CN103486654A - Energy saving control method and energy saving control system for heat exchange station - Google Patents

Abstract

The invention discloses an energy saving control method and energy saving control system for a heat exchange station. The energy saving control system comprises a video monitor system arranged in the heat exchange station, a data returning system arranged in the heat exchange station and a control center main system, the video monitor system carries out image and/or video shooting on the instruments devices of the heat exchange station to obtain image and/or video data, the control center main system is in communication with the video monitor system and the data returning system, the control center main system compares the data of the data returning system with the image and/or video data of the video monitor system, and whether system abnormal information exists or not is checked. The operation condition of the heat exchange station can be obtained more accurately and more efficiently, and the informatization and the high efficiency of the management of the heat exchange station are greatly improved.

Description

Heat exchange station energy-saving control method and energy-saving control system

Technical field

The present invention relates to field of industrial automatic control, relate in particular to a kind of heat exchange station energy-saving control method and energy-saving control system.

Background technology

At present, in the heating area of the north, the overwhelming majority is central heating system, the area of institute of the Thermal Corp heat supply of each implementation central heating is very large, general method is all by build numerous heat exchange stations in each unit, community or school district, by backward each unit heat supply of heat exchange station heat exchange, heat exchange station is the water supply by heat exchanger secondary network heating to the user by heat exchange by the thermal source by a secondary net, realizes heat transfer process.Usually management mode is that each Thermal Corp arranges several workmans to carry out on duty in each heat exchange station, the start and stop operation of the circulating pump by manually regulating the secondary network in heat exchange amount and heat exchange station, small pump, relief valve, dredge pump, because heat exchange station quantity is many, cause personnel cost high, control and management efficiency is low, also causes certain energy waste.Simultaneously the manger wants of Thermal Corp knows that the ruuning situation at each station is also that squad leader by each heat exchange station reports and could understand, causes for thermal information understanding hysteresis.

Therefore, working out a kind of unmanned heat exchange station energy-saving control method and energy-saving control system will be all the inexorable trend of heating system development and the important topic of research with the convenience that improves heat exchange station energy utilization rate, automatization level, security and stability and maintenance management, the benefit that reduces heat exchange station operation expense, increase heat exchange station.

Summary of the invention

For problems of the prior art, the object of the present invention is to provide a kind of Energy-saving Control System of Heat Regulation, not science, not convenient is controlled in the management existed with the heat exchange station that solves prior art, and manpower, energy resources are wasted serious, the higher and benefited less technical problem of heat cost.

Another object of the present invention is to provide a kind of energy-saving control method of the heat exchange station for Energy-saving Control System of Heat Regulation of the present invention.

For achieving the above object, technical scheme of the present invention is as follows:

A kind of Energy-saving Control System of Heat Regulation, for monitoring heat exchange station, comprising:

Be arranged on the video monitoring system of heat exchange station, each instrumentation of described video monitoring system heat exchanging station carries out image acquisition and/or video camera;

Be arranged on the illuminator of heat exchange station, described illuminator provides illumination as required to heat exchange station.

Energy-saving control system of the present invention, for example, described energy-saving control system also comprises control centre's main system, described control centre main system is communicated by letter with described video monitoring system, described illuminator.

Energy-saving control system of the present invention, for example, the opening and closing under the control of described control centre main system of described illuminator.

Energy-saving control system of the present invention, for example, described illuminator is configured in described video monitoring system when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, opens Preset Time.

Energy-saving control system of the present invention, for example, described illuminator is configured in described video monitoring system when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, and unlatching is 30 seconds～90 seconds.

Energy-saving control system of the present invention, for example, described video monitoring system comprises network video server and the video camera be connected with described network video server, and described video camera is regulated and controled by described control centre main system, and described network video server receives the data of described video camera.

Energy-saving control system of the present invention, for example, described control centre main system is communicated by letter with described video monitoring system, can receive, shows, analyzes and/or process described image and/or video data from described video monitoring system communication.

Energy-saving control system of the present invention, for example, described control centre main system and described video monitoring system, described illuminator communicate by EPA and/or GPRS network.

A kind of Energy-saving Control System of Heat Regulation, for monitoring each parameter operation conditions of heat exchange station, comprising:

Be arranged on the video monitoring system of heat exchange station, each instrumentation of described video monitoring system heat exchanging station carries out image and/or video camera, obtains described image and/or video data;

Be arranged on the data return system of heat exchange station;

Control centre's main system, described control centre main system is communicated by letter with described video monitoring system, described data return system, described control centre main system is compared to the data of described data return system and image and/or the video data of described video monitoring system, looks into the system exception information that sees if there is.

Energy-saving control system of the present invention, for example, described video monitoring system comprises network video server and the video camera be connected with described network video server.

Energy-saving control system of the present invention, for example, described data return system comprises PLC switch board, data acquisition unit and actuator, the output of described PLC switch board is connected with the simulation control end of actuator.

Energy-saving control system of the present invention, for example, described data acquisition unit comprises at least two kinds of collectors in a secondary net temperature sensor, a secondary net pressure sensor, secondary network temperature sensor, secondary network pressure sensor, outdoor temperature sensor, user indoor temperature sensor, flowmeter, thermal power table, wherein, the input of the described PLC switch board of the parallel access of described at least two kinds of collectors.

Energy-saving control system of the present invention, for example, described energy-saving control system also comprises:

Be arranged on the illuminator of heat exchange station, communicate by letter with described control centre main system, described illuminator provides illumination as required to heat exchange station.

Energy-saving control system of the present invention, for example, described energy-saving control system also comprises automatic alarm system, with described control centre main system, communicates by letter, described automatic alarm system, when finding system exception, produces warning message.

Energy-saving control system of the present invention, for example, the opening and closing under the control of described control centre main system of described illuminator.

Energy-saving control system of the present invention, for example, described illuminator is configured in described video monitoring system when each instrumentation of heat exchanging station is realized remote image and/or video camera, opens Preset Time.

Energy-saving control system of the present invention, for example, described illuminator is configured in described video monitoring system, when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, open 30 seconds～90 seconds.

Energy-saving control system of the present invention, for example, described control centre main system is communicated by letter with described data return system, described automatic alarm system is communicated by letter, can receive described warning message and/or described system exception information, and be regulated and controled according to described warning message and/or each instrumentation of described system exception information heat exchanging station.

Energy-saving control system of the present invention, for example, described control centre main system is communicated by letter with described video monitoring system, described data return system, receives, shows, analyzes and/or process from the described video of described video monitoring system and/or view data and from the data of described data return system.

A kind of method of utilizing Energy-saving Control System of Heat Regulation heat exchanging station to carry out Energy Saving Control, described Energy-saving Control System of Heat Regulation comprises video monitoring system, the illuminator that is arranged on heat exchange station, described method comprises:

S100: control described illuminator and open;

S101: by the long-range shooting heat exchange station of described video monitoring system each instrumentation image and/or video;

S102: after Preset Time, close described illuminator.

Method of the present invention, described Energy-saving Control System of Heat Regulation also comprises control centre's main system, for example, described method also comprises:

S111: by the described image of the long-range shooting of described video monitoring system and/or the long-range described control centre main system that returns to of video data.

Method of the present invention, for example, described Preset Time is 30 seconds～90 seconds.

Method of the present invention, for example, described video monitoring system comprises network video server and the video camera be connected with described network video server.

A kind of method of utilizing Energy-saving Control System of Heat Regulation heat exchanging station to carry out Energy Saving Control, described Energy-saving Control System of Heat Regulation comprises and is arranged on heat exchange station video monitoring system and data return system, and control centre's main system, described video monitoring system and data return system are communicated by letter with described control centre main system, and described method comprises:

S200: the data that obtain described data return system;

S201: the data that obtain described video monitoring system;

S202: described control centre main system is compared to the data of described data return system and the data of described video monitoring system.

Method of the present invention, described Energy-saving Control System of Heat Regulation also comprises the illuminator that is arranged on heat exchange station, for example, when step S201, opens described illuminator Preset Time, so that illumination as required to be provided.

Method of the present invention, preferred, after described step S200, also comprise:

S210: by the transfer of data of described data return system, give described control centre main system.

Method of the present invention, preferred, after described step S201, also comprise:

S211: by the transfer of data of described video monitoring system, give described control centre main system.

Method of the present invention, described Energy-saving Control System of Heat Regulation also comprises automatic alarm system, with described control centre main system, communicates by letter, preferred, described step S202: also comprise:

S212: the data that judge described data return system and warning message that described automatic alarm system whether arranged whether consistent with the data of described video monitoring system;

S213: if inconsistent and/or have the warning message of described automatic alarm system to produce the corresponding dispatch command of adjusting each instrumentation of heat exchange station, then go to step S200; Otherwise, go to step S200.

Method of the present invention, for example, the data of described video monitoring system comprise image and/or video data.

Method of the present invention, for example, when institute is set forth in step S201, opening described illuminator Preset Time is 30 seconds～90 seconds.

Beneficial effect of the present invention is, Energy-saving Control System of Heat Regulation of the present invention adopts automatic control technology, can carry out according to the monitor data of heat exchange station data return system passback whether normal operation of surveillance, and when finding that the passback data return data exception, can open timely the heat exchange station illuminator with the working order of checking each instrumentation of heat exchange station by the heat exchange station video monitoring system and compare with described passback data, and can find system failure information according to the historical record image information of heat exchange station video monitoring system.In addition, according to failure condition, can also control by control centre's main system each instrumentation of heat exchange station, so that heat exchange station recovers normal.Therefore heat exchange station of the present invention can be realized multi-point, round-the-clock monitoring and control, reduce heat exchange station staff's quantity and labour intensity, and by illuminator, the illumination of instrumentation and video monitoring system and data return system are carried out to Data Comparison, make the heat exchange station operation conditions obtain more accurate and efficient, greatly improved informationization and the high efficiency of heat exchange station management.

The accompanying drawing explanation

Fig. 1 schematically shows the heat exchange station module map of the embodiment of the present invention;

Fig. 2 schematically shows the Energy-saving Control System of Heat Regulation structured flowchart of first embodiment of the invention;

Fig. 3 schematically shows the Energy-saving Control System of Heat Regulation structured flowchart of second embodiment of the invention;

Fig. 4 schematically shows the Energy-saving Control System of Heat Regulation structured flowchart of third embodiment of the invention;

Fig. 5 schematically shows the flow chart of the heat exchange station energy-saving control method of first embodiment of the invention;

Fig. 6 schematically shows the flow chart of the heat exchange station energy-saving control method of second embodiment of the invention; And

Fig. 7 schematically shows the flow chart of the step S202 shown in Fig. 6.

The specific embodiment

The exemplary embodiments that embodies feature & benefits of the present invention will describe in detail in the following description.Be understood that the present invention can have various variations on different embodiment, its neither departing from the scope of the present invention, and explanation wherein and accompanying drawing be when the use that explain in itself, but not in order to limit the present invention.

Below specifically introduce Energy-saving Control System of Heat Regulation and the energy-saving control method of the embodiment of the present invention.

Figure 1 shows that the heat exchange station module map of the embodiment of the present invention, as shown in Figure 1, the heat exchange station of the embodiment of the present invention comprises: control centre 1, a plurality of heat exchange station and a plurality of user are for hot cell.Wherein heat exchange station comprises heat exchange station 2, heat exchange station 3 and heat exchange station 4, and the user comprises that for hot cell the user supplies hot cell 7 for hot cell 5, user for hot cell 6 and user.Each heat exchange station comprises a plurality of instrumentations.The user has temperature acquisition system 14 for hot cell.

With reference to figure 1, control centre 1 communicates by letter with heat exchange station 2, heat exchange station 3 and heat exchange station 4 respectively.Wherein, the network communicated between control centre 1 and a plurality of heat exchange station is EPA, but the present invention is as limit, and the communication network of the embodiment of the present invention also can be other networks, for example GPRS network.Heat exchange station 2 supplies hot cell 5 heat supplies to the user, heat exchange station 3 supplies hot cell 6 heat supplies to the user, heat exchange station 4 supplies hot cell 7 heat supplies to the user, each heat exchange station and respective user are passed through wireless communication between hot cell, but the present invention is not as limit, and heat exchange station and respective user also can communicate by cable network between hot cell.And control centre 1 also can obtain respectively the user and supply the indoor temperature data in hot cell 7 for hot cell 6 and user for hot cell 5, user.And described user can represent Yi Dong building, a Huo Moujian house, unit for hot cell.The control centre 1 of the embodiment of the present invention obtains each heat exchange station and each user supplies the passback data in hot cell, and produces the dispatch command of corresponding each instrumentation of regulation and control heat exchange station according to these passback data.

As shown in Figure 2, be a kind of Energy-saving Control System of Heat Regulation of first embodiment of the invention, for monitoring heat exchange station, comprising: video monitoring system (not shown), illuminator 40 and control centre's main system 8.

Wherein, video monitoring system is arranged on heat exchange station, for each instrumentation of heat exchanging station, carries out image and/or video camera and transmission, comprises network video server 50, video camera 51.The quantity of each video camera 51 and position can arrange as required flexibly, and can under the control of control centre's main system 8, realize that the operations such as rotation, focusing are to realize the tour to on-the-spot wider scope, the output of video camera 51 is connected with the input of network video server 50, and can be by gathered image and/or video data transmitting to network video server 50.The output of network video server 50 is connected with control centre main system 8 by wired or wireless mode, and can receive heat exchange station image scene and/or video data that video camera 51 gathers.

Illuminator 40 is arranged on heat exchange station, for illumination as required is provided to a heat exchange station instrumentation, comprises some illuminating lamps, and number of illuminating lamps and position can arrange as required flexibly.Illuminator 40 is communicated by letter with control centre main system 8, can opening and closing under the dispatch command of control centre's main system 8.Illuminator 40 is generally what close, to save electric energy, but in video monitoring system when each instrumentation of heat exchanging station is realized remote image and/or video camera, open Preset Time, it is for example 60 seconds, a heat exchanging station equipment provides illumination with transmission image and/or video data more clearly, but the embodiment of the present invention is as limit, and the time of unlatching can be done corresponding variation according to actual conditions.In addition, illuminator 40 of the present invention not only can be opened Preset Time when each instrumentation of heat exchanging station is realized remote image and/or video camera, and can be according to user's needs, opening in other cases, is also that illuminator 40 of the present invention possesses the function of opening as required.

Control centre's main system 8 is arranged on control centre, with video monitoring system, with illuminator 40, communicates by letter, and control centre's main system 8 receives, shows, analyzes and/or process video and/or view data and can realize the operations such as rotation, focusing to video camera 51; In addition, control centre's main system 8 can also be controlled the opening and closing of lighting energy-conservation system 40.

As shown in Figure 3, a kind of Energy-saving Control System of Heat Regulation for second embodiment of the invention, for monitoring each parameter operation conditions of heat exchange station, comprise: video monitoring system (not shown), data return system (not shown) and control centre's main system 8, wherein control centre's main system 8 comprises video monitoring main frame 11 and data monitoring main frame 10, but the present invention is not as limit, and control centre's main system can be equipped with corresponding equipment according to actual needs.

Wherein, video monitoring system is arranged on heat exchange station, for each instrumentation of heat exchanging station, carries out image and/or video camera and transmission, comprises network video server 50, video camera 51.The structure of the video monitoring system of the Energy-saving Control System of Heat Regulation of this second embodiment is identical haply with the video monitoring system of the Energy-saving Control System of Heat Regulation of aforementioned the first embodiment, at this, no longer adds explanation.

The data return system is arranged on heat exchange station, comprise PLC switch board 60, data acquisition unit (not shown) and actuator (not shown), in addition, the data return system of second embodiment of the invention also comprises touch-screen human-computer interaction interface 61, PLC switch board 60 is communicated by letter with touch-screen human-computer interaction interface 61, and the output of PLC switch board 60 is connected with the simulation control end of actuator.Data acquisition unit comprises temperature sensor 62, once, secondary network pressure sensor 69, outdoor temperature sensor 63, flowmeter 64 and thermal power table 65, wherein, temperature sensor 62 comprises once, secondary network temperature sensor and user indoor temperature sensor.Once, the secondary network temperature sensor, once, secondary network pressure sensor 69, outdoor temperature sensor 63, the input of the parallel access of flowmeter 64 and thermal power table 65 PLC switch board 60.And the user indoor temperature sensor is connected with heat exchange station data monitoring main frame by GPRS network or WLAN, the output of PLC switch board is connected with data monitoring main frame 10, therefore, touch-screen human-computer interaction interface 61 and data monitoring main frame 10 can read, process, add up, analyze and show the information such as pressure of supply water, pressure of return water, supply water temperature, return water temperature, water supply tank liquid level, thermal power table, outdoor temperature and user indoor temperature data of Energy-saving Control System of Heat Regulation.It should be noted that touch-screen-enabled human-computer interaction interface 61 of the present invention is for optional, it is regulated and controled for each instrumentation of heat exchanging station in heat exchange station, in other embodiment, also can not comprise touch-screen-enabled human-computer interaction interface 6.

The structure of control centre's main system 8 of the Energy-saving Control System of Heat Regulation of this second embodiment is identical haply with control centre's main system 8 of the Energy-saving Control System of Heat Regulation of aforementioned the first embodiment, and its something in common is no longer added explanation.As for control centre's main system 8 of this second embodiment and control centre's main system 8 differences of the first embodiment, be, control centre's main system 8 of the Energy-saving Control System of Heat Regulation of this second embodiment comprises video monitoring main frame 11 and data monitoring main frame 10, video monitoring main frame 11 intercoms mutually with data monitoring main frame 10, data monitoring main frame 10 can receive, show, analyze, each parameter information of deal with data return system, video monitoring main frame 11 can receive, show, analyze, process video and/or the view data of video monitoring system transmission and can realize rotating to video camera 51, the operations such as focusing.Data monitoring main frame 10 and video monitoring main frame 11 can transmit each parameter information and video and/or the view data of data return system mutually, and obtain system operation situation information by contrasting this parameter information and this video and/or view data, if it is abnormal to find that by contrast heat exchange station occurs, data monitoring main frame 10 and/or video monitoring main frame 11 can send corresponding dispatch command to each instrumentation of heat exchange station and it is regulated and controled, and make heat exchange station recover normal.It should be noted that, this parameter information of the contrast of the embodiment of the present invention and this video and/or view data obtain the system operation situation information operating, can be by artificial, also can be contrasted by Computer Automatic Extraction information, according to comparing result, control centre's main system 8 can produce the operation that corresponding dispatch command is controlled each instrumentation of heat exchange station.

As shown in Figure 4, a kind of Energy-saving Control System of Heat Regulation for third embodiment of the invention, comprise: video monitoring system (not shown), data return system (not shown), illuminator 40, automatic alarm system 12 and the main system 8(of control centre are not shown), wherein control centre's main system 8 can comprise video monitoring main frame 11 and data monitoring main frame 10, but the present invention is not as limit.

The Energy-saving Control System of Heat Regulation of the Energy-saving Control System of Heat Regulation of third embodiment of the invention and aforementioned the second embodiment is roughly the same, and its something in common is no longer added explanation.As for the Energy-saving Control System of Heat Regulation of this 3rd embodiment and the Energy-saving Control System of Heat Regulation difference of the second embodiment, be, the Energy-saving Control System of Heat Regulation of third embodiment of the invention also comprises illuminator 40 and automatic alarm system 12.The illuminator 40 of the Energy-saving Control System of Heat Regulation of third embodiment of the invention is identical with the illuminator 40 of the Energy-saving Control System of Heat Regulation of aforementioned the second embodiment, at this, no longer adds explanation.The automatic alarm system 12 of third embodiment of the invention is arranged on control centre, the signal that occurs small pump 68 in the data return system make zero and/or return system in multinomial and/or total data while making zero, automatic alarm system 12 is sent warning message.In addition, when the abnormality such as small pump 68 and/or circulating pump 67 superpressures occurring or having a power failure, cut off the water, during the emergency situations such as equipment stops steathily, also can trigger automatic alarm system work, automatically reported to the police.In addition, the automatic alarm system 12 of the Energy-saving Control System of Heat Regulation of third embodiment of the invention also possesses the function that prevents that the not operation personnel from swarming into, be also that heat exchange station of the present invention only just can trigger alarm under by fingerprint access control or other modes entered safely, otherwise heat exchange station of the present invention can send warning message to automatic alarm system 12.

As carried out the flow chart of the method for Energy Saving Control in the Energy-saving Control System of Heat Regulation heat exchanging station that utilizes that Fig. 5 is first embodiment of the invention, Energy-saving Control System of Heat Regulation comprises video monitoring system, the illuminator that is arranged on heat exchange station, and the control centre's main system that is arranged on control centre, the energy-saving control method of first embodiment of the invention comprises:

S100: control illuminator and open;

S101: by video monitoring system, obtain/check heat exchange station each instrumentation image and/or video;

S111: the long-range control centre's main system that returns to of the image that the long-range shooting of video monitoring system is obtained/checks and/or video data.

S102: illuminator, after opening 60 seconds, is closed.But the embodiment of the present invention is not as limit, and can there be various variations the time that illuminator is opened according to actual conditions.

As carried out the flow chart of the method for Energy Saving Control in the Energy-saving Control System of Heat Regulation heat exchanging station that utilizes that Fig. 6 is second embodiment of the invention, this Energy-saving Control System of Heat Regulation comprises illuminator, video monitoring system and the data return system that is arranged on heat exchange station, and control centre's main system and automatic alarm system, video monitoring system and data return system are communicated by letter with described control centre main system, the energy-saving control method of second embodiment of the invention comprises:

S200: the data that obtain the data return system;

S210: by the transfer of data of data return system to control centre's main system;

S201: the data that obtain described video monitoring system;

S211: by the transfer of data of video monitoring system to control centre's main system;

S202: control centre's main system is compared to the data of data return system and the data of video monitoring system.

Now refer to Fig. 7, step S202 specifically comprises:

S212: the data that judge the data return system and warning message that automatic alarm system whether arranged whether consistent with the data of video monitoring system;

S213: if inconsistent and/or have the warning message of automatic alarm system to produce the corresponding dispatch command of adjusting each instrumentation of heat exchange station, then go to step S200; Otherwise, directly go to step S200.

In sum, the Energy-saving Control System of Heat Regulation of the embodiment of the present invention adopts automatic control technology, can carry out according to the monitor data of heat exchange station data return system passback whether normal operation of surveillance, and when finding that the passback data return data exception, can open timely the heat exchange station illuminator with the working order of checking each instrumentation of heat exchange station by the heat exchange station video monitoring system and compare with described passback data, and can find system failure information according to the historical record image information of heat exchange station video monitoring system.In addition, according to failure condition, can also control by control centre's main system each instrumentation of heat exchange station, so that heat exchange station recovers normal.Therefore heat exchange station of the present invention can be realized multi-point, round-the-clock monitoring and control, reduce heat exchange station staff's quantity and labour intensity, and by illuminator, the illumination of instrumentation and video monitoring system and data return system are carried out to Data Comparison, make the heat exchange station operation conditions obtain more accurate and efficient, greatly improved informationization and the high efficiency of heat exchange station management.

Technical scheme of the present invention is disclosed as above by preferred embodiment.Those skilled in the art should recognize in the situation that do not break away from change and the retouching that scope and spirit of the present invention that the appended claim of the present invention discloses are done, within all belonging to the protection domain of claim of the present invention.

Claims (30)

1. an Energy-saving Control System of Heat Regulation, for monitoring heat exchange station, is characterized in that, comprising:

Be arranged on the video monitoring system of heat exchange station, each instrumentation of described video monitoring system heat exchanging station carries out image acquisition and/or video camera;

Be arranged on the illuminator of heat exchange station, described illuminator provides illumination as required to heat exchange station.

2. according to the energy-saving control system of claim 1, it is characterized in that, described energy-saving control system also comprises control centre's main system, and described control centre main system is communicated by letter with described video monitoring system, described illuminator.

3. according to the energy-saving control system of claim 1, it is characterized in that the opening and closing under the control of described control centre main system of described illuminator.

4. according to the Energy-saving Control System of Heat Regulation of claim 1, it is characterized in that, described illuminator is configured in described video monitoring system when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, opens Preset Time.

5. according to the Energy-saving Control System of Heat Regulation of claim 4, it is characterized in that, described illuminator is configured in described video monitoring system, when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, open 30 seconds～90 seconds.

6. according to the Energy-saving Control System of Heat Regulation of claim 1, it is characterized in that, described video monitoring system comprises network video server and the video camera be connected with described network video server, described video camera is regulated and controled by described control centre main system, and described network video server receives the data of described video camera.

7. according to the Energy-saving Control System of Heat Regulation of claim 4, it is characterized in that, described control centre main system is communicated by letter with described video monitoring system, can receive, shows, analyzes and/or process described image and/or video data from described video monitoring system communication.

8. according to the Energy-saving Control System of Heat Regulation of claim 2, it is characterized in that, described control centre main system and described video monitoring system, described illuminator communicate by EPA and/or GPRS network.

9. an Energy-saving Control System of Heat Regulation, for monitoring each parameter operation conditions of heat exchange station, is characterized in that, comprising:

Be arranged on the video monitoring system of heat exchange station, each instrumentation of described video monitoring system heat exchanging station carries out image and/or video camera, obtains described image and/or video data;

Be arranged on the data return system of heat exchange station;

Control centre's main system, described control centre main system is communicated by letter with described video monitoring system, described data return system, described control centre main system is compared to the data of described data return system and image and/or the video data of described video monitoring system, looks into the system exception information that sees if there is.

10. according to the Energy-saving Control System of Heat Regulation of claim 9, it is characterized in that, described video monitoring system comprises network video server and the video camera be connected with described network video server.

11. the Energy-saving Control System of Heat Regulation according to claim 9, is characterized in that, described data return system comprises PLC switch board, data acquisition unit and actuator, and the output of described PLC switch board is connected with the simulation control end of actuator.

12. the Energy-saving Control System of Heat Regulation according to claim 11, it is characterized in that, described data acquisition unit comprises at least two kinds of collectors in a secondary net temperature sensor, a secondary net pressure sensor, secondary network temperature sensor, secondary network pressure sensor, outdoor temperature sensor, user indoor temperature sensor, flowmeter, thermal power table, wherein, the input of the described PLC switch board of the parallel access of described at least two kinds of collectors.

13. the Energy-saving Control System of Heat Regulation according to claim 9, is characterized in that, described energy-saving control system also comprises:

Be arranged on the illuminator of heat exchange station, communicate by letter with described control centre main system, described illuminator provides illumination as required to heat exchange station.

14. the Energy-saving Control System of Heat Regulation according to claim 13, is characterized in that, described energy-saving control system also comprises automatic alarm system, with described control centre main system, communicates by letter, and described automatic alarm system, when finding system exception, is reported to the police automatically.

15. the Energy-saving Control System of Heat Regulation according to claim 13, is characterized in that, the opening and closing under the control of described control centre main system of described illuminator.

16. the Energy-saving Control System of Heat Regulation according to claim 13, is characterized in that, described illuminator is configured in described video monitoring system when each instrumentation of heat exchanging station is realized remote image and/or video camera, opens Preset Time.

17. the Energy-saving Control System of Heat Regulation according to claim 16, is characterized in that, described illuminator is configured in described video monitoring system, when each instrumentation of heat exchanging station carries out image acquisition and/or video camera, open 30 seconds～90 seconds.

18. the Energy-saving Control System of Heat Regulation according to claim 14, it is characterized in that, described control centre main system is communicated by letter with described data return system, described automatic alarm system is communicated by letter, can receive described warning message and/or described system exception information, and be regulated and controled according to described warning message and/or each instrumentation of described system exception information heat exchanging station.

19. the Energy-saving Control System of Heat Regulation according to claim 9, it is characterized in that, described control centre main system is communicated by letter with described video monitoring system, described data return system, receives, shows, analyzes and/or process from the described video of described video monitoring system and/or view data and from the data of described data return system.

20. a method of utilizing Energy-saving Control System of Heat Regulation heat exchanging station to carry out Energy Saving Control, described Energy-saving Control System of Heat Regulation comprises video monitoring system, the illuminator that is arranged on heat exchange station, and described method comprises:

S100: control described illuminator and open;

S101: by described video monitoring system, obtain heat exchange station each instrumentation image and/or video;

S102: after Preset Time, close described illuminator.

21., according to the method for claim 20, described Energy-saving Control System of Heat Regulation also comprises control centre's main system, it is characterized in that, described method also comprises:

S111: described image and/or the long-range described control centre main system that returns to of video data that described video monitoring system is obtained.

22. the method according to claim 20, is characterized in that, described Preset Time is 30 seconds～90 seconds.

23. the method according to claim 20, is characterized in that, described video monitoring system comprises network video server and the video camera be connected with described network video server.

A 24. method of utilizing Energy-saving Control System of Heat Regulation heat exchanging station to carry out Energy Saving Control, described Energy-saving Control System of Heat Regulation comprises video monitoring system and the data return system that is arranged on heat exchange station, and control centre's main system, described video monitoring system and data return system are communicated by letter with described control centre main system, and described method comprises:

S200: the data that obtain described data return system;

S201: the data that obtain described video monitoring system;

S202: described control centre main system is compared to the data of described data return system and the data of described video monitoring system.

25. method according to claim 24, described Energy-saving Control System of Heat Regulation also comprises the illuminator that is arranged on heat exchange station, it is characterized in that, when step S201, opens described illuminator Preset Time, so that illumination as required to be provided.

26. method according to claim 24, is characterized in that, also comprises after described step S200:

S210: by the transfer of data of described data return system, give described control centre main system.

27. method according to claim 24, is characterized in that, also comprises after described step S201:

S211: by the transfer of data of described video monitoring system, give described control centre main system.

28. method according to claim 24, described Energy-saving Control System of Heat Regulation also comprises automatic alarm system, with described control centre main system, communicates by letter, and it is characterized in that, described step S202 also comprises:

S212: the data that judge described data return system and warning message that described automatic alarm system whether arranged whether consistent with the data of described video monitoring system;

S213: if inconsistent and/or have the warning message of described automatic alarm system to produce the corresponding dispatch command of adjusting each instrumentation of heat exchange station, then go to step S200; Otherwise, go to step S200.

29. method according to claim 24, is characterized in that, the data of described video monitoring system comprise image and/or video data.

30. energy-saving control method according to claim 25, is characterized in that, when institute is set forth in step S201, opening described illuminator Preset Time is 30 seconds～90 seconds.

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