CN207766605U - A kind of passive light modulation toning romote-controlled driving device - Google Patents

Abstract

Mix colours romote-controlled driving device the utility model discloses a kind of passive light modulation, include for sends control signal passive remote controller and with external power supply electric connection wireless receiver；Wireless receiver includes wireless receiving end, the regulation and control drive module being connect with external LED lamp group and the first main control module being electrically connected respectively with wireless receiving end, regulation and control drive module, first main control module opens/stops LED light group or modulation output pwm signal to regulation and control drive module to LED light group light modulation/toning according to control signal, the design installs cabling without considering the problems of, the appearance of house wall is not interfered with, passive remote controller is used simultaneously, nothing needs to change battery, the control to lamps and lanterns will not be cannot achieve because of not enough power supply, it is more durable.

Description

A kind of passive light modulation toning romote-controlled driving device

Technical field

The utility model is related to the drive area of lamps and lanterns, especially a kind of passive romote-controlled driving device.

Background technology

Currently, being substantially for light modulation toning control to lamps and lanterns connects control in such a way that pipe is walked in default burial or surface System switch.Must be designed before finishing with it is pre-buried good, house complete finishing after then need beat again wall installation, not only not side Just, and original finishing in house can be destroyed.Meanwhile in place that can not be pre-buried, needing in such a way that pipe is walked on surface, greatly The beauty for affecting house, have by the way of wireless control now, but necessary remote controler is in the past all in wireless control It is battery-powered using storing up electricity, storage battery electricity exhausts, and user then needs replacing storage battery, otherwise can not just be carried out again to lamps and lanterns Control, causes sometimes inconvenient to use.

Utility model content

In order to solve the above technical problems, the purpose of this utility model is to provide a kind of passive light modulation toning remote control driving dress It sets.

The technical solution adopted in the utility model is：

A kind of passive light modulation is mixed colours romote-controlled driving device, include for send control signal passive remote controller and with it is outer Portion's power supply is electrically connected wireless receiver；

Wireless receiver include wireless receiving end, the regulation and control drive module being connect with external LED lamp group and respectively with nothing Line receiving terminal, regulation and control drive module be electrically connected the first main control module, the first main control module according to control signal open/stop LED Lamp group modulates output pwm signal to regulation and control drive module to LED light group light modulation/toning.

The passive remote controller includes key component, magnetic part, coil component, rectifying and voltage-stabilizing with magnetic part cooperation Module, the second main control module, wireless transmitting terminals, the second main control module are electrically connected to receive control signal with key component, press Key member is connect with magnetic part to drive magnetic part to move during depresses button component, the line with magnetic part cooperation Coil component generates induced electromotive force, and rectifying and voltage-stabilizing module is electrically connected with coil component with to being after induced electromotive force rectifying and voltage-stabilizing Second main control module, wireless transmitting terminals power supply.

The passive remote controller further includes button trigger module, the button trigger module include triode Q8, resistance R57, Resistance R58, capacitance C50；

The collector of triode Q8 is electrically connected with rectifying and voltage-stabilizing module, the second main control module respectively；

The one end of the base stage of triode Q8 respectively with one end of resistance R57, one end of key component, capacitance C50 electrically connects It connects；

The other end of key component is electrically connected with one end of resistance R58；

One end of resistance R58 is electrically connected with the other end of capacitance C50, rectifying and voltage-stabilizing module respectively；

The emitter of triode Q8 is grounded with the other end of resistance R57.

The wireless receiver further includes the primary side feedback flyback power supply module being electrically connected with external ac power source, should Primary side feedback flyback power supply module is the first main control module, wireless receiving end, LED light group power supply.

The wireless receiver further includes switch module and constant flow module, the control terminal of the switch module and the first master control Module is electrically connected, and input terminal and the primary side feedback flyback power supply module of switch module are electrically connected, the output of switch module End is electrically connected with constant flow module, and constant flow module is electrically connected with LED light group and is operated with constant-current driving LED lamp group.

The wireless receiver further includes time delay module, the time delay module respectively with the output end of switch module, constant current mould Block is electrically connected.

The switch module includes photoelectrical coupler OCT1 and capacitance C22；

The photophore anode of photoelectrical coupler OCT1 is electrically connected with primary side feedback flyback power supply module, photoelectrical coupler The photophore cathode of OCT1 is electrically connected with one end of capacitance C22, the first main control module respectively, the other end ground connection of capacitance C22；

The collector of the light-receiving device of photoelectrical coupler OCT1 is electric with primary side feedback flyback power supply module, time delay module respectively Property connection, the light-receiving device of photoelectrical coupler OCT1 emitter ground connection.

The time delay module includes triode Q6, triode Q7, resistance R50, resistance R52, resistance R53, resistance R55, electricity Hold C17；

The collector of triode Q6 respectively with primary side feedback flyback power supply module, the light-receiving device of photoelectrical coupler OCT1 Collector；

The base stage of triode Q6 is electrically connected with the collector of one end of resistance R52, triode Q7 respectively；

The other end of resistance R52 respectively with one end of resistance R50, one end of resistance R53；

The other end of resistance R50 is electrically connected with primary side feedback flyback power supply module, constant flow module respectively；

The other end of resistance R53 is electrically connected with the base stage of resistance R55, one end of capacitance C17, triode Q7 respectively；

The other end of resistance R55, the other end of capacitance C17, the emitter of triode Q7, triode Q6 emitter connect Ground.

The regulation and control drive module includes metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, and the LED light group includes at least two not homochromy The LED light string of temperature, the anodes of two LED light strings are electrically connected with constant flow module, first main control module respectively with metal-oxide-semiconductor The grid of Q3, the grid of metal-oxide-semiconductor Q4 are electrically connected, and the drain electrode of metal-oxide-semiconductor Q3 is electrically connected with the cathode of one LED light string, metal-oxide-semiconductor The drain electrode of Q4 is electrically connected with the cathode of another LED light string, the source electrode of metal-oxide-semiconductor Q3, the source electrode ground connection of metal-oxide-semiconductor Q4.

The beneficial effects of the utility model：

The utility model romote-controlled driving device is applied to driving lamps and lanterns running, by the way of wireless control, staff When mounted, it is only necessary to access wireless receiver in lamps and lanterns, user is by the transmittable control signal of passive remote controller to wireless Receiver, wireless receiver control lamps and lanterns running, and the design installs cabling without considering the problems of, do not interfere with house wall Appearance, while passive remote controller is used, without battery is needed to change, the control to lamps and lanterns will not be cannot achieve because of not enough power supply System, it is more durable.

Description of the drawings

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.

Fig. 1 is the schematic diagram of the utility model remote control driving part.

Fig. 2 is the circuit diagram at the wireless receiving end of wireless receiver.

Fig. 3 is the circuit diagram of the primary side feedback flyback power supply module of wireless receiver.

Fig. 4 is the circuit diagram of the switch module of wireless receiver, constant flow module, time delay module.

Fig. 5 be the regulation and control drive module of wireless receiver, the first main control module circuit diagram.

Fig. 6 be the wireless transmitting terminals of passive remote controller, the second main control module circuit diagram.

Fig. 7 is the circuit diagram of the rectifying and voltage-stabilizing module of passive remote controller.

Fig. 8 is the circuit diagram of the button trigger module of passive remote controller.

Specific implementation mode

As Figure 1-Figure 5, the design be remotely controlled driving part, include for sends control signal passive remote controller 1 with And it is electrically connected wireless receiver 2 with external power supply；

Wireless receiver 2 includes wireless receiving end 21, the regulation and control drive module 22 being connect with external LED lamp group and difference The first main control module 23 being electrically connected with wireless receiving end 21, regulation and control drive module 22, the first main control module 23 is according to control Signal opens/stops LED light group or modulation output pwm signal to regulation and control drive module 22 to LED light group light modulation/toning, wirelessly connects It receives device 2 and is mounted on adjacent lamp, connected by electric wire, without beating wall cabling or sunkening cord, the first main control module 23 can be normal Either MCU wireless receivings end 21 can be bluetooth module or infrared receiving module to the CPU of rule, meanwhile, wireless transmitting terminals 16 are Bluetooth module corresponding with wireless receiving end or infrared transmission module.

The design is applied to driving lamps and lanterns running, and by the way of wireless control, staff is when mounted, it is only necessary to will Wireless receiver 2 accesses in lamps and lanterns, and user is by the transmittable control signal of passive remote controller 1 to wireless receiver 2, wireless receiving Device 2 controls lamps and lanterns running, and the design installs cabling without considering the problems of, do not interfere with the appearance of house wall, use simultaneously Passive remote controller 1 will not cannot achieve the control to lamps and lanterns without battery is needed to change because of not enough power supply, more durable.

In the design of passive remote controller 1, as shown in Fig. 1, Fig. 6-Fig. 8, passive remote controller 1 includes key component 11, magnetic Property component 12, with magnetic part 12 coordinate coil component 13, rectifying and voltage-stabilizing module 14, the second main control module 15, wireless transmission End 16, the second main control module 15 are electrically connected with key component 11 to receive control signal, key component 11 and magnetic part 12 Connection is produced with driving magnetic part 12 to move during depresses button component 11 with the coil component 13 that magnetic part 12 coordinates Raw induced electromotive force, rectifying and voltage-stabilizing module 14 and coil component 13 be electrically connected with to after induced electromotive force rectifying and voltage-stabilizing for second Main control module 15, wireless transmitting terminals 16 are powered, and magnetic part 12 can be magnet, give birth to electric principle according to magnetic, magnet is attached in coil Close to do cutting movement, coil generates corresponding induced electromotive force, herein there are four key components 11, be respectively used to control light modulation, Toning, switch etc. functions, correspondingly magnetic part 12, coil component 13 and 11 quantity of key component correspond, Yong Hu When depresses button component 11, key component 11 can all trigger the movement of its corresponding magnetic part 12, to generate electric current, be the Two main control modules 15, wireless transmitting terminals 16 are powered, and wireless receiver 2 is transmitted signals to.

Meanwhile wireless transmitting terminals 16 include wireless transmission chip and its peripheral circuit, wireless receiving end 21 includes wirelessly connecing Chip and its peripheral circuit are received, the first low-pass filter circuit 161 is powered on wireless transmission chip, is electrically connected on wireless receiving chip There is the second low-pass filter circuit 211, during emissioning controling signal and reception control signal, filtered control signal itself Shake, interference filter out external interference to ensure to control the accuracy of transmission, the stability of signal.

Wherein, passive remote controller 1 further includes button trigger module 17, which includes triode Q8, electricity Hinder R57, resistance R58, capacitance C50；

The collector of triode Q8 is electrically connected with rectifying and voltage-stabilizing module 14, the second main control module 15 respectively；

The base stage of triode Q8 is electrical with one end of resistance R57, one end of key component 11, one end of capacitance C50 respectively Connection；

The other end of key component 11 is electrically connected with one end of resistance R58；

One end of resistance R58 is electrically connected with the other end of capacitance C50, rectifying and voltage-stabilizing module 14 respectively；

The emitter of triode Q8 is grounded with the other end of resistance R57.

The electromotive force that coil component 13 generates is output to button trigger module 17 after rectifying and voltage-stabilizing module 14 so that three Pole pipe Q8 conductings, to input a signal into the port to the second main control module 15.

On wireless receiver 2, as Figure 1-Figure 5, wireless receiver 2 further includes being electrically connected with external ac power source Primary side feedback flyback power supply module 24, the primary side feedback flyback power supply module 24 be the first main control module 23, wirelessly connect Receiving end 21, LED light group power supply, primary side feedback flyback power supply module 24 converts alternating current to direct current by rectifier bridge stack D3, former The pin 7 of side feedback fly-back power supply chip drives metal-oxide-semiconductor Q1, and magnetic field is generated in transformer T1 primary side one group coils, Primary side another set coil, leads to over excited magnetic field, and induction feeds back to the pin INV of primary side feedback flyback power supply chip, control Output voltage processed.

As shown in figure 4, wireless receiver 2 further includes switch module 25 and constant flow module 26, the control of the switch module 25 End processed is electrically connected with the first main control module 23, and the input terminal and primary side feedback flyback power supply module 24 of switch module 25 are electrical Connection, output end and the constant flow module 26 of switch module 25 are electrically connected, and constant flow module 26 is electrically connected with LED light group with constant current It drives LED light group running, the first main control module 23 to receive the control signal that passive remote controller 1 sends over, controls switch module 25 open, and signal is exported to constant flow module 26, and constant flow module 26 modulates suitable constant current output driving LED runnings, herein Switch module 25 is for controlling opening/stopping for LED light group.

Switch module 25 includes photoelectrical coupler OCT1 and capacitance C22；

The photophore anode of photoelectrical coupler OCT1 is electrically connected with primary side feedback flyback power supply module 24, photoelectric coupling The photophore cathode of device OCT1 is electrically connected with one end of capacitance C22, the first main control module 23 respectively, the other end of capacitance C22 Ground connection；

The collector of the light-receiving device of photoelectrical coupler OCT1 respectively with primary side feedback flyback power supply module 24, constant flow module 26 are electrically connected, the emitter ground connection of the light-receiving device of photoelectrical coupler OCT1, herein in primary side feedback flyback power supply module 24 The one coil of the vice-side winding of transformer T1 is powered for constant flow module 26, and then is powered for LED light group.

Meanwhile wireless receiver 2 further includes time delay module 27, the time delay module 27 output with switch module 25 respectively End, constant flow module 26 are electrically connected, so that at the initial stage that powers on, LED light group will not be opened abnormally time delay module 27, receive When to open signal, the first main control chip outputs a signal to photoelectrical coupler OCT1, and constant flow module 26 can just be continuously LED light Group power supply, to make LED light group light.

Time delay module 27 includes triode Q6, triode Q7, resistance R50, resistance R52, resistance R53, resistance R55, capacitance C17；

The collector of triode Q6 respectively with primary side feedback flyback power supply module 24, the light-receiving device of photoelectrical coupler OCT1 Collector；

The base stage of triode Q6 is electrically connected with the collector of one end of resistance R52, triode Q7 respectively；

The other end of resistance R52 respectively with one end of resistance R50, one end of resistance R53；

The other end of resistance R50 is electrically connected with primary side feedback flyback power supply module 24, constant flow module 26 respectively；

The other end of resistance R53 is electrically connected with the base stage of resistance R55, one end of capacitance C17, triode Q7 respectively；

The other end of resistance R55, the other end of capacitance C17, the emitter of triode Q7, triode Q6 emitter connect Ground.

And in the regulation and control drive module 22 of LED light group, regulation and control drive module 22 includes metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, institute The LED light string that LED light group includes at least two different-colours is stated, the anode of two LED light strings electrically connects with constant flow module 26 It connects, first main control module 23 is electrically connected with the grid of the grid of metal-oxide-semiconductor Q3, metal-oxide-semiconductor Q4 respectively, the drain electrode of metal-oxide-semiconductor Q3 It is electrically connected with the cathode of one LED light string, the drain electrode of metal-oxide-semiconductor Q4 is electrically connected with the cathode of another LED light string, metal-oxide-semiconductor Q3 Source electrode, metal-oxide-semiconductor Q4 source electrode ground connection, herein the first main control module 23 according to control signal, respectively adjust be output to metal-oxide-semiconductor Q3 With the duty ratio of metal-oxide-semiconductor Q4, under the output of corresponding PWM duty cycle, metal-oxide-semiconductor Q3, metal-oxide-semiconductor Q4 are connected by corresponding signal, two The LED light string of different-colour is flashed with different frequencies, to realize the LED light string mixed luminescence for adjusting two different-colours Brightness and colour temperature.

Herein, further include the first decompression chip 28 and second decompression chip 29, in primary side feedback flyback power supply module 24 Another coil of transformer T1 be depressurized to 12V by the first decompression chip 28, and the first decompression chip 28 is respectively with first The grid of main control module 23, the grid of metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 is electrically connected, and the first decompression chip 28 is according to the first master control mould The signal of block 23 provides driving voltage for metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, and the second decompression chip 29 and first is depressured chip 28 and connects It connects, 12V voltages is continued to be depressured to 3.3V to be the first main control chip 23, the power supply of wireless receiving end 21.

The foregoing is merely the preferred embodiments of the utility model, the utility model is not limited to above-mentioned embodiment party Formula, if with essentially identical means realize the technical solution of the utility model aim belong to the scope of protection of the utility model it It is interior.

Claims (9)

1. The romote-controlled driving device 1. a kind of passive light modulation is mixed colours, it is characterised in that：It include the passive remote control for sending control signal Device and with external power supply be electrically connected wireless receiver；

   Wireless receiver include wireless receiving end, the regulation and control drive module being connect with external LED lamp group and respectively with wirelessly connect Receiving end, regulation and control drive module be electrically connected the first main control module, the first main control module according to control signal open/stop LED light group Or output pwm signal is modulated to regulation and control drive module to LED light group light modulation/toning.
2. The romote-controlled driving device 2. the passive light modulation of one kind according to claim 1 is mixed colours, it is characterised in that：The passive remote control Device includes key component, magnetic part, the coil component coordinated with magnetic part, rectifying and voltage-stabilizing module, the second main control module, nothing Line transmitting terminal, the second main control module are electrically connected with key component to receive control signal, and key component is connect with magnetic part To drive magnetic part to move during depresses button component, induction electric is generated with the coil component of magnetic part cooperation Gesture, rectifying and voltage-stabilizing module and coil component be electrically connected with to be the second main control module after induced electromotive force rectifying and voltage-stabilizing, it is wireless Transmitting terminal is powered.
3. The romote-controlled driving device 3. the passive light modulation of one kind according to claim 2 is mixed colours, it is characterised in that：The passive remote control Device further includes button trigger module, which includes triode Q8, resistance R57, resistance R58, capacitance C50；

   The collector of triode Q8 is electrically connected with rectifying and voltage-stabilizing module, the second main control module respectively；

   The base stage of triode Q8 is electrically connected with one end of one end of resistance R57, one end of key component, capacitance C50 respectively；

   The other end of key component is electrically connected with one end of resistance R58；

   One end of resistance R58 is electrically connected with the other end of capacitance C50, rectifying and voltage-stabilizing module respectively；

   The emitter of triode Q8 is grounded with the other end of resistance R57.
4. The romote-controlled driving device 4. the passive light modulation of one kind according to claim 1 is mixed colours, it is characterised in that：The wireless receiving Device further includes the primary side feedback flyback power supply module being electrically connected with external ac power source, the primary side feedback flyback power supply mould Block is the first main control module, wireless receiving end, LED light group power supply.
5. The romote-controlled driving device 5. the passive light modulation of one kind according to claim 4 is mixed colours, it is characterised in that：The wireless receiving Device further includes switch module and constant flow module, and the control terminal of the switch module is electrically connected with the first main control module, switching molding The input terminal of block is electrically connected with primary side feedback flyback power supply module, and the output end of switch module electrically connects with constant flow module It connects, constant flow module is electrically connected with LED light group and is operated with constant-current driving LED lamp group.
6. The romote-controlled driving device 6. the passive light modulation of one kind according to claim 5 is mixed colours, it is characterised in that：The wireless receiving Device further includes time delay module, which is electrically connected with the output end of switch module, constant flow module respectively.
7. The romote-controlled driving device 7. the passive light modulation of one kind according to claim 6 is mixed colours, it is characterised in that：The switch module Including photoelectrical coupler OCT1 and capacitance C22；

   The photophore anode of photoelectrical coupler OCT1 is electrically connected with primary side feedback flyback power supply module, photoelectrical coupler OCT1 Photophore cathode be electrically connected respectively with one end of capacitance C22, the first main control module, the other end of capacitance C22 ground connection；

   The collector of the light-receiving device of photoelectrical coupler OCT1 electrically connects with primary side feedback flyback power supply module, time delay module respectively It connects, the emitter ground connection of the light-receiving device of photoelectrical coupler OCT1.
8. The romote-controlled driving device 8. the passive light modulation of one kind according to claim 7 is mixed colours, it is characterised in that：The time delay module Including triode Q6, triode Q7, resistance R50, resistance R52, resistance R53, resistance R55, capacitance C17；

   The collector of triode Q6 respectively with primary side feedback flyback power supply module, the current collection of the light-receiving device of photoelectrical coupler OCT1 Pole；

   The base stage of triode Q6 is electrically connected with the collector of one end of resistance R52, triode Q7 respectively；

   The other end of resistance R52 respectively with one end of resistance R50, one end of resistance R53；

   The other end of resistance R50 is electrically connected with primary side feedback flyback power supply module, constant flow module respectively；

   The other end of resistance R53 is electrically connected with the base stage of resistance R55, one end of capacitance C17, triode Q7 respectively；

   The emitter ground connection of the other end of resistance R55, the other end of capacitance C17, the emitter of triode Q7, triode Q6.
9. The romote-controlled driving device 9. the passive light modulation of one kind according to claim 8 is mixed colours, it is characterised in that：The regulation and control driving Module includes metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, and the LED light group includes the LED light string of at least two different-colours, two LED light The anode of string with constant flow module be electrically connected, first main control module respectively with the grid of metal-oxide-semiconductor Q3, the grid of metal-oxide-semiconductor Q4 Pole is electrically connected, and the drain electrode of metal-oxide-semiconductor Q3 is electrically connected with the cathode of one LED light string, the drain electrode of metal-oxide-semiconductor Q4 and another LED light The cathode of string is electrically connected, the source electrode of metal-oxide-semiconductor Q3, the source electrode ground connection of metal-oxide-semiconductor Q4.