CN104093235B - A kind of method of power-on and device - Google Patents

Abstract

The invention discloses a kind of method and device of power-on.Described method comprises: the infra-red heat induction information in monitoring preset range; Whether the infra-red heat induction information monitored described in judgement mates with the infra-red heat induction information preset; When the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on.Realize when human body near time mains switch time self-opening power supply, eliminate the action of artificial power-on, improve fail safe during user's power-on.

Description

A kind of method of power-on and device

Technical field

The present invention relates to Energy control technical field, particularly relate to a kind of method and device of power-on.

Background technology

At present, control method conventional in Energy control remains by switch control rule, and switch refers to that one can make open circuit or electronic component that is closed circuit, that make current interruptions or circulation.Switch by the contact of contact be separated the open and close realizing loop.And be all by making two contact or separation in switch manually when using conventional switch control rule power supply.

Such as, when user needs the power supply opening electric light, user goes to by the power supply of electric light, and presses mains switch, makes in switch two contact that the electric power loop at electric light place is closed, lights electric light.

But when under pitch-dark environment, user goes power-on, the because users due to light cannot see the accurate location of switch, so often will touch with hand the position finding switch, causes very large puzzlement to user.And during by switch open or powered-down, because needs user directly contacts with switch, cause very large potential safety hazard.

Summary of the invention

The embodiment of the present invention provides a kind of method and device of power-on, for realize when human body near time mains switch time self-opening power supply, eliminate the action of artificial power-on, improve fail safe during user's power-on.

A method for power-on, comprises the following steps: the infra-red heat induction information in monitoring preset range; Whether the infra-red heat induction information monitored described in judgement mates with the infra-red heat induction information preset; When the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on.Judge whether in preset range, have people by infra-red heat induction close, if there is people close, power-on.Because human body self can produce heat, so it is close can to judge whether there is people within the scope of this by the infra-red heat induction information in a certain preset range of monitoring.Realize when human body near time mains switch time self-opening power supply, eliminate the action of artificial power-on, improve fail safe during user's power-on.

Described infra-red heat induction information comprises: infra-red heat induction temperature, infra-red heat induction high-temperature area size and infra-red heat induction high-temperature area size variation amount.Gather multiple infra-red heat induction information as Rule of judgment, can judge whether it is human body proximity more accurately.

Described preset range, comprising: default monitoring distance is 0-6m and default monitoring width is 0-120 °.Preset range can effectively limit just can be judged as human body proximity when human body enters certain limit, the false judgment brought when can reduce human motion and power-on.

Whether the infra-red heat induction information monitored described in described judgement mates with the infra-red heat induction information preset, and comprising: judge whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated; The infra-red heat induction temperature and the default infra-red heat that monitor when described respond tos temperature when mate, and the infra-red heat that judgement monitors is responded to high-temperature area size and whether responded to high-temperature area size with default infra-red heat and mates; The infra-red heat induction high-temperature area size monitored when described and the infra-red heat preset respond tos high-temperature area size when mate, and the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched; The infra-red heat induction high-temperature area size variation amount monitored when described and the infra-red heat preset respond to high-temperature area size variation flux matched time, the infra-red heat induction information monitored described in determining mates with default infra-red heat induction information.The judgement responded to infra-red heat by three times, the General Logistics Department determines whether the infra-red heat induction for producing during human body proximity.Can get rid of the interference that other mobile objects with infra-red heat induction bring, the object with infra-red heat induction that can be close is more accurately human body.

Described when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, power-on, comprising: when the described infra-red heat induction information monitored mates with default infra-red heat induction information, acquisition current time; Judge whether described current time mates with the historical record of power-on time; If the time point of described power-on mates with the historical record of described power-on time, then record described current time and power-on.By judging whether the time point of this infrared induction information monitored mates with the historical record of power-on time, determine this time whether power-on.Can judge that whether the infra-red heat induction information that this time monitors is the infra-red heat induction information of user when wanting power-on accurately, get rid of user and move to the disturbed condition caused in preset range when not needing power-on.

Described when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, power-on, comprise: when the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, monitor the ambient brightness in described preset range; Judge whether the ambient brightness in described preset range is less than or equal to predetermined luminance; If described ambient light is less than or equal to predetermined luminance, then power-on.Because user has very large probability to enter into preset range when not needing power-on, therefore by judging ambient light, determine whether power-on.Can determine accurately user close in preset range time, current brightness case is the need of power-on.

A device for power-on, comprising: monitoring modular, judge module and opening module, described monitoring modular, for monitoring the infra-red heat induction information in preset range; Whether described judge module, mate with the infra-red heat induction information preset for the infra-red heat induction information monitored described in judging; Described opening module, for when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, power-on.

Judge module, comprising: the first judging unit, the second judging unit, the 3rd judging unit and determining unit, described first judging unit, for judging whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated; Described second judging unit, for when described in the infra-red heat induction temperature and the default infra-red heat that monitor respond to temperature mate time, the infra-red heat that judgement monitors is responded to high-temperature area size and whether is responded to high-temperature area size with default infra-red heat and mates; Described 3rd judging unit, for when described in the infra-red heat induction high-temperature area size monitored and the infra-red heat preset respond to high-temperature area size mate time, the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched; Described determining unit, for when described in the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset respond to high-temperature area size variation flux matched time, the infra-red heat induction information monitored described in determining mates with default infra-red heat induction information.

Opening module, comprising: the first monitoring means, the 4th judging unit and first open unit, described first monitoring means, for when described in the infra-red heat induction information that monitors mate with default infra-red heat induction information time, acquisition current time; Described 4th judging unit, for judging whether described current time mates with the historical record of power-on time; Described first opens unit, if mate with the historical record of described power-on time for the time point of described power-on, then records described current time and power-on.

Described opening module, comprise: the second monitoring means, the 5th judging unit and second open unit, described second monitoring means, for when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, monitor the ambient brightness in described preset range; Described 5th judging unit, for judging whether the ambient brightness in described preset range is less than or equal to predetermined luminance; Described second opens unit, if be less than or equal to predetermined luminance for described ambient light, then and power-on.

Other features and advantages of the present invention will be set forth in the following description, and, partly become apparent from specification, or understand by implementing the present invention.Object of the present invention and other advantages realize by structure specifically noted in write specification, claims and accompanying drawing and obtain.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for specification, together with embodiments of the present invention for explaining the present invention, is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the schematic flow sheet of the method for a kind of power-on in the embodiment of the present invention;

Fig. 2 is the schematic flow sheet of the method detailed of a kind of power-on in the embodiment of the present invention;

Fig. 3 is the schematic flow sheet of the method detailed of another kind of power-on in the embodiment of the present invention;

Fig. 4 is the structural representation of the device of a kind of power-on in the embodiment of the present invention;

Fig. 5 is the structural representation of judge module in the device of a kind of power-on in the embodiment of the present invention;

Fig. 6 is the structural representation of opening module in the device of a kind of power-on in the embodiment of the present invention;

Fig. 7 is the structural representation of opening module in the device of a kind of power-on in the embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of the present invention, is not intended to limit the present invention.

As shown in Figure 1, a kind of method of power-on, concrete implementation step is as follows:

In a step 101, the infra-red heat induction information in preset range is monitored.

Wherein, infra-red heat induction information, comprising: infra-red heat induction temperature, infra-red heat induction high-temperature area size and infra-red heat induction high-temperature area size variation amount.

Preset range, comprising: default monitoring distance is 0-6m and default monitoring width is 0-120 °.

In a step 102, judge whether the infra-red heat induction information monitored mates with the infra-red heat induction information preset, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, then perform step 103.

Wherein, coupling refers to that the parameters of infra-red heat induction information falls within the span of the parameter of the corresponding infra-red heat induction information preset.

Wherein, in a step 102, judge whether the infra-red heat induction information monitored mates with the infra-red heat induction information preset, and comprising: judge whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated; When the infra-red heat induction temperature and the default infra-red heat that monitor respond to temperature mate time, the infra-red heat that judgement monitors is responded to high-temperature area size and whether is responded to high-temperature area size with default infra-red heat and mates; When the infra-red heat induction high-temperature area size monitored and the infra-red heat preset respond to high-temperature area size mate time, the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched; When the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset respond to high-temperature area size variation flux matched time, determine that the infra-red heat induction information monitored mates with default infra-red heat induction information.

In step 103, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on.

Wherein, in step 103, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on, comprising: when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, obtain current time; Judge whether current time mates with the historical record of power-on time; If the time point of power-on mates with the historical record of power-on time, then record current time and power-on.

In addition, step 103 can also be embodied as under type: when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on, comprise: when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, the ambient brightness in monitoring preset range; Judge whether the ambient brightness in preset range is less than or equal to predetermined luminance; If ambient light is less than or equal to predetermined luminance, then power-on.

Embodiments providing a kind of method of power-on, by the infra-red heat induction information in monitoring preset range, when monitoring the infra-red heat induction information matched with default infra-red heat induction information, determining human body proximity and power-on.User by mains switch open day electrical equipment or the power supply of electric light time, usually need direct touch switch or insert socket, thus power-on.And when user's power-on, owing to directly need contact with switch or socket, thus have the possibility of electric shock to exist, and when user needs the power supply opening electric light, can be in dark space, when not having light, user accurately cannot determine the position of light switch, and needing to open lamp power supply then needs to find by sense of touch, so namely, add potential safety hazard, also make user need the very large time to find mains switch.And embodiments provide a kind of method of power-on, realize when human body near time mains switch time self-opening power supply, eliminate the action of artificial power-on.Improve fail safe during user's power-on, also make user's power-on fast.

The technical scheme that the embodiment of the present invention provides is introduced in detail below by several exemplary embodiments.

Embodiment one

As shown in Figure 2, embodiments provide a kind of method of power-on, concrete implementation step is as follows:

In step 201, the infra-red heat induction information in preset range is monitored.Wherein, preset range is, presets monitoring distance 0-1m, presets monitoring width 120 °.

In step 202., judge whether the outer thermoinduction temperature that monitors respond to temperature with default infra-red heat and mate, when the infra-red heat monitored respond to temperature and default infra-red heat respond to temperature mate time, then execution step 203.

In step 203, when monitor infra-red heat induction temperature and default infra-red heat respond to temperature mate time, judge whether the infra-red heat induction high-temperature area size monitored is responded to high-temperature area size with the infra-red heat preset and mated, when the infra-red heat induction high-temperature area size monitored and the infra-red heat preset respond to high-temperature area size mate time, then execution step 204.

In step 204, when the infra-red heat induction high-temperature area size monitored and default infra-red heat respond to high-temperature area size mate time, judge that whether the infra-red heat induction high-temperature area size variation amount that monitors responds to high-temperature area size variation with the infra-red heat preset flux matched, when the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset respond to high-temperature area size variation flux matched time, then execution step 205.

In step 205, when the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset respond to high-temperature area size variation flux matched time, determine that the infra-red heat induction information monitored mates with default infra-red heat induction information.

In step 206, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, current time is obtained.

In step 207, judge whether current time mates with the historical record of power-on time.

In a step 208, when the time point of power-on mates with the historical record of power-on time, then record current time and power-on.

Embodiments provide a kind of method of power-on, the close of the infra-red heat induction of human body is represented by judgement, and judge whether the time of human body proximity mates with the historical time of power-on, and if the time of human body proximity mates with the historical time of power-on, then power-on; Otherwise then not power-on.

Such as, current time be afternoon 5:30 divide, have infra-red heat sense object to enter in preset range, whether the infra-red heat induction temperature first judging to monitor responds to temperature with default infra-red heat mates.Infra-red heat induction temperature can be got rid of lower than body temperature or the object higher than body temperature by this judgement.When the infra-red heat induction temperature and the default infra-red heat that monitor respond to temperature mate time, then judge that the infra-red heat monitored is responded to high-temperature area size and whether responded to high-temperature area size with default infra-red heat and mate.With Human Height, the wide infra-red heat induction high-temperature area size for presetting of body, if user raises small-sized cat, dog class pet, respond to high-temperature area due to the infra-red heat induction high-temperature area size of pet with the infra-red heat preset when pet is near power supply to vary in size, so cannot power-on, and when user close to time, then the infra-red heat induction high-temperature area size judging to monitor is responded to high-temperature area size with default infra-red heat and is mated.When the infra-red heat induction high-temperature area size monitored and the infra-red heat preset respond to high-temperature area size mate time, the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched.This time judge as getting rid of in family the interference of raising large-scale pet and causing, as, the pet of large-scale dog class is raised in family, height when dog class pet normally walks will obviously the short people in human body be high, but the height after upright and people's height very nearly the same, if when pet is near power supply, the size that the size of the infra-red heat induction high-temperature area erecting formed just responds to high-temperature area with the infra-red heat preset is mated, and can give on judging and cause error.But when monitoring the infra-red heat induction information of human body, because human body is close to power supply from the position away from power supply, the infrared induction high-temperature area of the human body therefore monitored is stepping from small to big, and if large-scale pet, then may change from small to big suddenly.Therefore flux matched by judging that whether the infra-red heat induction high-temperature area size variation amount that monitors responds to high-temperature area size variation with the infra-red heat preset, can accurately determine whether as infra-red heat induction information during human body proximity power supply.When above-mentioned condition is all mated with the infra-red heat induction information preset, then can determine it is the information of human body near power supply.Judge whether current time mates with the historical record of the time of power-on again, if the historical record of the time of power-on be at 5 in afternoon to 6 pm power-on, then determine that this time 5:30 mates with the historical record of the time of power-on.Then power-on, and the time 5:30 recording this power-on.

Embodiments provide a kind of method of power-on, by repeatedly judging whether infra-red heat induction information mates with default infra-red heat induction information, when infrared thermoinduction information is mated with default infra-red heat induction information, then be defined as human body proximity, judge that whether current time is the time of power-on by the historical record of the time of power-on again, if then power-on.Achieve when human body near time, accurately judge that the object near power supply with infra-red heat induction is human body, and self-opening power supply, eliminate the action of artificial power-on.Improve fail safe during user's power-on, also make user's power-on fast.

Embodiment two

As shown in Figure 3, embodiments provide a kind of method of power-on, concrete implementation step is as follows:

In step 301, the infra-red heat induction information in preset range is monitored.

In step 302, judge whether the infra-red heat induction information monitored mates with the infra-red heat induction information preset, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, then perform step 303.

In step 303, when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, the ambient brightness in monitoring preset range.

In step 304, judge whether the ambient brightness in preset range is less than or equal to predetermined luminance, when ambient light is less than or equal to predetermined luminance, then perform step 305.

In step 305, when ambient light is less than or equal to predetermined luminance, then power-on.

Embodiments provide a kind of method of power-on, by judging whether the infra-red heat induction information monitored mates with the infra-red heat induction information preset, judge whether the ambient brightness in preset range is less than or equal to predetermined luminance, determines whether power-on simultaneously.

Such as, predetermined luminance is 100 nits, when defining human body when the power supply of electric light, judge the relation between ambient brightness in preset range and predetermined luminance, if the ambient brightness of preset range is 200 nits, because the ambient brightness of preset range is greater than predetermined luminance, then now do not open lamp power supply.If the ambient brightness of preset range is 100 nits, because the ambient brightness of preset range equals predetermined luminance, then now open lamp power supply.If the ambient brightness of preset range is 50 nits, because the ambient brightness of preset range is less than predetermined luminance, then now open lamp power supply.

Embodiments provide a kind of method of power-on, when being judged as human body near power supply, the ambient brightness in monitoring preset range, the ambient brightness judging in preset range whether be less than or etc. predetermined luminance, thus determine whether power-on.Can determine accurately user close in preset range time, current brightness case is the need of power-on.

The foregoing describe a kind of method implementation procedure of power-on, this process can be realized by device, is introduced below to the built-in function of device and structure.

As shown in Figure 4, a kind of device of power-on, comprising: monitoring modular 401, judge module 402 and opening module 403.

Monitoring modular 401, for monitoring the infra-red heat induction information in preset range.

Judge module 402, for judging whether the infra-red heat induction information monitored mates with the infra-red heat induction information preset.

Opening module 403, for when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on.

As shown in Figure 5, judge module 402, comprising: the first judging unit 501, second judging unit 502, the 3rd judging unit 503 and determining unit 504.

First judging unit 501, for judging whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated.

Second judging unit 502, for respond to when the infra-red heat induction temperature and the default infra-red heat that monitor temperature mate time, the infra-red heat that judgement monitors is responded to high-temperature area size and whether is responded to high-temperature area size with default infra-red heat and mates.

3rd judging unit 503, for respond to when the infra-red heat induction high-temperature area size monitored and the infra-red heat preset high-temperature area size mate time, the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched.

Determining unit 504, for respond to when the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset high-temperature area size variation flux matched time, determine that the infra-red heat induction information monitored mates with default infra-red heat induction information.

As shown in Figure 6, opening module 403, comprising: the first monitoring means 601, the 4th judging unit 602 and first open unit 603.

First monitoring means 601, for when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, obtains current time.

4th judging unit 602, for judging whether current time mates with the historical record of power-on time.

First opens unit 603, if mate with the historical record of power-on time for the time point of power-on, then records current time and power-on.

As shown in Figure 7, opening module 403, comprising: the second monitoring means 701, the 5th judging unit 702 and second open unit 703.

Second monitoring means 701, for when the infra-red heat induction information monitored mates with the infra-red heat induction information preset, the ambient brightness in monitoring preset range.

5th judging unit 702, for judging whether the ambient brightness in preset range is less than or equal to predetermined luminance.

Second opens unit 703, if be less than or equal to predetermined luminance for ambient light, then and power-on.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store and optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (8)

1. a method for power-on, is characterized in that, comprises the following steps:

Infra-red heat induction information in monitoring preset range;

Whether the infra-red heat induction information monitored described in judgement mates with the infra-red heat induction information preset;

When the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, power-on, comprising:

When the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, obtain current time;

Judge whether described current time mates with the historical record of power-on time;

If the time point of described power-on mates with the historical record of described power-on time, then record described current time and power-on.

2. the method for claim 1, is characterized in that, described infra-red heat induction information comprises: infra-red heat induction temperature, infra-red heat induction high-temperature area size and infra-red heat induction high-temperature area size variation amount.

3. the method for claim 1, is characterized in that, described preset range, comprising: default monitoring distance is 0-6m and default monitoring width is 0-120 °.

4. method as claimed in claim 2, is characterized in that, whether the infra-red heat induction information monitored described in described judgement mates with the infra-red heat induction information preset, and comprising:

Judge whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated;

The infra-red heat induction temperature and the default infra-red heat that monitor when described respond tos temperature when mate, and the infra-red heat that judgement monitors is responded to high-temperature area size and whether responded to high-temperature area size with default infra-red heat and mates;

The infra-red heat induction high-temperature area size monitored when described and the infra-red heat preset respond tos high-temperature area size when mate, and the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched;

The infra-red heat induction high-temperature area size variation amount monitored when described and the infra-red heat preset respond to high-temperature area size variation flux matched time, the infra-red heat induction information monitored described in determining mates with default infra-red heat induction information.

5. the method for claim 1, is characterized in that, described when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, power-on, comprising:

When the described infra-red heat induction information monitored mates with the infra-red heat induction information preset, monitor the ambient brightness in described preset range;

Judge whether the ambient brightness in described preset range is less than or equal to predetermined luminance;

If described ambient brightness is less than or equal to predetermined luminance, then power-on.

6. a device for power-on, is characterized in that, comprising: monitoring modular, judge module and opening module,

Described monitoring modular, for monitoring the infra-red heat induction information in preset range;

Whether described judge module, mate with the infra-red heat induction information preset for the infra-red heat induction information monitored described in judging;

Described opening module, for when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, power-on;

Described opening module, comprising: the first monitoring means, the 4th judging unit and first open unit,

Described first monitoring means, for when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, acquisition current time;

Described 4th judging unit, for judging whether described current time mates with the historical record of power-on time;

Described first opens unit, if mate with the historical record of described power-on time for the time point of described power-on, then records described current time and power-on.

7. device as claimed in claim 6, is characterized in that judge module comprises: the first judging unit, the second judging unit, the 3rd judging unit and determining unit,

Described first judging unit, for judging whether the infra-red heat induction temperature monitored is responded to temperature with default infra-red heat and mated;

Described second judging unit, for when described in the infra-red heat induction temperature and the default infra-red heat that monitor respond to temperature mate time, the infra-red heat that judgement monitors is responded to high-temperature area size and whether is responded to high-temperature area size with default infra-red heat and mates;

Described 3rd judging unit, for when described in the infra-red heat induction high-temperature area size monitored and the infra-red heat preset respond to high-temperature area size mate time, the infra-red heat that judgement monitors responds to high-temperature area size variation amount, and whether to respond to high-temperature area size variation with default infra-red heat flux matched;

Described determining unit, for when described in the infra-red heat induction high-temperature area size variation amount monitored and the infra-red heat preset respond to high-temperature area size variation flux matched time, the infra-red heat induction information monitored described in determining mates with default infra-red heat induction information.

8. device as claimed in claim 6, it is characterized in that, described opening module, comprising: the second monitoring means, the 5th judging unit and second open unit,

Described second monitoring means, for when described in the infra-red heat induction information that monitors mate with the infra-red heat induction information preset time, monitor the ambient brightness in described preset range;

Described 5th judging unit, for judging whether the ambient brightness in described preset range is less than or equal to predetermined luminance;

Described second opens unit, if be less than or equal to predetermined luminance for described ambient brightness, then and power-on.