CN115224802A - Information communication system based on cloud server - Google Patents

Abstract

The invention provides an information communication system based on a cloud server, which comprises the cloud server, a monitoring unit and terminal equipment, wherein the monitoring unit is used for monitoring the information communication system; the monitoring unit is in communication connection with the cloud server and is used for monitoring the power equipment and the user electric energy meter; the terminal equipment is in communication connection with the cloud server and used for outputting the monitoring information of the monitoring unit; the monitoring unit comprises a first acquisition module and a second acquisition module, and the first acquisition module is used for acquiring the operation data of the power equipment; the second acquisition module is used for acquiring the electric energy meter data of the user; the controller is respectively in communication connection with the first acquisition module and the second acquisition module, and the controller is also in communication connection with the cloud server. The information communication system based on the cloud server aims to timely master customer requirements, monitor power equipment and power utilization conditions, improve the stability of a power system and promote the development of power enterprises.

Description

Information communication system based on cloud server

Technical Field

The invention belongs to the technical field of power communication, and particularly relates to an information communication system based on a cloud server.

Background

The power information communication is the basis of power grid dispatching automation, network operation marketization and management modernization; the method is an important means for ensuring the safe, stable and economic operation of the power equipment and is also an important infrastructure of the power system.

For many years, the seller market of the power enterprises with short supply and short demand forms a wind which does not attach importance to the user demand and cannot grasp the customer demand in time, so that the planning distribution and the electric quantity supply of the power equipment are inconsistent with the customer demand. In an electric power system, the instability and fluctuation of power supply easily cause the change of a power grid, the fluctuation of the use load of a user also easily causes the change of the power grid, and the change of the power grid needs to be processed in time, so that large-scale power utilization faults are avoided.

The traditional power monitoring mainly depends on the experience of personnel and traditional information communication, and has the defects that the information reaction speed is low, the information acquisition is delayed, and the fluctuation condition cannot be judged in advance depending on the manual experience, so that the countermeasure can be formulated after the fault occurs, great loss is often caused to users, and the development of power enterprises is limited.

Disclosure of Invention

The invention aims to provide an information communication system based on a cloud server, which aims to timely master customer requirements, monitor power equipment and power utilization conditions, improve the stability of a power system and promote the development of power enterprises.

In order to achieve the purpose, the invention adopts the technical scheme that: provided is an information communication system based on a cloud server, including:

a cloud server;

the monitoring unit is in communication connection with the cloud server and is used for monitoring the power equipment and the user electric energy meter;

the terminal equipment is in communication connection with the cloud server and is used for outputting the monitoring information of the monitoring unit;

the monitoring unit includes:

the first acquisition module is arranged on the power equipment and used for acquiring the operating data of the power equipment;

the second acquisition module is arranged on the electric energy meter and used for acquiring the electric energy meter data of the user; and

the controller is in communication connection with the first acquisition module and the second acquisition module respectively, and the controller is also in communication connection with the cloud server.

In one possible implementation, the first collecting module includes:

the voltage monitoring module is arranged on the power equipment and used for monitoring the voltage of the power equipment in real time; and

the first position acquisition module is arranged on the power equipment and used for acquiring the position information of the power equipment;

the voltage monitoring module and the first position acquisition module are respectively in communication connection with the controller.

In a possible implementation manner, the first collection module further comprises a temperature detection module and a humidity detection module which are arranged on the power equipment, and the temperature detection module and the humidity detection module are respectively in communication connection with the controller.

In one possible implementation, the second collecting module includes:

the electric quantity acquisition module is arranged on the electric energy meter and used for acquiring the electricity consumption of the electric energy meter;

the power consumption time period acquisition module is arranged on the electric energy meter and used for acquiring the power consumption peak time period of the user; and

the second position acquisition module is arranged on the electric energy meter and used for acquiring the position information of the electric energy meter;

the electric quantity acquisition module, the power consumption time interval acquisition module and the second position acquisition module are respectively in communication connection with the controller.

In one possible implementation, the terminal device includes:

the human-computer interaction module is in communication connection with the cloud server, and is used for receiving the information sent by the cloud server and sending an instruction to the cloud server; and

and the display module is electrically connected with the human-computer interaction module and is used for displaying the information received by the human-computer interaction module to the outside.

In a possible implementation manner, the information communication system based on the cloud server further includes a power equipment planning unit in communication connection with the cloud server, the power equipment planning unit includes an image acquisition module, a wind power detection module and a third position acquisition module, the image acquisition module is used for acquiring images of terrain and surrounding buildings, and the wind power detection module is used for detecting wind power and wind direction.

In a possible implementation manner, the power equipment planning unit further includes a temperature detection module, and the temperature detection module is used for detecting and monitoring the temperature of the collection place.

In a possible implementation manner, the monitoring unit further includes an evaluation module in communication connection with the controller, and the evaluation module is configured to comprehensively evaluate the voltage frequency modulation capability of the power equipment acquired by the first acquisition module and the load fluctuation adjustment capability of the power supply load.

In a possible implementation manner, the power equipment planning unit further includes an analysis module in communication connection with the cloud server, where the analysis module is configured to analyze information acquired by the image acquisition module and the wind power detection module, and replan the distribution of the existing power equipment according to the third location acquisition module.

In a possible implementation manner, the information communication system based on the cloud server further includes a maintenance terminal in communication connection with the first acquisition module, where the maintenance terminal is configured to acquire information acquired by the first acquisition module, compare the information acquired by the first acquisition module with current data information and a preset threshold value to determine whether the information is normal, and predict that the power equipment can continue to operate normally.

The cloud server-based information communication system provided by the invention has the beneficial effects that: compared with the prior art, the information communication system based on the cloud server respectively monitors the data of the power equipment and the data of the user electric energy meter, the cloud server is transmitted to the terminal equipment after the collected data are analyzed and sorted through the controller, and the staff acquire the power equipment and the data information used for the electric energy meter through the data information output by the terminal equipment. When the operation of the power equipment fluctuates, the working personnel can prejudge the fault information according to the fluctuation amplitude, so that the countermeasure is adopted in advance, and the fault loss is reduced. Through the monitoring of the information of the electric energy meter, the power utilization information of the user can be acquired, and therefore the corresponding planning of the power grid and the power equipment is adopted according to the power utilization information so as to meet the requirements of the user. The invention can carry out corresponding power equipment and power grid planning according to the power utilization information of the user, promote the development of power enterprises, and can also predict the occurrence of faults in advance according to the monitoring of the power equipment, thereby improving the running stability of a power system.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flowchart of an information communication system based on a cloud server according to an embodiment of the present invention.

In the figure:

1. a first acquisition module;

2. a second acquisition module;

3. a controller;

4. a cloud server;

5. and (4) terminal equipment.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, 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.

Referring to fig. 1, a description will now be given of a cloud server-based information communication system according to the present invention. The information communication system based on the cloud server comprises a cloud server 4, a monitoring unit and terminal equipment 5;

the monitoring unit is in communication connection with the cloud server 4 and is used for monitoring the power equipment and the user electric energy meter;

the terminal device 5 is in communication connection with the cloud server 4 and is used for outputting monitoring information of the monitoring unit;

the monitoring unit includes:

the first acquisition module 1 is arranged on the power equipment and used for acquiring the operation data of the power equipment;

the second acquisition module 2 is arranged on the electric energy meter and used for acquiring the electric energy meter data of the user; and

the controller 3 is respectively connected with the first acquisition module 1 and the second acquisition module 2 in a communication manner, and the controller 3 is also connected with the cloud server 4 in a communication manner.

Compared with the prior art, the information communication system based on the cloud server provided by the invention respectively monitors the data of the power equipment and the user electric energy meter, the collected data are analyzed and sorted through the controller 3, the cloud server 4 is transmitted to the terminal equipment 5, and the data information output by the terminal equipment 5 is used by a worker to acquire the data information of the power equipment and the electric energy meter. When the operation of the power equipment fluctuates, the working personnel can prejudge the fault information according to the fluctuation amplitude, so that the countermeasure is adopted in advance, and the fault loss is reduced. Through the monitoring of the information of the electric energy meter, the power utilization information of the user can be obtained, and therefore the corresponding planning of the power grid and the power equipment is adopted according to the power utilization information, and the requirements of the user are met. The invention can carry out corresponding power equipment and power grid planning according to the power utilization information of the user, promote the development of power enterprises, and can also predict the occurrence of faults in advance according to the monitoring of the power equipment, thereby improving the running stability of a power system.

Alternatively, the electrical equipment may be a transformer or a power supply, or may be a power grid.

Optionally, the terminal device 5 may be a computer, a mobile phone, or a tablet computer, and the information collected by the first collection module 2 may include various parameters of the power device, such as current, voltage, power, and environmental information data.

In some embodiments, the first collecting module 1 includes a voltage monitoring module and a first position collecting module, and the voltage monitoring module is disposed on the power equipment and is used for monitoring the voltage of the power equipment in real time; the first position acquisition module is arranged on the power equipment and used for acquiring the position information of the power equipment;

the voltage monitoring module and the first position acquisition module are respectively in communication connection with the controller 3.

In this embodiment, the voltage monitoring module monitors the voltage condition of the power equipment in real time, the voltage monitoring module and the first position acquisition module respectively send acquired information to the controller 3 for processing, and then the controller 3 sends corresponding data information to the terminal equipment 5 through the cloud server 4. Can make the staff in time learn when voltage fluctuates, the staff can acquire this power equipment's positional information according to first position acquisition module simultaneously to carry out corresponding measure, avoid taking place the power consumption trouble, ensure user's power consumption safety.

In some embodiments, the first collection module 1 further includes a temperature detection module and a humidity detection module, which are disposed on the power equipment, and the temperature detection module and the humidity detection module are respectively in communication connection with the controller 3.

In this embodiment, the first collection module 1 may further detect the temperature and humidity of the power device through the temperature detection module and the humidity detection module, respectively, and feed detected information back to the controller 3 through the feedback, and the controller 3 processes the information and then transmits the processed information to the terminal device 5 through the cloud server 4. The staff can predetermine its operational aspect according to power equipment's temperature and humidity, if power equipment's temperature or humidity are in and close to the threshold value, can plan in advance, avoid appearing power equipment's operational failure.

Optionally, the temperature detection module is a temperature sensor.

Optionally, the humidity detection module is a humidity sensor.

Optionally, the controller 3 has functions of analyzing and storing data, performs cluster analysis on the received power parameters and the stored power parameters, determines parameters similar to the received power parameters in the stored power parameters through a clustering algorithm, and transmits the parameters similar to the received power parameters to the cloud server according to the parameters similar to the received power parameters.

In some embodiments, the second collection module 2 includes an electricity quantity collection module, an electricity consumption time period collection module and a second position collection module, and the electricity quantity collection module is disposed in the electric energy meter and is used for collecting electricity consumption of the electric energy meter; the electricity consumption time period acquisition module is arranged on the electric energy meter and used for acquiring the electricity consumption peak time period of the user; the second position acquisition module is arranged on the electric energy meter and used for acquiring the position information of the electric energy meter;

the electric quantity acquisition module, the power consumption time interval acquisition module and the second position acquisition module are respectively in communication connection with the controller 3.

The power consumption collection module gathers user's power consumption, power consumption period collection module can gather user's power consumption time quantum, controller 3 carries out the analysis back to user's power consumption information and power consumption period, acquire user's power consumption peak period and power consumption valley period, and give terminal equipment 5 with information transfer through cloud server 4 respectively, the staff can be according to the time quantum adjustment power transmission volume of difference, and can be pointed appointed marketing scheme, for example, different charge standards can be adopted to different time quantums, thereby balanced power consumption, promote the development of electric power enterprise.

Specifically, the second position acquisition module may be a GIS geographic position system, and the GIS is a technical system that acquires, stores, manages, calculates, analyzes, displays, and describes geographic distribution data in the whole or a part of space under the support of a computer hardware and software system.

In some embodiments, the terminal device 5 includes a human-computer interaction module and a display module, and the human-computer interaction module is in communication connection with the cloud server 4, and is configured to receive information sent by the cloud server 4 and can send an instruction to the cloud server 4; the display module is electrically connected with the man-machine interaction module and is used for displaying the information received by the man-machine interaction module to the outside.

After the human-computer interaction module acquires the data information sent by the cloud server 4, the data information is output and displayed through the display module, so that a worker can acquire the information acquired by the monitoring unit in time. In addition, the staff can also input information through the human-computer interaction module, for example, the original data collected by the monitoring unit is used as reference and is compared with the current data to judge whether the power equipment can normally operate and whether the power supply amount needs to be adjusted, a corresponding scheme formulated by the staff can also be input through the human-computer interaction module, and the corresponding scheme is directly applied when the power equipment fails or fails in advance.

Specifically, the terminal device 5 has a storage module, and stores the information acquired by the human-computer interaction module and the input information, so that data comparison and corresponding measures can be conveniently performed subsequently.

Optionally, the display module includes a display screen, and the human-computer interaction module includes a computer host portion and an input portion.

In some embodiments, the cloud server-based information communication system further includes a power equipment planning unit in communication connection with the cloud server 4, where the power equipment planning unit includes an image acquisition module, a wind power detection module and a third position acquisition module, the image acquisition module is used to acquire images of the terrain and surrounding buildings, and the wind power detection module is used to detect the wind power and the wind direction.

The image acquisition module acquires images of the terrain, the terrain and surrounding buildings and feeds the images back to the cloud server 4; the wind power detection module detects the wind power and the wind direction and feeds the detection result back to the cloud server 4 in real time; the third position information acquisition module acquires the position information of the existing power grid network frame and feeds the position information back to the cloud server 4, the cloud server 4 transmits the information fed back by the image acquisition module, the wind power detection module and the third position information acquisition module to the power equipment planning unit, and the power equipment planning unit reasonably plans a corresponding power equipment planning scheme according to the information. The power equipment planning unit detects the external environment in real time through the environment detection unit, collects the environment and the position of the existing power equipment, and arranges a reasonable planning scheme through comprehensive and effective original data, so that the distribution of the power equipment has higher practicability and effectiveness.

Optionally, the third position acquisition module is based on a GIS acquisition system.

Optionally, the image capturing module comprises a camera and a memory.

It should be noted that the wind direction portion of the wind power detection module is supported by a retainer for protecting the wind cup. The magnetic compass consists of a wind vane, a wind direction shaft, a wind direction scale and the like, and a magnetic rod arranged on the wind direction scale and the wind direction scale form a magnetic compass for determining wind direction positioning. When the tray nut under the wind direction dial shell is rotated, the tray lifts or drops the wind direction dial, so that the prototype bearing is separated from or contacted with the shaft tip. The wind direction indication value is determined by the stable position of the wind direction pointer on the wind direction dial. In order to reduce the starting wind speed, a light wind cup made of plastics is adopted, a conical bearing is used for supporting, a toothed blade is fixed on a shaft of the rotating frame, when the rotating frame rotates along with the wind, the shaft drives the blade to rotate, and the toothed blade continuously cuts a light beam in an optical path of the photoelectric switch, so that the wind speed is linearly converted into the output pulse frequency of the photoelectric switch. The single chip microcomputer in the instrument samples and calculates the output frequency of the wind sensor. And finally, outputting the instantaneous wind speed, the one-minute average wind speed, the instantaneous wind level, the one-minute average wind level and the wave height corresponding to the average wind level and the wind level by the instrument. The measured parameters are displayed directly by numbers on the liquid crystal display of the instrument. In order to reduce the power consumption of the instrument, a sensor and a singlechip in the instrument adopt special measures for reducing the power consumption. In order to ensure the reliability of data, the instrument is also provided with a power supply voltage detection circuit. When the power supply voltage is lower than about 3.3V, the instrument display displays 'under-voltage' to prompt a user that the data is unreliable and the battery is replaced in time when the power supply voltage is too low. The instrument is also provided with a power supply control circuit which replaces a mechanical switch to control the on-off of the instrument.

In some embodiments, the power equipment planning unit further includes a temperature detection module, and the temperature detection module is used for detecting and monitoring the temperature of the collection place.

The temperature detection module detects the external environment temperature of the power equipment, and feeds the detection result back to the cloud server 4, and after the terminal equipment 5 acquires the external environment temperature of the power equipment through the cloud server 4, the parameters of the power equipment can be adjusted, and the number of the power equipment can be correspondingly increased, so that the normal operation of the power equipment can be ensured.

It should be noted that the temperature and humidity in the environment have certain influence on the power consumption, for example, when the temperature is higher, the power equipment is required to be cooled, and the power consumption is increased, so that the power equipment needs to be reasonably erected according to the temperature and humidity of the environment, which avoids waste caused by intensive laying of the power equipment and electric energy shortage caused by insufficient influence of the power equipment.

In some embodiments, the power equipment planning unit further includes an analysis module communicatively connected to the cloud server 4, where the analysis module is configured to analyze information collected by the image collection module and the wind detection module, and replan the distribution of the existing power equipment according to the third location collection module.

The information collected by the image collection module and the wind detection module is used as original data for formulating a planning scheme of the electric power equipment. The analysis module carries out analysis processing on the environmental information of the existing power equipment and then plans again to ensure that the power equipment can normally operate and ensure the normal power utilization of users.

In some embodiments, the monitoring unit further includes an evaluation module communicatively connected to the controller 3, and the evaluation module is configured to comprehensively evaluate the voltage frequency modulation capability of the power equipment acquired by the first acquisition module 1 and the load fluctuation adjustment capability of the power supply load.

The evaluation module comprehensively evaluates and compares each planning scheme formulated by the analysis module, and comprehensively evaluates the whole planning scheme based on power grid simulation calculation from multiple aspects such as voltage frequency modulation capability, load fluctuation regulation capability, power supply capability, operation range, operation mode and operation capability, economy and the like to select an optimal scheme.

The main functional points of the scheme selection are as follows:

(1) Simulation calculation

And providing topological data of the power equipment, calling an auxiliary planning tool for calculation according to a unit system, and integrally calling and displaying.

(2) Investment estimation

Setting and maintaining unit price of equipment and calculating total investment.

(3) Album generation

Text marking, graphical marking, print setting preview, graphical export.

(4) Planning text generation

And automatic export of the words and tables of the planning result is provided.

(5) Intelligent solution recommendation

And establishing an index system structure in the aspects of power equipment structure, equipment level, power supply capacity, intellectualization, green development and the like, comprehensively evaluating the advantages and disadvantages of each scheme, and intelligently recommending the optimal scheme.

In some embodiments, the information communication system based on the cloud server further includes a maintenance terminal in communication connection with the first acquisition module 1, and the maintenance terminal is configured to acquire information acquired by the first acquisition module 1, compare whether the information acquired by the first acquisition module 1 is normal with current data information and a preset threshold, and prejudge that the power equipment can continue to operate normally.

The maintenance terminal can compare with the data information of the current period according to the information of first collection module 1 feedback, judges whether power equipment's operating data is in the danger value, if power equipment's data information reaches the within range of preset danger value, can predetermine that power equipment is about to break down to adopt the top to measure, maintain in advance, avoid taking place large-scale electric power accident. In addition, the scheme in the embodiment does not depend on manual prejudgment any more, the dependence on workers is reduced, and the occurrence of prejudgment errors is reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An information communication system based on a cloud server, comprising:

a cloud server;

the monitoring unit is in communication connection with the cloud server and is used for monitoring the power equipment and the user electric energy meter;

the terminal equipment is in communication connection with the cloud server and used for outputting the monitoring information of the monitoring unit;

the monitoring unit includes:

the first acquisition module is arranged on the power equipment and used for acquiring the operation data of the power equipment;

the second acquisition module is arranged on the electric energy meter and used for acquiring the electric energy meter data of the user; and

and the controller is in communication connection with the first acquisition module and the second acquisition module respectively, and is also in communication connection with the cloud server.

2. The cloud server-based information communication system according to claim 1, wherein the first collection module includes:

the voltage monitoring module is arranged on the power equipment and used for monitoring the voltage of the power equipment in real time; and

the first position acquisition module is arranged on the power equipment and used for acquiring the position information of the power equipment;

the voltage monitoring module and the first position acquisition module are respectively in communication connection with the controller.

3. The information communication system based on the cloud server of claim 2, wherein the first collection module further comprises a temperature detection module and a humidity detection module which are arranged on the power equipment, and the temperature detection module and the humidity detection module are respectively in communication connection with the controller.

4. The cloud server-based information communication system of claim 1, wherein the second acquisition module comprises:

the electric quantity acquisition module is arranged on the electric energy meter and used for acquiring the electricity consumption of the electric energy meter;

the power consumption time period acquisition module is arranged on the electric energy meter and used for acquiring the power consumption peak time period of the user; and

the second position acquisition module is arranged on the electric energy meter and used for acquiring the position information of the electric energy meter;

the electric quantity acquisition module, the power consumption time interval acquisition module and the second position acquisition module are respectively in communication connection with the controller.

5. The cloud server-based information communication system according to claim 1, wherein the terminal device includes:

the human-computer interaction module is in communication connection with the cloud server, and is used for receiving the information sent by the cloud server and sending an instruction to the cloud server; and

and the display module is electrically connected with the human-computer interaction module and is used for displaying the information received by the human-computer interaction module to the outside.

6. The cloud server-based information communication system according to claim 1, further comprising a power equipment planning unit communicatively connected to the cloud server, wherein the power equipment planning unit includes an image acquisition module, a wind power detection module and a third position acquisition module, the image acquisition module is configured to acquire images of terrain and surrounding buildings, and the wind power detection module is configured to detect wind power and wind direction.

7. The cloud server-based information communication system according to claim 6, wherein the power equipment planning unit further comprises a temperature detection module, and the temperature detection module is configured to detect and monitor a temperature of a collection place.

8. The cloud server-based information communication system of claim 6, wherein the monitoring unit further comprises an evaluation module communicatively connected to the controller, and the evaluation module is configured to comprehensively evaluate the voltage frequency modulation capability of the power equipment and the load fluctuation adjustment capability of the power supply load acquired by the first acquisition module.

9. The cloud server-based information communication system of claim 8, wherein the power equipment planning unit further comprises an analysis module communicatively connected to the cloud server, the analysis module is configured to analyze the information collected by the image collection module and the wind detection module, and to re-plan the distribution of the existing power equipment according to the third location collection module.

10. The information communication system based on the cloud server of claim 1, further comprising a maintenance terminal in communication connection with the first collection module, wherein the maintenance terminal is configured to obtain information collected by the first collection module, compare the information collected by the first collection module with current data information and a preset threshold value to determine whether the information is normal, and predict that the power equipment can continue to operate normally.

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