CN107741710A - A kind of building energy consumption intelligent cloud management control system and method - Google Patents

Abstract

The present invention relates to a kind of building energy consumption intelligent cloud management control system, including central processing unit, input control circuit, output control circuit, equipment cloud telecommunication circuit, cloud processing platform and monitoring of tools mechanism；A kind of control method is further related to, is comprised the following steps：S01. the real time energy consumption data of monitoring of tools mechanism collection Architectural Equipment, and the energy consumption data of collection is pushed into Ali's cloud front end；S02. Ali's cloud front end carries out backstage big data intellectual analysis to the energy consumption data of collection, and optimizes the operational factor of Architectural Equipment；S03. the operational factor after optimization is sent to central processing unit by Ali's cloud front end；S04. central processing unit controls each Architectural Equipment to be run according to the Optimal Parameters of Ali's cloud front end.The present invention passes through such scheme, current collection, water, cold, warm Acquisition Circuit, using the existing efficiency of equipment mysorethorn and equipment state management, are analyzed using big data and realize energy-conservation and automatically control, it is more to solve public building common equipment management aspect manpower, the present situation of high energy consumption.

Description

A kind of building energy consumption intelligent cloud management control system and method

Technical field

The present invention relates to cloud management field, more particularly to a kind of building energy consumption intelligent cloud management control system and method.

Background technology

The supervision and check of the construction of building energy consumption monitoring system and reinforcement to air-conditioner temperature control situation is in the prior art Following technological deficiency be present in system：

1. underlying device gathered data information incessantly, makes CPU handle substantial amounts of data, cause CPU heatings serious；

2. simple carries out data processing by CUP so that data processing is slow, inefficient；

3. user can not obtain the service data for detecting live energy consumption equipment in real time, energy consumption diagnosis, assessment and energy cannot be carried out Consumption transformation；To realize the dynamic monitoring and analysis to building energy consumption, the fine-grained management and control of building are realized so that energy consumption mistake Greatly, the wasting of resources is caused.

The content of the invention

For defect present in prior art or deficiency, the technical problems to be solved by the invention are：A kind of energy is provided Enough solutions in the prior art can not be to the cloud management control system of the technical problem of building energy consumption dynamic monitoring.

To achieve these goals, the technical scheme that the present invention takes controls to provide a kind of building energy consumption intelligence cloud management System, including central processing unit, input control circuit, output control circuit, equipment cloud telecommunication circuit, cloud processing platform and equipment Monitor control mechanism；The central processing unit is double respectively at the input control circuit, output control circuit and equipment cloud telecommunication circuit It is connected；The output end of the output control circuit is connected with the input of the monitoring of tools mechanism, the monitoring of tools machine The output end of structure is connected with the input of the input control circuit；The equipment cloud telecommunication circuit passes through serial communication interface electricity Road is connected with the cloud processing platform；Wherein, the monitoring of tools mechanism：For gather in real time be dispersed in the electricity of various regions, water, Cold, warm consumption data；The cloud processing platform：Real time data for being gathered to the monitoring of tools mechanism carries out processing point Analysis.

As a further improvement on the present invention, the control system also includes mobile terminal：Described set is browsed for user The running status of standby monitor control mechanism.

As a further improvement on the present invention, what the control system also included being connected with the central processing unit two-phase touches Touch screen display circuit, the touch-screen display circuit：For the data processed result of cloud processing platform described in real-time display and institute State the running status of monitoring of tools mechanism.

As a further improvement on the present invention, the central processing unit is the single-chip microcomputer of STM32 series.

As a further improvement on the present invention, the central processing unit is ARM series embeded processors.

As a further improvement on the present invention, the input control circuit includes 16 road DI digital quantities input channels, 16 tunnels Analog input channel and 1 tunnel exchange 230V input terminals.

As a further improvement on the present invention, the output control circuit includes 4 road DC24V direct current outputs passages, 8 ways Word amount output channel and 8 tunnel analog output channels.

As a further improvement on the present invention, the equipment cloud telecommunication circuit includes 2 road Ethernets, 2 road RS485, wherein, The serial communication interface circuit is RS-232 communication interfaces integrated circuit, USB turns any one in serial communication integrated circuit Kind.

A kind of building energy consumption intelligent cloud management control method, comprises the following steps：

S01. the real time energy consumption data of monitoring of tools mechanism collection Architectural Equipment, and the energy consumption data of collection is pushed into Ali's cloud Front end；

S02. Ali's cloud front end carries out backstage big data intellectual analysis to the energy consumption data of collection, and optimizes the operation of Architectural Equipment Parameter；

S03. the operational factor after optimization is sent to central processing unit by Ali's cloud front end；

S04. central processing unit controls each Architectural Equipment to be run according to the Optimal Parameters of Ali's cloud front end.

As a further improvement on the present invention, in step S02, Ali's cloud front end is according to customized agreement to collecting Energy consumption data is classified.

As a further improvement on the present invention, the classification includes electric current, electricity, cold, water and temperature.

As a further improvement on the present invention, in step S02, Ali's cloud front end is by the energy consumption data of collection with gathering in the past Energy consumption data contrasted, draw difference.

As a further improvement on the present invention, in step S02, Ali's cloud front end is by the energy consumption data and national standard of collection Data are contrasted.

As a further improvement on the present invention, step S03 also includes：Energy consumption data after processing is transmitted Ali's cloud front end To terminal real-time display；If the energy consumption data after processing exceedes carries out failure in the default energy consumption data threshold value of terminal, terminal Operation prompting, and according to the default troubleshooting sequential processes of terminal.

As a further improvement on the present invention, the efficiency of terminal real-time display Architectural Equipment, load factor, comfort level, failure Rate, year-on-year data and net compare data.

The beneficial effects of the invention are as follows：The present invention is, sharp by such scheme, current collection, water, cold, warm Acquisition Circuit With the existing efficiency of equipment mysorethorn and equipment state management, analyzed using big data and realize energy-conservation and automatically control, solve public building Common equipment management aspect manpower is more, the present situation of high energy consumption, can such as be used in the architectural electric facility such as library, hospital, hotel And the place of metering relative distribution, can solve that public building equipment control human cost is high, equipment Operating ettectiveness is low asks emphatically Topic, human cost is saved by the monitoring of tools of mobile Internet, analyzed by big data, guide controlled pair of artificial intelligent drives As constantly realizing energy-conservation with saving artificial purpose from optimizingization.

Brief description of the drawings

Fig. 1 is block diagram provided by the invention；

Fig. 2 is flow chart provided by the invention.

Embodiment

The present invention is further described for explanation and embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, the present invention includes central processing unit, input control circuit, output control circuit, equipment cloud communication electricity Road, cloud processing platform and monitoring of tools mechanism；The central processing unit is respectively at the input control circuit, output control circuit And equipment cloud telecommunication circuit two-phase connection；The input phase of the output end of the output control circuit and the monitoring of tools mechanism Even, the output end of the monitoring of tools mechanism is connected with the input of the input control circuit；The equipment cloud telecommunication circuit It is connected by serial communication interface circuit with the cloud processing platform；Wherein, the monitoring of tools mechanism：Divide for gathering in real time Electricity, water, cold, the warm consumption data being blown to the four wind；The cloud processing platform：For the reality gathered to the monitoring of tools mechanism When data carry out Treatment Analysis.Specifically, the control system also includes mobile terminal：The monitoring of tools is browsed for user The running status of mechanism.The control system also includes the touch-screen display circuit being connected with the central processing unit two-phase, institute State touch-screen display circuit：Data processed result for cloud processing platform described in real-time display.The central processing unit is The single-chip microcomputer of STM32 series.The central processing unit is ARM series embeded processors.The input control circuit includes 16 Road DI digital quantities input channel, 16 tunnel analog input channels and 1 tunnel exchange 230V input terminals；The output control circuit bag Include 4 road DC24V direct current outputs passages, 8 railway digital amount output channels and 8 tunnel analog output channels；The equipment cloud communication electricity Road include 2 road Ethernets, 2 road RS485, wherein, the serial communication interface circuit be RS-232 communication interfaces integrated circuit, USB turns any one in serial communication integrated circuit.

Use the wireless systems such as traditional GSM, WLAN, SCADA both at home and abroad at present and carry out being wirelessly transferred for energy consumption data, its With power consumption is high, equipment and operating cost are high, networking is dumb etc., limitation, the present invention support 3/4G, 433MHz wireless telecommunications, can By the subsystem mixed networking such as gate control system, intelligent lighting, airconditioning control, warning system, one group of bus is shared.The present invention passes through Wireless self-networking mode automatic data collection is dispersed in the real time data such as the electricity of various regions, water, cold, warm, enables users to monitoring field at any time The service data of energy consumption equipment, the analysis of new large database concept are directly handled in server memory matrix, make big data analysis excellent The operational factor of change instructs system optimal to run；Equipment control based on big data and cloud processing platform, saves manual meter reading, event Barrier prediction, inspection, reduce artificial, saving human cost.

Analysis and evaluation decision-making based on cloud processing platform, real-time online modification control targe parameter, makes equipment be in efficient Operation, efficiency is improved, reaches effects of energy saving and emission reduction.

A kind of intelligent cloud tube controller provided by the invention, the one-stop solution intelligent building data collection problems of energy, branch Hold the analog input such as DC24V, AC220V On-off signal, support temperature, pressure, support electric quantity data acquisition, support flow, Cold data access, the communication modes such as Ethernet, RS485, RS232 are supported, support 3/4G, 433MHz wireless telecommunications, can use In library, hospital, the architectural electric facility such as hotel and the place for measuring relative distribution can solve public building equipment pipe emphatically The problem of human cost is high, equipment Operating ettectiveness is low is managed, human cost is saved by the monitoring of tools of mobile Internet, by big Data analysis, artificial intelligent drives controlled device is guided constantly to realize energy-conservation and section people from optimizing.

A kind of building energy consumption intelligent cloud management control method, comprises the following steps：

S01. the real time energy consumption data of monitoring of tools mechanism collection Architectural Equipment, and the energy consumption data of collection is pushed into Ali's cloud Front end；

S02. Ali's cloud front end carries out backstage big data intellectual analysis to the energy consumption data of collection, and optimizes the operation of Architectural Equipment Parameter；

S03. the operational factor after optimization is sent to central processing unit by Ali's cloud front end；

S04. central processing unit controls each Architectural Equipment to be run according to the Optimal Parameters of Ali's cloud front end.

Monitoring of tools mechanism gathers the energy consumption data of Architectural Equipment in real time, and energy consumption data is pushed into Ali's cloud front end, The energy consumption data received is classified in Ali's cloud front end, usually according to customized agreement be divided into electric current, electricity, cold, Water and the major class of temperature five, can also more be refined.

The mode of analysis of Ali's cloud front end to energy consumption data has year-on-year and net ratio two ways, on year-on-year basis：Freshly harvested energy Consumption data are contrasted with the energy consumption data gathered in the past, and the data of same type are contrasted, voltage and voltage ratio, electric current and electricity Flow ratio, difference after contrast carries out background intelligent analysis and processing to high in the clouds, with reference to net than data, through algorithm draw one it is optimal Control parameter；Net ratio：Freshly harvested energy consumption data and national standard data or voltage, electric current, work(with equipment nominal operation The data such as rate are contrasted.Afterwards, Ali's cloud front end draws the optimization of Architectural Equipment according to the energy consumption data after analyzing and processing Operational factor, specific optimization method are to pass through feedback regulation：By carrying out large closed-loop control based on pid algorithm, automatic adjust is realized Section.This time the energy consumption data of collection is contrasted with the energy consumption data gathered in the past, bigger than old energy consumption data, and next time, output was small A bit, smaller than old energy consumption data, output next time is a little big, a running status for allowing system to tend towards stability.Then will be excellent The operational factor of change is sent to central processing unit, and central processing unit controls the operation of Architectural Equipment according to operational factor again, such as Run power etc..Ali's cloud front end, can also be by the energy consumption number after processing while operational factor is sent into central processing unit Shown according to mobile terminal is sent to；The running status of equipment can be inquired about by mobile terminal, the failure of Architectural Equipment Early warning is shown, troubleshooting order is shown.Mobile terminal can also be to load factor, comfort level, fault rate, same when net ratio etc. six Dimension real-time display.

If the energy consumption data after Ali's cloud front-end processing is sent to more than the preset value of mobile terminal after mobile terminal, will Fault pre-alarming is carried out in mobile terminal to show, and the troubleshooting order set according to mobile terminal carries out sequential processes；Than It is first according to the order preset such as water pump occurs that discharge pressure is too high, motor temperature is too high, the too fast failure of running frequency simultaneously Solve stress problems, then solve temperature problem, solve frequency issues again.Troubleshooting order is can to require oneself according to user Think which important is first solved with regard to which.The same faulty solution order of slave unit, distinct device also have order, such as cold water Machine and water pump break down simultaneously, first solve water pump and solve cooling-water machine again.Energy consumption data after analysis sends mobile terminal to, moves Dynamic terminal can come out the efficiency of Architectural Equipment, load factor, comfort level, fault rate, on year-on-year basis/net than data real-time display.

Above content is to combine specific preferred embodiment further description made for the present invention, it is impossible to is assert The specific implementation of the present invention is confined to these explanations.For general technical staff of the technical field of the invention, On the premise of not departing from present inventive concept, some simple deduction or replace can also be made, should all be considered as belonging to the present invention's Protection domain.

Claims (15)

1. A kind of 1. building energy consumption intelligent cloud management control system, it is characterised in that including central processing unit, input control circuit, Output control circuit, equipment cloud telecommunication circuit, cloud processing platform and monitoring of tools mechanism；The central processing unit is respectively at described Input control circuit, output control circuit and the connection of equipment cloud telecommunication circuit two-phase；The output end of the output control circuit with The input of the monitoring of tools mechanism is connected, the output end of the monitoring of tools mechanism and the input of the input control circuit End is connected；The equipment cloud telecommunication circuit is connected by serial communication interface circuit with the cloud processing platform；Wherein, it is described to set Standby monitor control mechanism：For gathering the electricity for being dispersed in various regions, water, cold, warm consumption data in real time；The cloud processing platform：For Treatment Analysis is carried out to the real time data of monitoring of tools mechanism collection.
2. 2. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the control system is also Including mobile terminal：The running status of the monitoring of tools mechanism is browsed for user.
3. 3. building energy consumption intelligent cloud management control system according to claim 2, it is characterised in that the control system is also Including the touch-screen display circuit being connected with the central processing unit two-phase, the touch-screen display circuit：For real-time display The running status of the data processed result of the cloud processing platform and the monitoring of tools mechanism.
4. 4. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the central processing unit For the single-chip microcomputer of STM32 series.
5. 5. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the central processing unit For ARM series embeded processors.
6. 6. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the input control electricity Road includes 16 road DI digital quantities input channels, 16 tunnel analog input channels and 1 tunnel exchange 230V input terminals.
7. 7. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the output control electricity Road includes 4 road DC24V direct current outputs passages, 8 railway digital amount output channels and 8 tunnel analog output channels.
8. 8. building energy consumption intelligent cloud management control system according to claim 1, it is characterised in that the equipment cloud communication Circuit include 2 road Ethernets, 2 road RS485, wherein, the serial communication interface circuit be RS-232 communication interfaces integrated circuit, USB turns any one in serial communication integrated circuit.
9. 9. a kind of building energy consumption intelligent cloud management control method, it is characterised in that comprise the following steps：

   S01. the real time energy consumption data of monitoring of tools mechanism collection Architectural Equipment, and the energy consumption data of collection is pushed into Ali's cloud Front end；

   S02. Ali's cloud front end carries out backstage big data intellectual analysis to the energy consumption data of collection, and optimizes the operation of Architectural Equipment Parameter；

   S03. the operational factor after optimization is sent to central processing unit by Ali's cloud front end；

   S04. central processing unit controls each Architectural Equipment to be run according to the Optimal Parameters of Ali's cloud front end.
10. 10. building energy consumption intelligent cloud management control method according to claim 9, it is characterised in that in step S02, Ah In cloud front end the energy consumption data collected is classified according to customized agreement.
11. 11. building energy consumption intelligent cloud management control method according to claim 10, it is characterised in that the classification includes Electric current, electricity, cold, water and temperature.
12. 12. building energy consumption intelligent cloud management control method according to claim 11, it is characterised in that in step S02, Ah In cloud front end the energy consumption data of collection is contrasted with the energy consumption data gathered in the past, draw difference.
13. 13. building energy consumption intelligent cloud management control method according to claim 10, it is characterised in that in step S02, Ah In cloud front end the energy consumption data of collection and national standard data are contrasted.
14. 14. the building energy consumption intelligent cloud management control method according to claim 12 or 13, it is characterised in that step S03 Also include：Energy consumption data after processing is sent to mobile terminal real-time display by Ali's cloud front end；If the energy consumption data after processing More than in the default energy consumption data threshold value of mobile terminal, then terminal progress failure operation prompting, and default according to mobile terminal Troubleshooting sequential processes.
15. 15. building energy consumption intelligent cloud management control method according to claim 14, it is characterised in that mobile terminal is real-time Efficiency, load factor, comfort level, fault rate, year-on-year data and the net of display Architectural Equipment compare data.