CN104166894B - Power plant dispatching voice declaration method and system - Google Patents

Abstract

A power plant scheduling voice reporting method and a system thereof are provided, wherein the method comprises the following steps: step 1, receiving an access request of a user, and accessing the user after verifying a user number and a login password; step 2, prompting a user to input power plant field data through voice; step 3, judging whether the power plant field data meet set locking conditions or not, and if not, prompting a user to return to the step 2 to input the power plant field data again through voice; step 4, prompting a user by voice to confirm the site data of the power plant which accords with the locking condition or returning to the step 2 to input the site data of the power plant again; and 5, storing the power plant field data confirmed by the user. The power plant dispatching voice declaring method and the system solve the technical problem that the prior art cannot realize timely and accurate declaration of field data of a power plant without enterprise intranet coverage.

Description

Power plant dispatching voice declaration method and system

technical field

The invention relates to the technical field of electric power dispatching, in particular to a method and system for power plant dispatching voice report.

Background technique

State Grid Corporation of China put forward "three sets and five majors" (intensive management of human resources, finance, and materials, large planning, large construction, large operation, large production, and large marketing system construction) at the "two sessions" in 2010. As an important embodiment of "big operation", "integration of dispatching, distribution and control" is a power grid operation management mode vigorously promoted in the current national grid system. Integrated dispatch management focuses on the high efficiency of the smart grid. It involves standardized and professional management, lean and index management, and vertical interconnection of the dispatch center. It is a window for the dispatch center to provide various functions and data services to the outside world.

"Integration of dispatching, distribution and control" involves two types of businesses, namely the control of the normal operation of the power grid and the emergency handling of emergencies. All-round and full-professional control capabilities; improve the ability to deal with emergencies such as abnormal weather, external damage, and system fluctuations.

The "integration of adjustment, allocation and control" system has realized the high degree of centralization of dispatching and operation, and at the same time puts forward new requirements for the automation system. With the in-depth advancement of the construction of the "big operation" system, in order to ensure the normal operation of the new system, it is necessary to improve the information platform of the power grid. Some small thermal power (small thermal power usually refers to oil-fired boilers and generator sets based on thermal power of 50,000 kilowatts or less) enterprises have not realized the coverage of the internal network due to the limitations of the existing network conditions of the enterprise, and cannot report data in real time through the internal network .

Therefore, it is necessary to establish an intelligent information system to realize the timely reporting of small thermal power on-site data, improve the level of regulation and operation, and then improve the safety and stability of the power grid. The traditional information system cannot prevent users from misoperation during the reporting process of small-scale thermal power field data, resulting in inaccurate data reporting. These inaccurate data are stored in the database and need to be reviewed and modified manually, which is time-consuming and labor-intensive, affecting the power plant. Scheduling work efficiency.

Contents of the invention

Therefore, the technical problem to be solved by the present invention is that the existing technology cannot realize the timely and accurate reporting of field data by power plants without enterprise intranet coverage, so a power plant dispatching voice declaration method and system are proposed to solve this problem.

In order to solve the problems of the technologies described above, the present invention adopts the following technical solutions:

A power plant scheduling voice reporting method, comprising the following steps: Step 1, receiving an access request from a user, and accessing the user after verifying the user number and login password; Step 2, voice prompting the user to input power plant site data; Step 3, judging the Whether the on-site data of the power plant meets the set blocking conditions, or not, the voice prompts the user to return to step 2 and re-enter the on-site data of the power plant; step 4, the voice prompts the user to confirm the on-site data of the power plant that meets the blocking conditions or return to step 2 to re-enter On-site data of the power plant; step 5, storing the above-mentioned on-site data of the power plant confirmed by the user.

As a further improvement of the power plant scheduling voice report method of the present invention, the on-site data of the power plant include: minimum power load, maximum power load, starting power capacity, power generation and grid-connected power.

As a further improvement of the power plant dispatching voice reporting method of the present invention, the blocking conditions are: on-grid electricity≦power generation, and the minimum power load<maximum power load≦starting power capacity, and 2.4 times the minimum power load<power generation<2.4 times Power up to load.

As a further improvement of the power plant scheduling voice declaration method of the present invention, the blocking condition is: minimum load of 2.4 times of power<power generation<maximum load of 2.4 times of power.

As a further improvement of the power plant scheduling voice reporting method of the present invention, the blocking condition is: on-grid electricity≦power generation.

As a further improvement of the power plant dispatching voice report method of the present invention, the blocking condition is: minimum power load<maximum power load≦start-up power capacity.

As a further improvement of the power plant scheduling voice report method of the present invention, the following step is also included after step 5: reviewing the stored power plant site data.

As a further improvement of the power plant dispatching voice report method of the present invention, the audited power plant site data will be reported to the superior dispatching unit.

As a further improvement of the power plant scheduling voice report method of the present invention, the following step is also included after step 5: summarizing and displaying the stored power plant on-site data.

Based on the same inventive concept, the present invention also proposes a power plant dispatching voice reporting system, including: a user access unit, used to receive the user’s access request, and access the user after verifying the user number and login password; an input unit, used for voice Prompt the user to input the on-site data of the power plant; the blocking unit is used to judge whether the on-site data of the power plant meets the set blocking conditions, and if the blocking conditions are not met, the voice prompts the user to return to the input unit to re-enter the on-site data of the power plant; the confirmation unit is used for voice prompts The user confirms the on-site data of the power plant that meets the blocking conditions or returns to the input unit to re-input the on-site data of the power plant; the storage unit is used to store the above-mentioned on-site data of the power plant confirmed by the user.

As a further improvement of the voice reporting system for power plant dispatching of the present invention, the on-site data of the power plant includes: minimum power load, maximum power load, starting power capacity, power generation and on-grid power.

As a further improvement of the voice reporting system for power plant dispatching of the present invention, the blocking condition is: minimum power load<maximum power load≦start-up power capacity.

As a further improvement of the voice reporting system for power plant dispatching of the present invention, the blocking condition is: minimum load of 2.4 times power < power generation < maximum load of 2.4 times power.

As a further improvement of the power plant dispatching voice reporting system of the present invention, the blocking condition is: on-grid electricity≦power generation.

As a further improvement of the power plant dispatching voice reporting system of the present invention, the blocking conditions are: on-grid electricity≦power generation, and the minimum power load<maximum power load≦starting power capacity, and 2.4 times the minimum power load<power generation<2.4 times the maximum power load.

As a further improvement of the voice reporting system for power plant dispatching of the present invention, an audit unit is also included for auditing the stored on-site data of the power plant.

As a further improvement of the voice reporting system for power plant dispatching of the present invention, a reporting unit is also included, which is used to report the verified on-site data of the power plant to the superior dispatching unit.

As a further improvement of the power plant dispatching voice reporting system of the present invention, it also includes a summarizing unit for summarizing and displaying the stored on-site data of the power plant.

The above technical solution of the present invention has the following advantages compared with the prior art:

1. A power plant dispatching voice reporting method and system of the present invention includes the following steps: Step 1, receiving the user's access request, verifying the user number and login password to access the user; Step 2, voice prompting the user to input the power plant site Data; step 3, judging whether the on-site data of the power plant meets the set blocking conditions, and if it does not meet the blocking conditions, the voice prompts the user to return to step 2 to re-enter the on-site data of the power plant; Confirm or return to step 2 to re-enter the on-site data of the power plant; step 5, store the above-mentioned on-site data of the power plant confirmed by the user. The set blocking conditions can prevent user misoperation during the reporting process of small thermal power on-site data, ensure the accuracy of data reporting, and avoid inaccurate data from being stored in the database, thereby improving the efficiency of power plant dispatching.

2. A voice reporting method and system for power plant dispatching according to the present invention. The on-site data of the power plant include: minimum power load, maximum power load, starting power capacity, power generation and on-grid power, and the blocking condition is: on-grid power≦power generation , and the lowest power load<the highest power load≦starting power capacity, and the lowest power load of 2.4 times<power generation<2.4 times the highest power load. This can effectively avoid data reporting such as on-grid power > power generation, minimum power load ≥ maximum power load, minimum power load ≥ start-up power capacity, maximum power load > start-up power capacity, and data unit errors during the on-site data declaration process of the power plant. Obvious errors caused by operator misuse. The data error rate is reduced from 21.33% to below 5.12%. At the same time, when the input power plant on-site data meets the blocking condition of 2.4 times power minimum load < generating capacity < 2.4 times power maximum load blocking condition, other data error rates that are not caused by human factors are also significantly reduced. Erroneous data caused by instruments and other reasons are significantly reduced. Through long-term statistical observation, the data error rate is 0, and unexpected technical effects have been achieved.

Description of drawings

In order to make the content of the present invention more easily understood, the present invention will be described in further detail below according to specific embodiments of the present invention in conjunction with the accompanying drawings, wherein

Fig. 1 is a schematic diagram of a power plant dispatching voice reporting method according to Embodiment 1 of the present invention;

Fig. 2 is a flow chart of a small thermal power plant scheduling voice reporting method according to Embodiment 2 of the present invention.

detailed description

Example 1

Fig. 1 shows a kind of power plant dispatching voice report method of the embodiment of the present invention, comprises the following steps:

Step 1. Access users. Receive the user's access request, and access the user after verifying the user ID and login password.

Step 2. Input the site data of the power plant. The user is prompted to input power plant site data by voice. The on-site data of the power plant include: minimum power load, maximum power load, starting power capacity, power generation and on-grid power.

Step 3, judging whether the data meets the blocking condition. Judging whether the on-site data of the power plant meets the set blocking conditions, the blocking conditions are: on-grid electricity ≦ power generation, and the minimum power load < maximum power load ≦ starting power capacity, and 2.4 times the minimum power load < power generation < 2.4 times the maximum power load. If the blocking condition is met, execute step 4; if the blocking condition is not met, the voice prompts the user to return to step 2 and re-enter the on-site data of the power plant.

This can effectively avoid data reporting such as on-grid power > power generation, minimum power load ≥ maximum power load, minimum power load ≥ start-up power capacity, maximum power load > start-up power capacity, and data unit errors during the on-site data declaration process of the power plant. Obvious errors caused by operator misuse. The data error rate is reduced from 21.33% to below 5.12%. At the same time, when the input power plant on-site data meets the blocking condition of 2.4 times power minimum load < generating capacity < 2.4 times power maximum load blocking condition, other data error rates that are not caused by human factors are also significantly reduced. Erroneous data caused by instruments and other reasons are significantly reduced. Through long-term statistical observation, the data error rate is 0, and unexpected technical effects have been achieved.

As another implementation manner, the blocking condition is: lowest power load<highest power load≦start-up power capacity.

As another implementation manner, the blocking condition is: the lowest load of 2.4 times the power<the power generation<the highest load of 2.4 times the power.

As another implementation manner, the blocking condition is: on-grid power≦power generation.

Step 4. Confirm the data. The voice prompts the user to confirm the on-site data of the power plant that meets the blocking conditions, and proceed to step 5 after confirmation; return to step 2 to re-input the on-site data of the power plant for re-input.

Step 5. Store the on-site data of the power plant. Store the above-mentioned on-site data of the power plant confirmed by the user.

As a preferred implementation of a power plant scheduling voice application method according to an embodiment of the present invention, after step 5, the following steps are further included: reviewing the stored power plant on-site data, and reporting the audited power plant on-site data to the superior dispatching unit.

As a preferred implementation of a power plant scheduling voice report method according to an embodiment of the present invention, after step 5, the following steps are further included: summarizing and displaying the stored on-site data of the power plant.

Example 2

Fig. 2 shows a small thermal power plant scheduling voice reporting method according to an embodiment of the present invention.

First, the data declarer of the small thermal power plant dials the declaration telephone number, and after connecting, the voice prompts "Welcome to the small thermal power data telephone declaration system, please enter the user number and end with the # key". For example, the data declarer enters the user number "001#", if the number does not exist, the voice prompts "The user number you entered does not exist, please re-enter the user number and end with the # key", if the number exists, further voice prompts "Please enter the login password, ending with the # key." For example, the data declarer enters the login password "******#", if the password is wrong, the voice prompts "The password is wrong, please re-enter, and end with the # key", if the password is entered correctly, the login is successful.

After the login is successful, the voice prompt "declare data, please press 1, exit, please hang up", after the data declarer enters "1", the voice prompt "please enter the power generation amount, end with the # key", for example, the data declarer enters " 1036.28".

Judging whether the input power generation meets the set blocking conditions: on-grid power ≦ power generation, and the minimum power load < maximum power load ≦ starting power capacity, and 2.4 times the minimum power load < power generation < 2.4 times the maximum power load. If not, the voice prompts "Sorry, your input is wrong! Please re-enter", and the data declarer returns to re-enter the power generation amount.

If it matches, then a further voice prompt "Your input is: 1036.28, confirm, please press 1, re-enter, please press 2", if the data declarer enters incorrect power generation, press 2 to return and re-enter; if the data declaration If the power generation amount entered by the operator is correct, press 1 to confirm. After the data declarer presses 1, the voice prompts "Please enter the online power, end with the # key", for example, the data declarer enters "964.14".

Judging whether the input on-grid electricity meets the set blocking conditions: on-grid electricity ≦ power generation, and the minimum power load < maximum power load ≦ starting power capacity, and 2.4 times the minimum power load < power generation < 2.4 times the maximum power load. If not, the voice prompts "Sorry, your input is wrong! Please re-enter", and the data declarer returns to re-enter the online power.

If it matches, a further voice prompt "Your input is: 964.14, confirm, please press 1, re-enter, please press 2", if the data declarer enters the wrong online power, press 2 to return and re-enter; if the data declaration If the power input by the operator is correct, press 1 to confirm. After the data declarer presses 1, the voice prompts "Please enter the minimum power load and end with the # key", for example, the data declarer inputs "102.56".

Judging whether the input power minimum load meets the set blocking conditions: on-grid power ≦ power generation, and power minimum load < power maximum load ≦ start-up power capacity, and 2.4 times power minimum load < power generation < 2.4 times power maximum load. If not, the voice prompts "Sorry, your input is wrong! Please re-enter", and the data declarer returns to re-input the minimum power load.

If it matches, then further voice prompt "Your entry is: 102.56, confirm, please press 1, re-enter, please press 2", if the data declarer input power minimum load is incorrect, press 2 to return and re-enter; if the data If the minimum load input by the declarer is correct, press 1 to confirm. After the data declarer presses 1, the voice prompts "Please enter the highest power load and end with the # key", for example, the data declarer enters "505.43".

Judging whether the maximum input power load meets the set blocking conditions: on-grid power ≦ power generation, and the minimum power load < maximum power load ≦ starting power capacity, and 2.4 times the minimum power load < power generation < 2.4 times the maximum power load. If not, the voice prompts "Sorry, your input is wrong! Please re-enter", and the data declarer returns to re-enter the highest power load.

If it matches, then further voice prompt "Your entry is: 505.43, confirm, please press 1, re-enter, please press 2", if the data declarer's input power maximum load is incorrect, press 2 to return and re-enter; if the data If the power and maximum load input by the declarer are correct, press 1 to confirm. After the data declarer presses 1, the voice prompts "Please enter the starting power capacity, end with the # key", for example, the data declarer enters "665.64".

Judging whether the input start-up power capacity meets the set blocking conditions: on-grid power ≦ power generation, and the minimum power load < maximum power load ≦ start-up power capacity, and 2.4 times the minimum power load < power generation < 2.4 times the maximum power load. If not, the voice prompts "Sorry, your input is wrong! Please re-enter", and the data declarer returns to re-input the starting power capacity.

If it matches, a further voice prompt "Your input is: 505.43, confirm, please press 1, re-enter, please press 2", if the data declarer enters the power capacity of the power on is incorrect, press 2 to return and re-enter; if the data If the declarant enters the correct starting power capacity, press 1 to confirm.

After the data declarer presses 1, he enters the operation database process, stores the above-mentioned on-site data of the small thermal power plant confirmed by the data declarer, and gives a voice prompt "The operation has been successful! Power generation: 1036.28, on-grid power: 964.16, power minimum load 102.56 , the highest power load: 505.43, the starting power capacity: 665.64, if you need other services, please press 0, please hang up to exit."

As a preferred implementation of the small thermal power plant dispatching voice reporting method in the embodiment of the present invention, the dispatcher can review the stored on-site data of the above-mentioned small thermal power plant, and report the reviewed on-site data of the small thermal power plant to the superior dispatching unit.

As a preferred implementation mode of a small thermal power plant scheduling voice reporting method in an embodiment of the present invention, the dispatcher can summarize and display the stored on-site data of the above small thermal power plant.

Example 3

A power plant dispatching voice reporting system according to an embodiment of the present invention includes a user access unit, an input unit, a locking unit, a confirmation unit and a storage unit.

The user access unit is used to receive an access request from a user, and access the user after verifying the user number and login password.

The input unit is used to prompt the user to input the on-site data of the power plant by voice. The on-site data of the power plant include: minimum power load, maximum power load, starting power capacity, power generation and on-grid power.

The blocking unit is used to judge whether the on-site data of the power plant meets the set blocking conditions, and the blocking conditions are: on-grid electricity≦power generation, and the minimum power load<the maximum power load≦starting power capacity, and 2.4 times the minimum power Load<power generation<2.4 times the maximum power load. If the blocking condition is met, execute step 4; if the blocking condition is not met, the voice prompts the user to return to step 2 and re-enter the on-site data of the power plant.

As another implementation manner, the blocking condition is: lowest power load<highest power load≦start-up power capacity.

As another implementation manner, the blocking condition is: the lowest load of 2.4 times the power<the power generation<the highest load of 2.4 times the power.

As another implementation manner, the blocking condition is: on-grid power≦power generation.

The confirmation unit is used to voice prompt the user to confirm the on-site data of the power plant meeting the blocking condition, and proceed to step 5 after confirming; return to step 2 to re-input the on-site data of the power plant for re-input.

The storage unit is used for storing the above-mentioned on-site data of the power plant confirmed by the user.

A power plant dispatching voice report system in an embodiment of the present invention further includes an audit unit, a report unit and a summary unit.

The auditing unit is used for auditing the stored power plant site data.

The reporting unit is used to report the verified on-site data of the power plant to the superior dispatching unit.

The summarizing unit is used for summarizing and displaying the stored on-site data of the power plant.

As a preferred implementation of a power plant dispatching voice declaration system in the embodiment of the present invention, a voice server can be developed based on the Dialogic voice card, and the above-mentioned user access unit, input unit, locking unit, confirmation unit and storage unit can be integrated in the voice server. unit. Further, a WEB server is constructed, and the above auditing unit, reporting unit and summarizing unit are integrated in the voice server. The technology of developing a voice server based on Dialogic voice and the technology of constructing a WEB server belong to the technically known technology in this technical field. By combining the functional requirements provided by a power plant dispatching voice reporting system in the embodiment of the present invention, the technical field of this technical field is in the technical field. It can be implemented under the condition of not paying creative labor, so it will not be described again.

Apparently, the above-mentioned embodiments are only examples for clear description, rather than limiting the implementation. For those of ordinary skill in the art, on the basis of the above description, other changes or changes in different forms can also be made. It is not necessary and impossible to exhaustively list all the implementation manners here. And the obvious changes or changes derived therefrom are still within the scope of protection of the present invention.

Claims (5)

1. power plant's schedule voice declaration method, it is characterised in that comprise the following steps:

Step 1, the access request of reception user, checking Customs Assigned Number and login password are followed by access customer；

Step 2, voice message user input power plant's field data；

Step 3, judge whether described power plant field data meets the barring condition of setting, do not meet and close Bolt part then voice message user returns step 2 and re-enters power plant's field data；

Wherein, described barring condition is: electricity volume generated energy, and power minimum load ＜ merit Rate maximum load start power capacity, and 2.4 times power minimum load ＜ generated energy ＜ 2.4 times power maximum loads；Or

Described barring condition is: 2.4 times power minimum load ＜ generated energy ＜ 2.4 times powers are the highest negative Lotus；Or

Described barring condition is: electricity volume generated energy；Or

Described barring condition is: power minimum load ＜ power maximum load start power capacity；

Step 4, voice message user carry out confirmation to the power plant's field data meeting barring condition and obtain User confirm power plant's field data, or return step 2 re-enter power plant's field data；

Step 5, by above-mentioned through user confirm power plant's field data store.

Power plant the most according to claim 1 schedule voice declaration method, it is characterised in that institute State power plant's field data to include: power minimum load, power maximum load, start power capacity, Generated energy and electricity volume.

Power plant the most according to claim 1 schedule voice declaration method, it is characterised in that Step 5 is the most further comprising the steps of: audit power plant's field data of storage.

Power plant the most according to claim 3 schedule voice declaration method, it is characterised in that also Power plant's field data after examination & verification is reported higher level's thread.

Power plant the most according to claim 4 schedule voice declaration method, it is characterised in that Step 5 is the most further comprising the steps of: power plant's field data of storage is collected displaying.