controlling the inverter module to output the alternating current to the display module;

the display module is used for displaying the country where the energy storage power supply is located and/or the voltage and frequency information.

Optionally, the energy storage power supply further includes an input module, the input module is electrically connected to the processor module and is configured to receive a control instruction input by a user based on information displayed by the display module, and the processor module is configured to control the inverter module to output ac power with a voltage and a frequency matched with a position of the energy storage power supply according to the control instruction.

Optionally, the input module is a key arranged on the energy storage power supply.

Optionally, the energy storage power supply is provided with an energy storage power socket, and the energy storage power socket is electrically connected with the inverter module and is used for outputting alternating current of the inverter module.

Optionally, the energy storage power supply further includes a communication module, the communication module is electrically connected to the processor module, the processor module is further configured to determine a country in which the energy storage power supply is located according to the position information, send the country in which the energy storage power supply is located to the device in communication with the energy storage power supply through the communication module, and send voltage and frequency information for controlling the inverter module to output alternating current to the device in communication with the energy storage power supply through the communication module;

the communication module is used for receiving communication signals sent by the equipment and transmitting the communication signals to the processor module, and the processor module is used for controlling the inverter module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the communication signals.

In a second aspect, an embodiment of the present invention further provides a method for controlling an energy storage power supply, where the method for controlling an energy storage power supply is performed by the energy storage power supply in the first aspect, and the method for controlling an energy storage power supply includes:

the position of the energy storage power supply is positioned through the positioning module, and the positioning module generates the position information of the energy storage power supply;

and controlling the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

Optionally, the controlling the inverter module to output ac power with voltage and frequency matched with the location of the energy storage power source according to the location information includes:

determining whether the country of the energy storage power supply located at the current time is consistent with the country of the energy storage power supply located at the last time according to the position information;

if yes, the inversion module is controlled to output alternating current output after last positioning.

Optionally, the controlling the inverter module to output ac power with voltage and frequency matched with the location of the energy storage power source according to the location information includes:

determining whether the country of the energy storage power supply located at the current time is consistent with the country of the energy storage power supply located at the last time according to the position information;

if not, the inverter module is controlled to output alternating current with voltage and frequency matched with the position of the energy storage power supply based on an externally input control instruction.

Optionally, the control instruction based on external input controls the inverter module to output ac power with voltage and frequency matched with the location of the energy storage power source, including:

determining whether to output alternating current matched with the country where the energy storage power supply positioned at this time is located or not based on an externally input control instruction;

if so, controlling the inversion module to output alternating current matched with the country where the energy storage power supply for the current positioning is located, and storing the position information for the current positioning.

Optionally, the control instruction based on external input controls the inverter module to output ac power with voltage and frequency matched with the location of the energy storage power source, including:

determining whether to output alternating current matched with the country where the energy storage power supply positioned at this time is located or not based on an externally input control instruction;

if not, the inversion module is controlled to output the alternating current output after the last positioning.

The energy storage power supply comprises a battery module, an inversion module, a positioning module and a processor module, wherein the inversion module is electrically connected with the battery module, the processor module is electrically connected with the inversion module and the positioning module, the positioning module positions the position of the energy storage power supply to generate the position information of the energy storage power supply, and the processor module receives the position information and controls the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information. According to the energy storage power supply and the control method thereof provided by the embodiment of the invention, the processor module controls the inverter module to output the alternating current with the voltage and the frequency matched with the position of the energy storage power supply according to the position information, so that the voltage requirements of different countries in different regions can be met, the energy storage power supply can output the standard voltage of the country, namely the energy storage power supply can be used in each country, and the use convenience of the energy storage power supply is improved.

Drawings

Fig. 1 is a block diagram of an energy storage power supply according to an embodiment of the present invention;

fig. 2 is a block diagram of an energy storage power supply according to a second embodiment of the present invention;

fig. 3 is a flowchart of a control method of an energy storage power supply according to a third embodiment of the present invention;

fig. 4 is a flowchart of a control method of an energy storage power supply according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a block diagram of an energy storage power supply according to a first embodiment of the present invention, where the embodiment is applicable to situations where the energy storage power supply supplies power to a load in each country in each region, and the energy storage power supply includes: battery module 10, inverter module 20, positioning module 30, and processor module 40.

The battery module 10 is used for storing electric energy or outputting electric energy to the outside; the inverter module 20 is electrically connected to the battery module and is used for converting the direct current of the battery module into alternating current; the positioning module 30 is configured to position the location of the energy storage power supply, and generate location information of the energy storage power supply; the processor module 40 is electrically connected with the inversion module and the positioning module, and is used for receiving the position information and controlling the inversion module 20 to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

Specifically, the positioning module 30 may be a GPS positioning module, the position information generated by the positioning module 30 may be position information in a latitude and longitude form, and the processor module 40 may determine the country where the energy storage power source is located according to the position information. When a user uses the energy storage power supply to supply power to the equipment, the energy storage power supply can be started, after the energy storage power supply is started, the positioning module 30 positions the position of the energy storage power supply to generate position information of the energy storage power supply, and the processor module 40 receives the position information and controls the inverter module 20 to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information. For example, when a user uses an energy storage power supply in China, the position information of the energy storage power supply generated by the positioning module 30 corresponds to the position in China, the processor module 40 can determine that the energy storage power supply is in China according to the position information, and then the processor module 40 controls the inverter module 20 to output alternating current with voltage and frequency matched with China, namely alternating current with voltage and frequency of 220V and 50Hz, so as to meet the power supply requirement. If the user uses the energy storage power supply abroad such as in the united states, the position information of the energy storage power supply generated by the positioning module 30 corresponds to the united states, and the processor module 40 can determine that the energy storage power supply is in the united states according to the position information, the processor module 40 controls the inverter module 20 to output alternating current with voltage and frequency matched with the united states, namely alternating current with voltage and frequency of 110V and 60Hz, so as to meet the local power supply requirement. The energy storage power supply supplies power for the electric equipment carried by the user or the electric equipment in the local country, and cannot be used due to different voltages and frequencies of the local energy storage power supply, so that convenience is brought to people across countries or regions. The inverter module 20 of the energy storage power supply can output alternating current with 100V, 110V, 120V, 127V, 220V, 230V or 240V and frequency of 50HZ or 60HZ to meet the requirement of global energy storage power supply output, and meanwhile, the energy storage power supply is provided with energy storage power supply sockets meeting the requirement of each country, so that the energy storage power supply can output the standard voltage of the country in each region and each country, and the use convenience of the energy storage power supply is improved.

The energy storage power supply provided by the embodiment comprises a battery module, an inversion module, a positioning module and a processor module, wherein the inversion module is electrically connected with the battery module, the processor module is electrically connected with the inversion module and the positioning module, the positioning module positions the position of the energy storage power supply to generate the position information of the energy storage power supply, and the processor module receives the position information and controls the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information. The energy storage power supply that this embodiment provided, processor module are according to the alternating current of voltage and frequency that position information control contravariant module output and energy storage power supply place position match, can satisfy the voltage demand of different countries in different regions, and the energy storage power supply homoenergetic exports the standard voltage of place country, and the energy storage power supply can use in each country promptly, has improved the convenience that the energy storage power supply used.

Example two

Fig. 2 is a block diagram of an energy storage power supply according to a second embodiment of the present invention, where the embodiment is based on the first embodiment, and optionally, the energy storage power supply further includes a display module 50, the display module 50 is electrically connected to the processor module 40, the processor module 40 is configured to determine a country of the energy storage power supply according to the location information, and send the country of the energy storage power supply to the display module, and is further configured to send voltage and frequency information of the alternating current output by the inverter module 20 to the display module 50; the display module 50 is used for displaying the country and/or the voltage and frequency information of the energy storage power supply.

The display module 50 may include a display screen, the display screen is disposed on an outer surface of the energy storage power supply, a user may know voltage and frequency information matched with a country where the energy storage power supply is located through the country and/or the voltage and frequency information of the energy storage power supply displayed by the display module 50, and the user may determine whether the energy storage power supply needs to output alternating current based on the information displayed by the display module 50. If the processor module 40 determines that the country of the energy storage power supply is China according to the position information, and at this time, the processor module 40 controls the inverter module 20 to output the alternating current with the voltage and the frequency of 220V and 50Hz, the processor module 40 sends the energy storage power supply with the country of China and the alternating current with the voltage and the frequency of 220V and 50Hz to the display module 50, and the information displayed by the display module 50 may be' country: china; voltage: 220V; frequency: 50Hz ", thereby facilitating the user to know the voltage and frequency information matched with the country where the energy storage power supply is located, and the user can select whether the energy storage power supply is required to output corresponding alternating current or not based on the information displayed by the display module 50.

Optionally, the energy storage power supply further includes an input module 60, the input module 60 is electrically connected to the processor module 40, and is configured to receive a control instruction input by a user based on information displayed by the display module 50, and the processor module 40 is configured to control the inverter module 20 to output an alternating current with a voltage and a frequency matched with a position of the energy storage power supply according to the control instruction.

Specifically, when the user uses the energy storage power supply domestically, the display module 50 can display that the country where the energy storage power supply is located is china, the voltage and the frequency are 220V and 50Hz, the user can input a control instruction based on the information displayed by the display module 50, if the user determines that the energy storage power supply needs to output 220V and 50Hz alternating current, a corresponding control instruction is input, the input module 60 receives the control instruction input by the user, the processor module 40 controls the inverter module 20 to output 220V and 50Hz alternating current according to the control instruction, so that the energy storage power supply outputs corresponding alternating current based on the selection of the user, the energy storage power supply is more humanized in use, and the user experience is improved.

Optionally, the input module 60 is a button disposed on the energy storage power supply.

The key may be a confirmation key, that is, a key for confirming whether to output the ac power of the voltage and frequency displayed by the display module 50, so as to be selected by the user. If the user needs the energy storage power supply to output the alternating current with the voltage and the frequency displayed by the display module 50, the user can press the key, and at the moment, the energy storage power supply outputs the alternating current with the voltage and the frequency displayed by the display module 50 to supply power for the electric equipment carried by the user or the electric equipment in the local country, and the input module 60 is arranged in a key mode, so that the operation is easy to realize and convenient for the user.

Optionally, the energy storage power supply is provided with an energy storage power socket 70, and the energy storage power socket 70 is electrically connected to the inverter module 20 and is configured to output the alternating current of the inverter module.

Specifically, the energy storage power supply is provided with energy storage power sockets 70 meeting the requirements of various countries, and the alternating current output by the inverter module 20 can be output to external equipment electrically connected with the energy storage power sockets 70 through the energy storage power sockets 70 so as to supply power to the external equipment.

Optionally, the energy storage power supply further includes a communication module 80, the communication module 80 is electrically connected to the processor module 40, the processor module 40 is further configured to determine a country in which the energy storage power supply is located according to the position information, and send the country in which the energy storage power supply is located to a device communicatively connected to the energy storage power supply through the communication module 80, and is further configured to send voltage and frequency information for controlling the inverter module 20 to output the alternating current to the device communicatively connected to the energy storage power supply through the communication module 80; the communication module 80 is used for receiving communication signals sent by the equipment and transmitting the communication signals to the processor module 40, and the processor module 40 is used for controlling the inverter module 20 to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the communication signals.

The device in communication connection with the energy storage power supply can be an electronic device such as a mobile phone and a tablet computer, the processor module 40 can send the voltage and frequency information of the alternating current output by the energy storage power supply and the control inversion module 20 determined according to the position information to a user mobile phone in communication connection with the energy storage power supply through the communication module 80, and if the processor module 40 determines that the country of the energy storage power supply is China and controls the inversion module 20 to output the alternating current of 220V and 50Hz according to the position information, the user can know that the country of the energy storage power supply is China and the voltage and frequency information is 220V and 50Hz through the mobile phone. The user mobile phone can send a communication signal to the energy storage power supply based on the operation of the user, and if the communication signal confirming that the energy storage power supply outputs 220V and 50Hz alternating current is sent, the processor module 40 controls the inverter module 20 to output 220V and 50Hz alternating current according to the communication signal. The user can make the energy storage power supply output corresponding alternating current through operating the cell-phone, makes the output operation of energy storage power supply more humanized.

The energy storage power supply provided by the embodiment comprises a battery module, an inversion module, a positioning module, a processor module, a display module, an input module, an energy storage power socket and a communication module, wherein the inversion module is electrically connected with the battery module and the energy storage power socket, the processor module is electrically connected with the inversion module, the positioning module, the display module, the input module and the communication module, the processor module determines the country where the energy storage power supply is located according to position information, and sends the country where the energy storage power supply is located to the display module, the input module receives a control instruction input by a user based on information displayed by the display module, and the processor module controls the inversion module to output alternating current with voltage and frequency matched with the position where the energy storage power supply is located according to the input control. The energy storage power that this embodiment provided, the control command that the user that the processor module received according to input module based on the information input that the display module shows, the alternating current of voltage and frequency that control contravariant module output and energy storage power matched in place position satisfies the voltage demand of different countries in different regions, when improving the convenience that energy storage power used, can make energy storage power based on the corresponding alternating current of user's selection output, energy storage power's use is more humanized, user experience has been promoted.

EXAMPLE III

Fig. 3 is a flowchart of a control method for an energy storage power supply according to a third embodiment of the present invention, where this embodiment is applicable to situations where the energy storage power supply supplies power to loads in various countries in various regions, and the control method for the energy storage power supply can be executed by the energy storage power supply described in any of the above embodiments, and the control method specifically includes the following steps:

and 110, positioning the position of the energy storage power supply through a positioning module, and generating the position information of the energy storage power supply through the positioning module.

The positioning module can be a GPS positioning module, the position information generated by the positioning module can be position information in a longitude and latitude form, the energy storage power supply can be started when a user uses the energy storage power supply to supply power to the equipment, and after the energy storage power supply is started, the positioning module positions the position of the energy storage power supply to generate the position information of the energy storage power supply, so that the energy storage power supply controls the alternating current output by the inversion module according to the position information.

And step 120, controlling the inverter module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

Specifically, the energy storage power supply controls the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information. For example, a user uses the energy storage power supply domestically, the position information of the energy storage power supply generated by the positioning module corresponds to the domestic position, the energy storage power supply can determine that the energy storage power supply is in China according to the position information, and the inversion module is controlled to output alternating current with voltage and frequency matched with China, namely alternating current of 220V and 50Hz, so that the power supply requirement is met. If the user uses the energy storage power supply abroad such as the United states, the position information of the energy storage power supply generated by the positioning module corresponds to the United states, the energy storage power supply can determine that the energy storage power supply is in the United states according to the position information, and the inverter module is controlled to output alternating current with voltage and frequency matched with the United states, namely alternating current with voltage of 110V and frequency of 60Hz, so that the local power supply requirement is met. The energy storage power supply supplies power for the electric equipment carried by the user or the electric equipment in the local country, and cannot be used due to different voltages and frequencies of the local energy storage power supply, so that convenience is brought to people across countries or regions. Meanwhile, the energy storage power supply is provided with energy storage power supply sockets meeting the requirements of all countries, so that the energy storage power supply can output the standard voltage of the country in each region and all countries, and the use convenience of the energy storage power supply is improved.

The control method of the energy storage power supply provided by the embodiment of the invention and the energy storage power supply provided by any embodiment of the invention belong to the same inventive concept, and have corresponding beneficial effects, and detailed technical details in the embodiment are not shown in the energy storage power supply provided by any embodiment of the invention.

Example four

Fig. 4 is a flowchart of a control method of an energy storage power supply according to a fourth embodiment of the present invention, where this embodiment is applicable to situations where the energy storage power supply supplies power to a load in each country in each region, and the control method of the energy storage power supply can be executed by the energy storage power supply described in any one of the embodiments, and the control method specifically includes the following steps:

and step 210, positioning the position of the energy storage power supply through a positioning module, and generating the position information of the energy storage power supply through the positioning module.

The positioning module can be a GPS positioning module, the position information generated by the positioning module can be position information in a longitude and latitude form, the energy storage power supply can be started when a user uses the energy storage power supply to supply power to the equipment, and after the energy storage power supply is started, the positioning module positions the position of the energy storage power supply to generate the position information of the energy storage power supply, so that the energy storage power supply controls the alternating current output by the inversion module according to the position information.

Step 220, determining whether the country of the energy storage power supply located at the current time is consistent with the country of the energy storage power supply located at the last time according to the position information; if so, go to step 230; if not, step 240 is performed.

And step 230, controlling the inverter module to output the alternating current output after the last positioning.

Specifically, according to the position information, if it is determined that the country where the energy storage power supply located at the current time is consistent with the country where the energy storage power supply located at the last time is located, the inverter module is controlled to output the alternating current output after the last time of location. If the country of the energy storage power supply located in the current positioning and the country of the energy storage power supply located in the last positioning are both China, the alternating current output by the inverter module last time is 220V and 50Hz, the inverter module is controlled to output the 220V and 50Hz alternating currents output after the last positioning, the power supply requirements of the electric equipment can be met, secondary confirmation is not needed, and convenience and high efficiency are achieved.

Step 240, determining whether to output alternating current matched with the country where the energy storage power supply positioned at this time is located based on an externally input control instruction; if so, go to step 250; if not, step 230 is performed.

The control instruction input from the outside may be a control instruction input by a user to the energy storage power supply, for example, the user may input the control instruction through a key set in the energy storage power supply or send the control instruction to the energy storage power supply through an electronic device such as a mobile phone communicatively connected to the energy storage power supply. If the externally input control command is a command that the alternating current matched with the country where the energy storage power supply located this time is not required to be output, the step 230 is returned, and the energy storage power supply controls the inverter module to output the alternating current output after the last positioning.

And 250, controlling the inverter module to output alternating current matched with the country where the energy storage power supply for the current positioning is located, and storing the position information for the current positioning.

Specifically, based on an externally input control instruction, if it is determined that the alternating current matched with the country where the energy storage power supply located at the current time is output, the inverter module is controlled to output the alternating current matched with the country where the energy storage power supply located at the current time is located, and if the country where the energy storage power supply located at the current time is China, the inverter module is controlled to output the alternating current of 220V and 50Hz, so that the domestic voltage requirement is met, power is supplied to the electric equipment carried by a user, or the power is supplied to the domestic electric equipment. The energy storage power supply can also store the position information of the current positioning so as to call the position information of the current positioning when the next positioning is carried out, and the operation process of the step 220 can be executed when the next positioning is carried out.

The control method of the energy storage power supply provided by the embodiment of the invention and the energy storage power supply provided by any embodiment of the invention belong to the same inventive concept, and have corresponding beneficial effects, and detailed technical details in the embodiment are not shown in the energy storage power supply provided by any embodiment of the invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious modifications, rearrangements, combinations and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (11)

1. An energy storage power supply, comprising:

the battery module is used for storing electric energy or outputting the electric energy to the outside;

the inverter module is electrically connected with the battery module and is used for converting the direct current of the battery module into alternating current;

the positioning module is used for positioning the position of the energy storage power supply to generate the position information of the energy storage power supply;

and the processor module is electrically connected with the inversion module and the positioning module and used for receiving the position information and controlling the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

2. The energy storage power supply according to claim 1, further comprising a display module electrically connected to the processor module, wherein the processor module is configured to determine a country in which the energy storage power supply is located according to the location information, send the country in which the energy storage power supply is located to the display module, and send voltage and frequency information for controlling the inverter module to output alternating current to the display module;

the display module is used for displaying the country where the energy storage power supply is located and/or the voltage and frequency information.

3. The energy storage power supply of claim 2, further comprising an input module, wherein the input module is electrically connected to the processor module and configured to receive a control command input by a user based on information displayed by the display module, and the processor module is configured to control the inverter module to output ac power with a voltage and a frequency matched with a location of the energy storage power supply according to the control command.

4. The energy storage power supply of claim 3, wherein the input module is a key disposed on the energy storage power supply.

5. The energy storage power supply according to claim 1, wherein the energy storage power supply is provided with an energy storage power socket, and the energy storage power socket is electrically connected with the inverter module and is used for outputting alternating current of the inverter module.

6. The energy storage power supply according to claim 1, further comprising a communication module, wherein the communication module is electrically connected with the processor module, the processor module is further configured to determine a country in which the energy storage power supply is located according to the position information, send the country in which the energy storage power supply is located to a device communicatively connected with the energy storage power supply through the communication module, and send voltage and frequency information for controlling the inverter module to output alternating current to the device communicatively connected with the energy storage power supply through the communication module;

the communication module is used for receiving communication signals sent by the equipment and transmitting the communication signals to the processor module, and the processor module is used for controlling the inverter module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the communication signals.

7. A control method of an energy storage power supply, characterized in that the control method of the energy storage power supply is performed by the energy storage power supply of any one of claims 1 to 6, and the control method comprises:

the method comprises the steps that the position of an energy storage power supply is located through a locating module, and the locating module generates position information of the energy storage power supply;

and controlling the inversion module to output alternating current with voltage and frequency matched with the position of the energy storage power supply according to the position information.

8. The method for controlling the energy storage power supply according to claim 7, wherein the controlling the inverter module to output the ac power with the voltage and the frequency matched with the position of the energy storage power supply according to the position information comprises:

determining whether the country of the energy storage power supply located at the current time is consistent with the country of the energy storage power supply located at the last time according to the position information;

and if so, controlling the inversion module to output the alternating current output after the last positioning.

9. The method for controlling the energy storage power supply according to claim 7, wherein the controlling the inverter module to output the ac power with the voltage and the frequency matched with the position of the energy storage power supply according to the position information comprises:

determining whether the country of the energy storage power supply located at the current time is consistent with the country of the energy storage power supply located at the last time according to the position information;

if not, the inversion module is controlled to output alternating current with voltage and frequency matched with the position of the energy storage power supply based on an externally input control instruction.

10. The method for controlling the energy storage power supply according to claim 9, wherein the controlling the inverter module to output the ac power with the voltage and the frequency matched with the position of the energy storage power supply based on the externally input control command comprises:

determining whether to output alternating current matched with the country where the energy storage power supply is located at the current time based on an externally input control instruction;

if so, controlling the inversion module to output alternating current matched with the country where the energy storage power supply is located, and storing the position information of the positioning.

11. The method for controlling the energy storage power supply according to claim 9, wherein the controlling the inverter module to output the ac power with the voltage and the frequency matched with the position of the energy storage power supply based on the externally input control command comprises:

determining whether to output alternating current matched with the country where the energy storage power supply is located at the current time based on an externally input control instruction;

if not, controlling the inverter module to output the alternating current output after the last positioning.

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