CN101546188B - Intelligent building energy-saving system based on security system - Google Patents

Abstract

The invention discloses an intelligent building energy-saving system based on a security system. The energy-saving system comprises a control source management sub-system, an equipment control dispatching sub-system and an equipment response monitoring sub-system, wherein the control source management sub-system receives equipment status information of the security system, and relates the equipment status information into a control source type, configures a corresponding control mode for the control source type, and transmits a trigger signal; the equipment control dispatching sub-system determines a control object according to the received trigger signal, and transmits a control requirement signal; and the equipment response monitoring sub-system receives the control requirement signal transmitted by the equipment control dispatching sub-system, matches a control signal, controls a control object in a building self-control system to execute corresponding control, and receives an executive effect signal fed back by the control object. The intelligent building energy-saving system based on the security system can comprehensively dispatch and regulate various electric consumption devices in an intelligent building, further reduce energy consumption of the intelligent building, and improve the standard of energy conservation.

Description

Intelligent building energy-saving system based on safety-protection system

Technical field

The present invention relates to automation field, particularly relate to a kind of intelligent building energy-saving system based on safety-protection system.

Background technology

Green, energy saving building is the developing direction of current building construction.The building construction power consumption is consumed energy side by side with industrial consumption energy, traffic, becomes three big " big power consumers " of AND ENERGY RESOURCES CONSUMPTION IN CHINA.And air-conditioning, elevator, illumination are three big " big power consumers " of building construction.Rationally utilizing and abundant energy savings, is the important component part of the strategy of sustainable development, realize this goal, and also needs to rely on advanced intelligent building control device.

At present, there is two states aspect energy-conservation in intelligent building:

No energy-saving design.The notion of some intelligent building only rests on the status surveillance and the remote manual control of equipment, has only realized the strange landization of policer operation; The status information of equipment is not carried out necessary processing processing, do not have working time and/or operational mode, to reach energy-conservation effect by some necessary means opertaing devices.

The monomer energy-saving design.The monomer energy-saving design is meant that in intelligent building operation rule and energy-saving scheme that each equipment subsystem sets in advance according to self operate alone.This class energy-saving design, each subsystem isolated operation, energy-saving run mode prior predetermined set that places one's entire reliance upon can't exchange information with other relevant devices, can't adjust according to the environment of current reality, actual needs, still have very big energy-conservation controlled leeway.

Summary of the invention

The technical problem to be solved in the present invention provides a kind of intelligent building byte energy system based on safety-protection system, and its can adjust the interior various current consuming apparatus of intelligent building by integrated dispatch, further reduces the energy consumption of intelligent building, improves energy conservation standard.

For solving the problems of the technologies described above, the intelligent building energy-saving system based on safety-protection system of the present invention is connected with safety-protection system, automatic building control system, and the information of carrying out transmits;

Described intelligent building energy-saving control system comprises:

The Controlling Source ADMINISTRATION SUBSYSTEM, be connected with described safety-protection system, with the equipment disposition in the safety-protection system is Controlling Source, and Controlling Source classified, receive the status information of equipment of safety-protection system, this status information of equipment is associated as a kind of Controlling Source type, and is this Controlling Source type configuration control corresponding mode, send trigger pip;

Device control scheduler subsystem is connected with described Controlling Source ADMINISTRATION SUBSYSTEM, determines controlling object according to the trigger pip that receives, and sends the demand for control signal;

The device responds Monitor And Control Subsystem, be connected with described device control scheduler subsystem, automatic building control system, the demand for control signal that receiving equipment control scheduler subsystem is sent, the coupling control signal, controlling object in the control automatic building control system is carried out control corresponding, and receives the implementation effect signal of controlling object feedback.

In actual applications, the present invention can make intelligent building when safety-protection system does not detect personnel demand, and controlling object (energy consumption equipment) can be in holding state.Have only after safety-protection system detects the information of Controlling Source type, control a certain energy consumption equipment operation again.Reach starting outfit whenever necessary, need not the time closing device, and can increase the Controlling Source type flexibly, solved similar in the existing energy-saving scheme " monomer is energy-conservation " existing problem, further reduced energy consumption.

Description of drawings

The present invention is further detailed explanation below in conjunction with accompanying drawing and embodiment:

Fig. 1 is one embodiment of the invention system construction drawings;

Fig. 2 is the connection diagram of one embodiment of the invention and safety-protection system, automatic building control system;

Fig. 3 is the control flow chart of Controlling Source ADMINISTRATION SUBSYSTEM in one embodiment of the invention;

Fig. 4 is the control flow chart of device control scheduler subsystem in one embodiment of the invention;

Fig. 5 is the control flow chart of device responds Monitor And Control Subsystem in one embodiment of the invention.

Embodiment

As shown in Figure 1, the intelligent building energy-saving control system based on safety-protection system of the present invention comprises: Controlling Source ADMINISTRATION SUBSYSTEM, device control scheduler subsystem and device responds Monitor And Control Subsystem.

In conjunction with shown in Figure 2, described intelligent building energy-saving control system is connected with safety-protection system, automatic building control system again, and the information of carrying out transmits.Wherein, the intelligent building energy-saving control system is connected on the Ethernet; Safety-protection system changes RJ45 by serial ports and connects Ethernet; Electric life controller in the automatic building control system changes RJ45 by serial ports and is connected on the Ethernet, and the air-conditioning main control system directly is connected on the Ethernet, and illumination control circuit is connected with the intelligent building energy-saving control system by digital relay etc.

In conjunction with shown in Figure 3, described Controlling Source ADMINISTRATION SUBSYSTEM is a Controlling Source with equipment disposition such as antitheft, the gate inhibitions in the safety-protection system, and Controlling Source is classified, and receives the status information of equipment of safety-protection system, and configuration control corresponding mode sends trigger pip.

The control procedure of described Controlling Source ADMINISTRATION SUBSYSTEM is:

1, the type of definition Controlling Source.The type definition of Controlling Source is four classes: instant Controlling Source, timing controlled source, common controlling alarm source, complicated controlling alarm source.

Described Controlling Source type is meant certain security protection equipment or the system time in the safety-protection system or the user operates or this three's combination.For example: common controlling alarm source can be gate inhibition's IC-card No. 998; Complicated controlling alarm source can be gate inhibition's IC-card+No. 4 infrared two double detector+times No. 998; Instant Controlling Source can be: press control knob; The timing controlled source can be: system time.

Described instant Controlling Source, timing controlled source, common controlling alarm source, complicated controlling alarm source can be added immediately.Described Controlling Source type can add, deletes or revise.

2, state acquisition.Gather the status information of equipment in the safety-protection system, according to the information of gathering, the Controlling Source type according to definition is associated with a kind of Controlling Source type with described status information.For example: if collect No. 998 gate inhibition's IC-cards action takes place once to swipe the card, the Controlling Source type according to definition can be defined as it common controlling alarm source.

3, determine control mode.According to Controlling Source type configuration control corresponding mode.Instant Controlling Source only has manual control mode; The timing controlled source only has automatic control mode; Common controlling alarm source has automatic control mode, manual control mode, time-delay automatic control mode; Complicated controlling alarm source has automatic control mode, manual control mode, time-delay automatic control mode.When adding a Controlling Source, at first be the type of selecting Controlling Source, four select one, secondly are exactly the type according to Controlling Source, select a kind of control mode.That is to say that control mode is the trigger pip that produces at Controlling Source.

4, output trigger pip.Status signal according to equipment in the fixed control mode output safety-protection system.For example: with the actuating signal output of once swiping the card of No. 998 gate inhibition's IC-cards.

In conjunction with shown in Figure 4, device control scheduler subsystem is with the big energy consumption rich and influential family of three in the automatic building control system: elevator, air-conditioning, illuminator are defined as controlling object; (operational mode is meant the mode of operation of equipment operation with working time of each controlling object and operational mode, for example: the fire alarm of the output of 90% power of the refrigeration of air-conditioning, illumination, elevator is stopped transport) combination be attached to this controlling object as control information, and have the controlling object of control information to be associated with Controlling Source type in the Controlling Source ADMINISTRATION SUBSYSTEM with attached; Determine controlling object according to the trigger pip that receives, send the demand for control signal.The present invention can realize the intercommunication of information like this, thereby realizes robotization between each system of intelligent building, intelligentized coordinate operation.Simultaneously, under the control of outstanding association mode, can realize minimumization of equipment operation energy consumption, the maximum of operational efficiency, the maximization that minimizes and save cost of rate of breakdown by the present invention.

The control procedure of described device control scheduler subsystem is:

A, definition controlling object, described controlling object is meant certain energy consumption equipment in the automatic building control system, in the present invention elevator, air-conditioning, illuminator is defined as controlling object.

B, determine the control information of controlling object, described control information is meant the demand for control of controlling object.The combination of working time of each controlling object and/or operational mode as control information, and is attached to this controlling object with this control information.For example, a kind of control information of illuminator is that the time that No. 5 illuminating lamps are opened illumination is 5 minutes; 1 layer of elevator parking, 2# air-conditioning unit starting and refrigeration, 3# lamp group are opened 100% power output etc.

The incidence relation of the type of C, definition controlling object and Controlling Source binds together the type of controlling object and Controlling Source, that is to say that the type with the Controlling Source in the attached controlling object that control information arranged and the Controlling Source ADMINISTRATION SUBSYSTEM is associated.For example, control information " No. 5 illuminating lamps open illumination time be 5 minutes " is associated with the type " common controlling alarm source " of Controlling Source.

D, reception trigger pip promptly receive the trigger pip that the Controlling Source ADMINISTRATION SUBSYSTEM is sent, and according to the trigger pip that receives, determine controlling object.For example, what receive is the trigger pip that send in " common controlling alarm source ", the controlling object that is associated with this trigger pip is illuminator " No. 5 illuminating lamp ", and the attached control information of this controlling object is " No. 5 illuminating lamps open illumination time be 5 minutes ".

E, output demand for control are exported to the device responds Monitor And Control Subsystem with the demand for control signal of controlling object.

Described controlling object can increase, revises or delete; The control information of controlling object also can increase, revises or delete.

In conjunction with shown in Figure 5, the demand for control signal that device responds Monitor And Control Subsystem receiving equipment control scheduler subsystem is sent, the coupling control signal, the controlling object in the control automatic building control system is carried out control corresponding, and receives the implementation effect signal of controlling object feedback.Have in the process of controlling object execution control and attempt carrying out three times treatment mechanism, three times then final feedback of all failing carried out failure signals.

The control procedure of described device responds Monitor And Control Subsystem is:

A, define equipment coding provide a control coding for each controlling object, and for example, the control of relay module is encoded to 0x01.

B, to the additional steering order of device coding, corresponding control information is defined as corresponding steering order, and is attached on the device coding.

The demand for control signal that c, receiving equipment control scheduler subsystem are sent accesses the steering order relative with it, is sent to automatic building control system, controls corresponding controlling object and carries out control corresponding, and receive the implementation effect signal of controlling object feedback.

Described device responds Monitor And Control Subsystem provides manual control interface, can carry out manual operation to controlling object under manual control mode, and sending controling instruction is controlled manual control interface execution or removed controls.

Described device responds Monitor And Control Subsystem can write down and check the information such as implementation, execution time and execution result of various control modes; Check the implementation status of current or historical controlling object running status, operational mode, control information etc. by its displaying interface.

At some in particular cases, flexible Application the present invention can also bring into play some unique functions.For example, at night the time period of unmanned work, safety-protection system detects the personnel activity, except the warning function of safety-protection system self, can limit the elevator parking floor, can open light of personnel position or the like.

Claims (8)

1. intelligent building energy-saving control system, it is characterized in that: described intelligent building energy-saving control system is connected with safety-protection system, automatic building control system, and the information of carrying out transmits;

Described intelligent building energy-saving control system comprises:

The Controlling Source ADMINISTRATION SUBSYSTEM, be connected with described safety-protection system, with the equipment disposition in the safety-protection system is Controlling Source, and Controlling Source classified, receive the status information of equipment of safety-protection system, this status information of equipment is associated as a kind of Controlling Source type, and is this Controlling Source type configuration control corresponding mode, send trigger pip;

Device control scheduler subsystem is connected with described Controlling Source ADMINISTRATION SUBSYSTEM, determines controlling object according to the trigger pip that receives, and sends the demand for control signal;

The device responds Monitor And Control Subsystem, be connected with described device control scheduler subsystem, automatic building control system, the demand for control signal that receiving equipment control scheduler subsystem is sent, the coupling control signal, controlling object in the control automatic building control system is carried out control corresponding, and receives the implementation effect signal of controlling object feedback.

2. intelligent building energy-saving control system as claimed in claim 1 is characterized in that: the control procedure of described Controlling Source ADMINISTRATION SUBSYSTEM is:

The type of definition Controlling Source, the type definition of Controlling Source is four classes: instant Controlling Source, timing controlled source, common controlling alarm source, complicated controlling alarm source;

Gather the status information of equipment in the safety-protection system, according to the information of gathering, the Controlling Source type according to definition is associated with a kind of Controlling Source type with described status information;

According to Controlling Source type configuration control corresponding mode, instant Controlling Source has manual control mode; The timing controlled source has automatic control mode; Common controlling alarm source has automatic control mode, manual control mode, time-delay automatic control mode; Complicated controlling alarm source has automatic control mode, manual control mode, time-delay automatic control mode;

The output trigger pip is exported the status signal that has disposed equipment in the safety-protection system of control mode, Controlling Source type as trigger pip.

3. intelligent building as claimed in claim 2 byte energy control system, it is characterized in that: described instant Controlling Source, timing controlled source, common controlling alarm source, complicated controlling alarm source can be added immediately; The type of described Controlling Source can add, deletes or revise.

4. intelligent building energy-saving control system as claimed in claim 1 is characterized in that: the control procedure of described device control scheduler subsystem is:

The definition controlling object, described controlling object is meant the energy consumption equipment in the automatic building control system;

Determine the control information of controlling object, the combination of working time of each controlling object and/or operational mode as control information, and is attached to this controlling object with this control information;

The incidence relation of definition controlling object and Controlling Source type has the controlling object of control information to be associated with Controlling Source type in the Controlling Source ADMINISTRATION SUBSYSTEM with attached;

Receive the trigger pip that the Controlling Source ADMINISTRATION SUBSYSTEM is sent, and, determine controlling object according to the trigger pip that receives;

The demand for control signal of controlling object is exported to the device responds Monitor And Control Subsystem.

5. intelligent building as claimed in claim 4 byte energy control system, it is characterized in that: described controlling object can increase, revises or delete; The control information of controlling object also can increase, revises or delete.

6. intelligent building as claimed in claim 1 byte energy control system, it is characterized in that: the control procedure of described device responds Monitor And Control Subsystem is:

The define equipment coding provides a control coding for each controlling object;

To the additional steering order of device coding, corresponding control information is defined as corresponding steering order, and is attached on the device coding;

The demand for control signal that receiving equipment control scheduler subsystem is sent accesses the steering order relative with it, is sent to automatic building control system, controls corresponding controlling object and carries out control corresponding, and receive the implementation effect signal of controlling object feedback.

7. as claim 1 or 6 described intelligent building energy-saving control system, it is characterized in that: described device responds Monitor And Control Subsystem provides manual control interface, can carry out manual operation to controlling object under manual control mode, sending controling instruction is controlled manual control interface execution or is removed controls.

8. as claim 1 or 6 described intelligent building energy-saving control system, it is characterized in that: described device responds Monitor And Control Subsystem can write down and check implementation, execution time and the execution result information of various control modes; Show the implementation status that current or historical controlling object running status, operational mode, control information are checked in the interface by it.

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