CN103760964B - A kind of method by the dormancy of infrared induction adjusting device and device thereof - Google Patents

Abstract

The invention discloses a kind of method by the dormancy of infrared induction adjusting device, the method comprises the following steps: be arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment, is arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment; Preset the first induction range and the second induction range, wherein, described second induction range is greater than described first induction range; Judge whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively; According to the output control of described judgement, equipment enters dormant state by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state.Implement the present invention, make terminal device more energy-conservation, enhance the experience of user to terminal device, meanwhile, also make the Energy Saving Control hommization more of terminal device.

Description

A kind of method by the dormancy of infrared induction adjusting device and device thereof

Technical field

The present invention relates to infrared induction technology field, particularly relate to a kind of method by the dormancy of infrared induction adjusting device and device thereof.

Background technology

In prior art, traditional terminal device, such as notebook computer, in order to energy-conservation, after user's a period of time inoperation computer, system can enter the dormancy or holding state that user sets automatically.

But there is following technical matters and defect in prior art:

(1) when user will use terminal device, but when the application program in some terminal device does not need again user to operate this terminal device, such as to see a film, data communication etc.If the time entering dormancy that user is arranged, need to use this terminal device than user but do not need time of operating this terminal device short, so, system enters at setting-up time the film seen that dormancy can have influence on user, or has influence on ongoing data communication.Therefore, the method will have influence on Consumer's Experience.

(2) when user arrange this terminal device enter dormant state after powering never time, leave if user is busy suddenly, and do not re-use this terminal device, but when forgetting again this terminal device of closedown, this terminal device will be in normal operating condition always, therefore, the method will cause unnecessary energy resource consumption.

Summary of the invention

For in prior art, regulation and control terminal device enters the inadequate hommization of method of dormant state, the ongoing process operation of user is easily had influence on when setting enters dormancy time separately, easily cause the defect of unnecessary energy resource consumption when not setting and entering dormancy time, the present invention proposes a kind of method by the dormancy of infrared induction adjusting device and device thereof.

It is a kind of method by the dormancy of infrared induction adjusting device of structure that the present invention solves the technical scheme that prior art problem adopts.This method comprises the following steps:

S1, be arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment, be arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment;

S2, preset the first induction range and the second induction range, wherein, described second induction range is greater than described first induction range;

S3, judges whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively;

S4, according to the output control of described judgement, equipment enters dormant state by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state.

Described step S1 comprises following sub-step:

S11, described human body infrared induction module comprises Fresnel Lenses, human body infrared inductive probe and operational amplifier, by the detectable signal that described Fresnel Lenses regulates described human body infrared inductive probe to send, and by described operational amplifier, the electric signal sensed is carried out amplification process;

S12, described infrared distance measurement module comprises infrared emission head, infrared receiving terminal and infrared transmitting tube, also micro-control module is provided with in described equipment, described infrared emission head launches the detection infrared ray of encoding through described micro-control module with described second frequency, described infrared receiving terminal receives the feedback infrared ray of encoding through described micro-control module, meanwhile, by regulating the electric current of the described infrared transmitting tube of supply to regulate the ultrared transmitting range of described detection.

Described step S2 specifically comprises:

Described first induction range be with described equipment be summit, 1m-10m is radius, the first sector region of angle of release 60 °-80 °;

Described second induction range be with described equipment be summit, 20m-100m is radius, the second sector region of angle of release 60 °-80 °, meanwhile, described first sector region overlaps with the angle of release of described second sector region.

Described step S3 and described step S4 specifically comprises:

Method one: when described equipment is in normal operating conditions:

S31, judges that described first distance is whether within described first induction range;

S32, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S33, if described first distance exceedes described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S34, judges that described first distance is whether within described first induction range again;

S35, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S36, if described first distance exceedes described first induction range, then controls described equipment and enters dormant state by normal operating conditions;

Method two: when described equipment is in dormant state:

S31 ', judges described second distance whether within described second induction range;

S32 ', if described second distance exceedes described first induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S33 ', if described second distance is in described second induction range, then, after the second time period that time delay is preset, described infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment;

S34 ', judges described second distance again whether within described second induction range;

S35 ', if described second distance exceedes described second induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S36 ', if described second distance is in described second induction range, then, after the 3rd time period that time delay is preset, described human body infrared induction module is with the first distance between described first frequency human body and described equipment;

S37 ', judges that described first distance is whether within described first induction range;

S38 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S39 ', if described first distance is in described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S310 ', judges that described first distance is whether within described first induction range again;

S311 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S312 ', if described first distance is in described first induction range, then controls described equipment and enters normal operating conditions by dormant state.

By a device for infrared induction adjusting device dormancy, described device comprises:

Human body infrared induction module, is arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment;

Infrared distance measurement module, is arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment;

Initialization module, described initialization module is used for presetting the first induction range and the second induction range, and wherein, described second induction range is greater than described first induction range;

Micro-control module, described micro-control module is used for judging whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively;

Described micro-control module also enters dormant state for equipment according to the output control of described judgement by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state.

Described human body infrared induction module comprises Fresnel Lenses, human body infrared inductive probe and operational amplifier, wherein, the detectable signal that described Fresnel Lenses sends for regulating described human body infrared inductive probe, described operational amplifier is used for the electric signal sensed being carried out amplification process;

Described infrared distance measurement module comprises infrared emission head, infrared receiving terminal and infrared transmitting tube, wherein, described infrared emission head is used for launching the detection infrared ray of encoding through described micro-control module with described second frequency, described infrared receiving terminal is for receiving the feedback infrared ray of encoding through described micro-control module, described micro-control module also for, by regulate supply described infrared transmitting tube electric current the ultrared transmitting range of described detection is regulated.

Described first induction range be with described equipment be summit, 1m-10m is radius, the first sector region of angle of release 60 °-80 °;

Described second induction range be with described equipment be summit, 20m-100m is radius, the second sector region of angle of release 60 °-80 °, meanwhile, described first sector region overlaps with the angle of release of described second sector region.

Described micro-control module comprises the first judging unit and the second judging unit, wherein,

Described first judging unit is used for, when described equipment is in normal operating conditions:

Judge that described first distance is whether within described first induction range;

If described first distance within described first induction range, does not then operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance exceedes described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

Again judge that described first distance is whether within described first induction range;

If described first distance within described first induction range, does not then operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance exceedes described first induction range, then control described equipment and enter dormant state by normal operating conditions;

Described second judging unit is used for, when described equipment is in dormant state:

Judge described second distance whether within described second induction range;

If described second distance exceedes described first induction range, then do not operate, continue with the second distance between described second frequency human body and described equipment;

If described second distance is in described second induction range, then, after the second time period that time delay is preset, described infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment;

Again judge described second distance whether within described second induction range;

If described second distance exceedes described second induction range, then do not operate, continue with the second distance between described second frequency human body and described equipment;

If described second distance is in described second induction range, then, after the 3rd time period that time delay is preset, described human body infrared induction module is with the first distance between described first frequency human body and described equipment;

Judge that described first distance is whether within described first induction range;

If described first distance exceedes described first induction range, then do not operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance is in described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

Again judge that described first distance is whether within described first induction range;

If described first distance exceedes described first induction range, then do not operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance is in described first induction range, then controls described equipment and enter normal operating conditions by dormant state.

Implement the present invention, by being arranged on the distance that human body infrared induction module in terminal device and infrared distance measurement module judge between user and this terminal device respectively, and obtain judged result by specific mode, regulate and control this terminal device according to judged result and enter dormant state by normal operating conditions, or enter normal operating conditions by dormant state.Therefore, implement the present invention, both can reach the energy-conservation object of terminal device, and in turn enhance the experience of user to terminal device, and meanwhile, also make user to the hommization more of the Energy Saving Control of terminal device.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the process flow diagram of the method by the dormancy of infrared induction adjusting device that present pre-ferred embodiments provides;

Fig. 2 is the sub-step process flow diagram by step S1 in the method for infrared induction adjusting device dormancy shown in Fig. 1;

Fig. 3 is the concrete steps process flow diagram by step S3 and step S4 in the method for infrared induction adjusting device dormancy shown in Fig. 1;

Fig. 4 is another concrete steps process flow diagram by step S3 and step S4 in the method for infrared induction adjusting device dormancy shown in Fig. 1;

Fig. 5 is the structured flowchart of the device by the dormancy of infrared induction adjusting device that present pre-ferred embodiments provides.

Embodiment

Fig. 1 is the process flow diagram of the method by the dormancy of infrared induction adjusting device that present pre-ferred embodiments provides.The method comprises the following steps:

S1, be arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment, be arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment.Be appreciated that this equipment can be notebook computer, desktop computer, all-in-one desktop machine or other there is the terminal device of sleep mode.

When ceaselessly sending detection signal owing to being in when infrared range finder module and infrared human body induction module, the power consumption of above-mentioned two modules can be caused larger, simultaneously, also the lengthy and jumbled of follow-up judgement data is easily caused, therefore, the method that the present invention adopts is, for human body infrared induction module, preset the first frequency of this module work, for infrared distance measurement module, preset the second frequency of this module work, such as, above-mentioned first frequency is set to 1Hz, above-mentioned second frequency is set to 2Hz, so, human body infrared induction module is by transmission one-time detection signal per second, infrared distance measurement module will send twice detection signal p.s., therefore, while above-mentioned two modules of guarantee can carry out detecting in real time, also reduce the energy resource consumption of above-mentioned two modules.

S2, preset the first induction range and the second induction range, wherein, described second induction range is greater than described first induction range.For different terminal devices, mobility is different, such as desktop computer etc., user seldom moves, therefore, above-mentioned first induction range and the second induction range all can be arranged according to the transmitting boundary of above-mentioned two sensors accordingly, if terminal device be have ambulant, such as notebook computer or integrated computer etc., user may be in each orientation of this terminal device, therefore, above-mentioned first induction range and the second induction range all can with this terminal device for the centers of circle, and certain length is the border circular areas of radius.

Meanwhile, when the position for the ornaments of this terminal device is fixed and do not moved, the another kind of method arranged is:

First induction range be with described equipment be summit, 1m-10m is radius, the first sector region of angle of release 60 °-80 °;

Second induction range be with described equipment be summit, 20m-100m is radius, the second sector region of angle of release 60 °-80 °, meanwhile, described first sector region overlaps with the angle of release of described second sector region.

S3, judges whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively.

Because above-mentioned human body infrared induction module is with the first distance between the first frequency human body preset and described equipment, infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment.Therefore, within a period of time, next group range data can be recorded, then, first induction range of this group range data and above-mentioned setting and the second induction range are compared judgement respectively, by following method, one group of analysis data be made up of judged result can be obtained.

S4, according to the output control of described judgement, equipment enters dormant state by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state.According to above-mentioned group analysis data, this terminal device is regulated and controled, that is: a, continue to keep normal operating conditions; B enters dormant state by normal operating conditions; C, continues to keep dormant state; D, enters normal operating conditions by dormant state.

Fig. 2 is the sub-step process flow diagram by step S1 in the method for infrared induction adjusting device dormancy shown in Fig. 1.Step S1 comprises following sub-step:

S11, described human body infrared induction module comprises Fresnel Lenses, human body infrared inductive probe and operational amplifier, by the detectable signal that described Fresnel Lenses regulates described human body infrared inductive probe to send, and by described operational amplifier, the electric signal sensed is carried out amplification process.

S12, described infrared distance measurement module comprises infrared emission head, infrared receiving terminal and infrared transmitting tube, also micro-control module is provided with in described equipment, described infrared emission head launches the detection infrared ray of encoding through described micro-control module with described second frequency, described infrared receiving terminal receives the feedback infrared ray of encoding through described micro-control module, meanwhile, by regulating the electric current of the described infrared transmitting tube of supply to regulate the ultrared transmitting range of described detection.

Fig. 3 is the concrete steps process flow diagram by step S3 and step S4 in the method for infrared induction adjusting device dormancy shown in Fig. 1.

Method one: when described equipment is in normal operating conditions:

S31, judges that described first distance is whether within described first induction range;

S32, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S33, if described first distance exceedes described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S34, judges that described first distance is whether within described first induction range again;

S35, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S36, if described first distance exceedes described first induction range, then controls described equipment and enters dormant state by normal operating conditions.

Fig. 4 is another concrete steps process flow diagram by step S3 and step S4 in the method for infrared induction adjusting device dormancy shown in Fig. 1.

Method two: when described equipment is in dormant state:

S31 ', judges described second distance whether within described second induction range;

S32 ', if described second distance exceedes described first induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S33 ', if described second distance is in described second induction range, then, after the second time period that time delay is preset, described infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment;

S34 ', judges described second distance again whether within described second induction range;

S35 ', if described second distance exceedes described second induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S36 ', if described second distance is in described second induction range, then, after the 3rd time period that time delay is preset, described human body infrared induction module is with the first distance between described first frequency human body and described equipment;

S37 ', judges that described first distance is whether within described first induction range;

S38 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S39 ', if described first distance is in described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S310 ', judges that described first distance is whether within described first induction range again;

S311 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S312 ', if described first distance is in described first induction range, then controls described equipment and enters normal operating conditions by dormant state.

In sum, be appreciated that and the invention is not restricted to above two kinds of control methods, simultaneously, the present invention is also not limited to above-mentioned two sensors, multiple human body infrared induction module or multiple infrared distance measurement module can be set according to actual conditions, meanwhile, according to the actual requirements, adopt multi-angle, multiextent exploration operation, thus discriminatory analysis can also be carried out for multi-user to the service condition of this terminal device, thus regulate and control the sleep operation of this terminal device according to discriminatory analysis result.

Fig. 5 is the structured flowchart of the device by the dormancy of infrared induction adjusting device that present pre-ferred embodiments provides.This device comprises:

Human body infrared induction module 10, is arranged on human body infrared induction module 10 in equipment with the first distance between the first frequency human body preset and described equipment;

Infrared distance measurement module 20, is arranged on infrared distance measurement module 20 in described equipment with the second distance between the second frequency human body preset and described equipment;

Initialization module 30, described initialization module 30 is for presetting the first induction range and the second induction range, and wherein, described second induction range is greater than described first induction range;

Micro-control module 40, described micro-control module 40 is for judging whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively;

Described micro-control module 50 also enters dormant state for equipment according to the output control of described judgement by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state.

The human body infrared induction module 10 of this device comprises Fresnel Lenses 11, human body infrared inductive probe 12 and operational amplifier 13, wherein, the detectable signal that described Fresnel Lenses 11 sends for regulating described human body infrared inductive probe, described operational amplifier 13 carries out amplification process for the electric signal that will sense.

The infrared distance measurement module 20 of this device comprises infrared emission head 21, infrared receiving terminal 22 and infrared transmitting tube 23, wherein, described infrared emission head 21 is for launching the detection infrared ray of encoding through described micro-control module 40 with described second frequency, described infrared receiving terminal 22 is for receiving the feedback infrared ray of encoding through described micro-control module 40.

The micro-control module 50 of this device also for, by regulating the electric current of the described infrared transmitting tube 23 of supply, the ultrared transmitting range of described detection is regulated.

The micro-control module 40 of this device comprises the first judging unit 41 and the second judging unit 42.Above-mentioned first judging unit 41 is corresponding with the method that said method step S3 and step S4 provides with the mode of operation of the second judging unit 42, does not repeat them here.

Implement the present invention, by being arranged on the distance that human body infrared induction module in terminal device and infrared distance measurement module judge between user and this terminal device respectively, and obtain judged result by specific mode, regulate and control this terminal device according to judged result and enter dormant state by normal operating conditions, or enter normal operating conditions by dormant state.Therefore, implement the present invention, both can reach the energy-conservation object of terminal device, and in turn enhance the experience of user to terminal device, and meanwhile, also make user to the hommization more of the Energy Saving Control of terminal device.

Should be understood that, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (6)

1., by a method for infrared induction adjusting device dormancy, it is characterized in that, said method comprising the steps of:

S1, be arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment, be arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment;

S2, preset the first induction range and the second induction range, wherein, described second induction range is greater than described first induction range;

S3, judges whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively;

S4, according to the output control of described judgement, equipment enters dormant state by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state;

Described step S3 and described step S4 specifically comprises:

Method one: when described equipment is in normal operating conditions:

S31, judges that described first distance is whether within described first induction range;

S32, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S33, if described first distance exceedes described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S34, judges that described first distance is whether within described first induction range again;

S35, if described first distance is within described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S36, if described first distance exceedes described first induction range, then controls described equipment and enters dormant state by normal operating conditions;

Method two: when described equipment is in dormant state:

S31 ', judges described second distance whether within described second induction range;

S32 ', if described second distance exceedes described second induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S33 ', if described second distance is in described second induction range, then, after the second time period that time delay is preset, described infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment;

S34 ', judges described second distance again whether within described second induction range;

S35 ', if described second distance exceedes described second induction range, does not then operate, and continues with the second distance between described second frequency human body and described equipment;

S36 ', if described second distance is in described second induction range, then, after the 3rd time period that time delay is preset, described human body infrared induction module is with the first distance between described first frequency human body and described equipment;

S37 ', judges that described first distance is whether within described first induction range;

S38 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S39 ', if described first distance is in described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

S310 ', judges that described first distance is whether within described first induction range again;

S311 ', if described first distance exceedes described first induction range, does not then operate, and continues with the first distance between described first frequency human body and described equipment;

S312 ', if described first distance is in described first induction range, then controls described equipment and enters normal operating conditions by dormant state.

2. the method by the dormancy of infrared induction adjusting device according to claim 1, it is characterized in that, described step S1 comprises following sub-step:

S11, described human body infrared induction module comprises Fresnel Lenses, human body infrared inductive probe and operational amplifier, by the detectable signal that described Fresnel Lenses regulates described human body infrared inductive probe to send, and by described operational amplifier, the electric signal sensed is carried out amplification process;

S12, described infrared distance measurement module comprises infrared emission head, infrared receiving terminal and infrared transmitting tube, also micro-control module is provided with in described equipment, described infrared emission head launches the detection infrared ray of encoding through described micro-control module with described second frequency, described infrared receiving terminal receives the feedback infrared ray of encoding through described micro-control module, meanwhile, by regulating the electric current of the described infrared transmitting tube of supply to regulate the ultrared transmitting range of described detection.

3. the method by the dormancy of infrared induction adjusting device according to claim 2, it is characterized in that, described step S2 specifically comprises:

Described first induction range be with described equipment be summit, 1m-10m is radius, the first sector region of angle of release 60 °-80 °;

Described second induction range be with described equipment be summit, 20m-100m is radius, the second sector region of angle of release 60 °-80 °, meanwhile, described first sector region overlaps with the angle of release of described second sector region.

4., by a device for infrared induction adjusting device dormancy, it is characterized in that, described device comprises:

Human body infrared induction module, is arranged on human body infrared induction module in equipment with the first distance between the first frequency human body preset and described equipment;

Infrared distance measurement module, is arranged on infrared distance measurement module in described equipment with the second distance between the second frequency human body preset and described equipment;

Initialization module, described initialization module is used for presetting the first induction range and the second induction range, and wherein, described second induction range is greater than described first induction range;

Micro-control module, described micro-control module is used for judging whether described first distance exceedes described first induction range, and whether described second distance exceedes described second induction range respectively;

Described micro-control module also enters dormant state for equipment according to the output control of described judgement by normal operating conditions, or controls described equipment and recover normal operating conditions from dormant state;

Described micro-control module comprises the first judging unit and the second judging unit, wherein,

Described first judging unit is used for, when described equipment is in normal operating conditions:

Judge that described first distance is whether within described first induction range;

If described first distance within described first induction range, does not then operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance exceedes described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

Again judge that described first distance is whether within described first induction range;

If described first distance within described first induction range, does not then operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance exceedes described first induction range, then control described equipment and enter dormant state by normal operating conditions;

Described second judging unit is used for, when described equipment is in dormant state:

Judge described second distance whether within described second induction range;

If described second distance exceedes described second induction range, then do not operate, continue with the second distance between described second frequency human body and described equipment;

If described second distance is in described second induction range, then, after the second time period that time delay is preset, described infrared distance measurement module is with the second distance between the second frequency human body preset and described equipment;

Again judge described second distance whether within described second induction range;

If described second distance exceedes described second induction range, then do not operate, continue with the second distance between described second frequency human body and described equipment;

If described second distance is in described second induction range, then, after the 3rd time period that time delay is preset, described human body infrared induction module is with the first distance between described first frequency human body and described equipment;

Judge that described first distance is whether within described first induction range;

If described first distance exceedes described first induction range, then do not operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance is in described first induction range, then, after the first time period that time delay is preset, described human body infrared induction module is again with the first distance between described first frequency human body and described equipment;

Again judge that described first distance is whether within described first induction range;

If described first distance exceedes described first induction range, then do not operate, continue with the first distance between described first frequency human body and described equipment;

If described first distance is in described first induction range, then controls described equipment and entered by dormant state

Enter normal operating conditions.

5. the device by the dormancy of infrared induction adjusting device according to claim 4, is characterized in that,

Described human body infrared induction module comprises Fresnel Lenses, human body infrared inductive probe and operational amplifier, wherein, the detectable signal that described Fresnel Lenses sends for regulating described human body infrared inductive probe, described operational amplifier is used for the electric signal sensed being carried out amplification process;

Described infrared distance measurement module comprises infrared emission head, infrared receiving terminal and infrared transmitting tube, wherein, described infrared emission head is used for launching the detection infrared ray of encoding through described micro-control module with described second frequency, described infrared receiving terminal is for receiving the feedback infrared ray of encoding through described micro-control module, described micro-control module also for, by regulate supply described infrared transmitting tube electric current the ultrared transmitting range of described detection is regulated.

6. the device by the dormancy of infrared induction adjusting device according to claim 5, is characterized in that, described first induction range be with described equipment be summit, 1m-10m is radius, the first sector region of angle of release 60 °-80 °;

Described second induction range be with described equipment be summit, 20m-100m is radius, the second sector region of angle of release 60 °-80 °, meanwhile, described first sector region overlaps with the angle of release of described second sector region.