CN112333901A - Lamps and lanterns that can follow automatically and provide fixed point illumination based on thing networking characteristic - Google Patents

Abstract

The invention discloses a lamp capable of automatically following and providing fixed-point illumination based on the characteristics of the Internet of things, which comprises a network terminal, a central processing module, a starting module, a human body identification module, a monitoring module, a following module, a delay module, an illumination module, a variable resistance module, a control plug-in and an auxiliary illumination module, wherein the network terminal is connected with the central processing module; the network terminal is used for leading-in, updating and transmitting the circuit control program and can update and upload different programs according to different time and places; a central processing module. This can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic, through human image recognition module and sound monitoring module cooperation, a plurality of sound monitoring module of human image recognition module control, whether so human image recognition module only needs near the scanning someone, need not the location, when scanning someone, human image recognition module is with signalling monitoring module, fix a position through sound monitoring module, so realized accurate positioning and prevent the function that the mistake was touched on low-cost basis.

Description

Lamps and lanterns that can follow automatically and provide fixed point illumination based on thing networking characteristic

Technical Field

The invention relates to the technical field of lamp illumination, in particular to a lamp capable of automatically providing fixed-point illumination based on the characteristics of the Internet of things.

Background

The following illuminating lamp and the sound control lamp are energy-saving lamps which are widely used at present, can be lighted when someone exists, and can be turned off after the person leaves, so that the following illuminating lamp and the sound control lamp can be installed in a small apartment or a large apartment dormitory by means of the characteristics of convenience in use, energy conservation and environmental protection, and the following illuminating lamp and the sound control lamp cannot be completely adapted to the existing following illuminating lamp and the sound control lamp due to the fact that the area of the following illuminating lamp and the sound control lamp is complex in the large environment when the following illuminating lamp and the sound control lamp are used in the dormitory area.

The method comprises the following specific steps:

1. if the induction system of equipment adopts human image induction equipment, in order to reduce the interference of angle and light, accomplish the location accuracy, need use human image induction system in batches to carry out diversified scanning, but its high unit price can increase overall cost, if adopt human sound induction system, then frequently triggered by wild animal or pet easily.

2. When the night shift of a factory is finished, a large number of staff intermittently and frequently enter a dormitory area, so that lighting equipment is continuously turned off and turned on, and the service life of the lighting equipment is seriously influenced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the lamp capable of automatically providing fixed-point illumination based on the characteristics of the internet of things, and the lamp has the function of automatically providing fixed-point illumination.

The invention adopts the following technical scheme for realizing the technical purpose: a lamp capable of automatically following and providing fixed-point illumination based on characteristics of the Internet of things comprises a network terminal, a central processing module, a starting module, a human body identification module, a monitoring module, a following module, a delay module, an illumination module, a variable resistance module, a control plug-in and an auxiliary illumination module;

the network terminal is used for leading-in, updating and transmitting the circuit control program and can update and upload different programs according to different time and places;

the central processing module is used for receiving the control program of the storage circuit and sending instructions to the starting module, the human body recognition module, the monitoring module, the following module, the delay module, the lighting module, the rheostatic module, the control plug-in and the auxiliary lighting module at set time and under set scenes;

the starting module is used for supplying power to the starting module, the monitoring module, the following module, the delay module, the lighting module, the variable resistance module, the control plug-in and the auxiliary lighting module;

the human body identification module is used for monitoring and scanning a human body and judging whether the monitoring module is started or not;

the monitoring module is used for monitoring and identifying the footstep sound and positioning the footstep sound according to the direction and the size of the footstep sound;

the following module is used for tracking the footstep sound, updating the position of the pedestrian in real time, realizing signal tracking and performing overall judgment on the footstep sound signals;

the time delay module is used for delaying the first starting time of the illumination module and giving buffering time to human eyes adapting to a dark environment;

the lighting module is used for providing a light source for normal walking of people;

the resistance-changing module is used for controlling the brightness of the lighting module to gradually become low after the signal of the following module disappears until the lighting module is turned off;

the monitoring module monitors the step signals for multiple times at the same position, the following module transmits the signals to the control plug-in, and the control plug-in imports a temporary program;

and the auxiliary lighting module is used for providing a basic light source and giving the eye adaptation time.

The method comprises the following steps:

s1, setting programs according to holidays, solar terms and regions, inputting the corresponding programs into each central module through a network terminal, and performing function control on each module through the central module;

s2, after the program setting time, the auxiliary lighting module is started to enter a normally-on state, and the human body recognition module scans (the human body recognition module is always started);

s3, the human body recognition module scans to recognize whether a human body signal exists in the effective range, if so, the human body signal is added into S4, and if not, the scanning is continued;

s4, after the human body signal is scanned, the signal is transmitted to the monitoring module, the monitoring module is started, and automatic monitoring and identification of the step signal are started (the monitoring module monitors every 10S);

s5, monitoring whether a step signal exists by the monitoring device, if so, entering S6, and if not, continuing monitoring;

s6, the following module monitors the start of the step signal, carries out positioning through the step signal and carries out overall judgment according to the step signal;

s7, judging whether the step signal in S5 is the first step signal, if so, sending an illumination signal to S9, and if not, sending the illumination signal to S8;

s8, the lighting signal enters S9 after being delayed by 5-15S by the extension module;

s9, transmitting the illumination signal to an illumination module, and turning on illumination by the illumination module;

s10, the monitoring module monitors whether a step signal exists again, if not, the step enters S11; if so, go to S12;

s11, when the step signal disappears, the resistance-changing module is started, the resistance of the lighting module is increased by the resistance-changing module, the brightness of the lighting module is gradually reduced, and the lighting module is turned off after one minute;

s12, the control plug-in judges the number of times of receiving the step signal, if the number of times is less than or equal to 3, the step enters S9, and if the number of times exceeds 3, the step enters S13;

and S13, the control plug-in introduces a temporary program into the lighting module to enable the lighting module to be on for 10min, and the process enters S10 after 10 min.

Preferably, the updating and importing, by the network terminal, the program change in the central processing module includes:

the time and the place are different: adjusting the turn-on time of the auxiliary lighting module and the lighting module according to different day and night time lengths caused by the change of the region and the solar term;

II, saving holidays: the auxiliary lighting module is normally closed and can be opened through a switch;

working day: the auxiliary lighting module is normally opened within a set time and can be opened through a switch.

Preferably, the monitoring module needs to be initially set before being installed and used, namely, various footstep sounds and footstep similar sounds are input to carry out system judgment; secondly, adjusting and controlling sensitivity according to the installation height and the installation terrain.

Preferably, the delay time of the delay module may be set according to an installation place:

the children living area: delaying for 10S;

② a green and strong life zone: delaying for 5S;

③ the old people living area: delay 15S.

Preferably, the human body recognition module exists in a form of monitoring camera shooting, and one human body recognition module corresponds to a plurality of monitoring modules.

Preferably, the first step sound in S6 is the first step sound counted 1min after the last step sound is sounded.

The invention has the following beneficial effects:

1. this can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic, through human image recognition module and sound monitoring module cooperation, a plurality of sound monitoring module of human image recognition module control, whether so human image recognition module only needs near the scanning someone, need not the location, when scanning someone, human image recognition module is with signalling monitoring module, fix a position through sound monitoring module, so realized accurate positioning and prevent the function that the mistake was touched on low-cost basis.

2. The lamp capable of automatically providing fixed-point illumination based on the characteristics of the Internet of things is characterized in that the auxiliary illumination module is arranged on the basis of the illumination module, the illumination module plays a normal illumination role, the auxiliary illumination module plays a basic illumination role, the time for adapting to eyes can be provided for people during dark-light conversion, and the visual field can be increased to a certain extent;

because the auxiliary lighting module has low brightness, even if the auxiliary lighting module is normally on, the auxiliary lighting module consumes less electric energy.

3. This can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic, through time delay module time delay illumination signal when first sound step sound, and can be according to the installation site control delay time of difference, so can set for people's eye buffer time according to children, blue and green, old three stage crowd's health adaptability and activity speed, prevent that light from brightening suddenly, amazing people's eye causes the injury to the human body, also prevents that the glaring in the twinkling of an eye from making the people fall down.

4. This can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic, through the interim procedure in the control plug-in, when detecting that can someone continuous activity, lighting device shines ten minutes for the pedestrian provides convenience, has also protected lighting device simultaneously, has prolonged life.

Drawings

Fig. 1 is a flowchart of a luminaire fixed-point lighting method.

Fig. 2 is a block diagram of a fixed point lighting fixture.

Fig. 3 is a view of a monitoring module setup.

Fig. 4 is a block diagram of the central processing module importing program type.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 2, a lamp capable of automatically providing fixed-point lighting based on the characteristics of the internet of things comprises a network terminal, a central processing module, a starting module, a human body identification module, a monitoring module, a following module, a delay module, a lighting module, a variable resistance module, a control plug-in and an auxiliary lighting module;

the network terminal is used for leading-in, updating and transmitting the circuit control program and can update and upload different programs according to different time and places;

the central processing module is used for receiving the control program of the storage circuit and sending instructions to the starting module, the human body recognition module, the monitoring module, the following module, the delay module, the lighting module, the rheostatic module, the control plug-in and the auxiliary lighting module at set time and under set scenes;

the starting module is used for supplying power to the starting module, the monitoring module, the following module, the delay module, the lighting module, the variable resistance module, the control plug-in and the auxiliary lighting module;

the human body identification module is used for monitoring and scanning a human body and judging whether the monitoring module is started or not;

the monitoring module is used for monitoring and identifying the footstep sound and positioning the footstep sound according to the direction and the size of the footstep sound;

the following module is used for tracking the footstep sound, updating the position of the pedestrian in real time, realizing signal tracking and performing overall judgment on the footstep sound signals;

the time delay module is used for delaying the first starting time of the illumination module and giving buffering time to human eyes adapting to a dark environment;

the lighting module is used for providing a light source for normal walking of people;

the resistance-changing module is used for controlling the brightness of the lighting module to gradually become low after the signal of the following module disappears until the lighting module is turned off;

the monitoring module monitors the step signals for multiple times at the same position, the following module transmits the signals to the control plug-in, and the control plug-in imports a temporary program;

and the auxiliary lighting module is used for providing a basic light source and giving the eye adaptation time.

As shown in fig. 1, the method comprises:

s1, setting programs according to holidays, solar terms and regions, inputting the corresponding programs into each central module through a network terminal, and performing function control on each module through the central module;

s2, after the program setting time, the auxiliary lighting module is started to enter a normally-on state, and the human body recognition module scans (the human body recognition module is always started);

s3, the human body recognition module scans to recognize whether a human body signal exists in the effective range, if so, the human body signal is added into S4, and if not, the scanning is continued;

s4, after the human body signal is scanned, the signal is transmitted to the monitoring module, the monitoring module is started, and automatic monitoring and identification of the step signal are started (the monitoring module monitors every 10S);

s5, monitoring whether a step signal exists by the monitoring device, if so, entering S6, and if not, continuing monitoring;

s6, the following module monitors the start of the step signal, carries out positioning through the step signal and carries out overall judgment according to the step signal;

s7, judging whether the step signal in S5 is the first step signal, if so, sending an illumination signal to S9, and if not, sending the illumination signal to S8;

s8, the lighting signal enters S9 after being delayed by 5-15S by the extension module;

s9, transmitting the illumination signal to an illumination module, and turning on illumination by the illumination module;

s10, the monitoring module monitors whether a step signal exists again, if not, the step enters S11; if so, go to S12;

s11, when the step signal disappears, the resistance-changing module is started, the resistance of the lighting module is increased by the resistance-changing module, the brightness of the lighting module is gradually reduced, and the lighting module is turned off after one minute;

s12, the control plug-in judges the number of times of receiving the step signal, if the number of times is less than or equal to 3, the step enters S9, and if the number of times exceeds 3, the step enters S13;

and S13, the control plug-in introduces a temporary program into the lighting module to enable the lighting module to be on for 10min, and the process enters S10 after 10 min.

As shown in fig. 4, the process change of the network terminal update import central processing module includes:

the time and the place are different: adjusting the turn-on time of the auxiliary lighting module and the lighting module according to different day and night time lengths caused by the change of the region and the solar term;

II, saving holidays: the auxiliary lighting module is normally closed and can be opened through a switch;

working day: the auxiliary lighting module is normally opened within a set time and can be opened through a switch.

As shown in FIG. 3, the monitoring module needs to be initially set before installation and use, namely, various footstep sounds and footstep similar sounds are input to carry out system judgment; secondly, adjusting and controlling sensitivity according to the installation height and the installation terrain.

The delay time of the delay module can be set according to the installation place:

the children living area: delaying for 10S;

② a green and strong life zone: delaying for 5S;

③ the old people living area: delay 15S.

The human body recognition module exists in a monitoring camera shooting mode, and one human body recognition module corresponds to a plurality of monitoring modules.

The first step sound in S6 is the first step sound after 1min has been timed after the last step sound is sounded.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic which characterized in that: the system comprises a network terminal, a central processing module, a starting module, a human body identification module, a monitoring module, a following module, a time delay module, an illumination module, a variable resistance module, a control plug-in and an auxiliary illumination module;

the network terminal is used for leading-in, updating and transmitting the circuit control program and can update and upload different programs according to different time and places;

the central processing module is used for receiving the control program of the storage circuit and sending instructions to the starting module, the human body recognition module, the monitoring module, the following module, the delay module, the lighting module, the rheostatic module, the control plug-in and the auxiliary lighting module at set time and under set scenes;

the starting module is used for supplying power to the starting module, the monitoring module, the following module, the delay module, the lighting module, the variable resistance module, the control plug-in and the auxiliary lighting module;

the human body identification module judges whether the monitoring module is started or not due to monitoring the nearby environment and scanning the human body image;

the monitoring module is used for monitoring and identifying the footstep sound and positioning the footstep sound according to the direction and the size of the footstep sound;

the following module is used for tracking the footstep sound, updating the position of the pedestrian in real time, realizing signal tracking and performing overall judgment on the footstep sound signals;

the time delay module is used for delaying the first starting time of the illumination module and giving buffering time to human eyes adapting to a dark environment;

the lighting module is used for providing a light source for normal walking of people;

the resistance-changing module is used for controlling the brightness of the lighting module to gradually become low after the signal of the following module disappears until the lighting module is turned off;

the monitoring module monitors the step signals for multiple times at the same position, the following module transmits the signals to the control plug-in, and the control plug-in imports a temporary program;

the auxiliary lighting module is used for providing a basic light source and giving the eye adaptation time;

the method comprises the following steps:

s1, setting programs according to holidays, solar terms and regions, inputting the corresponding programs into each central module through a network terminal, and performing function control on each module through the central module;

s2, after the program setting time, the auxiliary lighting module is started to enter a normally-on state, and the human body recognition module scans (the human body recognition module is always started);

s3, the human body recognition module scans to recognize whether a human body signal exists in the effective range, if so, the human body signal is added into S4, and if not, the scanning is continued;

s4, after the human body signal is scanned, the signal is transmitted to the monitoring module, the monitoring module is started, and automatic monitoring and identification of the step signal are started (the monitoring module monitors every 10S);

s5, monitoring whether a step signal exists by the monitoring device, if so, entering S6, and if not, continuing monitoring;

s6, the following module monitors the start of the step signal, carries out positioning through the step signal and carries out overall judgment according to the step signal;

s7, judging whether the step signal in S5 is the first step signal, if so, sending an illumination signal to S9, and if not, sending the illumination signal to S8;

s8, the lighting signal enters S9 after being delayed by 5-15S by the extension module;

s9, transmitting the illumination signal to an illumination module, and turning on illumination by the illumination module;

s10, the monitoring module monitors whether a step signal exists again, if not, the step enters S11; if so, go to S12;

s11, when the step signal disappears, the resistance-changing module is started, the resistance of the lighting module is increased by the resistance-changing module, the brightness of the lighting module is gradually reduced, and the lighting module is turned off after one minute;

s12, the control plug-in judges the number of times of receiving the step signal, if the number of times is less than or equal to 3, the step enters S9, and if the number of times exceeds 3, the step enters S13;

and S13, the control plug-in introduces a temporary program into the lighting module to enable the lighting module to be on for 10min, and the process enters S10 after 10 min.

2. The luminaire capable of automatically providing fixed-point lighting based on the characteristics of the internet of things according to claim 1, wherein: the program change of the network terminal in updating and importing the central processing module comprises the following steps:

the time and the place are different: adjusting the turn-on time of the auxiliary lighting module and the lighting module according to different day and night time lengths caused by the change of the region and the solar term;

II, saving holidays: the auxiliary lighting module is normally closed and can be opened through a switch;

working day: the auxiliary lighting module is normally opened within a set time and can be opened through a switch.

3. The luminaire capable of automatically providing fixed-point lighting based on the characteristics of the internet of things according to claim 1, wherein: the monitoring module needs to be initially set before being installed and used, namely, various footstep sounds and footstep similar sounds are input to carry out system judgment; secondly, adjusting and controlling sensitivity according to the installation height and the installation terrain.

4. The luminaire capable of automatically providing fixed-point lighting based on the characteristics of the internet of things according to claim 1, wherein: the delay time of the delay module can be set according to the installation place:

the children living area: delaying for 10S;

② a green and strong life zone: delaying for 5S;

③ the old people living area: delay 15S.

5. The utility model provides a can follow lamps and lanterns that provide fixed point illumination automatically based on thing networking characteristic which characterized in that: the human body recognition module exists in a monitoring camera shooting mode, and one human body recognition module corresponds to a plurality of monitoring modules.

6. The luminaire capable of automatically providing fixed-point lighting based on the characteristics of the internet of things according to claim 1, wherein: the first step sound in S6 is the first step sound after 1min has been timed after the last step sound is sounded.

Images