CN113056064A - Adjusting method and adjusting system of intelligent lamp - Google Patents

Abstract

The application relates to an adjusting method and an adjusting system of an intelligent lamp, wherein the intelligent lamp comprises a sterilizing illumination assembly, the working mode of the sterilizing illumination assembly comprises a sterilizing mode, an illumination mode and a sterilizing illumination mode, the received power supply signal is rectified, then the current of the rectified power supply signal is adjusted, so that the luminous duration and/or the luminous brightness of the sterilizing illumination assembly are adjusted, the output current is controlled to be within a preset range, and the working mode of the sterilizing illumination assembly is switched. The method is simple to operate, so that the constant-current dimming effect is achieved; and the sterilizing and lighting assembly can switch different working modes according to the requirements of users, the flexibility and the compatibility are higher, the experience feeling of the users is also improved, and the problems that the flexibility and the compatibility are lower because the existing lamp technology cannot adjust the luminous time and/or the luminous brightness in real time according to the needs and only can illuminate with single power are solved.

Description

Adjusting method and adjusting system of intelligent lamp

Technical Field

The application belongs to the technical field of lighting control, and particularly relates to an adjusting method and an adjusting system of an intelligent lamp.

Background

Along with the continuous improvement of the living standard of people, the functional requirements of people on electronic equipment are more and more diversified, so that the electronic equipment is gradually changed from a single control function into a multifunctional control mode so as to meet the actual requirements of people in various aspects; taking a lamp as an example, the lamp can only provide illumination for people in the design process, cannot adjust the light emitting duration and/or the light emitting brightness in real time as required in the illumination process, and can only illuminate with single power, so that the flexibility and the compatibility are low, and the user experience is poor.

Therefore, the existing lamp technology has the problems that the luminous duration and/or the luminous brightness cannot be adjusted in real time according to needs, and only single power is used for illumination, so that the flexibility and the compatibility are low.

Disclosure of Invention

In view of this, the embodiment of the present application provides an adjusting method and an adjusting system for an intelligent lamp, and aims to solve the problem that the flexibility and the compatibility are low because the existing lamp technology cannot adjust the light emitting duration and/or the light emitting brightness in real time as needed and only can illuminate with single power.

A first aspect of an embodiment of the present application provides an adjusting method for an intelligent lamp, where the intelligent lamp includes a germicidal lighting assembly, and an operating mode of the germicidal lighting assembly includes a germicidal mode, a lighting mode, and a germicidal lighting mode, and the adjusting method includes:

rectifying the received power supply signal;

current regulation is carried out on the rectified power supply signal so as to regulate the light emitting duration and/or the light emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range;

and switching the working mode of the germicidal lighting assembly.

Preferably, the operating mode of switching the germicidal lighting assembly specifically adopts the gear of adjusting the dial switch, and includes:

when the dial switch is adjusted to the first gear, the working mode of the sterilizing lighting assembly is switched to a sterilizing mode;

when the dial switch is adjusted to the second gear, the working mode of the sterilizing and illuminating assembly is switched to the illuminating mode;

when the dial switch is adjusted to the third gear, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

Preferably, the switching of the operation mode of the germicidal lighting assembly specifically employs receiving an operation instruction of an external device, including:

when a first operation instruction sent by external equipment is received, the working mode of the sterilizing illumination assembly is switched to a sterilizing mode;

when a second operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to an illuminating mode;

and when a third operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

Preferably, the operation mode of the germicidal lighting assembly is switched by receiving a sensing signal, wherein the sensing signal comprises any one or more of a touch signal, a remote control signal, a heat sensing signal and an infrared sensing signal.

Preferably, the current adjustment is performed on the rectified power signal to adjust the lighting duration and/or the lighting brightness of the germicidal lighting assembly, and specifically includes:

adjusting the amplitude of the output current according to the first pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly within a first preset time period so as to control the sterilizing and illuminating assembly to emit light within the first preset time period;

adjusting the amplitude of the output current according to the second pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to the first preset light-emitting intensity;

and adjusting the amplitude of the output current according to the third pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to a second preset light-emitting intensity.

Preferably, the output current is controlled to be in a preset range, and the preset range is 5A-20A.

Preferably, before the current adjusting is performed on the rectified power signal to adjust the lighting duration and/or the lighting brightness of the germicidal lighting assembly and control the output current to be within the preset range, the method further includes:

and detecting whether the power failure event occurs in the germicidal lighting assembly.

Preferably, the detecting whether the germicidal lighting assembly has a power failure event specifically includes:

detecting whether a power port of the sterilizing and illuminating assembly has level falling edge pulse or not;

and if so, judging that the power failure event occurs to the germicidal lighting assembly, and accessing the emergency electric energy to supply power to the germicidal lighting assembly.

A second aspect of the embodiments of the present application provides an adjusting system of an intelligent lamp, the intelligent lamp includes a germicidal lighting assembly, an operating mode of the germicidal lighting assembly includes a germicidal mode, a lighting mode, and a germicidal lighting mode, the adjusting system includes:

the rectification module is used for rectifying the received power supply signal;

the constant-current dimming module is used for carrying out current regulation on the power supply signal after rectification processing so as to regulate the light-emitting duration and/or the light-emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range;

and the working mode switching module is used for switching the working mode of the sterilizing and illuminating assembly.

Preferably, the germicidal lighting assembly comprises a lighting module and a germicidal module;

the sterilization mode is that only the sterilization module works, the illumination mode is that only the illumination module works, and the sterilization illumination mode is that the sterilization module and the illumination module work simultaneously.

According to the adjusting method and the adjusting system of the intelligent lamp, the intelligent lamp comprises the sterilizing illumination assembly, the working modes of the sterilizing illumination assembly comprise a sterilizing mode, an illumination mode and a sterilizing illumination mode, the received power supply signal is rectified, then the current of the rectified power supply signal is adjusted, so that the light emitting duration and/or the light emitting brightness of the sterilizing illumination assembly are/is adjusted, the output current is controlled to be within the preset range, and the working mode of the sterilizing illumination assembly is switched. The method is simple to operate, so that the constant-current dimming effect is achieved; and the sterilizing and lighting assembly can switch different working modes according to the requirements of users, the flexibility and the compatibility are higher, the experience feeling of the users is also improved, and the problems that the flexibility and the compatibility are lower because the existing lamp technology cannot adjust the luminous time and/or the luminous brightness in real time according to the needs and only can illuminate with single power are solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a specific flowchart of an adjusting method of an intelligent lamp according to an embodiment of the present disclosure;

fig. 2 is a flowchart illustrating a step S102 in the adjusting method of the intelligent lamp shown in fig. 1;

fig. 3 is another specific flowchart of an adjusting method of an intelligent lamp according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an adjusting system of an intelligent lamp according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It should be noted that, the intelligent lamp includes the germicidal illumination component, and the operating mode of the germicidal illumination component includes germicidal mode, illumination mode and germicidal illumination mode, on the one hand through current regulation to adjust the luminous duration and/or the luminous brightness of the germicidal illumination component, and control output current to be in the preset range, on the other hand according to the change of surrounding environment or receive operation instruction, in order to switch the operating mode of the germicidal illumination component. Therefore, the constant-current dimming effect is realized, the sterilizing and lighting assembly can switch different working modes according to the requirements of users, the diversified purposes of the intelligent lamp are enriched, and the experience of the users is improved. The intelligent lamp can be applied to environments needing sterilization and illumination when necessary, such as: bathroom, corridor, etc.

Referring to fig. 1, for convenience of description, only the relevant parts of the present embodiment are shown in the specific implementation flow of the adjusting method for an intelligent lamp provided in an embodiment of the present application, and the detailed description is as follows:

an adjusting method of an intelligent lamp, wherein the intelligent lamp comprises a germicidal lighting assembly, the working mode of the germicidal lighting assembly comprises a germicidal mode, a lighting mode and a germicidal lighting mode, and the adjusting method comprises the following steps:

s101: and rectifying the received power supply signal.

The received power signal is an alternating current signal, so that the alternating current signal needs to be rectified and converted into a direct current signal, so that the sterilization and illumination assembly is powered. The rectification processing may be full-wave rectification or half-wave rectification, and may be performed as needed.

S102: and carrying out current regulation on the rectified power supply signal so as to regulate the light emitting duration and/or the light emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range.

Specifically, current regulation is carried out on the power supply signal after rectification processing, so that the light emitting duration and/or the light emitting brightness of the sterilizing and illuminating component are/is regulated. On one hand, on the other hand, the on-off of the current is controlled to control the light emitting duration of the sterilizing and illuminating component, namely when the output current is switched on, the sterilizing and illuminating component emits light, and when the output current is switched off, the sterilizing and illuminating component stops emitting light; on the other hand, when the magnitude of the current is adjusted, that is, when the output current is turned on, the current is increased, the light emission luminance of the germicidal lighting unit becomes strong, and when the output current is turned off, the current is decreased, the light emission luminance of the germicidal lighting unit becomes weak.

S103: and switching the working mode of the germicidal lighting assembly.

From the above, the operation modes of the germicidal lighting assembly include a germicidal mode, a lighting mode and a germicidal lighting mode, and different operation modes can be switched according to the requirements of users. For example: when organisms are sensed to exist in a preset range, switching to an illumination mode; when the light of the surrounding environment is sensed to reach a preset threshold value and no organism exists, switching to a sterilization mode; and when the light of the surrounding environment is sensed to be lower than a preset threshold value and no organism exists, switching to a sterilizing illumination mode.

In the implementation process of the adjusting method shown in fig. 1, the received power signal is rectified, and then the rectified power signal is subjected to current adjustment, so as to adjust the light emitting duration and/or the light emitting brightness of the germicidal lighting assembly, control the output current to be within the preset range, and switch the operating mode of the germicidal lighting assembly. The method is simple to operate, so that the constant-current dimming effect is achieved; and the sterilizing and lighting assembly can switch different working modes according to the requirements of users, the flexibility and the compatibility are higher, the experience feeling of the users is also improved, and the problems that the flexibility and the compatibility are lower because the existing lamp technology cannot adjust the luminous time and/or the luminous brightness in real time according to the needs and only can illuminate with single power are solved.

As an alternative embodiment, in step S103 of the adjusting method shown in fig. 1, switching the operation mode of the germicidal lighting assembly specifically adopts adjusting the shift position of the dial switch, including:

when the dial switch is adjusted to the first gear, the working mode of the sterilizing lighting assembly is switched to a sterilizing mode;

when the dial switch is adjusted to the second gear, the working mode of the sterilizing and illuminating assembly is switched to the illuminating mode;

when the dial switch is adjusted to the third gear, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

Specifically, the dial switch has different gears, for example, the dial switch is 3-gear or 4-gear, and when the dial switch is adjusted to different gears, the dial switch has different circuit control functions, so that different circuit control functions can be completed by changing the gears of the dial switch, so as to switch different working modes of the sterilizing lighting assembly; and because the gear switching of the dial switch is simple and convenient, the circuit is controlled by changing the gear of the dial switch, and the response speed and the response precision of the circuit control can be greatly improved. In this embodiment, the dial switch includes three shift positions, wherein the three shift positions are respectively: first gear, second gear and third gear consequently can carry out wantonly, the efficient switches between dial switch's three gear through gear adjusting command to realize different work modulus to the lighting components that disinfects and switch, this application embodiment realizes the switching of mode through dial switch, has greatly simplified operating procedure, simple and practical.

The "dial switch" referred to in this embodiment is a dial switch of various types in the art, and the specific type of the dial switch is not limited thereto.

As an alternative implementation manner, in step S103 of the adjusting method shown in fig. 1, switching the operation mode of the germicidal lighting assembly specifically employs receiving an operation instruction of an external device, including:

when a first operation instruction sent by external equipment is received, the working mode of the sterilizing illumination assembly is switched to a sterilizing mode;

when a second operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to an illuminating mode;

and when a third operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

Specifically, the external device may include a mobile phone APP, a dedicated control platform, and the like, and of course, the external device may also be controlled by the wall switch times to achieve the effect of switching the operating mode of the germicidal lighting assembly.

As an alternative embodiment, in step S103 of the adjusting method shown in fig. 1, the operation mode of the germicidal lighting assembly is switched by receiving a sensing signal, where the sensing signal includes any one or more of a touch signal, a remote control signal, a thermal sensing signal, and an infrared sensing signal.

Fig. 2 shows a specific flow of step S102 in the adjusting method of the intelligent luminaire in fig. 1, and for convenience of description, only the parts related to the present embodiment are shown, and the detailed description is as follows:

as an alternative implementation, fig. 2 shows a specific implementation flow of step S102 of the adjusting method in fig. 1, and performs current adjustment on the rectified power signal to adjust the light emitting duration and/or the light emitting brightness of the germicidal lighting assembly, which specifically includes:

s1021, adjusting the amplitude of the output current according to the first pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly within a first preset time period so as to control the sterilizing and illuminating assembly to emit light within the first preset time period;

s1022, adjusting the amplitude of the output current according to the second pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to the first preset light-emitting intensity;

and S1023, adjusting the amplitude of the output current according to the third pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to a second preset light emitting intensity.

Specifically, a Pulse signal with a specific circuit control function is generated, and Pulse Width Modulation (PWM) dimming is performed on the germicidal illumination assembly through the Pulse signal with different preset duty ratios, so as to flexibly adjust the actual light emitting state of the germicidal illumination assembly, so as to meet the light source control requirements of a user; therefore, the present embodiment adjusts the amplitude of the output current according to the pulse signal with a specific duty ratio to precisely change the lighting duration and/or the lighting brightness of the germicidal lighting assembly, and the method is simple and precise.

On one hand, the luminous duration of the sterilizing illumination component can be controlled through the pulse signals, and on the other hand, the luminous brightness of the sterilizing illumination component is controlled through the pulse signals.

From the above, when the first pulse signal, the second pulse signal or the third pulse signal is respectively generated, the light emitting duration and/or the light emitting brightness of the sterilizing illumination component can be adjusted in real time, so that the light emitting state of the sterilizing illumination component can be flexibly changed, and the dimming control efficiency of the sterilizing illumination component is ensured; therefore, the embodiment combines the first pulse signal, the second pulse signal and the third pulse signal to perform all-around and dynamic dimming on the germicidal lighting assembly, and improves the dimming control efficiency of the germicidal lighting assembly.

Meanwhile, the output current is controlled to be in a preset range, and the preset range is 5A-20A, so that the constant-current dimming effect is achieved. And under the condition of the output current of 5A-20A, the luminous brightness of the sterilizing lighting assembly is the most comfortable, and the user experience is better.

Referring to fig. 3, for convenience of description, only the parts related to the embodiment are shown in another specific implementation flow of the adjusting method of the intelligent lamp provided in an embodiment of the present application, and the detailed description is as follows:

on the basis of the implementation flow of the adjustment method shown in fig. 1, step S102 further includes:

and S104, detecting whether the power failure event occurs to the sterilizing and illuminating assembly.

Specifically, since the intelligent lamp needs to be adjusted, the adjusting method can be smoothly executed only by ensuring that the germicidal lighting assembly does not power down. Therefore, step S104 is provided before step S102, and detects whether the germicidal lighting assembly has a power-down event, so as to prevent the germicidal lighting assembly from being powered down and being unable to perform a complete adjustment method step.

As an optional implementation manner, in step S104 of the adjusting method, detecting whether a power failure event occurs in the germicidal lighting assembly specifically includes:

s1041: and detecting whether a power supply port of the germicidal lighting assembly has a level falling edge pulse.

When the sterilizing and illuminating assembly is connected with electric energy through the power port, whether level falling edge pulse occurs in the electric energy input by the sterilizing and illuminating assembly is detected, so that whether a power failure event occurs in the sterilizing and illuminating assembly is accurately and efficiently judged; therefore, the actual power failure condition of the germicidal lighting assembly can be accurately judged by detecting the level fluctuation condition of the power port of the germicidal lighting assembly, and the detection steps and the control flow of the power failure event of the germicidal lighting assembly are simplified.

S1042: and if detecting that the level falling edge pulse occurs at the power port of the sterilizing illumination assembly, judging that a power failure event occurs in the sterilizing illumination assembly, and accessing the emergency electric energy to supply power to the sterilizing illumination assembly.

S1043: and if the power port of the germicidal lighting assembly is detected not to have the level falling edge pulse, judging that the power failure event does not occur in the germicidal lighting assembly.

When a power port of the sterilizing illumination assembly generates a level falling edge pulse, the sterilizing illumination assembly is disconnected from external electric energy, and at the moment, the sterilizing illumination assembly needs to be started to supply emergency electric energy, so that the sterilizing illumination assembly emits a corresponding light source in a power-off delay process; when the level of the power port of the sterilizing illumination assembly is always maintained in a stable state, the sterilizing illumination assembly is always powered by external electric energy, a power failure event does not occur in the sterilizing illumination assembly, and the sterilizing illumination assembly can emit a stable light source; for example, when the power port of the germicidal lighting assembly is connected with 3.3V of high-level electric energy, it indicates that the germicidal lighting assembly is powered on to emit light through external electric energy, and the power port of the germicidal lighting assembly is in a high-level state; when the power port of the sterilizing lighting assembly is detected to have a falling edge from 3.3V to 0V, indicating that the sterilizing lighting assembly has a power failure event; therefore, the embodiment can accurately complete the function of detecting the power failure event by detecting the level fluctuation condition of the power supply port of the germicidal lighting assembly.

Referring to fig. 4, for convenience of description, only the parts related to the embodiment are shown in the structure of the adjusting system of the intelligent lamp according to an embodiment of the present application, and the detailed description is as follows:

an adjustment system of intelligent lamps and lanterns, intelligent lamps and lanterns include germicidal lighting assembly, germicidal lighting assembly's mode of operation includes sterilization mode, lighting pattern and germicidal lighting pattern, and above-mentioned adjustment system includes:

a rectification module 100, configured to perform rectification processing on a received power signal;

the constant-current dimming module 200 is used for performing current regulation on the rectified power supply signal so as to regulate the light emitting duration and/or the light emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range;

and an operation mode switching module 300 for switching the operation mode of the germicidal lighting assembly.

Specifically, the sterilizing and illuminating assembly comprises an illuminating module and a sterilizing module;

the sterilization mode is that only the sterilization module works, the illumination mode is that only the illumination module works, and the sterilization illumination mode is that the sterilization module and the illumination module work simultaneously.

To sum up, the intelligent lamp comprises the sterilizing illumination assembly, the working modes of the sterilizing illumination assembly comprise a sterilizing mode, an illumination mode and a sterilizing illumination mode, the received power supply signal is rectified, then the current of the rectified power supply signal is regulated, the luminous duration and/or the luminous brightness of the sterilizing illumination assembly are regulated, the output current is controlled to be within the preset range, and the working modes of the sterilizing illumination assembly are switched. The method is simple to operate, so that the constant-current dimming effect is achieved; and the sterilizing and lighting assembly can switch different working modes according to the requirements of users, the flexibility and the compatibility are higher, the experience feeling of the users is also improved, and the problems that the flexibility and the compatibility are lower because the existing lamp technology cannot adjust the luminous time and/or the luminous brightness in real time according to the needs and only can illuminate with single power are solved.

Various embodiments are described herein for various devices, circuits, apparatuses, systems, and/or methods. Numerous specific details are set forth in order to provide a thorough understanding of the overall structure, function, manufacture, and use of the embodiments as described in the specification and illustrated in the accompanying drawings. However, it will be understood by those skilled in the art that the embodiments may be practiced without such specific details. In other instances, well-known operations, components and elements have been described in detail so as not to obscure the embodiments in the description. It will be appreciated by those of ordinary skill in the art that the embodiments herein and shown are non-limiting examples, and thus, it can be appreciated that the specific structural and functional details disclosed herein may be representative and do not necessarily limit the scope of the embodiments.

Reference throughout the specification to "various embodiments," "in an embodiment," "one embodiment," or "an embodiment," etc., means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment. Thus, appearances of the phrases "in various embodiments," "in some embodiments," "in one embodiment," or "in an embodiment," or the like, in places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. Thus, a particular feature, structure, or characteristic illustrated or described in connection with one embodiment may be combined, in whole or in part, with features, structures, or characteristics of one or more other embodiments without presuming that such combination is not an illogical or functional limitation. Any directional references (e.g., plus, minus, upper, lower, upward, downward, left, right, leftward, rightward, top, bottom, above …, below …, vertical, horizontal, clockwise, and counterclockwise) are used for identification purposes to aid the reader's understanding of the present disclosure, and do not create limitations, particularly as to the position, orientation, or use of the embodiments.

Although certain embodiments have been described above with a certain degree of particularity, those skilled in the art could make numerous alterations to the disclosed embodiments without departing from the scope of this disclosure. Joinder references (e.g., attached, coupled, connected, and the like) are to be construed broadly and may include intermediate members between a connection of elements and relative movement between elements. Thus, connection references do not necessarily imply that two elements are directly connected/coupled and in a fixed relationship to each other. The use of "for example" throughout this specification should be interpreted broadly and used to provide non-limiting examples of embodiments of the disclosure, and the disclosure is not limited to such examples. It is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative only and not limiting. Changes in detail or structure may be made without departing from the disclosure.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. An adjusting method of an intelligent lamp, wherein the intelligent lamp comprises an germicidal lighting assembly, the operating mode of the germicidal lighting assembly comprises a germicidal mode, a lighting mode and a germicidal lighting mode, and the adjusting method comprises the following steps:

rectifying the received power supply signal;

current regulation is carried out on the rectified power supply signal so as to regulate the light emitting duration and/or the light emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range;

and switching the working mode of the germicidal lighting assembly.

2. The adjusting method according to claim 1, wherein switching the operating mode of the germicidal lighting assembly, in particular using adjusting the position of a dial switch, comprises:

when the dial switch is adjusted to the first gear, the working mode of the sterilizing lighting assembly is switched to a sterilizing mode;

when the dial switch is adjusted to the second gear, the working mode of the sterilizing and illuminating assembly is switched to the illuminating mode;

when the dial switch is adjusted to the third gear, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

3. The adjusting method according to claim 1, wherein switching the operation mode of the germicidal lighting assembly is specifically performed by receiving an operation command of an external device, and comprises:

when a first operation instruction sent by external equipment is received, the working mode of the sterilizing illumination assembly is switched to a sterilizing mode;

when a second operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to an illuminating mode;

and when a third operation instruction sent by the external equipment is received, the working mode of the sterilizing and illuminating assembly is switched to a sterilizing and illuminating mode.

4. The adjusting method according to claim 1, wherein the switching of the operation mode of the germicidal lighting assembly is performed by receiving a sensing signal, wherein the sensing signal comprises any one or more of a touch signal, a remote control signal, a heat sensing signal and an infrared sensing signal.

5. The adjusting method according to claim 1, wherein the current adjustment is performed on the rectified power signal to adjust the lighting duration and/or the lighting brightness of the germicidal lighting assembly, and specifically comprises:

adjusting the amplitude of the output current according to the first pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly within a first preset time period so as to control the sterilizing and illuminating assembly to emit light within the first preset time period;

adjusting the amplitude of the output current according to the second pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to the first preset light-emitting intensity;

and adjusting the amplitude of the output current according to the third pulse signal, and outputting the adjusted output current to the sterilizing and illuminating assembly so as to control the sterilizing and illuminating assembly to emit light according to a second preset light-emitting intensity.

6. The regulation method of claim 1 wherein the output current is controlled to be within a predetermined range, the predetermined range being 5A-20A.

7. The method according to claim 1, wherein the current regulation is performed on the rectified power signal to regulate the lighting duration and/or the lighting brightness of the germicidal lighting assembly, and the output current is controlled to be within the preset range, and further comprising:

and detecting whether the power failure event occurs in the germicidal lighting assembly.

8. The adjusting method according to claim 7, wherein detecting whether the germicidal lighting assembly has a power-down event comprises:

detecting whether a power port of the sterilizing and illuminating assembly has level falling edge pulse or not;

and if so, judging that the power failure event occurs to the germicidal lighting assembly, and accessing the emergency electric energy to supply power to the germicidal lighting assembly.

9. A regulation system for an intelligent light fixture, the intelligent light fixture including an germicidal lighting assembly, the germicidal lighting assembly having operating modes including a germicidal mode, a lighting mode, and a germicidal lighting mode, the regulation system comprising:

the rectification module is used for rectifying the received power supply signal;

the constant-current dimming module is used for carrying out current regulation on the power supply signal after rectification processing so as to regulate the light-emitting duration and/or the light-emitting brightness of the sterilizing and illuminating component and control the output current to be in a preset range;

and the working mode switching module is used for switching the working mode of the sterilizing and illuminating assembly.

10. The conditioning system of claim 9 wherein the germicidal light assembly includes a light module and a germicidal module;

the sterilization mode is that only the sterilization module works, the illumination mode is that only the illumination module works, and the sterilization illumination mode is that the sterilization module and the illumination module work simultaneously.

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