CN212691517U - Intelligent lamp body of multiple sensing control - Google Patents

Abstract

The utility model provides an intelligent lamp body of multiple sensing control, it is coupled with a switch electrical property, multiple sensing control's intelligent lamp body contains a plurality of luminous monomers, a multiple sensing module and a drive control module, wherein, multiple sensing module has at least two sensing circuit, and produce at least one first sensing signal and at least one second sensing signal, drive control module electrical property is coupled luminous monomer, multiple sensing module and switch, drive control module is through first sensing signal and/or switch, open at least one luminous monomer, and through second sensing signal, in order to open all remaining luminous monomers, the luminance of the intelligent lamp body of multiple sensing control of modulation, wherein, the implementation of preferred is with first sensing signal as light sensing signal, second sensing signal is for actuating the sensing signal and being the attitude appearance.

Description

Intelligent lamp body of multiple sensing control

Technical Field

The utility model relates to an intelligent lamp body, especially an intelligent lamp body that can multiple sensing and independent control lamp pearl.

Background

Compared with the common home furnishing, the intelligent home furnishing not only has the traditional living function, but also provides comfortable, safe, high-grade and pleasant family living space, and enables the original passive and static use state to be changed into an interactive mode with active intelligence, so that the comprehensive function is provided, the life style of people is optimized, and the safety of the home living is enhanced.

For example, in daily lighting, although the lamp using the LED is significantly more power-saving than the conventional incandescent lamp, a lot of energy is consumed even after long-term use, especially in a state of strong sunshine or sufficient light, if the LED lamp is still turned on, the brightness of the LED lamp is slightly higher than the sunshine brightness, which inevitably causes energy waste.

In order to enable an LED lamp to automatically adjust its brightness according to ambient light and provide convenient and comfortable lighting effects, a conventional technique is to provide a brightness sensor in the LED lamp so that the lamp can automatically detect external light and adjust the brightness of the LED lamp according to the detection result.

Disclosure of Invention

The utility model provides a multiple sensing control's intelligent lamp body is simultaneously according to light sensing signal and other sensing signal to reach multiple sensing control's purpose, with under the prerequisite that provides sufficient luminance, still can obtain the best energy-conserving effect.

The utility model provides a multiple sensing control's intelligent lamp body utilizes the mode of each lamp pearl in the independent control lamp body, through detecting or switch to provide sufficient illuminating effect under different ambient brightness, still according to the demand of different conditions simultaneously, in order to control each lamp pearl in the lamp body, reach energy-saving power's purpose.

The utility model provides a multiple sensing control's intelligent lamp body is in the mode that at least one lamp pearl was opened under general standby state, and the power that every lamp pearl of opening consumed is between 0.05 ~ 1W.

The utility model provides a multiple sensing control's intelligent lamp body according to multiple sensing's result and/or wireless control's result to opening, closing and luminance of regulation and control lamp pearl.

In order to achieve the above object, the present invention provides a multiple sensing controlled intelligent lamp body electrically coupled to a switch and comprising a plurality of light emitting units, a multiple sensing module and a driving control module, wherein the multiple sensing module has at least two sensing circuits and generates at least one first sensing signal and at least one second sensing signal, the driving control module is electrically coupled to the light emitting units, the multiple sensing module and the switch, the driving control module turns on at least one light emitting unit through the first sensing signal and/or the switch and turns on all the remaining light emitting units through the second sensing signal to modulate the brightness of the multiple sensing controlled intelligent lamp body, and at least two sensing circuits of the multiple sensing module are at least two of a light sensing circuit, an actuation sensing circuit, a temperature sensing circuit, a sound sensing circuit and a gas sensing circuit, especially, the preferred mode is to use the first sensing signal as the optical sensing signal and the second sensing signal as the actuation sensing signal.

Wherein, the utility model discloses an implement the aspect, luminous monomer be LED lamp pearl, and luminous monomer is the LED lamp pearl of the same power or the LED lamp pearl of different power.

The present invention discloses an embodiment, wherein the power consumed by a single light-emitting unit which continuously emits light is 0.05-1W.

The present invention further discloses an implementation mode, which further comprises a timing module electrically coupled to the multiple sensing modules and the driving control module for recording the actuation time of the multiple sensing modules and/or the driving control module, and generating a time signal after a time interval to enable the driving control module to execute the opening and/or closing of the light-emitting unit.

Wherein, the utility model discloses an implement the aspect, drive control module controls at least a luminous monomer according to first sensing signal.

Wherein, the utility model discloses an implement the aspect, sensing circuit among the multiple sensing module is for actuating the combination of sensing circuit and other detection circuitry, and other these some detection circuitry are light sensing circuit, temperature sensing circuit, sound sensing circuit and gas sensing circuit.

Wherein, the utility model discloses an implement the aspect, still contain a wireless control module, integrate in multiple sensing control's intelligent lamp body, and be connected with an outside wireless transmission module, wireless control module electric coupling is in drive control module, and selectively couple with multiple sensing module, and after receiving outside wireless transmission module's an at least wireless output signal, produce corresponding at least one wireless input signal to drive control module and/or switch, make opening and closing of drive control module control part's luminous monomer, and the luminance of all luminous monomers of modulation.

Wherein, the utility model discloses an implement the attitude appearance, multiple sensing control's intelligent lamp body still integrates with the switch.

Wherein, the utility model discloses an implement the aspect, a wireless control module's at least wireless input signal corresponds single luminous monomer of control or a plurality of luminous monomer.

Wherein, the utility model discloses an implement the aspect, outside wireless transmission module is integrated in at least one in computer, intelligent cell-phone, intelligent remote controller, intelligent robot, control panel, electrical apparatus articles for use.

Wherein, the utility model discloses an implement the aspect, wireless control module is more according to multiple sensing module's first sensing signal and/or second sensing signal in order to return outside wireless transmission module with at least one notice signal.

Wherein, the utility model discloses an implement the aspect, wireless control module and outside wireless transmission module pass through in wireless hotspot technique, wireless network technique, bluetooth technique, radio frequency technique, near field communication technique, infrared ray technique, the carrier wave communication technique of ultra wide band, the microwave communication technique at least one is connected.

To sum up, the utility model provides a multiple sensing control's intelligent lamp body, this kind of intelligent lamp body not only utilizes multiple sensing module to detect, still through each lamp pearl in the independent control intelligent lamp body, reaches the efficiency of good illumination and power saving.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a block diagram of an embodiment of the multiple sensing controlled intelligent lamp of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the multiple sensing controlled intelligent lamp body of the present invention;

fig. 3 is a block diagram of an embodiment of the multiple sensing controlled intelligent lamp body of the present invention;

fig. 4 is a schematic structural diagram of an embodiment of the multiple sensing controlled intelligent lamp body of the present invention;

fig. 5 is a block diagram of an embodiment of the multiple sensing controlled intelligent lamp of the present invention;

fig. 6 is a schematic structural diagram of an embodiment of the multiple sensing controlled intelligent lamp body of the present invention;

description of the symbols:

1. the intelligent lamp body is controlled by multiple sensing, 11, a light-emitting unit, 111, a light-emitting unit, 112, a light-emitting unit, 12, a multiple sensing module, 121, a light sensing circuit, 122, an actuating sensing circuit, 123, a temperature sensing circuit, 124, a sound sensing circuit, 125, a gas sensing circuit, 13, a driving control module, 14, a wireless control module, 2, a switch, 3 and an external wireless transmission module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The utility model provides a multiple sensing control's intelligent lamp body please refer to fig. 1 and fig. 2 simultaneously, wherein, fig. 1 is the utility model discloses a block schematic diagram of a realization form appearance of multiple sensing control's intelligent lamp body, fig. 2 is the utility model discloses a structural schematic diagram of a realization form appearance of multiple sensing control's intelligent lamp body.

In the present embodiment, the multiple sensing controlled intelligent lamp body 1 is electrically coupled to the switch 2, the multiple sensing controlled intelligent lamp body 1 includes a plurality of light emitting units 11, a multiple sensing module 12 and a driving control module 13, wherein the multiple sensing module 12 has at least two sensing circuits 121, 122, 123, 124, 125, and in the present embodiment, the light sensing circuit 121, the motion sensing circuit 122, the temperature sensing circuit 123, the sound sensing circuit 124 and the gas sensing circuit 125 are taken as examples, the multiple sensing module 12 generates at least one first sensing signal (e.g., a light sensing signal) and at least one second sensing signal (e.g., a motion sensing signal), and the driving control module 13 is electrically coupled to the light emitting units 11, the multiple sensing module 12 and the switch 2, so that the driving control module 13 can drive the light emitting units 11, the multiple sensing module 12 and the switch 2, so as to control at least one light emitting unit 111 to emit light, and according to the second sensing signal, the driving control module 13 can turn on all the remaining light emitting units 112 to modulate the brightness of the multi-sensing controlled intelligent lamp body 1.

According to the utility model discloses in, when luminous monomer 111 in multiple sensory control's intelligent lamp body 1 starts, then look multiple sensory control's intelligent lamp body 1 for slightly bright mode, and when all luminous monomers 11 (including luminous monomer 111 and luminous monomer 112) in multiple sensory control's intelligent lamp body 1 all started, then look multiple sensory control's intelligent lamp body 1 for full bright mode.

Luminous monomer 11 be LED lamp pearl, just be in the utility model discloses a plurality of luminous monomer 11 that contain in multiple sensing control's intelligent lamp body 1 can be according to factors such as different luminance, different lighting demands to the pattern of several groups formula, concentric circle pattern or settlement pattern, pattern are arranged, and still can choose for use different operating power's LED lamp pearl, for example: the LED lamp comprises a low-power LED lamp bead, a medium-power LED lamp bead, a high-power LED lamp bead and the like. Among the multiple light-emitting units 11 included in the multiple sensing-controlled intelligent lamp body 1, the light-emitting unit 111 in the micro-lighting mode may be one or multiple, and according to different designs and requirements, the position where the light-emitting unit 111 in the micro-lighting mode is disposed is not limited to the corner or the center of the multiple sensing-controlled intelligent lamp body 1, and may be arbitrarily selected in practical application, and according to the conditions of the setting, the use time, the service life of the light-emitting unit 11, the requirement of the user, etc. of the multiple sensing-controlled intelligent lamp body 1 before leaving factory, the number of the selected light-emitting units 11, or which one (or several) light-emitting units 11 are used as the light-emitting unit 111 in the micro-lighting mode, for example, when the set light-emitting unit 111 has a shorter (or longer) service life, the light-emitting unit 111 may be selected to emit light for a longer time, therefore, in addition to fixedly selecting the set light-emitting units 111 to provide the dim bright mode, the set light-emitting units 11 may be selected to provide the dim bright mode according to the states of the light-emitting units 11 and the user's requirements, and in addition, the selection mechanism may be random, random and irregular to select any at least one light-emitting unit 11 to provide the dim bright mode. However, it should be noted that the power consumed by each light emitting cell 11 is approximately 0.05-1W.

In addition, since the light emitting cells 111 providing the bright mode are activated during standby or during use, the other light emitting cells 112 except the light emitting cells 111 providing the bright mode are turned on by the driving control module 13 through the second sensing signal.

The multiple sensing module 12 of the present invention includes at least two circuits of the light sensing circuit 121, the actuation sensing circuit 122, the temperature sensing circuit 123, the sound sensing circuit 124, and the gas sensing circuit 125, and the preferred mode is to use at least one circuit of the actuation sensing circuit 122, the light sensing circuit 121, the temperature sensing circuit 123, the sound sensing circuit 124, and the gas sensing circuit 125 as the reference of multiple sensing, because the present invention is an intelligent lamp body 1, besides providing enough brightness under the condition of insufficient brightness, enough illumination is provided when the user has a need, in other words, to change the states of the light emitting units 111, 112 by the driving control module 13, the driving control module 13 must provide enough illumination to the light emitting units 111, 112 according to different sensing results, 112 performs corresponding control. In the following, one of the possible multiple sensing mechanisms of the present invention will be described.

For example, in a state where the multiple sensing module includes the light sensing circuit and the actuation sensing circuit, when the ambient brightness is sufficient, all the light emitting cells in the multiple sensing-controlled intelligent lamp body are turned off, or only one or a plurality of light emitting cells in the multiple sensing-controlled intelligent lamp body are turned on, while the rest light emitting cells are turned off, at this time, even if the detected object moves within the detection range of the actuation sensing circuit, because the ambient brightness is sufficient, the actuation sensing circuit in the multiple sensing module does not turn on the light emitting cells in the off state even if the actuation sensing circuit generates the actuation sensing signal on the premise that the light sensing circuit is not turned on; however, when the light sensing circuit detects that the ambient brightness is insufficient, the light emitting unit in the multiple sensing controlled intelligent lamp body can be activated by the driving control module through the light sensing signal generated by the switch or the light sensing circuit, so as to make the driving control module activate one or more light emitting units, so as to make the multiple sensing controlled intelligent lamp body show a slight bright mode, at this time, once the object is detected to move by the actuating sensing circuit, the multiple sensing module also outputs the actuating sensing signal, accordingly, the driving control module starts to control the light emitting unit according to the actuating sensing signal, so as to make the multiple sensing controlled intelligent lamp body show a full bright mode, in other words, to make the multiple sensing controlled intelligent lamp body show a slight bright mode, the light emitting unit can be controlled by the sensing circuit (e.g. the light sensing circuit) or the switch, for example, the multiple sensing controlled intelligent lamp body of the present invention is applied to a hall, a, When areas such as the pavement, whether the light of multiple sensing control's intelligent lamp body accessible light sensing circuit in order to detect the environment is sufficient, so that the luminous free opening of drive control module control, if nevertheless will the utility model discloses an intelligent lamp body of multiple sensing control is used when the basement of building or other long-time daylighting region that is difficult to, then the accessible switch replaces light sensing circuit for the intelligent lamp body of multiple sensing control, so that the time of the most of intelligent lamp body of multiple sensing control all keeps in the little bright mode, and no matter above-mentioned any kind of application, can all arrange to actuate sensing circuit and pass through with the detection of having the user, and simultaneously, only under the state that contains light sensing signal or switch and open, when having simultaneously and actuating sensing signal, can make the intelligent lamp body of multiple sensing control present the bright mode entirely.

Similarly, when the above-mentioned actuating sensing circuit is changed into temperature sensing circuit, sound sensing circuit, gas sensing circuit, or simultaneously the temperature sensing circuit, sound sensing circuit, gas sensing circuit are put together, all need to detect the ambient brightness inadequately at the light sensing circuit, or the switch keeps under the prerequisite of opening, and when the above-mentioned sensing circuit that matches simultaneously detects the signal more than any kind, just can make multiple sensing control's intelligent lamp body present the full bright mode, and is different from commonly known general lamp body, single sensing control lamp body or multiple sensing control lamp body, the utility model discloses a multiple sensing control's intelligent lamp body is in order to reach power saving, energy-conserving effect, under the state that ambient light is not enough, under the circumstances that detects another kind of signal simultaneously, just can control the luminous monomer that does not start so that it opens.

Please refer to fig. 3, fig. 4, fig. 5 and fig. 6 simultaneously again, respectively disclose two kinds of implementation manners, wherein the first kind of implementation manner is as shown in fig. 3, which is the block diagram of an implementation manner of the multiple sensing control intelligent lamp body of the present invention, fig. 4 is the structure diagram of an implementation manner of the multiple sensing control intelligent lamp body of the present invention is shown, and the second kind of implementation manner is as shown in fig. 5, which is the block diagram of an implementation manner of the multiple sensing control intelligent lamp body of the present invention, fig. 6 is the structure diagram of an implementation manner of the multiple sensing control intelligent lamp body of the present invention is shown.

In the embodiment shown in fig. 3 and 4, the multiple sensing controlled intelligent lamp body 1 comprises a plurality of light emitting cells 11, a multiple sensing module 12, a driving control module 13, a wireless control module 14 and an external independent switch 2, wherein the multiple sensing module 12 has at least two sensing circuits 121, 122, 123, 124, 125, in this embodiment, the light sensing circuit 121, the motion sensing circuit 122, the temperature sensing circuit 123, the sound sensing circuit 124 and the gas sensing circuit 125 are taken as an example for illustration, the multiple sensing module 12 generates at least one first sensing signal (e.g. a light sensing signal) and at least one second sensing signal (e.g. a motion sensing signal), the driving control module 13 is electrically coupled to the light emitting cells 11, the multiple sensing module 12 and the wireless control module 14, the driving control module 13 can control the light emitting cells 11 and/or the switch 2, to control at least one light emitting unit 111 to emit light, and according to the second sensing signal, the driving control module 13 can turn on all the remaining light emitting units 112 to modulate the brightness of the multi-sensor controlled intelligent lamp body 1, except that the wireless control module 14 is integrated into the multi-sensor controlled intelligent lamp body 1 and connected to an external wireless transmission module 3, and the wireless control module 14 is electrically coupled to the driving control module 13 and selectively coupled to the multi-sensor module 12, therefore, in addition to forcibly turning on the light emitting units 111 by the switch 2 to maintain the multi-sensor controlled intelligent lamp body 1 in a micro-bright mode, and to maintain the state of the light emitting units 11 by the driving control module 13 through the sensing signal generated by the multi-sensor module 12, after the wireless control module 14 receives at least one wireless output signal transmitted by the external wireless transmission module 2, at least one corresponding wireless input signal is generated and transmitted to the driving control module 13, so that the driving control module 13 can control the on/off of part of the light-emitting units 112, and the multi-sensor controlled intelligent lamp 1 is in a full-bright mode.

In the embodiment shown in fig. 5 and 6, the switch 2 is integrated in the multiple sensing controlled intelligent lamp body 1, and therefore, the multiple sensing controlled intelligent lamp body 1 includes a plurality of light emitting units 11, a multiple sensing module 12, a driving control module 13, a wireless control module 14, and a switch 2 is further built in the multiple sensing controlled intelligent lamp body 1, wherein the multiple sensing module 12 has at least two sensing circuits 121, 122, 123, 124, 125, which are exemplified by the light sensing circuit 121, the actuation sensing circuit 122, the temperature sensing circuit 123, the sound sensing circuit 124, and the gas sensing circuit 125, the multiple sensing module 12 generates at least one first sensing signal (e.g., a light sensing signal) and at least one second sensing signal (e.g., an actuation sensing signal), and the driving control module 13 is electrically coupled to the light emitting units 11, the multiple sensing module 12, the driving control module 13, The wireless control module 14 and the switch 2, the driving control module 13 can control at least one light emitting unit 111 to emit light according to the first sensing signal and/or the switch 2, so that the multi-sensor controlled intelligent lamp body 1 presents a slightly bright mode, and according to the second sensing signal, the driving control module 13 can turn on all the remaining light emitting units 112 to modulate the brightness of the multi-sensor controlled intelligent lamp body 1 to present a fully bright mode.

The wireless control module generates at least one wireless input signal capable of controlling a single light emitting unit correspondingly, or controlling a plurality of light emitting units simultaneously, and each light emitting unit has unique address information, or a plurality of light emitting units have the same address information, so that the wireless input signal of the wireless control module can control the on, off and brightness adjustment of the light emitting units more accurately by carrying the set address information, and in addition, the set address information can be used for knowing the characteristics of the efficacy, the service life, the temperature and the like of each light emitting unit or the plurality of light emitting units corresponding to the address information, so as to master the state of each light emitting unit.

In addition, since the wireless control module is integrated in the multi-sensor controlled intelligent lamp, the power required by the wireless control module can be shared with the light emitting units, for example, the light emitting units are driven by current to provide sufficient power to the wireless control module. The external wireless transmission module can be integrated in at least one of a computer, an intelligent mobile phone, an intelligent remote controller, an intelligent robot, a control panel and an electric appliance, meanwhile, the external wireless transmission module can be implemented in the above device, for example, after the user sets the external wireless transmission module in a smart phone, the user can not only control the multi-sensing control intelligent lamp body through the interface of the external wireless transmission module in the intelligent mobile phone, but also know the state of the multi-sensing control intelligent lamp body or the environment state of the multi-sensing control intelligent lamp body by receiving the signal sent to the external wireless transmission module by the wireless control module in the multi-sensing control intelligent lamp body, such as whether there is a change in brightness, whether there is an object moving, whether there is a change in temperature, whether there is a sound, whether an environmental condition such as excessive gas concentration is set, etc.

The connection mode of the wireless control module and the external wireless transmission module is at least one of a wireless hotspot technology, a wireless network technology, a Bluetooth technology, a wireless radio frequency technology, a near field communication technology, an infrared technology, an ultra wide band carrier-free communication technology and a microwave communication technology.

To sum up, the utility model discloses a multiple sensing control's intelligent lamp body has little bright mode and full bright mode, and except the closed condition, multiple sensing control's intelligent lamp body can detect or directly pass through the control of switch according to multiple sensing module to under the circumstances that ambient light still can or does not have the actual use demand, except closing multiple sensing control's intelligent lamp body, can also be as standby state through providing little bright mode, and when detecting the demand and producing, provide sufficient illuminating effect with starting full bright mode; more importantly, the utility model discloses an independent control intelligent lamp is internal each lamp pearl, reaches good power saving efficiency.

The principle and the implementation of the present invention are explained herein by using specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the utility model, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (12)

1. A multiple sensing control intelligent lamp body is characterized in that the lamp body is electrically coupled with a switch and comprises:

a plurality of light emitting cells;

the multi-sensing module is provided with at least two sensing circuits and generates at least one first sensing signal and at least one second sensing signal;

the driving control module is electrically coupled with the light-emitting monomers, the multiple sensing modules and the switch, and controls the on-off of at least one light-emitting monomer according to the first sensing signal and/or the switch and controls the on-off of all the rest light-emitting monomers according to the second sensing signal so as to modulate the brightness of the multiple sensing control intelligent lamp body;

wherein, at least two sensing circuits in the multiple sensing module are at least two of a light sensing circuit, an action sensing circuit, a temperature sensing circuit, a sound sensing circuit and a gas sensing circuit.

2. The intelligent lamp body of claim 1, wherein the light emitting cells are LED lamp beads, and the light emitting cells are LED lamp beads with the same power or LED lamp beads with different powers.

3. The intelligent lamp of claim 1, wherein the power consumed by a single light emitting cell is 0.05-1W.

4. The multiple sensing controlled intelligent light of claim 1 further comprising:

and the timing module is electrically coupled with the multiple sensing modules and the driving control module and is used for recording the actuating time of the multiple sensing modules and/or the driving control module and generating a time signal after a time interval so that the driving control module executes to turn on and/or turn off the light-emitting monomers.

5. The intelligent lamp body of claim 1, wherein the driving control module controls at least one of the light emitting cells according to the first sensing signal.

6. The intelligent lamp of claim 1, wherein the sensor circuit of the multiple sensor module is a combination of the motion sensor circuit and other detection circuits, and the other detection circuits are a light sensor circuit, a temperature sensor circuit, a sound sensor circuit and a gas sensor circuit.

7. The multiple sensing controlled intelligent light of claim 1 further comprising:

and the wireless control module is electrically coupled with the driving control module and selectively coupled with the multiple sensing modules and the switch, and generates at least one corresponding wireless input signal to the driving control module and/or the switch after receiving at least one wireless output signal of the external wireless transmission module, so that the driving control module controls the on and off of the luminous monomers of the part and modulates the brightness of the multiple sensing controlled intelligent lamp body.

8. The multi-sensor controlled intelligent lamp body as claimed in claim 1 or 7, wherein the multi-sensor controlled intelligent lamp body is further integrated with the switch.

9. The intelligent lamp of claim 7, wherein at least one wireless input signal of the wireless control module controls one or more light emitting units correspondingly.

10. The intelligent lamp body of claim 7, wherein the external wireless transmission module is integrated into at least one of a computer, a smart phone, a smart remote controller, a smart robot, a control panel, and an electrical appliance.

11. The intelligent lamp of claim 7, wherein the wireless control module further transmits at least one notification signal back to the external wireless transmission module according to the first sensing signal and/or the second sensing signal of the multiple sensing module.

12. The intelligent lamp body of claim 7, wherein the wireless control module is connected to the external wireless transmission module by at least one of a wireless hotspot technology, a wireless network technology, a bluetooth technology, a radio frequency technology, a near field communication technology, an infrared technology, an ultra wide band carrier-free communication technology, and a microwave communication technology.

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