CN102650876A - Real-time energy saving linkage control device and method for intelligent building - Google Patents

Abstract

The invention discloses a real-time energy saving linkage control device and a real-time energy saving linkage control method for an intelligent building. The control device comprises an energy consumption acquisition module, an energy consumption analyzing module, an energy saving suggestion module, an energy consumption control strategy module and a linkage control module, which are connected in sequence. According to the device and the method, the real-time running energy consumption data and the historical energy consumption data are compared and analyzed, an effective control strategy is formulated according to the analyzing result so as to conduct linkage control on the energy consumption equipment, and further the energy saving control is conducted on the whole intelligent building. According to the technical scheme disclosed by the invention, characteristics of real time and intelligence are realized, the energy-saving effect is good, and the progress of the energy-saving technology is promoted.

Description

Real-time energy-conservation linkage control device of a kind of intelligent building and method

Technical field

The present invention relates to field of energy-saving technology, be specifically related to real-time energy-conservation linkage control device of a kind of intelligent building and method.

Background technology

Present intelligent building all includes a plurality of subsystems such as video monitoring system, illuminator, fire alarm system, air-conditioning system, elevator device, the relatively independent operation of each sub-systems usually.At present, the intelligent building Energy Saving Control still rests on the data of gathering buildings history and real time energy consumption, it is carried out the stages such as the analysis of static state row, form displaying.Can not feasible optimization suggestion be provided to existing energy consumption data, particularly can't control in real time, therefore not play the ageing energy-conserving action of having of essence the energy consumption source.

Summary of the invention

The technical matters that the present invention will solve provides real-time energy-conservation linkage control device of a kind of intelligent building and method, and overcoming prior art can not provide feasible optimization suggestion to existing energy consumption data, the defective that particularly can't control in real time the energy consumption source.

The present invention solves the problems of the technologies described above the technical scheme that is adopted to be:

The real-time energy-conservation linkage control device of a kind of intelligent building; Comprise energy consumption acquisition module, energy consumption analysis module, energy-conservation suggestion module, energy consumption control strategy module and interlock control module; Said energy consumption acquisition module, said energy consumption analysis module, said energy-conservation suggestion module, said energy consumption control strategy module link to each other with said interlock control module successively; Said energy consumption acquisition module is used for gathering the energy consumption data of each energy consumption equipment of buildings; Said energy consumption analysis module is used for said energy consumption data is analyzed; Said energy-conservation suggestion module is used for according to the analysis result of said energy consumption analysis module the energy saving optimizing suggestion being provided, and said energy consumption control strategy module is used to produce the Energy Saving Control strategy, and said interlock control module is used for generating steering order and being sent to each energy consumption equipment RACS according to said Energy Saving Control strategy.

The real-time energy-conservation linkage control device of described intelligent building wherein also comprises video monitoring system, and said video monitoring system links to each other with said energy consumption analysis module.

The real-time energy-conservation linkage control device of described intelligent building wherein also comprises the energy consumption historical data base, and said energy consumption historical data base links to each other with said energy consumption analysis module with said energy consumption acquisition module respectively.

The real-time energy-conservation linkage control device of described intelligent building comprises also that wherein parameter is provided with module, and said parameter is provided with module and links to each other with said energy consumption analysis module.

The real-time energy-conservation linkage control device of described intelligent building wherein also comprises the output display module, and said output display module links to each other with said energy-conservation suggestion module.

The real-time energy-conservation linkage control device of described intelligent building, wherein said energy consumption acquisition module obtain the real time energy consumption data of each energy consumption equipment through situ metrology equipment is read communication.

The real-time energy-conservation linkage control device of described intelligent building, wherein said energy consumption acquisition module and said situ metrology equipment are through RS232 serial communication protocol, RS485 serial communication protocol, communicate based on the ICP/IP protocol of Ethernet or based on the udp protocol of Ethernet.

The real-time energy-conservation linkage control device of described intelligent building, wherein said interlock control module and said energy consumption equipment RACS communicate according to OPC agreement, Bacnet agreement or Lonwork agreement.

The real-time energy-conservation inter-linked controlling method of a kind of intelligent building comprises step:

A1, the real-time power consumption data of the regional current time of buildings and the historical average power drawn data of synchronization the same area are compared, if deviation exceeds predetermined threshold value, execution in step A2 then, otherwise return;

A2, utilize video monitoring system to obtain the real-time video monitoring image of current region, in the preset time period, this image is carried out motion detection,, assert that then energy consumption is normal,, assert that then energy consumption is unusual if unmanned movable if there is the people movable;

Controlled energy consumption and uncontrollable energy consumption are distinguished in A3, all power consumption sources of statistics current region;

The energy saving optimizing suggestion is showed in A4, analysis;

A5, suggestion is formulated the Energy Saving Control strategy and is generated steering order according to said energy saving optimizing, according to selected control model energy consumption equipment is controlled.

The real-time energy-conservation inter-linked controlling method of described intelligent building, wherein said control model comprise automatic mode, a key energy saver mode and subitem manual mode.

Beneficial effect of the present invention: the present invention is through comparing analysis to real time execution energy consumption data and historical energy consumption data; Formulate effective control strategy to the control that links of each energy consumption equipment according to analysis result; And then to whole intelligent building body enforcement Energy Saving Control; Technical scheme of the present invention has real-time, intelligent characteristics, and energy-saving effect is good, has advanced the progress of power-saving technology.

Description of drawings

The present invention includes following accompanying drawing:

Fig. 1 is the real-time energy-conservation linkage control device synoptic diagram of intelligent building of the present invention;

Fig. 2 is the real-time energy-conservation inter-linked controlling method process flow diagram of intelligent building of the present invention;

Fig. 3 is the real-time Energy Saving Control pattern diagram of the present invention;

Fig. 4 is the present invention's control flow chart of delaying time.

Embodiment

According to accompanying drawing and embodiment the present invention is done further explain below:

As shown in Figure 1; The real-time energy-conservation linkage control device of intelligent building of the present invention comprises energy consumption acquisition module, energy consumption analysis module, energy-conservation suggestion module, energy consumption control strategy module and interlock control module; Energy consumption acquisition module, energy consumption analysis module, energy-conservation suggestion module, energy consumption control strategy module and interlock control module link to each other successively; The energy consumption acquisition module is gathered the energy consumption data of each energy consumption equipment in the buildings; The energy consumption analysis module is analyzed said energy consumption data; Energy-conservation suggestion module provides the energy saving optimizing suggestion according to the analysis result of energy consumption analysis module, and energy consumption control strategy module produces the Energy Saving Control strategy, and the interlock control module generates steering order and is sent to each energy consumption equipment RACS according to the Energy Saving Control strategy.The real-time energy-conservation linkage control device of intelligent building of the present invention also comprises video monitoring system; Video monitoring system links to each other with the energy consumption analysis module, also comprises the energy consumption historical data base, and the energy consumption historical data base links to each other with the energy consumption analysis module with the energy consumption acquisition module respectively; Comprise that also parameter is provided with module; Parameter is provided with module and links to each other with the energy consumption analysis module, also comprises the output display module, and the output display module links to each other with energy-conservation suggestion module.The energy consumption acquisition module obtains the real time energy consumption data of each energy consumption equipment through situ metrology equipment is read communication.Energy consumption acquisition module and situ metrology equipment are through RS232 serial communication protocol, RS485 serial communication protocol, communicate based on the ICP/IP protocol of Ethernet or based on the udp protocol of Ethernet.Interlock control module and energy consumption equipment RACS communicate according to OPC agreement, Bacnet agreement or Lonwork agreement.

The energy consumption data that the energy consumption historical data base obtains the energy consumption acquisition module, subregion, branch time, subset type, branch energy consumption type stores form perfect historical energy consumption data in data server.The energy consumption analysis module is analyzed the real time execution power consumption state of buildings; And historical same period of the energy consumption data of introducing in the energy consumption historical data base carries out this, also need judge by more existing intelligent building standard subsystems such as video monitoring system etc. simultaneously.The analysis result that energy-conservation suggestion module draws the energy consumption analysis module changes into feasible energy saving optimizing suggestion, and the energy-conservation knowledge base that inquiry is preset draws optimized Measures, shows the user through the output display module.For the current energy consumption source that can control, provide control model to supply the user to select control.Parameter is provided with module and gives the user according to some preset parameters of use experience adjustment software, like the energy consumption threshold value, and motion detection time threshold etc.Simultaneously also allow the user that same parameter is provided with a plurality of different values according to different sights.Can be set to long 1 hour such as work hours motion detection time threshold, and can the motion detection time threshold after coming off duty be set to short ten minutes etc.Energy consumption control strategy module is formulated real-time Energy Saving Control strategy to controlled energy consumption source, and control strategy is got rid of and disturbed and the erroneous judgement factor according to the optimization suggestion of energy-conservation suggestion module, allows the user to import intervention.The interlock control module is with the control result of control strategy output, and the control interface agreement according to integrated system and subsystem agreement changes into steering order and is sent to each subsystem.The subsystem controls performance element is carried out corresponding control action after receiving steering order, accomplishes Energy Saving Control.

As shown in Figure 2, the real-time energy-conservation inter-linked controlling method of intelligent building of the present invention comprises step:

A1, the real-time power consumption data of the regional current time of buildings and the historical average power drawn data of synchronization the same area are compared, if deviation exceeds predetermined threshold value, execution in step A2 then, otherwise return;

A2, utilize video monitoring system to obtain the real-time video monitoring image of current region, in the preset time period, this image is carried out motion detection,, assert that then energy consumption is normal,, assert that then energy consumption is unusual if unmanned movable if there is the people movable;

Controlled energy consumption and uncontrollable energy consumption are distinguished in A3, all power consumption sources of statistics current region;

The energy saving optimizing suggestion is showed in A4, analysis;

A5, suggestion is formulated the Energy Saving Control strategy and is generated steering order according to said energy saving optimizing, according to selected control model energy consumption equipment is controlled.

Energy consumption data relatively

$\mathrm{\Δ}{Q}_t=Q_a-\frac{\underset{t=1}{\overset{n}{\mathrm{\Σ}}}{Q}_t}{n}$ (formula 1)

In the formula 1, Qa is a current time power consumption among the regional a, and Qt is historical same period of the power consumption of the same area synchronization, and n representes the number of historical same period of data.The Δ Qt that calculates thus is the difference of current power consumption and the history power consumption same period.This comes to confirm current power consumption state through this difference and the baseline threshold of presetting.The setting of threshold value can rule of thumb manually be provided with by the user, also can be default by software according to computes:

$K_t=\frac{\underset{t=1}{\overset{n}{\mathrm{\Σ}}}{\mathrm{\Δ\; Q}}_t}{n}$ (formula 2)

In the formula 2, Δ Qt is the t current year and a prior year historical data variable quantity constantly.Therefore draw threshold k t, be t average energy consumption data variation amount over the years constantly.Simultaneously, can find out that when having new energy consumption data to be write down the historical energy consumption data of generation, this threshold value is all upgraded Automatic Optimal by formula 2.When | Δ Q _t|≤| K _t| the time, judge that the energy consumption of this zone current time is normal; When | Δ AQ _t|＞| K _t| the time, judge that then the energy consumption of this zone current time is unusual.

Normal lighting, emergency lighting, elevator etc. in air-conditioning, common socket power consumption, the zone, these equipment all use independently current supply circuit usually, and power consumption can be by independently transferring to the energy consumption acquisition module through serial ports or Ethernet after the ammeter metering.Controlled subsystem can be opened control interface and give the intelligent building integrated system.Common air-conditioning system, illuminator, elevator devices etc. have all been opened open/close control interface and have been given the intelligent building integrated system.Therefore the energy consumption of these subsystems source all belongs to controlled energy consumption.Simultaneously, also there is the not open control interface of some subsystems to give the intelligent building integrated system, like emergency lighting, daily socket power supply etc.These energy consumption sources belong to uncontrollable energy consumption.For controlled energy consumption, the suggestion user closes operational outfit, or equipment is switched to the low-power consumption energy saver mode.When for example not having the personnel activity in the office, can close air-conditioning, normal lighting etc.The energy-conservation knowledge base that presets through inquiry simultaneously, the device characteristics of originating according to energy consumption also can propose to optimize suggestion.For example air conditioner filter screen cleans, the aging need of motor are lubricated etc.For uncontrollable energy consumption, enumerate out all uncontrollable energy consumption sources, this zone, supply this uncontrollable energy consumption of customer inspection whether reasonable.If unreasonable, should give and eliminate the energy consumption source.Perhaps require subsystem to provide control interface, should uncontrollable energy consumption change controlled energy consumption into to the intelligent building integrated system.

As shown in Figure 3, control model comprises automatic mode, a key energy saver mode and subitem manual mode.Automatic mode need not to intervene manually, according to energy consumption control analysis result, automatically controlled energy consumption is implemented control by the real-time energy-conservation linkage control device of intelligent building.One key energy saver mode is enumerated out all controlled energy consumption source and control modes by the real-time energy-conservation linkage control device of intelligent building; Do not carry out concrete control operation; After user's affirmation and manually selecting a key power saving function, just all control operations of disposable execution of the real-time energy-conservation linkage control device of intelligent building.Subitem is control manually; The real-time energy-conservation linkage control device of intelligent building is enumerated out all controlled energy consumption source and control modes; The user can select whether to confirm to implement control item by item, and the user can carry out Combinatorial Optimization to specific a certain item or a few control modes thus.

As shown in Figure 4, the present invention's control strategy closing device of taking to delay time after energy consumption equipment Be Controlled system closing, still allows personnel's manual unlocking, to remedy issuable erroneous judgement when utilizing video monitoring system to carry out personnel activity's state analysis.If equipment is by manual unlocking, the real-time energy-conservation linkage control device of intelligent building will judge whether closing device once more behind preset delay time.After if time-delay finishes, system judges that these regional real time energy consumption data and historical data contrast no longer are in ERST, then cancel time-delay closing control.After if time-delay finishes, the real-time energy-conservation linkage control device of intelligent building judges that this regional energy consumption real time data still is in ERST, once more closing device.The equipment that is fit to this strategy includes but not limited to air-conditioning, normal lighting, elevator, projector, sound equipment etc.

Those skilled in the art do not break away from essence of the present invention and spirit; Can there be the various deformation scheme to realize the present invention; The above is merely the preferable feasible embodiment of the present invention; Be not so limit to interest field of the present invention, the equivalent structure that all utilizations instructions of the present invention and accompanying drawing content are done changes, and all is contained within the interest field of the present invention.

Claims (10)

1. real-time energy-conservation linkage control device of intelligent building; It is characterized in that: comprise energy consumption acquisition module, energy consumption analysis module, energy-conservation suggestion module, energy consumption control strategy module and interlock control module; Said energy consumption acquisition module, said energy consumption analysis module, said energy-conservation suggestion module, said energy consumption control strategy module link to each other with said interlock control module successively; Said energy consumption acquisition module is used for gathering the energy consumption data of each energy consumption equipment of buildings; Said energy consumption analysis module is used for said energy consumption data is analyzed; Said energy-conservation suggestion module is used for according to the analysis result of said energy consumption analysis module the energy saving optimizing suggestion being provided; Said energy consumption control strategy module is used to produce the Energy Saving Control strategy, and said interlock control module is used for generating steering order and being sent to each energy consumption equipment RACS according to said Energy Saving Control strategy.

2. the real-time energy-conservation linkage control device of intelligent building according to claim 1 is characterized in that: also comprise video monitoring system, said video monitoring system links to each other with said energy consumption analysis module.

3. the real-time energy-conservation linkage control device of intelligent building according to claim 2 is characterized in that: also comprise the energy consumption historical data base, said energy consumption historical data base links to each other with said energy consumption analysis module with said energy consumption acquisition module respectively.

4. the real-time energy-conservation linkage control device of intelligent building according to claim 3 is characterized in that: comprise that also parameter is provided with module, said parameter is provided with module and links to each other with said energy consumption analysis module.

5. the real-time energy-conservation linkage control device of intelligent building according to claim 4 is characterized in that: also comprise the output display module, said output display module links to each other with said energy-conservation suggestion module.

6. the real-time energy-conservation linkage control device of intelligent building according to claim 5 is characterized in that: said energy consumption acquisition module obtains the real time energy consumption data of each energy consumption equipment through situ metrology equipment is read communication.

7. the real-time energy-conservation linkage control device of intelligent building according to claim 6 is characterized in that: said energy consumption acquisition module and said situ metrology equipment are through RS232 serial communication protocol, RS485 serial communication protocol, communicate based on the ICP/IP protocol of Ethernet or based on the udp protocol of Ethernet.

8. the real-time energy-conservation linkage control device of intelligent building according to claim 7 is characterized in that: said interlock control module and said energy consumption equipment RACS communicate according to OPC agreement, Bacnet agreement or Lonwork agreement.

9. the real-time energy-conservation inter-linked controlling method of intelligent building is characterized in that, comprises step:

A1, the real-time power consumption data of the regional current time of buildings and the historical average power drawn data of synchronization the same area are compared, if deviation exceeds predetermined threshold value, execution in step A2 then, otherwise return;

A2, utilize video monitoring system to obtain the real-time video monitoring image of current region, in the preset time period, this image is carried out motion detection,, assert that then energy consumption is normal,, assert that then energy consumption is unusual if unmanned movable if there is the people movable;

Controlled energy consumption and uncontrollable energy consumption are distinguished in A3, all power consumption sources of statistics current region;

The energy saving optimizing suggestion is showed in A4, analysis;

A5, suggestion is formulated the Energy Saving Control strategy and is generated steering order according to said energy saving optimizing, according to selected control model energy consumption equipment is controlled.

10. the real-time energy-conservation inter-linked controlling method of intelligent building according to claim 9 is characterized in that: said control model comprises automatic mode, a key energy saver mode and subitem manually.

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