CN106154983A - Mutual detection method, mutual detection device and electric power management system - Google Patents

Abstract

The invention discloses a kind of mutual detection method, mutual detection device and electric power management system, described mutual detection method comprises the following steps.Judge whether the first operating state of the first equipment meets normal-criterion.When the first operating state does not meets normal-criterion, then perform detection program.The program that wherein detects comprises the following steps.Judge whether sensor detects sensing input within the first period.When sensor detects sensing input within the first period, then maintain the first operating state.When sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.

Description

Mutual detection method, mutual detection device and electric power management system

Technical field

Present disclosure generally relates to a kind of environment controlling technique, and particularly a kind of mutual detection method, mutual detection device and electric power management system.

Background technology

With exploding of population in the world, energy crisis has been the problem that various countries are paid much attention in recent years.The great calamity of the energy not only results in the mankind in inconvenience in life, also can highly affect the economic activity in the whole world, even can cause the resource predatory behavior of various countries, trigger war further.

It in this regard, the saving energy, is still to be currently used for solving one of maximally effective means of energy crisis.But, people still desire to live in one comfortable with environment easily, have substantial amounts of electronic product in daily life from application.Therefore, how to save the energy and the facility supported the family and comfortable middle acquirement balance, be still an awkward subject under discussion.

If here, the energy to be saved and the facility supported the family with comfortable, be bound to effectively control arround the operating state of electronic product.But, with Traditional Man mode monitor arround a large amount of electronic product, it appears be not inconsistent benefit, lack the real-time in monitoring yet.Wherein, there is between each electronic product impact layer by layer and in the case of interactive relation, if the eliminating of fault to be carried out, be also not a simple task.

If additionally, fail to find the electronic product that running is abnormal in real time, and the consuming energy that one hides, it is also the big problem deteriorating energy crisis.

Furthermore, conventional power saving apparatus is fresh uses intellectual analysis historical data to carry out scheduling planning less, causes possible power wastage.Additionally, even if using human infrared sensor (PIR sensor), it still cannot be carried out detecing mistake by current existing system automatically, if in the case that human infrared sensor breaks down, the puzzlement of onsite application personnel will be caused, be likely to result in again power wastage simultaneously.

Content of the invention

The present invention is by judging whether operating state is that normality carrys out detection trigger program, so as to entering the mutual detection between line sensor and electronic product, solve the whether monitoring of the operating state to electronic product for the tradition and the fault to sensor and be difficult to, be not inconsistent benefit and the problem lacking real-time.

The present invention provides a kind of mutual detection method and device, the reason that the operating state so as to finding out electronic product does not meets normality, and carry out the adjustment of hommization, and the failure problems of eliminating sensor to it, reach further and save the energy and the facility supported the family and comfortable effect.

The present invention provides a kind of mutual detection method, comprises the following steps.Judge whether the first operating state of the first equipment meets normal-criterion, and when the first operating state does not meets normal-criterion, then perform detection program.The program that wherein detects comprises the following steps.Judge whether sensor detects sensing input within the first period.When sensor detects sensing input within the first period, then maintain the first operating state.When sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.

In an embodiment of the present invention, judge whether the first operating state meets a scheduling control information, judge whether the first operating state meets history operation information, and when the first operating state do not meet scheduling control information and history operation information one of them when, then judge the first operating state as not meeting normal-criterion.

In an alternative embodiment of the invention, more new historical operation information is carried out according to the first operating state.

In an alternative embodiment of the invention, judge whether within one second period, read the 3rd being actively entered of operating state of corresponding first equipment and stop scheduling control program and the second operating state, and when the 3rd being actively entered of operating state reading corresponding first equipment within the second period stops scheduling control program with the second operating state, then set up the fault message of sensor.

In an alternative embodiment of the invention, within the 3rd period, send buffering alarm signal, and after the 3rd period, start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.

In an alternative embodiment of the invention, after the 4th period, detection program is re-executed.

In an alternative embodiment of the invention, the second equipment of first equipment that is relevant to is started.

The present invention provides a kind of mutual detection device, including monitoring and statistical module and management module.Whether monitoring and statistical module meet normal-criterion in order to the first operating state judging one first equipment.Management module couples is to monitoring and statistical module, in order to when the first operating state does not meets normal-criterion, then perform detection program, and in detection program, judge whether sensor detects sensing input within the first period, when sensor detects sensing input within the first period, then maintain the first operating state, and when sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.

As described above, the present invention is not when the first operating state of the first equipment meets normal-criterion, the execution of detection trigger program.In detection program, when sensor detects the sensing input of corresponding user within the first period, then maintain the first operating state of the first equipment, thereby provide user suitable working environment.When sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion, so as to saving the energy.

Above with respect to present invention and below in relation to the explanation system of embodiment in order to demonstrating and to illustrate spirit and the principle of the present invention, and provide the explanation further of the claim to the present invention.

[brief description]

1st figure is the mutual block diagram detecting device according to one of present invention embodiment.

2nd figure is the system architecture diagram of the electric power management system according to one of present invention embodiment.

3rd figure is the flow chart of the mutual detection method according to one of present invention embodiment.

[detailed description of the invention]

Hereinafter the detailed features of the present invention is described in embodiments, its content be enough to make any relevant art of being familiar with understand the technology contents of the present invention and implement according to this, and according to the disclosed content of this specification, claim and graphic, any relevant art of being familiar with can be readily understood upon the related purpose of the present invention and advantage.Following example system further illustrate the present invention all towards, but non-with any towards limit the present invention category.

1st figure is the mutual block diagram detecting device 100 according to one of present invention embodiment.As shown in Figure 1, mutual detection device 100 includes monitoring and statistical module 110 and management module 120.Management module 120 couples monitoring and statistical module 110.In embodiments of the present invention, mutual detection device 100 can be desktop PC, mobile computer or various intelligent electronic device, is not any limitation as at this.Monitoring and statistical module 110 can be various functional chip or microprocessor with management module 120, are not also any limitation as at this.

In embodiments of the present invention, whether monitoring and statistical module 110 meet normal-criterion in order to the first operating state judging the first equipment.For example, the first equipment can be lighting apparatus, air-conditioning equipment, power supply unit, communication apparatus and be application apparatus arround various, is not any limitation as at this.For the ease of describing, the target of device 100 detection to be interacted will be detected alternately below, be set as meeting room, and the lighting apparatus in the first equipment is set as meeting room, thereby illustrate.First operating state carries out the state recording when routine ground detects alternately for mutual detection device 100 to the first equipment, and such as lamp is bright or turns off the light.

Normal-criterion can set according to scheduling control information and history operation information.For example, scheduling control information can the reservation use timetable of corresponding meeting room.For example, meeting room is reserved use in Friday afternoon 2, is not to be reserved use at 9 in morning Saturday.History operation information can be noted down in the actual operation in past one month for corresponding first equipment, but its record time also can be three days, one week, even half a year, is not any limitation as at this.Thereby, when with statistical module 110, monitoring judges whether the first operating state of the first equipment meets normal-criterion, can further judge whether the first operating state meets scheduling control information, and judge whether the first operating state meets history operation information.When monitoring and statistical module 110 judge the first operating state do not meet scheduling control information and this history operation information one of them when, then judge the first operating state as not meeting normal-criterion.

Then, in embodiments of the present invention, management module 120 is not in order to when the first operating state meets normal-criterion, then perform detection program.For example, when according to normal-criterion, management module 120 thinks that the first equipment is bigger for the probability turned off the light, but the first operating state actually but recording the first equipment is when to be lamp bright, this is then probably user and is not registered in reservation use timetable, but employ meeting room and by the first opening of device temporarily, or it could also be possible that be unlocked by other factor.Therefore, manage module 120 and will perform detection program, judge whether to there is a need to continue to allow the first equipment continue in bright the first operating state of lamp.

In detection program, management module 120 can judge whether sensor detects sensing input within the first period.This senses the measured induced signal of the human infrared sensor in input can be meeting room, temperature sensor, ultrasound sensors or other types sensor, and this induced signal can represent user and be currently in use meeting room.First period can be 5 minutes, it is also possible to is other time interval, is not any limitation as at this.When managing module 120 and judging that sensor detects sensing input within the first period, then maintain the first operating state.Thereby, although this user not registration in reservation use timetable uses meeting room, also not using meeting room in now in past one month normality, mutual detection device 100 still can maintain to hommization the environment of lamp bright (the first operating state).

In embodiments of the present invention, wherein when management module 120 judges that sensor detects sensing input within the first period and after maintaining the first operating state, can further start the second equipment of first equipment that is relevant to.For example, the mutual detection device 100 in this stage is except can maintain to hommization the environment of lamp bright (the first operating state), also can start the second related equipment, to facilitate user to work.Wherein, if the first equipment is lighting apparatus, then the second equipment can be air-conditioning equipment, power supply unit, communication apparatus and various arround application apparatus.In embodiments of the present invention, when managing module 120 and judging that sensor detects sensing input within the first period, then more new historical operation information is carried out according still further to the first operating state.Thereby, can be closer to the actual use habit of the user of meeting room and the demand of use.In embodiments of the present invention, when management module 120 judges that sensor detects sensing input within the first period and after maintaining the first operating state, also can re-execute detection program further after the 4th period.Thereby, perform detection program with repetitiousness and guarantee that meeting room does not have the abnormal state of the first equipment, and cause the situation of waste electricity.4th period can be 30 minutes, it is also possible to is other time interval, is not any limitation as at this.

In detection program, when managing module 120 and judging that sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.For example, when the switch having user's false touch the first equipment have left meeting room, therefore sensor did not detected sensing input in 5 minutes, therefore, management module 120 will think the first equipment without being maintained at the first operating state of bright light in this stage, and change into the second operating state meeting normal-criterion further, such as lamp goes out.In embodiments of the present invention, when managing module 120 and judging that sensor does not detects sensing input within the first period, then, before the first equipment is changed into the second operating state, buffering alarm signal can be sent further within the 3rd period.This buffering alarm signal can be the cresset of flicker, broadcast or other message, is not any limitation as at this.And send buffering alarm signal and after the 3rd period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.3rd period can be 2 minutes, it is also possible to is other time interval, is not any limitation as at this.

In an alternative embodiment of the invention, after the first equipment changes into the second operating state, management module 120 can further judge whether to read the 3rd being actively entered of operating state of corresponding first equipment within the second period and stop scheduling control program and the second operating state.It is actively entered the enabling signal of the switch that can be the first equipment, or the regulation signal of the first equipment, be not any limitation as at this.First period can be 3 minutes, it is also possible to is other time interval, is not also any limitation as at this.For example, when sensor will not detect within 5 minutes (the first period) sensing input, and switch to further lamp go out (the second operating state meeting normal-criterion) when, this is then likely to be sensor and there occurs fault.Therefore, if user is meant to use meeting room really, then the switch of corresponding first equipment on one's own initiative should produce enabling signal (being actively entered), so as to stopping scheduling control program and the second operating state (as lamp goes out), the first equipment is made to change to the 3rd operating state (such as bright light).

In embodiments of the present invention, when managing module 120 and judging to read the 3rd being actively entered of operating state of corresponding first equipment within the second period and stop scheduling control program with the second operating state, then can further start the second equipment of first equipment that is relevant to.For example, it is lamp bright (the 3rd operating state) that the management module 120 in this stage changes the first equipment except corresponding being actively entered of meeting, also related the second equipment (start air-conditioning, socket power is powered, automatically start projector or startup Wireless Communication Equipment etc. for example simultaneously) can be started, to facilitate user to work.

In addition, another feature of the present invention is automatically can to carry out detecing mistake to sensor (such as infrared ray action sensor, PIR motion sensor), and actively set up the fault message of sensor to manager/managing device.For example, judge whether that reading one within one second period is actively entered and stops this scheduling control program, for example, light fixture/the air-conditioning of one meeting room is opening at present, but according to historical record/field data of scheduling information analysis, management platform learns that this meeting room light fixture/air-conditioning current should be closed mode, therefore platform is managed by after this meeting room light fixture/air-conditioning closedown, in 5 minutes, horse back is manually opened by Field Force, now manage platform and judge getting the wrong sow by the ear and stopping this scheduling control program of this scheduling control program, and this information is added historical record/field data of scheduling information, in case close light fixture/air-conditioning under same situation future by mistake, Field Force is caused to perplex.Additionally, management platform reads first and second period information (before and after such as closedown meeting room light fixture/air-conditioning 10 minutes) of the infrared ray action sensor of this meeting room, if this infrared ray action sensor all shows do not have action sensing to note down, then this infrared ray action sensor is judged to fault, since reason is to close within 5 minutes, to have after meeting room light fixture/air-conditioning people to be again turned in scene but do not detect action record, then representative sensor likelihood of failure is at a relatively high, therefore sets up the fault message circular of sensor to management terminal).

2nd figure is the system architecture diagram of the electric power management system according to one of present invention embodiment.As shown in Figure 2, one environment sensing device 10, comprise one or more sensor the 11st, one or more ammeter 12 and one first wireless node apparatus 13, information is conveyed to this first wireless node apparatus 13 after sensing site environment by this sensor 11, and power information is conveyed to this first wireless node apparatus 13 by this ammeter 12；One air-conditioning device 20, comprises one or more frequency converter the 21st a, program logic controller the 22nd, one second wireless node apparatus 23；One telegon 30, receives the information from this first wireless node apparatus 13 and this second wireless node apparatus 23, and controls this first wireless node apparatus 13 and this second wireless node apparatus 23；One central host 40, receives the information from this telegon 30, and controls this telegon 30；One energy conservation main frame 50, add up and analyze the information receiving from this central host 40, and according to analysis result, management instruction is assigned to this central host 40, this environment sensing device 10 or this air-conditioning device 20 are managed by this central host 40 through this telegon 30；And a terminal device 60, receive the information of this central host 40 and this energy conservation main frame 50 and be shown on a screen.Wherein this energy conservation main frame 50 judges whether one first operating state of this environment sensing device 10 meets a normal-criterion；And when this first operating state does not meets this normal-criterion, then perform a detection program；Wherein this detection program includes: judge whether this sensor 11 detects a sensing input within one first period；When this sensor 11 detects this sensing input within this first period, then maintain this first operating state；And when this sensor 11 does not detects this sensing input within this first period, then this energy conservation main frame 50 starts a scheduling control program, this central host 40 is assigned instruction by this scheduling control program, this central host 40 passes through this telegon 30, this environment sensing device 10 or this air-conditioning device 20 are changed into one second operating state from this first operating state, to meet this normal-criterion.

3rd figure is the flow chart of the mutual detection method according to one of present invention embodiment.As shown in Figure 3, the mutual detection method of the embodiment of the present invention includes step S200, S300.Step S300 further includes step S310 ~ S330.

In step s 200, monitoring and statistical module 110 judge whether the first operating state of the first equipment meets normal-criterion.In step S300, when with statistical module 110, monitoring judges that the first operating state does not meets normal-criterion, then perform detection program.In step S310, management module 120 judges whether sensor detects sensing input within the first period.In step s 320, when managing module 120 and judging that sensor detects sensing input within the first period, then the first operating state is maintained.In step S330, when managing module 120 and judging that sensor does not detects sensing input within the first period, then start scheduling control program and the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion.These steps are specified in, repeat no more in this.

In sum, the present invention the first operating state of the first equipment do not meet the scheduling control information in normal-criterion or history operation information one of them when, then the execution of detection trigger program.In detection program, when sensor detects the sensing input of corresponding user within the first period, then maintain the first operating state of the first equipment, and more new historical operation information, and start the second related equipment, thereby provide the work of user's hommization to use environment.When sensor does not detects sensing input within the first period, buffering alarm signal can be sent within the 3rd period, followed by starting scheduling control program, the first equipment is changed into the second operating state from the first operating state, to meet normal-criterion, so as to saving the energy.And in order to get rid of the factor of damage of sensor, read within the second period one be actively entered and after stopping this scheduling control program, it is judged that if this sensor does not all detect sensing input in the first period with the second period, then set up the fault message of sensor.

Although the present invention is disclosed above with aforementioned embodiment, so it is not limited to the present invention.Without departing from the spirit and scope of the invention, change for it and retouching, all belong to the scope of patent protection of the present invention.Refer to appended claim with regard to the protection domain that the present invention is defined.

Claims (16)

1. a mutual detection method, it is characterised in that include:

Judge whether one first operating state of one first equipment meets a normal-criterion；And

When this first operating state does not meets this normal-criterion, then perform a detection program；

Wherein this detection program includes:

Judge whether a sensor detects a sensing input within one first period；

When this sensor detects this sensing input within this first period, then maintain this first operating state；And

When this sensor does not detects this sensing input within this first period, then start a scheduling control program and this first equipment is changed into one second operating state from this first operating state, to meet this normal-criterion.

2. mutual detection method as claimed in claim 1, it is characterised in that whether meet in the step of this normal-criterion in this first operating state judging this first equipment, further include:

Judge whether this first operating state meets a scheduling control information；

Judge whether this first operating state meets a history operation information；And

When this first operating state do not meet this scheduling control information and this history operation information one of them when, then judge this first operating state as not meeting this normal-criterion.

3. mutual detection method as claimed in claim 2, it is characterised in that in when this sensor detects this sensing input within this first period, then maintain in the step of this first operating state, further include:

Update this history operation information according to this first operating state.

4. mutual detection method as claimed in claim 1, it is characterized in that, in when this sensor does not detects this sensing input within this first period, then start this scheduling control program and this first equipment is changed into this second operating state from this first operating state, with meet this normal-criterion step after, further include:

Judge whether that reading one within one second period is actively entered and stops this scheduling control program；And

When this sensor does not detects this sensing input within this first period and this second period, then set up a fault message of this sensor.

5. mutual detection method as claimed in claim 1, it is characterized in that, in when this sensor does not detects this sensing input within this first period, then start this scheduling control program and this first equipment is changed into this second operating state from this first operating state, meeting in the step of this normal-criterion, further include:

Within one the 3rd period, send a buffering alarm signal；And

After the 3rd period, start this scheduling control program and this first equipment is changed into this second operating state from this first operating state, to meet this normal-criterion.

6. mutual detection method as claimed in claim 1, it is characterised in that in when this sensor detects this sensing input within this first period, then, after maintaining the step of this first operating state, further include:

After one the 4th period, re-execute this detection program.

7. mutual detection method as claimed in claim 1, it is characterised in that in when this sensor detects this sensing input within this first period, then, after maintaining the step of this first operating state, further include:

Start one second equipment being relevant to this first equipment.

8. a mutual detection device, it is characterised in that include:

One monitoring and statistical module, whether one first operating state in order to judge one first equipment meets a normal-criterion；And

One management module, it is coupled to this monitoring and statistical module, in order to when this first operating state does not meets this normal-criterion, then perform a detection program, and in this detection program, judge whether a sensor detects a sensing input within one first period, when this sensor detects this sensing input within this first period, then maintain this first operating state, and when this sensor does not detects this sensing input within this first period, then start a scheduling control program and this first equipment is changed into one second operating state from this first operating state, to meet this normal-criterion.

9. mutual detection device as claimed in claim 8, it is characterized in that, this monitoring and statistical module further judge whether this first operating state meets a scheduling control information, judge whether this first operating state meets a history operation information, and when this first operating state do not meet this scheduling control information and this history operation information one of them when, then judge this first operating state as not meeting this normal-criterion.

10. mutual detection device as claimed in claim 9, it is characterised in that when this management module judges that this sensor detects this sensing input within this first period, then update this history operation information according still further to this first operating state.

11. mutual detection devices as claimed in claim 8, it is characterized in that, this first equipment is changed into this second operating state from this first operating state in startup this scheduling control program by this management module, after meeting this normal-criterion, further judge whether that reading one within one second period is actively entered and stops this scheduling control program, and when this sensor does not detects this sensing input within this first period and this second period, then set up a fault message of this sensor.

12. mutual detection devices as claimed in claim 8, it is characterized in that, when this management module judges that this sensor does not detects this sensing input within this first period, then further within one the 3rd period, send a buffering alarm signal, and after the 3rd period, start this scheduling control program and this first equipment is changed into this second operating state from this first operating state, to meet this normal-criterion.

13. mutual detection devices as claimed in claim 8, it is characterized in that, when this management module judges that this sensor detects this sensing within this first period and inputs and after maintaining this first operating state, further after one the 4th period, re-execute this detection program.

14. mutual detection devices as claimed in claim 8, it is characterized in that, when this management module judges that this sensor detects this sensing within this first period and inputs and after maintaining this first operating state, further start one second equipment being relevant to this first equipment.

15. 1 kinds of electric power management systems, it is characterised in that include:

One environment sensing device, comprise one or more sensor, one or more ammeter and one first wireless node apparatus, information is conveyed to this first wireless node apparatus after sensing site environment by this sensor, and power information is conveyed to this first wireless node apparatus by this ammeter；

One air-conditioning device, comprises one or more frequency converter, a program logic controller, one second wireless node apparatus；

One telegon, receives the information from this first wireless node apparatus and this second wireless node apparatus, and controls this first wireless node apparatus and this second wireless node apparatus；

One central host, receives the information from this telegon, and controls this telegon；

One energy conservation main frame, adds up and analyzes the information receiving from this central host, and assign management instruction according to analysis result to this central host, and this environment sensing device or this air-conditioning device are managed by this central host through this telegon；And

One terminal device, receives the information of this central host and this energy conservation main frame and is shown on a screen.

16. electric power management systems as claimed in claim 15, it is characterised in that this energy conservation main frame judges whether one first operating state of this environment sensing device meets a normal-criterion；And

When this first operating state does not meets this normal-criterion, then perform a detection program；

Wherein this detection program includes:

Judge whether this sensor detects a sensing input within one first period；

When this sensor detects this sensing input within this first period, then maintain this first operating state；And

When this sensor does not detects this sensing input within this first period, then this energy conservation host-initiated one scheduling control program, this central host is assigned instruction by this scheduling control program, this central host passes through this telegon, this environment sensing device or this air-conditioning device are changed into one second operating state from this first operating state, to meet this normal-criterion.