CN105373000A - Smart community platform control system and method based on 'Internet +' - Google Patents

Abstract

The invention relates to a smart community platform control system and method based on 'Internet +'. The control system comprises a centralized control platform, a solar photovoltaic power generation system, a solar water heating system, a rainwater comprehensive utilization control system, a GSHP (Ground Source Heat Pump) air conditioning system, and a management personnel monitoring terminal, wherein the solar photovoltaic power generation system, the solar water heating system, the rainwater comprehensive utilization control system, the GSHP air conditioning system and the management personnel monitoring terminal are connected with the centralized control platform through a network. The control method comprises the steps that the management personnel monitoring terminal publishes an instruction and transmits the instruction to the centralized control platform; the centralized control platform transmits a corresponding control signal to the solar photovoltaic power generation system, the solar water heating system, the rainwater comprehensive utilization control system and the GSHP air conditioning system, and controls the operation of all systems; all sensing signals of all systems are transmitted to the centralized control system, and then are transmitted to the management personnel monitoring terminal through the centralized control platform; and a manager can monitor the states of all systems at any time through a computer or a cellphone. The system can operate all systems at the same time, at any time or at any places through the computer or the cellphone, is flexible and convenient in control, and improves the efficiency.

Description

Based on intelligence community platform control system and the control method of " internet+"

Technical field

The present invention relates to a kind of intelligent dwelling district, intelligent building, particularly relate to a kind of intelligence community platform control system based on " internet+" and control method, to community, building carry out intelligent comprehensive control with energy consumption systems such as water, electricity consumption and air-conditionings.

Background technology

Along with the development of science and technology, wisdom community, intelligent building is day by day popularized, in order to reach the object of energy-conserving and environment-protective, there is rainwater recycling system, solar water heating system, solar photovoltaic generation system, the systems such as geothermal heat pump air-conditioning system and greening spray irrigation system, but the control of each system is at present independent separately, some still needs artificial participation, when run, when stop, how to operate the subjective judgement still depending on property management personnel, and it is distant between the equipment machine room of often each system, control operation is simultaneously inconvenient, cannot accomplish at any time, controlled everywhere, control inconvenient, efficiency is lower, intelligent, automaticity is not high.

Summary of the invention

The control that the present invention mainly solves each system original is independent separately, and control operation is simultaneously inconvenient, cannot accomplish at any time, controlled everywhere, and control inconvenient, efficiency is lower, the technical matters intelligent, automaticity is not high; A kind of intelligence community platform control system based on " internet+" and control method are provided, it is based on intelligence community platform, utilize network, add function not increasing in equipment Foundations, computer and mobile phone all can operate, can conveniently manipulate each system, realization can to each system simultaneously, the object that manipulates at any time, everywhere, strengthen the globality to each Systematical control and convenience, control flexibly, convenient, raise the efficiency, intelligent, automaticity is high.

Above-mentioned technical matters of the present invention is mainly solved by following technical proposals: the intelligence community platform control system based on " internet+" of the present invention, comprise solar photovoltaic generation system, solar water heating system, rainwater comprehensive utilization control system, geothermal heat pump air-conditioning system, middle control platform and managerial personnel's monitor terminal, solar photovoltaic generation system, solar water heating system, geothermal heat pump air-conditioning system and rainwater comprehensive utilization control system are connected with described middle control platform is wired or wireless respectively, middle control platform is connected with described managerial personnel's monitor terminal is wired or wireless.By wired or wireless network by the control integration of solar photovoltaic generation system, solar water heating system, geothermal heat pump air-conditioning system and rainwater comprehensive utilization control system to middle control platform, i.e. intelligence community platform, managerial personnel's monitor terminal can understand the duty of each system in real time by middle control platform, managerial personnel's monitor terminal comprises the computer and/or mobile phone that are provided with intelligence community monitoring software, on computer or mobile phone, issuing command gives middle control platform, send corresponding control signal respectively by middle control platform again, control each system works.The technical program is based on intelligence community platform, utilize network, add function not increasing in equipment Foundations, computer and mobile phone all can operate, can conveniently manipulate each system, realize can to each system simultaneously, the object that manipulates at any time, everywhere, strengthen the globality to each Systematical control and convenience, control flexibly, convenient, raise the efficiency, intelligent, automaticity is high.

As preferably, described geothermal heat pump air-conditioning system comprises water pump power consumption measuring apparatus, water inlet end temperature sensor, water side temperature sensor, compressor state collecting device, water circulating pump state collecting device, indoor infrared induction pick-up and earth source heat pump supervising device, water pump power consumption measuring apparatus, water inlet end temperature sensor, water side temperature sensor, compressor state collecting device, the output terminal of water circulating pump state collecting device and indoor infrared induction pick-up is connected with the input end of described earth source heat pump supervising device respectively, the output terminal of earth source heat pump supervising device is connected with air-conditioning temperature control circuit, earth source heat pump supervising device is connected with described middle control platform is wired or wireless.Water inlet end temperature sensor, water side temperature sensor distinguish water inlet end temperature and the water side temperature of locality source heat pump air-conditioning system, understand system works efficiency, water pump power consumption measuring apparatus gathers water pump power consumption situation, understand entire system power consumption, user is made to understand native system power consumption, being understood the working order of each pump by the state collecting device of each pump, can overhaul in time as broken down.Indoor infrared induction pick-up is connected in a wireless or wired way with earth source heat pump supervising device, and there have in sensing chamber to be unmanned movable, and controlled air-conditioning temperature control circuit by earth source heat pump supervising device.According to indoor with or without personnel activity's Intelligent adjustment room conditioning cooling and warming temperature, the object of economize energy can be reached, adds the intelligence degree of house.

As preferably, described solar photovoltaic generation system comprises Alternative Voltage Converter, AC current transformer, DC voltage transmitter, DC current transformer and solar electrical energy generation supervising device, the input end of Alternative Voltage Converter, the input end of AC current transformer respectively with the alternating current pressure side of solar inverter switch cubicle, alternating current end is connected, the input end of DC voltage transmitter, the input end of DC current transformer respectively with the direct current pressure side of header box incoming line switch cabinet, DC current end is connected, Alternative Voltage Converter, AC current transformer, the output terminal of DC voltage transmitter and DC current transformer is connected with the input end of described solar electrical energy generation supervising device respectively, the electric energy metrical output terminal of power supply administration's ammeter is also connected with described solar electrical energy generation supervising device, solar electrical energy generation supervising device is connected with described middle control platform is wired or wireless.Control on-the-spot photovoltaic generation performance at any time, if In situ DC side voltage occurs abnormal, on-site generated power situation can be controlled in time, fix a breakdown.Real-time Collection photovoltaic power generation quantity, allows user understand solar energy power generating situation at any time simultaneously.

As preferably, described solar water heating system comprises heat collector temperature sensor, water tank temperature sensor, Tube Temperature Sensor, high water tank meter, small pump state collecting device, ebullator state collecting device, heat pump state collecting device and solar water supervising device, heat collector temperature sensor, water tank temperature sensor, Tube Temperature Sensor, high water tank meter, small pump state collecting device, the output terminal of ebullator state collecting device and heat pump state collecting device is connected with the input end of described solar water supervising device respectively, solar water heating system is also provided with the water meter of the rate of water make-up gathering solar water heating system and gathers the ammeter of solar water heating system power consumption, water meter, the metering output terminal of ammeter is connected with the input end of described solar water supervising device respectively, solar water supervising device is connected with described middle control platform is wired or wireless.To solar water heating system, each position hot water temperature carries out real time on-line monitoring, ensure the normal operation of solar water heating system, make user can enjoy comfortable temperature at any time, and by the on-line monitoring to each control pump state, understand the ruuning situation of each water pump, grasp each water pump performance, ensure the normal operation of whole system.

As preferably, described rainwater comprehensive utilization control system comprises rain collector, rain water drainage treating apparatus, rainwater collection pool, clear water reserviors, greening rainer, garage flusher, rain sensor, landscape pond and rainwater comprehensive utilization supervising device, rain sensor is located at outdoor, rain collector is located at building roof, rainwater inlet pipeline is connected between rain collector and rain water drainage treating apparatus, blowoff line is connected between rain water drainage treating apparatus and municipal drainage pipeline, described blowoff line is provided with rain water drainage electric butterfly valve, water lines in connecting between rain water drainage treating apparatus and rainwater collection pool, rainwater collection pool is lift pump after filtration, hay tank, rainwater reuse lift pump is connected with described clear water reserviors, the outlet pipeline of clear water reserviors respectively with described greening rainer, garage flusher is connected, the outlet pipeline of described clear water reserviors is provided with middle water electric butterfly valve, described greening rainer is provided with sprinkling irrigation solenoid valve, described garage flusher is provided with scouring electromagnetic valve, clear water reserviors are connected with municipal water supply pipeline, municipal water supply pipeline is provided with municipal water supply electric butterfly valve, clear water reserviors are connected with landscape pond through landscape pond small pump, landscape pond reuse water pipe is connected with between landscape pond and described rainwater collection pool, landscape pond reuse water pipe is provided with reuse moisturizing solenoid valve, stormwater tank liquid level gauge is provided with in described rainwater collection pool, clear water reserviors liquid level gauge is provided with in described clear water reserviors, landscape pond liquid level gauge is provided with in described landscape pond, described stormwater tank liquid level gauge, clear water reserviors liquid level gauge, the output terminal of landscape pond liquid level gauge and rain sensor and described rain water drainage electric butterfly valve, filter lift pump, rainwater reuse lift pump, middle water electric butterfly valve, sprinkling irrigation solenoid valve, scouring electromagnetic valve, municipal water supply electric butterfly valve, the control end of reuse moisturizing solenoid valve is connected with described rainwater comprehensive utilization supervising device respectively, rainwater comprehensive utilization supervising device is connected with described middle control platform is wired or wireless.According to the liquid level of rainwater collection pool, clear water reserviors and landscape pond, automatically control the start and stop of each valve, each pump in rainwater comprehensive utilization control system in conjunction with rainfall, weather forecast situation.By monitoring clear water reserviors liquid level, interlock feedwater, ensures that spray irrigation system and garage wash-down water can normally run at any time.When rainwater recycling each stage is run, when stop, how operating by system in conjunction with weather condition automatic decision automatically completing, it is more accurate to judge, it is more reasonable to control, various to the Land use systems of rainwater, improve research advances, save rainwater resource dramatically.

The control method of the intelligence community platform control system based on " internet+" of the present invention is: managerial personnel's monitor terminal comprises the computer and/or mobile phone that are provided with intelligence community monitoring software, on computer or mobile phone, issuing command controls platform by Internet Transmission in described, corresponding control signal is sent to described solar photovoltaic generation system respectively by network again by middle control platform, solar water heating system, rainwater comprehensive utilization control system and geothermal heat pump air-conditioning system, control each system works, described solar photovoltaic generation system, solar water heating system, each transducing signal of rainwater comprehensive utilization control system and geothermal heat pump air-conditioning system gives middle control platform by Internet Transmission, described managerial personnel's monitor terminal is given by Internet Transmission again by middle control platform, managerial personnel can monitor each system state at any time by computer or mobile phone.The technical program is based on intelligence community platform, utilize network, add function not increasing in equipment Foundations, computer and mobile phone all can operate, can conveniently manipulate each system, realize can to each system simultaneously, the object that manipulates at any time, everywhere, strengthen the globality to each Systematical control and convenience, control flexibly, convenient, raise the efficiency, intelligent, automaticity is high.

As preferably, the control method of the described intelligence community platform control system based on " internet+" comprises solar photovoltaic generation system control method and solar water heating system control method;

Solar photovoltaic generation system control method is: by the grid-connected end output voltage of Alternative Voltage Converter Real-time Collection, by the grid-connected end output current of AC current transformer Real-time Collection, by DC voltage transmitter Real-time Collection photovoltaic terminal voltage, by DC current transformer Real-time Collection photovoltaic end electric current, the generated energy of solar photovoltaic generation system is gathered by electric quantity collector, above-mentioned data flow to solar electrical energy generation supervising device respectively, again by solar electrical energy generation supervising device by network send to described in control platform, as occurred extremely then and alarm,

Solar water heating system control method is: gather the heat collector temperature of solar water heater, water tank temperature and pipe temperature respectively by each temperature sensor, the high water tank of solar water heater is gathered by liquid level gauge, above-mentioned data flow to solar water supervising device respectively, again by solar water supervising device by network send to described in control platform, the data as collected exceed setting value then and alarm; By each on-off model isolator external, the 220V working volts alternating current contact point signal of the small pump of solar water heater, ebullator and heat pump is converted to passive contact point signal and flows to solar water supervising device, again by solar water supervising device by network send to described in control platform, in real time control each water pump operation situation of solar water heater; The water consumption collected, power consumption are flowed to solar water supervising device respectively by RS485 signal wire by the water meter gathering solar water heating system water consumption and the ammeter gathering solar water heating system power consumption, again by solar water supervising device by network send to described in control platform, understand in real time the overall energy consumption of solar water heater work.

As preferably, the control method of the described intelligence community platform control system based on " internet+" comprises rainwater comprehensive utilization control system control method, and it is municipal water supply control method that rainwater comprehensive utilization control system control method comprises basic progress control method, Intelligent spray irrigation control method, intelligent wash control method, intelligent landscape pond water compensating control method, intelligent landscape pond reuse control method and intelligent conversion;

Basic progress control method is: rain collector collects the rainwater falling building roof, the rainwater collected flows into rain water drainage treating apparatus through rainwater inlet pipeline, through the process of rain water drainage treating apparatus, rainwater be separated into the more sewage of impurity and meet water in use standard, sewage enters municipal drainage pipeline through blowoff line, middle water flows into rainwater collection pool temporary reservoir, rainwater comprehensive utilization supervising device sends signal enabling and filters lift pump, water in rainwater collection pool is transported to hay tank and carries out contaminant filter and sanitary index process, obtain clear water, clear water reserviors stored for future use is transported to by rainwater reuse lift pump, when stormwater tank liquid level gauge collect rainwater collection pool be in full water state and clear water reserviors liquid level gauge collect clear water reserviors be also in full water state time, rainwater comprehensive utilization supervising device sends unblanking rain water drainage electric butterfly valve, and the redundancy water yield flowing into rain water drainage treating apparatus is entered municipal drainage pipeline,

Intelligent spray irrigation control method is: described middle control platform is according to the timing sprinkling irrigation time preset, the rainfall value simultaneously gathered by rain sensor judges whether raining at present, the precipitation probability on the same day is judged again according to the weather forecast information obtained, if do not rained at present and the precipitation probability on the same day is less than 80% time, then, control platform courses rainwater comprehensive utilization supervising device sends water electric butterfly valve in unblanking, sprinkling irrigation solenoid valve and rainwater reuse lift pump, sprays to green plants with the clear water in clear water reserviors;

Intelligent wash control method is: when described sprinkling irrigation solenoid valve is in closed condition, when landscape pond small pump is also in closed condition, described middle control platform courses rainwater comprehensive utilization supervising device sends middle water electric butterfly valve, scouring electromagnetic valve and rainwater reuse lift pump described in unblanking, and the garage flusher described in permission uses the clear water in clear water reserviors to rinse;

Intelligence landscape pond water compensating control method: the liquid level of landscape pond liquid level gauge Real-time Collection landscape pond also flows to rainwater comprehensive utilization supervising device, when collecting landscape pond liquid level lower than lower setting value, middle control platform courses rainwater comprehensive utilization supervising device sends signal at stop sprinkling irrigation solenoid valve and scouring electromagnetic valve, open landscape pond small pump, start rainwater reuse lift pump, clear water in clear water reserviors is delivered in landscape pond, when landscape pond liquid level arrives upper setting value, middle control platform courses rainwater comprehensive utilization supervising device sends signal makes landscape pond small pump, rainwater reuse lift pump quits work,

Intelligence landscape pond reuse control method: if according to the level value that described landscape pond liquid level gauge is sent here, described middle control platform judges that landscape pond liquid level is in high water stage state, and be less than 80% according to rainfall probability in following 48 hours of the weather forecast information analysis obtained, then, control platform courses rainwater comprehensive utilization supervising device sends the reuse moisturizing solenoid valve described in unblanking, water in landscape pond is recharged to described rainwater collection pool by described landscape pond reuse water pipe, clear water is processed into again through rainwater collection pool, carry and be stored in described clear water reserviors stand-by,

Intelligent conversion is municipal water supply control method: when described rainwater collection pool, clear water reserviors and landscape pond are all in low-water level, and when middle control platform is less than 80% according to the weather forecast information analysis the obtained rainfall probability of following 48 hours, then, control platform courses rainwater comprehensive utilization supervising device sends the municipal water supply electric butterfly valve described in unblanking, is filled by clear water reserviors by municipal water supply pipeline.

Whether the technical program can judge whether water electric butterfly valve and sprinkling irrigation solenoid valve in unlatching in conjunction with weather condition, namely make according to weather condition and utilize the clear water in clear water reserviors to carry out the judgement of spraying, improve rainwater utilization, save the water resource of storing.When rainwater recycling each stage is run, when stop, how operating by system in conjunction with weather condition automatic decision automatically completing, it is more accurate to judge, it is more reasonable to control, various to the Land use systems of rainwater, improve research advances, greatly save rainwater resource, intelligent, automaticity is high.

As preferably, described control method comprises geothermal heat pump air-conditioning system control method: by the temperature sensor locality water inlet end temperature of source heat pump air-conditioning system and water side temperature, by outside connected switch amount signal isolator, the 220V working volts alternating current contact point signal of the water circulating pump of geothermal heat pump air-conditioning system is converted to passive contact point signal and flows to earth source heat pump supervising device, again by earth source heat pump supervising device by network send to described in control platform, detect the running status of each pump of geothermal heat pump air-conditioning system, understand the overall operation situation of geothermal heat pump air-conditioning system.Geothermal heat pump air-conditioning system is optimized, set up with energy model, by whether having people in described indoor infrared induction pick-up detection room, according to whether someone regulates room conditioning temperature control circuit, control air conditioner refrigerating or heat the start and stop of mechanism, reasonable distribution energy utilization, realizes saving energy consumption.

Concrete control method: whether earth source heat pump supervising device in real time by having people in indoor infrared induction pick-up sensing chamber and doing following judgement: if indoor nobody the time exceed setting-up time, then stop the refrigeration of air-conditioning or heat; If nobody time of indoor continuation exceedes the setting air-conditioning unused time, then close the air-conditioning in this region; If indoor, nobody does not exceed setting-up time at the time, and air-conditioning is held open state; If sense, there is people indoor, then control operation of air conditioner until be adjusted to former design temperature; If indoor continue there is people, then air-conditioner continuous is opened, and keeps former design temperature.

The invention has the beneficial effects as follows: 1, manipulation is convenient and simple and easy, does not need from establishing network, can carry out monitor and forecast by mobile phone to each system.2, manipulation freely, does not need special messenger to garrison pulpit, can carry out monitor and forecast at any time, everywhere to each system.3, high efficiency smart, can optimize original system control method and controling parameters, and function more comprehensively, improves plant factor.4, monitor in real time, convenient management.Strengthen the globality of each Systematical control and convenience, control flexibly, convenient, raise the efficiency, intelligent, automaticity is high.5, energy consumption is saved, reasonable distribution limited resources.

Accompanying drawing explanation

Fig. 1 is a kind of system syndeton block diagram of the intelligence community platform control system that the present invention is based on " internet+".

Fig. 2 is a kind of system syndeton block diagram of solar photovoltaic generation system in the present invention.

Fig. 3 is a kind of system syndeton block diagram of solar water heating system in the present invention.

Fig. 4 is a kind of system syndeton block diagram of geothermal heat pump air-conditioning system in the present invention.

Fig. 5 is a kind of system syndeton block diagram of rainwater comprehensive utilization control system in the present invention.

Embodiment

Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.

Embodiment: the intelligence community platform control system based on " internet+" of the present embodiment, as shown in Figure 1, comprise solar photovoltaic generation system 3, solar water heating system 4, geothermal heat pump air-conditioning system 5, rainwater comprehensive utilization control system 6, middle control platform 1 and managerial personnel's monitor terminal 2, solar photovoltaic generation system 3, solar water heating system 4, geothermal heat pump air-conditioning system 5 and rainwater comprehensive utilization control system 6 are connected by wireless 3G network with middle control platform 1 respectively, and middle control platform 1 is also connected by wireless 3G network with managerial personnel's monitor terminal 2.Managerial personnel's monitor terminal 2 can have multiple, comprises the computer, panel computer and the mobile phone that are provided with intelligence community monitoring software.

As shown in Figure 2, solar photovoltaic generation system 3 comprises Alternative Voltage Converter 301, AC current transformer 302, DC voltage transmitter 303, DC current transformer 304 and solar electrical energy generation supervising device 305, the input end of Alternative Voltage Converter 301, the input end of AC current transformer 302 respectively with the alternating current pressure side of solar inverter switch cubicle 306, alternating current end is connected, the input end of DC voltage transmitter 303, the input end of DC current transformer 304 respectively with the direct current pressure side of header box incoming line switch cabinet 307, DC current end is connected, Alternative Voltage Converter 301, AC current transformer 302, the output terminal of DC voltage transmitter 303 and DC current transformer 304 is connected with the input end of solar electrical energy generation supervising device 305 respectively, the electric energy metrical output terminal of power supply administration's ammeter 308 is also connected with solar electrical energy generation supervising device 305, solar electrical energy generation supervising device 305 is connected by wireless 3G network with middle control platform 1.

As shown in Figure 3, solar water heating system 4 comprises heat collector temperature sensor 401, water tank temperature sensor 402, Tube Temperature Sensor 403, high water tank meter 404, small pump state collecting device 405, ebullator state collecting device 406, heat pump state collecting device 407 and solar water supervising device 409, heat collector temperature sensor 401, water tank temperature sensor 402, Tube Temperature Sensor 403, high water tank meter 404, small pump state collecting device 405, the output terminal of ebullator state collecting device 406 and heat pump state collecting device 407 is connected with the input end of solar water supervising device 409 respectively, said pump state collecting device all adopts 220V on-off model isolator, the input end of 220V on-off model isolator is connected with the supply voltage end of each pump respectively, solar water heating system 4 also has the water meter 410 gathering solar water heating system water consumption and the ammeter 411 gathering solar water heating system power consumption, water meter 410, the metering output terminal of ammeter 411 is connected with the input end of solar water supervising device 409 respectively, and solar water supervising device 409 is connected by wireless 3G network with middle control platform 1.

As shown in Figure 4, geothermal heat pump air-conditioning system 5 comprises water pump power consumption measuring apparatus 501, water inlet end temperature sensor 502, water side temperature sensor 503, compressor state collecting device 504, ebullator state collecting device 505, indoor infrared induction pick-up 507 and earth source heat pump supervising device 506, water pump power consumption measuring apparatus 501, water inlet end temperature sensor 502, water side temperature sensor 503, compressor state collecting device 504, the output terminal of ebullator state collecting device 505 and indoor infrared induction pick-up 507 is connected with the input end of earth source heat pump supervising device 506 respectively, the output terminal of earth source heat pump supervising device 506 is connected with room conditioning temperature control circuit 508, said pump state collecting device all adopts 220V on-off model isolator, the input end of 220V on-off model isolator is connected with the supply voltage end of each pump respectively, earth source heat pump supervising device 506 is connected by wireless 3G network with middle control platform 1.

As shown in Figure 5, rainwater comprehensive utilization control system 6 comprises rain collector 601, rain water drainage treating apparatus 602, rainwater collection pool 603, clear water reserviors 604, greening rainer 605, garage flusher 606, rain sensor 607, platform 608 is controlled in landscape pond 625 and remote computer, rain sensor 607 is arranged on outdoor, ground or building roof can be arranged on, rain collector 601 is arranged on building roof, for collecting the rainwater falling roof, rainwater inlet pipeline 609 is connected between rain collector 601 and rain water drainage treating apparatus 602, rainwater inlet pipeline 609 is provided with rainwater entering water electromagnetic valve 621, blowoff line 611 is connected between rain water drainage treating apparatus 602 and municipal drainage pipeline 610, blowoff line 611 is provided with rain water drainage electric butterfly valve 612, water lines 613 in connecting between rain water drainage treating apparatus 602 and rainwater collection pool 603, rainwater collection pool 603 lift pump after filtration, rainwater reuse lift pump 614 is connected with clear water reserviors 604, the outlet pipeline 615 of clear water reserviors 604 respectively with greening rainer 605, garage flusher 606 is connected with view water replanishing device, the outlet pipeline 615 of clear water reserviors 604 is provided with middle water electric butterfly valve 616, greening rainer 605 is provided with sprinkling irrigation solenoid valve 617, garage flusher 606 is provided with scouring electromagnetic valve 618, clear water reserviors 604 are also connected with municipal water supply pipeline 622 by pipeline, the pipeline of connection municipal water supply pipeline 622 and clear water reserviors is provided with municipal water supply electric butterfly valve 623.Landscape pond small pump 624 is connected with between clear water reserviors 604 and landscape pond 625, be connected with landscape pond reuse water pipe 627 between landscape pond 625 and rainwater collection pool 603, landscape pond reuse water pipe 627 be provided with reuse moisturizing solenoid valve 628.Stormwater tank liquid level gauge 619 is installed in rainwater collection pool 603, clear water reserviors liquid level gauge 620 is installed in clear water reserviors 604, landscape pond liquid level gauge 626 is installed in landscape pond 625, stormwater tank liquid level gauge 619, clear water reserviors liquid level gauge 620, the output terminal of landscape pond liquid level gauge 626 and rain sensor 607 is connected with the input end of rainwater comprehensive utilization supervising device 608 respectively, the output terminal of rainwater comprehensive utilization supervising device 608 respectively with rainwater entering water electromagnetic valve 621, rain water drainage electric butterfly valve 612, rainwater reuse lift pump 614, middle water electric butterfly valve 616, sprinkling irrigation solenoid valve 617, scouring electromagnetic valve 618, municipal water supply electric butterfly valve 623, the control end of reuse moisturizing solenoid valve 628 and landscape pond small pump 624 is connected, rainwater comprehensive utilization supervising device 608 is connected by wireless 3G network with middle control platform 1.

The control method of the above-mentioned intelligence community platform control system based on " internet+" is: managerial personnel are issuing command on the computer being provided with intelligence community monitoring software or mobile phone, instruction is transferred to middle control platform 1 by wireless 3G network, corresponding control signal is sent respectively to solar electrical energy generation supervising device 305 by wireless 3G network again by middle control platform 1, solar water supervising device 409, earth source heat pump supervising device 506 and rainwater comprehensive utilization supervising device 608, control each system works, solar electrical energy generation supervising device 305, solar water supervising device 409, earth source heat pump supervising device 506 and rainwater comprehensive utilization supervising device 608 receive each transducing signal be transferred to middle control platform 1 by wireless 3G network, managerial personnel's monitor terminal 2 is transferred to by wireless 3G network again by middle control platform 1, managerial personnel can monitor each system state at any time by computer or mobile phone.

Concrete control method comprises solar photovoltaic generation system control method, solar water heating system control method, geothermal heat pump air-conditioning system control method and rainwater comprehensive utilization control system control method.

Solar photovoltaic generation system control method is: by the grid-connected end output voltage of Alternative Voltage Converter 301 Real-time Collection, by the grid-connected end output current of AC current transformer 302 Real-time Collection, by DC voltage transmitter 303 Real-time Collection photovoltaic terminal voltage, by DC current transformer 304 Real-time Collection photovoltaic end electric current, the generated energy of solar photovoltaic generation system is gathered by electric quantity collector, above-mentioned data flow to solar electrical energy generation supervising device 305 respectively, middle control platform 1 is sent to by wireless 3G network again by solar electrical energy generation supervising device 305, as occurred extremely then and alarm,

Solar water heating system control method is: gather the heat collector temperature of solar water heater, water tank temperature and pipe temperature respectively by each temperature sensor, the high water tank of solar water heater is gathered by liquid level gauge, above-mentioned data flow to solar water supervising device 409 respectively, send to middle control platform 1 by solar water supervising device 409 by wireless 3G network again, the data as collected exceed setting value then and alarm; By each on-off model isolator external, the 220V working volts alternating current contact point signal of the charging pump of solar water heater, ebullator, heat pump, make-up pump is converted to passive contact point signal and flows to solar water supervising device 409, send to middle control platform 1 by solar water supervising device 409 by wireless 3G network again, control each pump operation situation of solar water heater in real time; The water consumption collected, power consumption are flowed to solar water supervising device 409 respectively by RS485 signal wire by the water meter 410 gathering solar water heating system water consumption and the ammeter 411 gathering solar water heating system power consumption, send to middle control platform 1 by solar water supervising device 409 by wireless 3G network again, understand the overall energy consumption of solar water heater work in real time;

Geothermal heat pump air-conditioning system control method is: by the temperature sensor locality water inlet end temperature of source heat pump air-conditioning system and water side temperature, by outside connected switch amount signal isolator, the 220V working volts alternating current contact point signal of the water circulating pump of geothermal heat pump air-conditioning system is converted to passive contact point signal and flows to earth source heat pump supervising device 506, middle control platform 1 is sent to by wireless 3G network again by earth source heat pump supervising device 506, detect the running status of each pump of geothermal heat pump air-conditioning system, understand the overall operation situation of geothermal heat pump air-conditioning system;

Air-conditioning system is under intelligent mode, first this room air conditioner automatic temperature-control time and air-conditioning automatic shutdown time is set, then infrared induction sensor in priming chamber, start timer, by whether having people in indoor infrared induction pick-up detecting chamber, indoor infrared induction pick-up transmission level signal to earth source heat pump supervising device, according to the program setting time judge after again transmission level signal to air-conditioning temperature control circuit, the start and stop of regulating and controlling indoor temperature and air-conditioning.

Whether middle control platform Real-Time Monitoring indoor have people, and do following judgement:

1, when indoor have been in people's state, transmission level signal is not to earth source heat pump supervising device, then air-conditioner continuous is opened, and keeps former design temperature.

If 2, indoor unmanned, transmission level signal to earth source heat pump supervising device, and starts timing simultaneously, and indoor nobody exceedes setting-up time (as being 10 minutes) time, then adjust the temperature (winter is cooled to 16 DEG C, is warming up to 28 DEG C summer) of air-conditioning setting; Continue timing, if indoor continuation is unmanned, nobody exceedes setting air-conditioning unused time (as being 30 minutes) time, then earth source heat pump supervising device sends the air-conditioning in this region of signal at stop.

3, when indoor nobody the time do not exceed setting-up time, or detect indoor and have people, then transmission level signal is to earth source heat pump supervising device, and indoor temperature keeps original setting value, and air-conditioning is held open state;

4, when indoor, nobody exceedes setting-up time (as being 10 minutes) time, then adjust air-conditioning setting temperature (winter is cooled to 16 DEG C, be warming up to 28 DEG C summer), and continue timing, in this stage, if detect indoor when having a people, then transmission level signal is to earth source heat pump supervising device, and air-conditioner temperature is adjusted to former design temperature.

It is municipal water supply control method that rainwater comprehensive utilization control system control method comprises basic progress control method, Intelligent spray irrigation control method, intelligent wash control method, intelligent landscape pond water compensating control method, intelligent landscape pond reuse control method and intelligent conversion;

Basic progress control method is: rain collector 601 collects the rainwater falling building roof, the rainwater collected flows into rain water drainage treating apparatus 602 through rainwater inlet pipeline 609, process through rain water drainage treating apparatus 602, rainwater be separated into the more sewage of impurity and meet water in use standard, sewage enters municipal drainage pipeline 610 through blowoff line 611, middle water flows into rainwater collection pool 603, sanitary index process is carried out by rainwater collection pool 603, obtain clear water, rainwater comprehensive utilization supervising device 608 sends signal enabling rainwater reuse lift pump 614, clear water in rainwater collection pool 603 is transported to clear water reserviors 604 and is stored in clear water reserviors 604 stand-by, when stormwater tank liquid level gauge 619 collect rainwater collection pool 603 be in full water state and clear water reserviors liquid level gauge 620 collect clear water reserviors 604 be also in full water state time, rainwater comprehensive utilization supervising device 608 sends unblanking rain water drainage electric butterfly valve 612, and the redundancy water yield flowing into rain water drainage treating apparatus 602 is entered municipal drainage pipeline 610,

Intelligent spray irrigation control method is: middle control platform 1 is according to the timing sprinkling irrigation time preset, the rainfall value simultaneously gathered by rain sensor 607 judges whether raining at present, the precipitation probability on the same day is judged again according to the weather forecast information obtained, if do not rained at present and the precipitation probability on the same day is less than 80% time, then, control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends water electric butterfly valve 616 and sprinkling irrigation solenoid valve 617 in unblanking, sprays to green plants with the clear water in clear water reserviors 604;

Intelligent wash control method is: when solenoid valve 617 of spraying is in closed condition, middle control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends water electric butterfly valve 616 and scouring electromagnetic valve 618 in unblanking, allows garage flusher 606 to use the clear water in clear water reserviors 604 to rinse;

Intelligence landscape pond water compensating control method: the liquid level of landscape pond liquid level gauge 626 Real-time Collection landscape pond 625 also flows to rainwater comprehensive utilization supervising device 608, when collecting landscape pond 625 liquid level lower than lower setting value, middle control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends signal enabling landscape pond small pump 624, clear water in clear water reserviors 604 is delivered in landscape pond 625, when landscape pond 625 liquid level arrives upper setting value, middle control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends signal landscape pond small pump 624 is quit work,

Intelligence landscape pond reuse control method: if according to the level value that landscape pond liquid level gauge 626 is sent here, middle control platform 1 judges that landscape pond 625 liquid level is in high water stage state, and be less than 80% according to rainfall probability in following 48 hours of the weather forecast information analysis obtained, then, control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends unblanking reuse moisturizing solenoid valve 628, water in landscape pond 625 is recharged to rainwater collection pool 603 by landscape pond reuse water pipe 627, clear water is processed into again through rainwater collection pool 603, carry and be stored in clear water reserviors 604 stand-by,

Intelligent conversion is municipal water supply control method: when rainwater collection pool 603, clear water reserviors 604 and landscape pond 625 are all in low-water level, and when middle control platform 1 is less than 80% according to the weather forecast information analysis the obtained rainfall probability of following 48 hours, then, control platform 1 controls rainwater comprehensive utilization supervising device 608 and sends unblanking municipal water supply electric butterfly valve 623, is filled by clear water reserviors 604 by municipal water supply pipeline 622.

The present invention is based on intelligence community platform, utilize network, add function not increasing in equipment Foundations, computer and mobile phone all can operate, can conveniently manipulate each system, realize can to each system simultaneously, the object that manipulates at any time, everywhere, strengthen the globality to each Systematical control and convenience, control flexibly, convenient, raise the efficiency, intelligent, automaticity is high.

Claims (9)

1. the intelligence community platform control system based on " internet+", it is characterized in that comprising solar photovoltaic generation system (3), solar water heating system (4), rainwater comprehensive utilization control system (6), geothermal heat pump air-conditioning system (5), middle control platform (1) and managerial personnel's monitor terminal (2), solar photovoltaic generation system (3), solar water heating system (4), rainwater comprehensive utilization control system (6) and geothermal heat pump air-conditioning system (5) are connected with described middle control platform (1) is wired or wireless respectively, middle control platform (1) is connected with described managerial personnel's monitor terminal (2) is wired or wireless.

2. the intelligence community platform control system based on " internet+" according to claim 1, it is characterized in that described geothermal heat pump air-conditioning system (5) comprises water pump power consumption measuring apparatus (501), water inlet end temperature sensor (502), water side temperature sensor (503), compressor state collecting device (504), water circulating pump state collecting device (505), indoor infrared induction pick-up (507) and earth source heat pump supervising device (506), water pump power consumption measuring apparatus (501), water inlet end temperature sensor (502), water side temperature sensor (503), compressor state collecting device (504), the output terminal of water circulating pump state collecting device (505) and indoor infrared induction pick-up (507) is connected with the input end of described earth source heat pump supervising device (506) respectively, the output terminal of earth source heat pump supervising device (506) is connected with room conditioning temperature control circuit (508), earth source heat pump supervising device (506) is connected with described middle control platform (1) is wired or wireless.

3. the intelligence community platform control system based on " internet+" according to claim 1 and 2, it is characterized in that described solar photovoltaic generation system (3) comprises Alternative Voltage Converter (301), AC current transformer (302), DC voltage transmitter (303), DC current transformer (304) and solar electrical energy generation supervising device (305), the input end of Alternative Voltage Converter (301), the input end of AC current transformer (302) respectively with the alternating current pressure side of solar inverter switch cubicle (306), alternating current end is connected, the input end of DC voltage transmitter (303), the input end of DC current transformer (304) respectively with the direct current pressure side of header box incoming line switch cabinet (307), DC current end is connected, Alternative Voltage Converter (301), AC current transformer (302), the output terminal of DC voltage transmitter (303) and DC current transformer (304) is connected with the input end of described solar electrical energy generation supervising device (305) respectively, the electric energy metrical output terminal of power supply administration's ammeter (308) is also connected with described solar electrical energy generation supervising device (305), solar electrical energy generation supervising device (305) is connected with described middle control platform (1) is wired or wireless.

4. the intelligence community platform control system based on " internet+" according to claim 1 and 2, it is characterized in that described solar water heating system (4) comprises heat collector temperature sensor (401), water tank temperature sensor (402), Tube Temperature Sensor (403), high water tank meter (404), small pump state collecting device (405), ebullator state collecting device (406), heat pump state collecting device (407) and solar water supervising device (409), heat collector temperature sensor (401), water tank temperature sensor (402), Tube Temperature Sensor (403), high water tank meter (404), small pump state collecting device (405), the output terminal of ebullator state collecting device (406) and heat pump state collecting device (407) is connected with the input end of described solar water supervising device (409) respectively, solar water heating system (4) is also provided with the water meter (410) gathering solar water heating system (4) water consumption and the ammeter (411) gathering solar water heating system (4) power consumption, water meter (410), the metering output terminal of ammeter (411) is connected with the input end of described solar water supervising device (409) respectively, solar water supervising device (409) is connected with described middle control platform (1) is wired or wireless.

5. the intelligence community platform control system based on " internet+" according to claim 1 and 2, it is characterized in that described rainwater comprehensive utilization control system (6) comprises rain collector (601), rain water drainage treating apparatus (602), rainwater collection pool (603), clear water reserviors (604), greening rainer (605), garage flusher (606), rain sensor (607), landscape pond (625) and rainwater comprehensive utilization supervising device (608), rain sensor (607) is located at outdoor, rain collector (601) is located at building roof, rainwater inlet pipeline (609) is connected between rain collector (601) and rain water drainage treating apparatus (602), blowoff line (611) is connected between rain water drainage treating apparatus (602) and municipal drainage pipeline (610), described blowoff line (611) is provided with rain water drainage electric butterfly valve (612), water lines (613) in connecting between rain water drainage treating apparatus (602) and rainwater collection pool (603), rainwater collection pool (603) is connected with described clear water reserviors (604) through rainwater reuse lift pump (614), the outlet pipeline (615) of clear water reserviors (604) respectively with described greening rainer (605), garage flusher (606) is connected, the outlet pipeline (615) of described clear water reserviors (604) is provided with middle water electric butterfly valve (616), described greening rainer (605) is provided with sprinkling irrigation solenoid valve (617), described garage flusher (606) is provided with scouring electromagnetic valve (618), clear water reserviors (604) are connected with municipal water supply pipeline (622), municipal water supply pipeline (622) is provided with municipal water supply electric butterfly valve (623), clear water reserviors (604) are connected with landscape pond (625) through landscape pond small pump (624), landscape pond reuse water pipe (627) is connected with between landscape pond (625) and described rainwater collection pool (603), landscape pond reuse water pipe (627) is provided with reuse moisturizing solenoid valve (628), stormwater tank liquid level gauge (619) is provided with in described rainwater collection pool (603), clear water reserviors liquid level gauge (620) is provided with in described clear water reserviors (604), landscape pond liquid level gauge (626) is provided with in described landscape pond (625), described stormwater tank liquid level gauge (619), clear water reserviors liquid level gauge (620), the output terminal of landscape pond liquid level gauge (626) and rain sensor (607) and described rain water drainage electric butterfly valve (612), rainwater reuse lift pump (614), middle water electric butterfly valve (616), sprinkling irrigation solenoid valve (617), scouring electromagnetic valve (618), municipal water supply electric butterfly valve (623), landscape pond small pump (624), the control end of reuse moisturizing solenoid valve (628) is connected with described rainwater comprehensive utilization supervising device (608) respectively, rainwater comprehensive utilization supervising device (608) is connected with described middle control platform (1) is wired or wireless.

6. the control method based on the intelligence community platform control system of " internet+" as claimed in claim 1, it is characterized in that described managerial personnel's monitor terminal (2) comprises the computer and/or mobile phone that are provided with intelligence community monitoring software, on computer or mobile phone, issuing command controls platform (1) by Internet Transmission in described, corresponding control signal is sent to described solar photovoltaic generation system (3) respectively by network again by middle control platform (1), solar water heating system (4), rainwater comprehensive utilization control system (6) and geothermal heat pump air-conditioning system (5), control each system works, described solar photovoltaic generation system (3), solar water heating system (4), each transducing signal of rainwater comprehensive utilization control system (6) and geothermal heat pump air-conditioning system (5) gives middle control platform (1) by Internet Transmission, described managerial personnel's monitor terminal (2) is given by Internet Transmission again by middle control platform (1), managerial personnel can monitor each system state at any time by computer or mobile phone.

7. the control method of the intelligence community platform control system based on " internet+" according to claim 6, is characterized in that comprising solar photovoltaic generation system control method and solar water heating system control method;

Solar photovoltaic generation system control method is: by the grid-connected end output voltage of Alternative Voltage Converter (301) Real-time Collection, by the grid-connected end output current of AC current transformer (302) Real-time Collection, by DC voltage transmitter (303) Real-time Collection photovoltaic terminal voltage, by DC current transformer (304) Real-time Collection photovoltaic end electric current, the generated energy of solar photovoltaic generation system is gathered by electric quantity collector, above-mentioned data flow to solar electrical energy generation supervising device (305) respectively, again by solar electrical energy generation supervising device (305) by network send to described in control platform (1), as occurred extremely then and alarm,

Solar water heating system control method is: gather the heat collector temperature of solar water heater, water tank temperature and pipe temperature respectively by each temperature sensor, the high water tank of solar water heater is gathered by liquid level gauge, above-mentioned data flow to solar water supervising device (409) respectively, again by solar water supervising device (409) by network send to described in control platform (1), the data as collected exceed setting value then and alarm; By each on-off model isolator external, the 220V working volts alternating current contact point signal of the small pump of solar water heater, ebullator, heat pump is converted to passive contact point signal and flows to solar water supervising device (409), again by solar water supervising device (409) by network send to described in control platform (1), in real time control each pump operation situation of solar water heater; The water consumption collected, power consumption are flowed to solar water supervising device (409) respectively by RS485 signal wire by the water meter (410) gathering solar water heating system water consumption and the ammeter (411) gathering solar water heating system power consumption, again by solar water supervising device (409) by network send to described in control platform (1), understand in real time the overall energy consumption of solar water heater work.

8. the control method of the intelligence community platform control system based on " internet+" according to claim 6, it is characterized in that comprising rainwater comprehensive utilization control system control method, it is municipal water supply control method that rainwater comprehensive utilization control system control method comprises basic progress control method, Intelligent spray irrigation control method, intelligent wash control method, intelligent landscape pond water compensating control method, intelligent landscape pond reuse control method and intelligent conversion;

Basic progress control method is: rain collector (601) collects the rainwater falling building roof, the rainwater collected flows into rain water drainage treating apparatus (602) through rainwater inlet pipeline (609), process through rain water drainage treating apparatus (602), rainwater be separated into the more sewage of impurity and meet water in use standard, sewage enters municipal drainage pipeline (610) through blowoff line (611), middle water flows into rainwater collection pool (603), rainwater comprehensive utilization supervising device (608) sends signal enabling and filters lift pump, middle water in rainwater collection pool (603) is transported to hay tank and carries out contaminant filter and sanitary index process, obtain clear water, clear water reserviors (604) stored for future use is transported to by rainwater reuse lift pump (614), when stormwater tank liquid level gauge (619) collect rainwater collection pool (603) be in full water state and clear water reserviors liquid level gauge (620) collect clear water reserviors (604) be also in full water state time, rainwater comprehensive utilization supervising device (608) sends unblanking rain water drainage electric butterfly valve (612), and the redundancy water yield flowing into rain water drainage treating apparatus (602) is entered municipal drainage pipeline (610):

Intelligent spray irrigation control method is: described middle control platform (1) is according to the timing sprinkling irrigation time preset, the rainfall value simultaneously gathered by rain sensor (607) judges whether raining at present, the precipitation probability on the same day is judged again according to the weather forecast information obtained, if do not rained at present and the precipitation probability on the same day is less than 80% time, then, control platform (1) controls rainwater comprehensive utilization supervising device (608) and sends water electric butterfly valve (616) in unblanking, sprinkling irrigation solenoid valve (617) and rainwater reuse lift pump (614), with the clear water in clear water reserviors (604), green plants is sprayed,

Intelligent wash control method is: when described sprinkling irrigation solenoid valve (617) is in closed condition, described middle control platform (1) controls rainwater comprehensive utilization supervising device (608) and sends middle water electric butterfly valve (616) described in unblanking, scouring electromagnetic valve (618) and rainwater reuse lift pump (614), and the clear water in the garage flusher (606) use clear water reserviors (604) described in permission rinses;

Intelligence landscape pond water compensating control method: the liquid level of landscape pond liquid level gauge (626) Real-time Collection landscape pond (625) also flows to rainwater comprehensive utilization supervising device (608), when collecting landscape pond (625) liquid level lower than lower setting value, middle control platform (1) controls rainwater comprehensive utilization supervising device (608) and sends signal at stop sprinkling irrigation solenoid valve (617) and scouring electromagnetic valve (618), landscape pond small pump (624) described in startup and rainwater reuse lift pump (614), clear water in clear water reserviors (604) is delivered in landscape pond (625), when landscape pond (625) liquid level arrives upper setting value, middle control platform (1) control rainwater comprehensive utilization supervising device (608) sends signal makes landscape pond small pump (624) and rainwater reuse lift pump (614) quit work,

Intelligence landscape pond reuse control method: if according to the level value that described landscape pond liquid level gauge (626) is sent here, described middle control platform (1) judges that landscape pond (625) liquid level is in high water stage state, and be less than 80% according to rainfall probability in following 48 hours of the weather forecast information analysis obtained, then, control platform (1) control rainwater comprehensive utilization supervising device (608) sends the reuse moisturizing solenoid valve (628) described in unblanking, water in landscape pond (625) is recharged to described rainwater collection pool (603) by described landscape pond reuse water pipe (627), clear water is processed into again through rainwater collection pool (603), carry and be stored in described clear water reserviors (604) stand-by,

Intelligent conversion is municipal water supply control method: when described rainwater collection pool (603), clear water reserviors (604) and landscape pond (625) are all in low-water level, and when middle control platform (1) is less than 80% according to the weather forecast information analysis the obtained rainfall probability of following 48 hours, then, control platform (1) control rainwater comprehensive utilization supervising device (608) sends the municipal water supply electric butterfly valve (623) described in unblanking, is filled by clear water reserviors (604) by municipal water supply pipeline (622).

9. the control method of the intelligence community platform control system based on " internet+" according to claim 6 or 7 or 8, it is characterized in that described control method comprises geothermal heat pump air-conditioning system control method: by the temperature sensor locality water inlet end temperature of source heat pump air-conditioning system and water side temperature, by outside connected switch amount signal isolator, the 220V working volts alternating current contact point signal of the water circulating pump of geothermal heat pump air-conditioning system is converted to passive contact point signal and flows to earth source heat pump supervising device (506), again by earth source heat pump supervising device (506) by network send to described in control platform (1), detect the running status of each pump of geothermal heat pump air-conditioning system, understand the overall operation situation of geothermal heat pump air-conditioning system, by whether having people in described indoor infrared induction pick-up (507) detection room, according to whether someone regulates room conditioning temperature control circuit (508), controlling air conditioner refrigerating or heating the start and stop of mechanism, reasonable distribution energy utilization.