CN104394614A - Indicating lamp brightness adjusting method and device thereof - Google Patents
Indicating lamp brightness adjusting method and device thereof Download PDFInfo
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- CN104394614A CN104394614A CN201410596779.8A CN201410596779A CN104394614A CN 104394614 A CN104394614 A CN 104394614A CN 201410596779 A CN201410596779 A CN 201410596779A CN 104394614 A CN104394614 A CN 104394614A
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- indicator light
- air purifier
- status parameter
- brightness
- user status
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Abstract
The disclosure discloses an indicating lamp brightness adjusting method and a device thereof, and belongs to the technical field of lamp control. The indicating lamp brightness adjusting method comprises the steps that whether ambient light intensity is lower than a light intensity threshold value is detected; and if ambient light intensity is lower than the light intensity threshold value through detection, user state parameters are acquired, and brightness grade of an indicating lamp on an air purifier is adjusted according to the user state parameters. The user state parameters are acquired via detection that ambient light intensity is lower than the light intensity threshold value, and brightness grade of the indicating lamp on the air purifier is adjusted according to the user state parameters. Brightness of the indicating lamp can be changed according to the user state parameters so that a problem of energy waste caused by the fact that the indicating lamp on the air purifier is constantly maintained at default brightness is solved, and an effect of energy saving is achieved.
Description
Technical field
The disclosure relates to lamp control techniques field, particularly a kind of indicator light brightness adjusting method and device.
Background technology
Along with improving constantly of industrialization degree, the pollution of environment is also more and more serious, and the haze weather of generation allows a lot of resident perplex very much especially.In order to improve air quality, air purifier spreads in each household family gradually.
Present air purifier generally all can indicate the air quality situation under current environment by indicator light, such user can recognize the situation of change of air quality intuitively by the change of indicator light.
Inventor is realizing in process of the present disclosure, find that correlation technique at least exists following defect: as long as air purifier is in running order, indicator light on air purifier will keep the brightness given tacit consent to always, and when user's sleep or when going out, user does not need the indicator light checked on air purifier, therefore can cause the waste of the energy.
Summary of the invention
Cause the problem of energy waste in order to the indicator light solved in correlation technique on air purifier keeps the brightness of acquiescence always, the disclosure provides a kind of indicator light brightness adjusting method and device.Described technical scheme is as follows:
According to the first aspect of disclosure embodiment, provide a kind of indicator light brightness adjusting method, be applied in air purifier, described method comprises:
Whether testing environment light intensity is lower than light intensity threshold value;
If detect, ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulate the brightness degree of indicator light on described air purifier according to described User Status parameter.
Optionally, described acquisition User Status parameter, regulates the brightness degree of indicator light on described air purifier, comprising according to described User Status parameter:
In scheduled duration, whether nobody moves in predetermined distance range in monitoring;
If monitor in described scheduled duration, nobody moves in described predetermined distance range, then add up reference time length described scheduled duration, obtain cumulative after reference time length, described reference time length be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected;
Reduce the brightness degree of described indicator light according to the reference time length after described adding up, described reference time length becomes negative correlativing relation with the brightness degree of described indicator light.
Optionally, described method also comprises:
Whether unmannedly detect in described predetermined distance range;
If detect in described predetermined distance range unmanned, then close the indicator light on described air purifier.
Optionally, described method also comprises:
After closing the indicator light on described air purifier, whether someone enters in described predetermined distance range to continue monitoring;
If monitoring someone enters in described predetermined distance range, then open the indicator light on described air purifier, the brightness degree of described indicator light is set as highest ranking.
Optionally, described acquisition User Status parameter, regulates the brightness degree of indicator light on described air purifier, comprising according to described User Status parameter:
Receive the User Status parameter that Wearable device sends, described User Status parameter is used to indicate user and whether is in sleep state;
When determining that user is in sleep state according to described User Status parameter, close the indicator light on described air purifier.
Optionally, described method also comprises:
Receive the regulating command for regulating indicator light brightness degree that intelligent electronic device sends;
The brightness degree of indicator light on described air purifier is regulated according to described regulating command.
According to the second aspect of disclosure embodiment, provide a kind of indicator light brightness regulating apparatus, be applied in air purifier, described device comprises:
Whether first detection module, be configured to testing environment light intensity lower than light intensity threshold value;
First adjustment module, if be configured to described first detection module to detect that ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulates the brightness degree of indicator light on described air purifier according to described User Status parameter.
Optionally, described first adjustment module, comprising:
Monitoring submodule, whether nobody moves in predetermined distance range in scheduled duration to be configured to monitoring;
Calculating sub module, if be configured to described monitoring submodule to monitor in described scheduled duration and unmannedly to move in described predetermined distance range, then add up reference time length described scheduled duration, obtain cumulative after reference time length, described reference time length be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected;
Reduce submodule, be configured to according to described calculating sub module calculate described cumulative after reference time length reduce the brightness degree of described indicator light, described reference time length becomes negative correlativing relation with the brightness degree of described indicator light.
Optionally, described device also comprises:
Whether the second detection module, be configured to detect in described predetermined distance range unmanned;
Closing module, is configured to when described second detection module to detect in described predetermined distance range nobody, then close the indicator light on described air purifier.
Optionally, described device also comprises:
Monitoring module, after being configured to the indicator light of closing on described air purifier in described closing module, then whether someone enters in described predetermined distance range to continue monitoring;
Opening module, monitors someone enter in described predetermined distance range if is configured to described monitoring module, then open the indicator light on described air purifier, the brightness degree of described indicator light is set as highest ranking.
Optionally, described first adjustment module, comprising:
Receive submodule, be configured to the User Status parameter receiving Wearable device transmission, described User Status parameter is used to indicate user and whether is in sleep state;
Close closed submodule, be configured to, when the described User Status parameter received according to described reception submodule determines that user is in sleep state, close the indicator light on described air purifier.
Optionally, described device also comprises:
Receiver module, is configured to the regulating command for regulating indicator light brightness degree receiving intelligent electronic device transmission;
Second adjustment module, the described regulating command being configured to receive according to described receiver module regulates the brightness degree of indicator light on described air purifier.
According to the third aspect of disclosure embodiment, provide a kind of indicator light brightness regulating apparatus, be applied in air purifier, described device comprises:
Processor;
For storing the memory of described processor executable;
Wherein, described processor is configured to:
Whether testing environment light intensity is lower than light intensity threshold value;
If detect, ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulate the brightness degree of indicator light on described air purifier according to described User Status parameter.
The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:
By detecting that ambient light intensity obtains User Status parameter lower than during light intensity threshold value, regulate the brightness degree of indicator light on air purifier according to User Status parameter; Owing to can change the brightness of indicator light according to User Status parameter, the indicator light therefore solved on air purifier keeps the brightness of acquiescence always and causes the problem of energy waste; Reach the effect of energy savings.
Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the disclosure.
Accompanying drawing explanation
Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure.
Fig. 1 is the flow chart of a kind of indicator light brightness adjusting method according to an exemplary embodiment;
Fig. 2 A is the flow chart of a kind of indicator light brightness adjusting method according to another exemplary embodiment;
Fig. 2 B is a kind of schematic diagram opening the indicator light of air purifier according to an exemplary embodiment;
Fig. 2 C is the schematic diagram of a kind of according to an exemplary embodiment each duration relation when monitoring;
Fig. 2 D is the schematic diagram of a kind of according to another exemplary embodiment each duration relation when monitoring;
Fig. 2 E is the schematic diagram of a kind of Gen Ju an exemplary embodiment again each duration relation when monitoring;
Fig. 2 F is the schematic diagram of a kind of Wearable device according to an exemplary embodiment to air purifier transmission User Status parameter;
Fig. 2 G is the schematic diagram of a kind of intelligent electronic device according to an exemplary embodiment to air purifier transmission regulating command;
Fig. 3 is the block diagram of a kind of indicator light brightness regulating apparatus according to an exemplary embodiment;
Fig. 4 is the block diagram of a kind of indicator light brightness regulating apparatus according to another exemplary embodiment;
Fig. 5 is a kind of for regulating the block diagram of the device of indicator light brightness according to an exemplary embodiment.
Embodiment
Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.
Fig. 1 is the flow chart of a kind of indicator light brightness adjusting method according to an exemplary embodiment, and as shown in Figure 1, this indicator light brightness adjusting method is applied in air purifier, comprises the following steps.
In a step 101, whether testing environment light intensity is lower than light intensity threshold value.
In a step 102, if detect, ambient light intensity is lower than light intensity threshold value, then obtain User Status parameter, regulates the brightness degree of indicator light on air purifier according to User Status parameter.
In sum, the indicator light brightness adjusting method provided in disclosure embodiment, by detecting that ambient light intensity obtains User Status parameter lower than during light intensity threshold value, regulates the brightness degree of indicator light on air purifier according to User Status parameter; Owing to can change the brightness of indicator light according to User Status parameter, the indicator light therefore solved on air purifier keeps the brightness of acquiescence always and causes the problem of energy waste; Reach the effect of energy savings.
Fig. 2 A is the flow chart of a kind of indicator light brightness adjusting method according to another exemplary embodiment, and as shown in Figure 2 A, this indicator light brightness adjusting method is applied in air purifier, comprises the following steps.
In step 201, whether testing environment light intensity is lower than light intensity threshold value.
Here light intensity threshold value can be set according to general service condition by developer, also can be needed to set according to self by user.Such as when user wants allowing the indicator light of air purifier automatically close in bed, and this user is accustomed to turning on light sleep, and now, this user just can light intensity threshold value be corresponding heightens by this.
Usually, air purifier can be provided with light sensor, air purifier can obtain the light intensity of residing environment by light sensor, and this light intensity and light intensity threshold value is compared.
It should be noted that, the concrete value of the present embodiment to light intensity threshold value is not construed as limiting.
Whether in step 202., if detect, ambient light intensity is lower than light intensity threshold value, then detect in predetermined distance range unmanned.
Usually, air purifier can be provided with pyroelectric infrared sensor, whether air purifier can detect in predetermined distance range unmanned by pyroelectric infrared sensor.
Here predetermined distance range can be the detection range of pyroelectric infrared sensor, when the detection range of pyroelectric infrared sensor is excessive, and also can using the size in room residing for air purifier as predetermined distance range.The value of the present embodiment to the mode and predetermined distance range of determining predetermined distance range is all not construed as limiting.
For example, be arranged in the air purifier in bedroom, whether unmannedly can detect in bedroom.
In step 203, if detect in predetermined distance range unmanned, then the indicator light on air purifier is closed.
Air purifier detects in preset range after nobody by pyroelectric infrared sensor, because people is not near air purifier, now then can not point out people, therefore can close the indicator light on air purifier.
For example, the air purifier being arranged in bedroom detect bedroom nobody time, show user not in bedroom, the now indicator light instruction of air purifier there is no direct significance to user, at this moment then can close the indicator light on air purifier.
In step 204, after closing the indicator light on air purifier, whether someone enters in predetermined distance range to continue monitoring.
When air purifier to detect in predetermined distance range unmanned and after being closed by indicator light, when there being people to enter in this predetermined distance range, in order to provide instruction to user, need to reopen the indicator light on this air purifier, so that user checks air quality situation by indicator light.Therefore, to detect in predetermined distance range unmanned after, air purifier needs to continue monitoring, and whether someone enters in this predetermined distance range.
It should be noted that, generally, when air purifier to detect in predetermined distance range unmanned after, first can close the indicator light on air purifier, whether someone enters in predetermined distance range then to continue monitoring.Obviously, another kind of situation can also be there is, namely when air purifier to detect in predetermined distance range unmanned after, first can also monitor whether someone enters in this predetermined distance range, enter in this predetermined distance range when finding no people in monitoring scheduled time slot, then close the indicator light on air purifier, and after this indicator light of closedown, whether someone enters in this predetermined distance range to continue monitoring, enters in this predetermined distance range until monitor someone, performs the step of step 205.
In step 205, enter in predetermined distance range if monitor someone, then open the indicator light on air purifier, the brightness degree of indicator light is set as highest ranking.
The brightness degree of indicator light can comprise some brightness degrees, and generally, brightness degree is higher, more consumes power resource, and brightness degree is lower, more saves power resource.Here said " some " can be two or more, and the brightness degree of also namely said here indicator light can comprise two brightness degrees or plural brightness degree.
In actual applications, this highest ranking is the highest brightness degree of brightness that the indicator light of air purifier can show.
For example, when existence first brightness degree, the second brightness degree and the 3rd brightness degree, the brightness of the first brightness degree is less than the brightness of the second brightness degree, the brightness of the second brightness degree is less than the 3rd brightness degree, and the 3rd brightness degree is here the highest ranking in this indicator light brightness degree.
When air purifier monitor someone enter in this predetermined distance range time, then open indicator light, now the brightness degree of this indicator light is adjusted to highest ranking, by the brightness degree default adjustment of indicator light to highest ranking.
Obviously, in the implementation that another kind is possible, air purifier is when monitoring someone and entering in this predetermined distance range, then open indicator light, and the setting of the brightness degree of this indicator light is adjusted to default luminance grade, this default luminance grade can be highest ranking, also can be non-highest ranking.
Optionally, when air purifier monitor someone to enter in predetermined distance range and to open indicator light time, the brightness degree of indicator light can be defined as the lowest class, and progressively bring up to highest ranking.The change of the easier codan lamp brightness of user can be made like this, can not seem too lofty.
For example, refer to Fig. 2 B, it is a kind of schematic diagram opening the indicator light of air purifier according to an exemplary embodiment.As shown in Figure 2 B, whether someone enters predetermined distance range 2003 in air purifier 2001 monitoring in real time.When monitoring someone and entering predetermined distance range 2003, air purifier 2001 opens indicator light 2002.Now, the brightness degree of indicator light 2002 is highest ranking.
In step 206, monitor in scheduled duration whether nobody moves in predetermined distance range.
In a kind of use scenes, although user is in the predetermined distance range that air purifier monitors, user is in sleep state, and namely now user does not need the situation of checking current air mass.Therefore, air purifier is when determining there is people in predetermined distance range, and whether nobody moves in predetermined distance range in scheduled duration also to need monitoring, and whether the people also namely monitored in scheduled duration in this predetermined distance range moves.
In step 207, if monitor in scheduled duration, nobody moves in predetermined distance range, then add up reference time length scheduled duration, obtains the reference time length after adding up.
Reference time length before cumulative be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected.
Refer to Fig. 2 C, the schematic diagram of each duration relation that to it illustrates according to an exemplary embodiment a kind of when monitoring.As shown in Figure 2 C, air purifier is monitored from 11:30, scheduled duration is set to 1 minute, also namely in monitor procedure, judge every 1 minute in 1 minute, whether nobody moves in this predetermined distance range before this judges the moment, such as, between 11:31 timesharing judgement is from 11:30 to 11:31, in 1 minute, whether nobody moves in this predetermined distance range, then between 11:32 timesharing judgement is from 11:31 to 11:32, in 1 minute, whether nobody moves in this predetermined distance range, subsequently between 11:33 timesharing judgement is from 11:32 to 11:33, in 1 minute, whether nobody moves in this predetermined distance range, the rest may be inferred.When judging when 11:35, the maximum duration of the unmanned movement in this predetermined distance range that the reference time length before cumulative has detected before being 11:34, such as all do not monitor people to move in this preset range from 11:30 to 11:34, then when 11:35, corresponding basic duration is 4 minutes, this within 4 minutes, be from 11:30 to 11:34 between 4 minutes, reference time length after cumulative is then 4 minutes+1 minute=5 minutes, these 5 minutes can as the reference time length done in 11:36 timesharing when judging.
Refer to shown in Fig. 2 D, it illustrates the schematic diagram of each duration relation when monitoring according to a kind of shown in another exemplary embodiment.As shown in Figure 2 D, air purifier is also monitor from 11:30, scheduled duration is set to 1 minute, if 1 minute between from 11:30 to 11:31 has people to move in this predetermined distance range, 1 minute between from 11:31 to 11:32, 1 minute between from 11:32 to 11:33 and from 11:33 to 11:34 between 1 minute in all unmannedly to move in this predetermined distance range, when then judging when 11:35, corresponding basic duration is 3 minutes, this within 3 minutes, be from 11:31 to 11:34 between 3 minutes, reference time length after cumulative is then 3 minutes+1 minute=4 minutes, these 4 minutes can as the reference time length done in 11:36 timesharing when judging.
Refer to shown in Fig. 2 E, the schematic diagram of each duration relation that to it illustrates Gen Ju an exemplary embodiment again a kind of when monitoring.As shown in Figure 2 E, air purifier is also monitor from 11:30, scheduled duration is set to 1 minute, if nobody moved in this predetermined distance range in 1 minute between from 11:30 to 11:31, within 1 minute between from 11:31 to 11:32, people is had to move in this predetermined distance range, and from 11:32 to 11:33 between 1 minute and from 11:33 to 11:34 between 1 minute in all unmannedly to move in this predetermined distance range, when then judging when 11:35, corresponding basic duration is 2 minutes, this within 2 minutes, be from 11:32 to 11:34 between 2 minutes, reference time length after cumulative is then 2 minutes+1 minute=3 minutes, these 3 minutes can as the reference time length done in 11:36 timesharing when judging.
This interval duration can also arbitrarily setting, can be such as 2 minutes, 3 minutes or 5 minutes etc.
Optionally, this interval duration can also successively decrease along with the time.
In a step 208, reduce the brightness degree of indicator light according to the reference time length after cumulative, reference time length becomes negative correlativing relation with the brightness degree of indicator light.
Air purifier to monitor in scheduled duration unmanned mobile in predetermined distance range after, according to current cumulative after reference time length reduce the brightness degree of the indicator light of air purifier in real time.Reference time length becomes negative correlativing relation with the brightness degree of indicator light, and namely reference time length is longer, and the brightness degree of indicator light is lower, and when reference time length reaches scheduled duration threshold value, indicator light will be closed.
For example, if scheduled duration threshold value is 5 minutes, the brightness degree of indicator light is divided into 5 grades, and the first estate is minimum brightness grade, and the 5th grade is maximum brightness grade.The original intensity grade of the indicator light of air purifier is the 5th grade, and when the cumulative reference time length obtained is 1 minute, the brightness degree of indicator light is turned down to the fourth estate by air purifier; When the cumulative reference time length obtained is 2 minutes, the brightness degree of indicator light is turned down to the tertiary gradient by air purifier; By that analogy, when the cumulative reference time length obtained exceedes scheduled duration threshold value 5 minutes, air purifier closes indicator light.
It should be noted that, reference time length is into negative correlativing relation with the brightness degree of indicator light, and this negative correlativing relation can be linear negative dependency relation, and also can be non-linear negative dependency relation, the present embodiment be not construed as limiting this.In addition, the present embodiment is also not construed as limiting for the division of the brightness degree of scheduled duration threshold value and indicator light.
In sum, the indicator light brightness adjusting method provided in disclosure embodiment, by detecting that ambient light intensity obtains User Status parameter lower than during light intensity threshold value, regulates the brightness degree of indicator light on air purifier according to User Status parameter; Owing to can change the brightness of indicator light according to User Status parameter, the indicator light therefore solved on air purifier keeps the brightness of acquiescence always and causes the problem of energy waste; Reach the effect of energy savings.
The indicator light brightness adjusting method provided in disclosure embodiment, by monitoring in scheduled duration, nobody moves in predetermined distance range, then add up reference time length scheduled duration, obtain cumulative after reference time length, reduce the brightness degree of indicator light according to the reference time length after cumulative; Owing to can reduce the brightness degree of indicator light gradually according to the duration of movement unmanned in monitoring range, therefore solve when user does not need the indicator light checked on air purifier, indicator light is still in opening, thus causes the problem of energy waste; Reach the effect of energy savings.
On the basis of the embodiment shown in Fig. 2 A, in another kind of optional embodiment, air purifier can also regulate the brightness degree of indicator light by the User Status parameter sent by other Wearable device, air purifier obtains User Status parameter by Wearable device, when regulating the brightness degree of indicator light according to the User Status parameter obtained, can comprise:
The first, air purifier receives the User Status parameter that Wearable device sends, and User Status parameter is used to indicate user and whether is in sleep state.
Here Wearable device can be Intelligent bracelet, intelligent watch, intelligent tie clip, intelligent clasp etc., and the present embodiment is not construed as limiting this.
Here User Status parameter can be the parameter such as heart rate, blood pressure of user, Wearable device is after this User Status parameter of acquisition, this User Status parameter is sent to air purifier by wireless network, according to this User Status parameter, air purifier judges whether this user is in sleep state.
For example, when Wearable device is Intelligent bracelet, refer to Fig. 2 F, it is the schematic diagram of a kind of Wearable device according to an exemplary embodiment to air purifier transmission User Status parameter.As shown in Figure 2 F, after bracelet 2004 and air purifier 2001 are bound, this User Status parameter, after acquisition User Status parameter, is sent to air purifier 2001 by wireless network by bracelet 2004.
The second, air purifier, when determining that user is in sleep state according to User Status parameter, closes the indicator light on air purifier.
When air purifier determines that user is in sleep state, close the indicator light on air purifier.Now air purifier can reduce the brightness of indicator light gradually until close, and also directly can close indicator light.
In sum, the indicator light brightness adjusting method provided in disclosure embodiment, by receiving the User Status parameter that Wearable device sends, when determining that user is in sleep state according to User Status parameter, closes the indicator light on air purifier; Owing to can close the indicator light of air purifier when user is in sleep state, therefore solve when user does not need the indicator light checked on air purifier, indicator light is still in opening, thus causes the problem of energy waste; Reach the effect of energy savings.
On the basis of the embodiment shown in Fig. 2 A, in another optional embodiment, the regulating command that air purifier can also directly issue according to other intelligent electronic devices regulates the brightness degree of indicator light.
Air purifier can be connected by wireless network with intelligent electronic device, and wireless network here can be bluetooth, Wi-Fi (Wireless-Fidelity, Wireless Fidelity) etc.Here said intelligent electronic device can be the equipment that smart mobile phone, platform computer, multimedia player etc. are bound with air purifier.
Air purifier can receive the regulating command for regulating indicator light brightness degree that intelligent electronic device sends, and regulates the brightness degree of indicator light on air purifier according to regulating command.
Here regulating command is that user passes through operation generation on intelligent electronic device, and for regulating the indicator light brightness degree of air purifier, this regulating command is sent to air purifier by wireless network by intelligent electronic device.
For example, when intelligent electronic device is smart mobile phone, refer to Fig. 2 G, it is the schematic diagram of a kind of intelligent electronic device according to an exemplary embodiment to air purifier transmission regulating command.As shown in Figure 2 G, regulating command is sent to air purifier 2001 by wireless network by smart mobile phone 2005, here regulating command is that user passes through operation generation on smart mobile phone 2005, and this regulating command is for regulating the brightness degree of the indicator light 2002 of air purifier.
Air purifier, after the regulating command receiving intelligent electronic device transmission, regulates the brightness degree of indicator light on air purifier according to this regulating command.
In sum, the indicator light brightness adjusting method provided in disclosure embodiment, by receiving the regulating command for regulating indicator light brightness degree that intelligent electronic device sends, regulates the brightness degree of indicator light on air purifier according to regulating command; Due to can according to user need the brightness degree of indicator light is regulated, therefore solve when user does not need the indicator light checked on air purifier, indicator light is still in opening, thus causes the problem of energy waste; Reach energy savings, improve the effect of Consumer's Experience.
Following is disclosure device embodiment, may be used for performing disclosure embodiment of the method.For the details do not disclosed in disclosure device embodiment, please refer to disclosure embodiment of the method.
Fig. 3 is the block diagram of a kind of indicator light brightness regulating apparatus according to an exemplary embodiment, and as shown in Figure 3, this indicator light brightness regulating apparatus is applied in air purifier.This indicator light brightness regulating apparatus can include but not limited to: first detection module 302 and the first adjustment module 304.
Whether this first detection module 302, be configured to testing environment light intensity lower than light intensity threshold value.
This first adjustment module 304, if be configured to first detection module 302 to detect that ambient light intensity is lower than light intensity threshold value, then obtains User Status parameter, regulates the brightness degree of indicator light on air purifier according to User Status parameter.
In sum, the indicator light brightness regulating apparatus provided in disclosure embodiment, by detecting that ambient light intensity obtains User Status parameter lower than during light intensity threshold value, regulates the brightness degree of indicator light on air purifier according to User Status parameter; Owing to can change the brightness of indicator light according to User Status parameter, the indicator light therefore solved on air purifier keeps the brightness of acquiescence always and causes the problem of energy waste; Reach the effect of energy savings.
Fig. 4 is the block diagram of a kind of indicator light brightness regulating apparatus according to another exemplary embodiment, and as shown in Figure 4, this indicator light brightness regulating apparatus is applied in air purifier.This indicator light brightness regulating apparatus can include but not limited to: first detection module 402 and the first adjustment module 404.
Whether this first detection module 402, be configured to testing environment light intensity lower than light intensity threshold value.
This first adjustment module 404, if be configured to first detection module 402 to detect that ambient light intensity is lower than light intensity threshold value, then obtains User Status parameter, regulates the brightness degree of indicator light on air purifier according to User Status parameter.
In a kind of possible embodiment, this first adjustment module 404 can comprise: monitoring submodule 404a, calculating sub module 404b and reduction submodule 404c.
This monitoring submodule 404a, whether nobody moves in predetermined distance range in scheduled duration to be configured to monitoring.
This calculating sub module 404b, if be configured to monitoring submodule 404a to monitor in scheduled duration and unmannedly to move in predetermined distance range, then add up reference time length scheduled duration, obtain cumulative after reference time length, reference time length be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected.
This reduction submodule 404c, be configured to according to calculating sub module 404b calculate cumulative after reference time length reduce the brightness degree of indicator light, reference time length becomes negative correlativing relation with the brightness degree of indicator light.
In a kind of possible embodiment, this indicator light brightness regulating apparatus also comprises: the second detection module 406 and closing module 408.
Whether this second detection module 406, be configured to detect in predetermined distance range unmanned.
This closing module 408, detects in predetermined distance range unmanned if be configured to the second detection module 406, then closes the indicator light on air purifier.
In a kind of possible embodiment, this indicator light brightness regulating apparatus also comprises: monitoring module 410 and opening module 412.
This monitoring module 410, after being configured to close the indicator light on air purifier in closing module 408, whether someone enters in predetermined distance range to continue monitoring.
This opening module 412, be configured to monitoring module 410 monitor someone enter in predetermined distance range time, open the indicator light on air purifier, the brightness degree of indicator light be set as highest ranking.
In a kind of possible embodiment, this first adjustment module 404 can comprise: receive submodule 404d and close closed submodule 404e.
This reception submodule 404d, be configured to the User Status parameter receiving Wearable device transmission, User Status parameter is used to indicate user and whether is in sleep state.
This pass closed submodule 404e, is configured to, when determining that user is in sleep state according to the User Status parameter receiving submodule 404d reception, close the indicator light on air purifier.
In a kind of possible embodiment, this indicator light brightness regulating apparatus also comprises: receiver module 414 and the second adjustment module 416.
This receiver module 414, is configured to the regulating command for regulating indicator light brightness degree receiving intelligent electronic device transmission.
This second adjustment module 416, the regulating command being configured to receive according to receiver module 414 regulates the brightness degree of indicator light on air purifier.
In sum, the indicator light brightness regulating apparatus provided in disclosure embodiment, by detecting that ambient light intensity obtains User Status parameter lower than during light intensity threshold value, regulates the brightness degree of indicator light on air purifier according to User Status parameter; Owing to can change the brightness of indicator light according to User Status parameter, the indicator light therefore solved on air purifier keeps the brightness of acquiescence always and causes the problem of energy waste; Reach the effect of energy savings.
The indicator light brightness regulating apparatus provided in disclosure embodiment, by monitoring in scheduled duration, nobody moves in predetermined distance range, then add up reference time length scheduled duration, obtain cumulative after reference time length, reduce the brightness degree of indicator light according to the reference time length after cumulative; Owing to can reduce the brightness degree of indicator light gradually according to the duration of movement unmanned in monitoring range, therefore solve when user does not need the indicator light checked on air purifier, indicator light is still in opening, thus causes the problem of energy waste; Reach the effect of energy savings.
About the device in above-described embodiment, wherein the concrete mode of modules executable operations has been described in detail in about the embodiment of the method, will not elaborate explanation herein.
The disclosure one exemplary embodiment provides a kind of indicator light brightness regulating apparatus, can realize the indicator light brightness adjusting method that the disclosure provides, and this indicator light brightness regulating apparatus comprises: processor, memory for storage of processor executable instruction;
Wherein, processor is configured to:
Whether testing environment light intensity is lower than light intensity threshold value;
If detect, ambient light intensity is lower than light intensity threshold value, then obtain User Status parameter, regulates the brightness degree of indicator light on air purifier according to User Status parameter.
Fig. 5 is a kind of for regulating the block diagram of the device of indicator light brightness according to an exemplary embodiment.Such as, device 500 may be provided in an air purifier.With reference to Fig. 5, device 500 comprises processing components 502, and it comprises one or more processor further, and the memory resource representated by memory 504, can such as, by the instruction of the execution of processing components 502, application program for storing.The application program stored in memory 504 can comprise each module corresponding to one group of instruction one or more.In addition, processing components 502 is configured to perform instruction, to perform above-mentioned indicator light brightness adjusting method.
Device 500 can also comprise the power management that a power supply module 506 is configured to final controlling element 500, and a wired or wireless network interface 508 is configured to device 500 to be connected to network, and input and output (I/O) interface 510.Device 500 can operate the operating system based on being stored in memory 504, such as Windows ServerTM, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM or similar.
Device 500 can also comprise an indicating lamp component 512, air cleaning system assembly 514, air quality detector 516, display screen component 518 and a pyroelectric infrared sensor 520.This indicating lamp component 512 is connected with processing components 502, and indicating lamp component 512 carries out corresponding adjustment according to the regulating command of the adjustment indicator light brightness degree that processing components 502 issues to brightness degree; This air cleaning system assembly 514 is configured to the air-cleaning function of implement device 500, and this air cleaning system assembly 514 comprises fan, filter core etc.; This air quality detector 516 is configured to detect and obtains the relevant parameter of air quality; This display screen component 518 is configured to the situation and the pattern residing for device 500, the relevant operational factor etc. that show air quality; This pyroelectric infrared sensor 520 is configured to supervisory user state parameter.
Those skilled in the art, at consideration specification and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.
Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.
Claims (13)
1. an indicator light brightness adjusting method, is characterized in that, is applied in air purifier, and described method comprises:
Whether testing environment light intensity is lower than light intensity threshold value;
If detect, ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulate the brightness degree of indicator light on described air purifier according to described User Status parameter.
2. method according to claim 1, is characterized in that, described acquisition User Status parameter, regulates the brightness degree of indicator light on described air purifier, comprising according to described User Status parameter:
In scheduled duration, whether nobody moves in predetermined distance range in monitoring;
If monitor in described scheduled duration, nobody moves in described predetermined distance range, then add up reference time length described scheduled duration, obtain cumulative after reference time length, described reference time length be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected;
Reduce the brightness degree of described indicator light according to the reference time length after described adding up, described reference time length becomes negative correlativing relation with the brightness degree of described indicator light.
3. method according to claim 2, is characterized in that, described method also comprises:
Whether unmannedly detect in described predetermined distance range;
If detect in described predetermined distance range unmanned, then close the indicator light on described air purifier.
4. method according to claim 3, is characterized in that, described method also comprises:
After closing the indicator light on described air purifier, whether someone enters in described predetermined distance range to continue monitoring;
If monitoring someone enters in described predetermined distance range, then open the indicator light on described air purifier, the brightness degree of described indicator light is set as highest ranking.
5. method according to claim 1, is characterized in that, described acquisition User Status parameter, regulates the brightness degree of indicator light on described air purifier, comprising according to described User Status parameter:
Receive the User Status parameter that Wearable device sends, described User Status parameter is used to indicate user and whether is in sleep state;
When determining that user is in sleep state according to described User Status parameter, close the indicator light on described air purifier.
6. method according to claim 1, is characterized in that, described method also comprises:
Receive the regulating command for regulating indicator light brightness degree that intelligent electronic device sends;
The brightness degree of indicator light on described air purifier is regulated according to described regulating command.
7. an indicator light brightness regulating apparatus, is characterized in that, is applied in air purifier, and described device comprises:
Whether first detection module, be configured to testing environment light intensity lower than light intensity threshold value;
First adjustment module, if be configured to described first detection module to detect that ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulates the brightness degree of indicator light on described air purifier according to described User Status parameter.
8. device according to claim 7, is characterized in that, described first adjustment module, comprising:
Monitoring submodule, whether nobody moves in predetermined distance range in scheduled duration to be configured to monitoring;
Calculating sub module, if be configured to described monitoring submodule to monitor in described scheduled duration and unmannedly to move in described predetermined distance range, then add up reference time length described scheduled duration, obtain cumulative after reference time length, described reference time length be apart from current scheduled duration initial time before the maximum duration of unmanned movement that detected;
Reduce submodule, be configured to according to described calculating sub module calculate described cumulative after reference time length reduce the brightness degree of described indicator light, described reference time length becomes negative correlativing relation with the brightness degree of described indicator light.
9. device according to claim 8, is characterized in that, described device also comprises:
Whether the second detection module, be configured to detect in described predetermined distance range unmanned;
Closing module, detects in described predetermined distance range unmanned if be configured to described second detection module, then closes the indicator light on described air purifier.
10. device according to claim 9, is characterized in that, described device also comprises:
Monitoring module, after being configured to the indicator light of closing on described air purifier in described closing module, whether someone enters in described predetermined distance range to continue monitoring;
Opening module, be configured to described monitoring module monitor someone enter in described predetermined distance range time, open the indicator light on described air purifier, the brightness degree of described indicator light be set as highest ranking.
11. devices according to claim 7, is characterized in that, described first adjustment module, comprising:
Receive submodule, be configured to the User Status parameter receiving Wearable device transmission, described User Status parameter is used to indicate user and whether is in sleep state;
Close closed submodule, be configured to, when the described User Status parameter received according to described reception submodule determines that user is in sleep state, close the indicator light on described air purifier.
12. devices according to claim 7, is characterized in that, described device also comprises:
Receiver module, is configured to the regulating command for regulating indicator light brightness degree receiving intelligent electronic device transmission;
Second adjustment module, the described regulating command being configured to receive according to described receiver module regulates the brightness degree of indicator light on described air purifier.
13. 1 kinds of indicator light brightness regulating apparatus, is characterized in that, are applied in air purifier, and described device comprises:
Processor;
For storing the memory of described processor executable;
Wherein, described processor is configured to:
Whether testing environment light intensity is lower than light intensity threshold value;
If detect, ambient light intensity is lower than described light intensity threshold value, then obtain User Status parameter, regulate the brightness degree of indicator light on described air purifier according to described User Status parameter.
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