CN114154707A

CN114154707A - Intelligent energy supply method, system and equipment for outdoor power supply and storage medium

Info

Publication number: CN114154707A
Application number: CN202111438564.XA
Authority: CN
Inventors: 张学钦
Original assignee: Travor Technology Co ltd
Current assignee: Travor Technology Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-03-08

Abstract

The application relates to an intelligent energy supply method, system, equipment and storage medium for an outdoor power supply, wherein the method comprises the steps of receiving equipment information; calculating the estimated total power consumption of all the electric equipment; if the estimated total power consumption does not exceed the total power of the power supply, forming a feedback signal of sufficient power; if the estimated total power consumption exceeds the total electric quantity of the power supply, acquiring the estimated power consumption duration of each power consumption device; reducing the estimated power consumption time according to a preset reduction ratio to form a planned power consumption time; calculating the total planned power consumption of all the electric equipment; if the planned total power consumption still exceeds the total electric quantity of the power supply, reducing the original planned power consumption time according to a preset reduction proportion to form a new planned power consumption time and recalculating the planned total power consumption; and if the planning power utilization total amount does not exceed the total electric quantity of the power supply, stopping the calculation of the planning power utilization total amount, and acquiring the finally reduced planning power utilization duration to form a planning power utilization scheme. The method and the device have the effect of reasonably distributing the power supply amount of the outdoor power supply for multiple devices.

Description

Intelligent energy supply method, system and equipment for outdoor power supply and storage medium

Technical Field

The application relates to the technical field of outdoor power supplies, in particular to an intelligent energy supply method, system, equipment and storage medium for an outdoor power supply.

Background

The outdoor power supply is a rechargeable energy storage battery, the storage battery comprises a nickel-cadmium battery, a nickel-hydrogen battery, a lithium ion battery, a lithium polymer battery, a lead-acid battery, a ternary lithium battery and a lithium iron phosphate battery, and the portable power supply can store electric energy and provide power supply for various electrical equipment, particularly in places where commercial power cannot be supplied. The energy storage battery is mainly divided into an exhaust type lead-acid storage battery for energy storage, and a storage battery with a device capable of supplementing liquid and separating out gas is arranged on a battery cover; the valve control type lead-acid storage battery for energy storage, each battery is sealed, and the batteries are provided with valves which allow gas to overflow when the internal pressure exceeds a certain value; a lead-acid accumulator for storing energy in colloid state features use of colloid electrolyte. The core component of the outdoor power supply is a battery pack for storing energy, and a large amount of electric energy can be stored by the battery pack when the outdoor power supply is going out every time.

With the improvement of user requirements, multiple devices may be powered when a user goes out once, and the outdoor power supply may have a power utilization requirement for only a part of devices, so that the remaining devices need to search another power supply or be used after the outdoor power supply is charged, thereby affecting the user's experience when going out.

Disclosure of Invention

In order to realize reasonable power supply amount distribution of an outdoor power supply aiming at multiple devices, the application provides an intelligent energy supply method, an intelligent energy supply system, an intelligent energy supply device and a storage medium for the outdoor power supply.

In a first aspect, the application provides an intelligent energy supply method for an outdoor power supply, which adopts the following technical scheme:

an intelligent energy supply method for an outdoor power supply comprises the following steps:

receiving equipment information, wherein the equipment information comprises estimated electric equipment and estimated power utilization duration of each electric equipment;

calculating the estimated total power consumption of all the power consumption equipment based on the preset equipment power consumption;

if the estimated total power consumption does not exceed the total power of the power supply, forming a feedback signal of sufficient power;

if the estimated total power consumption exceeds the total electric quantity of the power supply, acquiring the estimated power consumption duration of each power consumption device;

reducing the estimated power consumption time according to a preset reduction ratio to form a planned power consumption time;

calculating the total planned power consumption of all the power consumption equipment based on the planned power consumption duration;

if the planned total power consumption still exceeds the total electric quantity of the power supply, reducing the original planned power consumption time according to a preset reduction proportion to form a new planned power consumption time and recalculating the planned total power consumption;

and if the planning power utilization total amount does not exceed the total electric quantity of the power supply, stopping the calculation of the planning power utilization total amount, and acquiring the finally reduced planning power utilization duration to form a planning power utilization scheme.

Through adopting above-mentioned technical scheme, when the multi-device power consumption, the host controller can utilize the power consumption calculation of each consumer to predict the power consumption total amount, and then compare with the total electric quantity of outdoor power supply, if predict the power consumption total amount and do not exceed the total electric quantity of power supply, then the total electric quantity of outdoor power supply is enough to supply each consumer to use, if predict the power consumption total amount and exceed the total electric quantity of power supply, the host controller just reduces to predicting the length of time of power consumption according to the reduction ratio that predetermines, and recalculate planning power consumption total amount, until planning power consumption total amount does not exceed the total electric quantity of power supply, alright form planning power consumption scheme in the length of time of planning after finally reducing, thereby the user alright use each consumer according to the power consumption scheme, realize each consumer homoenergetic reason power consumption, the effect of outdoor power supply rational distribution power supply volume.

Optionally, after calculating the estimated total power consumption of all the power consumption devices based on the preset device power consumption, the method includes:

and if the rated input power of the electric equipment exceeds the preset rated output power of the inverter, an inversion calling instruction is formed and sent, and the inversion calling instruction is used for calling a preset inversion system to reduce the input power of the electric equipment.

By adopting the technical scheme, when the rated input power of the electric equipment exceeds the preset rated output power of the inverter, the host controller forms an inversion calling instruction, and then the input power of the electric equipment is reduced by using the inversion system, so that the high-power electric equipment exceeding the rated output power of the inverter can still normally work, and the use adaptability of the electric equipment is improved.

Optionally, if the estimated total power consumption does not exceed the total power consumption of the power supply, after forming a feedback signal of sufficient power consumption, the method includes:

receiving new information, wherein the new information comprises new electric equipment and new electricity utilization duration of the electric equipment;

calculating the newly increased total power consumption of the newly increased electric equipment, and summing the newly increased total power consumption and the estimated total power consumption to form the estimated total power consumption after the new increase;

if the estimated total power consumption after the new increase does not exceed the total electric quantity of the power supply, a new pass feedback signal is formed;

and if the estimated total power consumption after the new increase exceeds the total electric quantity of the power supply, forming a new increase failing feedback signal.

Through adopting above-mentioned technical scheme, when outdoor power supply was sufficient, host controller can respond to user's newly-increased equipment to calculate total electric quantity according to newly-increased power consumption total amount of newly-increased consumer, thereby judge whether enough supply newly-increased consumer of outdoor power supply uses, if can supply then newly-increased consumer, with the utilization ratio that promotes outdoor power supply.

Optionally, if the estimated total power consumption exceeds the total power consumption, the estimated power consumption duration of each power consumption device is called, including:

receiving deletion information, wherein the deletion information comprises deleted electric equipment;

calculating the total deleted power consumption of the deleted power equipment, and calculating the difference between the total deleted power consumption and the estimated total power consumption to form the estimated total deleted power consumption;

if the estimated total power consumption after the deletion does not exceed the total electric quantity of the power supply, a deletion passing feedback signal is formed;

and if the estimated total power consumption after the deletion exceeds the total electric quantity of the power supply, forming a feedback signal that the deletion fails.

Through adopting above-mentioned technical scheme, when outdoor power supply did not enough supply all consumer make full use of, the host computer controller can delete unnecessary consumer according to the user to judge whether outdoor power supply enough supplies surplus consumer make full use of, and then realize the make full use of all the other necessary consumers, thereby promote consumer's use flexibility.

calculating the difference value between the total electric quantity of the power supply and the estimated electric quantity to form the difference electric quantity;

and calculating the time for complementing the difference and the shortage of electricity based on the preset charging power to form the charging time.

Through adopting above-mentioned technical scheme, when outdoor power supply did not enough supply all consumer make full use of, the host computer controller can calculate outdoor power supply's poor electric quantity that lacks, and then calculates outdoor power supply and complement when poor electric quantity that lacks used charging, and then the outdoor power supply of being convenient for charges when practical idle to the realization satisfies all consumer's make full use of.

Optionally, before estimating the power consumption duration according to the predetermined reduction scale reduction and forming the planned power consumption duration, the method includes:

receiving priority information, wherein the priority information comprises an estimated use priority ranking list of electric equipment;

and confirming the reduction parameters of the electric equipment based on the preset mapping relation between the use priority and the reduction parameters to form a preset reduction ratio.

By adopting the technical scheme, the host server can confirm the reduction parameters of the electric equipment according to the use priority ranking table of the electric equipment set by the user, so that the electricity utilization time can be reduced according to the habits of different users on using the electric equipment, and the effect of meeting the personalized requirements of the users is realized.

Optionally, if the total planned power consumption does not exceed the total power consumption of the power supply, stopping the calculation of the total planned power consumption, and obtaining the finally reduced planned power consumption time to form a planned power consumption scheme, including:

forming calling information of the planning power utilization scheme based on the equipment information corresponding to the planning power utilization scheme;

and if the received new equipment information is consistent with the calling information, directly calling a corresponding planning power utilization scheme.

By adopting the technical scheme, the host controller is matched with the stored calling information when receiving new equipment information every time, and if the matching is consistent, the response planning power utilization scheme can be directly called, so that the planning time of power utilization every time is saved, and the power utilization planning efficiency is improved.

The second aspect, the application provides an outdoor power supply intelligence energy supply system, adopts following technical scheme:

an outdoor power intelligent energy supply system, comprising:

the receiving module is used for receiving equipment information, and the equipment information comprises estimated electric equipment and estimated power utilization duration of each electric equipment;

the pre-estimation calculation and judgment module is used for calculating the pre-estimation total power consumption of all the power consumption equipment based on the preset equipment power consumption;

the forming module is used for reducing the estimated electricity utilization duration according to a preset reduction proportion to form a planned electricity utilization duration;

the planning calculation and judgment module is used for calculating the planning power utilization total amount of all the power utilization equipment based on the planning power utilization duration;

In a third aspect, the present application provides a computer device, which adopts the following technical solution: the outdoor power supply intelligent energy supply system comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the outdoor power supply intelligent energy supply methods.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program is stored which can be loaded by a processor and can execute any one of the above-mentioned outdoor power supply intelligent energy supply methods.

In summary, the present application includes at least one of the following beneficial technical effects:

the user uses each electric device according to the electricity utilization scheme, so that the effect that each electric device can reasonably utilize electricity and the outdoor power supply reasonably distributes the power supply amount is achieved;

the inverter system is utilized to reduce the input power of the electric equipment, so that the high-power electric equipment exceeding the rated output power of the inverter can still work normally, and the use adaptability of the electric equipment is improved.

Drawings

Fig. 1 is a flowchart of an intelligent power supply method for an outdoor power supply in an embodiment of the present application.

FIG. 2 is a flowchart of the steps for forming an invert call instruction in an embodiment of the present application.

Fig. 3 is a flowchart of a step of adding a new consumer in this embodiment.

Fig. 4 is a flowchart of steps of eliminating a power consuming device in an embodiment of the present application.

Fig. 5 is a flowchart of steps of forming a charging period in the embodiment of the present application.

Fig. 6 is a flowchart of a step of forming a predetermined reduction ratio in an embodiment of the present application.

Fig. 7 is a flowchart of a step of invoking a corresponding power consumption plan in an embodiment of the present application.

Fig. 8 is a block diagram of an outdoor power supply intelligent energy supply system in the embodiment of the present application.

Description of reference numerals: 1. a receiving module; 2. a pre-estimation calculation judgment module; 3. forming a module; 4. and a planning calculation judgment module.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses an intelligent energy supply method for an outdoor power supply, the method is based on a main body server and the outdoor power supply which is in communication connection with the main body server, parameters of each electric device stored in the main body server are stored, and according to equipment information of actual electric devices, a reasonable power utilization scheme can be planned, so that a user can use each electric device according to the power utilization scheme, the power utilization of each electric device can be reasonable, and the effect of reasonably distributing the power supply amount by the outdoor power supply is achieved.

In one embodiment, as shown in fig. 1, there is provided an intelligent power supply method for an outdoor power supply, the method comprising the following steps:

s10, receiving the device information.

Specifically, the device information includes estimated electric devices and estimated electricity consumption time periods of the electric devices. For example, the outdoor electrical equipment includes lighting lamps, induction cookers, sound boxes, etc., the estimated electricity utilization time of each electrical equipment is 10h, 6h, 8h, respectively, in this embodiment, codes + a, + B, + C are used to replace the lighting lamps, induction cookers, sound boxes, and codes +10A, +6B, +8C are used to replace each electrical equipment and its use time.

The user can use the input terminal in communication connection with the main body server to complete editing, the input terminal of the embodiment adopts a mobile phone, and the user inputs the corresponding codes through the mobile phone terminal to form equipment information and send the equipment information to the main body server. The main server prestores corresponding codes and preset information of equipment corresponding to the codes, when the main server receives equipment information input by a user, the equipment information is analyzed, and the electric equipment contained in the equipment information and the estimated electricity utilization duration of each electric equipment are extracted.

And S20, calculating the estimated total power consumption of all the power consumption equipment based on the preset equipment power consumption.

Specifically, the main server prestores the power consumption of each electric device, and then calculates the product of the power consumption and the estimated power consumption market, so as to obtain the estimated total power consumption of the electric device.

In one embodiment, as shown in fig. 2, in order to improve the adaptability of the usage of the electric device, after S20, the method may further include the following steps:

and S21, if the rated input power of the electric equipment exceeds the preset rated output power of the inverter, forming an inversion calling instruction and sending the inversion calling instruction.

Specifically, the inversion calling instruction is used for calling a preset inversion system, and in the embodiment, the preset inversion system adopts an alpha-bloom intelligent inversion system to reduce the input power of the electric equipment. When the rated input power of the electric equipment exceeds the preset rated output power of the inverter, the host controller forms an inversion calling instruction, and then the inverter system is used for reducing the input power of the electric equipment, so that the high-power electric equipment exceeding the rated output power of the inverter can still work normally, and the use adaptability of the electric equipment is improved.

Load electric appliances driven by the inverter are of various types, and the load electric appliances can be divided into three types, namely inductive coil load, capacitive load and resistive pure resistive load. When the input power of part of the load can not reach the rated input power, the input power of the load electrical appliance is reduced through the alpha-bloom intelligent inverter system, so that the high-power electrical appliance exceeding the maximum output power of the inverter can still work normally. The circuit is friendly to resistive load electrical appliances of heating type. The inverter system may be connected to a variety of electronic loads. However, no matter what the connected load is, the α -bloom intelligent inverter system tracks the power point of the load appliance, that is, the power transmission efficiency between the inverter output power and the load appliance and the electronic characteristics of the load. When the output power of the load electrical appliance changes, the alpha-bloom intelligent inverter system used as the input of the load electrical appliance can provide a load curve with the maximum power transmission efficiency, the alpha-bloom intelligent inverter system can be adjusted by matching with the load curve with the highest power transmission efficiency, and the system has the best efficiency. The load characteristic at which the power transfer efficiency is highest is the optimum power point. Maximum power point tracking seeks to find the optimum power point and maintain the load characteristic at this power point. The alpha-bloom intelligent inverter system can be used for converting voltage, current or frequency to match other systems after calculation of a system algorithm according to the load characteristics of electrical appliances connected to the output of the inverter. So that the best power point output by the inverter can be found and the electric appliance can work.

In one embodiment, as shown in fig. 1, the outdoor power supply intelligent power supply method further includes the following steps:

and S30, if the estimated total power consumption does not exceed the total power of the power supply, forming a feedback signal of sufficient power.

Specifically, the main body server prestores the total power quantity of the outdoor power supply, and calculates the estimated total power consumption and the total power quantity so as to judge whether the outdoor power supply can support the full use of all the electric equipment. And if the estimated total power consumption is less than the total power consumption of the power supply, forming a sufficient feedback signal indicating that the outdoor power supply is sufficient to support all the electric equipment for full use, and sending the feedback signal to the mobile terminal of the user.

In one embodiment, as shown in fig. 3, in order to increase the utilization rate of the outdoor power source, after S30, the method may further include the following steps:

and S31, receiving the new information.

Specifically, the new information includes the new electric equipment and the new electricity consumption duration of the electric equipment. Wherein, the new information is input by the user through the input terminal. For example, the user inputs +2D and +4E, indicating that the newly added D device is used for 2 hours and the newly added E device is used for 4 hours.

And S32, calculating the newly added total power consumption of the newly added electric equipment, and summing the newly added total power consumption and the estimated total power consumption to form the estimated total power consumption after the new addition.

Specifically, the calculation of the newly increased total power consumption is still based on the product of the power consumption and the power consumption duration of the electrical equipment, and after the newly increased total power consumption of the newly increased electrical equipment is calculated, the newly increased total power consumption is summed with the original estimated total power consumption, so that the estimated total power consumption of all the existing electrical equipment can be obtained for further judgment.

Wherein, when outdoor power supply was sufficient, host controller can respond to user's newly-increased equipment to calculate total electric quantity according to newly-increased power consumption total amount of newly-increased consumer, thereby judge whether enough supply newly-increased consumer of outdoor power supply uses, if can supply then newly-increased consumer, with the utilization ratio that promotes outdoor power supply.

And S33, if the estimated total power consumption after the new increase does not exceed the total power quantity of the power supply, forming a new pass feedback signal.

If the estimated total power consumption after the new increase does not exceed the total power consumption of the power supply, the power consumption of the outdoor power supply can still support all the power consumption equipment after the new power consumption equipment is fully used, and a new mobile terminal which passes through a feedback signal and sends a user can be formed to allow the new power consumption equipment to be added.

And S34, if the estimated total power consumption after the new increase exceeds the total power consumption of the power supply, forming a new increase failure feedback signal.

If the estimated total power consumption after the new increase exceeds the total power consumption of the power supply, the fact that the power consumption of the outdoor power supply cannot support all the power consumption equipment after the new power consumption equipment is fully used is indicated, a new mobile terminal which does not pass through a feedback signal and sends a user is formed, and therefore the new power consumption equipment is rejected.

and S40, if the estimated total power consumption exceeds the total power consumption of the power supply, acquiring the estimated power consumption duration of each power consumption device.

In one embodiment, as shown in fig. 4, in order to improve the flexibility of using the electric device, after S40, the method may further include the following steps:

s41, receiving the pruned information.

Specifically, the pruning information includes the pruned powered devices. The pruning information is still pruned by the user using the input terminal, e.g., -2B and-4C, indicating that the pruning B device is used for 2 hours and the pruning C device is used for 4 hours. And after receiving the deletion information, the main body server completes deletion of the temporarily stored electric equipment and the electricity consumption duration.

And S42, calculating the total deleted power consumption of the deleted power consumption equipment, and subtracting the total estimated power consumption to form the estimated total deleted power consumption.

Specifically, the total amount of the deleted power consumption equipment is calculated based on the power consumption and the deletion time of the deleted power consumption equipment, and after the total amount of the deleted power consumption is calculated, the estimated total amount of the power consumption minus the total amount of the deleted power consumption is calculated, so that the estimated total amount of the power consumption after deletion can be obtained for further judgment. When the outdoor power supply is insufficient to supply all the electric equipment for full use, the host controller can delete unnecessary electric equipment according to the user, judge whether the outdoor power supply is sufficient to supply the residual electric equipment for full use, and further realize the full use of the rest necessary electric equipment, so that the use flexibility of the electric equipment is improved.

And S43, if the estimated total power consumption after the deletion does not exceed the total power quantity of the power supply, forming a deletion passing feedback signal.

And S44, if the estimated total power consumption after the deletion exceeds the total power of the power supply, forming a deletion failure feedback signal.

In one embodiment, as shown in fig. 5, in order to achieve sufficient usage of all the electric devices, after S40, the following steps may be further included:

and S45, calculating the difference between the total power and the estimated power consumption to form the difference power.

And S46, calculating the time for complementing the difference and shortage electric quantity based on the preset charging power to form the charging time length.

Particularly, when outdoor power supply is not enough to supply all consumer make full use of, the host controller can calculate the poor electric quantity that lacks of outdoor power supply, and then calculates that outdoor power supply complements when the used length of charging of poor electric quantity that lacks, and then the outdoor power supply of being convenient for charges when practical idle to the realization satisfies all consumer's make full use of.

and S50, reducing the estimated electricity utilization duration according to the preset reduction proportion to form a planned electricity utilization duration.

Particularly, when the outdoor power supply can not support the full use of all the electric equipment, the main body server can reduce the estimated power utilization duration of each electric equipment according to the reduction proportion preset by the user so as to meet the requirement that all the electric equipment can be used as much as possible. For example, the preset reduction ratio is 0.9, the current electric equipment and the estimated power consumption time are 10A, 6B and 8C, and the estimated power consumption time of the reduced current electric equipment is 9h for a, 5.4h for B and 7.2h for C, so that a planned power consumption time is formed to further judge whether the electric quantity of the outdoor power supply is enough.

In one embodiment, as shown in fig. 6, in order to achieve the effect of satisfying the personalized needs of the user, before S50, the following steps may be further included:

s51, receiving the priority information.

Specifically, the priority information includes a pre-estimated usage priority ranking table for the powered device. For example, if a user uses a first, B second, and C last in an outdoor event, the priority ranking list is ABC.

And S52, confirming the reduction parameters of each electric equipment based on the preset mapping relation between the use priority and the reduction parameters to form a preset reduction ratio.

Specifically, the preset mapping relationship between the use priority and the reduction parameter is set by the administrator in advance by using the input terminal, and the higher the priority of the electric equipment is, the higher the reduction parameter is. Based on the above example, according to the priority ranking table ABC, the reduction parameter of a is 0.9, the reduction parameter of B is 0.8, and the reduction parameter of C is 0.7, and then the estimated electricity consumption time of each electric device after adjusting the reduction parameters is 9 hours for a, 4.8 hours for B, and 5.6 hours for C.

The host server can confirm the reduction parameters of the electric equipment according to the use priority ranking table of the electric equipment set by the user, so that the electricity utilization time length can be reduced according to habits of different users in using the electric equipment, and the effect of meeting the personalized requirements of the users is achieved.

and S60, calculating the total planned electricity consumption of all the electricity utilization equipment based on the planned electricity consumption time.

Specifically, after the estimated power consumption duration of each power consumption device is reduced, the sum of the reduced planned power consumption durations is calculated, so that the total planned power consumption is obtained, and whether the electric quantity of the outdoor power supply is enough is further judged.

And S70, if the planned total power consumption still exceeds the total power quantity, reducing the original planned power consumption duration according to a preset reduction ratio to form a new planned power consumption duration and recalculating the planned total power consumption.

Specifically, if the planned electricity consumption total amount still exceeds the total electric quantity of the power supply, the estimated reduction degree of the electricity consumption time is not enough, and the planned electricity consumption time is further reduced according to the original preset reduction proportion. For example, after the electric equipment and the electricity consumption time are reduced for the first time, the electricity consumption time is 9 hours for A, 5.4 hours for B and 7.2 hours for C, the electricity consumption time is further reduced according to the reduction ratio of 0.9, so that the electricity consumption time is 0.81 hour for A, 4.86 hours for B and 6.48 hours for C, and the judging steps are repeated until the outdoor power supply is enough to support the use of the electric equipment.

And S80, if the planning power consumption total amount does not exceed the total power quantity of the power supply, stopping the calculation of the planning power consumption total amount, and acquiring the finally reduced planning power consumption duration to form a planning power consumption scheme.

Specifically, the planning power utilization scheme comprises the power utilization equipment and the finally reduced planning power utilization duration corresponding to the power utilization equipment, and the planning power utilization scheme is formed and then stored in the storage space of the main server and is sent to the mobile terminal of the user, so that the user can visually know the power utilization equipment and the service duration of the power utilization equipment, and application is realized.

In one embodiment, as shown in fig. 7, in order to improve the efficiency of the power utilization planning, after S80, the following steps may be further included:

and S81, forming calling information of the planning electricity utilization scheme based on the equipment information corresponding to the planning electricity utilization scheme.

Specifically, the invocation information includes planning the powered devices within the power usage plan, such as A, B, C.

And S82, if the received new equipment information is consistent with the calling information, directly calling a corresponding planning power utilization scheme.

Specifically, when the user directly inputs A, B, C using the input terminal, the planned electricity usage time period of each electric device is directly called. For example, A is 0.81h, B is 4.86h, and C is 6.48 h.

When the host controller receives new equipment information every time, the host controller is matched with the stored calling information, and if the matching is consistent, the response planning power utilization scheme can be directly called, so that the planning time of power utilization every time is saved, and the power utilization planning efficiency is improved.

The implementation principle of the intelligent energy supply method for the outdoor power supply in the embodiment of the application is as follows: when the multi-device power utilization, the host controller can utilize the power consumption calculation of each consumer to predict the total power consumption, and then compare with the total electric quantity of the power supply of outdoor power supply, if predict the total power consumption not surpass the total electric quantity of power supply, then the total electric quantity of outdoor power supply is enough to supply each consumer to use, if predict the total power consumption and surpass the total electric quantity of power supply, the host controller just reduces the length of time to predicting the power consumption according to predetermined reduction proportion, and recalculate planning power consumption total, until planning power consumption total does not surpass the total electric quantity of power supply, alright form planning power consumption scheme in length with the planning power consumption after final reduction, thereby user alright use each consumer according to the power consumption scheme, realize each consumer all can equitable power consumption, the effect of outdoor power supply equitable distribution power supply volume.

Based on the method, the embodiment of the application also discloses an intelligent energy supply system for the outdoor power supply.

In one embodiment, as shown in fig. 8, based on the above outdoor power supply intelligent power supply method, an outdoor power supply intelligent power supply system is provided, which includes the following modules:

the receiving module 1 is used for receiving equipment information, wherein the equipment information comprises estimated electric equipment and estimated power utilization duration of each electric equipment;

the pre-estimation calculation judgment module 2 is used for calculating the pre-estimation total electricity consumption of all the electricity consumption equipment based on the preset equipment electricity consumption power;

if the estimated total power consumption does not exceed the total electric quantity of the power supply, the estimation calculation and judgment module 2 forms an electric quantity sufficient feedback signal;

if the estimated total power consumption exceeds the total power consumption of the power supply, the estimated power consumption time of each power consumption device is called by the estimated calculation and judgment module 2;

the forming module 3 is used for reducing the estimated electricity utilization time length according to a preset reduction ratio to form a planned electricity utilization time length;

the planning calculation and judgment module 4 is used for calculating the planning power consumption total amount of all the power consumption equipment based on the planning power consumption duration;

if the planning power consumption total amount still exceeds the total electric quantity of the power supply, the planning calculation and judgment module 4 reduces the original planning power consumption time length according to a preset reduction proportion to form a new planning power consumption time length and recalculates the planning power consumption total amount;

if the planning power consumption total amount does not exceed the total electric quantity of the power supply, the planning calculation and judgment module 4 stops the calculation of the planning power consumption total amount, and obtains the finally reduced planning power consumption time length to form a planning power consumption scheme.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of the above-mentioned outdoor power supply intelligent powering method. The steps of the intelligent outdoor power supply method may be the steps of the intelligent outdoor power supply method in the various embodiments described above.

In one embodiment, a computer readable storage medium is provided, which stores a computer program capable of being loaded by a processor and executing the above outdoor power intelligent power supply method, and the computer readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims

1. An intelligent energy supply method for an outdoor power supply is characterized by comprising the following steps:

2. The intelligent energy supply method for the outdoor power supply according to claim 1, wherein the calculating the estimated total power consumption of all the electric equipment based on the preset power consumption of the equipment comprises:

3. The intelligent outdoor power supply method according to claim 1, wherein the step of forming the feedback signal of sufficient power if the estimated total power consumption does not exceed the total power of the power supply comprises:

4. The intelligent energy supply method for the outdoor power supply according to claim 1, wherein the step of calling the estimated electricity consumption time of each electric device if the estimated electricity consumption total amount exceeds the total electricity amount of the power supply comprises the following steps:

5. The intelligent energy supply method for the outdoor power supply according to claim 1, wherein the step of calling the estimated electricity consumption time of each electric device if the estimated electricity consumption total amount exceeds the total electricity amount of the power supply comprises the following steps:

6. The intelligent energy supply method for the outdoor power supply according to claim 1, wherein before the estimated power consumption duration is formed according to the preset reduction ratio, the method comprises the following steps:

7. The intelligent energy supply method for the outdoor power supply according to claim 1, wherein if the planned total power consumption does not exceed the total electric quantity of the power supply, the calculation of the planned total power consumption is stopped, and the finally reduced planned power consumption duration is obtained, so that a planned power consumption scheme is formed, and the method comprises the following steps:

8. An outdoor power supply intelligent energy supply system, comprising:

the receiving module (1) is used for receiving equipment information, wherein the equipment information comprises estimated electric equipment and estimated power utilization duration of each electric equipment;

the pre-estimation calculation judgment module (2) is used for calculating the pre-estimation total power consumption of all the power consumption equipment based on the preset equipment power consumption;

the forming module (3) is used for reducing the estimated electricity utilization duration according to a preset reduction ratio to form a planned electricity utilization duration;

the planning calculation and judgment module (4) is used for calculating the planning power utilization total amount of all the power utilization equipment based on the planning power utilization duration;

9. A computer device, characterized by: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.