WO2014048391A1

WO2014048391A1 - Lighting device

Info

Publication number: WO2014048391A1
Application number: PCT/CN2013/084615
Authority: WO
Inventors: 陈明允
Original assignee: 东莞巨扬电器有限公司
Priority date: 2012-09-29
Filing date: 2013-09-29
Publication date: 2014-04-03
Also published as: CN202868547U

Abstract

A lighting device, comprising light-emitting sources (111 and 211), camera modules (112 and 212), a human-body induction element (113 and 213), and control driver units (114 and 214). The light-emitting sources (111 and 211) are for use in providing an illumination light. The control driver units (114 and 214) are for use in generating and outputting an enable signal to the camera modules (112 and 212) when human-body induction signals of the human-body induction elements (113 and 213) are received, thus driving the camera modules (112 and 212) to convert from a camera idling mode into a camera working mode. The lighting device allows for effectively reduced consumption of electrical energy and reduced manufacturing costs.

Description

Technical field

The present invention relates to a lighting device, and more particularly to a lighting device having a camera module. Background technique

The existing lighting system with safety protection function, as disclosed in Taiwan Patent No. M413889, and Taiwan Patent No. M332235, includes at least an illumination source, a photographing device, a sensing unit, a storage unit, and a back-end monitoring. The sensing unit is configured to detect an environmental state within a detection range, such as whether a human body enters the detection range, and the illumination source provides illumination light according to the sensing result of the sensing unit, and the photography device is used for detecting Take environmental image data and transmit the captured environmental image data to the back-end monitoring unit for the monitoring personnel or users to obtain the most real-time environmental image, which can help the monitoring personnel or users to make a more efficient crisis. deal with.

In particular, during the operation of the above lighting system, the photographing device continuously (without stopping) the action of capturing environmental image data from the monitoring environment. However, the monitoring environment is in most of the time. In a safe and secure situation, that is, thieves, unscrupulous intrusions, or any emergency situation is only a small part of the time of all photography, but the camera is all-weather to capture image data, which will result in The cost of electricity costs does not meet the demands of modern people for energy saving.

In addition, the environmental image data captured by the photographing device is stored in the storage unit. However, since the photographing device adopts the above-mentioned uninterrupted photographing method, large environmental image data will be generated, and the storage unit is required to have a large storage capacity. All environmental image data is stored therein, however, a storage unit with a high storage capacity increases the manufacturing cost of the lighting system.

According to the above description, the existing lighting system with safety protection function needs to be improved due to power consumption and high manufacturing cost. Summary of the invention

In view of the deficiencies of the prior art, it is an object of the present invention to provide an illumination device having a photographic module with low power consumption and low manufacturing cost.

In order to achieve the above object, the technical solution adopted by the present invention is to provide a lighting device, comprising: a light source for outputting illumination light; a photography module for capturing an environmental image data; a human body sensing component, Detecting whether a human body enters within a detection range, and generating a human body sensing signal when the human body sensing component detects that the human body enters the detection range; and controlling the driving unit to be electrically connected to the light source Between the camera module and the human body sensing element, wherein the control driving unit generates an output consistent energy signal to the camera module at least when the body sensing signal is received, so that the camera module is converted from a photography idle mode to A photographic work mode.

The invention also provides a lighting device, comprising: a light source for outputting illumination light; a photography module for capturing an environmental image data; and a human body sensing component for detecting whether a human body enters within a detection range And generating, when the human body sensing component detects that the human body enters the detection range, outputting a human body sensing signal; wherein the human body sensing component comprises at least one of a passive human body infrared sensing component and a microwave sensing component; And the control driving unit is electrically connected between the light source, the camera module and the human body sensing element; wherein the control driving unit generates an output consistent energy signal to the camera module at least when receiving the body sensing signal, The camera module is switched from a photography idle mode to a photography mode.

Preferably, the lighting device further includes a back-end monitoring unit, and the signal is connected to at least one of the camera module, the human body sensing component and the control driving unit to receive the human body sensing signal and the environmental image data. At least one of them.

Preferably, the back-end monitoring unit is connected to at least one of the camera module, the human body sensing component and the control driving unit through a wireless communication mode, or is the wired communication performed by the back-end monitoring unit The mode is coupled to at least one of the camera module, the body sensing component, and the control driver unit.

Preferably, the wireless communication mode comprises at least one of a Bluetooth wireless communication mode and a Wi-Fi wireless communication mode, and the wired communication mode comprises at least one of a network communication mode and a telecommunication mode.

Preferably, a user outputs a control command to the control driving unit by controlling the backend monitoring unit to cause the control driving unit to generate the enable signal.

Preferably, the backend monitoring unit includes at least one of an electronic computing device and a handheld smart device, or the backend monitoring unit is at least one of the electronic computing device and the handheld smart device Whether a hardware device is provided, or an application program set by the backend monitoring unit for at least one of the electronic computing device and the handheld smart device.

Preferably, the control driving unit generates an output warning signal when receiving the human body sensing signal to The backend monitoring unit transmits the human body sensing signal to the backend monitoring unit to alert a user of the backend monitoring unit.

Preferably, when receiving the human body sensing signal, the control driving unit generates the warning signal to the backend monitoring unit every time a predetermined time interval is elapsed until the user is alerted.

Preferably, the control driving unit generates an output of another enabling signal to the illumination source at least when the human body sensing signal is received, so that the illumination source is converted from an illumination idle mode to an illumination operation mode.

Preferably, when the illumination source is in the illumination idle mode, the illumination source is in a lighting preset state, and when the illumination source is in the illumination operation mode, the illumination source performs a first illumination action or a second One of the illuminating actions; or when the illuminating source is in the illuminating idle mode, the illuminating source performs the first illuminating action, and when the illuminating source is in the illuminating working mode, the illuminating source performs the second illuminating action .

Preferably, the illumination preset state is a light-off state or a certain illumination state, and when the light source performs the first light-emitting action, the light source outputs illumination light having a first illumination parameter, and when the light is emitted When the light source performs the second illumination operation, the illumination source outputs illumination light having a second illumination parameter.

The invention also provides a lighting device, comprising: a light source for outputting illumination light; a photography module for capturing an environmental image data; and a human body sensing component for detecting whether a human body enters within a detection range And outputting a human body sensing signal when the human body sensing component detects that the human body enters the detection range; and controlling a driving unit electrically connected between the light emitting source, the photography module and the human body sensing element; a back-end monitoring unit, the signal is connected to at least one of the camera module and the control driving unit, and receives the environmental image data for monitoring by a user; wherein the control driving unit receives the human body sensing signal at least When the output uniformity signal is generated to the camera module, the camera module is switched from a photography idle mode to a photography mode.

The invention also provides a lighting device, comprising: a light source for outputting illumination light; a photography module for capturing an environmental image data; and a human body sensing component for detecting whether a human body enters within a detection range And outputting a human body sensing signal when the human body sensing component detects that the human body enters the detection range; and controlling a driving unit electrically connected between the light emitting source, the photography module and the human body sensing element; a back-end monitoring unit, the signal is connected to at least one of the camera module and the control driving unit, and when the control driving unit receives the human body sensing signal and communicates with the back-end monitoring unit, the back-end monitoring unit Outputting a photographing control command to the control driving unit according to monitoring by a user; wherein the control driving unit generates an output matching energy signal to the photographing module according to the photographing control command, so that the photographing module is idle by a photographing The mode is converted to a photography mode of operation. Preferably, the back-end monitoring unit is connected to at least one of the camera module, the human body sensing component and the control driving unit through a wireless communication mode, or is the wired communication performed by the back-end monitoring unit The mode is coupled to at least one of the camera module, the body sensing component, and the control driver unit.

Preferably, the human body sensing element comprises at least one of a passive human body infrared sensing element and a microwave sensing element.

Preferably, the control driving unit generates an output of another enabling signal to the illumination source when receiving the human body sensing signal and at least one of the light source control commands outputted by the back end monitoring unit. The illumination source is converted from an illumination idle mode to an illumination operation mode.

Preferably, when receiving the human body sensing signal, the control driving unit generates an output warning signal to the backend monitoring unit or transmits the human body sensing signal to the backend monitoring unit to alert the backend monitoring unit. a user.

Preferably, when the camera module is in the photography idle mode, the camera module is in a camera preset state, and when the camera module is in the camera mode, the camera module performs a first camera action or a One of the second photographic actions; or the photographic module performs the first photographic action when the photographic module is in the photographic idle mode, and the photographic module performs the second when the photographic module is in the photographic mode of operation Photography action.

Preferably, the photographing preset state is a stop state or a certain photographing state, and the lighting device further includes a storage unit, wherein the environment image data is stored in the storage when the photographing module performs the second photographing action. a unit, and when the photographing module performs the first photographing operation, the environmental image data is not stored in the storage unit.

Preferably, the illumination source comprises at least one light emitting diode unit.

Preferably, the lighting device further comprises a backup power supply device.

Preferably, the backup power supply unit comprises at least one of a dry battery, a battery, a lithium battery, a solar battery, or a backup power supply unit powered by a universal serial bus interface.

Preferably, the illuminating source comprises a plurality of illuminating units, and the plurality of illuminating units are distributed in a use environment, wherein at least one of the plurality of illuminating units is when the photographic module is in the photographic working mode The illumination light is provided in response to the location of the human body; or when the photography module is in the photographic mode of operation, the illumination source provides illumination light in a direction toward the location of the human body.

The photographing module of the lighting device of the present invention can be set to start the action of capturing the environment image when an intruder enters the monitoring environment, and the photographing module in the remaining time is in the photographing idle mode such as the machine state, which can effectively reduce The cost of electrical energy, and the reduction in the use of storage units reduces the cost of the storage unit. DRAWINGS

Figure 1 is a conceptual diagram of a lighting device of the present invention in a first preferred embodiment.

Figure 2 is a conceptual diagram of a lighting device of the present invention in a second preferred embodiment.

Figure 3 is a conceptual diagram of a lighting device of the present invention in a third preferred embodiment. detailed description

Please refer to FIG. 1, which is a conceptual diagram of a lighting device according to a first preferred embodiment of the present invention. The illumination device 1 includes a light source 111, a photography module 112, a storage unit 116, a human body sensing element 113, a control driving unit 114, and a backup power supply device 115. The light source 111 is used to output illumination light, and the illumination light can be used as The illuminating light is used to capture an ambient image data, and the storage unit 116 is connected to the photographic module 112, and the illumination module illuminates the illuminating light. The image data captured by the photography module 112 is stored.

In addition, the human body sensing component 113 is configured to detect whether a human body enters within a detection range, and when the human body sensing component 113 detects that the human body enters the detection range, generating a human body sensing signal S1; In an embodiment, the light source 111 includes at least one light emitting diode unit, and the human body sensing element 113 includes at least one of a passive human body infrared sensing element and a microwave sensing element, but is not limited thereto; and the storage unit 116 is not It is an essential element for defining the embodiment.

Moreover, the control driving unit 114 is electrically connected between the light source 111, the camera module 112, and the human body sensing element 113, and receives power supply from at least one of the commercial power source 9 or the backup power source device 115 to drive the illumination. Device 1 is operating normally. In the preferred embodiment, the backup power supply unit 115 is configured to provide backup power when the main power source 9 cannot supply power to the lighting device 1, and includes a dry battery, a battery, a lithium battery, a solar battery, or At least one of the backup power supply devices powered by a universal serial bus interface, but not limited thereto, and the backup power supply device 115 is not an essential component for defining the present embodiment.

Moreover, when the control driving unit 114 receives the human body sensing signal S1 outputted from the human body sensing element 113, the control driving unit 114 generates an output matching energy signal S1 to the photography module 112, so that the photography module 112 is idle from a photography. The mode is converted into a photographic working mode; wherein, when the photographic module 112 is in the photographic idle mode, the photographic module 112 is in a photographic preset state, and when the photographic module 112 is in the photographic working mode, the photographic module 112 performs a first photographic action. Or one of the second photographic actions; or when the photographic module 112 is in the photographic idle mode, the photographic module 112 performs the first photographic action, and when the photographic module 112 is in the photographic mode of operation, the photographic module 112 performs the Two photography actions.

In the preferred embodiment, the photographic preset state mentioned above can be set to a stop state or a certain photographic state (that is, the preset time is taken to start capturing image data for the monitoring environment. The length of time is set, and the first photographing action referred to above can be set as the image capturing module 112 captures the image data in the monitoring environment, and the captured image data is not stored in the storage unit 116. Moreover, the second photographing operation referred to above can be set as the image capturing module 112 captures the image data in the monitoring environment, and the captured image data is stored in the storage unit 116. However, the above-mentioned photography preset state, the first photographing action and the second photographing action are only one embodiment, and any equal variation design can be performed by a person of ordinary skill in the art according to actual application requirements.

Preferably, when the control driving unit 114 receives the human body sensing signal S1 outputted from the human body sensing element 113, the control driving unit 114 also generates an output of another enabling signal S2 to the illumination source 111 to The illumination source 111 is switched from an illumination idle mode to an illumination operation mode; wherein, when the illumination source 111 is in the illumination idle mode, the illumination source 111 is in an illumination preset state, and when the illumination source 111 is in the illumination operation mode, The light source 111 performs one of a first lighting action or a second lighting action; or when the illumination source 111 is in the illumination idle mode, the light source 111 performs the first illumination operation, and when the illumination source 111 is in the illumination operation mode At this time, the light source 111 performs a second light emitting operation.

In the preferred embodiment, the illumination preset state mentioned above can be set to a light-off state or a certain time illumination state (that is, a predetermined time is started to output illumination light to the monitoring environment. Length), and the first light-emitting action referred to above may be set such that the light source 111 outputs illumination light having a first illumination parameter (eg, illumination light that continuously outputs the first brightness and/or the first color temperature), The second illuminating action referred to above may be set such that the illuminating source 111 outputs the illuminating light having the second illuminating parameter (for example, the illuminating light that intermittently outputs the second brightness and/or the second color temperature, and enters the monitoring environment with the erbium resistance. The intruder), but the above-mentioned photography preset state, the first photographing action, and the second photographing action are only one embodiment, and any equal change design can also be performed by a person of ordinary skill in the art according to actual application requirements. .

For example, the changeable design is such that when the photographing module 112 is in the photographing working mode and the illumination source 111 is in the illumination working mode, the light source 111 provides illumination light toward the position of the human body, that is, enters the monitoring environment. Where the intruder moves, the light source 111 outputs the illumination light in a corresponding direction, thereby achieving the function of deterring the intruder.

For example, the light source 111 may be modified to include a plurality of light emitting units, and the plurality of light emitting units are dispersed in the monitoring environment. When the photographing module 112 is in the photographing working mode and the illumination source 111 is in the illumination working mode, At least one of the plurality of light-emitting units (ie, the light-emitting unit that is closest to the intruder entering the monitoring environment) provides illumination light according to the location of the human body, that is, the intruder moves to a different one. In the position, the light-emitting unit closest to the intruder will output illumination light, thereby achieving the function of deterring the intruder.

Please refer to FIG. 2, which is a conceptual diagram of a lighting device according to a second preferred embodiment of the present invention. The illumination device 2 of the preferred embodiment is substantially similar to that described in the first preferred embodiment of the present invention and will not be further described herein. The lighting device 2 further includes a rear end monitoring unit 221, wherein the light source 211, the photography module 212, the human body sensing component 213, and the control driving unit 214 are different from the foregoing first preferred embodiment. The backup power supply unit 215 is disposed on the device end 21, and the storage unit 222 and the back end monitoring unit 221 are disposed on the monitoring server end 22, and the device end 21 and the monitoring server end 22 are capable of transmitting a wireless communication mode or a wired communication. Modes are connected to each other. In the preferred embodiment, the backend monitoring unit 221 can include at least one of an electronic computing device and a handheld smart device, such as a desktop computer, a notebook computer, a tablet computer, a mobile phone, etc., or a backend monitoring device. The unit 221 can be a hardware device provided by at least one of an electronic computing device and a handheld smart device, or an application that the backend monitoring unit 221 can set for at least one of the electronic computing device and the handheld smart device. And, the wireless communication mode may include at least one of a Bluetooth wireless communication mode and a Wi-Fi wireless communication mode, and the wired communication mode may include at least one of a network communication mode and a telecommunication communication mode.

In addition, the backend monitoring unit 221 is connected to at least one of the photographing module 212 and the control driving unit 214, so that the backend monitoring unit 221 can receive the environmental image data captured by the photographing module 212, and then is used by a user manager. The image data captured by the camera module 212 is stored in the storage unit 222. The storage unit 222 can exist in the backend monitoring unit 221 or be a separate component from the backend monitoring unit 221. However, the storage unit 222 is not an essential element for defining the embodiment.

Preferably, when the control driving unit 214 receives the human body sensing signal S1 outputted from the human body sensing element 213, the control driving unit 214 also generates a human body sensing signal S1 or an alarm signal S4 to the back end monitoring unit 221. In order to alert the use manager to monitor the environment, there are intruders entering; wherein, the warning signal S4 can be a telecommunication information (such as telecommunication voice information or telecommunication newsletter, etc.), an electronic mailing information, a wired network information or a wireless network. Information, etc.

Moreover, a better one is that when the control driving unit 214 receives the human body sensing signal S1 outputted from the human body sensing element 213, the control driving unit 214 continuously generates an output warning signal S4 at a predetermined frequency. The terminal monitoring unit 221 (ie, generates a warning signal S4 to the backend monitoring unit 221 every time a predetermined length of time is separated, and the preset time length can be zero) until the usage manager detects that the monitoring environment is abnormal. The backend monitoring unit 221 transmits an acknowledgment receipt signal S5 back to the control driving unit 214.

Specifically, in the second preferred embodiment, the backend monitoring unit 221 only provides the use of the supervisor to monitor the monitoring environment, and the operation of the camera module 112 and the illumination source 111 of the device end 21 is like the first comparison. As in the preferred embodiment, automatic control is performed by the control drive unit 114, and the use manager does not perform any manual operation.

Please refer to FIG. 3, which is a conceptual diagram of a lighting device according to a third preferred embodiment of the present invention. The illumination device of the preferred embodiment is substantially similar to that described in the second preferred embodiment of the present invention and will not be further described herein. The preferred embodiment differs from the foregoing second preferred embodiment in that the second preferred embodiment The end monitoring unit 221 only provides the use of the supervisor to monitor the monitoring environment, while the back end monitoring unit 221 ' in the third preferred embodiment also has the purpose of providing the user with the device end 21 of the lighting device 2'.

In detail, in the preferred embodiment, when the control driving unit 214 receives the human body sensing signal S1 outputted from the human body sensing component 213, the human body sensing signal S1 or the warning signal S4 is first transmitted to the back end. The monitoring unit 221' is configured to alert the user to monitor the environment that there is an intruder entering. At this time, the photography module 212 is still in the photography idle mode; and when the usage manager is aware of the abnormal situation in the monitoring environment by the backend monitoring unit 221. At this time, the backend monitoring unit 22 can be controlled to transmit a photographing control command S6 to the control driving unit 214, and then the control driving unit 214 then generates the output enabling signal S1 to the photographing module 112, thereby converting the photographing module 112 from the photographing idle mode to Photography work mode. The photographing idle mode and the photographing working mode are as described in the first preferred embodiment, and the aspect of the warning signal S4 is also as described in the second preferred embodiment, and thus will not be further described herein.

Preferably, when the usage manager detects an abnormal situation in the monitoring environment by the backend monitoring unit 221', the backend monitoring unit 22 can be controlled to transmit a light source control command S7 to the control driving unit 214, and the driving unit 214 is controlled. Then, another output enable signal S2 is generated to the illumination source 111, thereby converting the illumination source 211 from the illumination idle mode to the illumination operation mode. The illumination idle mode and the illumination operation mode are as described in the first preferred embodiment, and therefore will not be further described herein.

According to the description of the above embodiments, the photographing module of the lighting device of the present invention can be set to start the action of capturing the environment image when an intruder enters the monitoring environment, and the photographing module is in the state of being in the remaining state. Such a photography idle mode can effectively reduce the power consumption, and reduce the use of the storage unit to reduce the cost of the storage unit, which is an industrially usable invention.

The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the claims of the present invention, and all other equivalent changes or modifications which are not departing from the spirit of the present invention should be included in Within the scope of the invention.

Claims

Rights request

1. A lighting device, including:

Light source, used to output illumination light;

A photography module used to capture environmental image data;

The human body sensing element is used to detect whether a human body enters a detection range, and when the human body sensing element detects that the human body enters the detection range, it generates and outputs a human body sensing signal; and

A control drive unit is electrically connected between the light source, the camera module and the human body sensing element; wherein the control drive unit at least generates an output signal to the camera module when receiving the human body sensing signal. The photography module is converted from a photography idle mode to a photography working mode.

2. A lighting device, including:

Light source, used to output illumination light;

A photography module used to capture environmental image data;

The human body sensing element is used to detect whether a human body enters a detection range, and when the human body sensing element detects that the human body enters the detection range, it generates and outputs a human body sensing signal; wherein, the human body sensing element includes At least one of a passive human body infrared sensing element and a microwave sensing element; and a control drive unit electrically connected between the light source, the photography module and the human body sensing element; wherein the control drive unit is at least less than receiving When the human body induction signal is received, a consistent enable signal is generated and output to the photography module, so that the photography module switches from a photography idle mode to a photography working mode.

3. The lighting device according to claim 1 or 2, further comprising a back-end monitoring unit whose signal is connected to at least one of the camera module, the human body sensing element and the control drive unit to receive the human body sensing. at least one of the signal and the environmental image data.

4. The lighting device as claimed in claim 3, wherein the back-end monitoring unit is signal-connected to at least one of the camera module, the human body sensing element and the control drive unit through a wireless communication mode, or the The back-end monitoring unit is signal-connected to at least one of the camera module, the human body sensing element and the control drive unit through a wired communication mode.

5. The lighting device of claim 4, wherein the wireless communication mode includes at least one of a Bluetooth wireless communication mode and a Wi-Fi wireless communication mode, and the wired communication mode includes a network communication mode and a telecommunications mode. At least one of the communication modes.

6. The lighting device as claimed in claim 4, wherein a user outputs a control command to the control drive unit by controlling the back-end monitoring unit, so that the control drive unit generates and outputs the enable signal.

7. The lighting device of claim 4, wherein the back-end monitoring unit includes at least one of an electronic computing device and a handheld smart device, or the back-end monitoring unit is the electronic computing device and the handheld smart device. A hardware device provided by at least one of the intelligent devices, or an application program provided by the back-end monitoring unit for at least one of the electronic computing device and the handheld intelligent device.

8. The lighting device as claimed in claim 4, wherein when the control drive unit receives the human body induction signal, it generates and outputs a warning signal to the back-end monitoring unit or transmits the human body induction signal to the back-end monitoring unit. unit to alert a user of the backend monitoring unit.

9. The lighting device as claimed in claim 8, wherein when the control drive unit receives the human body induction signal, it generates and outputs the warning signal to the back-end monitoring unit at a preset time interval until the user Until warned.

10. The lighting device according to claim 1 or 2, wherein the control driving unit generates and outputs another enable signal to the light-emitting source at least when receiving the human body induction signal, so that the light-emitting source is idle by a lighting The mode is converted to a lighting working mode.

11. The lighting device as claimed in claim 10, wherein when the light-emitting source is in the lighting idle mode, the light-emitting source is in a lighting preset state, and when the light-emitting source is in the lighting working mode, the light-emitting source performs One of a first light-emitting action or a second light-emitting action; or when the light-emitting source is in the lighting idle mode, the light-emitting source performs the first light-emitting action, and when the light-emitting source is in the lighting working mode, The light source performs the second light emitting action.

12. The lighting device as claimed in claim 11, wherein the lighting preset state is a lights-out state or a fixed lighting state, and when the light-emitting source performs the first light-emitting action, the light-emitting source output has a first illumination and when the light-emitting source performs the second light-emitting action, the light-emitting source outputs illumination light with a second illumination parameter.

13. A lighting device, including:

Light source, used to output illumination light;

A photography module used to capture environmental image data; The human body sensing element is used to detect whether a human body enters a detection range, and when the human body sensing element detects that the human body enters the detection range, it generates and outputs a human body sensing signal;

The control drive unit is electrically connected between the light source, the camera module and the human body sensing element; and

A back-end monitoring unit is signal-connected to at least one of the photography module and the control drive unit, and receives the environmental image data for a user to monitor;

Wherein, when receiving the human body sensing signal, the control driving unit generates and outputs a consistent enable signal to the photography module, so that the photography module switches from a photography idle mode to a photography working mode.

14. A lighting device, including:

Light source, used to output illumination light;

A photography module used to capture environmental image data;

The human body sensing element is used to detect whether a human body enters a detection range, and when the human body sensing element detects that the human body enters the detection range, it generates and outputs a human body sensing signal;

The back-end monitoring unit is signal-connected to at least one of the photography module and the control drive unit, and when the control drive unit receives the human body sensing signal and communicates with the back-end monitoring unit, the back-end monitoring unit A photography control command is generated and output to the control drive unit in response to a user's monitoring; wherein the control drive unit generates an output enable signal to the photography module in response to the photography control command, so that the photography module is idle from a camera The mode is converted to a photography working mode.

15. The lighting device as claimed in claim 13 or 14, wherein the back-end monitoring unit is signal-connected to at least one of the camera module, the human body sensing element and the control drive unit through a wireless communication mode, or The back-end monitoring unit is signal-connected to at least one of the camera module, the human body sensing element and the control drive unit through a wired communication mode.

16. The lighting device of claim 15, wherein the wireless communication mode includes at least one of a Bluetooth wireless communication mode and a Wi-Fi wireless communication mode, and the wired communication mode includes a network communication mode and a telecommunications mode. At least one of the communication modes.

17. The lighting device of claim 15, wherein the back-end monitoring unit includes an electronic computing device. device and at least one of a handheld smart device, or the back-end monitoring unit is a hardware device provided for at least one of the electronic computing device and the handheld smart device, or the back-end monitoring unit An application program is provided for at least one of the electronic computing device and the handheld smart device.

18. The lighting device as claimed in claim 13 or 14, wherein the human body sensing element includes at least one of a passive human body infrared sensing element and a microwave sensing element.

19. The lighting device as claimed in claim 13 or 14, wherein the control driving unit generates an output when receiving at least one of the human body sensing signal and a light source control command output from the back-end monitoring unit. Another enabling signal is sent to the light-emitting source so that the light-emitting source switches from a lighting idle mode to a lighting working mode.

20. The lighting device of claim 19, wherein when the light-emitting source is in the lighting idle mode, the light-emitting source is in a lighting preset state, and when the light-emitting source is in the lighting working mode, the light-emitting source performs One of a first light-emitting action or a second light-emitting action; or when the light-emitting source is in the lighting idle mode, the light-emitting source performs the first light-emitting action, and when the light-emitting source is in the lighting working mode, The light source performs the second light emitting action.

21. The lighting device as claimed in claim 20, wherein the lighting preset state is a lights-out state or a fixed lighting state, and when the light-emitting source performs the first light-emitting action, the light-emitting source output has a first illumination and when the light-emitting source performs the second light-emitting action, the light-emitting source outputs illumination light with a second illumination parameter.

22. The lighting device as claimed in claim 13 or 14, wherein when the control drive unit receives the human body induction signal, it generates and outputs a warning signal to the back-end monitoring unit or transmits the human body induction signal to the rear end. The end monitoring unit is used to alert a user of the back-end monitoring unit.

23. The lighting device of claim 22, wherein when receiving the human body sensing signal, the control driving unit generates and outputs the warning signal to the back-end monitoring unit at a preset time interval until the user Until warned.

24. The lighting device of claim 1, 2, 13 or 14, wherein when the photography module is in the photography idle mode, the photography module is in a photography preset state, and when the photography module is in the photography working mode When the photography module performs one of a first photography action or a second photography action; or when the photography module When the photography module is in the photography idle mode, the photography module performs the first photography action, and when the photography module is in the photography working mode, the photography module performs the second photography action.

25. The lighting device as claimed in claim 24, wherein the photography default state is a shutdown state or a certain time photography state, and the lighting device further includes a storage unit, when the photography module performs the second photography action, The environmental image data is stored in the storage unit, and when the photography module performs the first photography action, the environmental image data is not stored in the storage unit.

26. The lighting device of claim 1, 2, 13 or 14, wherein the light source includes at least one light emitting diode unit.

27. The lighting device as claimed in claim 1, 2, 13 or 14, further comprising a backup power supply device.

28. The lighting device of claim 27, wherein the backup power supply device includes at least one of a dry battery, a storage battery, a lithium battery, a solar cell, or a backup power supply device powered through a universal serial bus interface. One.

29. The lighting device as claimed in claim 1, 2, 13 or 14, wherein the light source includes a plurality of light-emitting units, and the plurality of light-emitting units are distributed in a use environment, so that when the photography module is in the photography operation mode, at least one corresponding one of the plurality of light-emitting units provides illumination light according to the location of the human body; or when the photography module is in the photography mode, the light-emitting source is directed toward the location of the human body. Provides illumination light in the direction.