CN111930035A - Comprehensive management system and method for indoor electricity utilization - Google Patents

Abstract

The invention discloses an indoor electricity comprehensive management system and a method, wherein the system comprises: the intelligent control system comprises an integrated energy management terminal and an intelligent control panel connected with the integrated energy management terminal; wherein the method realizes control based on the system, and the method comprises the following steps: setting parameters of the comprehensive energy management terminal based on the intelligent control panel, and acquiring data information based on the comprehensive energy management terminal; carrying out automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result; and outputting the instruction of the operation result based on the comprehensive energy management terminal, and returning to the indoor power utilization comprehensive management system to be in a normal state without an abnormal fault signal. In the implementation of the invention, energy consumption according to needs, scientific energy consumption and safe energy consumption are uniformly realized, the indoor power utilization efficiency is effectively improved, and the energy is saved and the consumption is reduced.

Description

Comprehensive management system and method for indoor electricity utilization

Technical Field

The invention relates to the technical field of indoor power management, in particular to an indoor power comprehensive management system and method.

Background

The quantity and the variety of electric equipment in the room of large-scale building are numerous, and main electric equipment includes: lighting, air conditioning, IT, electrical heating, and other hybrid loads; because the variety of electric equipment or systems is various, and the communication interface protocol is not completely unified, most energy management modes in the market at present monitor, measure and control a certain electric equipment or system, and an indoor integrated intelligent monitoring management system and method for electricity utilization are lacked, so that the management means are relatively independent and dispersed, the operation efficiency is low, the energy consumption is overhigh, the economic benefit and the electricity utilization safety cannot be guaranteed effectively, and the linkage with an entrance guard system, an attendance system and a video system cannot be realized.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides an indoor power utilization comprehensive management system and method, which uniformly realize energy utilization according to needs, scientific energy utilization and safe energy utilization, effectively improve the indoor power utilization efficiency, save energy and reduce consumption.

In order to solve the above technical problem, an embodiment of the present invention provides an integrated management system for indoor power utilization, where the system includes: the intelligent control system comprises an integrated energy management terminal and an intelligent control panel connected with the integrated energy management terminal; wherein the content of the first and second substances,

the comprehensive energy management terminal is used for measuring and monitoring the state information of each loop and controlling the remote power-on or remote power-off of each loop;

the intelligent control panel is used for displaying an interface in a graphical mode and performing touch operation, and is combined with the comprehensive energy management terminal to control the local electric equipment in a centralized mode.

Optionally, the integrated energy management terminal includes: the system comprises a processor, an illumination control module, a single-phase monitoring module, a three-phase monitoring module, an air conditioner monitoring module, a sensing input module and a communication module; wherein the content of the first and second substances,

the processor, the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module are respectively integrated on the comprehensive energy management terminal; the processor is in signal connection with the illumination control module, the processor is in signal connection with the single-phase monitoring module, the processor is in signal connection with the three-phase monitoring module, the processor is in signal connection with the air conditioner monitoring module, the processor is in signal connection with the sensing input module, and the processor is in signal connection with the communication module.

Optionally, the lighting control module is connected with the lighting loop; the single-phase monitoring module is connected with the socket; the three-phase monitoring module is connected with the socket; the air conditioner monitoring module is connected with an air conditioner system; the sensing input module is connected with an environmental system; the communication module is connected with other electric facilities.

Optionally, the lighting control module is configured to monitor status information of a lighting circuit, and control the lighting circuit to be powered on or powered off remotely;

the single-phase monitoring module is used for measuring and monitoring the power consumption and the power quality of a single-phase loop of the socket and controlling the remote power-on or remote power-off of the single-phase loop;

the three-phase monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of a three-phase loop of the socket and controlling the remote electrification or remote outage of the three-phase loop;

the air conditioner monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of an air conditioner and carrying out remote start or remote stop control, time-sharing control or temperature control on the air conditioner;

the sensing input module is used for receiving switching value input signals or analog input signals of various environmental quantities in an environmental system to sense environmental information;

the communication module is used for measuring and monitoring other power utilization facilities and interfacing data of various communication devices or third-party systems with different communication protocols.

Optionally, the integrated energy management terminal further includes: the device comprises a clock module, a video module, a network module and a power module; the clock module, the video module, the network module and the power module are respectively integrated on the comprehensive energy management terminal; the clock module is in signal connection with the processor, the video module is in signal connection with the processor, the network module is in signal connection with the processor, and the power module is in signal connection with the processor.

In addition, an embodiment of the present invention further provides an indoor power consumption comprehensive management method, where the method is based on the above indoor power consumption comprehensive management system to implement control, and the method includes:

the indoor electricity comprehensive management system has no abnormal fault signal and is in a normal state;

setting parameters of the comprehensive energy management terminal based on the intelligent control panel, and acquiring data information based on the comprehensive energy management terminal;

carrying out automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result;

and outputting the instruction of the operation result based on the comprehensive energy management terminal, and returning to the indoor power utilization comprehensive management system to be in a normal state without an abnormal fault signal.

Optionally, the setting of parameters of the integrated energy management terminal based on the intelligent control panel includes:

setting the frequency of acquiring the environmental quantity parameters for the sensing input module in the comprehensive energy management terminal based on the intelligent control panel;

the intelligent control panel is used for setting data information acquisition frequencies of the accessed electric equipment, the power utilization loop and the information power utilization system for the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module and the communication module in the comprehensive energy management terminal respectively.

Optionally, the acquiring data information based on the integrated energy management terminal includes:

and acquiring data information based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the comprehensive energy management terminal.

Optionally, the performing automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result includes:

based on the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module, respectively transmitting the data to the processor for automatic configuration logic assignment operation to obtain an operation result;

and respectively transmitting the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module to the intelligent control panel for manual operation logic assignment operation to obtain an operation result.

Optionally, the instruction for outputting the operation result based on the integrated energy management terminal includes: and outputting the instruction of the operation result based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the comprehensive energy management terminal respectively.

In the implementation of the invention, the indoor environment quantity is sensed through the comprehensive energy management terminal and the intelligent control panel, centralized intelligent monitoring management is carried out on the lighting, the socket, the air conditioner and other electric facilities subentry power utilization loops, equipment and other information energy utilization systems, the monitoring, the measurement, the control and the management integration of the indoor power utilization are realized, real-time online metering, intelligent monitoring, control and regulation are carried out on each power utilization link, and the automation of the energy management, the safe energy utilization, the energy efficiency improvement, the energy utilization quality monitoring, the real-time interaction of various energy information and the resource sharing are realized.

Drawings

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

Fig. 1 is a schematic structural composition diagram of an integrated management system for indoor power consumption in an embodiment of the present invention;

FIG. 2 is a diagram of a specific control model of the integrated management system for indoor power consumption in an embodiment of the present invention;

FIG. 3 is a flow chart of a comprehensive management method for indoor power consumption according to an embodiment of the present invention;

fig. 4 is a specific control logic flow chart of the comprehensive management method for indoor power consumption in the embodiment of the invention.

Detailed Description

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

Example one

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of an integrated management system for indoor power consumption in an embodiment of the present invention, and fig. 2 is a specific control model diagram of the integrated management system for indoor power consumption in an embodiment of the present invention.

As shown in fig. 1 and 2, an integrated management system for indoor electricity utilization includes: the intelligent control system comprises an integrated energy management terminal and an intelligent control panel connected with the integrated energy management terminal; the comprehensive energy management terminal is used for measuring and monitoring state information of each loop and controlling remote power-on or remote power-off of each loop; the intelligent control panel is used for displaying an interface in a graphical mode and performing touch operation, and is combined with the comprehensive energy management terminal to control the local electric equipment in a centralized mode.

In the specific implementation process of the invention, the comprehensive energy management terminal is a monitoring terminal which integrates functions of remote measurement, remote control, remote signaling, timing control, automatic control and protection based on LonWorks control network technology, and a programmable chip, various monitoring modules and communication modules are integrated inside the comprehensive energy management terminal, so that the comprehensive energy management terminal can be widely applied to occasions where various electric equipment such as an office, a conference room and a family are configured.

Specifically, the integrated energy management terminal includes: the system comprises a processor, an illumination control module, a single-phase monitoring module, a three-phase monitoring module, an air conditioner monitoring module, a sensing input module and a communication module; the processor, the lighting control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module are respectively integrated on the comprehensive energy management terminal; the processor is in signal connection with the illumination control module, the processor is in signal connection with the single-phase monitoring module, the processor is in signal connection with the three-phase monitoring module, the processor is in signal connection with the air conditioner monitoring module, the processor is in signal connection with the sensing input module, and the processor is in signal connection with the communication module; in addition, the lighting control module is connected with a lighting loop; the single-phase monitoring module is connected with the socket; the three-phase monitoring module is connected with the socket; the air conditioner monitoring module is connected with an air conditioner system; the sensing input module is connected with an environmental system; the communication module is connected with other electric facilities.

Specifically, the illumination control module is used for monitoring state information of an illumination loop and controlling remote power-on or remote power-off of the illumination loop; furthermore, the host of the lighting control module is provided with 4 paths of high-capacity relay outputs with mechanical and manual control switches, can be provided with 3 expansion modules at most, is expanded into 16 paths of outputs, and is provided with 4 paths of photoelectric isolation switch quantity state input detection;

the single-phase monitoring module is used for measuring and monitoring the power consumption and the power quality of a single-phase loop of the socket and controlling the remote power-on or remote power-off of the single-phase loop; furthermore, the single-phase metering monitoring module is used for measuring alternating current active electric energy with the reference frequency of 50Hz and the reference voltage of 220V, and has an electric energy metering function, a remote power on and off control function, a timing control function, a prepayment function and a malignant load identification function;

the three-phase monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of a three-phase loop of the socket and controlling the remote electrification or remote outage of the three-phase loop; further, the three-phase metering monitoring module is used for measuring alternating current active electric energy with a reference frequency of 50Hz and a reference voltage of 380V, and has an electric energy metering function, a remote power on and off control function, a timing control function, a prepayment function and a malignant load identification function;

the air conditioner monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of an air conditioner and carrying out remote start or remote stop control, time-sharing control or temperature control on the air conditioner; furthermore, the air conditioner monitoring module integrates metering, remote measuring, remote control, timing control and overcurrent protection functions; the specific functions include: active total electric energy, which is measured on the same day in the month; voltage, current, active power, reactive power, power factor and frequency parameter can be measured in real time; the device has the functions of voltage, current, power and power factor alarm threshold setting and over-threshold alarm; the power-off protection function of overcurrent and power threshold values is realized; a remote power transmission interruption control function; the power supply control function is switched off at regular time or according to a time table (7 days by 9 segments), the infrared shutdown of the air conditioner before power failure is supported, and the infrared startup of the air conditioner after power supply is supported; temperature control can be realized by controlling an electric valve and a fan of the fan coil; the running state of the temperature controller and the indoor environment temperature are known in real time through remote monitoring; the running time and the power consumption of various modes are measured, so that energy-saving assessment and excitation are facilitated; an energy-saving mode can be set, and four-period timing control is realized, so that energy waste is reduced;

the sensing input module is used for receiving switching value input signals or analog input signals of various environmental quantities in an environmental system to sense environmental information; furthermore, the sensing input module has 12 paths of switching value and 4 paths of 4-20 mA analog quantity input in total, and can receive environment quantity signals such as smoke sensation, temperature sensation, infrared, illuminance and the like;

the communication module is used for metering and monitoring other power utilization facilities and interfacing data of various communication equipment or third-party systems with different communication protocols; furthermore, the communication modules have 12 paths of communication interfaces in total and respectively support communication protocols of Modbus, M-bus, TCP/IP and OPC;

the intelligent control panel realizes local data display and control; displaying the electricity metering parameters in real time; displaying the running state of each loop in real time; the intelligent modes of one-key opening, one-key closing, one-key energy saving and the like can be realized.

Optionally, the integrated energy management terminal further includes: the device comprises a clock module, a video module, a network module and a power module; the clock module, the video module, the network module and the power module are respectively integrated on the comprehensive energy management terminal; the clock module is in signal connection with the processor, the video module is in signal connection with the processor, the network module is in signal connection with the processor, and the power module is in signal connection with the processor.

In the specific implementation process of the invention, the comprehensive management system for indoor power utilization realizes comprehensive intelligent management and control on indoor power utilization equipment by combining a control strategy through the comprehensive energy management terminal and the intelligent control panel; wherein the control strategy comprises:

the intelligent lighting control strategy displays the on-off state of each lamp in real time according to the distribution of an actual lighting loop, and intuitively knows the running state information of the on-off state of each lamp; the lighting is subjected to function setting according to needs, and various control strategy modes of group control, timing control, illuminance and a time schedule are realized; automatically controlling the turning on/off of the lamp according to the indoor sunlight brightness detected by the illumination sensor, and setting the upper and lower limit values of the illumination; setting the on-off time of the lamp by self according to the setting of a timing program, and carrying out automatic on-off lamp control;

the intelligent socket control strategy integrates the functions of metering, remote measurement, remote control, timing control and overcurrent protection; monitoring and counting electricity utilization parameters in real time, wherein the electricity utilization parameters comprise parameters of total consumption, current, voltage, power and power factor; monitoring and analyzing parameters of harmonic waves influencing the quality of the electric energy in real time; alarming the abnormal condition of the overrun; the on-off of the loop is controlled by signals input from the outside, so that the control of the electric load is realized; the method comprises the following steps of identifying, early warning and automatically identifying the malignant load, monitoring the electricity utilization safety of a room in real time once automatic tripping and positioning are used, and avoiding the use of high-power illegal electrical equipment in the room; the dynamic trend analysis of energy consumption and the analysis and diagnosis of energy efficiency are realized;

the intelligent control strategy of the air conditioner monitors the electric energy parameters of current, voltage, active power and reactive power of each split air conditioner (or fan coil) in real time and real-time temperature in a room, and also counts the accumulated operation time and accumulated electric quantity of each air conditioner; the household electricity metering and prepayment management of the energy consumption of the air conditioner are realized, the household electricity metering and prepayment management can be used as the basis for charging and quota management, and the electricity information of the air conditioner can be flexibly inquired according to the management requirement; the power supply of the air conditioner is cut off in the non-air-conditioning season and the non-air-conditioning time interval of the air-conditioning season so as to avoid the continuous existence of standby energy consumption and simultaneously avoid the unreasonable use of the air conditioner in the non-air-conditioning season, thereby saving energy consumption caused by unnecessary use; in the season of the air conditioner, the temperature setting of the split air conditioner can be locked, for example, the temperature does not exceed 20 ℃ in winter and is not lower than 26 ℃ in summer, so that the energy consumption waste caused by unreasonable temperature setting can be avoided, the use time can be set, the power supply of the air conditioner is cut off in the non-working time, and the energy consumption waste caused by the fact that people walk the air conditioner and are not closed is reduced;

the control strategy of other electric equipment integrates various informationized terminal equipment or subsystems with communication functions into an organic unified system, interface interfaces of the system are standardized and normalized, information exchange and communication protocol conversion of the subsystems are completed, and function integration in five aspects is realized: the integrated and comprehensive management of all subsystem information, the centralized monitoring and linkage control of all subsystems, the management of global events and the automatic management of processes; finally, the functions of centralized monitoring control and comprehensive management are realized.

In the specific implementation of the present invention, an office, a laboratory, a conference room, a report room, an exhibition room, a classroom, and a duty room are used as monitoring objects, and the specific implementation manner is as follows:

the indoor electricity utilization of a common office, a laboratory, a conference room, a report hall, an exhibition hall, a classroom and a duty room is generally led out of a power bus from a building distribution box or a floor distribution box, and an independent distribution box is arranged in the room and is divided into a lighting loop, a socket loop, an air conditioner loop or a power supply loop;

the comprehensive energy management terminal is arranged indoors and is provided with the illumination control module, the illumination control module is connected with an illumination loop in the distribution box in a wiring mode, the illumination loop can be monitored in state, the loop can be controlled to be in on-off remotely, meanwhile, a sensor of an illuminometer can be connected in a sensing input module in a matching mode, environment quantity data are collected in real time, and illumination intelligent control is achieved according to different control strategies;

the terminal is provided with the single/three-phase metering monitoring module, and can perform independent metering monitoring and on-off control on the single/three-phase metering monitoring module through wiring connection with each power supply loop in the distribution box, support the functions of timing control and malignant load identification, and realize intelligent monitoring of various electric equipment according to different control strategies;

the terminal is provided with the air conditioner monitoring module, and can perform independent metering monitoring and on-off control on the air conditioner monitoring module through wiring connection with an air conditioner power supply loop in the distribution box; supporting remote infrared remote control of the single air conditioner; the control of the electric valve and the fan can be realized by connecting with the electric valve and the fan of the central air-conditioning fan coil, and the indoor air temperature regulation is realized; the running state of the temperature controller is known in real time through remote monitoring; meanwhile, the intelligent monitoring system can be matched with a sensing input module, is connected with sensors of temperature and humidity, collects environmental quantity data in real time and realizes intelligent monitoring according to different control strategies;

the terminal is provided with various communication modules, and various indoor informationized terminal devices or subsystems with an external communication function, such as a security system, an access control system, an attendance system and a video monitoring system, can be accessed into the terminal through communication protocol conversion to form an organic unified system, so that the information exchange of the subsystems is completed, and the centralized monitoring and linkage control of all the subsystems are realized;

the intelligent control panel is arranged indoors and is communicated and associated with the comprehensive energy management terminal, so that local graphical data display and control management can be realized; manual touch operation; displaying data of power consumption parameters, power quality, environment quantity, equipment state quantity and alarm information in real time; the intelligent mode operation of one-key opening, one-key closing and one-key energy saving can be realized; energy consumption data statistics and analysis can be carried out.

The invention provides a plurality of flexible energy-saving control modes which comprise remote control, group control, timing control, automatic control, wind speed control and water valve control, and change intelligent regulation and control according to consumption-reducing indexes, user requirements and environmental quantities; the illumination monitoring can actively detect indoor personnel activities, ambient light intensity and the like, intelligently turn on and off the light source, regularly and quantitatively control the indoor light source through remote management, effectively change the waste phenomena of the pilot lights and the like, and save electric energy; the intelligent socket can monitor the power consumption and the electric energy quality of each electric device related to the socket according to the needs of a user, and can perform remote time-sharing control; the split air conditioner performs automatic power supply or power off control according to a set environmental temperature threshold, a set time interval or a remote command, performs temperature setting control according to a set temperature regulation limit, and controls the standby and operation of the outdoor unit according to the set temperature; various informationized terminal devices or subsystems are integrated to form an organic unified system for centralized monitoring and linkage control.

In the implementation of the invention, the indoor environment quantity is sensed through the comprehensive energy management terminal and the intelligent control panel, centralized intelligent monitoring management is carried out on the lighting, the socket, the air conditioner and other electric facilities subentry power utilization loops, equipment and other information energy utilization systems, the monitoring, the measurement, the control and the management integration of the indoor power utilization are realized, real-time online metering, intelligent monitoring, control and regulation are carried out on each power utilization link, and the automation of the energy management, the safe energy utilization, the energy efficiency improvement, the energy utilization quality monitoring, the real-time interaction of various energy information and the resource sharing are realized.

Example two

Referring to fig. 3 and 4, fig. 3 is a schematic flow chart of an integrated management method for indoor power consumption in an embodiment of the present invention, and fig. 4 is a specific control logic flow chart of the integrated management method for indoor power consumption in an embodiment of the present invention.

As shown in fig. 3 and 4, a comprehensive management method for indoor power utilization, which is based on the above comprehensive management system for indoor power utilization to realize control, includes:

s1: the indoor electricity comprehensive management system has no abnormal fault signal and is in a normal state;

in the specific implementation process of the invention, the alarm signal of the comprehensive management system level of the indoor power utilization is used as the operation allowable condition of the whole comprehensive management system of the indoor power utilization; the indoor power comprehensive management system monitors the running state of the indoor power comprehensive management system, when an indoor power comprehensive management system level alarm signal of failure and communication abnormality of the indoor power comprehensive management system is received, logic judgment of the subsequent method flow is not carried out, manual intervention is needed, problems are found and repaired, and the method flow steps from S12 to S14 cannot be started until the indoor power comprehensive management system level alarm is relieved; if the comprehensive management system for indoor electricity utilization has no abnormal fault signal and the state is normal, the subsequent method flow steps from S12 to S14 are normally performed.

S2: setting parameters of the comprehensive energy management terminal based on the intelligent control panel, and acquiring data information based on the comprehensive energy management terminal;

in a specific implementation process of the present invention, the setting of the parameters of the integrated energy management terminal based on the intelligent control panel includes: setting the frequency of acquiring the environmental quantity parameters for the sensing input module in the comprehensive energy management terminal based on the intelligent control panel; setting data information acquisition frequencies of accessed electric equipment, an electric loop and an information electric system for the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module and the communication module in the comprehensive energy management terminal respectively based on the intelligent control panel; specifically, the intelligent control panel is used for setting data information acquisition frequencies of electric equipment, an electric loop and an information electric system which are accessed by the lighting control module to the lighting control module in the comprehensive energy management terminal; setting data information acquisition frequencies of electric equipment, an electric loop and an information electric system which are accessed by the single-phase monitoring module on the basis of the intelligent control panel for the single-phase monitoring module in the comprehensive energy management terminal; setting data information acquisition frequencies of electric equipment, an electric loop and an information electric system which are accessed by the three-phase monitoring module on the basis of the intelligent control panel for the three-phase monitoring module in the comprehensive energy management terminal; setting data information acquisition frequencies of electric equipment, an electric loop and an information electric system which are accessed by the air conditioner monitoring module based on the intelligent control panel for the air conditioner monitoring module in the comprehensive energy management terminal; and setting data information acquisition frequencies of electric equipment, an electric loop and an information electric system which are accessed by the communication module based on the intelligent control panel to the communication module in the comprehensive energy management terminal.

In a specific implementation process of the present invention, the acquiring data information based on the integrated energy management terminal includes: acquiring data information based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the integrated energy management terminal; specifically, the data information of the electric equipment, the electric circuit and the information-based electric system connected to the lighting control module is collected based on the lighting control module in the integrated energy management terminal, the data information of the electric equipment, the electric circuit and the information-based electric system connected to the single-phase monitoring module is collected based on the data information of the electric equipment, the electric circuit and the information-based electric system connected to the three-phase monitoring module in the integrated energy management terminal is collected based on the data information of the electric equipment, the electric circuit and the information-based electric system connected to the air conditioner monitoring module in the integrated energy management terminal is collected based on the data information of the electric equipment, the electric circuit and the information-based electric system connected to the communication module in the integrated energy management terminal, Collecting data information of the power utilization loop and the information power utilization system; and acquiring environmental quantity data information based on the sensing input module in the comprehensive energy management terminal.

S3: carrying out automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result;

in the specific implementation process of the present invention, the performing automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result includes: based on the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module, respectively transmitting the data to the processor for automatic configuration logic assignment operation to obtain an operation result; and respectively transmitting the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module to the intelligent control panel for manual operation logic assignment operation to obtain an operation result.

S4: and outputting the instruction of the operation result based on the comprehensive energy management terminal, and returning to the indoor power utilization comprehensive management system to be in a normal state without an abnormal fault signal.

In a specific implementation process of the present invention, the instruction for outputting the operation result based on the integrated energy management terminal includes: outputting the instruction of the operation result based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the integrated energy management terminal respectively; in addition, operation and maintenance personnel can manually assign values to realize manual control of each subsystem device; the flow steps are repeated in a circulating mode, and finally automatic monitoring and manual monitoring of the system are achieved.

In the implementation of the invention, the indoor environment quantity is sensed through the comprehensive energy management terminal and the intelligent control panel, centralized intelligent monitoring management is carried out on the lighting, the socket, the air conditioner and other electric facilities subentry power utilization loops, equipment and other information energy utilization systems, the monitoring, the measurement, the control and the management integration of the indoor power utilization are realized, real-time online metering, intelligent monitoring, control and regulation are carried out on each power utilization link, and the automation of the energy management, the safe energy utilization, the energy efficiency improvement, the energy utilization quality monitoring, the real-time interaction of various energy information and the resource sharing are realized.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic or optical disk, or the like.

In addition, the above-mentioned detailed description is provided for the comprehensive management system and method for indoor power utilization provided by the embodiment of the present invention, and a specific example should be adopted herein to explain the principle and the implementation manner of the present invention, and the description of the above-mentioned embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An integrated management system for indoor electricity utilization, the system comprising: the intelligent control system comprises an integrated energy management terminal and an intelligent control panel connected with the integrated energy management terminal; wherein the content of the first and second substances,

the comprehensive energy management terminal is used for measuring and monitoring the state information of each loop and controlling the remote power-on or remote power-off of each loop;

the intelligent control panel is used for displaying an interface in a graphical mode and performing touch operation, and is combined with the comprehensive energy management terminal to control the local electric equipment in a centralized mode.

2. The integrated management system for indoor electricity consumption according to claim 1, wherein the integrated energy management terminal comprises: the system comprises a processor, an illumination control module, a single-phase monitoring module, a three-phase monitoring module, an air conditioner monitoring module, a sensing input module and a communication module; wherein the content of the first and second substances,

the processor, the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module are respectively integrated on the comprehensive energy management terminal; the processor is in signal connection with the illumination control module, the processor is in signal connection with the single-phase monitoring module, the processor is in signal connection with the three-phase monitoring module, the processor is in signal connection with the air conditioner monitoring module, the processor is in signal connection with the sensing input module, and the processor is in signal connection with the communication module.

3. The integrated management system for indoor electricity consumption of claim 2, wherein the lighting control module is connected with a lighting circuit; the single-phase monitoring module is connected with the socket; the three-phase monitoring module is connected with the socket; the air conditioner monitoring module is connected with an air conditioner system; the sensing input module is connected with an environmental system; the communication module is connected with other electric facilities.

4. The integrated management system for indoor electricity consumption of claim 3,

the illumination control module is used for monitoring the state information of an illumination loop and controlling the illumination loop to be electrified or powered off remotely;

the single-phase monitoring module is used for measuring and monitoring the power consumption and the power quality of a single-phase loop of the socket and controlling the remote power-on or remote power-off of the single-phase loop;

the three-phase monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of a three-phase loop of the socket and controlling the remote electrification or remote outage of the three-phase loop;

the air conditioner monitoring module is used for measuring and monitoring the power consumption and the electric energy quality of an air conditioner and carrying out remote start or remote stop control, time-sharing control or temperature control on the air conditioner;

the sensing input module is used for receiving switching value input signals or analog input signals of various environmental quantities in an environmental system to sense environmental information;

the communication module is used for measuring and monitoring other power utilization facilities and interfacing data of various communication devices or third-party systems with different communication protocols.

5. The integrated management system for indoor electricity consumption according to claim 1 or 2, wherein the integrated energy management terminal further comprises: the device comprises a clock module, a video module, a network module and a power module; the clock module, the video module, the network module and the power module are respectively integrated on the comprehensive energy management terminal; the clock module is in signal connection with the processor, the video module is in signal connection with the processor, the network module is in signal connection with the processor, and the power module is in signal connection with the processor.

6. An indoor electricity comprehensive management method, characterized in that the method is controlled based on the indoor electricity comprehensive management system of claims 1-5, wherein the method comprises:

the indoor electricity comprehensive management system has no abnormal fault signal and is in a normal state;

setting parameters of the comprehensive energy management terminal based on the intelligent control panel, and acquiring data information based on the comprehensive energy management terminal;

carrying out automatic configuration logic assignment operation and manual operation logic assignment operation on the acquired data information to obtain an operation result;

and outputting the instruction of the operation result based on the comprehensive energy management terminal, and returning to the indoor power utilization comprehensive management system to be in a normal state without an abnormal fault signal.

7. The integrated management method for indoor electricity consumption according to claim 6, wherein the setting of the parameters of the integrated energy management terminal based on the intelligent control panel comprises:

setting the frequency of acquiring the environmental quantity parameters for the sensing input module in the comprehensive energy management terminal based on the intelligent control panel;

the intelligent control panel is used for setting data information acquisition frequencies of the accessed electric equipment, the power utilization loop and the information power utilization system for the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module and the communication module in the comprehensive energy management terminal respectively.

8. The integrated management method for indoor power utilization according to claim 6, wherein the collecting of data information based on the integrated energy management terminal comprises:

and acquiring data information based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the comprehensive energy management terminal.

9. The comprehensive management method for indoor electricity consumption according to claim 6 or 8, wherein the performing of the automatic configuration logic assignment operation and the manual operation logic assignment operation on the collected data information to obtain the operation result comprises:

based on the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module, respectively transmitting the data to the processor for automatic configuration logic assignment operation to obtain an operation result;

and respectively transmitting the data collected by the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module to the intelligent control panel for manual operation logic assignment operation to obtain an operation result.

10. The integrated management method for indoor electricity consumption according to claim 6 or 9, wherein the instruction based on the operation result output from the integrated energy management terminal includes:

and outputting the instruction of the operation result based on the illumination control module, the single-phase monitoring module, the three-phase monitoring module, the air conditioner monitoring module, the sensing input module and the communication module in the comprehensive energy management terminal respectively.

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