CN109714861B - Intelligent household illuminating lamp circuit, illuminating lamp and control method thereof - Google Patents

Abstract

The invention discloses an intelligent household illuminating lamp circuit which comprises an LED lamp (1), wherein the LED lamp (1) is connected with a microprocessor (2), and the microprocessor (2) is connected with a user setting module (3) and an acquisition module (4); the microprocessor (2) acquires the identity characteristic information input by the user setting module (3) and the color and brightness mode of the corresponding LED lamp (1), and the acquisition module (4) identifies the identity characteristic information to control the LED lamp (1) to display the corresponding color and brightness mode; the microprocessor (2) is connected with an LED switch (10), and the LED switch (10) controls the on-off of the LED lamp (1). The invention provides an intelligent household lighting lamp circuit which automatically adjusts proper light and color according to identity characteristic information of each user, so that the eyesight of users in the environment is protected to the maximum extent.

Description

Intelligent household illuminating lamp circuit, illuminating lamp and control method thereof

Technical Field

The invention relates to the field of intelligent home, in particular to an intelligent home lighting lamp circuit, a lighting lamp and a control method thereof.

Background

Along with the continuous development and progress of the society, more and more intelligent homes are provided, the intelligent homes are greatly convenient for people to live, home lighting lamps are almost ubiquitous in the current society, and the brightness and the color of light rays can be adjusted, and the adjustment is performed, most of the existing home lighting lamps need to be adjusted manually by users, or the existing home lighting lamps can be adjusted and switched on and off only according to the light intensity of the surrounding environment and the existence of human infrared rays. In reality, it is impossible for every user to adapt to a fixed set of adjustment criteria, such as the presence of an infant or the like in the surrounding environment, which requires a softer ambient light than an average adult in order to protect his vision, which has not yet developed completely.

Disclosure of Invention

In view of at least one of the defects of the prior art, the present invention provides a smart home lighting circuit, a lighting lamp and a control method thereof, which automatically adjust the appropriate light and color according to the identity characteristic information of each user, so as to protect the eyesight of the user in the environment to the maximum extent.

In order to achieve the purpose, the invention adopts the following technical scheme: the intelligent household lighting lamp circuit comprises an LED lamp and is characterized in that the LED lamp is connected with a microprocessor, and the microprocessor is connected with a user setting module and an acquisition module; the microprocessor acquires the identity characteristic information input by the user setting module and the color and brightness mode of the corresponding LED lamp, and the acquisition module identifies the identity characteristic information to control the LED lamp to display the corresponding color and brightness mode; the microprocessor is connected with an LED switch which controls the on-off of the LED lamp.

Through the structural arrangement, a user can input the identity characteristic information of family into the microprocessor for storage through the user setting module, wherein children, old people or couples exist in the family; the identity characteristic information can be head portrait or fingerprint of children, old people or couples; the user setting module also inputs the color and the brightness mode of the LED lamp corresponding to the identity characteristic information, so that when the acquisition module acquires that children, old people or couples exist indoors, the microprocessor controls the LED lamp to display the corresponding color and brightness mode; thereby protecting the eyesight of the user in the environment to the maximum extent.

The LED switch can be a manual switch, an infrared switch or a photosensitive sensor. When a person exists in the infrared switch, a light-on signal is sent out; the light sensor sends out a light-on signal when the light is weak.

The microprocessor is also connected with an alarm module; when the identity characteristic information acquired by the microprocessor through the acquisition module does not belong to any identity characteristic information input by the user setting module, the microprocessor controls the alarm module to send out a stranger alarm signal;

the microprocessor is further connected with a photosensitive sensor, after the microprocessor acquires a light-on signal of the LED switch, the microprocessor also detects whether the LED lamp emits light or not through the photosensitive sensor, and if not, a maintenance alarm signal is emitted through the alarm module.

When a stranger intrudes indoors and no family accompanies, the microprocessor controls the alarm module to send out a stranger alarm signal when the identity characteristic information acquired by the acquisition module does not belong to any identity characteristic information input by the user setting module; if the guest comes and the family accompanies, the alarm module does not send out the stranger alarm signal;

after the microprocessor acquires the light-on signal of the LED switch, if the photosensitive sensor detects that the LED lamp emits light, the LED lamp is normal, if the photosensitive sensor cannot detect that the LED lamp emits light, the LED lamp is abnormal, and the alarm module emits a maintenance alarm signal.

The alarm module can be a sound alarm and/or an LED lamp alarm and/or a GSM module and the like, and when necessary, a user can send a signal to the GSM module through a mobile phone and the like to relieve the alarm or close the alarm.

The LED lamp is provided with a red LED lamp group, a green LED lamp group and a blue LED lamp group, the microprocessor is provided with a first PWM control end, a second PWM control end and a third PWM control end, the first PWM control end is connected with the red LED lamp group through a first driving circuit, and the second PWM control end is connected with the green LED lamp group through a second driving circuit; the third PWM control end is connected with the blue LED lamp bank through a third driving circuit;

the user setting module comprises a touch screen, and the acquisition module comprises at least one camera; after the microprocessor acquires the input instruction of the touch screen, the microprocessor captures a face photo of a user as identity characteristic information through the camera, and the touch screen is also used for inputting the color and brightness mode of the LED lamp corresponding to the identity characteristic information.

The camera is an infrared night vision camera and is provided with an infrared night vision lamp; the strangers can be snapshot and monitored even if the strangers do not turn on the lamps.

Through foretell structure setting, red LED banks, green LED banks, blue LED banks intermix, can send the light of different colours, microprocessor is provided with first PWM control end, second PWM control end, third PWM control end and sends duty ratio adjustable voltage signal, the luminance of control red LED banks, green LED banks, blue LED banks, when microprocessor does not send the signal, red LED banks, green LED banks, blue LED banks extinguish.

The touch screen can control the camera to take face photos of children, old people and couples as identity characteristic information, and the user setting module and the acquisition module share the camera, so that materials can be saved. Of course, the camera may be used alone. The touch screen is also provided with a color selection template used for selecting corresponding colors, a brightness adjusting button used for adjusting corresponding brightness, a setting key, a storage key and a modification key used for sending setting, storing and modifying instructions; the touch screen is connected with the microprocessor through a serial port.

The microprocessor is also connected with a falling detection module, the falling detection module is used for detecting falling information of infants or old people and sending the falling information to the microprocessor, and the microprocessor sends a falling alarm signal through the alarm module;

the falling detection module comprises a falling detection waistband and an ultraviolet sensor, the falling detection waistband is sleeved between the waists of the children or the old, the falling detection waistband comprises an annular elastic band, and a circle of pressure switch and an ultraviolet lamp are arranged on the outer wall of the elastic band; the elastic belt is also provided with a power supply, the pressure switch controls the power supply of the ultraviolet lamp on the opposite side of the elastic belt, and the ultraviolet lamp is electrified to send an ultraviolet falling alarm signal;

the ultraviolet sensor is connected with the microprocessor and faces the ground; the microprocessor acquires an ultraviolet falling alarm signal of the ultraviolet lamp through the ultraviolet sensor to control the alarm module to send out a falling alarm signal. The power supply is also provided with a power switch.

Through the structural arrangement, children and old people are easy to fall down, and also easy to fall down accidents in case of illness, the falling-down detection belt is sleeved between the waists of the children or the old people, when the children or the old people fall down, the corresponding pressure switch is touched, the pressure switch controls the ultraviolet lamp on the opposite side of the pressure switch to be switched on and off, for example, the ultraviolet lamp falls down backwards, the pressure switch on the back sends a signal to control the ultraviolet lamp on the front to send ultraviolet light, and if the children or the old people fall down forwards, the pressure switch on the front sends a signal to control the ultraviolet lamp on;

ultraviolet ray that the ultraviolet lamp sent is perpendicular with the outer wall of elastic webbing, like this, when child or old man stand, when touching pressure switch, the ultraviolet sensor can not receive the ultraviolet lamp signal, and only when old man or child fall to the ground, the light that the ultraviolet lamp sent upwards, the signal of ultraviolet lamp can be received towards ground to the ultraviolet sensor. The microprocessor acquires an ultraviolet falling alarm signal of the ultraviolet lamp through the ultraviolet sensor to control the alarm module to send out a falling alarm signal.

The pressure switch is provided with a shell, one end of the shell is opened and is provided with a contact in a sliding penetrating mode, the other end of the shell is fixedly connected with the elastic band, the contact is connected with the bottom of the shell through a spring, the bottom of the shell is provided with a touch switch, the touch switch is connected with the bottom of the shell through threads, and the distance between the touch switch and the contact can be adjusted by rotating the touch switch, so that the pressure threshold value of the pressure switch is adjusted.

Through the structural arrangement, the distance between the touch switch and the contact can be adjusted through rotating the touch switch, and when the distance between the touch switch and the contact is shorter, the pressure threshold value of the pressure switch is smaller, and the distance between the touch switch and the contact is farther, and the pressure threshold value of the pressure switch is larger. Can be properly adjusted according to the weight of the old or the child, so as to improve the sensitivity and reduce the interference. The greater the pressure, the greater the spring compression.

The utility model provides an intelligence house light, its key lies in: the intelligent household lighting lamp circuit is arranged. The user setting module and the acquisition module can be integrated with the illuminating lamp or are arranged in a split structure.

A control method of an intelligent household lighting lamp circuit is characterized in that: comprises an acquisition process and a control process;

the collection process comprises the following steps:

step A1: the microprocessor acquires and stores the identity characteristic information input by the user setting module;

step A2: the microprocessor acquires and stores the color and brightness mode of the corresponding LED lamp;

the collecting process is used for inputting and storing the identity characteristic information and the corresponding color and brightness modes of the LED lamp;

the control flow comprises the following steps:

step B1: the microprocessor detects whether a light-on signal of the LED switch exists or not; if yes, controlling the LED lamp to be lightened; go to step B2; otherwise, continuing to wait;

step B2: the microprocessor acquires the identity characteristic information acquired by the acquisition module;

step B3: the microprocessor compares the collected identity characteristic information with the stored identity characteristic information one by one, and if the identity characteristic information is the same as any one of the stored identity characteristic information, the identity authentication is successful; go to step B4; otherwise go to step B6;

step B4: the microprocessor controls the LED lamp to display a color and brightness mode corresponding to the identity characteristic information;

step B5: the microprocessor detects whether the lamp signal is related, and if yes, the step B6 is executed; if not, waiting;

step B6: the microprocessor controls the LED lamp to be turned off; go to step B1.

Through the structural arrangement, if a user presses the light-on signal of the LED switch, the LED lamp is turned on; the LED lamp is lighted in the infant mode, the microprocessor compares the collected identity characteristic information with the stored identity characteristic information one by one, if the identity characteristic information is the same as any one of the stored identity characteristic information, the identity authentication is successful, and the LED lamp is controlled to display a corresponding color and brightness mode. And if the authentication is unsuccessful or the lamp turning-off signal is adopted, the LED lamp is controlled to be turned off.

The control method of the intelligent household lighting lamp circuit is characterized in that: the acquisition flow further includes step a 3: the microprocessor acquires and stores the priority level corresponding to the identity characteristic information;

in control flow step B4: and the microprocessor sorts the identity characteristic information successfully authenticated according to priority levels, and controls the LED lamp to display the color and brightness mode corresponding to the identity characteristic information with the highest priority level.

Through the setting of the step, when a plurality of persons are present, the corresponding priority levels of the identity characteristic information can be set, such as first priority of children, second priority of old people and then couples. And the microprocessor controls the LED lamp to preferentially display the color and the brightness mode corresponding to the child.

The control method of the intelligent household lighting lamp circuit is characterized in that:

the control flow step B1 further includes:

the microprocessor detects whether the LED lamp emits light or not through the photosensitive sensor, and if not, the microprocessor emits a maintenance alarm signal through the alarm module; if yes, no maintenance alarm signal is sent out;

after the microprocessor acquires the light-on signal of the LED switch, if the photosensitive sensor detects that the LED lamp emits light, the LED lamp is normal, if the photosensitive sensor cannot detect that the LED lamp emits light, the LED lamp is abnormal, and the alarm module emits a maintenance alarm signal.

The control method of the intelligent household lighting lamp circuit is characterized in that: the system also comprises a falling alarm process and a monitoring control process;

the fall alarm process comprises the following steps:

step C1: the microprocessor acquires an ultraviolet falling alarm signal of the ultraviolet sensor;

step C2: the microprocessor controls the alarm module to send out a falling alarm signal;

the monitoring control flow comprises the following steps:

step D1: the microprocessor acquires the identity characteristic information acquired by the acquisition module;

step D2: the microprocessor compares the collected identity characteristic information with the stored identity characteristic information one by one, and if none of the identity characteristic information is the same as any of the stored identity characteristic information; controlling an alarm module to send out stranger alarm signals; otherwise, no stranger alarm signal is sent out.

Through the arrangement of the method, when a stranger intrudes indoors and no family accompanies, the identity characteristic information acquired by the microprocessor through the acquisition module does not belong to any identity characteristic information input by the user setting module, and the alarm module is controlled to send out a stranger alarm signal; if the guest comes and the family accompanies, the alarm module does not send out the stranger alarm signal;

when a child or an old person falls down, the processor controls the alarm module to send a falling alarm signal to the adult such as a couple.

The control method of the intelligent household lighting lamp circuit is characterized in that: the acquisition process further comprises the following steps:

step A4: the method comprises the steps that a microprocessor obtains a behavior recognition setting instruction of a touch screen;

step A5: the microprocessor takes a snapshot of the pictures of the indoor furnishing devices through a camera with an infrared CCD function;

step A6: the microprocessor acquires a display device area circled and selected by the touch screen;

step A7: the microprocessor acquires and stores the working color and the working brightness mode of the LED lamp corresponding to the display device area recorded by the touch screen;

in step B4: and the microprocessor also captures a picture of a region of the user close to the display device through a camera with an infrared CCD function, and after the picture is kept for a time T, the picture is identified as a behavior corresponding to the display device, and the color and the brightness mode of the LED lamp are modified into a working color and a working brightness mode corresponding to the region of the display device.

The time T is set by the user.

Through the arrangement of the method, the microprocessor takes a snapshot of the indoor display device photo through the camera with the infrared CCD function; the display device can be a desk, a dining table or a bed, when a user approaches the desk for a time T, the corresponding recognition behavior of the desk is reading, the brightness of the LED lamp should be properly adjusted to be on, when the user approaches the dining table for a time T, the corresponding recognition behavior of the dining table is eating, the brightness of the LED lamp should be properly adjusted to be on, and when the user approaches the bed for a time T, the corresponding recognition behavior of the bed is sleeping, and the brightness of the LED lamp should be properly adjusted to be dark.

After the microprocessor acquires a behavior recognition setting instruction of the touch screen; the microprocessor takes a snapshot of the pictures of the indoor furnishing devices through a camera with an infrared CCD function; a user selects a display device area on the touch screen by a finger; the area can be a desk area, a dining table area or a bed area; a user inputs and stores the color and brightness mode of the LED lamp corresponding to the display device area through the touch screen;

and when the user approaches the display device area for a time T, recognizing the behavior corresponding to the display device, and modifying the color and brightness mode of the LED lamp into the color and brightness mode corresponding to the display device area.

The camera with the infrared CCD function can be an independent camera or the same camera for capturing human face images.

The intelligent household lighting lamp circuit has the remarkable effects that the proper light and color are automatically adjusted according to the identity characteristic information of each user, so that the eyesight of users in the environment is protected to the maximum extent, particularly infants, old people and people with eye discomfort. In addition, the service environment can be monitored in real time, and once abnormity occurs, the abnormal condition can be timely fed back to a user, so that the safety of the service environment is further guaranteed, and the service environment has great practical value.

Drawings

FIG. 1 is a circuit block diagram of the present invention;

fig. 2 is a block diagram of a fall detection belt;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a block diagram of a pressure switch;

FIG. 5 is a circuit diagram of one of the microprocessors;

fig. 6 is a circuit diagram of the first driving circuit, the second driving circuit, and the third driving circuit.

FIG. 7 is a flow chart of the acquisition of the present invention;

fig. 8 is a control flow chart of the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples.

As shown in fig. 1-8, an intelligent home lighting lamp circuit includes an LED lamp 1, the LED lamp 1 is connected to a microprocessor 2, and the microprocessor 2 is connected to a user setting module 3 and an acquisition module 4; the microprocessor 2 acquires the identity characteristic information input by the user setting module 3 and the corresponding color and brightness mode of the LED lamp 1, and the acquisition module 4 identifies the identity characteristic information to control the LED lamp 1 to display the corresponding color and brightness mode; the microprocessor 2 is connected with an LED switch 10, and the LED switch 10 controls the on-off of the LED lamp 1.

Through the structural arrangement, a user can input the identity characteristic information of family into the microprocessor 2 through the user setting module 3 for storage, wherein children, old people or couples exist in the family; the identity characteristic information can be head portrait or fingerprint of children, old people or couples; the user setting module 3 also inputs the color and brightness mode of the LED lamp 1 corresponding to the identity characteristic information, so that when the acquisition module 4 acquires that children, old people or couples exist indoors, the microprocessor 2 controls the LED lamp 1 to display the corresponding color and brightness mode; thereby protecting the eyesight of the user in the environment to the maximum extent.

The LED switch 10 may be a manual switch, an infrared switch, or a photosensitive sensor. When a person exists in the infrared switch, a light-on signal is sent out; the light sensor sends out a light-on signal when the light is weak.

The microprocessor 2 is also connected with an alarm module 5; when the identity characteristic information acquired by the microprocessor 2 through the acquisition module 4 does not belong to any identity characteristic information input by the user setting module 3, the alarm module 5 is controlled to send out an alarm signal of a stranger;

the microprocessor 2 is further connected with a photosensitive sensor 6, after the microprocessor 2 acquires a light-on signal of the LED switch 10, the microprocessor also detects whether the LED lamp 1 emits light through the photosensitive sensor 6, and if not, a maintenance alarm signal is emitted through the alarm module 5.

When a stranger intrudes indoors and no family accompanies, the microprocessor 2 controls the alarm module 5 to send out a stranger alarm signal when the identity characteristic information acquired by the acquisition module 4 does not belong to any identity characteristic information input by the user setting module 3; if a guest accompanies with a family, the alarm module 5 does not send out a stranger alarm signal;

after the microprocessor 2 acquires the light-on signal of the LED switch 10, if the photosensitive sensor 6 detects that the LED lamp 1 emits light, the LED lamp 1 is normal, if the photosensitive sensor 6 cannot detect that the LED lamp 1 emits light, the LED lamp 1 is abnormal, and the alarm module 5 emits a maintenance alarm signal.

The alarm module 5 can be a sound alarm and/or an LED lamp alarm and/or a GSM module and the like, and when necessary, a user can send a signal to the GSM module through a mobile phone and the like to relieve the alarm or close the alarm.

The LED lamp 1 is provided with a red LED lamp group 11, a green LED lamp group 12 and a blue LED lamp group 13, the microprocessor 2 is provided with a first PWM control end, a second PWM control end and a third PWM control end, the first PWM control end is connected with the red LED lamp group 11 through a first driving circuit 111, and the second PWM control end is connected with the green LED lamp group 12 through a second driving circuit 121; the third PWM control terminal is connected to the blue LED lamp group 13 through the third driving circuit 131;

the user setting module 3 comprises a touch screen, and the acquisition module 4 comprises at least one camera; after the microprocessor 2 acquires the input instruction of the touch screen, the microprocessor 2 captures a face photo of the user as the identity characteristic information through the camera, and the touch screen is also used for inputting the color and brightness mode of the LED lamp 1 corresponding to the identity characteristic information.

The camera is an infrared night vision camera and is provided with an infrared night vision lamp; the strangers can be snapshot and monitored even if the strangers do not turn on the lamps.

Through the above structure setting, red LED banks 11, green LED banks 12, blue LED banks 13 intermix, can send the light of different colours, microprocessor 2 is provided with first PWM control end PWM1, second PWM control end PWM2, third PWM control end PWM3 sends duty ratio adjustable voltage signal, control red LED banks 11, green LED banks 12, the luminance of blue LED banks 13, when microprocessor 2 does not send the signal, red LED banks 11, green LED banks 12, blue LED banks 13 extinguish.

The touch screen can control the camera to take face photos of children, old people and couples as identity characteristic information, and the user setting module 3 and the acquisition module 4 share the camera, so that materials can be saved. Of course, the camera may be used alone. The touch screen is also provided with a color selection template used for selecting corresponding colors, a brightness adjusting button used for adjusting corresponding brightness, a setting key, a storage key and a modification key used for sending setting, storing and modifying instructions; the touch screen is connected with the microprocessor 2 through a serial port.

The microprocessor 2 is also connected with a falling detection module 7, the falling detection module 7 is used for detecting falling information of infants or old people and sending the falling information to the microprocessor 2, and the microprocessor 2 sends a falling alarm signal through the alarm module 5;

the falling detection module 7 comprises a falling detection waistband 71 and an ultraviolet sensor 72, the falling detection waistband 71 is sleeved between the waists of a child or an old person, the falling detection waistband 71 comprises an annular elastic belt 711, and a circle of pressure switch 712 and an ultraviolet lamp 713 are arranged on the outer wall of the elastic belt 711; the elastic belt 711 is also provided with a power supply 714, the pressure switch 712 controls the ultraviolet lamp 713 at the opposite side to switch on and off the power supply 714, and the ultraviolet lamp 713 is electrified to send an ultraviolet falling alarm signal;

the ultraviolet sensor 72 is connected with the microprocessor 2 and faces the ground; the microprocessor 2 acquires the ultraviolet falling alarm signal of the ultraviolet lamp 713 through the ultraviolet sensor 72 to control the alarm module 5 to send out a falling alarm signal. The power supply 714 is also provided with a power switch 7141. When lying down for sleep, the power source 714 may be turned off.

Through the structural arrangement, children and old people are easy to fall down, and also easy to fall down accidents in case of illness, the falling detection belt 71 is sleeved on the waist of the children or the old people, when the children or the old people fall down, the corresponding pressure switch 712 is touched, the pressure switch 712 controls the ultraviolet lamp 713 at the opposite side to be switched on and off the power supply 714, for example, the children or the old people fall down backwards, the pressure switch 712 at the back sends a signal to control the ultraviolet lamp 713 at the front to send ultraviolet light, and if the children or the old people fall down forwards, the pressure switch 712 at the front sends a signal to control the ultraviolet lamp 713 at the;

the ultraviolet light emitted by the ultraviolet lamp 713 is perpendicular to the outer wall of the elastic belt 711, so that when a child or an old person stands and touches the pressure switch 712, the ultraviolet sensor 72 cannot receive the signal of the ultraviolet lamp 713, and only when the old person or the child falls down, the light emitted by the ultraviolet lamp 713 is upward, and the ultraviolet sensor 72 can receive the signal of the ultraviolet lamp 713 towards the ground. The microprocessor 2 acquires the ultraviolet falling alarm signal of the ultraviolet lamp 713 through the ultraviolet sensor 72 to control the alarm module 5 to send out a falling alarm signal.

The pressure switch 712 is provided with a shell 7121, one end of the shell 7121 is opened and slidably penetrates through a contact 7122, the other end of the shell 7121 is fixedly connected with an elastic belt 711, the contact 7122 is connected with the bottom of the shell 7121 through a spring 7123, the bottom of the shell 7121 is provided with a touch switch 7124, the touch switch 7124 is connected with the bottom of the shell 7121 through threads, and the distance between the touch switch 7124 and the contact 7122 can be adjusted by rotating the touch switch 7124, so that the pressure threshold of the pressure switch 712 can be adjusted.

The touch switch 7124 is provided with a jack to which its corresponding uv lamp 713 may be connected via a pin.

With the above arrangement, the distance between the touch switch 7124 and the contact 7122 can be adjusted by rotating the touch switch 7124, and when the distance between the touch switch 7124 and the contact 7122 is shorter, the pressure threshold of the pressure switch 712 is smaller, and the distance between the touch switch 7124 and the contact 7122 is longer, and the pressure threshold of the pressure switch 712 is larger. Can be properly adjusted according to the weight of the old or the child, so as to improve the sensitivity and reduce the interference.

The utility model provides an intelligence house light, its key lies in: the intelligent household lighting lamp circuit is arranged. The user setting module 3 and the collecting module 4 can be integrated with the illuminating lamp or are arranged in a split structure.

A control method of an intelligent household lighting lamp circuit is characterized in that: comprises an acquisition process and a control process;

the collection process comprises the following steps:

step A1: the microprocessor 2 acquires and stores the identity characteristic information input by the user setting module 3;

step A2: the microprocessor 2 acquires and stores the color and brightness mode of the corresponding LED lamp 1;

the collecting process is used for inputting and storing the identity characteristic information and the corresponding color and brightness modes of the LED lamp 1;

the control flow comprises the following steps:

step B1: the microprocessor 2 detects whether a light-on signal of the LED switch 10 exists; if yes, controlling the LED lamp 1 to be lightened; go to step B2; otherwise, continuing to wait;

step B2: the microprocessor 2 acquires the identity characteristic information acquired by the acquisition module 4;

step B3: the microprocessor 2 compares the collected identity characteristic information with the stored identity characteristic information one by one, and if the identity characteristic information is the same as any one of the stored identity characteristic information, the identity authentication is successful; go to step B4; otherwise go to step B6;

step B4: the microprocessor 2 controls the LED lamp 1 to display a color and brightness mode corresponding to the identity characteristic information;

step B5: the microprocessor 2 detects whether the lamp signal is related, and if so, the step B6 is carried out; if not, waiting;

step B6: the microprocessor 2 controls the LED lamp 1 to be turned off; go to step B1.

Through the structural arrangement, if a user presses the light-on signal of the LED switch 10, the LED lamp 1 is turned on; the LED lamp 1 is lighted in the infant mode, the microprocessor 2 compares the collected identity characteristic information with the stored identity characteristic information one by one, if the identity characteristic information is the same as any one of the stored identity characteristic information, the identity authentication is successful, and the LED lamp 1 is controlled to display the corresponding color and brightness mode. If the authentication is unsuccessful or the lamp-off signal, the LED lamp 1 is controlled to be turned off.

The control method of the intelligent household lighting lamp circuit is characterized in that: the acquisition flow further includes step a 3: the microprocessor 2 acquires and stores the priority level corresponding to the identity characteristic information;

in control flow step B4: the microprocessor 2 sorts the identity characteristic information successfully authenticated according to priority levels, and the microprocessor 2 controls the LED lamp 1 to display the color and brightness mode corresponding to the identity characteristic information with the highest priority level.

Through the setting of the step, when a plurality of persons are present, the corresponding priority levels of the identity characteristic information can be set, such as first priority of children, second priority of old people and then couples. The microprocessor 2 controls the LED lamp 1 to preferentially display the color and the brightness mode corresponding to the child.

The control method of the intelligent household lighting lamp circuit is characterized in that:

the control flow step B1 further includes:

the microprocessor 2 detects whether the LED lamp 1 emits light or not through the photosensitive sensor 7, and if not, the alarm module 5 emits a maintenance alarm signal; if yes, no maintenance alarm signal is sent out;

after the microprocessor 2 acquires the light-on signal of the LED switch 10, if the photosensitive sensor 6 detects that the LED lamp 1 emits light, the LED lamp 1 is normal, if the photosensitive sensor 6 cannot detect that the LED lamp 1 emits light, the LED lamp 1 is abnormal, and the alarm module 5 emits a maintenance alarm signal.

The control method of the intelligent household lighting lamp circuit is characterized in that: the system also comprises a falling alarm process and a monitoring control process;

the fall alarm process comprises the following steps:

step C1: the microprocessor 2 acquires an ultraviolet falling alarm signal of the ultraviolet sensor 72;

step C2: the microprocessor 2 controls the alarm module 5 to send out a falling alarm signal;

the monitoring control flow comprises the following steps:

step D1: the microprocessor 2 acquires the identity characteristic information acquired by the acquisition module 4;

step D2: the microprocessor 2 compares the collected identity characteristic information with the stored identity characteristic information one by one, and if none of the identity characteristic information is the same as any one of the stored identity characteristic information; controlling the alarm module 5 to send out stranger alarm signals; otherwise, no stranger alarm signal is sent out.

Through the arrangement of the method, when a stranger intrudes indoors and no family accompanies, the identity characteristic information acquired by the microprocessor 2 through the acquisition module 4 does not belong to any identity characteristic information input by the user setting module 3, and the alarm module 5 is controlled to send out a stranger alarm signal; if a guest accompanies with a family, the alarm module 5 does not send out a stranger alarm signal;

when a child or an old person falls down, the processor 2 controls the alarm module 5 to send a fall alarm signal to an adult such as a couple.

The control method of the intelligent household lighting lamp circuit is characterized in that: the acquisition process further comprises the following steps:

step A4: the microprocessor 2 acquires a behavior recognition setting instruction of the touch screen;

step A5: the microprocessor 2 takes a picture of the indoor furnishing device through a camera with an infrared CCD function;

the camera with the infrared CCD function can detect specific infrared rays emitted by a human body and image;

step A6: the microprocessor 2 acquires a display device area circled and selected by the touch screen;

a user may select a display area, such as a table area, by circling the touch screen with a hand;

step A7: the microprocessor 2 acquires and stores the working color and the working brightness mode of the LED lamp 1 corresponding to the display device area recorded by the touch screen;

in step B4: the microprocessor 2 also recognizes the behavior corresponding to the display device after the user approaches the display device area through the camera with the infrared CCD function and keeps the time T, and modifies the color and the brightness mode of the LED lamp 1 into the working color and the working brightness mode corresponding to the display device area.

Through the arrangement of the method, the microprocessor 2 takes a picture of the indoor display device through the camera with the infrared CCD function; the display device can be a desk, a dining table or a bed, when the user approaches the desk for a time T, the corresponding recognition behavior of the desk is reading, the brightness of the LED lamp 1 should be properly adjusted to be on, when the user approaches the dining table for a time T, the corresponding recognition behavior of the dining table is eating, the brightness of the LED lamp 1 should be properly adjusted to be on, and when the user approaches the bed for a time T, the corresponding recognition behavior of the bed is sleeping, and the brightness of the LED lamp 1 should be properly adjusted to be dark.

After the microprocessor 2 acquires a behavior recognition setting instruction of the touch screen; the microprocessor 2 takes a picture of the indoor furnishing device through a camera with an infrared CCD function; a user selects a display device area on the touch screen by a finger; the area can be a desk area, a dining table area or a bed area; a user inputs and stores the color and brightness mode of the LED lamp 1 corresponding to the display device area through the touch screen;

when the user approaches the display device area for a time T, the behavior corresponding to the display device is recognized, and the color and brightness pattern of the LED lamp 1 is modified to the color and brightness pattern corresponding to the display device area.

The camera with the infrared CCD function can be an independent camera or the same camera for capturing human face images.

Finally, it is noted that: the above-mentioned embodiments are only examples of the present invention, and it is a matter of course that those skilled in the art can make modifications and variations to the present invention, and it is considered that the present invention is protected by the modifications and variations if they are within the scope of the claims of the present invention and their equivalents.

Claims (7)

1. An intelligent household lighting lamp circuit comprises an LED lamp (1), and is characterized in that the LED lamp (1) is connected with a microprocessor (2), and the microprocessor (2) is connected with a user setting module (3) and an acquisition module (4); the microprocessor (2) acquires the identity characteristic information input by the user setting module (3) and the color and brightness mode of the corresponding LED lamp (1), and the acquisition module (4) identifies the identity characteristic information to control the LED lamp (1) to display the corresponding color and brightness mode; the microprocessor (2) is connected with an LED switch (10), and the LED switch (10) controls the switch of the LED lamp (1);

the microprocessor (2) is also connected with an alarm module (5); when the identity characteristic information acquired by the microprocessor (2) through the acquisition module (4) does not belong to any identity characteristic information input by the user setting module (3), the microprocessor controls the alarm module (5) to send out a stranger alarm signal;

when a stranger intrudes indoors and no family accompanies, the microprocessor (2) controls the alarm module (5) to send out a stranger alarm signal when the identity characteristic information acquired by the acquisition module (4) does not belong to any identity characteristic information input by the user setting module (3); if a guest accompanies with a family, the alarm module (5) does not send out a stranger alarm signal;

the microprocessor (2) is also connected with a photosensitive sensor (6), after the microprocessor (2) acquires a light-on signal of the LED switch (10), the photosensitive sensor (6) is used for detecting whether the LED lamp (1) emits light, and if not, the alarm module (5) is used for emitting a maintenance alarm signal;

the LED lamp (1) is provided with a red LED lamp set (11), a green LED lamp set (12) and a blue LED lamp set (13), the microprocessor (2) is provided with a first PWM control end, a second PWM control end and a third PWM control end, the first PWM control end is connected with the red LED lamp set (11) through a first driving circuit (111), and the second PWM control end is connected with the green LED lamp set (12) through a second driving circuit (121); the third PWM control end is connected with the blue LED lamp group (13) through a third driving circuit (131);

the user setting module (3) comprises a touch screen, and the acquisition module (4) comprises at least one camera; after the microprocessor (2) acquires an input instruction of the touch screen, the microprocessor (2) takes a face photo of a user as identity characteristic information through a camera, and the touch screen is also used for inputting a color and brightness mode of the LED lamp (1) corresponding to the identity characteristic information;

the microprocessor (2) is also connected with a falling detection module (7), the falling detection module (7) is used for detecting falling information of infants or old people and sending the falling information to the microprocessor (2), and the microprocessor (2) sends a falling alarm signal through the alarm module (5);

the falling detection module (7) comprises a falling detection waistband (71) and an ultraviolet sensor (72), the falling detection waistband (71) is sleeved between the waists of a child or an old person, the falling detection waistband (71) comprises an annular elastic belt (711), and a circle of pressure switch (712) and an ultraviolet lamp (713) are arranged on the outer wall of the elastic belt (711); the elastic belt (711) is also provided with a power supply (714), the pressure switch (712) controls the ultraviolet lamp (713) on the opposite side to switch on and off the power supply (714), and the ultraviolet lamp (713) is electrified to send an ultraviolet falling alarm signal;

the ultraviolet sensor (72) is connected with the microprocessor (2) and faces the ground; the microprocessor (2) acquires an ultraviolet falling alarm signal of the ultraviolet lamp (713) through the ultraviolet sensor (72) to control the alarm module (5) to send out a falling alarm signal, and the power supply (714) is also provided with a power switch (7141);

the ultraviolet light emitted by the ultraviolet lamp (713) is perpendicular to the outer wall of the elastic belt (711), so that when a child or an old man stands and touches the pressure switch (712), the ultraviolet sensor (72) cannot receive the signal of the ultraviolet lamp (713), only when the old man or the child falls down, the light emitted by the ultraviolet lamp (713) faces upwards, and the ultraviolet sensor (72) can receive the signal of the ultraviolet lamp (713) towards the ground.

2. The smart home lighting lamp circuit according to claim 1, characterized in that: pressure switch (712) is provided with casing (7121), the one end opening of casing (7121) is worn to be equipped with contact (7122) in the slip, the other end and elastic webbing (711) of casing (7121) link firmly, contact (7122) link to each other through spring (7123) and the bottom of casing (7121), the bottom of casing (7121) is provided with touch switch (7124), touch switch (7124) passes through the bottom of threaded connection casing (7121), rotatory touch switch (7124) can adjust the distance of touch switch (7124) and contact (7122), thereby adjust pressure switch (712)'s pressure threshold value.

3. The utility model provides an intelligence house light which characterized in that: the smart home lighting lamp circuit of claim 1.

4. The control method of the intelligent household lighting lamp circuit according to claim 1, characterized in that: comprises an acquisition process and a control process;

the collection process comprises the following steps:

step A1: the microprocessor (2) acquires and stores the identity characteristic information input by the user setting module (3);

step A2: the microprocessor (2) acquires and stores the color and brightness mode of the corresponding LED lamp (1);

the control flow comprises the following steps:

step B1: the microprocessor (2) detects whether a light-on signal of the LED switch (10) exists or not; if yes, controlling the LED lamp (1) to be lightened; go to step B2; otherwise, continuing to wait;

step B2: the microprocessor (2) acquires the identity characteristic information acquired by the acquisition module (4);

step B3: the microprocessor (2) compares the collected identity characteristic information with the stored identity characteristic information one by one, and if the identity characteristic information is the same as any one of the stored identity characteristic information, the identity authentication is successful; go to step B4; otherwise go to step B6;

step B4: the microprocessor (2) controls the LED lamp (1) to display a color and brightness mode corresponding to the identity characteristic information;

step B5: the microprocessor (2) detects whether a lamp signal is related, and if yes, the step B6 is carried out; if not, waiting;

step B6: the microprocessor (2) controls the LED lamp (1) to be turned off; go to step B1.

5. The control method of the intelligent household lighting lamp circuit according to claim 4, characterized in that: the acquisition flow further includes step a 3: the microprocessor (2) acquires and stores the priority level corresponding to the identity characteristic information;

in control flow step B4: the microprocessor (2) sorts the identity characteristic information successfully authenticated according to priority levels, and the microprocessor (2) controls the LED lamp (1) to display the color and brightness mode corresponding to the identity characteristic information with the highest priority level.

6. The control method of the intelligent household lighting lamp circuit according to claim 4, characterized in that:

the control flow step B1 further includes:

the microprocessor (2) detects whether the LED lamp (1) emits light or not through the photosensitive sensor (7), and if not, the microprocessor sends out a maintenance alarm signal through the alarm module (5); if yes, no maintenance alarm signal is sent out;

the system also comprises a falling alarm process and a monitoring control process;

the fall alarm process comprises the following steps:

step C1: the microprocessor (2) acquires an ultraviolet falling alarm signal of the ultraviolet sensor (72);

step C2: the microprocessor (2) controls the alarm module (5) to send out a falling alarm signal;

the monitoring control flow comprises the following steps:

step D1: the microprocessor (2) acquires the identity characteristic information acquired by the acquisition module (4);

step D2: the microprocessor (2) compares the collected identity characteristic information with the stored identity characteristic information one by one, and if none of the identity characteristic information is the same as any one of the stored identity characteristic information; the control alarm module (5) sends out stranger alarm signals; otherwise, no stranger alarm signal is sent out.

7. The control method of the intelligent household lighting lamp circuit according to claim 4, characterized in that: the acquisition process further comprises the following steps:

step A4: the microprocessor (2) acquires a behavior recognition setting instruction of the touch screen;

step A5: the microprocessor (2) takes a snapshot of the indoor display device photo through a camera with an infrared CCD function;

step A6: the microprocessor (2) acquires a display device area selected by the touch screen;

step A7: the microprocessor (2) acquires and stores the working color and the working brightness mode of the LED lamp (1) corresponding to the display device area input by the touch screen;

in step B4: the microprocessor (2) also captures a picture of a user approaching the display device area through a camera with an infrared CCD function and keeps the picture for a time T, then recognizes the picture as a behavior corresponding to the display device, and modifies the color and brightness mode of the LED lamp (1) into a working color and working brightness mode corresponding to the display device area.

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