CN112578680A - Electrical equipment monitoring and management system, method and readable storage medium - Google Patents

Abstract

The application relates to an electrical equipment monitoring and management system, a method and a readable storage medium. The system comprises: the system has the advantages that the state information and the energy consumption information of the electrical equipment are obtained through the electrical control equipment, the state information and the energy consumption information are transmitted to the server, and the server sends a control instruction to the electrical control equipment according to the received state information and energy consumption information, so that the electrical control equipment controls and manages the state of the electrical equipment according to the control instruction.

Description

Electrical equipment monitoring and management system, method and readable storage medium

Technical Field

The present disclosure relates to the field of intelligent control and management of electrical devices, and in particular, to a monitoring and management system and method for electrical devices and a readable storage medium.

Background

The electrical equipment is arranged in various buildings, such as office buildings, factory buildings, restaurants, hospitals, supermarkets and the like, and provides a light source for closed indoor or dark spaces. In the management of electrical equipment, management personnel usually need to monitor and manage the lighting time, lighting energy consumption and equipment fault state of the electrical equipment.

In the traditional technology, a manager controls the lighting time of electrical equipment through a field physical switch in a building to realize lighting energy consumption monitoring, and when lighting faults are found on the field, the lighting faults are registered and maintained. However, the traditional method for monitoring and managing the electrical equipment results in low control and management efficiency.

Disclosure of Invention

In view of the above, it is necessary to provide an electrical device monitoring and management system, a method and a readable storage medium capable of improving the efficiency of electrical device control and management.

An electrical equipment monitoring and management system, the system comprising: the system comprises an electrical control device and a server, wherein the electrical control device is connected with the server;

the electrical control equipment is used for acquiring state information and energy consumption information of the electrical equipment and transmitting the state information and the energy consumption information to the server; and the server is used for issuing a control instruction to the electrical control equipment according to the received state information and the received energy consumption information so that the electrical control equipment controls the state of the electrical equipment according to the control instruction.

In one embodiment, the electrical device monitoring and management system further includes: the input end of the gateway equipment is connected with the output end of the electrical control equipment, and the output end of the gateway equipment is connected with the input end of the server;

the gateway equipment is used for converting the state information and the energy consumption information into http network signals and sending the http network signals to the server; and the server is also used for issuing a control instruction to the electrical control equipment according to the received http network signal.

In one embodiment, the server is further configured to display the received http network signal, analyze the http network signal, and obtain a current operating state of the electrical device.

In one embodiment, the electrical control apparatus comprises: the system comprises a processor, a lighting control switch and a communication component;

the processor is used for analyzing the state information to obtain an electrical equipment visualization model, and analyzing the control instruction to send the control instruction to the corresponding lighting control switch; the lighting control switch is used for controlling the state of the electrical equipment according to the received control instruction; and the communication component is used for transmitting the state information, the energy consumption information and the control instruction.

In one embodiment, the lighting control switch comprises: the electric quantity meter and the control state loop; the electric quantity meter is used for monitoring the energy consumption information of the electrical equipment, and the control state loop is used for monitoring the state information of the electrical equipment and controlling the state of the electrical equipment.

In one embodiment, the server comprises a display screen; the display screen is used for displaying the visual model of the electrical equipment acquired by the processor.

An electrical equipment monitoring and management method, the method comprising:

acquiring state information and energy consumption information of the electrical equipment;

controlling the state of the electrical equipment according to the state information;

analyzing the energy consumption information of the electrical equipment to obtain the current operation state information of the electrical equipment;

managing the state information of the electrical equipment, the energy consumption information and the current operation state information.

In one embodiment, the controlling the state of the electrical device according to the state information includes:

determining a control instruction of the electrical equipment through the state information;

and controlling the state of the electrical equipment through the control command.

In one embodiment, the analyzing the energy consumption information of the electrical device to obtain the current operation state information of the electrical device includes:

acquiring a daily energy consumption value of the electrical equipment from the energy consumption information;

analyzing the daily energy consumption value of the electrical equipment to obtain an average energy consumption value;

and acquiring the current running state information of the electrical equipment according to the average energy consumption value.

In one embodiment, the analyzing the daily energy consumption value of the electrical device to obtain an average energy consumption value includes: and calculating the average value of the daily energy consumption values to obtain the average energy consumption value.

In one embodiment, the obtaining the current operating state information of the electrical device through the average energy consumption value includes:

judging whether the average energy consumption value is larger than an average energy consumption threshold value or not;

if so, judging that the electrical equipment is in an abnormal state currently;

if not, judging that the electrical equipment is in a normal state currently.

A readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:

acquiring state information and energy consumption information of the electrical equipment;

controlling the state of the electrical equipment according to the state information;

analyzing the energy consumption information of the electrical equipment to obtain the current operation state information of the electrical equipment;

managing the state information of the electrical equipment, the energy consumption information and the current operation state information.

According to the electrical equipment monitoring and management system, the electrical control equipment acquires the state information and the energy consumption information of the electrical equipment, the state information and the energy consumption information are transmitted to the server, and the server sends the control instruction to the electrical control equipment according to the received state information and energy consumption information, so that the electrical control equipment controls and manages the state of the electrical equipment according to the control instruction.

Drawings

Fig. 1 is a schematic overall structure diagram of an electrical equipment monitoring and management system in one embodiment;

FIG. 2 is a schematic diagram of a specific structure of the monitoring and management system of an electrical device according to an embodiment;

FIG. 3 is a diagram showing a layout of an electrical equipment monitoring and management system according to another embodiment;

FIG. 4 is a schematic flow chart of a monitoring and management method for electrical equipment according to another embodiment;

FIG. 5 is a flow chart of a method for controlling the state of an electrical device in accordance with another embodiment;

fig. 6 is a flowchart of a method for acquiring current operating status information of an electrical device according to another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further 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 present application and are not intended to limit the present application.

Fig. 1 is a schematic structural diagram of an electrical device monitoring and management system according to an embodiment. The electrical equipment monitoring and management system comprises: an electrical control device 11 and a server 12, the electrical control device 11 being connected to the server 12;

the electrical control device 11 is configured to acquire state information and energy consumption information of an electrical device, and transmit the state information and the energy consumption information to the server 12; the server 12 is configured to issue a control instruction to the electrical control device 11 according to the received state information and the received energy consumption information, so that the electrical control device 11 controls the state of the electrical device according to the control instruction.

Specifically, the electrical control device 11 in the electrical device monitoring and management system may monitor states and energy consumptions of all electrical devices in a plurality of building areas, and acquire state information and energy consumption information of each electrical device in each area; the state information may be operation state information and effect state information of the electrical device, the operation state information may include on state information and off state information of the electrical device, and the effect state may include a speed state, a light state, and the like of the electrical device. Alternatively, the electrical device may be a cable, a power distribution cabinet, a motor, a switch socket, a lamp, an air conditioner, an electric water heater, an electric meter, a camera, a telephone, a computer, or the like, but in this embodiment, the electrical device is taken as an example of a lighting device. Alternatively, the energy consumption information of the electrical device may be an accumulated energy consumption value of the electrical device over a period of time.

It should be noted that the server 12 in the electrical device monitoring and management system may receive the state information and the energy consumption information of the electrical device sent by the electrical control device 11, and issue a control instruction to the electrical control device 11 according to the state information and the energy consumption information of the electrical device, where the electrical control device 11 controls the state of each electrical device through the control instruction; the status may represent an operational status and an effect status of the electrical device. Meanwhile, the server 12 may manage the state of the electrical device in real time according to the received state information and energy consumption information. Optionally, the server 12 and the electrical control apparatus 11 may be connected in a communication manner, and the communication manner may be connected in a bluetooth manner, a wifi manner, a data manner, and the like. Usually, there is server 12 in the central control room, and the server can be installed with the electrical equipment monitoring management website, and then the user can log in the electrical equipment monitoring management website, and realize remote control and remote management through the electrical equipment monitoring management website.

According to the electrical equipment monitoring and management system, the state information and the energy consumption information of the electrical equipment are obtained through the electrical control equipment and are transmitted to the server, the server sends the control instruction to the electrical control equipment according to the received state information and energy consumption information, so that the electrical control equipment controls and manages the state of the electrical equipment according to the control instruction, the system avoids the problem that a user can control the electrical equipment on site, the state of the electrical equipment can be remotely controlled and managed, the control and management efficiency of the electrical control equipment is improved, and the control and management cost of the electrical control equipment is reduced.

As one embodiment, as shown in fig. 2, the electrical device monitoring and managing system further includes: a gateway device 13; the gateway device 13 is configured to convert the state information and the energy consumption information into an http network signal, and send the http network signal to the server 12; the server 12 is further configured to issue a control instruction to the electrical control device 11 according to the received http network signal.

Specifically, the electrical device monitoring and management system further includes a gateway device 13, an output end of the electrical control device 11 is connected to an input end of the gateway device 13, and an output end of the gateway device 13 is connected to an input end of the server 12. Optionally, the gateway device 13 may receive the state information and the energy consumption information of the electrical device sent by the electrical control device 11, convert the state information and the energy consumption information into an http network signal through a form of interface data, and then send the http network signal to the server 12. Optionally, the type of the interface may be RS232, RS485, RS422, or the like, but in this embodiment, the type of the interface may be RS 485. Alternatively, the server 12 may determine the current state of the electrical control apparatus 11 according to the received http network signal, then determine a control instruction according to the current state, and send the control instruction to the electrical control apparatus 11, so that the electrical control apparatus 11 controls the state of the electrical apparatus. In this embodiment, the gateway device 13 may both transmit and convert signals.

The server 12 is further configured to display the received http network signal, analyze the http network signal, and obtain a current operating state of the electrical device.

It should be noted that, after receiving the http network signal, the server 12 may display the http network signal, so that the user can visually see the current state and the total energy consumption condition of the electrical device in real time, so as to implement remote management and remote control; meanwhile, the http network signal can be analyzed to obtain the current running state of the electrical equipment. Optionally, the operating state may be an abnormal state and a normal state, the abnormal state may indicate that the current electrical device fails, and the normal state may indicate that the current electrical device can operate normally without failure. Optionally, for the electrical devices in one building area, the electrical control device 11 may monitor the daily energy consumption value of the electrical devices, and calculate to obtain an average energy consumption value per hour, and it may be determined that the electrical devices are in an abnormal state if the average energy consumption value per hour is too high or too low.

As shown in fig. 3, in a deployment diagram of the electrical equipment monitoring and management system, a server 12 is provided in a central control room, the server 12 is connected to a gateway device 13 through a router, and the gateway device 13 is connected to an electrical control device 11.

The electrical equipment monitoring and management system avoids the problem that a user can control the electrical equipment on site, and can realize remote control and management of the state of the electrical equipment, so that the management efficiency of the electrical control equipment is improved, and the management cost of the electrical control equipment is reduced.

As one example, the electrical control apparatus 11 in the electrical apparatus monitoring management system includes: a processor, a lighting control switch, and a communication assembly.

The processor is used for analyzing the state information to obtain an electrical equipment visualization model, and analyzing the control instruction to send the control instruction to the corresponding lighting control switch; the lighting control switch is used for controlling the state of the electrical equipment according to the received control instruction; and the communication component is used for transmitting the state information, the energy consumption information and the control instruction.

Specifically, the processor in the electrical control device 11 may analyze the received state information of the electrical devices, analyze the on-off state and the effect state of each electrical device, and then obtain a 3D visualization model of the electrical devices according to the analysis result. Taking electrical equipment as an illuminating lamp as an example, the effect state can be the display color of the light and the brightness degree of the light. Optionally, the processor may further analyze the received control instruction to determine to send the control instruction to the corresponding lighting control switch.

It should be noted that the electrical control device 11 may include a plurality of lighting control switches, and in this embodiment, the number of the lighting control switches may be less than or equal to 24, that is, the electrical control device 11 may control electrical devices in 24 building areas at maximum. Alternatively, one lighting control switch may control all electrical devices within one building area. Alternatively, the lighting control switch may control the state of the electrical device according to the received control instruction.

It is understood that the communication component in the electrical control device 11 may transmit the status information and the energy consumption information of the electrical device, and may also receive the control command transmitted by the server 12, and of course, may also perform other information transmission or data transmission.

Wherein the lighting control switch comprises: the electric quantity meter and the control state loop; the electric quantity meter is used for monitoring the energy consumption information of the electrical equipment, and the control state loop is used for monitoring the state information of the electrical equipment and controlling the state of the electrical equipment.

It will also be appreciated that the lighting control switch may include a fuel gauge and a control status loop. Optionally, the electricity meter may monitor energy consumption information of the electrical device, that is, cumulatively monitor a total energy consumption value of the electrical device. Optionally, the control state loop may monitor state information of the electrical device, and control a state of the electrical device according to the received control instruction.

In addition, the server 12 includes a display screen; the display screen is used for displaying the visual model of the electrical equipment acquired by the processor.

In this embodiment, the server 12 may include a display screen, and the display screen may display the 3D visualization model of the electrical device acquired by the processor, and the server 12 may load the material of the electrical device in the 3D visualization model to form a real 3D visualization model.

Fig. 4 is a schematic flowchart of a monitoring and management method for electrical equipment according to another embodiment. In the following embodiments, an execution subject is described as an example of a server in an electrical device monitoring and management system. The electrical equipment monitoring and management method can be realized by the following steps:

and S1000, acquiring the state information and the energy consumption information of the electrical equipment.

Specifically, a server in the electrical device monitoring and management system may obtain the state information and the energy consumption information of the electrical device monitored by the electrical control device. Optionally, the state information may be operation state information and effect state information of the electrical device, the operation state information may include on state information and off state information of the electrical device, and the effect state may include a speed state and a light state of the electrical device. Alternatively, the energy consumption information may be an accumulated energy consumption value of the electrical device over a period of time.

And S2000, controlling the state of the electrical equipment according to the state information.

Specifically, the server may analyze the state information of the electrical device to control the state of the electrical device according to the analysis result. Alternatively, the state may be an open/close state of the electrical device, or may be an effective state of the electrical device.

S3000, analyzing the energy consumption information of the electrical equipment, and acquiring the current operation state information of the electrical equipment.

Specifically, the server may analyze the energy consumption information of the electrical device to obtain the current operation state information of the electrical device. Optionally, the operating state information may be abnormal state information and normal state information, the abnormal state information may represent that the current electrical device fails, and the normal state information may represent that the current electrical device can operate normally without failure. Alternatively, the analysis process may be understood as a calculation process of the information, and may also be understood as a feature analysis process of the information.

And S4000, managing the state information of the electrical equipment, the energy consumption information and the current operation state information.

Specifically, the server may display the 3D visualization model of the electrical device acquired by the processor, that is, display the state information of the electrical device, and simultaneously display the energy consumption information and the current operation state information of the electrical device, and at this time, the server may be characterized to perform remote management on the state information, the energy consumption information, and the current operation state information of the electrical device. Alternatively, the display state of the electrical device in the 3D visualization model may represent state information of the electrical device.

According to the method for monitoring and managing the electrical equipment, the state information and the energy consumption information of the electrical equipment are obtained, the state of the electrical equipment is controlled according to the state information, the energy consumption information of the electrical equipment is analyzed, the current operation state information of the electrical equipment is obtained, and the state information, the energy consumption information and the current operation state information of the electrical equipment are managed.

As an example, as shown in fig. 5, the step of controlling the state of the electrical device according to the state information in S2000 may be implemented by:

and S2100, determining a control command of the electrical equipment through the state information.

Specifically, the server may determine the control instruction of the electrical device through the received status information of the electrical device. Alternatively, the control instruction may instruct the electrical control apparatus to control the open/close state of the electrical apparatus. Optionally, the user determines whether the electrical device needs to be turned on or off according to the current state information of the electrical device, so that the control instruction of the electrical device is determined through the server. Optionally, the control instruction may include an apparatus opening instruction, an apparatus closing instruction, and an apparatus effect adjusting instruction; the device opening instruction can instruct the electrical control device to trigger the electrical device and open the electrical device; the equipment closing instruction can instruct the electrical control equipment to trigger the electrical equipment and close the electrical equipment; the device effect adjustment instruction can instruct the electrical control device to trigger the electrical device and adjust the operation effect of the electrical device.

And S2200, controlling the state of the electrical equipment through the control command.

Specifically, the server may transmit the determined control instruction to the electrical control apparatus, and then the electrical control apparatus controls the state of the electrical apparatus according to the control instruction.

The electrical equipment monitoring and management method can be used for remotely controlling the electrical equipment, and the problem that a user can control the electrical equipment on site is avoided, so that the control speed of the electrical control equipment is increased, and the control cost of the electrical control equipment is reduced.

As an embodiment, as shown in fig. 6, the step of analyzing the energy consumption information of the electrical device and acquiring the current operation state information of the electrical device in S3000 may be implemented by the following steps:

s3100, acquiring a daily energy consumption value of the electrical equipment from the energy consumption information.

In this embodiment, the server may obtain a daily energy consumption value of the electrical device, where the daily energy consumption value may be an accumulated energy consumption value of the electrical device within 24 hours a day.

S3200, analyzing the daily energy consumption value of the electrical equipment to obtain an average energy consumption value.

Specifically, the server may analyze the daily energy consumption value of the electrical device to obtain an average energy consumption value. In this embodiment, the analysis process may be a process of performing calculation processing on the daily energy consumption value.

In S3200, the step of analyzing the daily energy consumption value of the electrical device to obtain an average energy consumption value may specifically include: and calculating the average value of the daily energy consumption values to obtain the average energy consumption value.

It should be noted that the server may calculate an average energy consumption value corresponding to each hour in a day. Optionally, the server divides the daily energy consumption value by 24 to obtain an average energy consumption value corresponding to each hour in a day.

And S3300, acquiring current operation state information of the electrical equipment according to the average energy consumption value.

Specifically, the server may determine the current operating state information of the electrical device by comparing the average energy consumption value with the average energy consumption threshold. Optionally, if the average energy consumption value is greater than the average energy consumption threshold, it may be determined that the electrical device is currently in an abnormal state; and if the average energy consumption value is less than or equal to the average energy consumption threshold value, judging that the electrical equipment is in a normal state currently. Or if the average energy consumption value is larger than the average energy consumption threshold value, the electrical equipment can be judged to be in a normal state currently; if the average energy consumption value is less than or equal to the average energy consumption threshold value, the electrical equipment can be judged to be in an abnormal state currently.

In S3300, the step of obtaining the current operation state information of the electrical device according to the average energy consumption value may specifically include: judging whether the average energy consumption value is larger than an average energy consumption threshold value or not; if so, judging that the electrical equipment is in an abnormal state currently; if not, judging that the electrical equipment is in a normal state currently.

In this embodiment, the server may determine whether the average energy consumption value is greater than the average energy consumption threshold, determine that the electrical device is in the abnormal state if the average energy consumption value is greater than the average energy consumption threshold, and determine that the electrical device is in the normal state if the average energy consumption value is not greater than the average energy consumption threshold.

The electrical equipment monitoring and managing method can remotely manage the running state of the electrical equipment, and avoids the situation that a user can monitor the running state of the electrical equipment on site, so that the management efficiency of the electrical control equipment is improved, and the management cost of the electrical control equipment is reduced.

It should be understood that although the various steps in the flow charts of fig. 4-6 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 4-6 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, a readable storage medium is provided, having stored thereon a computer program which, when executed by a processor, performs the steps of:

acquiring state information and energy consumption information of the electrical equipment;

controlling the state of the electrical equipment according to the state information;

analyzing the energy consumption information of the electrical equipment to obtain the current operation state information of the electrical equipment;

managing the state information of the electrical equipment, the energy consumption information and the current operation state information.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An electrical equipment monitoring and management system, the system comprising: the system comprises an electrical control device and a server, wherein the electrical control device is connected with the server;

the electrical control equipment is used for acquiring state information and energy consumption information of the electrical equipment and transmitting the state information and the energy consumption information to the server; and the server is used for issuing a control instruction to the electrical control equipment according to the received state information and the received energy consumption information so that the electrical control equipment controls the state of the electrical equipment according to the control instruction.

2. The system of claim 1, wherein the electrical equipment monitoring and management system further comprises: the input end of the gateway equipment is connected with the output end of the electrical control equipment, and the output end of the gateway equipment is connected with the input end of the server;

the gateway equipment is used for converting the state information and the energy consumption information into http network signals and sending the http network signals to the server; and the server is also used for issuing a control instruction to the electrical control equipment according to the received http network signal.

3. The system of claim 2, wherein the server is further configured to display the received http network signal, analyze the http network signal, and obtain a current operating state of the electrical device.

4. The system of claim 3, wherein the electrical control apparatus comprises: the system comprises a processor, a lighting control switch and a communication component;

the processor is used for analyzing the state information to obtain an electrical equipment visualization model, and analyzing the control instruction to send the control instruction to the corresponding lighting control switch; the lighting control switch is used for controlling the state of the electrical equipment according to the received control instruction; and the communication component is used for transmitting the state information, the energy consumption information and the control instruction.

5. The system of claim 4, wherein the lighting control switch comprises: the electric quantity meter and the control state loop; the electric quantity meter is used for monitoring energy consumption information of the electrical equipment, and the control state loop is used for monitoring state information of the electrical equipment and controlling the state of the electrical equipment;

and preferably, the server comprises a display screen; the display screen is used for displaying the visual model of the electrical equipment acquired by the processor.

6. An electrical equipment monitoring and management method is characterized by comprising the following steps:

acquiring state information and energy consumption information of the electrical equipment;

controlling the state of the electrical equipment according to the state information;

analyzing the energy consumption information of the electrical equipment to obtain the current operation state information of the electrical equipment;

managing the state information of the electrical equipment, the energy consumption information and the current operation state information.

7. The method of claim 6, wherein said controlling the state of the electrical device based on the state information comprises:

determining a control instruction of the electrical equipment through the state information;

and controlling the state of the electrical equipment through the control command.

8. The method according to claim 7, wherein the analyzing the energy consumption information of the electrical device to obtain the current operation state information of the electrical device comprises:

acquiring a daily energy consumption value of the electrical equipment from the energy consumption information;

analyzing the daily energy consumption value of the electrical equipment to obtain an average energy consumption value;

and acquiring the current running state information of the electrical equipment according to the average energy consumption value.

9. The method of claim 8, wherein analyzing the daily energy consumption value of the electrical device to obtain an average energy consumption value comprises: calculating an average value of the daily energy consumption values to obtain an average energy consumption value;

preferably, the obtaining the current operation state information of the electrical device through the average energy consumption value includes:

judging whether the average energy consumption value is larger than an average energy consumption threshold value or not;

if so, judging that the electrical equipment is in an abnormal state currently;

if not, judging that the electrical equipment is in a normal state currently.

10. A readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 6 to 9.

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