CN209593842U - Lamp control system and lighting system - Google Patents

Abstract

The utility model discloses a kind of lamp control system and lighting system, which includes control box and at least one wireless switching, and wireless switching is connect with control box wireless telecommunications；The output end of control box is connect with LED light, control box includes master controller, independently exports control interface to code control circuit, the first wireless communication line and multichannel, master controller is connect with to code control circuit and the first wireless communication line respectively, and the output end of master controller independently exports control interface with multichannel and connect；Multichannel independently exports the output end of control interface and multiple LED light connect one to one.The utility model, which solves the single control box in current lamp control system, does not have multichannel independently to export control interface, the control to LED light can only be uniformly carried out simultaneously, cannot achieve not only can independently export control but also can combine control LED light, it can not adapt to different light scenes, lead to poor for applicability, the at high cost and high problem that consumes energy.

Description

Lamp control system and lighting system

Technical Field

The utility model relates to a lamps and lanterns lighting technology field, in particular to lamps and lanterns control system and lighting system.

Background

The existing household LED lighting switch mode generally adopts physical connection of electric wires, and the problems of low installation efficiency and high installation cost exist due to the fact that the switch connecting wires adopted by the mode are long; moreover, the current single LED control box has no multi-channel independent output control interface, and the switch used for connecting the LED control box can be independently controlled and can be combined to control the LED lamp.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lamps and lanterns control system and lighting system, the single control box who aims at solving among the present lamps and lanterns control system does not have the independent output control interface of multichannel, can only unify simultaneously and carry out the control to the LED lamp, can't realize not only independent output control but also can make up control LED lamp, can't adapt to different lighting scene, leads to the suitability poor, problem with high costs and that the power consumption is high.

In order to achieve the above object, the present invention provides a lamp control system, which includes a control box and at least one wireless switch, wherein the wireless switch is in wireless communication connection with the control box; the output end of the control box is connected with the LED lamp, the control box comprises a main controller, a code matching control circuit, a first wireless communication circuit and a multi-path independent output control interface circuit, the main controller is respectively connected with the code matching control circuit and the first wireless communication circuit, and the output end of the main controller is connected with the multi-path independent output control interface circuit; the output ends of the multiple paths of independent output control interface circuits are connected with the LED lamps in a one-to-one correspondence mode; wherein,

the first wireless communication circuit is used for receiving a wireless switch signal output by the wireless switch;

the code matching control circuit is used for outputting a corresponding code matching signal to the main controller according to an operation instruction of a user;

and the main controller is used for outputting corresponding LED switch control signals to the plurality of paths of independent output control interface circuits according to the code matching signals and the wireless switch signals so as to drive the corresponding LED lamps to work.

Optionally, the lamp control system further comprises a power supply, an output end of the power supply is connected with a power input end of the control box, and the power supply is used for supplying power to the control box and the plurality of LED lamps.

Optionally, the first wireless communication circuit includes one or more combinations of a 2.4G module, a bluetooth module, an infrared module, a WIFI module, and a ZigBee module.

Optionally, the wireless switch comprises one or more of a combination of a wireless gesture switch, a wireless PIR switch, a wireless touch switch, and a wireless mechanical key switch.

Optionally, the wireless switch includes a battery pack, a sensing port circuit, a signal processor, and a second wireless communication circuit, and an output end of the battery pack is connected to the sensing port circuit, the signal processor, and the second wireless communication circuit, respectively; the input end of the sensing port circuit is used for inputting a sensing signal, and the output end of the sensing port circuit is connected with the signal processor; the output end of the signal processor is connected with the second wireless communication circuit; the output terminal of the second wireless communication circuit is the output terminal of the wireless switch, wherein,

the sensing port circuit is triggered based on an operation instruction of a user and outputs a corresponding trigger signal to the signal processor;

the signal processor is used for generating a first control signal according to the received trigger signal and outputting the first control signal;

the second wireless communication circuit is configured to output the received first control signal to the first wireless communication circuit.

Optionally, the sensing port circuit includes one or more of a touch component, a mechanical key component, an infrared emission detection component, a human body thermal sensing detection component, and a microwave detection component.

Optionally, the second wireless communication circuit includes one or more combinations of a 2.4G module, a bluetooth module, an infrared module, a WIFI module, and a ZigBee module.

Optionally, the main control box includes a PWM dimming circuit, an output end of the main controller is connected to an input end of the PWM dimming circuit, and an output end of the PWM dimming circuit is used for connecting the LED lamp.

Optionally, the PWM dimming circuit includes a first resistor, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, a first electronic switch, a second electronic switch, and a third electronic switch, a first end of the first resistor is used for inputting a PWM dimming signal, and a second end of the first resistor, a controlled end of the first electronic switch, and a first end of the second resistor are interconnected; the first connection end of the first electronic switch, the first end of the fourth resistor and the first end of the third resistor are interconnected, and the second connection end of the first electronic switch, the second end of the second resistor, the second end of the fifth resistor, the second end of the sixth resistor and the second connection end of the third electronic switch are grounded; the second end of the third resistor, the first end of the fifth resistor and the controlled end of the second electronic switch are interconnected; the first connecting end of the second electronic switch, the second end of the seventh resistor, the first end of the sixth resistor and the controlled end of the third electronic switch are interconnected; a second end of the fourth resistor, a first end of the seventh resistor and a first end of the LED lamp are interconnected; the second end of the LED lamp is connected with the second connecting end of the third electronic switch, and the first end of the LED lamp is used for being connected with a first direct current power supply.

The utility model also provides a lighting system, this lighting system includes the lamps and lanterns control system, the lamps and lanterns control system includes control box and at least one wireless switch, the wireless switch with the control box wireless communication connection; the output end of the control box is connected with the LED lamp, the control box comprises a main controller, a code matching control circuit, a first wireless communication circuit and a multi-path independent output control interface circuit, the main controller is respectively connected with the code matching control circuit and the first wireless communication circuit, and the output end of the main controller is connected with the multi-path independent output control interface circuit; the output ends of the multiple paths of independent output control interface circuits are connected with the LED lamps in a one-to-one correspondence mode; the first wireless communication circuit is used for receiving a wireless switch signal output by the wireless switch; the code matching control circuit is used for outputting a corresponding code matching signal to the main controller according to an operation instruction of a user; and the main controller is used for outputting corresponding LED switch control signals to the multiple independent output control interface circuits according to the code matching signals and the wireless switch signals so as to drive the corresponding LED lamps to work.

The utility model discloses a set up to sign indicating number control circuit, make this control box when receiving wireless switch's the sign indicating number instruction, through exporting corresponding sign indicating number signal to main control unit to make main control unit export a plurality of sign indicating numbers control instruction when receiving corresponding sign indicating number signal, with realize each wireless switch to the independent output control interface circuit of multichannel a plurality of output channel's to the sign indicating number, and then realize single or combination control to the LED lamp through this control box. The utility model discloses a but independent control but also can make up the function of control LED banks, the single control box who has solved among the present lamps and lanterns control system does not have the independent output control interface of multichannel, can only unify simultaneously and carry out the control to the LED lamp, can't realize not only independent output control but also can make up control LED lamp, can't adapt to different illumination scenes, lead to the suitability poor, problem with high costs and that the power consumption is high.

Drawings

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

Fig. 1 is a functional block diagram of a lamp control system according to the present invention;

fig. 2 is a functional block diagram of a control box in the lamp control system of the present invention;

FIG. 3 is a functional block diagram of a wireless switch in the lamp control system of the present invention;

fig. 4 is the circuit structure schematic diagram of the PWM dimming circuit of the lamp control system of the present invention.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

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

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a lamps and lanterns control system is applied to among the lighting system.

Referring to fig. 1 and 2, in an embodiment of the present invention, the light fixture control system includes a control box 100 and at least one wireless switch 200, where the wireless switch 200 is communicatively connected to the control box 100; the output end of the control box 100 is connected with an LED lamp, the control box 100 includes a main controller 110, a code matching control circuit 140, a first wireless communication circuit 130 and a multi-channel independent output control interface circuit 150, the main controller 110 is respectively connected with the code matching control circuit 140 and the first wireless communication circuit 130, and the output end of the main controller 110 is connected with the multi-channel independent output control interface circuit 150; the output ends of the multiple independent output control interface circuits 150 are connected with the multiple LED lamps in a one-to-one correspondence manner; wherein,

the first wireless communication circuit 130 is configured to receive a wireless switch signal output by the wireless switch 200;

the code matching control circuit 140 is configured to output a corresponding code matching signal to the main controller 110 according to an operation instruction of a user;

the main controller 110 is configured to output corresponding LED switch control signals to the multiple independent output control interface circuits 150 according to the code matching signals and the wireless switch signals, so as to drive corresponding LED lamps to operate.

In this embodiment, the luminaire control system includes a plurality of LED lamps L1, L2, L3, L4 … … Ln, and a plurality of wireless switches S1, S2, S3 … … Sn, and the independent output control interface circuit 150 in the control box is provided with a plurality of output channels U1, U2, U3 … … Un. In a specific application, if the LED lamps L1, L2, L3 and L4 … … Ln are controlled by the wireless switches S1, S2 and S3 … … Sn independently and correspondingly, when the control box is powered on, the channel U1 is selected to enter a code matching state, after the code matching is successful by the wireless switch S1, the channel U2 is selected to enter the code matching state continuously, so that the code matching of the wireless switch S2 is successful, and the codes are sequentially matched in the above manner until the wireless switch Sn completes the code matching of the channel Un. At this time, the wireless switches S1 and L1, and the wireless switches S2 and L2 … …, Sn and Ln all form corresponding control relationships, and the corresponding LED lamp is controlled by operating the corresponding wireless switch 200, while the other lamps are not affected. If it is desired to realize combined control, for example, it is desired to control the lamp L1 by the wireless switch S1, the lamps L2 and L3 by the wireless switch S5845, and all the lamps by the wireless switch S3, when the control box 100 is powered on, the channel U1 is selected to enter the code matching state, and after the code matching by the wireless switch S1 is successful, the channels U2 and U3 are selected to enter the code matching state, so that the code matching of the channels U2 and U3 by the wireless switch S2 is completed, and finally the wireless switch S3 is selected to perform code matching on all the channels U1, U2, and U3 … … Un, and after the above operations are completed, it is possible to realize that the wireless switch S1 can control the lamps L1 individually, the wireless switch S1 can control the lamps L1 and L1 simultaneously, and the wireless switch S1 can control the LED lamps L1, Ln all the channels of the control box.

The code matching of the lamp can be realized by arranging corresponding keys on the control box 100 or matching a remote controller, for example, the multi-channel independent output control interface circuit 150 is provided with six output ports, which can be connected with six LED lamps L1, L2, L3, L4, L5 and L6, so that six keys A, B, C, D, E, F can be correspondingly arranged on the control box 100, corresponding indicating lamps are arranged at the positions of the six keys, and the A, B, C, D, E, F six keys correspond to the code matching control of L1, L2, L3, L4, L5 and L6. Specifically, when the key a is pressed, the indicator light corresponding to the key a flashes (or in other indication modes) to indicate that the key is selected, the wireless switch S1 is operated to perform code matching to control the number 1 light, when the key B is pressed, the indicator light corresponding to the key B flashes (or in other indication modes) to indicate that the key is selected, the wireless switch S2 is operated to perform code matching to control the number 2 light, and similarly, when the key C, D, E, F is pressed in sequence, the code matching and corresponding control of the wireless switches S3, S4, S5 and S6 on the LED lights L3, L4, L5 and L6 can be respectively realized. Or the keys a and B can be pressed, then the wireless switch S1 is operated to realize code matching of the channels where the L1 and the L2 are located, so that the wireless switch S1 realizes control over the LED lamps L1 and L2, when the key A, B, C is pressed, then the wireless switch S2 is used to realize control over the LED lamps L1, L2 and L3, and the like, and the setting can be specifically performed in advance according to the requirements of users. Of course, here, a code-checking key may also be provided, and the LED lamps may be controlled by the corresponding wireless switches through the number of times of key pressing, for example, by pressing the key twice, the LED lamps L1 and L2 are selected, then the code checking by the wireless switch S1 may be implemented to control the LED lamps L1 and L2 by the wireless switch S1, and after pressing the key six times, the code checking by the wireless switch S1 may be implemented to simultaneously control the LED lamps L1, L2, L3, L4, L5, and L6 by the wireless switch S1. In other embodiments, the LED lamp may be code-matched and controlled by providing a remote controller adapted to the control box 100 and providing corresponding keys on the remote controller, which is not limited herein.

In practical application, the control box can be applied to small spaces such as a multi-door cabinet or a wardrobe, and can also be applied to each layer of bookshelf of a desk. When a user needs to open one of the cabinets, the LED lamp corresponding to the cabinet can be controlled to be turned on through the control box. For example, if the number 1 lamp of the number 1 cabinet is required to be turned on, the number 1 lamp can be controlled independently through the code matching control of the control box 100; or, this control box is applied to the bookshelf, and when the user looked for books on certain layer of bookshelf, wireless inductive switch sensed human action or was close to, can light automatically, has made things convenient for user's browsing and seeking. Compare the control box of the switch of all LED lamps of centralized control in the past, this control box 100 can also make up alone and control the LED lamp, so, can set up according to user's demand to user's experience has been improved, can also avoid when opening one in the multi-door cupboard, each LED need be lighted, the power consumption that arouses, and then can realize energy-conservation, be favorable to reducing lighting system's consumption.

It should be noted that the power supply circuit 120 is provided with an AD-DC conversion circuit therein, and is used for converting an input power supply into a 3-5V working voltage for the modules such as the main controller 110 to work. The control box 100 of the present invention can also be used on-line between a plurality of control boxes. Specifically, for example, in an online luminaire control system implemented by three control boxes U1, and U1, the U1 is connected to the LED lamps L1, and the U1 is connected to the LED lamps L1, and L1, if it is desired that one wireless switch simultaneously controls the LED lamps L1, and L1, it is only necessary to make this wireless switch form a code matching relationship with corresponding channels of all connected luminaires in the control boxes U1, and of course, by using the code matching with corresponding channels in each control box, another wireless switch can simultaneously implement the control of the three channels L1 in L1, U1, and the like, and the specific settings of the street lamps can be set according to the needs of users.

In this embodiment, the main controller 110 may be a single chip microcomputer, and in other embodiments, the main controller 110 may also be implemented by one of an MCU, a DSP, or an FPGA, which is not limited herein.

The utility model discloses a set up code control circuit 140, make this control box 100 when receiving wireless switch 200 to the code instruction, through outputting corresponding code signal to main control unit 110 to make main control unit 110 output a plurality of code control instructions when receiving corresponding code signal, with realize that each wireless switch 200 is to the independent output control interface circuit 150 a plurality of output channel's of multichannel to the code, and then realize the single or combination control to the LED lamp through this control box 100. The utility model discloses a but the function of independent control or combination control LED banks, single control box 100 of having solved among the present lamps and lanterns control system does not have the independent output control interface of multichannel, can only unify simultaneously and carry out the control to the LED lamp, can't realize not only independent output control but also can make up control LED lamp, can't adapt to different lighting scene, lead to the suitability poor, problem with high costs and that the power consumption is high.

Referring to fig. 1 and 2, in an optional embodiment, the lamp control system further includes a power supply 300, an output end of the power supply 300 is connected to a power input end of the control box 100, and the power supply 300 is configured to supply power to the main control box and the plurality of LED lamps.

In specific application, the power supply 300 is used for external household lighting, an AC-DC conversion circuit may be disposed inside the power supply for converting 100-240V AC power to provide 12V or 24V DC operating voltage to the control box 100, and the power supply 300 is connected to the lamp to supply power to the lamp.

Referring to fig. 1 and 2, in an alternative embodiment, the plurality of wireless switches 200 includes one or more combinations of wireless gesture switches, wireless PIR switches, wireless touch switches, wireless microwave switches, and wireless mechanical key switches.

In this embodiment, the first wireless communication circuit 130 is used for being in communication connection with the wireless switch 200, and the wireless switch 200 may be one or more combinations of a wireless gesture switch, a wireless PIR (human Infrared sensing) switch, a wireless touch switch, a wireless microwave switch, and a wireless mechanical key switch. For example, the control box 100 may be switched in a wireless IR switch (one of the gesture switches) while the sensing distance of the handle is set to be in the range of 0-50 mm (or other suitable distance), i.e. when the IR switch is triggered by waving, blocking, moving away by hand in this range, the lamp is turned on or off or dimmed; through setting up wireless PIR switch to set up human inductive distance into 0 ~ 3000mm (or other suitable distances), it is within 0 ~ 3m range apart from this switch promptly to have someone to appear, then the lamp is bright. And the like, for example, in other embodiments, a wireless touch switch, a wireless mechanical key switch, and the like may also be accessed. In specific application, the different types of switches can be placed in different places of a home separately from the control box, for example, a wireless IR switch can be placed beside a bed according to the requirements of a user, so that the user can conveniently operate the switch in a short distance to remotely control the switch of the LED lamp.

It should be noted that the wireless switch 200 may also be other types of wireless switches known to those skilled in the art, and is not limited herein.

It can be appreciated that different types of wireless switches 200 can be conveniently placed at different locations of a home according to specific needs of a user, without using wires to connect at the input end of a control box, without wiring in a wall or a cabinet, which facilitates installation and also improves the safety of the lighting system.

Referring to fig. 2 and 3, in an alternative embodiment, the wireless switch 200 includes a battery assembly 240, a sensing port circuit 210, a signal processor 220 and a wireless communication circuit 230, wherein an input terminal of the sensing port circuit 210 is used for inputting a sensing signal, and an output terminal of the sensing port circuit 210 is connected to the signal processor 220; the output end of the signal processor 220 is connected to the wireless communication circuit 230; the input/output terminal of the wireless communication circuit 230 is the input/output terminal of the wireless switch 200, wherein,

the sensing port circuit 210 is triggered based on an operation instruction of a user and outputs a corresponding trigger signal to the signal processor;

the signal processor 220 is configured to generate and output a first control signal according to the received trigger signal;

the second wireless communication circuit 230 is configured to output the received first control signal to the first wireless communication circuit 130.

In this embodiment, the sensing port circuit 210 is a receiving end for receiving different operation instructions of a user, and realizes wireless connection and communication with the wireless communication circuit 130 in the control box 100 through the wireless switch 200.

Further, the sensing port circuit 210 includes one or more of a touch component, a mechanical key component, an infrared emission detection component, a human body thermal sensing detection component, and a microwave detection component.

Specifically, in the embodiment, a touch component is taken as an example for explanation, for example, the touch component includes a touch screen, when the touch screen senses a motion of a human body, the sensing port circuit 210 outputs an operation instruction triggered by the human body to the signal processor 200, and the signal processor performs a/D conversion, amplification and other processing on the signal and finally outputs the signal to the second wireless communication circuit 230.

In this embodiment, the battery assembly 240 is used to provide the operating voltage for the wireless switch 200, and the battery assembly may be implemented by any one of a dry battery, a button battery, and a lithium battery, or in other embodiments, a rechargeable battery may be used as the battery assembly 240; the signal processor 220 may be implemented by a microprocessor such as an MCU, a DSP, an FPGA, or a single chip, which is not limited herein.

Referring to fig. 1 to 3, in an alternative embodiment, the first wireless communication circuit 130 and the second wireless communication circuit 230 include one or more combinations of a 2.4G module, a bluetooth module, an infrared module, a WIFI module, and a ZigBee module.

In this embodiment, the communication modes of the wireless switch 200 and the control box 100, that is, the connection mode of the first wireless communication circuit 130 and the second wireless communication circuit 230 may be one or more combinations of 2.4G connection, bluetooth connection, infrared connection, WIFI connection, 433M connection, 315M connection or ZigBee connection, and the first wireless communication circuit 130 and the second wireless communication circuit 230 may perform wireless communication, thereby realizing communication connection between the control box and the wireless switch, and controlling the corresponding LED to work. In other embodiments, the connection manner of the first wireless communication module 4 and the second wireless communication module 5 may also be a wireless connection technology known to those skilled in the art, which is not described herein again.

Referring to fig. 1 to 4, in an alternative embodiment, the main controller 110 is integrated with a PWM dimming circuit, and an output terminal of the main controller 110 is connected to an input terminal of the PWM dimming circuit, and an output terminal of the PWM dimming circuit is used for connecting an LED lamp.

In this embodiment, the main controller outputs a PWM dimming signal, and the PWM dimming signal is output to the LED lamp through the PWM dimming circuit, so that the main controller 110 realizes dimming of the LED lamp.

Further, the PWM dimming circuit includes a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, a first electronic switch Q1, a second electronic switch Q2, and a third electronic switch Q3, wherein a first end of the first resistor R1 is used for inputting a PWM dimming signal, and a second end of the first resistor R1, a controlled end of the first electronic switch Q1, and a first end of the second resistor R2 are interconnected; a first connection end of the first electronic switch Q1, a first end of the fourth resistor R4 and a first end of the third resistor R3 are interconnected, a second connection end of the first electronic switch Q1, a second end of the second resistor R2, a second end of the fifth resistor R5, a second end of the sixth resistor R6 and a second connection end of the third electronic switch Q3 are grounded; the second end of the third resistor R3, the first end of the fifth resistor R5 and the controlled end of the second electronic switch Q2 are interconnected; the first connection end of the second electronic switch Q2, the second end of the seventh resistor R7, the first end of the sixth resistor R6 and the controlled end of the third electronic switch Q3 are interconnected; a second terminal of the fourth resistor R4, a first terminal of the seventh resistor R7, and a first terminal of the LED lamp are interconnected; the second end of LED lamp with third electronic switch Q3's second link is connected, the first end of LED lamp is used for connecting first direct current power VCC, and this first direct current power VCC can be 12V or 24V's direct current after power supply 400 conversion.

In this embodiment, the PWM dimming circuit includes a controller outputting a PWM dimming signal, a 12V/24V input power supply, a driving circuit composed of a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4, a fifth resistor R5, a first electronic switch Q1, and a second electronic switch Q2, and an LED lighting circuit composed of a sixth resistor, a seventh resistor, a third electronic switch Q3, and an LED lamp. The controller is the main controller 110, and in the initial state, the controller outputs a low level, and the first electronic switch Q1 and the second electronic switch Q2 are in an off state. At this time, the seventh resistor R7 receives a high-level driving signal to the controlled terminal of the third electronic switch Q3, so as to drive the third electronic switch Q3 to be turned on, and the LED lamp is connected to the VCC loop, so that the LED lamp is turned on. The controller can adjust the brightness of the LED lamp by controlling the duty ratio of the output PWM signal. When the first electronic switch Q1 and the second electronic switch Q2 receive the high-level signal output by the controller to be turned on, the low-level driving signal is output to the controlled terminal of the third electronic switch Q3, so that the third electronic switch Q3 is driven to be turned off, and the LED lamp is turned off.

In this embodiment, the first electronic switch Q1 and the second electronic switch Q2 are NPN transistors, and the third electronic switch Q3 is an NMOS transistor. In other embodiments, the first electronic switch Q1, the second electronic switch Q2, and the third electronic switch Q3 may be implemented by using other types of switching tubes, which is not limited herein.

The utility model also provides a lighting system, lighting system includes as above lamps and lanterns control system. The detailed structure of the lamp control system can refer to the above embodiments, and is not described herein again; it can be understood that, because the utility model discloses above-mentioned lamps and lanterns control system has been used among the lighting system, consequently, the utility model discloses lighting system's embodiment includes all technical scheme of the whole embodiments of above-mentioned lamps and lanterns control system, and the technical effect who reaches is also identical, no longer gives details here.

The above is only the optional embodiment of the present invention, and not therefore the limit of the patent scope of the present invention, all of which are in the concept of the present invention, the equivalent structure transformation of the content of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. A lamp control system is characterized by comprising a control box and at least one wireless switch, wherein the wireless switch is in wireless communication connection with the control box; the output end of the control box is connected with the LED lamp, the control box comprises a main controller, a code matching control circuit, a first wireless communication circuit and a multi-path independent output control interface circuit, the main controller is respectively connected with the code matching control circuit and the first wireless communication circuit, and the output end of the main controller is connected with the multi-path independent output control interface circuit; the output ends of the multiple paths of independent output control interface circuits are connected with the LED lamps in a one-to-one correspondence mode; wherein,

the first wireless communication circuit is used for receiving a wireless switch signal output by the wireless switch;

the code matching control circuit is used for outputting a corresponding code matching signal to the main controller according to an operation instruction of a user;

and the main controller is used for outputting corresponding LED switch control signals to the plurality of paths of independent output control interface circuits according to the code matching signals and the wireless switch signals so as to drive the corresponding LED lamps to work.

2. The lamp control system of claim 1, further comprising a power supply, an output of the power supply being connected to the power input of the control box, the power supply being configured to power the control box and the plurality of LED lamps.

3. The luminaire control system of claim 1, wherein the first wireless communication circuit comprises one or more combinations of a 2.4G module, a bluetooth module, an infrared module, a WIFI module, and a ZigBee module.

4. The luminaire control system of claim 1 wherein the wireless switch comprises one or more combinations of a wireless gesture switch, a wireless PIR switch, a wireless touch switch, a wireless microwave switch, a wireless mechanical push button switch.

5. The lamp control system of claim 1, wherein the wireless switch comprises a battery assembly, a sensing port circuit, a signal processor, and a second wireless communication circuit, and an output terminal of the battery assembly is connected to the sensing port circuit, the signal processor, and the second wireless communication circuit, respectively; the input end of the sensing port circuit is used for inputting a sensing signal, and the output end of the sensing port circuit is connected with the signal processor; the output end of the signal processor is connected with the second wireless communication circuit; the output terminal of the second wireless communication circuit is the output terminal of the wireless switch, wherein,

the sensing port circuit is triggered based on an operation instruction of a user and outputs a corresponding trigger signal to the signal processor;

the signal processor is used for generating a first control signal according to the received trigger signal and outputting the first control signal;

the second wireless communication circuit is configured to output the received first control signal to the first wireless communication circuit.

6. The luminaire control system of claim 5 wherein the sensing port circuitry comprises one or more combinations of a touch component, a mechanical key component, an infrared emission detection component, a human body thermal sensing detection component, a microwave detection component.

7. The luminaire control system of claim 5, wherein the second wireless communication circuit comprises one or more combinations of a 2.4G module, a Bluetooth module, an infrared module, a WIFI module, and a ZigBee module.

8. The lamp control system of claim 1, wherein the master control box comprises a PWM dimming circuit, an output of the master controller is connected to an input of the PWM dimming circuit, and an output of the PWM dimming circuit is used to connect to the LED lamp.

9. The lamp control system of claim 8, wherein the PWM dimming circuit comprises a first resistor, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, a first electronic switch, a second electronic switch, and a third electronic switch, a first end of the first resistor is used for inputting the PWM dimming signal, and a second end of the first resistor, a controlled end of the first electronic switch, and a first end of the second resistor are interconnected; the first connection end of the first electronic switch, the first end of the fourth resistor and the first end of the third resistor are interconnected, and the second connection end of the first electronic switch, the second end of the second resistor, the second end of the fifth resistor, the second end of the sixth resistor and the second connection end of the third electronic switch are grounded; the second end of the third resistor, the first end of the fifth resistor and the controlled end of the second electronic switch are interconnected; the first connecting end of the second electronic switch, the second end of the seventh resistor, the first end of the sixth resistor and the controlled end of the third electronic switch are interconnected; a second end of the fourth resistor, a first end of the seventh resistor and a first end of the LED lamp are interconnected; the second end of the LED lamp is connected with the second connecting end of the third electronic switch, and the first end of the LED lamp is connected with a first direct current power supply.

10. A lighting system comprising a plurality of LED lamps and a luminaire control system as claimed in any one of claims 1 to 9.