CN106900129B - Adjusting and controlling device of lighting lamp and lighting lamp - Google Patents

Abstract

The invention provides a regulating and controlling device of a lighting lamp and the lighting lamp, comprising: the device comprises a switch module, a switch action detection module, a power failure detection module, an energy storage power supply module, an intelligent module and a processor; the switch module is used for controlling the on-off of the lamp; the switch action detection module is connected with the switch module to identify that the switch action detection module executes a trigger action from one time to the closing within a preset time period; the power failure detection module is connected with the switch module to count the number of times of triggering actions executed by the switch module; the energy storage power supply module is connected with the intelligent module to drive the energy storage power supply module to supply power for the intelligent module within a preset duration of executing the triggering action after the processor receives the triggering signal of executing the triggering action sent by the switching action detection module; the processor is also used for driving the intelligent module to execute corresponding operations according to the number of times of executing the trigger action sent by the power failure detection module.

Description

Adjusting and controlling device of lighting lamp and lighting lamp

Technical Field

The invention relates to the field of illumination, in particular to a regulating and controlling device of an illumination lamp and the illumination lamp.

Background

With the advancement of technology, numerous household daily necessities are becoming more and more intelligent.

In the existing lighting lamp, the integrated functions of the lamp are more and more abundant, such as a sound lamp with news and music playing functions, a monitoring lamp capable of performing security monitoring or behavior detection, and the like. The multifunctional intelligent lamp has the advantage that the complexity of an internal control system is increased, so that the intelligent lamp is usually subjected to brightness adjustment or intelligent function switching and other operations by utilizing the mobile phone APP in the prior art. However, the existing lamp control method has certain defects, for example, when a mobile phone of a user is not at hand or is being used, the working state of lamplight illumination cannot be controlled through the mobile phone APP.

Therefore, improvement on the lamp is needed to realize the rich lamp control function of the mobile phone APP with very small circuit modification.

Disclosure of Invention

The invention provides a regulating and controlling device of a lighting lamp and the lighting lamp comprising the regulating and controlling device, which are used for solving the problem that in the prior art, a mobile phone cannot be used for controlling an intelligent lighting device in certain occasions.

The invention provides a regulating and controlling device of a lighting lamp, comprising: the device comprises a switch module, a switch action detection module, a power failure detection module, an energy storage power supply module, an intelligent module and a processor;

the switch module is used for being connected with an external power supply and the lighting lamp regulated by the regulating device so as to control the on-off of the lighting lamp;

the switch action detection module is connected with the switch module and is used for identifying that the switch module executes a trigger action from one time opening to one time closing within a preset duration;

the power failure detection module is connected with the switch module and is used for counting the times of the switch module executing the triggering action;

the energy storage power supply module is connected with the intelligent module for providing intelligent operation for the lighting lamp and is used for providing power for the intelligent module;

the processor is respectively connected with the switch action detection module, the power failure detection module, the energy storage power supply module and the intelligent module, and is used for receiving a trigger signal sent by the switch action detection module and used for driving the energy storage power supply module to supply power for the intelligent module within the preset duration of the trigger action execution according to the trigger signal; and the intelligent module is also used for receiving the number of times value of the trigger action executed, which is sent by the power failure detection module, and controlling the intelligent module to execute corresponding intelligent operation according to the number of times value.

Optionally, the switch action detection module includes: a power supply voltage reduction chip, an edge trigger and a logic AND gate; the switch module includes: a switching element, an AC-DC converter;

in a corresponding manner,

the switching element is connected with the external power supply, and the AC-DC converter is connected with the switching element and is used for converting alternating current of the external power supply into direct current;

the power supply step-down chip is connected with the AC-DC converter and used for converting direct-current voltage output by the AC-DC converter into chip-level voltage;

the edge trigger is respectively connected with the power supply voltage reduction chip and the processor and is used for sensing the change of the chip-level voltage and outputting the jump level to the processor;

the logic AND gate is connected with the edge trigger and is used for recording the output level of the edge trigger so as to indicate the input level before the trigger action is executed to the edge trigger.

Optionally, the power failure detection module includes: an NPN triode;

the base electrode of the NPN triode is connected with the AC-DC converter and is used for sensing the change of direct current voltage output by the AC-DC converter;

and the collector electrode of the NPN triode is connected with the processor and is used for outputting the jump level to the processor.

Optionally, the energy storage power supply module includes: the MOS switch tube is connected with the battery;

the source electrode of the MOS switch tube is connected with the battery, the grid electrode of the MOS switch tube is connected with the processor, the drain electrode of the MOS switch tube is connected with the intelligent module, so that when the output voltage of the processor perceived on the grid electrode of the MOS switch tube is smaller than the voltage of the battery perceived on the source electrode of the MOS switch tube, the MOS switch tube is conducted, and power is supplied to the intelligent module through the drain electrode of the MOS switch tube.

Optionally, the switch action detection module further includes: a delay capacitor;

the delay capacitor is connected with the power supply voltage reduction chip and is used for delaying the change rate of the direct-current voltage received by the power supply voltage reduction chip.

Optionally, the intelligent module includes:

a brightness classification module;

the processor is connected with the brightness classification module and is used for sending a brightness adjustment instruction to the brightness classification module according to the received number of times the trigger action sent by the power failure detection module is executed;

and the brightness classification module is used for determining a brightness classification value according to the received brightness adjustment instruction so as to adjust the brightness of the lighting lamp to the brightness corresponding to the brightness classification value.

Optionally, the intelligent module further comprises at least one of the following modules:

music play module, video play module, color adjustment module, video monitoring module, pronunciation chat module, wiFi module.

Optionally, the adjusting and controlling device of the lighting fixture further includes: a lighting driving module;

the illumination driving module is connected with the brightness grading module and is used for driving the illumination lamp to adjust illumination brightness corresponding to the brightness grading value according to the brightness grading value sent by the brightness grading module.

Optionally, the preset duration is less than or equal to 2 seconds.

The invention also provides a lighting lamp, which comprises an LED lighting lamp body; the lighting lamp also comprises a regulating and controlling device of any one of the above;

the LED illuminating lamp body is connected with the regulating and controlling device of the illuminating lamp and is used for illuminating with corresponding functions according to the regulation of the regulating and controlling device.

The invention provides a regulating and controlling device of a lighting lamp and the lighting lamp, which comprises the following components: the device comprises a switch module, a switch action detection module, a power failure detection module, an energy storage power supply module, an intelligent module and a processor; the switch module is used for being connected with an external power supply and the lighting lamp regulated by the regulating device so as to control the on-off of the lighting lamp; the switch action detection module is connected with the switch module and is used for identifying the trigger action of the switch module from one time of opening to closing in a preset time period; the power failure detection module is connected with the switch module and is used for counting the times of executing triggering actions by the switch module; the energy storage power supply module is connected with the intelligent module for providing intelligent operation for the lighting lamp and is used for providing power for the intelligent module; the processor is respectively connected with the switch action detection module, the power failure detection module, the energy storage power supply module and the intelligent module, and is used for receiving a trigger signal sent by the switch action detection module and used for driving the energy storage power supply module to supply power for the intelligent module within a preset time length when the trigger action is executed according to the trigger signal; and the intelligent module is also used for receiving the number value of times the trigger action sent by the power failure detection module is executed and driving the intelligent module to execute corresponding operation according to the number value. Therefore, the regulation and control device realizes that a user can realize the aim of adjusting brightness or other intelligent functions through the switch of the double-click lamp by comprising the switch action detection module for identifying the double-click lamp control switch action of the user and the power-down detection module for counting the double-click times, and meanwhile, the energy storage power supply module is added to ensure that the power-down moment of the double-click lamp switch, the energy storage power supply module can continuously provide uninterrupted working voltage for the intelligent module in the lamp, so that the intelligent function of the lighting lamp can not be influenced when the brightness of the lighting lamp is adjusted or the function is switched. The scheme replaces the strategy of implementing control on the intelligent function of the lighting lamp by using the mobile phone APP program with simple hardware circuit improvement, has simple scheme and high reliability, and realizes simple and convenient lamp control.

Drawings

Fig. 1 is a schematic structural diagram of a regulating device of a lighting lamp according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a regulating device of a lighting lamp according to another embodiment of the present invention;

fig. 3 is a circuit configuration diagram of a part of components in the adjusting and controlling device of the lighting lamp shown in fig. 2.

Reference numerals:

1. the device comprises a regulating device, 11, a switching module, 111, a switching element, 112, an AC-DC converter, 12, a switching action detection module, 121, a power supply voltage reduction chip, 122, an edge trigger, 123, a logic AND gate, 124, a delay capacitor, 13, a power failure detection module, 131, an NPN triode, 14, an energy storage power supply module, 141, a battery, 142, a MOS switching tube, 15, an intelligent module, 151, a brightness grading module, 152, a WiFi module, 16, a processor, 17 and an illumination driving module; 2. a power supply; 3. a lighting fixture.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention. In the drawings or the specification, like or similar elements are denoted by the same reference numerals.

Fig. 1 is a schematic structural diagram of a regulating device of a lighting fixture according to an embodiment of the present invention, as shown in fig. 1, a regulating device 1 of a lighting fixture according to the present embodiment includes: the device comprises a switch module 11, a switch action detection module 12, a power failure detection module 13, an energy storage and power supply module 14, an intelligent module 15 and a processor 16; the switch module 11 is used for being connected with the external power supply 2 and the lighting lamp 3 regulated by the regulating device 1 so as to control the on and off of the lighting lamp 3; the switch action detection module 12 is connected with the switch module 11 and is used for identifying that the switch module 11 executes a trigger action from one time opening to one time closing within a preset duration; the power failure detection module 13 is connected with the switch module 11 and is used for counting the number of times of triggering actions performed by the switch module 11; the energy storage power supply module 14 is connected with the intelligent module 15 for providing intelligent operation for the lighting fixture 3, and is used for providing power for the intelligent module 15; the processor 16 is connected with the switch action detection module 12, the power failure detection module 13, the energy storage power supply module 14 and the intelligent module 15 respectively, and is used for receiving a trigger signal sent by the switch action detection module 12 and used for driving the energy storage power supply module 14 to supply power for the intelligent module 15 within a preset time period when the trigger action is executed according to the trigger signal; and is further configured to receive the number of times the trigger action sent by the power failure detection module 13 is executed, and control the intelligent module 15 to execute a corresponding intelligent operation according to the number of times. The intelligent operation may be any function of controlling and adjusting by the mobile phone APP in the prior art, such as brightness adjustment, music playing, volume control, video playing, etc., and the triggering of different intelligent operations may be associated with the number of times that different triggering actions are performed, so that the processor 16 controls the corresponding intelligent module 15 to work according to different times. In addition, it should be noted that the intelligent operation to be implemented by the intelligent module 15 and the setting relationship between the intelligent operation and the number of triggering actions can be set by a person skilled in the art according to the actual functional requirements of the lighting fixture, which is not limited in this embodiment.

Specifically, in order to realize the intelligent regulation function of the mobile phone APP on the lamp by using a small circuit improvement, the invention improves the original lamp circuit, and a switch action detection module 12, a power failure detection module 13 and an energy storage power supply module 14 are additionally arranged in the lamp body. The switch action detection module 12 is mainly used for detecting a switch action of a user, for example, the user presses the switch module 11 for the first time, the lamp is powered on, the switch action detection module 12 detects the powered on state, the output level value is kept in a preset level state, if the switch is in an on state, the switch action detection module 12 outputs a high level, if the user triggers the switch module 11 to disconnect the switch, the switch action detection module 12 outputs a low level, and thus the on and off trigger actions of the switch module 11 are identified through the level change. Specifically, when the user needs to intelligently adjust the lamp, for example, the brightness value of the lamp needs to be adjusted, a double-click action can be completed by double-clicking the switch module 11, that is, the switch module 11 changes from the closed state to the open state and then to the closed state, and the double-click action is captured by the switch action detection module 12 to identify the triggering of the adjustment instruction of the switch module 11 by the user, wherein the interval time of the double-click can be set by a person skilled in the art according to the characteristics of the lamp and the device characteristics of the switch element. The lamp is powered off instantaneously due to the switch-off state experienced in the double-click switch process, however, the lamp is a lamp with an intelligent module function, so that the intelligent function of the lamp, such as music, video, voice conversation and the like, needs to be ensured not to be influenced by the power off at the switch on-off moment, and therefore, the standby battery can provide power for the intelligent modules at the power-off moment of the double-click switch of a user. Specifically, by connecting the energy storage power supply module 14 with the intelligent module 15, the processor 16 is used as a control unit for controlling when the energy storage power supply module 14 supplies power to the intelligent module 15, when the processor 16 receives a trigger signal of the trigger action of the switch module 11, which is sent by the switch action detection module 12, the processor drives the energy storage power supply module 14 to supply power to the intelligent module 15 within a preset time period when the trigger action is executed (i.e. within an interval time period of one double click), and in addition, according to the type of the intelligent function provided by the intelligent module 15, the number of double clicks and/or the time interval of the double click can be used as a basis for determining which intelligent function is executed on the intelligent module 15. For example, the number of double clicks is corresponding to the brightness adjustment value of the lamp, and the brightness of the switch module 11 is changed by 10% every double click. The statistics of the times can be specifically achieved by connecting the power-down detection module 13 with the switch module 11 to achieve the purpose of counting the times of executing double-click triggering actions by the switch module 11, and meanwhile, connecting the power-down detection module 13 with the processor 16 to enable the processor 16 to count the power-down times indication information sent by the power-down detection module 13, count the power-down times and drive the intelligent module 15 to execute corresponding intelligent operations according to the times value.

The regulation and control device of the lighting lamp provided by the embodiment comprises: the device comprises a switch module, a switch action detection module, a power failure detection module, an energy storage power supply module, an intelligent module and a processor; the switch module is used for being connected with an external power supply and the lighting lamp regulated by the regulating device so as to control the on-off of the lighting lamp; the switch action detection module is connected with the switch module and is used for identifying the trigger action of the switch module from one time of opening to closing in a preset time period; the power failure detection module is connected with the switch module and is used for counting the times of executing triggering actions by the switch module; the energy storage power supply module is connected with the intelligent module for providing intelligent operation for the lighting lamp and is used for providing power for the intelligent module; the processor is respectively connected with the switch action detection module, the power failure detection module, the energy storage power supply module and the intelligent module, and is used for receiving a trigger signal sent by the switch action detection module and used for driving the energy storage power supply module to supply power for the intelligent module within a preset time length when the trigger action is executed according to the trigger signal; and the intelligent module is also used for receiving the number value of times the trigger action sent by the power failure detection module is executed and driving the intelligent module to execute corresponding operation according to the number value. Therefore, the regulation and control device realizes that a user can realize the aim of adjusting brightness or other intelligent functions through the switch of the double-click lamp by comprising the switch action detection module for identifying the double-click lamp control switch action of the user and the power-down detection module for counting the double-click times, and meanwhile, the energy storage power supply module is added to ensure that the power-down moment of the double-click lamp switch, the energy storage power supply module can continuously provide uninterrupted working voltage for the intelligent module in the lamp, so that the intelligent function of the lighting lamp can not be influenced when the brightness of the lighting lamp is adjusted or the function is switched. The scheme replaces the strategy of implementing control on the intelligent function of the lighting lamp by using the mobile phone APP program with simple hardware circuit improvement, has simple scheme and high reliability, and realizes simple and convenient lamp control.

Fig. 2 is a schematic structural diagram of a regulating device of a lighting fixture according to another embodiment of the present invention, fig. 3 is a circuit configuration diagram of a part of components in the regulating device of the lighting fixture shown in fig. 2, and on the basis of the above embodiment, as shown in fig. 2 and 3, the switch action detection module 12 includes: a power supply step-down chip 121, an edge trigger 122, a logic AND gate 123; the switch module 11 includes: a switching element 111, an AC-DC converter 112; accordingly, the switching element 111 is connected to the external power supply 2, and the AC-DC converter 112 is connected to the switching element 111 for converting the AC power of the external power supply 2 into DC power; the power supply step-down chip 121 is connected with the AC-DC converter 112, and converts the direct-current voltage output by the AC-DC converter 112 into chip-level voltage; the edge trigger 122 is connected with the power supply voltage-reducing chip 121 and the processor 16 respectively, and is used for sensing the change of chip-level voltage and outputting the jump level to the processor 16; the logic and gate 123 is connected to the edge trigger 122 for recording the output level of the edge trigger 122 to indicate to the edge trigger 122 the input level before the trigger action is performed.

Specifically, taking a single double-click control lamp as an example, fig. 3 shows a circuit diagram of the switch action detection module 12, the power failure detection module 13, and the energy storage power supply module 14. The switch action detection module 12 is implemented by an edge trigger 122, a logic and gate 123, and a power supply voltage reduction chip 121, and referring to the schematic diagram of fig. 2, it can be seen that the direct current voltage V1 provided by the power supply board of the AC-DC converter is reduced by the power supply voltage reduction chip 121 to obtain a voltage V2 (V2 < V1), V2 is a chip level voltage, and V2 is the power supply of the edge trigger 122 and the logic and gate 123; when the user turns on the switching element 111 for the first time, the switching element 111 is in a closed power-on state, and the Q pin of the edge trigger 122 outputs a high level to the GPIO pin of the processor 16, wherein the processor 16 may be a CPU or an MCU. When the GPIO1 of the previous state of the edge flip-flop 122 is at the high level, the #q pin of the edge flip-flop 122 is at the low level, and the level given to the input pin D of the edge flip-flop 122 by the logic and gate 123 is recorded as the low level, that is, the logic and gate 123 functions to memorize the output level GPIO1 of the edge flip-flop 122. When the user performs the triggering action of the double-click on the switching element 111, the switching element 111 is opened and closed first, so that V2 falls and rises first, and in the rising process of V2, that is, when the rising edge of the CP pin of the edge trigger 122 comes, the level state of the D pin is read by the edge trigger 122, the Q pin, i.e., GPIO1, of the edge trigger 122 is turned to a low level, so as to complete the recognition of the double-click triggering action once. The logic and gate 123 realizes an input level (D pin) indicating to the edge flip-flop 122 before the trigger action is performed by memorizing the output level state GPIO1 of the edge flip-flop 122. That is, when the Q pin of the edge trigger 122 outputs a high level, the logic and gate 123 outputs a low level to the D pin of the edge trigger 122, and conversely, when the Q pin of the edge trigger 122 outputs a low level, the logic and gate 123 outputs a high level to the D pin of the edge trigger 122, and the logic and gate 123 always memorizes a state of the level before the change of the output level GPIO1 of the edge trigger 122. In addition, the external power supply 2 is usually an alternating current between 100V and 230V, and the alternating current is converted into a direct current by the AC-DC converter 112 of the switch module 11 to obtain a direct current V1, so as to further supply power to the intelligent functions of the lighting fixture 3, such as the LED lamp, the intelligent module 15, and the like.

Optionally, the power-down detection module 13 includes: an NPN triode 131; the base (B) of the NPN triode 131 is connected to the AC-DC converter 112 for sensing a change in the DC voltage output from the AC-DC converter 112; the collector (C) of the NPN triode 131 is connected to the processor 16 for outputting the level of the jump to the processor 16 to make the processor 16 count the number of double clicks.

Optionally, the energy storage power supply module 14 includes: a battery 141, a MOS switch tube 142 connected to the battery 141; the source (S) of the MOS switch tube 142 is connected to the battery 141, the gate (G) of the MOS switch tube 142 is connected to the processor 16, and the drain (D) of the MOS switch tube 142 is connected to the intelligent module 15, so that when the output voltage of the processor 16 sensed on the gate (G) of the MOS switch tube 142 is smaller than the voltage of the battery 141 sensed on the source (S) of the MOS switch tube 142, the MOS switch tube 142 is turned on, and power is supplied to the intelligent module 15 through the drain (D) of the MOS switch tube 142.

Optionally, the switch action detection module 12 further includes: a delay capacitor 124; the delay capacitor 124 is connected to the power supply voltage-reducing chip 121, and is used for delaying the rate of change of the dc voltage received by the power supply voltage-reducing chip 121.

Specifically, when the user double clicks the switching element 111, the output GPIO1 of the switching action detection module 12 changes from the high level (VH) of the power-on state to the low level (VL, V1 falls), and then the switching action detection module 12 notifies the processor 16 of the fact that the GPIO1 changes from the low level (VL) to the low level (VL), at this time, by using the delay capacitor 124 connected to the power supply step-down chip 121, the change rate of the dc voltage V1 received by the power supply step-down chip 121 is delayed, so that the V1 voltage is slowly reduced, when the voltage V1 falls and triggers the NPN transistor 131 (NPN Q2) of the power-down detection module 13 to turn off, and when the voltage V1 falls and triggers the NPN transistor 131 (NPN Q2) of the power-down detection module 13, the state of the output GPIO2 of the power-down detection module 13 changes from the low level (VL) to the high level (VH), and the GPIO2 notifies the processor 16 that the voltage V1 falls at this time, and then the processor 16 changes the GPIO3 from the default high level (VH) to the low level (VL), so that the MOS switch tube 142 (MOS Q1) of the power storage power supply module 14 is turned on, that the standby power supply is turned on, that is, that the power consumption of the power storage module 14 is turned on, and when the power consumption of the power consumption is large intelligent power supply module 15 is turned on, and the power supply time is set to be equal to the preset to the time interval of two seconds, and the time interval between the two-step-down is set to be equal to or shorter than the time. In 2S, the switching element 111 is turned on, the voltage V1 rises, the NPN triode 131 (NPN Q2) is turned on, and the MOS switching tube 142 is triggered to be turned off, and at this time, the power supply board V1 of the AC-DC converter 112 is converted to supply power to the intelligent module 15 again.

The system power failure detection of the power failure detection module 13 is mainly realized by the MOS Q1 of the MOS switch tube 142 and the NPN Q2 of the NPN triode 131, when the system voltage V1 is reduced, the B pole voltage of the NPN tube is also reduced, the voltages V4 and V4 at two ends of the battery 141 are the source (S) voltage VS of the MOS tube, when VG < VS, the MOS tube is started, the drain (D) voltage of the MOS tube is equal to the source voltage VS, and the battery 141 is used for supplying power to the processor 16, the intelligent module 15 and the like.

Optionally, the intelligent module 15 includes: a brightness classification module 151; the processor 16 is connected to the brightness classification module 151, and is configured to send a brightness adjustment instruction to the brightness classification module 151 according to the received number of times the trigger action sent by the power failure detection module 13 is executed; the brightness classification module 151 is configured to determine a brightness classification value according to the received brightness adjustment instruction, so that the brightness of the lighting fixture 3 is adjusted to the brightness corresponding to the brightness classification value.

Optionally, the adjusting and controlling device 1 of the lighting fixture further includes: a lighting driving module 17; the illumination driving module 17 is connected to the brightness classification module 151, and is configured to drive the illumination lamp 3 to adjust the illumination brightness corresponding to the brightness classification value according to the brightness classification value sent by the brightness classification module 151.

Specifically, according to the foregoing, the level change of the GPIO1 signal output by the switch action detection module 12 may enable the processor 16 to know that the external user completes one double click switch action; the power-down detection module 13 counts and records several times of Double-click actions continuously operated by a user, when the switch-off moment V1 of the first Double-click is powered down, the level of the GPIO2 is changed from high level to low level, the processor 16 counts 1 Double-click action, when the switch-off moment V1 of the second Double-click is powered down, the level of the GPIO2 is changed from high level to low level, the processor counts and records 2 Double-click actions, and the like, N Double-click actions can be recorded, and accordingly, the function of the brightness classification module 151 mainly sets brightness levels, and the brightness levels can be set to N levels from 0% to 100% for example. For example, when n=4, the luminance change is gradually linearly changed by 25% in increments of 25%,50%,75%,100%, and the algorithm rule is not limited thereto, and may be a rule that the luminance value is non-linearly changed. The element in the processor for counting the number of times of power failure of the power failure detection module 13 may be a separate counter, or the counter function may be integrated in the processor 16, and similarly, the brightness classification module 151 may be a separate module, or a module integrated on the processor 16 and implemented by a software function module. The processor 16 informs the brightness classification module 151 to control the brightness of the lighting fixture 3 by the recorded value of the counter. Due to the addition of the energy storage and power supply module 14, the intelligent function of the intelligent module 15 is not interrupted, and meanwhile, the dimming operation of the lighting fixture 3 can be performed.

Optionally, the intelligent module 15 further comprises at least one of the following modules: music playing module, video playing module, color adjusting module, video monitoring module, voice chat module, wiFi module 152.

Specifically, the intelligent function of the lighting fixture 3 may be various, so the intelligent module 15 may be a combination of various intelligent functional modules, such as a music playing module for playing music, a video playing module for playing movies, televisions, etc., a color adjusting module for adjusting the light color and the color of the lighting fixture 3, a video monitoring module for capturing a monitoring picture, a voice chat module for providing voice communication, and a WiFi module 152 for wirelessly transmitting data information, etc. The triggering of different intelligent functions can be determined by the processor 16 according to the number of times the triggering action is performed, that is, the number of times has a corresponding relationship with the intelligent module 15 of different functions, so that the user can trigger different intelligent functions by pressing the switch module 11 multiple times. For example, the aforementioned multi-tap switch module 11 may be used to adjust the brightness, or the continuous three-tap switch module 11 may be used to drive the music playing module to work, or the continuous four-tap switch module 11 may be used to drive the video monitoring module, etc., where the setting relationship between the intelligent operation and the triggering action number to be implemented by the intelligent module 15 may be set by a person skilled in the art according to the actual functional requirement of the lighting device, and this embodiment is not limited specifically.

Further, the invention also provides a lighting lamp, which comprises an LED lighting lamp body; the regulation and control device 1 of the lighting lamp is also included in any embodiment; the LED illuminating lamp body is connected with a regulating and controlling device 1 of the illuminating lamp and is used for illuminating with corresponding functions according to the regulation of the regulating and controlling device 1.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (9)

1. A regulation and control device of a lighting lamp, comprising: the device comprises a switch module, a switch action detection module, a power failure detection module, an energy storage power supply module, an intelligent module and a processor;

the switch module is used for being connected with an external power supply and the lighting lamp regulated by the regulating device so as to control the on-off of the lighting lamp;

the switch action detection module is connected with the switch module and is used for identifying that the switch module executes a trigger action from one time opening to one time closing within a preset duration;

the power failure detection module is connected with the switch module and is used for counting the times of the switch module executing the triggering action;

the energy storage power supply module is connected with the intelligent module for providing intelligent operation for the lighting lamp and is used for providing power for the intelligent module;

the processor is respectively connected with the switch action detection module, the power failure detection module, the energy storage power supply module and the intelligent module, and is used for receiving a trigger signal sent by the switch action detection module and used for driving the energy storage power supply module to supply power for the intelligent module within the preset duration of the trigger action execution according to the trigger signal; the intelligent module is also used for receiving the number of times value of the trigger action executed sent by the power failure detection module and controlling the intelligent module to execute corresponding intelligent operation according to the number of times value;

the energy storage power supply module includes: the MOS switch tube is connected with the battery;

the source electrode of the MOS switch tube is connected with the battery, the grid electrode of the MOS switch tube is connected with the processor, the drain electrode of the MOS switch tube is connected with the intelligent module, so that when the output voltage of the processor perceived on the grid electrode of the MOS switch tube is smaller than the voltage of the battery perceived on the source electrode of the MOS switch tube, the MOS switch tube is conducted, and power is supplied to the intelligent module through the drain electrode of the MOS switch tube.

2. The lighting fixture of claim 1, wherein the switching action detection module comprises: a power supply voltage reduction chip, an edge trigger and a logic AND gate; the switch module includes: a switching element, an AC-DC converter;

in a corresponding manner,

the switching element is connected with the external power supply, and the AC-DC converter is connected with the switching element and is used for converting alternating current of the external power supply into direct current;

the power supply step-down chip is connected with the AC-DC converter and used for converting direct-current voltage output by the AC-DC converter into chip-level voltage;

the edge trigger is respectively connected with the power supply voltage reduction chip and the processor and is used for sensing the change of the chip-level voltage and outputting the jump level to the processor;

the logic AND gate is connected with the edge trigger and is used for recording the output level of the edge trigger so as to indicate the input level before the trigger action is executed to the edge trigger.

3. The lighting fixture regulation and control device of claim 2 wherein the power down detection module comprises: an NPN triode;

the base electrode of the NPN triode is connected with the AC-DC converter and is used for sensing the change of direct current voltage output by the AC-DC converter;

and the collector electrode of the NPN triode is connected with the processor and is used for outputting the jump level to the processor.

4. The lighting fixture regulation and control device of claim 2 wherein the switch motion detection module further comprises: a delay capacitor;

the delay capacitor is connected with the power supply voltage reduction chip and is used for delaying the change rate of the direct-current voltage received by the power supply voltage reduction chip.

5. The lighting fixture of any one of claims 1-4, wherein the intelligent module comprises:

a brightness classification module;

the processor is connected with the brightness classification module and is used for sending a brightness adjustment instruction to the brightness classification module according to the received number of times the trigger action sent by the power failure detection module is executed;

and the brightness classification module is used for determining a brightness classification value according to the received brightness adjustment instruction so as to adjust the brightness of the lighting lamp to the brightness corresponding to the brightness classification value.

6. The lighting fixture of claim 5, wherein the intelligent module further comprises at least one of the following modules:

music play module, video play module, color adjustment module, video monitoring module, pronunciation chat module, wiFi module.

7. The lighting fixture of claim 5, wherein the lighting fixture tuning device further comprises: a lighting driving module;

the illumination driving module is connected with the brightness grading module and is used for driving the illumination lamp to adjust illumination brightness corresponding to the brightness grading value according to the brightness grading value sent by the brightness grading module.

8. The lighting fixture of claim 1, wherein the predetermined duration is less than or equal to 2 seconds.

9. A lighting lamp comprises an LED lighting lamp body; further comprising a regulating device of the lighting fixture of any one of claims 1 to 8;

the LED illuminating lamp body is connected with the regulating and controlling device of the illuminating lamp and is used for illuminating with corresponding functions according to the regulation of the regulating and controlling device.