CN111786453A - Energy storage device based on intelligent control and control method - Google Patents

Abstract

The invention provides an energy storage device based on intelligent control and a control method, comprising an insulating shell, a control unit and an energy storage battery unit; the control unit comprises an internal controller and a wireless terminal intelligent monitor; the shell is also provided with a touch control display screen, a starting control button, a voice recognition panel, a communication module, an alternating current output interface, a direct current output interface, a power grid interface and a new energy input interface; the touch control display screen, the start control button, the voice recognition panel, the communication module, the alternating current output interface, the direct current output interface, the power grid interface and the new energy input interface are all connected with the control unit and controlled by a circuit of the control unit. The energy storage device is accurately and intelligently controlled through voice recognition and the personalized characteristics of the energy consumption based on the big data of the user, the energy storage device is intelligently improved and upgraded, new requirements of the high-quality user are met, and the quality improvement and efficiency improvement of the energy storage device manufacturing are realized.

Description

Energy storage device based on intelligent control and control method

Technical Field

The present disclosure relates to energy storage devices, and particularly to an energy storage device and a control method thereof.

Background

With the progress of energy storage technology, the performance of the energy storage device is improved, the cost is reduced, and more energy storage device systems are popularized and applied. Particularly, the development of new energy electric automobiles brings the expansion and popularization of energy storage technology application, a small household energy storage device facing occasions such as households in the future also becomes important equipment for household energy management, household energy management is realized by adding a household energy storage device system, on one hand, the optimization and clean utilization of electric energy can be realized through peak-valley electricity price, new energy access and the like, and on the other hand, the small household energy storage device can be used as an emergency backup power supply under special conditions, and the continuous reliability of power supply is guaranteed. As the household energy storage device, people put forward higher requirements on the controllability and the intellectualization of the household energy storage device, most of the conventional household energy storage devices are designed and developed according to a conventional control mode, the intellectualization degree is low, the controllability is poor, and the actual requirements of users on high-quality and high-performance energy storage devices are difficult to meet.

Disclosure of Invention

The invention aims to overcome the problems and provides an energy storage device based on intelligent control and a control method.

In order to achieve the purpose, the method adopted by the invention is as follows: an energy storage device based on intelligent control comprises an insulating shell, a control unit and an energy storage battery unit; the control unit comprises an internal controller and a wireless terminal intelligent monitor; the shell is also provided with a touch control display screen, a starting control button, a voice recognition panel, a communication module, an alternating current output interface, a direct current output interface, a power grid interface and a new energy input interface; the touch screen control and control unit is connected and used for inputting instructions and parameter setting by touch and displaying working real-time parameters and states of the whole energy storage device; the start-stop switch control button is connected with the control unit and used as a master control switch of the device; the voice recognition control panel is connected with the control unit and used as a voice interaction unit; the communication module is connected with the control unit to realize the remote control function of the intelligent controller, and the remote control function comprises communication modes of Bluetooth, Wifi, wireless and USB; the intelligent monitoring of the wireless terminal is formed by a terminal software platform system which is connected with the controller in a Bluetooth, Wifi or wireless mode and then is controlled and monitored; the alternating current output interface, the direct current output interface, the power grid interface and the new energy input interface are all connected with the control unit and controlled by a circuit of the control unit; the control unit receives touch input from a touch control display screen, voice control of a voice recognition control panel or instructions and parameter setting of remote control monitored by a wireless terminal intelligently, synchronously realizes start-stop switch control button management and communication module management, and distributes and manages energy access, energy storage and energy output according to needs after being controlled by a preset scheduling algorithm; the scheduling algorithm comprises various algorithm modes adopted in different time periods, wherein the scheduling algorithm is combined and operated in different time-sharing segmentation modes, wherein the scheduling algorithm is used for accessing new energy resources with priority NX-M, energy storage with priority EX-M, peak-valley price difference with FX-M, grid-connected power generation with priority GX-M, and the new energy resources, the energy storage with priority EX-M, the peak-valley price difference with FX-M and the grid-connected power generation with.

As a preferred aspect of the present invention, the touch control display screen and the start-stop switch control button are disposed on a top panel of the housing; the voice recognition control panel and the communication module are arranged on the upper part of the front panel; the energy storage battery units are arranged in the middle and the lower part of the shell of the device; the alternating current output interface, the direct current output interface, the power grid interface and the new energy input interface are arranged on the side panel of the shell.

Preferably, the housing is an insulating alloy housing.

The invention also discloses a control method of the energy storage device based on intelligent control, which comprises the following steps:

step 1: turning on a working switch button of the energy storage device, starting to read set parameters by the device, and entering a working standby state;

step 2: waiting for reading a control operation instruction, timing whether an instruction is input within 2 minutes, and reading the control instruction and parameter setting information if the instruction is input; if not, reading the last instruction and the working parameter setting information;

and step 3: analyzing the control instruction and the working parameter setting;

and 4, step 4: the method works according to a set mode and a set mode, wherein the mode comprises new energy access priority NX-M, energy storage utilization priority EX-M, peak-valley price difference utilization FX-M, grid-connected power generation priority GX-M and different time period combination operation of the modes.

Preferably, the instruction input in step 2 includes one of touch screen control, voice control and remote operation control input.

Has the advantages that:

1. the energy storage device adopts an integral electrical appliance design, the touch screen is arranged at the top of the device for control, the energy storage device has simple operation and voice and remote control functions, and the intellectualization level of the device is improved through voice control, so that the intellectualization and the interactivity of the control are improved.

2. The device synchronously supports Bluetooth, Wifi, wireless and the like, can configure various wireless monitoring connection modes, is compatible with interconnection and intercommunication operations of various wireless terminal devices, and improves networking control capability of the equipment. And the USB interface is arranged, so that batch updating and upgrading of device data and data reading are facilitated.

3. The user can set the priority of different energy sources or the priority modes of different modes in a time-sharing and segmentation mode according to the needs, so that the optimal efficient utilization among different energy sources and the maximization of the energy benefit are realized.

Drawings

FIG. 1 is a block diagram of an embodiment of an energy storage device according to the present invention;

fig. 2 is a part of the control unit which is realized by the overall control of the device.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific examples, which are carried out on the premise of the technical solution of the present invention, and it should be understood that these examples are only for illustrating the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, an energy storage device based on intelligent control, the control unit and the energy storage battery of the energy storage device are placed in a rectangular box, and the energy storage device comprises: the device comprises an insulated alloy shell, a control unit and an energy storage battery unit; the control unit comprises an internal controller and a wireless terminal intelligent monitor 4, wherein the internal controller is placed on the upper portion of the box body, the internal controller is provided with a touch control display screen 211 and a start-stop switch control button 212 on a top panel 1, and a voice recognition control panel 213 and a communication module 214 are arranged on the upper portion 21 of a front panel 2. The energy storage battery units are arranged in the middle part 22 and the lower part 23 of the device and can be configured in a modularized mode according to the size of the energy storage electric quantity. The side panel 3 is provided with an alternating current output interface 31, a direct current output interface 31, a power grid interface 33 and a new energy input interface 34.

The touch control display screen 211, the start control button 212, the voice recognition panel 213, the communication module 214, the alternating current output interface 31, the direct current output interface 32, the power grid interface 33 and the new energy input interface 34 are all connected with the control unit and controlled by a circuit of the control unit.

The touch screen control 211 may input commands and parameter settings by touch, and display real-time operating parameters and states of the entire energy storage device.

The start-stop switch control button 212 is a master control switch of the device.

The voice recognition control panel 213 is a voice interaction unit, and can recognize specific voice input setting instructions (including "power on/off", "setting for reference", "status inquiry", etc., and can configure the voice instructions by user).

The communication module 214 realizes the remote control function of the intelligent controller, including the remote monitoring function realized through Bluetooth, Wifi, wireless and USB communication modes.

The wireless terminal intelligent monitoring 4 is composed of a terminal software platform system which is connected with the controller in a Bluetooth, Wifi or wireless mode and then is controlled and monitored.

Fig. 2 is a diagram showing the configuration of the intelligent control system. The control unit shown in fig. 2 is a part for realizing the overall control of the device, receives touch input from a touch control display screen 211, instructions and parameter settings of voice control of a voice recognition control panel 213 or remote control of a wireless terminal intelligent monitoring 4, synchronously realizes the management of a start-stop switch control button 212 and a communication module 214 and other management functions, and distributes and manages energy access, energy storage and energy output according to needs after being controlled by a preset scheduling algorithm.

The scheduling algorithm comprises various algorithm modes adopted by an algorithm user in different time periods according to actual application conditions, wherein the scheduling algorithm is a user optimization algorithm executed after decision is made after new energy access priority NX-M, energy storage utilization priority EX-M, peak-valley difference utilization FX-M, grid-connected power generation priority GX-M and energy storage charging and discharging limit values are set, time-sharing segmentation different mode priority modes are arranged between the scheduling algorithm and the algorithm user, and the energy storage working modes can be configured through a touch screen, voice control or remote control.

The invention discloses an energy storage device control method based on intelligent control, which comprises the following specific steps:

step 1: turning on a working switch button of the energy storage device, starting to read set parameters by the device, and entering a working standby state;

step 2: waiting for reading a control operation instruction, timing whether an instruction is input within 2 minutes, and reading the control instruction and parameter setting information if the instruction is input; and if not, reading the last instruction and the working parameter setting information.

And step 3: analyzing the control instruction and the working parameter setting;

and 4, step 4: and working according to a set mode.

And the instruction input in the step 2 comprises one of three modes of touch screen control, voice control and remote operation control input. The mode in the step 4 comprises new energy access priority NX-M, energy storage utilization priority EX-M, peak-valley difference price utilization FX-M, grid-connected power generation priority GX-M, and different time period combination operation of the modes, and the like, and can be set according to requirements.

The technical means disclosed by the scheme of the invention are not limited to the technical means disclosed by the technical means, and the technical scheme also comprises the technical scheme formed by any combination of the technical characteristics. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (5)

1. The utility model provides an energy memory based on intelligent control which characterized in that: the energy storage battery pack comprises a shell, a control unit and an energy storage battery unit; the control unit comprises an internal controller and a wireless terminal intelligent monitor (4); the shell is also provided with a touch control display screen (211), a starting control button (212), a voice recognition panel (213), a communication module (214), an alternating current output interface (31), a direct current output interface (32), a power grid interface (33) and a new energy input interface (34); the touch screen control unit (211) is connected with the control unit and used for inputting instructions and parameter setting by touch and displaying working real-time parameters and states of the whole energy storage device; the start-stop switch control button (212) is connected with the control unit and is used as a master control switch of the device; the voice recognition control panel (213) is connected with the control unit and used as a voice interaction unit; the communication module (214) is connected with the control unit to realize the remote control function of the intelligent controller, and the remote control function comprises communication modes of Bluetooth, Wifi, wireless and USB; the wireless terminal intelligent monitoring (4) is composed of a terminal software platform system which is connected with the controller in a Bluetooth, Wifi or wireless mode and then controls and monitors; the alternating current output interface (31), the direct current output interface (32), the power grid interface (33) and the new energy input interface (34) are all connected with the control unit and controlled by a circuit of the control unit; the control unit receives touch input from a touch control display screen (211), voice control of a voice recognition control panel (213) or remote control of a wireless terminal intelligent monitoring (4) and parameter setting, synchronously realizes start-stop switch control button (212) management and communication module (214) management, and distributes and manages energy access, energy storage and energy output according to needs after being controlled by a preset scheduling algorithm; the scheduling algorithm comprises various algorithm modes adopted in different time periods, wherein the scheduling algorithm is combined and operated in different time-sharing segmentation modes, wherein the scheduling algorithm is used for accessing new energy resources with priority NX-M, energy storage with priority EX-M, peak-valley price difference with FX-M, grid-connected power generation with priority GX-M, and the new energy resources, the energy storage with priority EX-M, the peak-valley price difference with FX-M and the grid-connected power generation with.

2. The energy storage device based on intelligent control of claim 1, wherein: the touch control display screen (211) and the start-stop switch control button (212) are arranged on the top panel (1) of the shell; the voice recognition control panel (213) and the communication module (214) are arranged on the upper part (21) of the front panel (2); the energy storage battery units are arranged in the middle part (22) and the lower part (23) of the shell of the device; the alternating current output interface (31), the direct current output interface (32), the power grid interface (33) and the new energy input interface (34) are arranged on the side panel (3) of the shell.

3. The energy storage device based on intelligent control of claim 1, wherein: the shell is an insulating alloy shell.

4. The control method of the energy storage device based on the intelligent control according to any one of claims 1-3, characterized in that: the method comprises the following steps:

step 1: turning on a working switch button of the energy storage device, starting to read set parameters by the device, and entering a working standby state;

step 2: waiting for reading a control operation instruction, timing whether an instruction is input within 2 minutes, and reading the control instruction and parameter setting information if the instruction is input; if not, reading the last instruction and the working parameter setting information;

and step 3: analyzing the control instruction and the working parameter setting;

and 4, step 4: the method works according to a set mode and a set mode, wherein the mode comprises new energy access priority NX-M, energy storage utilization priority EX-M, peak-valley price difference utilization FX-M, grid-connected power generation priority GX-M and different time period combination operation of the modes.

5. The control method of the energy storage device based on the intelligent control as claimed in claim 4, wherein: and the instruction input in the step 2 comprises one of three modes of touch screen control, voice control and remote operation control input.

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