CN111861551A

CN111861551A - Intelligent monitoring and management system for electricity consumption of park

Info

Publication number: CN111861551A
Application number: CN202010652670.7A
Authority: CN
Inventors: 凌显国
Original assignee: Haining Tongxing Intelligent Park Management Co ltd
Current assignee: Haining Tongxing Intelligent Park Management Co ltd
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2020-10-30
Anticipated expiration: 2040-07-08
Also published as: CN111861551B

Abstract

The invention discloses a park electricity utilization intelligent monitoring and management system, which belongs to the technical field of park electricity utilization detection and comprises a main electric control terminal, an electric power management module, a data comprehensive acquisition module and an electric power anti-theft monitoring module, wherein the output end of the main electric control terminal is electrically connected with the input end of the electric power management module, and the electric power management module is respectively electrically connected with the data comprehensive acquisition modules in a park A, a park B and a park C in a feedback mode. According to the invention, by arranging the power management module and the data comprehensive acquisition module, the data comprehensive acquisition module can respectively acquire the power information in the park A, the park B and the park C and feed the power information back to the power management module, so that the park A, the park B or the park C can always keep sufficient power ration, the power failure condition caused by insufficient power supply of the park A, the park B or the park C can be effectively avoided, and the loss of the park A, the park B or the park C due to insufficient power can be avoided in advance.

Description

Intelligent monitoring and management system for electricity consumption of park

Technical Field

The invention belongs to the technical field of park electricity utilization detection, and particularly relates to a park electricity utilization intelligent monitoring and management system.

Background

The park is a specific area uniformly planned by the government and can be generally divided into an industrial park, a logistics park, a scientific and technological park, a cultural industrial park, a self-trade park and an agricultural park, along with the development of economy and the continuous deepening of park investment, the willingness of large-scale park construction and operation enterprises to seek new ways of park development is strong day by day, the excellent domestic park construction and operation enterprises pay more and more attention to the research on industrial markets, the park rapidly increases along with the development of economy and the power consumption also increases day by day, in order to avoid power consumption peaks among a plurality of bays, in order to ensure that the park can regularly consume power and avoid forming power consumption conflicts, the electric power is generally controlled, the influence on operation in the park caused by insufficient power supply is avoided, however, a plurality of bays in the existing park generally have respective electric control centers, and each bay also has the condition of different power consumption, if the power supply is insufficient due to sudden increase of the power consumption of individual subareas, the subareas are affected, so that the statistics of the power consumption and the reasonable distribution of the power are problems even if the improvement is needed, the number of circuits in the park is large and complicated, individual power stealing can occur, and the power stealing not only damages the benefits of the park, but also brings unstable factors to the power utilization of the park.

Disclosure of Invention

The invention aims to: in order to solve the problem that the power supply interruption condition can occur in some subareas caused by sudden increase of the power consumption and the power utilization is influenced by stealing of the power, the intelligent monitoring and management system for the power utilization in the park is provided.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a garden power consumption wisdom monitoring management system, includes total automatically controlled terminal, electric power management module, data synthesis collection module and electric power theftproof monitoring module, total automatically controlled terminal's output and electric power management module's input electric connection, electric power management module respectively with garden A, garden B and the data synthesis collection module feedback electric connection in the garden C, data synthesis collection module and electric power theftproof monitoring module feedback electric connection.

As a further description of the above technical solution:

the general electric control terminal comprises a terminal power supply module A, a terminal power supply module B and a terminal power supply module C.

As a further description of the above technical solution:

the power management module comprises a power calculation module, a power scheme generation module, a power instruction issuing module, a power distribution transmission module and a power supply switching module.

As a further description of the above technical solution:

the output of electric power calculation module and the input electric connection of electric power scheme generation module, the output of electric power scheme generation module and the input electric connection of module are assigned to the electric power instruction, and the output of module is assigned to the electric power instruction respectively with the input electric connection of distribution transport module and power supply switching module.

As a further description of the above technical solution:

the data comprehensive acquisition module comprises a data transmission module, an electric energy power monitoring module, a power failure detection module, a short circuit point analysis module and a monitoring module A, wherein the electric energy power monitoring module comprises an electric power consumption detection module, a power monitoring module, an electric leakage detection module and a voltage data acquisition module.

As a further description of the above technical solution:

the output ends of the power consumption detection module, the power monitoring module, the electric leakage detection module and the voltage data acquisition module are electrically connected with the input end of the electric energy power monitoring module, the output end of the electric energy power monitoring module is electrically connected with the input end of the data transmission module, the output end of the power failure detection module is electrically connected with the input end of the electric energy power monitoring module, the power failure detection module is electrically connected with the short-circuit point analysis module in a feedback mode, and the short-circuit point analysis module is electrically connected with the monitoring module A in a feedback mode.

As a further description of the above technical solution:

the electric power anti-theft monitoring module comprises an electric power monitoring module, an electric power data analysis module, a circuit power failure detection module, an electricity utilization amplitude expansion detection module, an amplitude expansion circuit positioning module, an electric power metering module and a monitoring module B, wherein the output end of the electric power anti-theft monitoring module is electrically connected with the input end of the main electric control terminal.

As a further description of the above technical solution:

the output end of the power metering module is electrically connected with the input end of the power consumption amplitude-rising detection module, the output ends of the power consumption amplitude-rising detection module and the circuit interruption supply detection module are electrically connected with the input end of the power data analysis module, and the output end of the power consumption amplitude-rising detection module is electrically connected with the input end of the amplitude-rising line positioning module.

As a further description of the above technical solution:

monitoring module A and monitoring module B all set up to infrared monitor, and infrared monitor's quantity is a plurality of, and a plurality of infrared monitor evenly distributed is in garden A, garden B and garden C.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, by arranging the power management module and the data comprehensive acquisition module, the data comprehensive acquisition module can respectively acquire power information in the park A, the park B and the park C, and feeds back the power information to the power management module, which can analyze the power information, if the power in the park A, the park B or the park C is insufficient, the information can be transmitted to the master electric control terminal, the power amount in the main electric control terminal is analyzed by analyzing the information returned by the main electric control terminal, redundant power amount is distributed to the subarea with insufficient power supply, so that the park A, the park B or the park C can always keep sufficient power distribution amount, the condition that the power supply of the park A, the park B or the park C is insufficient and the power is cut off can be effectively avoided, can avoid the loss that gardens A, garden B or garden C appear because of the electric power is not enough in advance.

2. According to the invention, through the arrangement of the electric power anti-theft monitoring module, the electric power anti-theft monitoring module can collect information transmitted in the data comprehensive acquisition module, and simultaneously and respectively detect the electric power information in the garden A, the garden B and the garden C, so that the power supply and power utilization abnormity can be timely and effectively found, and therefore, whether the situation that the electric power is stolen exists in the garden A, the garden B or the garden C can be judged, and further, the electricity stealing behavior can be rapidly found out and processed, the situation that benefit loss is caused to the garden A, the garden B or the garden C is eliminated, and the unstable factor brought to the electricity utilization of the garden is eliminated.

Drawings

FIG. 1 is a schematic view of a work flow of an intelligent monitoring and management system for park electricity consumption according to the present invention;

fig. 2 is a schematic structural diagram of a sub-module of a master control electronic terminal in the intelligent monitoring and management system for park electricity consumption according to the present invention;

FIG. 3 is a schematic diagram of a sub-module structure of a power management module in the intelligent monitoring and management system for park power consumption according to the present invention;

FIG. 4 is a schematic view of a sub-module structure of a data comprehensive acquisition module in the intelligent monitoring and management system for park electricity consumption according to the present invention;

Fig. 5 is a schematic view of a sub-module structure of an electric power anti-theft monitoring module in the intelligent monitoring and management system for park electric power consumption according to the present invention.

Illustration of the drawings:

1. a master electronic control terminal; 2. a power management module; 21. a power calculation module; 22. a power scheme generation module; 23. a power instruction issuing module; 24. a power distribution delivery module; 25. a power supply switching module; 3. a data comprehensive acquisition module; 31. an electric energy and power monitoring module; 32. a power consumption detection module; 33. a power monitoring module; 34. a leakage detection module; 35. a voltage data acquisition module; 36. a data transmission module; 37. a power-off detection module; 4. an electric power anti-theft monitoring module; 41. a power monitoring module; 42. and a power data analysis module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a park electricity intelligent monitoring and management system comprises a total electric control terminal 1, an electric power management module 2, a data comprehensive acquisition module 3 and an electric power anti-theft monitoring module 4, wherein the output end of the total electric control terminal 1 is electrically connected with the input end of the electric power management module 2, the total electric control terminal 1 comprises a terminal power supply module A, a terminal power supply module B and a terminal power supply module C, and the terminal power supply module A, the terminal power supply module B and the terminal power supply module C can respectively supply power for a park A, a park B and a park C by arranging the terminal power supply module A, the terminal power supply module B and the terminal power supply module C, so that the park A, the park B and the park C have independent power supply systems, and if a certain partition in the park A, the park B and the park C has the condition of insufficient power supply, the terminal power supply module A, the terminal power supply module B and the terminal power supply module C can change the electric power transmission direction, the power supply is simultaneously supplied to any one of the park A, the park B and the park C, so that the condition that the power supply is insufficient and the power failure occurs in the park A, the park B and the park C is avoided;

the power management module 2 comprises a power calculation module 21, a power scheme generation module 22, a power instruction issuing module 23, a power distribution transmission module 24 and a power supply switching module 25, wherein the output end of the power calculation module 21 is electrically connected with the input end of the power scheme generation module 22, the output end of the power scheme generation module 22 is electrically connected with the input end of the power instruction issuing module 23, the output end of the power instruction issuing module 23 is electrically connected with the input ends of the power distribution transmission module 24 and the power supply switching module 25 respectively, and by arranging the power calculation module 21, the power scheme generation module 22, the power instruction issuing module 23, the power distribution transmission module 24 and the power supply switching module 25, the power calculation module 21 can count the power consumption of the garden A, the garden B and the garden C in each period and transmit data to the power scheme generation module 22, the power scheme generation module 22 can analyze the power consumption of the garden A, the garden B and the garden C in each period, distribute the power consumption amount of the garden A, the garden B and the garden C according to the power consumption, compare the power consumption amounts according to the expansion or the weakening of the power consumption amounts of the garden A, the garden B and the garden C, effectively and accurately determine the power consumption amounts of the garden A, the garden B and the garden C, send an instruction to the general electric control terminal 1 by setting the power instruction sending module 23, the power distribution transmission module 24 and the power supply switching module 25, the power instruction sending module 23 can send an instruction to the general electric control terminal 1, the general electric control terminal 1 transmits the power to the power distribution transmission module 24, the power distribution transmission module 24 periodically and stably transmits the power to the garden A, the garden B and the garden C respectively, and the power supply switching module 25 is arranged, if the power supply amounts of the garden A, the subareas in the garden B and the garden C are insufficient, the power calculation module 21 can transmit information to the power instruction issuing module 23 and transmit the information to the power supply switching module 25, and the power supply switching module 25 switches the circuits of the terminal power supply module a, the terminal power supply module B and the terminal power supply module C, so that redundant electric quantity in the terminal power supply module a, the terminal power supply module B and the terminal power supply module C can be distributed to a subarea with insufficient power supply;

The power management module 2 is respectively electrically connected with the data comprehensive acquisition module 3 in the park A, the park B and the park C in a feedback way, the data comprehensive acquisition module 3 comprises a data transmission module 36, an electric energy power monitoring module 31, a power failure detection module 37, a short-circuit point analysis module and a monitoring module A, the electric energy power monitoring module 31 comprises an electric power consumption detection module 32, a power monitoring module 33, a leakage detection module 34 and a voltage data acquisition module 35, the output ends of the electric power consumption detection module 32, the power monitoring module 33, the leakage detection module 34 and the voltage data acquisition module 35 are electrically connected with the input end of the electric energy power monitoring module 31, the output end of the electric energy power monitoring module 31 is electrically connected with the input end of the data transmission module 36, and the output end of the power failure detection module 37 is electrically connected with the input end of the electric energy power monitoring module 31, the power-off detection module 37 is electrically connected with the short-circuit point analysis module in a feedback manner, the short-circuit point analysis module is electrically connected with the monitoring module A in a feedback manner, the power consumption detection module 32, the power monitoring module 33, the leakage detection module 34 and the voltage data acquisition module 35 are arranged, the power consumption detection module 32, the power monitoring module 33, the leakage detection module 34 and the voltage data acquisition module 35 can respectively detect the power consumption, power level, leakage and voltage of the power in the park A, the park B and the park C and transmit the information to the electric energy power monitoring module 31, the power-off detection module 37 can also transmit the power-off information to the electric energy monitoring module 31, the electric energy power monitoring module 31 transmits the information to the main electric control terminal 1 through the data transmission module 36, and the staff of the main electric control terminal 1 can transmit the power-off information to the park A, the power-off point analysis module and the, The conditions in the park B and the park C are known in detail, and by arranging the short-circuit point analysis module and the monitoring module A, the short-circuit point analysis module can analyze a short-circuit line, control the information shot by the monitoring module A to fall out, and finally transmit the information to the main electric control terminal 1, so that a worker analyzes where the circuit is short-circuited and analyzes whether the circuit is naturally short-circuited or damaged;

The data comprehensive acquisition module 3 is electrically connected with the power anti-theft monitoring module 4 in a feedback way, the power anti-theft monitoring module 4 comprises a power monitoring module 41, a power data analysis module 42, a circuit interruption detection module, a power consumption amplitude expansion detection module, an amplitude line positioning module, a power metering module and a monitoring module B, the output end of the power anti-theft monitoring module 4 is electrically connected with the input end of the main electric control terminal 1, the output end of the power metering module is electrically connected with the input end of the power consumption amplitude expansion detection module, the output ends of the power consumption amplitude expansion detection module and the circuit interruption detection module are both electrically connected with the input end of the power data analysis module 42, the output end of the power consumption amplitude expansion detection module is electrically connected with the input end of the amplitude line positioning module, and by arranging the circuit interruption detection module, the power consumption amplitude expansion detection module, the power metering module and the amplitude line positioning module, the circuit power failure detection module can detect the power failure condition of the circuit, the power management module 2 transmits the detection result to the power data analysis module 42, the power data analysis module 42 transmits the information to the power monitoring module 41, and finally the power monitoring module 41 transmits the information to the main electric control terminal 1, so that the staff of the main electric control terminal 1 can observe and process the information, the monitoring module A and the monitoring module B are both provided with infrared monitoring probes, the number of the infrared monitoring probes is multiple, the infrared monitoring probes are uniformly distributed in the garden A, the garden B and the garden C, and the monitoring module A and the monitoring module B are both provided with infrared monitoring probes, so that the staff of the main electric control terminal 1 can transmit picture monitoring information according to the monitoring module A and the monitoring module B, know the condition around the circuit, analyze abnormal or normal condition and process the problem, the accident caused by electricity stealing and natural short circuit can be effectively reduced.

The working principle is as follows: when the power consumption detection module 32, the power monitoring module 33, the leakage detection module 34 and the voltage data acquisition module 35 are used, the power consumption, the power level, the leakage and the voltage of the power in the park A, the park B and the park C can be respectively detected, the information is transmitted to the electric energy and power monitoring module 31, the outage detection module 37 can also transmit the outage information to the electric energy and power monitoring module 31, the electric energy and power monitoring module 31 transmits the information to the main electric control terminal 1 through the data transmission module 36, the main electric control terminal 1 transmits the information to the power management module 2, the power calculation module 21 can count the power consumption of the park A, the park B and the park C in each period and transmit the data to the power scheme generation module 22, the power scheme generation module 22 can analyze the power consumption of the park A, the park B and the park C in each period, the electricity consumption amount of the garden A, the garden B and the garden C is distributed according to the electricity consumption amount, the electricity consumption amount of the garden A, the garden B and the garden C can be effectively and accurately determined according to comparison of the rise or the weakening of the electricity consumption amount of the garden A, the garden B and the garden C, the electricity instruction issuing module 23 can send an instruction to the main electric control terminal 1, the main electric control terminal 1 transmits the electricity to the distribution and transmission module 24, the distribution and transmission module 24 periodically and stably transmits the electricity to the garden A, the garden B and the garden C respectively, the electricity metering module can meter the normal level amount of the electricity used at ordinary times and transmit the information to the electricity rise detection module, the electricity rise detection module can detect the rise electricity amount, if the abnormal rise condition of the electricity is determined, the information can be transmitted to the rise line positioning module, and the rise line positioning module can monitor and detect the line of the rise section, the method can detect the specific range of the route where the electric power amplitude condition occurs, so that whether the condition that the electric power abnormal amplitude occurs due to electricity stealing of another line occurs can be detected, and after information is transmitted to the electric control terminal, the information is processed and solved by the staff of the electric control terminal.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a garden power consumption wisdom monitoring management system, includes total automatically controlled terminal (1), electric power management module (2), data synthesis collection module (3) and electric power theftproof monitoring module (4), its characterized in that, the output of total automatically controlled terminal (1) and the input electric connection of electric power management module (2), electric power management module (2) respectively with data synthesis collection module (3) feedback electric connection in garden A, garden B and the garden C, data synthesis collection module (3) and electric power theftproof monitoring module (4) feedback electric connection.

2. The intelligent monitoring and management system for park electricity consumption according to claim 1, wherein the master electronic control terminal (1) comprises a terminal power supply module A, a terminal power supply module B and a terminal power supply module C.

3. The intelligent monitoring and management system for park electricity consumption according to claim 1, wherein the power management module (2) comprises a power calculation module (21), a power scheme generation module (22), a power command issuing module (23), a power distribution transmission module (24) and a power supply switching module (25).

4. The intelligent campus power consumption monitoring and management system as claimed in claim 3, wherein the output of the power calculation module (21) is electrically connected to the input of the power scheme generation module (22), the output of the power scheme generation module (22) is electrically connected to the input of the power command issuing module (23), and the output of the power command issuing module (23) is electrically connected to the input of the power distribution transmission module (24) and the input of the power supply switching module (25), respectively.

5. The intelligent campus power consumption monitoring and management system according to claim 1, wherein the data collection module (3) comprises a data transmission module (36), an electric energy and power monitoring module (31), a power failure detection module (37), a short-circuit point analysis module and a monitoring module A, and the electric energy and power monitoring module (31) comprises an electric power consumption detection module (32), a power monitoring module (33), a leakage detection module (34) and a voltage data collection module (35).

6. The intelligent campus power monitoring and management system as claimed in claim 5, wherein the outputs of the power consumption detection module (32), the power monitoring module (33), the leakage detection module (34) and the voltage data acquisition module (35) are electrically connected to the input of the power monitoring module (31), the output of the power monitoring module (31) is electrically connected to the input of the data transmission module (36), the output of the power failure detection module (37) is electrically connected to the input of the power monitoring module (31), the power failure detection module (37) is electrically connected to the short-circuit point analysis module for feedback, and the short-circuit point analysis module is electrically connected to the monitoring module A for feedback.

7. The intelligent campus power consumption monitoring and management system according to claim 1, wherein the power theft monitoring module (4) comprises a power monitoring module (41), a power data analysis module (42), a circuit outage detection module, a power consumption fluctuation detection module, a fluctuation line positioning module, a power metering module and a monitoring module B, and an output end of the power theft monitoring module (4) is electrically connected with an input end of the main electric control terminal (1).

8. The intelligent campus electricity consumption monitoring and management system as claimed in claim 7, wherein the output terminal of the electricity metering module is electrically connected to the input terminal of the electricity consumption fluctuation detection module, the output terminals of the electricity consumption fluctuation detection module and the circuit interruption detection module are electrically connected to the input terminal of the electricity data analysis module (42), and the output terminal of the electricity consumption fluctuation detection module is electrically connected to the input terminal of the fluctuation line positioning module.

9. The intelligent park electricity utilization monitoring and management system according to claim 6 or 7, wherein the monitoring modules A and B are respectively provided with a plurality of infrared monitoring probes, and the plurality of infrared monitoring probes are uniformly distributed in the park A, the park B and the park C.