CN113568358A - Green official working intelligence power consumption monitoring control system based on thing networking - Google Patents

Abstract

The invention provides a green office intelligent power consumption monitoring and controlling system based on an Internet of things, wherein an intelligent power consumption safety management terminal is connected with a power supply line, an intelligent control host is connected with an intelligent switch, an air conditioner controller, a metering intelligent socket and an intelligent office lock through an Internet of things protocol LoRa, the intelligent power consumption safety management terminal and the intelligent control host are connected with a cloud platform through an IP internal local area network or a 4G wireless network, the cloud platform is connected with a monitoring center platform and a mobile control terminal through the IP internal local area network, and the monitoring center platform comprises a power consumption monitoring module, an illumination power consumption control module, an air conditioner control module, an office power consumption control module and an office lock power consumption control module. The invention realizes the remote power utilization monitoring and control of the power supply line, the public lighting end, the public air conditioning end, each office electrical appliance and the office lock, and solves the problems of numerous energy utilization equipment, dispersed installation positions and high equipment operation management difficulty.

Description

Green official working intelligence power consumption monitoring control system based on thing networking

Technical Field

The invention relates to the technical field of power consumption monitoring, in particular to a green office intelligent power consumption monitoring control system based on the Internet of things.

Background

With the development of economy and the fast pace of life, office workers can cause that electric lamps, air conditioners, water dispensers, computers and other equipment in offices are not turned off after work due to various working conditions of going out or forgetting, so that the waste of electric energy is caused, the quantity of office energy electric appliances is large, the installation positions are scattered, and the monitoring and management difficulty of office electricity utilization is high.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide the intelligent power consumption monitoring and controlling system for the green office based on the internet of things, so as to overcome the defects in the prior art.

In order to achieve the purpose, the invention provides a green office intelligent power consumption monitoring and controlling system based on the Internet of things, which comprises an intelligent power consumption safety management terminal and an intelligent control host; the intelligent power utilization safety management terminal is connected with a power supply line, the intelligent power utilization safety management terminal is used for detecting the voltage, the current, the residual current and the temperature of a power supply end in real time, and the power supply line is connected with an intelligent switch, an air conditioner controller, a metering intelligent socket and an intelligent office lock; the intelligent control host is connected with an intelligent switch, an air conditioner controller, a metering intelligent socket and an intelligent office lock through an Internet of things protocol LoRa, the intelligent switch is connected with a public lighting end and used for collecting power consumption data of the public lighting end and controlling the switch of the public lighting end, the air conditioner controller is connected with the public air conditioner end and used for collecting power consumption data of the public air conditioner end, controlling the on-off of the public air conditioner end and adjusting the state of the public air conditioner end, the metering intelligent socket is connected with each office appliance and used for collecting power consumption data of each office appliance and controlling the on-off of each office appliance, and the intelligent office lock is used for collecting the on-off state of the office lock and information of unlocking personnel; the intelligent electricity safety management terminal and the intelligent control host are connected with the cloud platform through an IP (Internet protocol) internal local area network or a 4G (third generation) wireless network, the cloud platform is connected with the monitoring center platform and the mobile control terminal through the IP internal local area network, so that the intelligent electricity safety management terminal uploads the voltage, the current, the residual current and the temperature of a power supply end to the monitoring center platform, and the intelligent control host is used as a networking gateway of an intelligent switch, an air conditioner controller, a metering intelligent socket and an intelligent office lock to realize data transparent transmission with the monitoring center platform; the monitoring center platform comprises an electricity utilization monitoring module, an illumination electricity utilization control module, an air conditioner electricity utilization control module, an office electricity utilization control module and an office lock electricity utilization control module; the power consumption monitoring module is used for receiving voltage, current, residual current and temperature of a power supply end from the intelligent power consumption safety management terminal, and power consumption data of a public lighting end, a public air-conditioning end, each office appliance and an office lock from the intelligent control host; the lighting electricity utilization control module is used for sending a control signal to the intelligent switch so as to realize remote electricity utilization control of the public lighting end; the air conditioner electric control module is used for sending a control signal to the air conditioner controller so as to realize remote power utilization control of the public air conditioner end; the office electrical appliance control module is used for sending a control signal to the metering intelligent socket so as to realize remote electrical appliance control on each office electrical appliance; the office lock power consumption control module is used for sending a control signal to the intelligent office lock to realize remote power consumption control of the office lock.

By the technical scheme, the intelligent electricity safety management terminal is used for centrally managing the operating parameters of voltage, current, residual current and temperature of the power supply line, the intelligent control host is used for centrally managing the electricity utilization data of the intelligent switch, the air conditioner controller, the metering intelligent socket and the intelligent office lock through the Internet of things protocol LoRa and transmitting the electricity utilization data to the monitoring center platform, the monitoring center platform is provided with the power consumption monitoring module, the lighting power consumption control module, the air conditioner power consumption control module, the office appliance power consumption control module and the office lock power consumption control module, so that remote power consumption monitoring and control of a power supply line, a public lighting end, a public air conditioner end, each office appliance and an office lock are realized, the problems of numerous energy consumption devices, dispersed installation positions and high difficulty in equipment operation management are solved, and the problem of electric power energy waste caused by the fact that the electric appliances are not turned off due to negligence is solved.

As a further explanation of the green office intelligent electricity consumption monitoring control system based on the internet of things, preferably, the monitoring center platform further comprises a programming control module, the programming control module is respectively connected with the lighting electricity consumption control module, the air conditioner electricity consumption control module, the office electrical appliance electricity consumption control module and the office lock electricity consumption control module, and the programming control module is used for setting on and off of the timing switches of the public lighting end, the public air conditioner end, each office electrical appliance and the office lock through programming.

Through the technical scheme, the on-off of the time switches of the public lighting end, the public air conditioner end, each office electrical appliance and the office lock can be uniformly set on the monitoring center platform through the programming control module, if the power consumption is automatically started at the time of working, the public lighting end, the public air conditioner end and the office lock, and the power consumption is automatically cut off at the time of working, so that the waste of power energy caused by negligence is avoided.

As a further explanation of the green office intelligent electricity consumption monitoring control system based on the internet of things, preferably, the electricity consumption monitoring module comprises a data processing sub-module, an electricity consumption energy statistics sub-module, an electricity consumption abnormity processing sub-module, a display sub-module and a first database sub-module; the intelligent power utilization safety management system comprises a data processing submodule, an intelligent power utilization safety management terminal, an intelligent control host and a power utilization data processing submodule, wherein the data processing submodule is connected with the intelligent power utilization safety management terminal and the intelligent control host, and is used for receiving voltage, current, residual current and temperature of a power supply end and power utilization data of a public lighting end, a public air-conditioning end, each office appliance and each office lock and converting the power utilization data into a data curve graph; the electricity consumption and energy consumption statistics submodule is connected with the data processing submodule and is used for counting the time-period electricity consumption and the total electricity consumption according to the data information received by the data processing submodule; the electricity utilization abnormity processing sub-module is connected with the data processing sub-module and is used for monitoring whether abnormal electricity utilization occurs according to the data information received by the data processing sub-module and sending out a reminding message when the abnormal electricity utilization is monitored; the display submodule is respectively connected with the data processing submodule acquisition block, the electricity consumption and energy consumption statistical submodule and the electricity consumption abnormity processing submodule and is used for displaying a data curve chart converted by the data processing submodule, the time-interval electricity consumption and the total electricity consumption of the electricity consumption statistical submodule and reminding information sent by the electricity consumption abnormity processing submodule; the first database submodule is connected with the data processing submodule and used for storing the electricity utilization data received by the data processing submodule according to the time dimension and the region and the equipment type.

Through above-mentioned technical scheme, the power consumption monitoring module sets up the data processing submodule, power consumption statistics submodule, power consumption abnormal processing submodule, show submodule and first database submodule and to the power supply line real-time supervision operating condition, and monitor the power consumption data of public lighting end, public air conditioner end, each official working electrical apparatus and official working lock, can acquire timesharing section power consumption and total power consumption and power consumption data curve graph, the analysis power consumption data sends out warning information when unusual power consumption.

As a further explanation of the green office intelligent electricity consumption monitoring control system based on the internet of things, preferably, the office lock electricity consumption control module comprises a second database submodule, a personnel entry and exit monitoring submodule and an office lock switch state monitoring submodule; the second database submodule is connected with the personnel entry and exit monitoring submodule and used for storing authorized unlocking personnel information; the personnel in-out monitoring submodule is connected with the intelligent office lock through the intelligent control host, and is used for monitoring in-out personnel through receiving unlocking personnel information of the intelligent office lock in a time dimension; the office lock on-off state monitoring submodule is connected with the intelligent office lock through the intelligent control host, and the office lock on-off state monitoring submodule is used for monitoring the on-off state of the office lock through receiving an unlocking signal and a locking signal of the intelligent office lock in a time dimension manner and sending out reminding information when the office lock is abnormal according to access personnel monitored by the access monitoring submodule.

Through the technical scheme, the office lock power consumption control module is provided with the second database sub-module, the personnel access monitoring sub-module and the office lock on-off state monitoring sub-module count the operation state of the office lock and the access personnel, and send out reminding information when the office lock is abnormal, the office lock power consumption can be set at regular time such as off-duty time, the office lock power consumption is set at on-duty time, so that the office lock power consumption is saved, and the personnel access monitoring sub-module monitors that the personnel leave or not to continue the power consumption, and the power consumption can be flexibly applied to the office lock.

As a further description of the internet of things-based green office intelligent electricity consumption monitoring and controlling system, preferably, the power supply line includes a main power supply line accessed by the main air switch and a plurality of branch power supply lines output by the branch air switches; the main air switch and the main power supply line are connected with the intelligent power utilization safety management terminal, so that the intelligent power utilization safety management terminal monitors the voltage, the current, the residual current and the temperature of the main power supply line in real time; the intelligent electricity utilization safety management terminal is connected with a plurality of branch electricity utilization management terminals in an expanding mode, each branch electricity utilization management terminal is connected with a branch air switch and a corresponding branch power supply line, so that the branch electricity utilization management terminals monitor voltage, current, residual current and temperature on the branch power supply lines in real time, and the branch electricity utilization management terminals are in data communication with the intelligent electricity utilization safety management terminals; each branch power supply line is respectively connected to an intelligent switch, an air conditioner controller, a metering intelligent socket and an intelligent office lock.

Through the technical scheme, the intelligent electricity utilization safety management terminal and the branch electricity utilization management terminal which is connected in an expanding mode achieve the function of simultaneously monitoring the voltage, the current, the residual current and the temperature of the line for the main power supply line and the multiple branch power supply lines.

As a further explanation of the green office intelligent electricity consumption monitoring control system based on the internet of things, preferably, the intelligent electricity consumption safety management terminal is connected with the main power supply line through a voltage detection line so as to detect the voltage of the main power supply line in real time, and is connected with the current transformer through a current detection line, and the current transformer is connected with the main power supply line so as to detect the operating current of the main power supply line in real time; the intelligent electricity safety management terminal is connected with the main power supply circuit through a residual current circuit and a residual current transformer, and the residual current transformer is connected with the main power supply circuit so as to detect the residual current of the main power supply circuit in real time; wisdom power consumption safety control terminal passes through the temperature monitoring circuit and is connected with temperature sensor, and temperature sensor connects on the main power supply circuit to carry out real-time detection to the temperature of main power supply circuit.

The invention has the beneficial effects that: the invention centrally manages the operating parameters of voltage, current, residual current and temperature of the power supply circuit by the intelligent power utilization safety management terminal, centrally manages the power utilization data of the intelligent switch, the air conditioner controller, the metering intelligent socket and the intelligent office lock by the intelligent control host through the Internet of things protocol LoRa, and transmits the power utilization data to the monitoring center platform, the monitoring center platform is provided with the power consumption monitoring module, the lighting power consumption control module, the air conditioner power consumption control module, the office appliance power consumption control module and the office lock power consumption control module, so that remote power consumption monitoring and control of a power supply line, a public lighting end, a public air conditioner end, each office appliance and an office lock are realized, the problems of numerous energy consumption devices, dispersed installation positions and high difficulty in equipment operation management are solved, and the problem of electric power energy waste caused by the fact that the electric appliances are not turned off due to negligence is solved.

Drawings

Fig. 1 is an architecture diagram of the intelligent power consumption monitoring and controlling system for green office based on internet of things.

Fig. 2 is a schematic structural diagram of the intelligent electricity monitoring and controlling system for green office based on the internet of things.

Fig. 3 is a schematic structural diagram of the electricity consumption monitoring module of the present invention.

Fig. 4 is a schematic structural diagram of an electric control module for an office lock according to the present invention.

Detailed Description

To further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solutions of the present invention and are not to limit the present invention.

As shown in fig. 1, a green office intelligent electricity monitoring and controlling system based on the internet of things comprises an intelligent electricity safety management terminal 1 and an intelligent control host 2; the intelligent electricity safety management terminal 1 is connected with a power supply line, the intelligent electricity safety management terminal 1 is used for detecting voltage, current, residual current and temperature of a power supply end in real time, and the power supply line is connected with an intelligent switch 3, an air conditioner controller 4, a metering intelligent socket 5 and an intelligent office lock 6; the intelligent control host 2 is connected with an intelligent switch 3, an air conditioner controller 4, a metering intelligent socket 5 and an intelligent office lock 6 through an Internet of things protocol LoRa, the intelligent switch 3 is connected with a public lighting end and used for collecting power consumption data of the public lighting end and controlling the switch of the public lighting end, the air conditioner controller 4 is connected with the public air conditioner end and used for collecting power consumption data of the public air conditioner end and controlling the on-off of the public air conditioner end and adjusting the state of the public air conditioner end, the metering intelligent socket 5 is connected with each office appliance and used for collecting power consumption data of each office appliance and controlling the on-off of each office appliance, and the intelligent office lock 6 is used for collecting the on-off state of the office lock and information of unlocking personnel; wisdom power consumption safety control terminal 1 and intelligent control host computer 2 are connected with cloud platform 7 through the inside LAN of IP or 4G wireless network, cloud platform 7 is connected with surveillance center platform 8 and mobile control terminal 9 through the inside LAN of IP, so that wisdom power consumption safety control terminal 1 passes through the voltage of power supply end, the electric current, residual current and temperature upload to surveillance center platform 4, intelligent control host computer 2 is as intelligent switch 3, air conditioner controller 4, measure smart jack 5 and intelligent office lock 6's network deployment gateway, the realization passes through with surveillance center platform 4's data.

As shown in fig. 2, the monitoring center platform 8 includes an electricity consumption monitoring module 81, an illumination electricity consumption control module 82, an air conditioner electricity consumption control module 83, an office electrical appliance electricity consumption control module 84, and an office lock electricity consumption control module 85; the electricity consumption monitoring module 81 is used for receiving voltage, current, residual current and temperature from a power supply end of the intelligent electricity consumption safety management terminal 1 and electricity consumption data from a public lighting end, a public air-conditioning end, each office appliance and an office lock of the intelligent control host 2; the lighting electric control module 82 is used for sending a control signal to the intelligent switch 3 to realize remote electric control of the public lighting end; the air conditioner electric control module 83 is used for sending a control signal to the air conditioner controller 4 to realize remote electricity utilization control of the public air conditioner terminal; the office electrical appliance control module 84 is used for sending a control signal to the metering smart socket 5 to realize remote electrical appliance control on each office electrical appliance; the office lock electricity utilization control module 85 is used for sending a control signal to the intelligent office lock 6 to realize remote electricity utilization control of the office lock. Further, as shown in fig. 2, the monitoring center platform 8 further includes a programming control module 86, the programming control module 86 is respectively connected to the lighting electric control module 82, the air conditioner electric control module 83, the office electrical appliance electric control module 84, and the office lock electric control module 85, and the programming control module 86 is configured to set on/off of the timing switches of the public lighting end, the public air conditioning end, each office electrical appliance, and the office lock through programming, so as to avoid waste of electric power energy due to negligence. By wisdom power consumption safety management terminal centralized management power supply line's operating parameter voltage, the electric current, residual current and temperature, pass through internet of things agreement loRa centralized management intelligence switch by the intelligent control host computer, air conditioner controller, measure the power consumption data of smart jack and intelligent office lock, and transmit to the surveillance center platform, set up power consumption monitoring module at the surveillance center platform, the illumination is with electric control module, the air conditioner is with electric control module, office's electric control module and office lock are with electric control module, the realization is to the power supply line, public lighting end, public air conditioner end, each office electrical apparatus, the long-range power consumption monitoring and the control of office lock, it is numerous to solve the energy consumption equipment quantity, the mounted position dispersion, the problem that the equipment operation management degree of difficulty is big, and solved because of not closing the electric appliance power consumption and cause the extravagant problem of electric power energy.

As shown in fig. 3, the electricity consumption monitoring module 81 includes a data processing sub-module 811, an electricity consumption statistics sub-module 812, an electricity consumption exception handling sub-module 813, a display sub-module 814 and a first database sub-module 815; the data processing submodule 811 is connected with the intelligent power utilization safety management terminal 1 and the intelligent control host 2, and the data processing submodule 811 is used for receiving voltage, current, residual current and temperature of a power supply end and power utilization data of a public lighting end, a public air-conditioning end, each office electrical appliance and an office lock and converting the power utilization data into a data curve graph; the electricity consumption statistics submodule 812 is connected with the data processing submodule 811, and the electricity consumption statistics submodule 812 is used for counting the time-period electricity consumption and the total electricity consumption according to the data information received by the data processing submodule 811; the electricity utilization abnormity processing submodule 813 is connected with the data processing submodule 811, and the electricity utilization abnormity processing submodule 813 is used for monitoring whether abnormal electricity utilization occurs according to the data information received by the data processing submodule 811 and sending a reminding message when the abnormal electricity utilization is monitored; the display submodule 814 is respectively connected with the data processing submodule 811, the electricity consumption statistics submodule 812 and the electricity consumption abnormity processing submodule 813, and the display submodule 814 is used for displaying a data curve chart converted by the data processing submodule 811, the time-interval electricity consumption and the total electricity consumption of the electricity consumption statistics submodule 812 and reminding information sent by the electricity consumption abnormity processing submodule 813; the first database submodule 815 is connected to the data processing submodule 811, and the first database submodule 815 is configured to store the power consumption data received by the data processing submodule 811 by area and device type in a time dimension.

As shown in fig. 4, the office lock electricity utilization control module 85 includes a second database submodule 851, a personnel entry and exit monitoring submodule 852 and an office lock switch state monitoring submodule 853; the second database submodule 851 is connected with the personnel access monitoring submodule 852, and the second database submodule 851 is used for storing authorized unlocking personnel information; the personnel in-out monitoring submodule 852 is connected with the intelligent office lock 6 through the intelligent control host 2, and the personnel in-out monitoring submodule 852 is used for monitoring in-out personnel through receiving information of unlocking personnel of the intelligent office lock 6 in a time dimension; office lock on-off state monitoring submodule 853 is connected with intelligent office lock 6 through intelligent control host 2, and office lock on-off state monitoring submodule 853 is used for with the time dimension through the unlocking signal and the lock off signal monitoring office lock on-off state of receiving intelligent office lock 6 to the business turn over personnel who passes in and out monitoring submodule 852 monitoring according to personnel send out warning information when the office lock is unusual. The office lock power consumption control module is provided with a second database submodule, a person access monitoring submodule and an office lock on-off state monitoring submodule to count the operation state of the office lock and access persons, and sends out reminding information when the office lock is abnormal, the office lock power consumption can be set at regular time such as off-duty time, the office lock power consumption is set at on-duty time, the office lock power consumption is saved, the person access monitoring submodule monitors that the person leaves or does not leave the office lock power consumption, and the office lock power consumption can be flexibly used.

As shown in fig. 1, the power supply line includes a main power supply line accessed by a main air switch 11 and a plurality of branch power supply lines output by branch air switches 12; the main air switch 11 and the main power supply line are connected with the intelligent electric safety management terminal 1, so that the intelligent electric safety management terminal 1 monitors the voltage, the current, the residual current and the temperature of the main power supply line in real time; the intelligent electricity safety management terminal 1 is connected with a plurality of branch electricity management terminals 13 in an expanding mode, each branch electricity management terminal 13 is connected with a branch air switch 12 and a corresponding branch power supply line, so that the branch electricity management terminals 13 monitor voltage, current, residual current and temperature on the branch power supply lines in real time, and the branch electricity management terminals 13 are in data communication with the intelligent electricity safety management terminal 1; each branch power supply line is respectively connected to an intelligent switch 3, an air conditioner controller 4, a metering intelligent socket 5 and an intelligent office lock 6. The intelligent electricity safety management terminal and the branch electricity management terminal which is connected in an expanded mode achieve the function of simultaneously monitoring the voltage, the current, the residual current and the temperature of the main power supply line and the multi-branch power supply line.

Specifically, the intelligent electricity safety management terminal 1 is connected with a main power supply line through a voltage detection line so as to detect the voltage of the main power supply line in real time, and the intelligent electricity safety management terminal 1 is connected with a current transformer through a current detection line, and the current transformer is connected with the main power supply line so as to detect the running current of the main power supply line in real time; the intelligent electricity safety management terminal 1 is connected with a residual current transformer through a residual current circuit, and the residual current transformer is connected with a main power supply circuit so as to detect the residual current of the main power supply circuit in real time; wisdom power consumption safety control terminal 1 passes through the temperature monitoring circuit and is connected with temperature sensor, and temperature sensor connects on the main power supply line to carry out real-time detection to the temperature of main power supply line.

It should be noted that the above summary and the detailed description are intended to demonstrate the practical application of the technical solutions provided by the present invention, and should not be construed as limiting the scope of the present invention. Various modifications, equivalent substitutions, or improvements may be made by those skilled in the art within the spirit and principles of the invention. The scope of the invention is to be determined by the appended claims.

Claims (6)

1. A green office intelligent power consumption monitoring control system based on the Internet of things is characterized by comprising an intelligent power consumption safety management terminal (1) and an intelligent control host (2); wherein the content of the first and second substances,

the intelligent electricity safety management terminal (1) is connected with a power supply line, the intelligent electricity safety management terminal (1) is used for detecting the voltage, the current, the residual current and the temperature of a power supply end in real time, and the power supply line is connected with an intelligent switch (3), an air conditioner controller (4), a metering intelligent socket (5) and an intelligent office lock (6);

the intelligent control host (2) is connected with an intelligent switch (3), an air conditioner controller (4), a metering intelligent socket (5) and an intelligent office lock (6) through an Internet of things protocol LoRa, the intelligent switch (3) is connected with a public lighting end and used for collecting power consumption data of the public lighting end and controlling the switch of the public lighting end, the air conditioner controller (4) is connected with the public air conditioner end and used for collecting power consumption data of the public air conditioner end, controlling the on-off of the public air conditioner end and adjusting the state of the public air conditioner end, the metering intelligent socket (5) is connected with each office appliance and used for collecting power consumption data of each office appliance and controlling the on-off of each office appliance, and the intelligent office lock (6) is used for collecting the on-off state of the office lock and information of unlocking personnel;

the intelligent power utilization safety management system comprises an intelligent power utilization safety management terminal (1) and an intelligent control host (2), wherein the intelligent power utilization safety management terminal (1) and the intelligent control host (2) are connected with a cloud platform (7) through an IP (Internet protocol) internal local area network or a 4G wireless network, the cloud platform (7) is connected with a monitoring center platform (8) and a mobile control terminal (9) through the IP internal local area network, so that the intelligent power utilization safety management terminal (1) uploads the voltage, the current, the residual current and the temperature of a power supply end to the monitoring center platform (4), and the intelligent control host (2) serves as a networking gateway of an intelligent switch (3), an air conditioner controller (4), a metering intelligent socket (5) and an intelligent office lock (6) to realize data transparent transmission with the monitoring center platform (4);

the monitoring center platform (8) comprises an electricity utilization monitoring module (81), an illumination electricity utilization control module (82), an air conditioner electricity utilization control module (83), an office electrical appliance electricity utilization control module (84) and an office lock electricity utilization control module (85); the electricity consumption monitoring module (81) is used for receiving voltage, current, residual current and temperature of a power supply end from the intelligent electricity consumption safety management terminal (1) and electricity consumption data of a public lighting end, a public air-conditioning end, each office electrical appliance and an office lock from the intelligent control host (2); the lighting electric control module (82) is used for sending a control signal to the intelligent switch (3) to realize remote electric control of a public lighting end; the air conditioner electric control module (83) is used for sending a control signal to the air conditioner controller (4) to realize remote electricity utilization control of a public air conditioner end; the office electrical appliance control module (84) is used for sending a control signal to the metering intelligent socket (5) to realize remote electrical appliance control on each office electrical appliance; the office lock electricity utilization control module (85) is used for sending a control signal to the intelligent office lock (6) to realize remote electricity utilization control of the office lock.

2. The Internet of things-based green office intelligent electricity monitoring and controlling system is characterized in that the monitoring center platform (8) further comprises a programming control module (86), the programming control module (86) is respectively connected with the lighting electricity control module (82), the air-conditioning electricity control module (83), the office electrical appliance electricity control module (84) and the office lock electricity control module (85), and the programming control module (86) is used for setting the on-off of a public lighting end, a public air-conditioning end, each office electrical appliance and a timing switch of an office lock through programming.

3. The intelligent power consumption monitoring and controlling system for green offices based on the internet of things as claimed in claim 1, wherein the power consumption monitoring module (81) comprises a data processing sub-module (811), a power consumption statistics sub-module (812), a power consumption exception handling sub-module (813), a display sub-module (814) and a first database sub-module (815); wherein the content of the first and second substances,

the data processing submodule (811) is connected with the intelligent power utilization safety management terminal (1) and the intelligent control host (2), and the data processing submodule (811) is used for receiving voltage, current, residual current and temperature of a power supply end and power utilization data of a public lighting end, a public air-conditioning end, each office electrical appliance and an office lock and converting the power utilization data into a data curve graph;

the electricity consumption statistics submodule (812) is connected with the data processing submodule (811), and the electricity consumption statistics submodule (812) is used for counting the time-interval electricity consumption and the total electricity consumption according to the data information received by the data processing submodule (811);

the electricity utilization abnormity processing submodule (813) is connected with the data processing submodule (811), and the electricity utilization abnormity processing submodule (813) is used for monitoring whether abnormal electricity utilization occurs according to the data information received by the data processing submodule (811) and sending out a reminding message when the abnormal electricity utilization is monitored;

the display submodule (814) is respectively connected with the data processing submodule (811), the electricity consumption statistics submodule (812) and the electricity consumption abnormity processing submodule (813), and the display submodule (814) is used for displaying a data curve chart converted by the data processing submodule (811), the time-interval electricity consumption and the total electricity consumption of the electricity consumption statistics submodule (812) and reminding information sent by the electricity consumption abnormity processing submodule (813);

the first database submodule (815) is connected with the data processing submodule (811), and the first database submodule (815) is used for storing the electricity utilization data received by the data processing submodule (811) according to the area and the equipment type in the time dimension.

4. A green office intelligent electricity monitoring and controlling system based on the internet of things as claimed in claim 1, wherein the office lock electricity utilization control module (85) comprises a second database submodule (851), a personnel access monitoring submodule (852) and an office lock switch state monitoring submodule (853); wherein the content of the first and second substances,

the second database submodule (851) is connected with the personnel access monitoring submodule (852), and the second database submodule (851) is used for storing authorized unlocking personnel information;

the personnel access monitoring submodule (852) is connected with the intelligent office lock (6) through the intelligent control host (2), and the personnel access monitoring submodule (852) is used for monitoring personnel access through receiving unlocking personnel information of the intelligent office lock (6) in a time dimension;

office lock on-off state monitoring submodule (853) is connected with intelligent office lock (6) through intelligent control host computer (2), and office lock on-off state monitoring submodule (853) is used for with the time dimension through receiving intelligent office lock (6) the signal of unblanking and the signal monitoring office lock on-off state of closing to pass in and out personnel according to personnel's business turn over monitoring submodule (852) monitoring send out when the office lock is unusual and remind information.

5. The Internet of things-based green office intelligent electricity monitoring control system of claim 1,

the power supply line comprises a main power supply line accessed by a main air switch (11) and a plurality of branch power supply lines output by a branch air switch (12); the main air switch (11) and the main power supply line are connected with the intelligent electricity safety management terminal (1), so that the intelligent electricity safety management terminal (1) can monitor the voltage, the current, the residual current and the temperature of the main power supply line in real time; the intelligent electricity utilization safety management terminal (1) is connected with a plurality of branch electricity utilization management terminals (13) in an expanding mode, each branch electricity utilization management terminal (13) is connected with a branch air switch (12) and a corresponding branch power supply line, so that the branch electricity utilization management terminals (13) monitor voltage, current, residual current and temperature on the branch power supply lines in real time, and the branch electricity utilization management terminals (13) are in data communication with the intelligent electricity utilization safety management terminal (1); each branch power supply line is respectively connected to an intelligent switch (3), an air conditioner controller (4), a metering intelligent socket (5) and an intelligent office lock (6).

6. The Internet of things-based green office intelligent electricity monitoring and controlling system is characterized in that the intelligent electricity safety management terminal (1) is connected with the main power supply line through a voltage detection line so as to detect the voltage of the main power supply line in real time, and the intelligent electricity safety management terminal (1) is connected with a current transformer through a current detection line, and the current transformer is connected with the main power supply line so as to detect the operating current of the main power supply line in real time; the intelligent electricity safety management terminal (1) is connected with a residual current transformer through a residual current circuit, and the residual current transformer is connected with a main power supply circuit so as to detect the residual current of the main power supply circuit in real time; wisdom power consumption safety control terminal (1) is connected with temperature sensor through the temperature monitoring circuit, and temperature sensor connects on main power supply line to carry out real-time detection to the temperature of main power supply line.

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