CN113660755A - Intelligent control method for household light - Google Patents

Abstract

The invention discloses an intelligent control method for household lamplight. The specific method comprises the following steps: acquiring indoor data information and acquiring bathroom data information through various indoor data acquisition elements and various bathroom data acquisition elements, and judging whether people move in the rooms and the toilets or not; if no personnel move in the house, starting the unmanned mode; if the personnel in the room are judged to move, acquiring indoor sleep information, judging whether the personnel are in a sleep state, and if the personnel are in the sleep state, starting a sleep illumination mode; and if the person is not in the sleeping state, starting the indoor normal lighting mode and simultaneously starting the bathroom normal lighting mode. The advantages are that: the operation study is very convenient, labour saving and time saving, is applicable to various crowds' use, and experience effect has obtained very big promotion, has realized the purpose of flexible control, has effectively eliminated the uncomfortable of night highlight switching on, has effectively avoided forgetting the operation moreover and has brought various problems.

Description

Intelligent control method for household light

Technical Field

The invention relates to a control technology of intelligent home, in particular to an intelligent control method of home lighting, and belongs to the technical field of intelligent control.

Background

Along with the continuous improvement of people's standard of living, experience requirement to intelligent house is also higher and higher, especially requires more and more subtly to the light intelligent control of house, bedroom and bathroom, especially lights suddenly under the state of dark and stings the light and has brought very big discomfort for people, for example: when people go to a bathroom with a dim state during sleeping at night, people can feel sleepless due to the stimulation of strong light, and for example: sleeping at night, people enter a room and turn on a light to break drowsiness; even if the toilet is not turned on at night to go to a toilet in order to avoid the discomfort, if the toilet bowl is used for a long time to turn on the light and the light cannot be conveniently turned on, even if the toilet bowl can be reluctantly contacted with a light switch to turn on the light, the eyes still adapt to the darkness for a long time and suddenly shine to stimulate the eyes to cause the discomfort; in addition, the situation that the exhaust fan cannot be started but the exhaust fan is forgotten to be started before the toilet seat exhaust fan is used to chafe when the toilet seat is used also exists in the prior art, and the problem that the exhaust fan is shut down within a specific time when the toilet has the peculiar smell, so that the service life of the exhaust fan is greatly shortened is caused; the problem that people do not want to go several steps to turn off the lamp easily exists even if the lamp is not turned off after the people come out of a toilet, besides, the problem that people feel inconvenient when going out of a bed to turn off the forgotten lamp when sleeping is prepared in the prior life, and the problem that people need to go back to turn off the lamp when going out of a door to turn off the lamp when going to the door to turn off the lamp is found, of course, children and old people fall down due to the fact that the objects or water obstacles cannot be seen clearly in the light when entering the door or the toilet, and accidents are caused.

Later, along with the propulsion of smart machine, some technologies that use cell-phone APP to solve above-mentioned problem have also appeared on the market, but current conventional controlgear, it is very troublesome to use, need have certain use knowledge just can accomplish the operation, use experience is not good, still be particularly unsuitable for child and old man, in addition, even if add delay switch as supplementary, but current time delay is turned off the light human body sensor and is operated very hard, whether someone exists or not close immediately after the time delay, can't be used for indoor, even use indoor, use experience is also uncomfortable.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent control method for household lamplight, which can not only eliminate the uncomfortable feeling of strong light turning on at night, but also has high intelligent degree, convenient operation and study, time and labor saving and can effectively avoid various problems caused by forgetting operation.

In order to solve the technical problem, the intelligent control method of the household light comprises the following specific steps:

acquiring indoor data information and acquiring bathroom data information through various indoor data acquisition elements and various bathroom data acquisition elements within a specified time, and judging whether people move indoors and in a bathroom;

if no personnel move in the house, starting the unmanned mode;

if the personnel in the room are judged to move, acquiring indoor sleep information, judging whether the personnel are in a sleep state, and if the personnel are in the sleep state, starting a sleep illumination mode; and if the person is not in the sleeping state, starting the indoor normal lighting mode and simultaneously starting the bathroom normal lighting mode.

The method for judging whether personnel move comprises the following steps: the method comprises the steps of acquiring whether a person enters a door or not through a door entering human body sensing assembly, judging that the person exists in the room if the person enters the door, acquiring the data of lying of the person through a bed entering sensing assembly, receiving sleep, heart rate, respiration rate, body movement, dormancy and snore information, judging that the person exists in the room, acquiring the control state of a main lamp in the room through a main lamp control assembly in the room, judging that the person exists in the room if the main lamp in the room is turned on, acquiring the control state of an auxiliary lamp through an auxiliary lamp control assembly in the room if the auxiliary lamp in the room is turned on, judging that the person exists in the room if the auxiliary lamp in the room is turned on, acquiring the control state of the main lamp in the bathroom if the main lamp in the bathroom is turned on, acquiring the control state of a mirror front lamp in the bathroom if the mirror front lamp in the bathroom is turned on, and judging that the mirror front lamp is turned on, the human body of rethread toilet bowl is close sensing assembly and acquires the toilet bowl user state, someone is using the toilet bowl, then judge someone in the room, the human body is close sensing assembly and acquires the wash-basin user state before the rethread mirror, someone is using the wash-basin, then judge someone in the room, the rethread night traffic light control assembly acquires night traffic light control state, the night traffic light state is opened, then judge someone in the room, rethread toilet bowl air exhaust control assembly acquires exhaust fan control state, the exhaust fan is opened, then judge someone in the room.

Under the unmanned mode, when personnel enter the door, the human body sensing assembly of entering the door acquires the state that someone enters the door, and then the processor sends an instruction, and the indoor auxiliary lamp is controlled to flexibly open the indoor auxiliary lamp by the indoor auxiliary lamp control assembly.

The sleep state judging steps are as follows:

step S1: acquiring the bedridden data of the person through the bed getting and falling sensing assembly, setting the numerical value of the sleeping time based on the received sleeping, heart rate, breathing rate, body movement, dormancy and snore information, and entering the step S2 if the numerical value exceeds the set numerical value;

step S2: acquiring brightness data through the brightness sensor assembly, and if the indoor brightness value is lower than the set value based on judgment, indicating that a sleeper wants the indoor brightness to sleep under the condition that the indoor brightness is lower than the set value, entering step S3;

step S3: the state of the indoor main lamp obtained by the main lamp control component is judged to be turned off, and the step S4 is executed;

step S4: the state of the indoor auxiliary lamp obtained by the indoor auxiliary lamp control component is based on the judgment that the indoor auxiliary lamp is turned off, and the step S5 is entered;

step S5: the state of the main lamp of the toilet, which is acquired by the main lamp control component of the toilet, is judged to be turned off, and the step S6 is executed;

step S6: the state of the bathroom mirror front lamp is acquired through the bathroom mirror front lamp control assembly, and the bathroom mirror front lamp is judged to be turned off;

if the 6 steps are met, the sleeping person is judged to want to sleep in the state below the light value set value and is already in deep sleep, and the sleep illumination mode is started.

When the indoor is in a sleep illumination mode, whether a person enters the room can be continuously acquired through the door entering human body sensing assembly, based on the acquired door entering data, when the person is judged to enter the room, the night light control assembly flexibly turns on the night light, meanwhile, the bed data is acquired through the bed getting and falling sensing assembly, and when the person is judged to have got off the bed, the night light control assembly flexibly turns on the night light;

human body of toilet bowl is close sensing assembly and is acquireed toilet bowl service data, judges whether the people is using the toilet bowl, if nobody can use the toilet bowl then through going to bed sensing assembly get to bed data, judges whether personnel have gone to bed; if the person is judged to be in bed, the night light is delayed to a set value and then is flexibly turned off by controlling the night light control assembly;

if judge someone is using the toilet bowl, then obtain toilet bowl service data through the human body of toilet bowl is close sensing assembly, judge toilet bowl live time; if the time that a person uses the toilet bowl is judged to be shorter than the set value, getting-on-and-off data are obtained based on the getting-on-and-off sensing assembly, if the person is judged to be in bed, the night light is controlled to be turned off flexibly through the night light control assembly after the time is delayed to the set value;

if the time that the person is using the toilet bowl exceeds the set value, the toilet main lamp is controlled to be turned on by the toilet main lamp control assembly to continuously brighten the toilet within the set time, and meanwhile, the exhaust fan is controlled to be turned on by the toilet exhaust control assembly to exhaust peculiar smell;

if acquire personnel through human sensor assembly that is close of toilet bowl and leave data, then through the flexible bathroom main light that closes behind the main light control assembly time delay of bathroom to the setting value, simultaneously, the exhaust fan is closed in the control of the control assembly control of airing exhaust through toilet bowl behind the time delay to the setting value, simultaneously again, acquires upper and lower bed sensor assembly data, judges that the people has gone to the bed, reaches to delay and controls the flexible night lamp that closes through night light control assembly control after the setting value.

In the sleep illumination mode, when indoor personnel manually turn on any light in the room or the toilet, the sleep illumination mode is exited.

When the room is in the normal lighting mode, the following three modes are in use:

the first mode is as follows: acquiring the on-off state of a main indoor lamp, and judging whether the main indoor lamp is turned on or not (301); if the switch of the indoor main lamp is judged to be turned on, the indoor main lamp is controlled to be flexibly turned on by the indoor main lamp control assembly; if the switch of the indoor main lamp is judged to be closed, the indoor main lamp is controlled to be flexibly closed through the indoor main lamp control assembly;

and a second mode: acquiring the on-off state of an indoor auxiliary lamp, judging whether an auxiliary lamp switch is turned on or not, controlling to flexibly turn on the indoor auxiliary lamp through an indoor auxiliary lamp control assembly based on the judgment that the auxiliary switch is turned on, and controlling to flexibly turn off the indoor auxiliary lamp through the indoor auxiliary lamp control assembly if the auxiliary lamp switch is turned off;

and a third mode: acquiring the on-off state of a main lamp in a room, and judging whether the main lamp switch is turned on or not; if the switch of the main lamp is judged to be closed, the indoor main lamp is controlled to be flexibly closed through the indoor main lamp control assembly, and meanwhile the indoor auxiliary lamp is controlled to be flexibly closed through the indoor auxiliary lamp control assembly; if the main lamp switch is turned on, the flexible turning-on of the indoor main lamp or the flexible turning-on of the auxiliary lamp is controlled according to the last memory state of the indoor main lamp switch and the auxiliary lamp switch.

In the third mode, before the main lamp switch is turned off, when the main lamp and the auxiliary lamp in the room are both in the on state, the main lamp and the auxiliary lamp in the room are turned on when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the indoor main lamp is turned on and the auxiliary lamp is turned off, the indoor main lamp is turned on and the auxiliary lamp is turned off when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the indoor main lamp is in a turned-off state and the auxiliary lamp is in a turned-on state, the indoor main lamp is turned off and the auxiliary lamp is turned on when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the main lamp and the auxiliary lamp are both in the off state, the main lamp is turned off and the auxiliary lamp is turned off when the main lamp switch is turned on.

When the toilet is in the normal lighting mode, the control mode is as follows:

acquiring data of a toilet door entering sensing assembly, judging whether a person enters the toilet or not, if so, controlling to flexibly turn on a toilet main lamp through a toilet main lamp control assembly, further acquiring data of a human body approaching sensing assembly of a toilet, judging whether the person uses the toilet or not, if not, acquiring data of a human body sensing assembly in front of a mirror, judging whether the person uses a washbasin or not, if so, controlling to flexibly turn on a toilet mirror front lamp through the toilet mirror front lamp control assembly, if not, delaying to a set value, controlling to flexibly turn off the toilet main lamp through the toilet main lamp control assembly, and meanwhile, controlling to flexibly turn off the toilet mirror front lamp through the toilet mirror front lamp control assembly after delaying to the set value;

if the time that the person is using the toilet bowl is delayed to the set value, an exhaust fan is controlled to be turned on through the toilet bowl exhaust control assembly to remove peculiar smell;

continuously acquire human proximity sensing subassembly data of toilet bowl, judge whether personnel have left the toilet bowl, if acquire human proximity sensing subassembly data of toilet bowl, judge that personnel have left the toilet bowl, then close the exhaust fan after delaying to the setting value, acquire human before the mirror sensing subassembly data simultaneously, judge whether the people uses the wash basin, if judge that personnel are using the wash basin, then through the flexible bathroom mirror front lamp that opens of bathroom mirror front lamp control assembly control, if judge that the people does not use the wash basin, then delay to the setting value after through the flexible bathroom main lamp control assembly control main lamp that closes of bathroom, delay simultaneously to the setting value after through the flexible bathroom mirror front lamp control assembly control main lamp that closes of bathroom mirror front lamp.

When the toilet is in the normal lighting mode, the control mode is as follows:

the method comprises the steps of obtaining the on-off state of a main toilet lamp, judging whether the on-off state is on or off, if the on-off state of the main toilet lamp is on, controlling the main toilet lamp to be flexibly turned on through a main toilet lamp control assembly, and if the on-off state of the main toilet lamp is off, controlling the main toilet lamp to be flexibly turned off through the main toilet lamp control assembly.

When the toilet is in the normal lighting mode, the control mode is as follows:

and if the switch state of the bathroom mirror front lamp is closed, the bathroom mirror front lamp is controlled to be flexibly opened through the bathroom mirror front lamp control assembly.

The invention has the advantages that:

carry out brand-new design with its communication mode through the control and the data acquisition component that utilize current modernization and form an unprecedented control method, do not need to operate just can carry out effective reliable control to various lighting apparatus through complicated APP, the operation study is very convenient, time saving and labor saving, be applicable to various crowds' use, the experience effect has obtained very big promotion, in addition utilized the information processing function that treater itself has, the purpose of flexible control has been realized to the processing that has carried out various data of gathering, the uncomfortable sense of highlight turn-on at night has effectively been eliminated, thereby the problem of the uncomfortable sense that control operation is hard to bring among the prior art has been avoided, and the design of intelligent degree height and complete intellectuality has effectively avoided forgetting to operate and has brought various problems.

Drawings

FIG. 1 is a flow chart of an intelligent automatic control method for household lighting according to the present invention;

FIG. 2 is a flow chart of a sleep illumination mode according to the present invention.

FIG. 3 is a flow chart of the indoor normal lighting mode of the present invention.

FIG. 4 is a flow chart of the normal illumination mode of the toilet room according to the present invention.

Fig. 5 is a system schematic block diagram of the intelligent automatic control method for household light.

Detailed Description

The intelligent automatic control method for the household light is further described in detail below with reference to the accompanying drawings and the specific embodiments.

As shown in the figure, the intelligent automatic control method for home lighting of the present invention is implemented based on a complete set of control system, as shown in fig. 5, the control system includes a processor 501, the processor 501 is physically connected to an indoor entrance human body sensing component 502, an indoor light switch component 503, a brightness sensing component 504, an upper and lower bed sensing component 505, a bathroom entrance human body sensing component 506, a bathroom light switch component 507, a toilet bowl human body proximity sensing component 508, a front mirror human body proximity sensing component 509, an indoor main light control component 510, an indoor auxiliary light control component 511, a bathroom main light control component 512, a bathroom front mirror light control component 513, a night light control component 514, and a toilet bowl control component 515, wherein the entrance human body sensing component 502, the indoor light switch component 503, the brightness sensing component 504, the upper and lower bed sensing component 505 constitute internal data acquisition elements, the indoor main lamp control component 510 and the indoor auxiliary lamp control component 511 form an indoor control element; the toilet entrance human body sensing component 506, the toilet bowl human body proximity sensing component 508 and the before-mirror human body proximity sensing component 509 form a toilet data acquisition component, and the toilet lamp switch component 507, the toilet main lamp control component 512, the toilet before-mirror lamp control component 513, the night light control component 514 and the toilet bowl air exhaust control component 515 form a toilet control component.

Specifically, the processor 501 realizes the functions of collecting, recording and controlling various functional components through an MCU embedded central processing unit, and the indoor door-entering human body sensing component 502 and the bathroom door-entering human body sensing component 506 are MEMS thermopile infrared sensors, pyroelectric infrared human body sensors, radar microwave human body sensors, human body proximity sensors or infrared human body imaging sensors; they may be placed in the upper and lower door, at the door edge, and where people can be sensed entering the room, the indoor door entering human body sensing component 502 and the bathroom door entering human body sensing component 506 may be made to be associated with the indoor or bathroom illumination (i.e., associated with the brightness sensing component 504), and after the illumination exceeds a set value, the human body sensing component 502 of the indoor entrance and the human body sensing component 506 of the bathroom entrance can enter the human body sensing state, the indoor lamp switch component 503 is an indoor main lamp switch, an indoor auxiliary lamp switch, a main lamp switch and a night lamp switch, or more functional lighting switches are added or unnecessary lighting switches are reduced according to actual requirements, the indoor main lamp switch is a ceiling lamp switch, a switch with a lamp, a wall lamp switch and a bedside lamp switch, the indoor auxiliary lamp switch is a corridor lamp switch, a background lamp switch and a switch with a lamp, and the main lamp switch is generally placed at the door entrance and the head of the bed; when the main lamp is turned off, all lamps in the room are turned off; when the main lamp switch is turned on, only the last lighting is memorized; such as: before the main lamp switch is turned off, 2 lamps are on, 3 lamps are off, and when the main lamp is turned on again, only 2 lamps which are previously on are on.

The brightness sensing component 504 is a photoresistance sensor and an illumination intensity sensor, and is placed in a place which can actually reflect indoor illumination, and meanwhile, the brightness sensing component cannot be shielded, such as a room central top hollow part, a bedside upper part and a bedside edge; the brightness sensing component 504 is used for providing digital quantity, analog quantity or switching value of indoor illumination data for the processor 501, and is a basis for indoor illumination brightness environment and sleeping brightness environment.

The upper and lower bed sensing components 505 are PVDF piezoelectric film sensors for sleeping, heart rate, respiration rate, body movement, dormancy, snore, film pressure and force sensors; the going-to-bed and getting-out-of-bed sensing assembly 505 provides the processor 501 with the state that a person has gone to bed or has gone out of bed, and provides the processor 501 with the data or state of sleep, heart rate, respiration rate, body movement, dormancy and snore after the person goes to bed to analyze whether the person has entered the sleep state, so as to set the starting mode and brightness of the indoor or bathroom lamp, reduce the interference to sleep to the greatest extent and ensure the sleep quality for a long time.

The toilet lamp switch assembly 507 is a toilet main lamp switch, a mirror front lamp switch, a shower lamp switch, and can be used for manually and directly turning on or off the corresponding illuminating lamp.

The toilet bowl human proximity sensing component 508 and the pre-mirror human proximity sensing component 509 may be an infrared direct proximity switch, or an infrared emission proximity switch, or a capacitive proximity switch, or an inductive proximity switch, or a laser proximity switch; the toilet bowl human proximity sensing component 508 can be installed on the toilet bowl side, most likely in the vicinity of the human body, the human proximity sensing component 509 in front of the mirror can be installed on the toilet wash basin side, most likely in the vicinity of the human body, the toilet bowl human proximity sensing component 508 and the human proximity sensing component 509 in front of the mirror can reliably convey to the disposer 501 whether the person is using the toilet bowl and wash basin or has just left the toilet bowl and wash basin.

The lamps can be incandescent lamps, the indoor main lamp control component 510, the indoor auxiliary lamp control component 511, the bathroom main lamp control component 512, the bathroom mirror front lamp control component 513 and the night lamp control component 514 are power drivers composed of MCU microprocessors and power electronic components, have the functions of memorizing, storing, operating, flexibly lighting and flexibly turning off the lamps, and are used for flexibly turning on and flexibly turning off the white weave lamps based on instructions of the processor 501.

Further, based on instructions from processor 501, in a normal lighting mode, a flexible control, such as bathroom master light control component 512, changes the bathroom white weave master light brightness from darkest to brightest (continuously brightened for a set time) within a short period of time, such as 1 second, 1.5 seconds, 2 seconds, 2.5 seconds, 3 seconds, 4 seconds, 5 seconds, and 6 seconds, so that the eyes do not feel obtrusive to turning on the light, the lighting experience is good, and vice versa, the flexible light turning off is also the same.

Further, based on instructions from the processor 501, in the sleep mode, the flexible control such as the main toilet light control component 512 controls the main toilet light brightness from the darkest to the brightest for a longer period of time, such as 2 minutes, 5 minutes, 10 minutes, and 15 minutes, so as to gradually adapt the eyes to the brightness increase and protect drowsiness at the time to the greatest extent possible.

The lamp can also be an LED lamp, the indoor main lamp control component 510, the indoor auxiliary lamp control component 511, the bathroom main lamp control component 512, the bathroom mirror front lamp control component 513, the night driving lamp control component 514 are constant-current LED power drivers composed of MCU microprocessors and electronic components or constant-voltage LED power drivers composed of electronic components, and the lamp has the functions of memorizing, storing, operating and flexibly lighting and flexibly extinguishing the lamp, and is used for flexibly turning on and flexibly turning off the LED lamp based on the instruction of the processor 501.

Further, based on instructions from processor 501, in a normal lighting mode, a flexible control, such as bathroom master light control component 512, changes bathroom white weave master light brightness from darkest to brightest in a short period of time, such as 1 second, 1.5 seconds, 2 seconds, 2.5 seconds, 3 seconds, 4 seconds, 5 seconds, 6 seconds, such that the eyes do not have an obtrusive feeling to turn on the light, making the light-on experience good, and vice versa, the flexible light-off is also the same.

Further, based on instructions from processor 501, a flexible control, such as bathroom main light control component 512, changes the bathroom LED main light brightness from darkest to brightest over a longer period of time, such as 2 minutes, 5 minutes, 10 minutes, 15 minutes.

Toilet bowl exhaust control assembly 515 comprises power electronic components, or comprises the relay, opens or closes the toilet bowl exhaust fan based on the instruction of treater 501.

The invention relates to an intelligent automatic control method of household light, which comprises the following specific steps:

judging whether a person is in the room or the toilet to move or not based on the indoor data information acquired by various indoor data acquisition elements and various toilet data acquisition elements and the toilet data information acquired by various toilet data acquisition elements within the specified time, wherein the specified time refers to any time when the latest instruction of the processor is not received;

if the indoor unmanned personnel is judged to be active, the unmanned mode is started 104;

if the indoor personnel move, acquiring indoor sleep information, judging whether the personnel are in a sleep state 102, and if the personnel are in the sleep state, starting a sleep illumination mode 200; if the person is not in the sleeping state, the indoor normal illumination mode 300 is started, and the bathroom normal illumination mode 400 is started at the same time.

The method for judging whether personnel move comprises the following steps: the method comprises the steps of obtaining a person entering door state through a human body sensing assembly 502 in the house, receiving the information that the person enters the door, judging the person in the house, obtaining the bed data of the person through a bed entering and leaving sensing assembly 505, receiving the information of sleep, heart rate, respiration rate, body movement, dormancy and snore, judging the person in the house, obtaining the control state of a main lamp in the house through a main lamp control assembly 510 in the house, judging the person in the house if the main lamp in the house is turned on, obtaining the control state of an auxiliary lamp through an auxiliary lamp control assembly 511 in the house, judging the person in the house if the auxiliary lamp in the house is turned on, obtaining the control state of the main lamp in the toilet through a main lamp control assembly 512 in the toilet, judging the person in the house if the main lamp in the toilet is turned on, obtaining the control state of a mirror in the toilet through a mirror front lamp control assembly 513 in the toilet, judging the mirror state of the front lamp if the mirror is turned on, judging the person in the house, human user state that is close sensing assembly 508 and acquires through the toilet bowl, someone is using the toilet bowl, then judge indoor someone, the basin user state that the human body is close sensing assembly 509 and acquires before the mirror, someone is using the basin, then judge indoor someone, the control state who acquires through night driving light control assembly 514, the night driving light state is opened, then judge indoor someone, the exhaust fan control state who acquires through toilet bowl air exhaust control assembly 515, the exhaust fan is opened, then judge indoor someone.

And further, acquiring the information of the assemblies of different types, wherein one assembly judges that people exist in the house, and the information of the assemblies of different types is acquired, and all the assemblies judge that no people exist in the house, and then judge that no people exist in the house.

Based on the determination that no one is present in the room, the no-man mode 104 is enabled, which includes the following steps:

when the entrance information is received through the entrance state of the person obtained by the indoor entrance human body sensing component 502, the processor 501 sends an instruction to control the indoor auxiliary lamp control component 511 to flexibly turn on the indoor auxiliary lamp; such as aisle lights, backlights, and auxiliary lights in the room, the auxiliary lights may be turned off manually by the auxiliary light switch of the indoor light switch assembly 503 or by the main light switch of the indoor light switch assembly 503.

Acquiring indoor sleep information based on the judgment that a person is in the room, and judging whether the person is in the sleep state 102, wherein the method comprises the following steps:

step S1: the bed data acquired by the get-up and get-down sensing component 505 is based on having received sleep, heart rate, respiration rate, body movement, sleep, snore information, and has been more than, for example: 1 hour, 2 hours or 3 hours, then go to step S2;

step S2: acquiring data through the brightness sensor assembly 504, and if the indoor brightness value is judged to be low, indicating that the sleeping owner wants the indoor brightness to sleep under a low condition, entering step S3;

step S3: based on the determination that the indoor main lamp has been turned off by the state of the indoor main lamp control assembly 510, the process proceeds to step S4;

step S4: acquiring the state of the indoor auxiliary lamp control component 511, and entering step S5 based on the judgment that the indoor auxiliary lamp is turned off;

step S5: acquiring the state of the toilet main lamp control component 512, and proceeding to step S6 based on the judgment that the toilet main lamp is turned off

Step S6: the state of the bathroom mirror front lamp control assembly 513 is acquired, and the bathroom mirror front lamp is judged to be turned off. Then:

if the above 6 steps are met, it is judged that the sleeping owner wishes to sleep in a state where the light value is low and has already been sleeping deeply. The sleep illumination mode 200 is activated at this point.

If the above 6 steps are not met, it is judged that the indoor person does not sleep or the sleeping owner does not want to sleep in a state where the indoor brightness value is low. At this time, the indoor normal illumination mode 300 is started, and the bathroom normal illumination mode 400 is started at the same time;

referring to fig. 2, fig. 2 is a flow chart of a sleep illumination mode 200 according to an embodiment of the present invention, which includes the following steps:

based on the data of the indoor entrance sensing assembly, it is determined that a person has entered the door (step 201), the night light control assembly controls the night light to be turned on flexibly (step 203, although the control command is sent by the processor 501), so that the sleeping indoor person is not disturbed.

The data of the patient lying in bed is acquired by the bed getting and falling sensing assembly 505, and the patient is judged to have got out of the bed (step 202), and the processor 501 controls the night light control assembly to flexibly turn on the night light (step 203).

Acquire to use toilet bowl data through toilet bowl human body proximity sensing subassembly 508, judge whether the people is using the toilet bowl (step 204).

If the person is judged not to use the toilet, the flow of the control method is started to be 205, in the step, the going-to-bed and getting-off-bed data is obtained through the going-to-bed and getting-off-bed sensing assembly 505, and whether the person gets into the bed or not is judged (step 205); if it is determined that the person is in bed, the flow of the control method 206 is entered, in which a delay time is set for a period of time, such as 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, and the processor 501 controls the flexible turn-off of the night lights through the night light control assembly 514 (step 206).

Having determined that the person is using the toilet, the flow of control method 207 is entered, in which toilet use time data is obtained by the toilet human proximity sensing assembly 508, determining whether the person is using the toilet for a long time or a short time (step 207).

It has been determined that a person is using a toilet for a relatively short period of time, for example; less than 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, then control method flow 205 and control method flow 206 are entered: specifically, if the user is determined to have gone into the bed by acquiring data from the going-to-bed sensing assembly 505 and delaying the time for a period of time, such as 30 seconds, 1 minute, 2 minutes, 5 minutes, or 10 minutes, the processor 501 controls the night light to be turned off flexibly through the night light control assembly 514.

If it is determined that the time that the person is using the toilet bowl is long and has exceeded the general usage time, such as greater than 1 minute, 2 minutes, 5 minutes, or 10 minutes, the control method flow 208 is entered: in this step, the processor 501 controls the flexible-on main toilet lamp via the main toilet lamp control component 512 (step 208), specifically, the flexible-control main toilet lamp is slowly turned on from darkest to brightest for a longer time period, such as 2 minutes, 5 minutes, 10 minutes, or 15 minutes; thus, the eyes can slowly and gradually adapt to the increase of the brightness, and the drowsiness at the moment can be protected to the maximum extent possible.

If the time that the person is using the toilet bowl is long is judged, the flow of the control method is simultaneously entered into 209: the processor 501 controls to turn on the exhaust fan through the toilet exhaust control component 515 (step 209) to exhaust the peculiar smell.

The human body of toilet bowl is close to the toilet bowl service data that sensing assembly 508 obtained, judges whether the people has left the toilet bowl (step 210), if judge that the people has left the toilet bowl, then postpone a period of time such as 30 seconds, or 1 minute, or 2 minutes, or 5 minutes or 10 minutes later, treater 501 controls the flexible through bathroom main lamp control assembly 512 and closes (flexible is closed for a certain time, the luminance of light is from brightest to dim gradually to extinguishing) bathroom main lamp (step 211).

Meanwhile, if it is determined that the person has left the toilet, after delaying for a period of time, such as 2 minutes, or 5 minutes, or 10 minutes, the processor 501 controls the exhaust fan to be turned off through the toilet exhaust control assembly 515 (step 212).

At the same time, also based on the bed getting data acquired by the bed getting sensing component 505, it is determined that the person has got into the bed, and after a delay time of, for example, 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, the processor 501 controls the flexible turn-off night light through the night light control component 514 (steps 205 and 206).

Further, in the sleep illumination mode 200, the indoor person manually turns on any light in the room or the toilet, and then exits the sleep illumination mode 200.

Referring to fig. 3, fig. 3 is a flow chart of an indoor normal illumination mode 300 according to an embodiment of the present invention, and the method thereof is as follows:

and acquiring the on-off state of the indoor main lamp, and judging whether the indoor main lamp is turned on 301. If the indoor main lamp switch is turned on, the processor 501 controls the indoor main lamp 302 to be flexibly turned on through the indoor main lamp control assembly 510, and if the indoor main lamp switch is turned off, the processor 501 controls the indoor main lamp 302 to be flexibly turned off through the indoor main lamp control assembly 510.

The on-off state of the indoor auxiliary lamp is obtained, whether the auxiliary lamp switch is turned on 303 is judged, if the auxiliary switch is turned on, the processor 501 controls the flexible turning-on of the indoor auxiliary lamp 304 through the indoor auxiliary lamp control component 511, and if the auxiliary lamp switch is turned off, the processor 501 controls the flexible turning-off of the indoor auxiliary lamp 304 through the indoor auxiliary lamp control component 511.

The on-off state of the indoor main lamp is obtained, whether the main lamp switch is turned on is judged 305, if the main lamp switch is turned off, the processor 501 controls the flexible turning off of the indoor main lamp 306 through the indoor main lamp control component 510, and meanwhile, the processor 501 controls the flexible turning off of the indoor auxiliary lamp 306 through the indoor auxiliary lamp control component 511. If the main lamp switch is already turned on, the flexible turning-on of the indoor main lamp (the flexible turning-on is that the brightness of the lamp light gradually increases from dark to brightest within a certain time) or the flexible turning-on of the auxiliary lamp is controlled according to the last memory state of the indoor main lamp switch and the auxiliary lamp switch 306.

Further, before the main lamp switch is turned off, the main lamp and the auxiliary lamp in the room are turned on, and when the main lamp switch is turned on, the main lamp and the auxiliary lamp in the room are turned on. Before the main lamp switch is turned off, the main lamp and the auxiliary lamp are turned on and off, and when the main lamp switch is turned on, the main lamp and the auxiliary lamp are turned on and off. Before the main lamp switch is turned off, the main lamp and the auxiliary lamp are turned on, and when the main lamp switch is turned on, the main lamp and the auxiliary lamp are turned off and on. Before the main lamp switch is turned off, the main lamp is turned off, the auxiliary lamp is turned off, and when the main lamp switch is turned on, the main lamp is turned off, and the auxiliary lamp is turned off.

Furthermore, the indoor main lamp switch is a ceiling lamp switch, a switch with a lamp, a wall lamp switch and a bedside lamp switch, and the indoor auxiliary lamp switch is a aisle lamp switch, a background lamp switch and a switch with a lamp; when the main lamp is turned off, all lamps in the room are turned off; when the main lamp switch is turned on, only the last lighting is memorized; such as: before the main lamp switch is turned off, 2 lamps are on, 3 lamps are off, and when the main lamp is turned on again, only 2 lamps which are previously on are on.

Referring to fig. 4, fig. 4 is a flowchart of a normal lighting mode 400 of an indoor toilet according to an embodiment of the present invention, and a specific control method is as follows:

the control method of the bathroom normal lighting pattern 400 has three paths.

Control method of the bathroom Normal Lighting mode 400 the first path:

the data of entering the toilet is acquired through the toilet door entering sensing component 506, whether a person enters the toilet is judged (step 401), and if the person enters the toilet is judged, the processor 501 controls the main toilet lamp to be flexibly turned on through the main toilet lamp control component 512 (step 402).

Obtaining the use data of the toilet bowl through the toilet bowl human body proximity sensing component 508, and judging whether a person uses the toilet bowl (step 403); if the toilet is not used by the person, the data of using the washbasin is acquired through the in-front mirror body sensing assembly 509, whether the person uses the washbasin is judged (step 404), and if the person uses the washbasin is judged, the processor 501 controls the toilet in-front mirror lamp to be flexibly opened through the toilet in-front mirror lamp control assembly 513 (step 406); if it is determined that the person is not using the washbasin, the processor 501 controls the flexible turn-off of the main toilet light through the main toilet light control component 512 after a delay time of, for example, 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes (step 405); with a delay of, for example, 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes, processor 501 controls the flexible off-state of the bathroom mirror front lights via bathroom mirror front light control assembly 513 (step 405).

If the person is judged to be using the toilet, acquiring data of the human body proximity sensing component 508 of the toilet, and judging the time for using the toilet (step 407);

if the time that the person is using the toilet bowl is judged to be shorter, for example: if the time is less than 1 minute, or 2 minutes, or 5 minutes or 10 minutes, the washbasin usage data is obtained through the mirror front human body sensing component 509, whether the person is using the washbasin is judged (step 404), if the person is judged to be using the washbasin, the processor 501 controls the toilet mirror front lamp to be flexibly turned on through the toilet mirror front lamp control component 513 (step 406), and if the person is judged not to be using the washbasin, the time is delayed for example, 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes later, the processor 501 controls the toilet main lamp to be flexibly turned off through the toilet main lamp control component 510 (step 405); with a delay such as 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes later, the toilet mirror front light is controlled to be flexibly closed by the toilet mirror front light control assembly 513 (step 405).

If the time that the person is using the toilet bowl is longer than 1 minute, 2 minutes, 5 minutes or 10 minutes, the exhaust fan is controlled to be turned on by the toilet bowl exhaust control assembly 515 (step 408) to remove the peculiar smell.

Continuously acquire the human body of toilet bowl and be close sensing subassembly 508 data, judge whether the people has left the toilet bowl (step 409), if acquire toilet bowl service data through the human body of toilet bowl is close sensing subassembly 508, judge that the people has left the toilet bowl, then the time delay a period say: the exhaust fan is turned off after 1 minute, or 2 minutes, or 5 minutes, or 10 minutes (step 410).

Based on the step 409, acquiring data through the toilet body approach sensing component 508, determining that a person has left the toilet, acquiring washbasin use data through the mirror front human body mirror front sensing component 509, determining whether the person uses the washbasin (step 404), if determining that the person is using the washbasin, controlling the toilet mirror front lamp to be flexibly turned on by the processor 501 through the toilet mirror front lamp control component 513 (step 406), and if determining that the person is not using the washbasin, delaying for example, by 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes, and controlling the toilet main lamp to be flexibly turned off by the processor 501 through the toilet main lamp control component 510 (step 405); with a delay such as 30 seconds, or 1 minute, or 2 minutes, or 5 minutes, or 10 minutes, or 20 minutes, or 30 minutes later, the toilet mirror front light is controlled to be flexibly closed by the toilet mirror front light control assembly 513 (step 405).

Control method of the bathroom Normal Lighting mode 400 the second path:

acquiring the on-off state of the main lamp of the toilet, judging whether the on-off state is on or off (step 411), if the on-off state of the main lamp of the toilet is on, the processor 501 controls the main lamp of the toilet to be flexibly turned on through the main lamp control component 512 of the toilet (step 412), and if the on-off state of the main lamp of the toilet is off, the processor 501 controls the main lamp of the toilet to be flexibly turned off through the main lamp control component 512 of the toilet (step 412), so that personnel can normally turn on and turn off the main lamp of the toilet according to own habits.

Control method of the bathroom Normal Lighting mode 400 third Path:

acquiring the switch state of the bathroom mirror front lamp, judging whether the switch state is on or off (step 413), if the switch state of the bathroom mirror front lamp is on, the processor 501 controls the bathroom mirror front lamp to be flexibly turned on through the bathroom mirror front lamp control component 513 (step 414), and if the switch state of the bathroom mirror front lamp is off, the processor 501 controls the bathroom mirror front lamp to be flexibly turned off through the bathroom mirror front lamp control component 513 (step 414), so that the person can normally turn on and turn off the bathroom mirror front lamp according to own habits.

It should be noted that, in the present invention, the information acquisition of different types of components, such as the indoor main lamp control component 510, the indoor auxiliary lamp control component 511, the bathroom main lamp control component 512, the bathroom mirror front lamp control component 513, refers to the information acquisition of various components by the processor, and the control states of various hardware (the indoor main lamp, the bathroom mirror front lamp, etc.) are the direct control performed by the processor 501 through various components.

It is to be understood that the above description is not intended to limit the invention, and the invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the invention are also within the scope of the invention.

Claims (10)

1. A control method based on a household lamplight intelligent control system is characterized by comprising the following specific steps:

acquiring indoor data information and acquiring bathroom data information through various indoor data acquisition elements and various bathroom data acquisition elements within a specified time, and judging whether people move indoors and in a bathroom; if no personnel move in the house, starting the unmanned mode; if the personnel in the room are judged to move, acquiring indoor sleep information, judging whether the personnel are in a sleep state, and if the personnel are in the sleep state, starting a sleep illumination mode; and if the person is not in the sleeping state, starting the indoor normal lighting mode and simultaneously starting the bathroom normal lighting mode.

2. The control method based on the intelligent home lighting control system according to claim 1, characterized in that: the method for judging whether personnel move comprises the following steps: whether a person enters a door or not is acquired through the door entering human body sensing assembly (502), and if the information that the person enters the door is received, the person in the room is judged; acquiring the data of the person lying in bed through the bed getting and getting sensing assembly (505), receiving the information of sleep, heart rate, respiration rate, body movement, dormancy and snore, judging that a person is in the room, acquiring the control state of the indoor main lamp through the indoor main lamp control assembly (510), and judging that a person is in the room if the indoor main lamp is turned on; then, the control state of the auxiliary lamp is obtained through an indoor auxiliary lamp control component (511), and if the indoor auxiliary lamp state is on, the situation that a person is in the room is judged; then, the control state of the main lamp of the toilet is obtained through the main lamp control component (512) of the toilet, and if the main lamp state of the toilet is on, the condition that a person is in the room is judged; then, a bathroom mirror front lamp control component (513) is used for obtaining a bathroom mirror front lamp control state, and if the mirror front lamp state is on, the condition that a person is in the room is judged; then, the using state of the toilet bowl is obtained through the human body approaching sensing component (508) of the toilet bowl, and if a person uses the toilet bowl, the person in the room is judged; then the using state of the hand basin is obtained through the human body proximity sensing component (509) in front of the mirror, and if a person uses the hand basin, the person in the room is judged; and then the night driving lamp control state is acquired through the night driving lamp control assembly (514), if the night driving lamp state is on, the indoor presence is judged, and if the indoor presence is judged, the exhaust fan control state is acquired through the toilet bowl exhaust control assembly (515), and if the exhaust fan is on, the indoor presence is judged.

3. The control method based on the intelligent household lighting control system according to claim 1 or 2, characterized in that: under the unmanned mode, when personnel enter the door, the human body sensing assembly of entering the door acquires the state that someone enters the door, and then the processor sends an instruction, and the indoor auxiliary lamp is controlled to flexibly open the indoor auxiliary lamp by the indoor auxiliary lamp control assembly.

4. The control method based on the intelligent household lighting control system according to claim 3, characterized in that: the sleep state judging steps are as follows:

step S1: acquiring the bedridden data of a person through the bed getting and getting sensing assembly (505), setting the numerical value of the sleeping time based on the received sleeping, heart rate, respiratory rate, body movement, dormancy and snore information, and entering the step S2 if the numerical value exceeds the set numerical value;

step S2: acquiring brightness data through a brightness sensor assembly (504), and if the indoor brightness value is judged to be lower than the set value, indicating that a sleeper wants the indoor brightness to sleep under the condition that the indoor brightness is lower than the set value, entering the step S3;

step S3: the state of the indoor main lamp obtained by the main lamp control component (510) is based on the judgment that the indoor main lamp is turned off, and the step S4 is entered;

step S4: the state of the indoor auxiliary lamp obtained by the indoor auxiliary lamp control component (511) is judged to be closed, and the step S5 is executed;

step S5: the state of the main lamp of the toilet, which is acquired by the main lamp control component (512) of the toilet, is judged to be turned off, and then the step S6 is carried out;

step S6: the state of the bathroom mirror front lamp is obtained through a bathroom mirror front lamp control component (513), and the bathroom mirror front lamp is judged to be turned off;

if the 6 steps are met, the sleeping person is judged to want to sleep in the state below the light value set value and is already in deep sleep, and the sleep illumination mode is started.

5. The control method based on the intelligent home lighting control system according to claim 1, 2 or 4, characterized in that: when the indoor is in a sleep illumination mode, whether a person enters the room or not can be continuously acquired through the entrance human body sensing assembly (502), based on the acquired entrance data, when the person is judged to enter the room, the night light control assembly flexibly turns on the night light, meanwhile, the bed data is acquired through the bed ascending and descending sensing assembly (505), and the night light control assembly flexibly turns on the night light when the person is judged to have fallen off the bed;

human body of toilet bowl is close sensing element (508) and is acquireed toilet bowl service data, judges whether the people is using the toilet bowl, if nobody can use the toilet bowl this moment then through going to bed sensing element (505) acquire going to bed and go to bed data, judge whether personnel have gone to bed; if the person is judged to be in bed, the night light is flexibly turned off by controlling the night light control assembly (514) after the time is delayed to a set value;

if the toilet bowl is used by a person, the toilet bowl using data are acquired through the toilet bowl human body proximity sensing component (508), and the using time of the toilet bowl is judged; if the time that a person uses the toilet bowl is judged to be shorter than the set value, the data of getting on and off the bed are obtained based on the bed getting-on and bed getting-off sensing assembly (505), if the person gets on the bed, the night lamp is controlled to be turned off flexibly through the night lamp control assembly (514) after the time is delayed to the set value;

if the time that the person is using the toilet bowl is judged to exceed the set value, the toilet main lamp control assembly (512) controls to turn on the toilet main lamp for continuous brightening within the set time, and the toilet exhaust control assembly (515) controls to turn on the exhaust fan for exhausting peculiar smell;

if acquire personnel through toilet bowl human body and leave data near sensing subassembly (508), then through the flexible bathroom main light that closes behind the bathroom main light control subassembly (512) time delay to the setting value, simultaneously, delay to the setting value after close the exhaust fan through toilet bowl air exhaust control subassembly (515) control, simultaneously, acquire upper and lower bed sensing subassembly (505) data again, judge that the people has gone to the bed, reach the flexible night light that closes of control through night light control subassembly (514) after the time delay setting value.

6. The control method based on the intelligent household lighting control system according to claim 5, characterized in that: in the sleep illumination mode, when indoor personnel manually turn on any light in the room or the toilet, the sleep illumination mode is exited.

7. The control method based on the intelligent home lighting control system according to claim 1, 2, 4 or 6, characterized in that: when the room is in the normal lighting mode, three modes are used:

the first mode is as follows: acquiring the on-off state of a main lamp in a room, and judging whether the main lamp in the room is turned on or not; if the switch of the indoor main lamp is judged to be turned on, the indoor main lamp is controlled to be flexibly turned on through the indoor main lamp control assembly (510); if the switch of the indoor main lamp is judged to be closed, the indoor main lamp (302) is controlled to be flexibly closed through the indoor main lamp control assembly (510);

and a second mode: acquiring the on-off state of an indoor auxiliary lamp, judging whether an auxiliary lamp switch is turned on or not, controlling to flexibly turn on the indoor auxiliary lamp through an indoor auxiliary lamp control component (511) based on the judgment that the auxiliary switch is turned on, and controlling to flexibly turn off the indoor auxiliary lamp through the indoor auxiliary lamp control component (511) if the auxiliary lamp switch is turned off;

and a third mode: acquiring the on-off state of a main lamp in a room, and judging whether the main lamp switch is turned on or not; if the switch of the main lamp is judged to be closed, the indoor main lamp is controlled to be flexibly closed through the indoor main lamp control component (510), and meanwhile the indoor auxiliary lamp is controlled to be flexibly closed through the indoor auxiliary lamp control component (511); if the main lamp switch is turned on, the flexible turning-on of the indoor main lamp or the flexible turning-on of the auxiliary lamp is controlled according to the last memory state of the indoor main lamp switch and the auxiliary lamp switch.

8. The control method based on the intelligent household lighting control system according to claim 7, characterized in that: in the third mode, when the main lamp switch is turned off and the indoor main lamp and the indoor auxiliary lamp are both in the on state, the indoor main lamp and the indoor auxiliary lamp are turned on when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the indoor main lamp is turned on and the auxiliary lamp is turned off, the indoor main lamp is turned on and the auxiliary lamp is turned off when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the indoor main lamp is in a turned-off state and the auxiliary lamp is in a turned-on state, the indoor main lamp is turned off and the auxiliary lamp is turned on when the subsequent main lamp switch is turned on;

before the main lamp switch is turned off, when the main lamp and the auxiliary lamp are both in the off state, the main lamp is turned off and the auxiliary lamp is turned off when the main lamp switch is turned on.

9. The control method based on the intelligent home lighting control system according to the claims 1, 2, 4, 6 or 8, characterized in that: when the toilet is in the normal lighting mode, the control mode is as follows:

acquiring data of a toilet door entering sensing assembly (506), judging whether a person enters the toilet or not, if so, controlling a main lamp of the toilet to be flexibly turned on through a main lamp control assembly (512) of the toilet, and then obtain the human body of toilet and approach the sensing assembly (508) data, judge whether personnel are using the toilet, if judge personnel do not use the toilet, acquiring data of a body sensing component (509) in front of the mirror, judging whether a person is using the washbasin, if so, the lamp for controlling the lamp of the bathroom mirror front is controlled by the lamp control component (513) to flexibly open the lamp of the bathroom mirror front, if the person is judged not to use the washbasin, the main lamp of the toilet is controlled to be flexibly closed by the main lamp control component (510) of the toilet after the time delay to the set value, after the time is delayed to a set value, the lamp is controlled by a bathroom mirror front lamp control assembly (513) to flexibly close the bathroom mirror front lamp;

if the person is judged to be using the toilet, acquiring data of a human body proximity sensing component (508) of the toilet, judging the time for using the toilet, if the time for using the toilet by the person is judged to be shorter than a set value, acquiring data of a human body sensing component (509) in front of a mirror, judging whether the person is using a washbasin, if the person is judged to be using the washbasin, controlling a lamp before the mirror front of the toilet to be flexibly opened through a lamp control component (513) before the mirror front of the toilet, if the person is judged not to be using the washbasin, controlling a lamp to be flexibly closed through a main lamp control component (510) after delaying to the set value, controlling the lamp before the mirror front of the toilet to be flexibly closed through a lamp control component (513) before the mirror front of the toilet after delaying to the set value, and controlling an exhaust fan to be opened through an exhaust control component (515) of the toilet after the time for using the toilet by the person is judged to be delayed to the set value, removing peculiar smell;

continuously acquire human proximity sensing subassembly (508) data of toilet bowl, judge whether personnel have left the toilet bowl, if acquire human proximity sensing subassembly (508) data of toilet bowl, judge that personnel have left the toilet bowl, then delay and close the exhaust fan behind the setting value, acquire human mirror front sensing subassembly (509) data before the mirror simultaneously, judge whether the people uses the wash-basin, if judge that personnel are using the wash-basin, then through bathroom mirror front lamp control assembly (513) control flexible opening bathroom mirror front lamp, if judge that the people does not use the wash-basin, then delay and control flexible closing bathroom main lamp through bathroom main lamp control assembly (510) after the setting value, delay and control flexible closing bathroom mirror front lamp through bathroom mirror front lamp control assembly (513) after the setting value simultaneously.

10. The control method based on the intelligent home lighting control system according to the claims 1, 2, 4, 6 or 8, characterized in that: when the toilet is in the normal lighting mode, the control mode is as follows:

acquiring the on-off state of a main toilet lamp, judging whether the on-off state is on or off, if the on-off state of the main toilet lamp is on, controlling the main toilet lamp to be flexibly turned on through a main toilet lamp control component (512), and if the on-off state of the main toilet lamp is off, controlling the main toilet lamp to be flexibly turned off through the main toilet lamp control component (512); 1. 2, 4, 6 or 8 the control method based on intelligent control system of household lighting is characterized in that: when the toilet is in the normal lighting mode, the control mode is as follows:

and acquiring the on-off state of the bathroom mirror front lamp, judging whether the on-off state is on or off, if the acquired on-off state of the bathroom mirror front lamp is on, controlling the bathroom mirror front lamp to be flexibly opened through the bathroom mirror front lamp control assembly (513), and if the acquired on-off state of the bathroom mirror front lamp is off, controlling the bathroom mirror front lamp to be flexibly closed through the bathroom mirror front lamp control assembly (513).

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