CN111144708A - Information interaction method and system and readable storage medium - Google Patents

Abstract

The invention discloses an information interaction method, which comprises the following steps: an information interaction method, comprising: the cloud server acquires information issued by the power grid management platform; the cloud server respectively sets the acquired information as first type information, second type information and third type information according to information types; the cloud server pushes the first type of information and the second type of information to the intelligent central control equipment; the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information; and the intelligent central control equipment combines the first type of information to make a power saving strategy and feeds back power saving information to the user according to the selection condition of the user. Compared with the prior art, the method and the device can realize bidirectional information feedback to the power grid and the user, improve the power saving consciousness of the user, realize the expansion of the power grid propaganda channel, and save the power consumption cost of the user.

Description

Information interaction method and system and readable storage medium

Technical Field

The present invention relates to the field of information interaction, and in particular, to an information interaction method, system and readable storage medium.

Background

With the continuous progress of society, the living standard of people is continuously improved, and the demand of various industries on power consumption is increased. At present, most areas in the whole country have the situation of power supply and demand shortage in the peak period of power utilization, and the situation not only can cause huge impact on a power grid, but also can not provide effective and stable electric energy for users. In order to alleviate the above situation, the power grid mainly provides public with publicity guidance for saving power in a form of issuing policy information on the network, and encourages users to use power in the power consumption valley period in a manner of executing different power rates in the power consumption peak period and the power consumption valley period respectively.

From the aspect of the power grid, the comprehensive publicity and release of the electricity utilization policy for people benefit are required, but the publicity information cannot be known to the user, and the publicity efficiency cannot be guaranteed. In addition, most residents cannot pay targeted attention to information issued by a power grid every day at present, users cannot know the latest power utilization policy in time, and a reasonable power utilization management strategy is lacked, so that the household power utilization expenditure is high.

Disclosure of Invention

The invention provides an information interaction method, an information interaction system and a readable storage medium for solving the technical problems.

According to an aspect of the present invention, there is provided an information interaction method, including:

the cloud server acquires information issued by the power grid management platform;

the cloud server respectively sets the acquired information as first type information, second type information and third type information according to information types; the first type of information is power-saving policy information, the second type of information is power-saving propaganda information, and the third type of information is other types of information;

the cloud server pushes the first type of information and the second type of information to the intelligent central control equipment;

the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information;

and the intelligent central control equipment combines the first type of information to make a power saving strategy and feeds back power saving information to the user according to the selection condition of the user.

Further, the step of feeding back, by the cloud server, the user viewing amount to the power grid management platform in combination with the user reference condition of the second type of information includes:

a reading record table corresponding to each second type of information title is pre-established in the cloud server;

when the user clicks the second type of information for reference, the intelligent central control equipment generates reading associated information of the user on the second type of information and sends the reading associated information to the cloud server;

the cloud server correspondingly records the reading associated information in the reading record table;

and the cloud server sends the reading record table to the power grid management platform according to a set time period.

Further, the reading record table at least comprises a title, a device code, a reading time and the like of the second type of information;

when the user clicks the second type of information for consulting, recording the consulting time of the user, and simultaneously sending the unique identification code of the intelligent central control equipment and the title of the second type of information to the cloud server; and updating in the reading record table.

Further, the step of the cloud server correspondingly recording the reading association information in the reading record table includes:

calling a title of the second type information;

judging whether the unique identification code exists in the reading record table of the corresponding title or not;

if the unique identification code does not exist, the unique identification code is recorded in the reading record table, the reading number mark is added with 1, and the number mark of a newly added reading user is added with 1;

if the unique identification code exists, the unique identification code is not recorded, the reference time is added only in the reading time part, and the reading number mark is added with 1.

Further, the step of making a power saving strategy by the intelligent central control device in combination with the first type of information and feeding back power saving information to the user according to the selection condition of the user includes:

determining the electricity price at the time of the peak electricity consumption and the valley electricity consumption according to the first type information;

dividing electrical equipment in a family into first-level equipment and second-level equipment; the first level equipment is life essential equipment; the second level device is a non-life-critical device;

setting a peak load shifting and power saving scheme for the second-level equipment;

judging whether the user executes the peak shifting power saving scheme or not;

if the power saving is executed, feeding back the power saving condition to a user by combining historical average power utilization data and the actual use condition of the second-level equipment; and if not, outputting the reference power saving condition to the user according to the actual use time and the electricity utilization duration of each second-level device.

Further, the set peak-shifting power saving scheme is to allow the second-level equipment to be used when the power utilization trough is reached, and forbid the second-level equipment from being used when the power price is raised.

Further, the power saving information is fed back to the user in the form of the saved electricity fee.

Further, when the user executes the peak shifting power saving scheme, calculating the electricity price of the historical average electricity consumption of the second-level equipment by combining historical data, and calculating the electricity fee condition saved by the peak shifting power saving scheme by combining the electricity price at the valley time of the electricity price and the electricity consumption duration of the second-level equipment; when the user does not execute the peak shifting power saving scheme, calculating the electric charge of the second-level equipment according to the actual use time of the second-level equipment and the real-time electricity price information; and meanwhile, the reference value of the electricity charge saved by the peak-shifting electricity-saving scheme is calculated by combining the trough electricity price and the electricity utilization duration of the second-level equipment.

According to another aspect of the present invention, there is provided an information interaction system, including: the system comprises a power grid management platform, a cloud server and a central control device; the cloud server is in communication connection with the power grid management platform and the central control equipment respectively;

the cloud server is used for acquiring information issued by the power grid management platform;

the cloud server respectively sets the acquired information as first type information, second type information and third type information according to information types; the first type of information is power-saving policy information; the second type of information is power-saving propaganda information; the third type of information is other types of information;

the cloud server sends the first type of information and the second type of information to the intelligent central control equipment;

the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information;

and the intelligent central control equipment combines the first type of information to make a power saving strategy and feeds back power saving information to the user according to the selection condition of the user.

According to another aspect of the present invention, there is provided a readable storage medium having stored thereon a computer program which is executed by a processor to implement the above-mentioned information interaction method.

Compared with the prior art, the information interaction method, the information interaction system and the readable storage medium provided by the invention can realize bidirectional information feedback to the power grid and the users, and on the aspect of the power grid, the power-saving awareness of the users is improved, effective data support is provided for propaganda of the power grid, and the expansion of a power grid propaganda channel is realized by feeding back the user watching number of the power-saving propaganda information to the power grid management platform. In the aspect of users, the power saving strategy is established for the users and the power saving information is fed back to the users, so that the power consumption cost of the users can be further saved while the users can quickly experience the power saving effect.

Drawings

FIG. 1 is a flowchart of a method for providing an information interaction method according to an embodiment of the present invention;

FIG. 2 is a detailed flowchart of step S400 in FIG. 1;

FIG. 3 is a detailed flowchart of step S430 in FIG. 2

FIG. 4 is a detailed flowchart of step S500 in FIG. 1;

FIG. 5 is a system architecture diagram of an information interaction system according to an embodiment of the present invention;

FIG. 6 is a schematic block diagram of a readable storage medium according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a flowchart of a method for providing an information interaction method according to an embodiment of the present invention includes:

s100, a cloud server acquires information issued by a power grid management platform;

the national power grid publishes information to the outside through the power grid management platform, and any person can read the relevant information through the power grid management platform, and the specific power grid management platform can be embodied in a webpage form. In the embodiment of the invention, the cloud server is in communication connection with the power grid management platform, and the cloud server is used for completing the real-time downloading of the information issued by the power grid management platform.

S200, the cloud server respectively sets the acquired information as first type information, second type information and third type information according to the information types;

specifically, the classification of the information is realized by combining the plate to which the information belongs and the information content, wherein the first type of information is power-saving policy information (such as government policy), the second type of information is power-saving promotion information (such as promotion video), and the third type of information is other types of information (such as comprehensive news and media focusing).

S300, the cloud server pushes the first type of information and the second type of information to the intelligent central control equipment;

in this step, in view of the situation that people generally pay attention to the dynamic news of the power grid in daily life and need to be low, the cloud server only pushes the first type of information and the second type of information which are more relevant to daily life to the intelligent central control device, so that users can know the information in time. When the user needs to look up the third type of information, selective look-up can be directly carried out in the cloud server.

S400, the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information;

referring to fig. 2, a detailed flowchart of step S400 in fig. 1 is shown, where step S400 includes:

s410, pre-establishing a reading record table corresponding to each second type of information title in the cloud server;

in the embodiment of the present invention, a reading record table is established for each piece of the second type information, and specifically, the record table at least includes the content of the title, the device code, the reading time, and the like of the second type information. Wherein the device code is mainly used as a credential to read the number of users.

S420, when the user clicks the second type of information for reference, the intelligent central control equipment generates reading associated information of the user on the second type of information and sends the reading associated information to the cloud server;

when the user clicks the second type of information for consulting, the intelligent central control equipment records the consulting time of the user, and simultaneously sends the unique identification code (UUID) of the intelligent central control equipment and the title of the second type of information to the cloud server; and after receiving the information, the cloud server updates the content in the corresponding reading record table.

S430, the cloud server correspondingly records the reading associated information in the reading record table;

referring to fig. 3, a detailed flowchart of step S430 in fig. 2 is shown, where step S430 includes:

s431, calling a title of the second type information;

since the cloud server has already established the reading record table for each piece of the second type information, in this step, the reading record table corresponding to the title needs to be called in combination with the title of the second type information read by the user.

S432, judging whether the unique identification code exists in a reading record table of a corresponding title or not; if the unique identification code does not exist in the reading record table of the corresponding title, step S433 is entered; if the unique identification code exists in the reading record table of the corresponding title, go to step S434;

in the step, the reading number and the number of newly added reading users are confirmed mainly by recording and identifying the unique identification code.

S433, recording the unique identification code in a reading record table, adding 1 to the reading number mark, and adding 1 to the newly added reading user number mark;

because the unique identification code does not exist in the previous reading record table, the user refers to the second type of information for the first time, and therefore on the basis of increasing the reading number, the number of the newly added reading users is further increased. Specifically, the device code and the reading time are recorded in the reading record table in a synchronous manner.

And S434, the unique identification code is not recorded, the reference time is added only in the reading time part, and the reading number mark is added with 1.

Because the unique identification code is already recorded in the reading record table, which indicates that the user has previously consulted the second type of information, and the consultation is a repeated consultation condition, the reading number is only increased, and the number of newly added reading users is not changed. Specifically, data updating and recording are carried out in the reading time part in the reading record table.

And S440, the cloud server sends the reading record table to the power grid management platform according to the set time period.

In this step, the cloud server can send the reading record table after the update to the power grid management platform according to the time cycle of setting for, can in time know the circulation degree of propaganda information in the aspect of making the power grid to can combine the condition of circulation degree to carry out dynamic adjustment to propaganda content and scheme, in order to realize better propaganda. In the embodiment of the present invention, the time period is specifically set in units of days. In other embodiments of the present invention, the specific time interval of the time period is not limited.

S500, the intelligent central control equipment makes a power saving strategy by combining the first type of information, and feeds back power saving information to the user according to the selection condition of the user.

It should be noted that, in the embodiment of the present invention, the power saving information is specifically fed back to the user in the form of the saved electricity fee.

Referring to fig. 4, a detailed flowchart of step S500 in fig. 1 is shown, where step S500 includes:

s510, determining the electricity price at the electricity peak and the electricity valley according to the first type of information;

in the aspect of the power grid, the power utilization peaks and valleys are predicted according to the actual power utilization situation, and in order to relieve the power utilization pressure in the power utilization peak period and encourage users to carry out peak-off power utilization, the power price at the power utilization valley is often lower than that at the power utilization peaks, and the power price information should be disclosed to the public. In the embodiment of the invention, the electricity price at the time of the peak and the valley of the electricity consumption can be determined by the latest first-class information.

S520, dividing electrical equipment in a family into first-level equipment and second-level equipment;

in the embodiment of the invention, the first-level equipment is life-necessary equipment (such as a refrigerator, an air-conditioning router, lighting equipment and the like); second level equipment non-life-essential equipment (such as sweeping robots, water heaters and the like); specifically, the first-level device needs to be continuously connected with the power grid, and the second-level device can be disconnected from the power grid when not in use.

S530, setting a peak staggering power saving scheme for second-level equipment;

specifically, the peak shifting power saving scheme is to allow the second-level device to be used when the power consumption is in a trough, and forbid the second-level device from being used when the power price is in a peak.

S540, judging whether the user executes a peak staggering power saving scheme or not; if the user confirms to execute the peak shifting power saving scheme, the step S550 is executed; if the user does not execute the peak shifting power saving scheme, the step S560 is executed;

in the embodiment of the invention, after the peak staggering node scheme is set, the intelligent central control equipment can remind the user of executing confirmation in a voice or display mode on the display panel; and when the voice feedback of the user is determined or the selection of the display panel is determined, determining that the user executes the set peak staggering power saving scheme, or determining that the set peak staggering power saving scheme is not executed temporarily.

S550, feeding back the power saving condition to a user by combining the historical average power consumption data and the actual use condition of the second-level equipment;

when a user executes the peak shifting electricity-saving scheme, the historical data is combined to calculate the electricity price of the historical average electricity consumption of the second-level equipment, the electricity price during the valley period of the electricity price and the electricity consumption duration of the second-level equipment are combined to calculate the electricity fee condition saved by the peak shifting electricity-saving scheme, and the saved electricity fee condition is displayed on the display panel of the intelligent central control equipment.

And S560, outputting the reference power saving condition to the user according to the actual use time and the power consumption duration of each second-level device.

When the user does not execute the peak shifting electricity-saving scheme, the intelligent central control equipment calculates the electricity charge of the second-level equipment according to the actual use time of the second-level equipment and the real-time electricity price information; and meanwhile, the reference value of the power charge which can be saved by the peak-shifting power saving scheme is calculated by combining the trough power price and the power consumption duration of the second-level equipment, and the reference value of the power charge is displayed on a display panel of the intelligent central control equipment.

Please refer to fig. 5, which is a system architecture diagram of an information interaction system according to an embodiment of the present invention; the system comprises: the system comprises a power grid management platform 100, a cloud server 200 and a central control device 300; the cloud server 200 is in communication connection with the power grid management platform 100 and the central control device 300 respectively.

The cloud server 200 is used for acquiring information issued by the power grid management platform 100;

the cloud server 200 respectively sets the acquired information as first type information, second type information and third type information according to the information types; the first type of information is power-saving policy information; the second type of information is power-saving propaganda information; the third type of information is other types of information;

the cloud server 200 pushes the first type of information and the second type of information to the intelligent central control device 300;

the cloud server 200 feeds back the user watching amount to the power grid management platform 100 in combination with the user's consulting condition of the second type of information;

the intelligent central control device 300 makes a power saving strategy by combining the first type of information and feeds back power saving information to the user according to the selection condition of the user.

Please refer to the implementation process in the above information interaction method to understand the system, which is not described herein again.

Referring to fig. 6, a schematic block diagram of a readable storage medium according to an embodiment of the invention is shown. The readable storage medium in this embodiment stores a computer program 610, and the computer program 610 can be executed by a processor to implement the information interaction method in any of the above embodiments.

Alternatively, the readable storage medium may be various media that can store 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, or may be a terminal device such as a computer, a server, a mobile phone, or a tablet.

Compared with the prior art, the information interaction method, the information interaction system and the readable storage medium provided by the invention can realize bidirectional information feedback to the power grid and the users, and on the aspect of the power grid, the power-saving awareness of the users is improved, effective data support is provided for propaganda of the power grid, and the expansion of a power grid propaganda channel is realized by feeding back the user watching number of the power-saving propaganda information to the power grid management platform. In the aspect of users, the power saving strategy is established for the users and the power saving information is fed back to the users, so that the power consumption cost of the users can be further saved while the users can quickly experience the power saving effect.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement and improvement made within the technical idea of using the present invention should be within the scope of the right of the present invention.

Claims (10)

1. An information interaction method, comprising:

the cloud server acquires information issued by the power grid management platform;

the cloud server respectively sets the acquired information as first type information, second type information and third type information according to information types; the first type of information is power-saving policy information, the second type of information is power-saving propaganda information, and the third type of information is other types of information;

the cloud server pushes the first type of information and the second type of information to the intelligent central control equipment;

the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information;

and the intelligent central control equipment combines the first type of information to make a power saving strategy and feeds back power saving information to the user according to the selection condition of the user.

2. The information interaction method of claim 1, wherein the step of the cloud server feeding back the user watching amount to the power grid management platform in combination with the user's review of the second type of information comprises:

a reading record table corresponding to each second type of information title is pre-established in the cloud server;

when the user clicks the second type of information for reference, the intelligent central control equipment generates reading associated information of the user on the second type of information and sends the reading associated information to the cloud server;

the cloud server correspondingly records the reading associated information in the reading record table;

and the cloud server sends the reading record table to the power grid management platform according to a set time period.

3. The information interaction method of claim 2, wherein: the reading record table at least comprises a title, an equipment code, reading time and the like of the second type of information;

when the user clicks the second type of information for consulting, recording the consulting time of the user, and simultaneously sending the unique identification code of the intelligent central control equipment and the title of the second type of information to the cloud server; and updating in the reading record table.

4. The information interaction method of claim 3, wherein: the step of the cloud server correspondingly recording the reading associated information in the reading record table includes:

calling a title of the second type information;

judging whether the unique identification code exists in the reading record table of the corresponding title or not;

if the unique identification code does not exist, the unique identification code is recorded in the reading record table, the reading number mark is added with 1, and the number mark of a newly added reading user is added with 1;

if the unique identification code exists, the unique identification code is not recorded, the reference time is added only in the reading time part, and the reading number mark is added with 1.

5. The information interaction method of claim 1, wherein the step of making a power saving strategy by the intelligent central control device in combination with the first type of information and feeding back power saving information to the user according to the selection of the user comprises:

determining the electricity price at the time of the peak electricity consumption and the valley electricity consumption according to the first type information;

dividing electrical equipment in a family into first-level equipment and second-level equipment; the first level equipment is life essential equipment; the second level device is a non-life-critical device;

setting a peak load shifting and power saving scheme for the second-level equipment;

judging whether the user executes the peak shifting power saving scheme or not;

if the power saving is executed, feeding back the power saving condition to a user by combining historical average power utilization data and the actual use condition of the second-level equipment; and if not, outputting the reference power saving condition to the user according to the actual use time and the electricity utilization duration of each second-level device.

6. The information interaction method as claimed in claim 5, wherein the peak-shifting power saving scheme is set to allow the second-level device to be used at the time of a power utilization trough and prohibit the second-level device from being used at the time of a power price peak.

7. The information interaction method of claim 6, wherein: the power saving information is fed back to the user in the form of the saved electricity fee.

8. The information interaction method of claim 7, wherein: when the user executes the peak shifting electricity-saving scheme, calculating the electricity price of the historical average electricity consumption of the second-level equipment by combining historical data, and calculating the electricity charge condition saved by the peak shifting electricity-saving scheme by combining the electricity price during the valley of the electricity price and the electricity consumption duration of the second-level equipment; when the user does not execute the peak shifting power saving scheme, calculating the electric charge of the second-level equipment according to the actual use time of the second-level equipment and the real-time electricity price information; and meanwhile, the reference value of the electricity charge saved by the peak-shifting electricity-saving scheme is calculated by combining the trough electricity price and the electricity utilization duration of the second-level equipment.

9. An information interaction system, comprising: the system comprises a power grid management platform, a cloud server and a central control device; the cloud server is in communication connection with the power grid management platform and the central control equipment respectively;

the cloud server is used for acquiring information issued by the power grid management platform;

the cloud server respectively sets the acquired information as first type information, second type information and third type information according to information types; the first type of information is power-saving policy information; the second type of information is power-saving propaganda information; the third type of information is other types of information;

the cloud server sends the first type of information and the second type of information to the intelligent central control equipment;

the cloud server feeds back the watching number of the users to the power grid management platform in combination with the condition that the users look up the second type of information;

and the intelligent central control equipment combines the first type of information to make a power saving strategy and feeds back power saving information to the user according to the selection condition of the user.

10. A readable storage medium having stored thereon a computer program for execution by a processor to implement the information interaction method of any one of claims 1-8.

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