CN204362362U - A kind of switching system based on light fixture and radio receiving transmitting module - Google Patents

Abstract

The utility model is applicable to light fixture control field, provides a kind of switching system based on light fixture and radio receiving transmitting module.The described switching system based on light fixture comprises light fixture and radio receiving transmitting module; Described radio receiving transmitting module comprises electronic switch, switch driving circuit and WIFI circuit, and described switch driving circuit is electrically connected with described electronic switch and described WIFI circuit respectively; Described electronic switch and light fixture are connected between zero line and live wire; Described WIFI circuit receives the first switch command of user's triggering by WIFI network; Described switch driving circuit generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch, makes described electronic switch perform the switch motion corresponding with described switching drive signal.Compared to the prior art described in background technology, the wireless remote control distance that can extend one's service, has more practicality.

Description

A kind of switching system based on light fixture and radio receiving transmitting module

Technical field

The utility model belongs to light fixture control field, particularly relates to a kind of switching system based on light fixture and radio receiving transmitting module.

Background technology

Light fixture, comprises lighting and the large class of decorative lamp two.Along with enriching gradually of life, decorative lamp more and more obtains the attention of all trades and professions, and the picture that decorative lamp is combined into is unique aesthetic feeling also.

At present, no matter be lighting and decorative lamp, the mode opened or closed controlling this light fixture has two kinds; The first, light fixture is connected with physical switch, and user can manipulate this physical switch and directly lights light fixture or extinguish light fixture; The second, light fixture is connected with radio frequency controlled switch, user can manipulate remote controller to this radio frequency controlled switch transmit button instruction in certain distance, controls the execution of this radio frequency controlled switch start work (lighting light fixture) or close action (extinguishing light fixture) by this switch command.

Utility model content

The purpose of this utility model is to provide a kind of switching system based on light fixture, is received the first switch command of user's triggering, carry out far distance controlled or Long-distance Control to light fixture by WIFI network.

First aspect, a kind of switching system based on light fixture of the utility model, the described switching system based on light fixture comprises light fixture, and the described switching system based on light fixture also comprises radio receiving transmitting module; Described radio receiving transmitting module comprises electronic switch, switch driving circuit and WIFI circuit, and described switch driving circuit is electrically connected with described electronic switch and described WIFI circuit respectively; Described electronic switch and light fixture are connected between zero line and live wire;

Described WIFI circuit receives the first switch command of user's triggering by WIFI network;

Described switch driving circuit generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch, makes described electronic switch perform the switch motion corresponding with described switching drive signal.

Alternatively, the described switching system based on light fixture also comprises physical switch, and described physical switch is electrically connected with described switch driving circuit;

Described switch driving circuit generates described switching drive signal when second switch instruction being detected, and described second switch instruction refers to: user manipulates the switch command that described physical switch triggers.

Alternatively, described radio receiving transmitting module also comprises power circuit; Described power circuit is electrically connected with described WIFI circuit and described switch driving circuit respectively;

Described power circuit is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication to described WIFI circuit supply, with described second signal of telecommunication, described switch driving circuit is powered.

Alternatively, the described switching system based on light fixture comprises WIFI router and remote control module;

Between described WIFI router with described WIFI circuit, WIFI is connected, and described WIFI router is connected with WIFI between described remote control module;

Described WIFI router receives described first switch command that user is triggered by described remote control module, and described first switch command that user triggers is forwarded to described WIFI circuit.

Alternatively, described remote control module comprises following one or more: the mobile terminal having the remote controller of WIFI communication capacity, have the remote control panel of WIFI communication capacity, have WIFI communication capacity;

Wherein, described mobile terminal has installed the application program for generating described first switch command.

Alternatively, described WIFI circuit has data terminal and Enable Pin;

Described WIFI circuit comprises WIFI transceiving chip, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, NPN type triode, P type metal-oxide-semiconductor, the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 13 electric capacity and antenna;

The data pin of described WIFI transceiving chip is the data terminal of described WIFI circuit, the first end of described second resistance is the Enable Pin of described WIFI circuit, the first end of described first resistance and the second end correspondence connect first end and the ground of described second resistance, state first end and corresponding the second end and the ground connecing described second resistance of the second end of the first electric capacity, the base stage of described NPN type triode, emitter and collector correspondence connects the second end of described second resistance, the grid of ground and described P type metal-oxide-semiconductor, the first end of described 3rd resistance and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor, the drain electrode of described P type metal-oxide-semiconductor and source electrode correspondence connect the power pins of described WIFI transceiving chip, the first end of described second electric capacity and the second end correspondence connect the first transmitting-receiving pin and the second transmitting-receiving pin of described WIFI transceiving chip, the first end of described 4th electric capacity and the second end correspondence connect the first transmitting-receiving pin of described WIFI transceiving chip and the first end of described 5th electric capacity, the first end of described 3rd electric capacity and the second end correspondence connect the second transmitting-receiving pin of described WIFI transceiving chip and the second end of described 5th electric capacity, the first end of described 4th resistance and the second end correspondence connect the second end and the ground of described 4th electric capacity, the first end of described 6th electric capacity and the second end correspondence connect the second end and the ground of described 3rd electric capacity, the first end of described 7th electric capacity and the second end correspondence connect the second end of described 4th electric capacity and the first end of the 9th electric capacity, the first end of described 5th resistance and the second end correspondence connect the second end of described 7th electric capacity and the first end of described 6th electric capacity, the first end of described 8th electric capacity and the second end correspondence connect first end and the ground of described 7th electric capacity, the first end of described 9th electric capacity and the second end correspondence connect the first end of described 8th electric capacity and the first end of described 13 electric capacity, the first end of described tenth electric capacity and the second end correspondence connect ground two end and the ground of described 9th electric capacity, described 11 electric capacity and described 12 Capacitance parallel connection are between the first end and ground of described 13 electric capacity, antenna described in second termination of described 13 electric capacity.

Second aspect, the utility model also provides a kind of radio receiving transmitting module, external light fixture, described radio receiving transmitting module comprises electronic switch, switch driving circuit and WIFI circuit, described switch driving circuit is electrically connected with described electronic switch and described WIFI circuit respectively, and described electronic switch and described light fixture are connected between zero line and live wire;

Described WIFI circuit receives the first switch command of user's triggering by WIFI network;

Described switch driving circuit generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch, makes described electronic switch perform the switch motion corresponding with described switching drive signal.

Alternatively, described radio receiving transmitting module also comprises power circuit; Described power circuit is electrically connected with described WIFI circuit and described switch driving circuit respectively;

Described power circuit is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication to described WIFI circuit supply, with described second signal of telecommunication, described switch driving circuit is powered.

Alternatively, described WIFI circuit is connected with WIFI router WIFI, described WIFI router and remote control module wireless connections;

Described WIFI circuit receives described first switch command forwarded by described WIFI router, and described first switch command that described WIFI router forwards refers to: described first switch command that described WIFI router receives, user is triggered by described remote control module.

Alternatively, described WIFI circuit has data terminal and Enable Pin;

Described WIFI circuit comprises WIFI transceiving chip, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, NPN type triode, P type metal-oxide-semiconductor, the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 13 electric capacity and antenna;

The data pin of described WIFI transceiving chip is the data terminal of described WIFI circuit, the first end of described second resistance is the Enable Pin of described WIFI circuit, the first end of described first resistance and the second end correspondence connect first end and the ground of described second resistance, state first end and corresponding the second end and the ground connecing described second resistance of the second end of the first electric capacity, the base stage of described NPN type triode, emitter and collector correspondence connects the second end of described second resistance, the grid of ground and described P type metal-oxide-semiconductor, the first end of described 3rd resistance and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor, the drain electrode of described P type metal-oxide-semiconductor and source electrode correspondence connect the power pins of described WIFI transceiving chip, the first end of described second electric capacity and the second end correspondence connect the first transmitting-receiving pin and the second transmitting-receiving pin of described WIFI transceiving chip, the first end of described 4th electric capacity and the second end correspondence connect the first transmitting-receiving pin of described WIFI transceiving chip and the first end of described 5th electric capacity, the first end of described 3rd electric capacity and the second end correspondence connect the second transmitting-receiving pin of described WIFI transceiving chip and the second end of described 5th electric capacity, the first end of described 4th resistance and the second end correspondence connect the second end and the ground of described 4th electric capacity, the first end of described 6th electric capacity and the second end correspondence connect the second end and the ground of described 3rd electric capacity, the first end of described 7th electric capacity and the second end correspondence connect the second end of described 4th electric capacity and the first end of the 9th electric capacity, the first end of described 5th resistance and the second end correspondence connect the second end of described 7th electric capacity and the first end of described 6th electric capacity, the first end of described 8th electric capacity and the second end correspondence connect first end and the ground of described 7th electric capacity, the first end of described 9th electric capacity and the second end correspondence connect the first end of described 8th electric capacity and the first end of described 13 electric capacity, the first end of described tenth electric capacity and the second end correspondence connect ground two end and the ground of described 9th electric capacity, described 11 electric capacity and described 12 Capacitance parallel connection are between the first end and ground of described 13 electric capacity, antenna described in second termination of described 13 electric capacity.

The beneficial effects of the utility model are: after radio receiving transmitting module adds WIFI circuit, the first switch command that radio receiving transmitting module can be triggered by WIFI circuit reception user's far distance controlled or Long-distance Control, by the generation of this first switch command trigger switch drive singal, described electronic switch is made to perform the switch motion corresponding with described switching drive signal; Compared to above-mentioned prior art, the wireless remote control distance that can extend one's service, has more practicality.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the basic block diagram of the switching system based on light fixture that the utility model embodiment provides;

Fig. 2 to optimize structure figure based on the one provided based on the switching system of light fixture of Fig. 1;

Fig. 3 to optimize structure figure based on the one provided based on the switching system of light fixture of Fig. 1;

Fig. 4 to optimize structure figure based on the one provided based on the switching system of light fixture of Fig. 1;

Fig. 5 is a kind of physical circuit figure of WIFI circuit in Fig. 1.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.In order to technical scheme described in the utility model is described, be described below by specific embodiment.

In the utility model embodiment, the switching system based on light fixture comprises one or more light fixture; Be respectively each light fixture and be configured with electronic switch; It should be noted that, this electronic switch is: perform the gate-controlled switch starting work/pass action that switching drive signal is specified.To employing, which kind of has controlled electronic switch as this electronic switch to the utility model embodiment, does not limit; Such as, adopt relay switch as this electronic switch.

As an execution mode, electronic switch simultaneously and multiple light fixture be connected between zero line and live wire, like this, control multiple light fixture by this electronic switch simultaneously and light or extinguish.Particularly, if switching drive signal specifies this electronic switch to perform start work, then the electrical connection of the multiple light fixture of this electronic switch conducting simultaneously, multiple light fixture is lighted simultaneously; If switching drive signal specifies this electronic switch to perform close action, then this electronic switch disconnects the electrical connection of multiple light fixture simultaneously, and multiple light fixture extinguishes simultaneously.

As an execution mode, be that a light fixture configures an electronic switch, a light fixture and an electronic switch are connected between zero line and live wire; If switching drive signal specifies this electronic switch to perform start work, then the electrical connection of this electronic switch conducting and this light fixture (connecting with this electronic switch), this light fixture is lighted simultaneously; If switching drive signal specifies this electronic switch to perform close action, then this electronic switch disconnects the electrical connection of this light fixture (connecting with this electronic switch), and this light fixture extinguishes.

Because background technology cannot realize at a distance to control light fixture, the utility model embodiment with the addition of WIFI circuit in radio receiving transmitting module.Fig. 1 shows the basic structure of the switching system based on light fixture that the utility model embodiment provides, and for convenience of description, illustrate only the part relevant to the utility model embodiment.

The switching system based on light fixture that the utility model embodiment provides, as shown in Figure 1, the described switching system based on light fixture comprises light fixture, and the described switching system based on light fixture also comprises radio receiving transmitting module 11; Described radio receiving transmitting module 11 comprises electronic switch 113, switch driving circuit 112 and WIFI circuit 111, and described switch driving circuit 112 is electrically connected with described electronic switch 113 and described WIFI circuit 111 respectively; Described electronic switch 113 and light fixture are connected between zero line and live wire;

Wherein, described WIFI circuit 111 is for accessing the WIFI network of other WIFI hot spot foundation; Described WIFI circuit 111 also can be used for setting up WIFI hot spot.

In the utility model embodiment, no matter described radio receiving transmitting module 11 accesses WIFI network by WIFI circuit 111, or WIFI circuit 111 is arranged to WIFI hot spot to set up WIFI network by described radio receiving transmitting module 11.Other electronic equipment this WIFI network all accessible, described radio receiving transmitting module 11 carries out transfer of data by WIFI circuit 111 and this electronic equipment.

WIFI circuit 111 as shown in Figure 1, in the utility model embodiment, described WIFI circuit 111 receives the first switch command of user's triggering by WIFI network.

Particularly, when user expects that manipulation light fixture is lighted or extinguishes, user can manipulate electronic equipment and trigger described first switch command.

Under the state of this electronic equipment access network based on ethernet, described first switch command to be sent to by this Ethernet the WIFI network that described WIFI circuit 111 accessed by this electronic equipment, and described WIFI circuit 111 receives this first switch command by this WIFI network.

Under the state that this electronic equipment and described WIFI circuit 111 have accessed same WIFI network, this electronic equipment forwards described first switch command to described WIFI circuit 111 by the WIFI hot spot in this WIFI network.

Switch driving circuit 112 as shown in Figure 1, described switch driving circuit 112 generates switching drive signal when described first switch command being detected, export described switching drive signal to described electronic switch 113, make described electronic switch 113 perform the switch motion corresponding with described switching drive signal.

It should be noted that, described first switch command is for opening instruction or closing instruction.Accordingly, if described first switch command that detects of switch driving circuit 112 for described in open instruction, then generate and specify described electronic switch 113 to perform the switching drive signal starting work; If described first switch command that switch driving circuit 112 detects is the instruction of described pass, then generates and specify described electronic switch 113 to perform the switching drive signal closing action.Accordingly, when described electronic switch 113 execution is started and done, by the electrical connection of this electronic switch 113 conducting light fixture (and this electronic switch 113 is connected between zero line and live wire), this light fixture is lighted; When described electronic switch 113 performs and closes action, disconnected the electrical connection of light fixture (and this electronic switch 113 is connected between zero line and live wire) by this electronic switch 113, this light fixture extinguishes.

The one that Fig. 2 shows the switching system based on light fixture that Fig. 1 provides is optimized structure, and for convenience of description, illustrate only the part relevant to the utility model embodiment.

As the utility model embodiment one execution mode, as shown in Figure 2, the described switching system based on light fixture also comprises physical switch 12, and described physical switch 12 is electrically connected with described switch driving circuit 112; Described switch driving circuit 112 generates described switching drive signal when second switch instruction being detected, and described second switch instruction refers to: user manipulates the switch command that described physical switch 12 triggers.

It should be noted that, the physical switch 12 described in present embodiment can contact and the switch operated for user, but is which kind of switchtype or switch variety for this physical switch 12, does not limit at this.

Such as, adopt single-pole single-throw switch (SPST) as described physical switch 12, one end ground connection of this single-pole single-throw switch (SPST), the other end of this single-pole single-throw switch (SPST) is electrically connected with described switch driving circuit 112, when this single-pole single-throw switch (SPST) closes by user, described switch driving circuit 112 detects low levelly opens instruction, and when this single-pole single-throw switch (SPST) is not closed, described switch driving circuit 112 detects pass instruction.

Again such as, adopt push switch as described physical switch 12, one end ground connection of this push switch, the other end of this push switch is electrically connected with described switch driving circuit 112, when user's odd number presses this push switch, described switch driving circuit 112 detects low levelly opens instruction, and when user's even-times presses this push switch, described switch driving circuit 112 detects pass instruction.

It should be noted that, described second switch instruction and described first switch command similar, described second switch instruction for open instruction or close instruction.Accordingly, if the described second switch instruction that detects of switch driving circuit 112 for described in open instruction, then generate and specify described electronic switch 113 to perform the switching drive signal starting work; If the described second switch instruction that switch driving circuit 112 detects is the instruction of described pass, then generates and specify described electronic switch 113 to perform the switching drive signal closing action.Accordingly, when described electronic switch 113 execution is started and done, by the electrical connection of this electronic switch 113 conducting light fixture (and this electronic switch 113 is connected between zero line and live wire), this light fixture is lighted; When described electronic switch 113 performs and closes action, disconnected the electrical connection of light fixture (and this electronic switch 113 is connected between zero line and live wire) by this electronic switch 113, this light fixture extinguishes.

The one that Fig. 3 shows the switching system based on light fixture that Fig. 1 provides is optimized structure, and for convenience of description, illustrate only the part relevant to the utility model embodiment.

As the utility model embodiment one execution mode, as shown in Figure 3, described radio receiving transmitting module 11 also comprises power circuit 114; Described power circuit 114 is electrically connected with described WIFI circuit 111 and described switch driving circuit 112 respectively;

Described power circuit 114 is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication, described WIFI circuit 111 is powered, with described second signal of telecommunication, described switch driving circuit 112 is powered.

It should be noted that, described first signal of telecommunication and described second signal of telecommunication are the different signal of telecommunication of two-way; This two path signal is carried out Voltage Cortrol gained by described power circuit 114 and exports.

Wherein, described first signal of telecommunication is the power supply signal needed for described WIFI circuit 111; The power supply signal of described second signal of telecommunication needed for described switch driving circuit 112 module.

The switching system based on light fixture that Fig. 4 shows to be provided based on Fig. 1, Fig. 2 or Fig. 3 is optimized and the one obtained is optimized structure, and for convenience of description, illustrate only the part relevant to the utility model embodiment.

As the utility model embodiment one execution mode, as shown in Figure 4, the described switching system based on light fixture comprises WIFI router one 3 and remote control module 14; Between described WIFI router one 3 with described WIFI circuit 111, WIFI is connected, and between described WIFI router one 3 with described remote control module 14, WIFI is connected.

Wherein, between described WIFI router one 3 with described WIFI circuit 111, WIFI is connected; Particularly, described WIFI router one 3 and described WIFI circuit 111 access same WIFI network, and whom this WIFI network initiated and set up by, do not limit at this, such as, set up this WIFI network by described WIFI circuit 111 as focus.

Wherein, between described WIFI router one 3 with described remote control module 14, WIFI is connected; Illustrate, described WIFI router one 3 can access same WIFI network with described remote control module 14 simultaneously; Illustrate, set up WIFI network by WIFI router one 3 as WIFI hot spot, described remote control module 14 accesses this WIFI network again; Illustrate, set up WIFI network by described remote control module 14 as WIFI hot spot, WIFI router one 3 accesses this WIFI network again.

Particularly, described remote control module 14 and described radio receiving transmitting module 11 carry out in the process of data interaction, described WIFI router one 3 for: between described remote control module 14 and described radio receiving transmitting module 11, carry out data retransmission.

In the present embodiment, described WIFI router one 3 receives described first switch command that user is triggered by described remote control module 14, and described first switch command that user triggers is forwarded to described WIFI circuit 111.

First, user manipulates this remote control module 14 and triggers described first switch command; Described first switch command, when described first switch command being detected, sends to described WIFI router one 3 by this remote control module 14; Described first switch command received from this remote control module 14 is forwarded to described radio receiving transmitting module 11 by described WIFI router one 3, and described radio receiving transmitting module 11 carries out coupling by described WIFI circuit 111 to described first switch command and receives.

As the optional execution mode of the utility model embodiment one, described remote control module 14 comprises following one or more: the mobile terminal having the remote controller of WIFI communication capacity, have the remote control panel of WIFI communication capacity, have WIFI communication capacity; Wherein, described mobile terminal has installed the application program for generating described first switch command.

Because above-mentioned remote controller, remote control panel and mobile terminal all have WIFI communication capacity, therefore above-mentioned remote controller, remote control panel and mobile terminal all can access same wireless network with WIFI router one 313.Above-mentioned remote controller, remote control panel and mobile terminal carry out transfer of data by this wireless network and WIFI router one 3.

Preferably, above-mentioned remote controller, remote control panel and mobile terminal all have WIFI communication capacity, and therefore above-mentioned remote controller, remote control panel and mobile terminal all can access same WIFI network with WIFI router one 313.Above-mentioned remote controller, remote control panel and mobile terminal carry out transfer of data by this WIFI network and WIFI router one 3.

Illustrate, when described mobile terminal has installed the application program for generating described first switch command, user can manipulate this mobile terminal to trigger described first switch command, and manipulates this mobile terminal and this first switch command sent to described WIFI router one 3; Then, this first switch command received from this mobile terminal is forwarded to radio receiving transmitting module 11 by WIFI router one 3.

The one that Fig. 5 shows WIFI circuit 111 in Fig. 1 is optimized structure, and for convenience of description, illustrate only the part relevant to the utility model embodiment.

As a specific implementation of WIFI circuit 111, as shown in Figure 5, described WIFI circuit 111 has data terminal D and Enable Pin POW_EN;

Described WIFI circuit 111 comprises WIFI transceiving chip U1, the first resistance R1, the second resistance R2, the 3rd resistance R3, the 4th resistance R4, the 5th resistance R5, NPN type triode Q1, P type metal-oxide-semiconductor Q2, the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th electric capacity C5, the 6th electric capacity C6, the 7th electric capacity C7, the 8th electric capacity C8, the 9th electric capacity C9, the tenth electric capacity C10, the 11 electric capacity C11, the 12 electric capacity C12, the 13 electric capacity C13 and antenna;

The data pin D of described WIFI transceiving chip U1 is the data terminal DA of described WIFI circuit 111, the first end of described second resistance R2 is the Enable Pin POW_EN of described WIFI circuit 111, the first end of described first resistance R1 and the second end correspondence connect first end and the ground of described second resistance R2, state first end and corresponding the second end and the ground meeting described second resistance R2 of the second end of the first electric capacity C1, the base stage of described NPN type triode Q1, emitter and collector correspondence connects second end of described second resistance R2, the grid of ground and described P type metal-oxide-semiconductor Q2, the first end of described 3rd resistance R3 and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor Q2, the drain electrode of described P type metal-oxide-semiconductor Q2 and source electrode correspondence meet the power pins RF_POW of described WIFI transceiving chip U1, the first end of described second electric capacity C2 and the second end correspondence meet first transmitting-receiving pin RF_N and the second transmitting-receiving pin RF_P of described WIFI transceiving chip U1, the first end of described 4th electric capacity C4 and the second end correspondence connect the first end of the first transmitting-receiving pin RF_N and described 5th electric capacity C5 of described WIFI transceiving chip U1, the first end of described 3rd electric capacity C3 and the second end correspondence connect second end of the second transmitting-receiving pin RF_P and described 5th electric capacity C5 of described WIFI transceiving chip U1, the first end of described 4th resistance R4 and the second end correspondence connect the second end and the ground of described 4th electric capacity C4, the first end of described 6th electric capacity C6 and the second end correspondence connect the second end and the ground of described 3rd electric capacity C3, the first end of described 7th electric capacity C7 and the second end correspondence connect second end of described 4th electric capacity C4 and the first end of the 9th electric capacity C9, the first end of described 5th resistance R5 and the second end correspondence connect second end of described 7th electric capacity C7 and the first end of described 6th electric capacity C6, the first end of described 8th electric capacity C8 and the second end correspondence connect first end and the ground of described 7th electric capacity C7, the first end of described 9th electric capacity C9 and the second end correspondence connect the first end of described 8th electric capacity C8 and the first end of described 13 electric capacity C13, the first end of described tenth electric capacity C10 and the second end correspondence connect ground two end and the ground of described 9th electric capacity C9, between the first end that described 11 electric capacity C11 and described 12 electric capacity C12 is connected in parallel on described 13 electric capacity C13 and ground, antenna described in second termination of described 13 electric capacity C13.

The operation principle of the WIFI circuit 111 shown in Fig. 5 is: user triggers the enable signal of high potential, or triggers the enable signal of high potential by radio receiving transmitting module 1112 (such as modulation circuit 122); During WIFI circuit 111 accesses this enable signal from Enable Pin POW_EN, NPN type triode Q1 and P type metal-oxide-semiconductor Q2 conducting successively, the power pins RF_POW of WIFI transceiving chip U1 accesses power supply signal (this power supply signal is by power supply exporting with P type metal-oxide-semiconductor Q2 through conducting) to make WIFI transceiving chip U1 work on power.

At WIFI transceiving chip U1 duration of work, form WIFI radio circuit 123 by the second electric capacity C2, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th electric capacity C5, the 6th electric capacity C6, the 7th electric capacity C7, the 4th resistance R4, the 5th resistance R5, the 8th electric capacity C8, the 9th electric capacity C9, the tenth electric capacity C10, the 11 electric capacity C11, the 12 electric capacity C12, the 13 electric capacity C13 and antenna, be loaded with the WIFI signal of WIFI data by the reception of this WIFI radio circuit 123 and send the WIFI signal being loaded with WIFI data.

Illustrate, after radio receiving transmitting module 1112 accesses same WiFi network by this WIFI circuit 111 and WIFI router one 313, WIFI router one 313 forwards described first switch command (one for these WIFI data) to this WIFI circuit 111, this WIFI circuit 111 carries out coupling by this WIFI radio circuit 123 to described first switch command and receives, and described first switch command received that is coupled is sent to modulation circuit 122 by data terminal D by WIFI transceiving chip U1.

The utility model embodiment provides also provides a kind of radio receiving transmitting module 11, the external light fixture of described radio receiving transmitting module 11, described radio receiving transmitting module 11 comprises electronic switch 113, switch driving circuit 112 and WIFI circuit, described switch driving circuit 112 is electrically connected with described electronic switch 113 and described WIFI circuit respectively, and described electronic switch 113 and described light fixture are connected between zero line and live wire;

Described WIFI circuit receives the first switch command of user's triggering by WIFI network;

Described switch driving circuit 112 generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch 113, makes described electronic switch 113 perform the switch motion corresponding with described switching drive signal.

Alternatively, described radio receiving transmitting module 11 also comprises power circuit 114; Described power circuit 114 is electrically connected with described WIFI circuit 111 and described switch driving circuit 112 respectively;

Described power circuit 114 is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication, described WIFI circuit 111 is powered, with described second signal of telecommunication, described switch driving circuit 112 is powered.

Alternatively, see Fig. 5, described WIFI circuit 111 is connected with WIFI router one 3WIFI, described WIFI router one 3 and remote control module 14 wireless connections;

Described WIFI circuit 111 receives described first switch command forwarded by described WIFI router one 3, and described first switch command that described WIFI router one 3 forwards refers to: described first switch command that described WIFI router one 3 receives, user is triggered by described remote control module 14.

Alternatively, described WIFI circuit 111 has data terminal D and Enable Pin POW_EN;

Described WIFI circuit 111 comprises WIFI transceiving chip U1, the first resistance R1, the second resistance R2, the 3rd resistance R3, the 4th resistance R4, the 5th resistance R5, NPN type triode Q1, P type metal-oxide-semiconductor Q2, the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th electric capacity C5, the 6th electric capacity C6, the 7th electric capacity C7, the 8th electric capacity C8, the 9th electric capacity C9, the tenth electric capacity C10, the 11 electric capacity C11, the 12 electric capacity C12, the 13 electric capacity C13 and antenna;

The data pin D of described WIFI transceiving chip U1 is the data terminal DA of described WIFI circuit 111, the first end of described second resistance R2 is the Enable Pin POW_EN of described WIFI circuit 111, the first end of described first resistance R1 and the second end correspondence connect first end and the ground of described second resistance R2, state first end and corresponding the second end and the ground meeting described second resistance R2 of the second end of the first electric capacity C1, the base stage of described NPN type triode Q1, emitter and collector correspondence connects second end of described second resistance R2, the grid of ground and described P type metal-oxide-semiconductor Q2, the first end of described 3rd resistance R3 and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor Q2, the drain electrode of described P type metal-oxide-semiconductor Q2 and source electrode correspondence meet the power pins RF_POW of described WIFI transceiving chip U1, the first end of described second electric capacity C2 and the second end correspondence meet first transmitting-receiving pin RF_N and the second transmitting-receiving pin RF_P of described WIFI transceiving chip U1, the first end of described 4th electric capacity C4 and the second end correspondence connect the first end of the first transmitting-receiving pin RF_N and described 5th electric capacity C5 of described WIFI transceiving chip U1, the first end of described 3rd electric capacity C3 and the second end correspondence connect second end of the second transmitting-receiving pin RF_P and described 5th electric capacity C5 of described WIFI transceiving chip U1, the first end of described 4th resistance R4 and the second end correspondence connect the second end and the ground of described 4th electric capacity C4, the first end of described 6th electric capacity C6 and the second end correspondence connect the second end and the ground of described 3rd electric capacity C3, the first end of described 7th electric capacity C7 and the second end correspondence connect second end of described 4th electric capacity C4 and the first end of the 9th electric capacity C9, the first end of described 5th resistance R5 and the second end correspondence connect second end of described 7th electric capacity C7 and the first end of described 6th electric capacity C6, the first end of described 8th electric capacity C8 and the second end correspondence connect first end and the ground of described 7th electric capacity C7, the first end of described 9th electric capacity C9 and the second end correspondence connect the first end of described 8th electric capacity C8 and the first end of described 13 electric capacity C13, the first end of described tenth electric capacity C10 and the second end correspondence connect ground two end and the ground of described 9th electric capacity C9, between the first end that described 11 electric capacity C11 and described 12 electric capacity C12 is connected in parallel on described 13 electric capacity C13 and ground, antenna described in second termination of described 13 electric capacity C13.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field; make some equivalent alternative or obvious modification without departing from the concept of the premise utility; and performance or purposes identical, all should be considered as belonging to the scope of patent protection that the utility model is determined by submitted to claims.

Claims (10)

1. based on a switching system for light fixture, the described switching system based on light fixture comprises light fixture, it is characterized in that, the described switching system based on light fixture also comprises radio receiving transmitting module; Described radio receiving transmitting module comprises electronic switch, switch driving circuit and WIFI circuit, and described switch driving circuit is electrically connected with described electronic switch and described WIFI circuit respectively; Described electronic switch and light fixture are connected between zero line and live wire;

Described WIFI circuit receives the first switch command of user's triggering by WIFI network;

Described switch driving circuit generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch, makes described electronic switch perform the switch motion corresponding with described switching drive signal.

2., as claimed in claim 1 based on the switching system of light fixture, it is characterized in that, the described switching system based on light fixture also comprises physical switch, and described physical switch is electrically connected with described switch driving circuit;

Described switch driving circuit generates described switching drive signal when second switch instruction being detected, and described second switch instruction refers to: user manipulates the switch command that described physical switch triggers.

3., as claimed in claim 2 based on the switching system of light fixture, it is characterized in that, described radio receiving transmitting module also comprises power circuit; Described power circuit is electrically connected with described WIFI circuit and described switch driving circuit respectively;

Described power circuit is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication to described WIFI circuit supply, with described second signal of telecommunication, described switch driving circuit is powered.

4. the switching system based on light fixture as described in any one of claims 1 to 3, is characterized in that, the described switching system based on light fixture comprises WIFI router and remote control module;

Between described WIFI router with described WIFI circuit, WIFI is connected, and described WIFI router is connected with WIFI between described remote control module;

Described WIFI router receives described first switch command that user is triggered by described remote control module, and described first switch command that user triggers is forwarded to described WIFI circuit.

5. as claimed in claim 4 based on the switching system of light fixture, it is characterized in that, described remote control module comprises following one or more: the mobile terminal having the remote controller of WIFI communication capacity, have the remote control panel of WIFI communication capacity, have WIFI communication capacity;

Wherein, described mobile terminal has installed the application program for generating described first switch command.

6., as claimed in claim 1 based on the switching system of light fixture, it is characterized in that, described WIFI circuit has data terminal and Enable Pin;

Described WIFI circuit comprises WIFI transceiving chip, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, NPN type triode, P type metal-oxide-semiconductor, the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 13 electric capacity and antenna;

The data pin of described WIFI transceiving chip is the data terminal of described WIFI circuit, the first end of described second resistance is the Enable Pin of described WIFI circuit, the first end of described first resistance and the second end correspondence connect first end and the ground of described second resistance, state first end and corresponding the second end and the ground connecing described second resistance of the second end of the first electric capacity, the base stage of described NPN type triode, emitter and collector correspondence connects the second end of described second resistance, the grid of ground and described P type metal-oxide-semiconductor, the first end of described 3rd resistance and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor, the drain electrode of described P type metal-oxide-semiconductor and source electrode correspondence connect the power pins of described WIFI transceiving chip, the first end of described second electric capacity and the second end correspondence connect the first transmitting-receiving pin and the second transmitting-receiving pin of described WIFI transceiving chip, the first end of described 4th electric capacity and the second end correspondence connect the first transmitting-receiving pin of described WIFI transceiving chip and the first end of described 5th electric capacity, the first end of described 3rd electric capacity and the second end correspondence connect the second transmitting-receiving pin of described WIFI transceiving chip and the second end of described 5th electric capacity, the first end of described 4th resistance and the second end correspondence connect the second end and the ground of described 4th electric capacity, the first end of described 6th electric capacity and the second end correspondence connect the second end and the ground of described 3rd electric capacity, the first end of described 7th electric capacity and the second end correspondence connect the second end of described 4th electric capacity and the first end of the 9th electric capacity, the first end of described 5th resistance and the second end correspondence connect the second end of described 7th electric capacity and the first end of described 6th electric capacity, the first end of described 8th electric capacity and the second end correspondence connect first end and the ground of described 7th electric capacity, the first end of described 9th electric capacity and the second end correspondence connect the first end of described 8th electric capacity and the first end of described 13 electric capacity, the first end of described tenth electric capacity and the second end correspondence connect ground two end and the ground of described 9th electric capacity, described 11 electric capacity and described 12 Capacitance parallel connection are between the first end and ground of described 13 electric capacity, antenna described in second termination of described 13 electric capacity.

7. a radio receiving transmitting module, external light fixture, it is characterized in that, described radio receiving transmitting module comprises electronic switch, switch driving circuit and WIFI circuit, described switch driving circuit is electrically connected with described electronic switch and described WIFI circuit respectively, and described electronic switch and described light fixture are connected between zero line and live wire;

Described WIFI circuit receives the first switch command of user's triggering by WIFI network;

Described switch driving circuit generates switching drive signal when described first switch command being detected, exports described switching drive signal to described electronic switch, makes described electronic switch perform the switch motion corresponding with described switching drive signal.

8. radio receiving transmitting module as claimed in claim 7, it is characterized in that, described radio receiving transmitting module also comprises power circuit; Described power circuit is electrically connected with described WIFI circuit and described switch driving circuit respectively;

Described power circuit is by described zero line and described live wire access civil power, successively rectifying and wave-filtering, Voltage Cortrol are carried out to the civil power of access, Voltage Cortrol goes out first signal of telecommunication and second signal of telecommunication, with described first signal of telecommunication to described WIFI circuit supply, with described second signal of telecommunication, described switch driving circuit is powered.

9. radio receiving transmitting module as claimed in claim 7, it is characterized in that, described WIFI circuit is connected with WIFI router WIFI, described WIFI router and remote control module wireless connections;

Described WIFI circuit receives described first switch command forwarded by described WIFI router, and described first switch command that described WIFI router forwards refers to: described first switch command that described WIFI router receives, user is triggered by described remote control module.

10. radio receiving transmitting module as claimed in claim 7, it is characterized in that, described WIFI circuit has data terminal and Enable Pin;

Described WIFI circuit comprises WIFI transceiving chip, the first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, NPN type triode, P type metal-oxide-semiconductor, the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity, the 6th electric capacity, the 7th electric capacity, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 13 electric capacity and antenna;

The data pin of described WIFI transceiving chip is the data terminal of described WIFI circuit, the first end of described second resistance is the Enable Pin of described WIFI circuit, the first end of described first resistance and the second end correspondence connect first end and the ground of described second resistance, state first end and corresponding the second end and the ground connecing described second resistance of the second end of the first electric capacity, the base stage of described NPN type triode, emitter and collector correspondence connects the second end of described second resistance, the grid of ground and described P type metal-oxide-semiconductor, the first end of described 3rd resistance and the second end correspondence connect the grid of power supply and described P type metal-oxide-semiconductor, the drain electrode of described P type metal-oxide-semiconductor and source electrode correspondence connect the power pins of described WIFI transceiving chip, the first end of described second electric capacity and the second end correspondence connect the first transmitting-receiving pin and the second transmitting-receiving pin of described WIFI transceiving chip, the first end of described 4th electric capacity and the second end correspondence connect the first transmitting-receiving pin of described WIFI transceiving chip and the first end of described 5th electric capacity, the first end of described 3rd electric capacity and the second end correspondence connect the second transmitting-receiving pin of described WIFI transceiving chip and the second end of described 5th electric capacity, the first end of described 4th resistance and the second end correspondence connect the second end and the ground of described 4th electric capacity, the first end of described 6th electric capacity and the second end correspondence connect the second end and the ground of described 3rd electric capacity, the first end of described 7th electric capacity and the second end correspondence connect the second end of described 4th electric capacity and the first end of the 9th electric capacity, the first end of described 5th resistance and the second end correspondence connect the second end of described 7th electric capacity and the first end of described 6th electric capacity, the first end of described 8th electric capacity and the second end correspondence connect first end and the ground of described 7th electric capacity, the first end of described 9th electric capacity and the second end correspondence connect the first end of described 8th electric capacity and the first end of described 13 electric capacity, the first end of described tenth electric capacity and the second end correspondence connect ground two end and the ground of described 9th electric capacity, described 11 electric capacity and described 12 Capacitance parallel connection are between the first end and ground of described 13 electric capacity, antenna described in second termination of described 13 electric capacity.